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	diff --git a/lib/common/strings.c b/lib/common/strings.c
	index 60758d0f7b..5c75ca5050 100644
	--- a/lib/common/strings.c
	+++ b/lib/common/strings.c
	@@ -1,1033 +1,1036 @@
	/*
	* Copyright 2004-2020 the Pacemaker project contributors
	*
	* The version control history for this file may have further details.
	*
	* This source code is licensed under the GNU Lesser General Public License
	* version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
	*/

	#include <crm_internal.h>

	#ifndef _GNU_SOURCE
	# define _GNU_SOURCE
	#endif

	#include <regex.h>
	#include <stdio.h>
	#include <string.h>
	#include <stdlib.h>
	#include <ctype.h>
	#include <float.h> // DBL_MIN
	#include <limits.h>
	#include <math.h> // fabs()
	#include <bzlib.h>
	#include <sys/types.h>

	char *
	crm_itoa_stack(int an_int, char *buffer, size_t len)
	{
	if (buffer != NULL) {
	snprintf(buffer, len, "%d", an_int);
	}

	return buffer;
	}

	/*!
	* \internal
	* \brief Scan a long long integer from a string
	*
	* \param[in] text String to scan
	* \param[out] result If not NULL, where to store scanned value
	* \param[out] end_text If not NULL, where to store pointer to just after value
	*
	- * \return Standard Pacemaker return code (also set errno on error)
	+ * \return Standard Pacemaker return code (\c pcmk_rc_ok on success,
	+ * \c EINVAL on failed string conversion due to invalid input,
	+ * or \c EOVERFLOW on arithmetic overflow)
	+ * \note Sets \c errno on error
	*/
	static int
	scan_ll(const char text, long long result, char **end_text)
	{
	long long local_result = -1;
	char *local_end_text = NULL;
	int rc = pcmk_rc_ok;

	errno = 0;
	if (text != NULL) {
	#ifdef ANSI_ONLY
	local_result = (long long) strtol(text, &local_end_text, 10);
	#else
	local_result = strtoll(text, &local_end_text, 10);
	#endif
	if (errno == ERANGE) {
	- rc = errno;
	+ rc = EOVERFLOW;
	crm_warn("Integer parsed from %s was clipped to %lld",
	text, local_result);

	} else if (errno != 0) {
	rc = errno;
	local_result = -1;
	crm_err("Could not parse integer from %s (using -1 instead): %s",
	text, pcmk_rc_str(rc));

	} else if (local_end_text == text) {
	rc = EINVAL;
	local_result = -1;
	crm_err("Could not parse integer from %s (using -1 instead): "
	"No digits found", text);
	}

	if ((end_text == NULL) && (local_end_text != NULL)
	&& (local_end_text[0] != '\0')) {
	crm_warn("Characters left over after parsing '%s': '%s'",
	text, local_end_text);
	}
	errno = rc;
	}
	if (end_text != NULL) {
	*end_text = local_end_text;
	}
	if (result != NULL) {
	*result = local_result;
	}
	return rc;
	}

	/*!
	* \brief Parse a long long integer value from a string
	*
	* \param[in] text The string to parse
	* \param[in] default_text Default string to parse if text is NULL
	*
	* \return Parsed value on success, -1 (and set errno) on error
	*/
	long long
	crm_parse_ll(const char text, const char default_text)
	{
	long long result;

	if (text == NULL) {
	text = default_text;
	if (text == NULL) {
	crm_err("No default conversion value supplied");
	errno = EINVAL;
	return -1;
	}
	}
	scan_ll(text, &result, NULL);
	return result;
	}

	/*!
	* \brief Parse an integer value from a string
	*
	* \param[in] text The string to parse
	* \param[in] default_text Default string to parse if text is NULL
	*
	* \return Parsed value on success, INT_MIN or INT_MAX (and set errno to ERANGE)
	* if parsed value is out of integer range, otherwise -1 (and set errno)
	*/
	int
	crm_parse_int(const char text, const char default_text)
	{
	long long result = crm_parse_ll(text, default_text);

	if (result < INT_MIN) {
	// If errno is ERANGE, crm_parse_ll() has already logged a message
	if (errno != ERANGE) {
	crm_err("Conversion of %s was clipped: %lld", text, result);
	errno = ERANGE;
	}
	return INT_MIN;

	} else if (result > INT_MAX) {
	// If errno is ERANGE, crm_parse_ll() has already logged a message
	if (errno != ERANGE) {
	crm_err("Conversion of %s was clipped: %lld", text, result);
	errno = ERANGE;
	}
	return INT_MAX;
	}

	return (int) result;
	}

	/*!
	* \internal
	* \brief Scan a double-precision floating-point value from a string
	*
	* \param[in] text The string to parse
	* \param[out] result Parsed value on success, or -1 on error
	* \param[in] default_text Default string to parse if \p text is
	* \c NULL
	* \param[out] end_text If not \c NULL, where to store a pointer
	* to the position immediately after the
	* value
	*
	* \return Standard Pacemaker return code (\c pcmk_rc_ok on success,
	* \c EINVAL on failed string conversion due to invalid input,
	* \c EOVERFLOW on arithmetic overflow, \c pcmk_rc_underflow
	* on arithmetic underflow, or \c errno from \c strtod() on
	* other parse errors)
	*/
	int
	pcmk__scan_double(const char text, double result, const char *default_text,
	char **end_text)
	{
	int rc = pcmk_rc_ok;
	char *local_end_text = NULL;

	CRM_ASSERT(result != NULL);
	*result = -1.0;

	text = (text != NULL) ? text : default_text;

	if (text == NULL) {
	rc = EINVAL;
	crm_debug("No text and no default conversion value supplied");

	} else {
	errno = 0;
	*result = strtod(text, &local_end_text);

	if (errno == ERANGE) {
	/*
	* Overflow: strtod() returns +/- HUGE_VAL and sets errno to
	* ERANGE
	*
	* Underflow: strtod() returns "a value whose magnitude is
	* no greater than the smallest normalized
	* positive" double. Whether ERANGE is set is
	* implementation-defined.
	*/
	const char *over_under;

	if (fabs(*result) > DBL_MIN) {
	rc = EOVERFLOW;
	over_under = "over";
	} else {
	rc = pcmk_rc_underflow;
	over_under = "under";
	}

	crm_debug("Floating-point value parsed from '%s' would %sflow "
	"(using %g instead)", text, over_under, *result);

	} else if (errno != 0) {
	rc = errno;
	result = -1.0; // strtod() set result = 0 on parse failure
	crm_debug("Could not parse floating-point value from '%s' (using "
	"-1 instead): %s", text, pcmk_rc_str(rc));

	} else if (local_end_text == text) {
	// errno == 0, but nothing was parsed
	rc = EINVAL;
	*result = -1.0;
	crm_debug("Could not parse floating-point value from '%s' (using "
	"-1 instead): No digits found", text);

	} else if (fabs(*result) <= DBL_MIN) {
	/*
	* errno == 0 and text was parsed, but value might have
	* underflowed.
	*
	* ERANGE might not be set for underflow. Check magnitude
	* of *result, but also make sure the input number is not
	* actually zero (0 <= DBL_MIN is not underflow).
	*
	* This check must come last. A parse failure in strtod()
	* also sets *result == 0, so a parse failure would match
	* this test condition prematurely.
	*/
	for (const char *p = text; p != local_end_text; p++) {
	if (strchr("0.eE", *p) == NULL) {
	rc = pcmk_rc_underflow;
	crm_debug("Floating-point value parsed from '%s' would "
	"underflow (using %g instead)", text, *result);
	break;
	}
	}

	} else {
	crm_trace("Floating-point value parsed successfully from "
	"'%s': %g", text, *result);
	}

	if ((end_text == NULL) && !pcmk__str_empty(local_end_text)) {
	crm_debug("Characters left over after parsing '%s': '%s'",
	text, local_end_text);
	}
	}

	if (end_text != NULL) {
	*end_text = local_end_text;
	}

	return rc;
	}

	/*!
	* \internal
	* \brief Parse a guint from a string stored in a hash table
	*
	* \param[in] table Hash table to search
	* \param[in] key Hash table key to use to retrieve string
	* \param[in] default_val What to use if key has no entry in table
	* \param[out] result If not NULL, where to store parsed integer
	*
	* \return Standard Pacemaker return code
	*/
	int
	pcmk__guint_from_hash(GHashTable table, const char key, guint default_val,
	guint *result)
	{
	const char *value;
	long long value_ll;

	CRM_CHECK((table != NULL) && (key != NULL), return EINVAL);

	value = g_hash_table_lookup(table, key);
	if (value == NULL) {
	if (result != NULL) {
	*result = default_val;
	}
	return pcmk_rc_ok;
	}

	errno = 0;
	value_ll = crm_parse_ll(value, NULL);
	if (errno != 0) {
	return errno; // Message already logged
	}
	if ((value_ll < 0) \|\| (value_ll > G_MAXUINT)) {
	crm_warn("Could not parse non-negative integer from %s", value);
	return ERANGE;
	}

	if (result != NULL) {
	*result = (guint) value_ll;
	}
	return pcmk_rc_ok;
	}

	#ifndef NUMCHARS
	# define NUMCHARS "0123456789."
	#endif

	#ifndef WHITESPACE
	# define WHITESPACE " \t\n\r\f"
	#endif

	/*!
	* \brief Parse a time+units string and return milliseconds equivalent
	*
	* \param[in] input String with a number and units (optionally with whitespace
	* before and/or after the number)
	*
	* \return Milliseconds corresponding to string expression, or -1 on error
	*/
	long long
	crm_get_msec(const char *input)
	{
	const char *num_start = NULL;
	const char *units;
	long long multiplier = 1000;
	long long divisor = 1;
	long long msec = -1;
	size_t num_len = 0;
	char *end_text = NULL;

	if (input == NULL) {
	return -1;
	}

	num_start = input + strspn(input, WHITESPACE);
	num_len = strspn(num_start, NUMCHARS);
	if (num_len < 1) {
	return -1;
	}
	units = num_start + num_len;
	units += strspn(units, WHITESPACE);

	if (!strncasecmp(units, "ms", 2) \|\| !strncasecmp(units, "msec", 4)) {
	multiplier = 1;
	divisor = 1;
	} else if (!strncasecmp(units, "us", 2) \|\| !strncasecmp(units, "usec", 4)) {
	multiplier = 1;
	divisor = 1000;
	} else if (!strncasecmp(units, "s", 1) \|\| !strncasecmp(units, "sec", 3)) {
	multiplier = 1000;
	divisor = 1;
	} else if (!strncasecmp(units, "m", 1) \|\| !strncasecmp(units, "min", 3)) {
	multiplier = 60 * 1000;
	divisor = 1;
	} else if (!strncasecmp(units, "h", 1) \|\| !strncasecmp(units, "hr", 2)) {
	multiplier = 60 * 60 * 1000;
	divisor = 1;
	} else if ((units != EOS) && (units != '\n') && (*units != '\r')) {
	return -1;
	}

	scan_ll(num_start, &msec, &end_text);
	if (msec > (LLONG_MAX / multiplier)) {
	// Arithmetics overflow while multiplier/divisor mutually exclusive
	return LLONG_MAX;
	}
	msec *= multiplier;
	msec /= divisor;
	return msec;
	}

	gboolean
	crm_is_true(const char *s)
	{
	gboolean ret = FALSE;

	if (s != NULL) {
	crm_str_to_boolean(s, &ret);
	}
	return ret;
	}

	int
	crm_str_to_boolean(const char s, int ret)
	{
	if (s == NULL) {
	return -1;

	} else if (strcasecmp(s, "true") == 0
	\|\| strcasecmp(s, "on") == 0
	\|\| strcasecmp(s, "yes") == 0 \|\| strcasecmp(s, "y") == 0 \|\| strcasecmp(s, "1") == 0) {
	*ret = TRUE;
	return 1;

	} else if (strcasecmp(s, "false") == 0
	\|\| strcasecmp(s, "off") == 0
	\|\| strcasecmp(s, "no") == 0 \|\| strcasecmp(s, "n") == 0 \|\| strcasecmp(s, "0") == 0) {
	*ret = FALSE;
	return 1;
	}
	return -1;
	}

	char *
	crm_strip_trailing_newline(char *str)
	{
	int len;

	if (str == NULL) {
	return str;
	}

	for (len = strlen(str) - 1; len >= 0 && str[len] == '\n'; len--) {
	str[len] = '\0';
	}

	return str;
	}

	/*!
	* \brief Check whether a string starts with a certain sequence
	*
	* \param[in] str String to check
	* \param[in] prefix Sequence to match against beginning of \p str
	*
	* \return \c true if \p str begins with match, \c false otherwise
	* \note This is equivalent to !strncmp(s, prefix, strlen(prefix))
	* but is likely less efficient when prefix is a string literal
	* if the compiler optimizes away the strlen() at compile time,
	* and more efficient otherwise.
	*/
	bool
	pcmk__starts_with(const char str, const char prefix)
	{
	const char *s = str;
	const char *p = prefix;

	if (!s \|\| !p) {
	return false;
	}
	while (s && p) {
	if (s++ != p++) {
	return false;
	}
	}
	return (*p == 0);
	}

	static inline bool
	ends_with(const char s, const char match, bool as_extension)
	{
	if (pcmk__str_empty(match)) {
	return true;
	} else if (s == NULL) {
	return false;
	} else {
	size_t slen, mlen;

	/* Besides as_extension, we could also check
	!strchr(&match[1], match[0]) but that would be inefficient.
	*/
	if (as_extension) {
	s = strrchr(s, match[0]);
	return (s == NULL)? false : !strcmp(s, match);
	}

	mlen = strlen(match);
	slen = strlen(s);
	return ((slen >= mlen) && !strcmp(s + slen - mlen, match));
	}
	}

	/*!
	* \internal
	* \brief Check whether a string ends with a certain sequence
	*
	* \param[in] s String to check
	* \param[in] match Sequence to match against end of \p s
	*
	* \return \c true if \p s ends case-sensitively with match, \c false otherwise
	* \note pcmk__ends_with_ext() can be used if the first character of match
	* does not recur in match.
	*/
	bool
	pcmk__ends_with(const char s, const char match)
	{
	return ends_with(s, match, false);
	}

	/*!
	* \internal
	* \brief Check whether a string ends with a certain "extension"
	*
	* \param[in] s String to check
	* \param[in] match Extension to match against end of \p s, that is,
	* its first character must not occur anywhere
	* in the rest of that very sequence (example: file
	* extension where the last dot is its delimiter,
	* e.g., ".html"); incorrect results may be
	* returned otherwise.
	*
	* \return \c true if \p s ends (verbatim, i.e., case sensitively)
	* with "extension" designated as \p match (including empty
	* string), \c false otherwise
	*
	* \note Main incentive to prefer this function over \c pcmk__ends_with()
	* where possible is the efficiency (at the cost of added
	* restriction on \p match as stated; the complexity class
	* remains the same, though: BigO(M+N) vs. BigO(M+2N)).
	*/
	bool
	pcmk__ends_with_ext(const char s, const char match)
	{
	return ends_with(s, match, true);
	}

	/*
	* This re-implements g_str_hash as it was prior to glib2-2.28:
	*
	* https://gitlab.gnome.org/GNOME/glib/commit/354d655ba8a54b754cb5a3efb42767327775696c
	*
	* Note that the new g_str_hash is presumably a better hash (it's actually
	* a correct implementation of DJB's hash), but we need to preserve existing
	* behaviour, because the hash key ultimately determines the "sort" order
	* when iterating through GHashTables, which affects allocation of scores to
	* clone instances when iterating through rsc->allowed_nodes. It (somehow)
	* also appears to have some minor impact on the ordering of a few
	* pseudo_event IDs in the transition graph.
	*/
	guint
	g_str_hash_traditional(gconstpointer v)
	{
	const signed char *p;
	guint32 h = 0;

	for (p = v; *p != '\0'; p++)
	h = (h << 5) - h + *p;

	return h;
	}

	/* used with hash tables where case does not matter */
	gboolean
	crm_strcase_equal(gconstpointer a, gconstpointer b)
	{
	return pcmk__str_eq((const char )a, (const char )b, pcmk__str_casei);
	}

	guint
	crm_strcase_hash(gconstpointer v)
	{
	const signed char *p;
	guint32 h = 0;

	for (p = v; *p != '\0'; p++)
	h = (h << 5) - h + g_ascii_tolower(*p);

	return h;
	}

	static void
	copy_str_table_entry(gpointer key, gpointer value, gpointer user_data)
	{
	if (key && value && user_data) {
	g_hash_table_insert((GHashTable*)user_data, strdup(key), strdup(value));
	}
	}

	GHashTable *
	crm_str_table_dup(GHashTable *old_table)
	{
	GHashTable *new_table = NULL;

	if (old_table) {
	new_table = crm_str_table_new();
	g_hash_table_foreach(old_table, copy_str_table_entry, new_table);
	}
	return new_table;
	}

	/*!
	* \internal
	* \brief Add a word to a space-separated string list
	*
	* \param[in,out] list Pointer to beginning of list
	* \param[in] word Word to add to list
	*
	* \return (Potentially new) beginning of list
	* \note This dynamically reallocates list as needed.
	*/
	char *
	pcmk__add_word(char list, const char word)
	{
	if (word != NULL) {
	size_t len = list? strlen(list) : 0;

	list = realloc_safe(list, len + strlen(word) + 2); // 2 = space + EOS
	sprintf(list + len, " %s", word);
	}
	return list;
	}

	/*!
	* \internal
	* \brief Compress data
	*
	* \param[in] data Data to compress
	* \param[in] length Number of characters of data to compress
	* \param[in] max Maximum size of compressed data (or 0 to estimate)
	* \param[out] result Where to store newly allocated compressed result
	* \param[out] result_len Where to store actual compressed length of result
	*
	* \return Standard Pacemaker return code
	*/
	int
	pcmk__compress(const char *data, unsigned int length, unsigned int max,
	char *result, unsigned int result_len)
	{
	int rc;
	char *compressed = NULL;
	char *uncompressed = strdup(data);
	#ifdef CLOCK_MONOTONIC
	struct timespec after_t;
	struct timespec before_t;
	#endif

	if (max == 0) {
	max = (length * 1.01) + 601; // Size guaranteed to hold result
	}

	#ifdef CLOCK_MONOTONIC
	clock_gettime(CLOCK_MONOTONIC, &before_t);
	#endif

	compressed = calloc((size_t) max, sizeof(char));
	CRM_ASSERT(compressed);

	*result_len = max;
	rc = BZ2_bzBuffToBuffCompress(compressed, result_len, uncompressed, length,
	CRM_BZ2_BLOCKS, 0, CRM_BZ2_WORK);
	free(uncompressed);
	if (rc != BZ_OK) {
	crm_err("Compression of %d bytes failed: %s " CRM_XS " bzerror=%d",
	length, bz2_strerror(rc), rc);
	free(compressed);
	return pcmk_rc_error;
	}

	#ifdef CLOCK_MONOTONIC
	clock_gettime(CLOCK_MONOTONIC, &after_t);

	crm_trace("Compressed %d bytes into %d (ratio %d:1) in %.0fms",
	length, result_len, length / (result_len),
	(after_t.tv_sec - before_t.tv_sec) * 1000 +
	(after_t.tv_nsec - before_t.tv_nsec) / 1e6);
	#else
	crm_trace("Compressed %d bytes into %d (ratio %d:1)",
	length, result_len, length / (result_len));
	#endif

	*result = compressed;
	return pcmk_rc_ok;
	}

	char *
	crm_strdup_printf(char const *format, ...)
	{
	va_list ap;
	int len = 0;
	char *string = NULL;

	va_start(ap, format);
	len = vasprintf (&string, format, ap);
	CRM_ASSERT(len > 0);
	va_end(ap);
	return string;
	}

	int
	pcmk__parse_ll_range(const char srcstring, long long start, long long *end)
	{
	char *remainder = NULL;

	CRM_ASSERT(start != NULL && end != NULL);

	*start = -1;
	*end = -1;

	crm_trace("Attempting to decode: [%s]", srcstring);
	if (pcmk__str_empty(srcstring) \|\| !strcmp(srcstring, "-")) {
	return pcmk_rc_unknown_format;
	}

	/* String starts with a dash, so this is either a range with
	* no beginning or garbage.
	* */
	if (*srcstring == '-') {
	int rc = scan_ll(srcstring+1, end, &remainder);

	if (rc != pcmk_rc_ok \|\| *remainder != '\0') {
	return pcmk_rc_unknown_format;
	} else {
	return pcmk_rc_ok;
	}
	}

	if (scan_ll(srcstring, start, &remainder) != pcmk_rc_ok) {
	return pcmk_rc_unknown_format;
	}

	if (remainder && remainder == '-') {
	if (*(remainder+1)) {
	char *more_remainder = NULL;
	int rc = scan_ll(remainder+1, end, &more_remainder);

	if (rc != pcmk_rc_ok \|\| *more_remainder != '\0') {
	return pcmk_rc_unknown_format;
	}
	}
	} else if (remainder && remainder != '-') {
	*start = -1;
	return pcmk_rc_unknown_format;
	} else {
	/* The input string contained only one number. Set start and end
	* to the same value and return pcmk_rc_ok. This gives the caller
	* a way to tell this condition apart from a range with no end.
	*/
	end = start;
	}

	return pcmk_rc_ok;
	}

	/*!
	* \internal
	* \brief Find a string in a list of strings
	*
	* Search \p lst for \p s, taking case into account. As a special case,
	* if "*" is the only element of \p lst, the search is successful.
	*
	* \param[in] lst List to search
	* \param[in] s String to search for
	*
	* \return \c TRUE if \p s is in \p lst, or \c FALSE otherwise
	*/
	gboolean
	pcmk__str_in_list(GList lst, const gchar s)
	{
	if (lst == NULL) {
	return FALSE;
	}

	if (strcmp(lst->data, "*") == 0 && lst->next == NULL) {
	return TRUE;
	}

	return g_list_find_custom(lst, s, (GCompareFunc) strcmp) != NULL;
	}

	static bool
	str_any_of(bool casei, const char *s, va_list args)
	{
	bool rc = false;

	while (1) {
	const char ele = va_arg(args, const char );

	if (ele == NULL) {
	break;
	} else if (pcmk__str_eq(s, ele, casei ? pcmk__str_casei : pcmk__str_none)) {
	rc = true;
	break;
	}
	}

	return rc;
	}

	/*!
	* \internal
	* \brief Is a string a member of a list of strings?
	*
	* \param[in] s String to search for in \p ...
	* \param[in] ... Strings to compare \p s against. The final string
	* must be NULL.
	*
	* \note The comparison is done case-insensitively. The function name is
	* meant to be reminiscent of strcasecmp.
	*
	* \return \c true if \p s is in \p ..., or \c false otherwise
	*/
	bool
	pcmk__strcase_any_of(const char *s, ...)
	{
	va_list ap;
	bool rc;

	va_start(ap, s);
	rc = str_any_of(true, s, ap);
	va_end(ap);
	return rc;
	}

	/*!
	* \internal
	* \brief Is a string a member of a list of strings?
	*
	* \param[in] s String to search for in \p ...
	* \param[in] ... Strings to compare \p s against. The final string
	* must be NULL.
	*
	* \note The comparison is done taking case into account.
	*
	* \return \c true if \p s is in \p ..., or \c false otherwise
	*/
	bool
	pcmk__str_any_of(const char *s, ...)
	{
	va_list ap;
	bool rc;

	va_start(ap, s);
	rc = str_any_of(false, s, ap);
	va_end(ap);
	return rc;
	}

	/*
	* \brief Sort strings, with numeric portions sorted numerically
	*
	* Sort two strings case-insensitively like strcasecmp(), but with any numeric
	* portions of the string sorted numerically. This is particularly useful for
	* node names (for example, "node10" will sort higher than "node9" but lower
	* than "remotenode9").
	*
	* \param[in] s1 First string to compare (must not be NULL)
	* \param[in] s2 Second string to compare (must not be NULL)
	*
	* \retval -1 \p s1 comes before \p s2
	* \retval 0 \p s1 and \p s2 are equal
	* \retval 1 \p s1 comes after \p s2
	*/
	int
	pcmk_numeric_strcasecmp(const char s1, const char s2)
	{
	while (s1 && s2) {
	if (isdigit(s1) && isdigit(s2)) {
	// If node names contain a number, sort numerically

	char *end1 = NULL;
	char *end2 = NULL;
	long num1 = strtol(s1, &end1, 10);
	long num2 = strtol(s2, &end2, 10);

	// allow ordering e.g. 007 > 7
	size_t len1 = end1 - s1;
	size_t len2 = end2 - s2;

	if (num1 < num2) {
	return -1;
	} else if (num1 > num2) {
	return 1;
	} else if (len1 < len2) {
	return -1;
	} else if (len1 > len2) {
	return 1;
	}
	s1 = end1;
	s2 = end2;
	} else {
	// Compare non-digits case-insensitively
	int lower1 = tolower(*s1);
	int lower2 = tolower(*s2);

	if (lower1 < lower2) {
	return -1;
	} else if (lower1 > lower2) {
	return 1;
	}
	++s1;
	++s2;
	}
	}
	if (!s1 && s2) {
	return -1;
	} else if (s1 && !s2) {
	return 1;
	}
	return 0;
	}

	/*
	* \brief Sort strings.
	*
	* This is your one-stop function for string comparison. By default, this
	* function works like g_strcmp0. That is, like strcmp but a NULL string
	* sorts before a non-NULL string.
	*
	* Behavior can be changed with various flags:
	*
	* - pcmk__str_regex - The second string is a regular expression that the
	* first string will be matched against.
	* - pcmk__str_casei - By default, comparisons are done taking case into
	* account. This flag makes comparisons case-insensitive.
	* This can be combined with pcmk__str_regex.
	* - pcmk__str_null_matches - If one string is NULL and the other is not,
	* still return 0.
	*
	* \param[in] s1 First string to compare
	* \param[in] s2 Second string to compare, or a regular expression to
	* match if pcmk__str_regex is set
	* \param[in] flags A bitfield of pcmk__str_flags to modify operation
	*
	* \retval -1 \p s1 is NULL or comes before \p s2
	* \retval 0 \p s1 and \p s2 are equal, or \p s1 is found in \p s2 if
	* pcmk__str_regex is set
	* \retval 1 \p s2 is NULL or \p s1 comes after \p s2, or if \p s2
	* is an invalid regular expression, or \p s1 was not found
	* in \p s2 if pcmk__str_regex is set.
	*/
	int
	pcmk__strcmp(const char s1, const char s2, uint32_t flags)
	{
	/* If this flag is set, the second string is a regex. */
	if (is_set(flags, pcmk__str_regex)) {
	regex_t *r_patt = calloc(1, sizeof(regex_t));
	int reg_flags = REG_EXTENDED \| REG_NOSUB \| (is_set(flags, pcmk__str_casei) ? REG_ICASE : 0);
	int regcomp_rc = 0;
	int rc = 0;

	if (s1 == NULL \|\| s2 == NULL) {
	free(r_patt);
	return 1;
	}

	regcomp_rc = regcomp(r_patt, s2, reg_flags);
	if (regcomp_rc != 0) {
	rc = 1;
	crm_err("Bad regex '%s' for update: %s", s2, strerror(regcomp_rc));
	} else {
	rc = regexec(r_patt, s1, 0, NULL, 0);

	if (rc != 0) {
	rc = 1;
	}
	}

	regfree(r_patt);
	free(r_patt);
	return rc;
	}

	/* If the strings are the same pointer, return 0 immediately. */
	if (s1 == s2) {
	return 0;
	}

	/* If this flag is set, return 0 if either (or both) of the input strings
	* are NULL. If neither one is NULL, we need to continue and compare
	* them normally.
	*/
	if (is_set(flags, pcmk__str_null_matches)) {
	if (s1 == NULL \|\| s2 == NULL) {
	return 0;
	}
	}

	/* Handle the cases where one is NULL and the str_null_matches flag is not set.
	* A NULL string always sorts to the beginning.
	*/
	if (s1 == NULL) {
	return -1;
	} else if (s2 == NULL) {
	return 1;
	}

	if (is_set(flags, pcmk__str_casei)) {
	return strcasecmp(s1, s2);
	} else {
	return strcmp(s1, s2);
	}
	}

	// Deprecated functions kept only for backward API compatibility

	gboolean safe_str_neq(const char a, const char b);

	gboolean crm_str_eq(const char a, const char b, gboolean use_case);

	//! \deprecated Use pcmk__str_eq() instead
	gboolean
	safe_str_neq(const char a, const char b)
	{
	if (a == b) {
	return FALSE;

	} else if (a == NULL \|\| b == NULL) {
	return TRUE;

	} else if (strcasecmp(a, b) == 0) {
	return FALSE;
	}
	return TRUE;
	}

	//! \deprecated Use pcmk__str_eq() instead
	gboolean
	crm_str_eq(const char a, const char b, gboolean use_case)
	{
	if (use_case) {
	return g_strcmp0(a, b) == 0;

	/* TODO - Figure out which calls, if any, really need to be case independent */
	} else if (a == b) {
	return TRUE;

	} else if (a == NULL \|\| b == NULL) {
	/* shouldn't be comparing NULLs */
	return FALSE;

	} else if (strcasecmp(a, b) == 0) {
	return TRUE;
	}
	return FALSE;
	}

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