diff --git a/lib/common/strings.c b/lib/common/strings.c index 19dced47f7..b245102c3f 100644 --- a/lib/common/strings.c +++ b/lib/common/strings.c @@ -1,1357 +1,1363 @@ /* * Copyright 2004-2023 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/common/results.h" #include #ifndef _GNU_SOURCE # define _GNU_SOURCE #endif #include #include #include #include #include #include // DBL_MIN #include #include #include /*! * \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[in] default_value Value to use if text is NULL or invalid * \param[out] end_text If not NULL, where to store pointer to first * non-integer character * * \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, long long default_value, char **end_text) { long long local_result = default_value; char *local_end_text = NULL; int rc = pcmk_rc_ok; errno = 0; if (text != NULL) { local_result = strtoll(text, &local_end_text, 10); if (errno == ERANGE) { rc = EOVERFLOW; crm_warn("Integer parsed from '%s' was clipped to %lld", text, local_result); } else if (errno != 0) { rc = errno; local_result = default_value; crm_warn("Could not parse integer from '%s' (using %lld instead): " "%s", text, default_value, pcmk_rc_str(rc)); } else if (local_end_text == text) { rc = EINVAL; local_result = default_value; crm_warn("Could not parse integer from '%s' (using %lld instead): " "No digits found", text, default_value); } if ((end_text == NULL) && !pcmk__str_empty(local_end_text)) { 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; } /*! * \internal * \brief Scan a long long integer value from a string * * \param[in] text The string to scan (may be NULL) * \param[out] result Where to store result (or NULL to ignore) * \param[in] default_value Value to use if text is NULL or invalid * * \return Standard Pacemaker return code */ int pcmk__scan_ll(const char *text, long long *result, long long default_value) { long long local_result = default_value; int rc = pcmk_rc_ok; if (text != NULL) { rc = scan_ll(text, &local_result, default_value, NULL); if (rc != pcmk_rc_ok) { local_result = default_value; } } if (result != NULL) { *result = local_result; } return rc; } /*! * \internal * \brief Scan an integer value from a string, constrained to a minimum * * \param[in] text The string to scan (may be NULL) * \param[out] result Where to store result (or NULL to ignore) * \param[in] minimum Value to use as default and minimum * * \return Standard Pacemaker return code * \note If the value is larger than the maximum integer, EOVERFLOW will be * returned and \p result will be set to the maximum integer. */ int pcmk__scan_min_int(const char *text, int *result, int minimum) { int rc; long long result_ll; rc = pcmk__scan_ll(text, &result_ll, (long long) minimum); if (result_ll < (long long) minimum) { crm_warn("Clipped '%s' to minimum acceptable value %d", text, minimum); result_ll = (long long) minimum; } else if (result_ll > INT_MAX) { crm_warn("Clipped '%s' to maximum integer %d", text, INT_MAX); result_ll = (long long) INT_MAX; rc = EOVERFLOW; } if (result != NULL) { *result = (int) result_ll; } return rc; } /*! * \internal * \brief Scan a TCP port number from a string * * \param[in] text The string to scan * \param[out] port Where to store result (or NULL to ignore) * * \return Standard Pacemaker return code * \note \p port will be -1 if \p text is NULL or invalid */ int pcmk__scan_port(const char *text, int *port) { long long port_ll; int rc = pcmk__scan_ll(text, &port_ll, -1LL); if ((text != NULL) && (rc == pcmk_rc_ok) // wasn't default or invalid && ((port_ll < 0LL) || (port_ll > 65535LL))) { crm_warn("Ignoring port specification '%s' " "not in valid range (0-65535)", text); rc = (port_ll < 0LL)? pcmk_rc_before_range : pcmk_rc_after_range; port_ll = -1LL; } if (port != NULL) { *port = (int) port_ll; } return rc; } /*! * \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 * \c PCMK__PARSE_DBL_DEFAULT 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 = PCMK__PARSE_DBL_DEFAULT; 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 (QB_ABS(*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; // strtod() set *result = 0 on parse failure *result = PCMK__PARSE_DBL_DEFAULT; crm_debug("Could not parse floating-point value from '%s' (using " "%.1f instead): %s", text, PCMK__PARSE_DBL_DEFAULT, pcmk_rc_str(rc)); } else if (local_end_text == text) { // errno == 0, but nothing was parsed rc = EINVAL; *result = PCMK__PARSE_DBL_DEFAULT; crm_debug("Could not parse floating-point value from '%s' (using " "%.1f instead): No digits found", text, PCMK__PARSE_DBL_DEFAULT); } else if (QB_ABS(*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; int rc = pcmk_rc_ok; CRM_CHECK((table != NULL) && (key != NULL), return EINVAL); if (result != NULL) { *result = default_val; } value = g_hash_table_lookup(table, key); if (value == NULL) { return pcmk_rc_ok; } rc = pcmk__scan_ll(value, &value_ll, 0LL); if (rc != pcmk_rc_ok) { return rc; } 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 optional unit (optionally * with whitespace before and/or after the number). If * missing, the unit defaults to seconds. * * \return Milliseconds corresponding to string expression, or * PCMK__PARSE_INT_DEFAULT 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 = PCMK__PARSE_INT_DEFAULT; size_t num_len = 0; char *end_text = NULL; if (input == NULL) { return PCMK__PARSE_INT_DEFAULT; } num_start = input + strspn(input, WHITESPACE); num_len = strspn(num_start, NUMCHARS); if (num_len < 1) { return PCMK__PARSE_INT_DEFAULT; } 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 != '\0') && (*units != '\n') && (*units != '\r')) { return PCMK__PARSE_INT_DEFAULT; } scan_ll(num_start, &msec, PCMK__PARSE_INT_DEFAULT, &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; } /*! * \internal * \brief Replace any trailing newlines in a string with \0's * * \param[in,out] str String to trim * * \return \p str */ char * pcmk__trim(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); } /*! * \internal * \brief Create a hash of a string suitable for use with GHashTable * * \param[in] v String to hash * * \return A hash of \p v compatible with g_str_hash() before glib 2.28 * \note glib changed their hash implementation: * * 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. */ static guint pcmk__str_hash(gconstpointer v) { const signed char *p; guint32 h = 0; for (p = v; *p != '\0'; p++) h = (h << 5) - h + *p; return h; } /*! * \internal * \brief Create a hash table with case-sensitive strings as keys * * \param[in] key_destroy_func Function to free a key * \param[in] value_destroy_func Function to free a value * * \return Newly allocated hash table * \note It is the caller's responsibility to free the result, using * g_hash_table_destroy(). */ GHashTable * pcmk__strkey_table(GDestroyNotify key_destroy_func, GDestroyNotify value_destroy_func) { return g_hash_table_new_full(pcmk__str_hash, g_str_equal, key_destroy_func, value_destroy_func); } /* used with hash tables where case does not matter */ static gboolean pcmk__strcase_equal(gconstpointer a, gconstpointer b) { return pcmk__str_eq((const char *)a, (const char *)b, pcmk__str_casei); } static guint pcmk__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; } /*! * \internal * \brief Create a hash table with case-insensitive strings as keys * * \param[in] key_destroy_func Function to free a key * \param[in] value_destroy_func Function to free a value * * \return Newly allocated hash table * \note It is the caller's responsibility to free the result, using * g_hash_table_destroy(). */ GHashTable * pcmk__strikey_table(GDestroyNotify key_destroy_func, GDestroyNotify value_destroy_func) { return g_hash_table_new_full(pcmk__strcase_hash, pcmk__strcase_equal, key_destroy_func, value_destroy_func); } 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)); } } /*! * \internal * \brief Copy a hash table that uses dynamically allocated strings * * \param[in,out] old_table Hash table to duplicate * * \return New hash table with copies of everything in \p old_table * \note This assumes the hash table uses dynamically allocated strings -- that * is, both the key and value free functions are free(). */ GHashTable * pcmk__str_table_dup(GHashTable *old_table) { GHashTable *new_table = NULL; if (old_table) { new_table = pcmk__strkey_table(free, free); g_hash_table_foreach(old_table, copy_str_table_entry, new_table); } return new_table; } /*! * \internal * \brief Add a word to a string list of words * * \param[in,out] list Pointer to current string list (may not be \p NULL) * \param[in] init_size \p list will be initialized to at least this size, * if it needs initialization (if 0, use GLib's default * initial string size) * \param[in] word String to add to \p list (\p list will be * unchanged if this is \p NULL or the empty string) * \param[in] separator String to separate words in \p list * (a space will be used if this is NULL) * * \note \p word may contain \p separator, though that would be a bad idea if * the string needs to be parsed later. */ void pcmk__add_separated_word(GString **list, size_t init_size, const char *word, const char *separator) { CRM_ASSERT(list != NULL); if (pcmk__str_empty(word)) { return; } if (*list == NULL) { if (init_size > 0) { *list = g_string_sized_new(init_size); } else { *list = g_string_new(NULL); } } if ((*list)->len == 0) { // Don't add a separator before the first word in the list separator = ""; } else if (separator == NULL) { // Default to space-separated separator = " "; } g_string_append(*list, separator); g_string_append(*list, word); } /*! * \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; + int rc = pcmk_rc_ok; CRM_ASSERT(start != NULL && end != NULL); *start = PCMK__PARSE_INT_DEFAULT; *end = PCMK__PARSE_INT_DEFAULT; crm_trace("Attempting to decode: [%s]", srcstring); - if (pcmk__str_empty(srcstring) || !strcmp(srcstring, "-")) { - return pcmk_rc_unknown_format; + if (pcmk__str_eq(srcstring, "", pcmk__str_null_matches)) { + return ENODATA; + } else if (pcmk__str_eq(srcstring, "-", pcmk__str_none)) { + return pcmk_rc_bad_input; } /* 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, PCMK__PARSE_INT_DEFAULT, &remainder); if (rc != pcmk_rc_ok || *remainder != '\0') { - return pcmk_rc_unknown_format; + return pcmk_rc_bad_input; } else { return pcmk_rc_ok; } } - if (scan_ll(srcstring, start, PCMK__PARSE_INT_DEFAULT, - &remainder) != pcmk_rc_ok) { - return pcmk_rc_unknown_format; + rc = scan_ll(srcstring, start, PCMK__PARSE_INT_DEFAULT, &remainder); + if (rc != pcmk_rc_ok) { + return rc; } if (*remainder && *remainder == '-') { if (*(remainder+1)) { char *more_remainder = NULL; int rc = scan_ll(remainder+1, end, PCMK__PARSE_INT_DEFAULT, &more_remainder); - if (rc != pcmk_rc_ok || *more_remainder != '\0') { - return pcmk_rc_unknown_format; + if (rc != pcmk_rc_ok) { + return rc; + } else if (*more_remainder != '\0') { + return pcmk_rc_bad_input; } } } else if (*remainder && *remainder != '-') { *start = PCMK__PARSE_INT_DEFAULT; - return pcmk_rc_unknown_format; + return pcmk_rc_bad_input; } 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 * * \note This function takes the same flags and has the same behavior as * pcmk__str_eq(). * * \note No matter what input string or flags are provided, an empty * list will always return FALSE. * * \param[in] s String to search for * \param[in] lst List to search * \param[in] flags A bitfield of pcmk__str_flags to modify operation * * \return \c TRUE if \p s is in \p lst, or \c FALSE otherwise */ gboolean pcmk__str_in_list(const gchar *s, const GList *lst, uint32_t flags) { for (const GList *ele = lst; ele != NULL; ele = ele->next) { if (pcmk__str_eq(s, ele->data, flags)) { return TRUE; } } return FALSE; } static bool str_any_of(const char *s, va_list args, uint32_t flags) { if (s == NULL) { return pcmk_is_set(flags, pcmk__str_null_matches); } while (1) { const char *ele = va_arg(args, const char *); if (ele == NULL) { break; } else if (pcmk__str_eq(s, ele, flags)) { return true; } } return false; } /*! * \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(s, ap, pcmk__str_casei); 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(s, ap, pcmk__str_none); va_end(ap); return rc; } /*! * \internal * \brief Check whether a character is in any of a list of strings * * \param[in] ch Character (ASCII) to search for * \param[in] ... Strings to search. Final argument must be * \c NULL. * * \return \c true if any of \p ... contain \p ch, \c false otherwise * \note \p ... must contain at least one argument (\c NULL). */ bool pcmk__char_in_any_str(int ch, ...) { bool rc = false; va_list ap; /* * Passing a char to va_start() can generate compiler warnings, * so ch is declared as an int. */ va_start(ap, ch); while (1) { const char *ele = va_arg(ap, const char *); if (ele == NULL) { break; } else if (strchr(ele, ch) != NULL) { rc = true; break; } } va_end(ap); return rc; } /*! * \internal * \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) { CRM_ASSERT((s1 != NULL) && (s2 != NULL)); 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; } /*! * \internal * \brief Sort strings. * * This is your one-stop function for string comparison. By default, this * function works like \p g_strcmp0. That is, like \p strcmp but a \p NULL * string sorts before a non-NULL string. * * The \p pcmk__str_none flag produces the default behavior. Behavior can be * changed with various flags: * * - \p pcmk__str_regex - The second string is a regular expression that the * first string will be matched against. * - \p pcmk__str_casei - By default, comparisons are done taking case into * account. This flag makes comparisons case- * insensitive. This can be combined with * \p pcmk__str_regex. * - \p pcmk__str_null_matches - If one string is \p NULL and the other is not, * still return \p 0. * - \p pcmk__str_star_matches - If one string is \p "*" and the other is not, * still return \p 0. * * \param[in] s1 First string to compare * \param[in] s2 Second string to compare, or a regular expression to * match if \p pcmk__str_regex is set * \param[in] flags A bitfield of \p pcmk__str_flags to modify operation * * \retval negative \p s1 is \p NULL or comes before \p s2 * \retval 0 \p s1 and \p s2 are equal, or \p s1 is found in \p s2 if * \c pcmk__str_regex is set * \retval positive \p s2 is \p NULL or \p s1 comes after \p s2, or \p s2 * is an invalid regular expression, or \p s1 was not found * in \p s2 if \p 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 (pcmk_is_set(flags, pcmk__str_regex)) { regex_t r_patt; int reg_flags = REG_EXTENDED | REG_NOSUB; int regcomp_rc = 0; int rc = 0; if (s1 == NULL || s2 == NULL) { return 1; } if (pcmk_is_set(flags, pcmk__str_casei)) { reg_flags |= REG_ICASE; } 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); regfree(&r_patt); if (rc != 0) { rc = 1; } } 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 (pcmk_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 this flag is set, return 0 if either (or both) of the input strings * are "*". If neither one is, we need to continue and compare them * normally. */ if (pcmk_is_set(flags, pcmk__str_star_matches)) { if (strcmp(s1, "*") == 0 || strcmp(s2, "*") == 0) { return 0; } } if (pcmk_is_set(flags, pcmk__str_casei)) { return strcasecmp(s1, s2); } else { return strcmp(s1, s2); } } /*! * \internal * \brief Update a dynamically allocated string with a new value * * Given a dynamically allocated string and a new value for it, if the string * is different from the new value, free the string and replace it with either a * newly allocated duplicate of the value or NULL as appropriate. * * \param[in,out] str Pointer to dynamically allocated string * \param[in] value New value to duplicate (or NULL) * * \note The caller remains responsibile for freeing \p *str. */ void pcmk__str_update(char **str, const char *value) { if ((str != NULL) && !pcmk__str_eq(*str, value, pcmk__str_none)) { free(*str); if (value == NULL) { *str = NULL; } else { *str = strdup(value); CRM_ASSERT(*str != NULL); } } } /*! * \internal * \brief Append a list of strings to a destination \p GString * * \param[in,out] buffer Where to append the strings (must not be \p NULL) * \param[in] ... A NULL-terminated list of strings * * \note This tends to be more efficient than a single call to * \p g_string_append_printf(). */ void pcmk__g_strcat(GString *buffer, ...) { va_list ap; CRM_ASSERT(buffer != NULL); va_start(ap, buffer); while (true) { const char *ele = va_arg(ap, const char *); if (ele == NULL) { break; } g_string_append(buffer, ele); } va_end(ap); } // Deprecated functions kept only for backward API compatibility // LCOV_EXCL_START #include 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; } 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; } char * crm_itoa_stack(int an_int, char *buffer, size_t len) { if (buffer != NULL) { snprintf(buffer, len, "%d", an_int); } return buffer; } guint g_str_hash_traditional(gconstpointer v) { return pcmk__str_hash(v); } gboolean crm_strcase_equal(gconstpointer a, gconstpointer b) { return pcmk__strcase_equal(a, b); } guint crm_strcase_hash(gconstpointer v) { return pcmk__strcase_hash(v); } GHashTable * crm_str_table_dup(GHashTable *old_table) { return pcmk__str_table_dup(old_table); } 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 PCMK__PARSE_INT_DEFAULT; } } scan_ll(text, &result, PCMK__PARSE_INT_DEFAULT, NULL); return result; } 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; } char * crm_strip_trailing_newline(char *str) { return pcmk__trim(str); } int pcmk_numeric_strcasecmp(const char *s1, const char *s2) { return pcmk__numeric_strcasecmp(s1, s2); } // LCOV_EXCL_STOP // End deprecated API diff --git a/lib/common/tests/strings/pcmk__parse_ll_range_test.c b/lib/common/tests/strings/pcmk__parse_ll_range_test.c index dca1fc1b5e..7656ad7e3b 100644 --- a/lib/common/tests/strings/pcmk__parse_ll_range_test.c +++ b/lib/common/tests/strings/pcmk__parse_ll_range_test.c @@ -1,116 +1,117 @@ /* - * Copyright 2020-2022 the Pacemaker project contributors + * Copyright 2020-2023 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU General Public License version 2 * or later (GPLv2+) WITHOUT ANY WARRANTY. */ +#include "crm/common/results.h" #include #include static void empty_input_string(void **state) { long long start, end; - assert_int_equal(pcmk__parse_ll_range(NULL, &start, &end), pcmk_rc_unknown_format); - assert_int_equal(pcmk__parse_ll_range("", &start, &end), pcmk_rc_unknown_format); + assert_int_equal(pcmk__parse_ll_range(NULL, &start, &end), ENODATA); + assert_int_equal(pcmk__parse_ll_range("", &start, &end), ENODATA); } static void null_input_variables(void **state) { long long start, end; pcmk__assert_asserts(pcmk__parse_ll_range("1234", NULL, &end)); pcmk__assert_asserts(pcmk__parse_ll_range("1234", &start, NULL)); } static void missing_separator(void **state) { long long start, end; assert_int_equal(pcmk__parse_ll_range("1234", &start, &end), pcmk_rc_ok); assert_int_equal(start, 1234); assert_int_equal(end, 1234); } static void only_separator(void **state) { long long start, end; - assert_int_equal(pcmk__parse_ll_range("-", &start, &end), pcmk_rc_unknown_format); + assert_int_equal(pcmk__parse_ll_range("-", &start, &end), pcmk_rc_bad_input); assert_int_equal(start, PCMK__PARSE_INT_DEFAULT); assert_int_equal(end, PCMK__PARSE_INT_DEFAULT); } static void no_range_end(void **state) { long long start, end; assert_int_equal(pcmk__parse_ll_range("2000-", &start, &end), pcmk_rc_ok); assert_int_equal(start, 2000); assert_int_equal(end, PCMK__PARSE_INT_DEFAULT); } static void no_range_start(void **state) { long long start, end; assert_int_equal(pcmk__parse_ll_range("-2020", &start, &end), pcmk_rc_ok); assert_int_equal(start, PCMK__PARSE_INT_DEFAULT); assert_int_equal(end, 2020); } static void range_start_and_end(void **state) { long long start, end; assert_int_equal(pcmk__parse_ll_range("2000-2020", &start, &end), pcmk_rc_ok); assert_int_equal(start, 2000); assert_int_equal(end, 2020); - assert_int_equal(pcmk__parse_ll_range("2000-2020-2030", &start, &end), pcmk_rc_unknown_format); + assert_int_equal(pcmk__parse_ll_range("2000-2020-2030", &start, &end), pcmk_rc_bad_input); } static void garbage(void **state) { long long start, end; - assert_int_equal(pcmk__parse_ll_range("2000x-", &start, &end), pcmk_rc_unknown_format); + assert_int_equal(pcmk__parse_ll_range("2000x-", &start, &end), pcmk_rc_bad_input); assert_int_equal(start, PCMK__PARSE_INT_DEFAULT); assert_int_equal(end, PCMK__PARSE_INT_DEFAULT); - assert_int_equal(pcmk__parse_ll_range("-x2000", &start, &end), pcmk_rc_unknown_format); + assert_int_equal(pcmk__parse_ll_range("-x2000", &start, &end), pcmk_rc_bad_input); assert_int_equal(start, PCMK__PARSE_INT_DEFAULT); assert_int_equal(end, PCMK__PARSE_INT_DEFAULT); } static void strtoll_errors(void **state) { long long start, end; - assert_int_equal(pcmk__parse_ll_range("20000000000000000000-", &start, &end), pcmk_rc_unknown_format); - assert_int_equal(pcmk__parse_ll_range("100-20000000000000000000", &start, &end), pcmk_rc_unknown_format); + assert_int_equal(pcmk__parse_ll_range("20000000000000000000-", &start, &end), EOVERFLOW); + assert_int_equal(pcmk__parse_ll_range("100-20000000000000000000", &start, &end), EOVERFLOW); } PCMK__UNIT_TEST(NULL, NULL, cmocka_unit_test(empty_input_string), cmocka_unit_test(null_input_variables), cmocka_unit_test(missing_separator), cmocka_unit_test(only_separator), cmocka_unit_test(no_range_end), cmocka_unit_test(no_range_start), cmocka_unit_test(range_start_and_end), cmocka_unit_test(strtoll_errors), cmocka_unit_test(garbage)) diff --git a/lib/pengine/rules.c b/lib/pengine/rules.c index f5ca8da410..4153ce2b70 100644 --- a/lib/pengine/rules.c +++ b/lib/pengine/rules.c @@ -1,1311 +1,1311 @@ /* - * Copyright 2004-2022 the Pacemaker project contributors + * Copyright 2004-2023 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 #include #include #include #include #include #include #include #include #include #include #include CRM_TRACE_INIT_DATA(pe_rules); /*! * \brief Evaluate any rules contained by given XML element * * \param[in,out] xml XML element to check for rules * \param[in] node_hash Node attributes to use to evaluate expressions * \param[in] now Time to use when evaluating expressions * \param[out] next_change If not NULL, set to when evaluation will change * * \return TRUE if no rules, or any of rules present is in effect, else FALSE */ gboolean pe_evaluate_rules(xmlNode *ruleset, GHashTable *node_hash, crm_time_t *now, crm_time_t *next_change) { pe_rule_eval_data_t rule_data = { .node_hash = node_hash, .role = RSC_ROLE_UNKNOWN, .now = now, .match_data = NULL, .rsc_data = NULL, .op_data = NULL }; return pe_eval_rules(ruleset, &rule_data, next_change); } gboolean pe_test_rule(xmlNode *rule, GHashTable *node_hash, enum rsc_role_e role, crm_time_t *now, crm_time_t *next_change, pe_match_data_t *match_data) { pe_rule_eval_data_t rule_data = { .node_hash = node_hash, .role = role, .now = now, .match_data = match_data, .rsc_data = NULL, .op_data = NULL }; return pe_eval_expr(rule, &rule_data, next_change); } /*! * \brief Evaluate one rule subelement (pass/fail) * * A rule element may contain another rule, a node attribute expression, or a * date expression. Given any one of those, evaluate it and return whether it * passed. * * \param[in,out] expr Rule subelement XML * \param[in] node_hash Node attributes to use when evaluating expression * \param[in] role Resource role to use when evaluating expression * \param[in] now Time to use when evaluating expression * \param[out] next_change If not NULL, set to when evaluation will change * \param[in] match_data If not NULL, resource back-references and params * * \return TRUE if expression is in effect under given conditions, else FALSE */ gboolean pe_test_expression(xmlNode *expr, GHashTable *node_hash, enum rsc_role_e role, crm_time_t *now, crm_time_t *next_change, pe_match_data_t *match_data) { pe_rule_eval_data_t rule_data = { .node_hash = node_hash, .role = role, .now = now, .match_data = match_data, .rsc_data = NULL, .op_data = NULL }; return pe_eval_subexpr(expr, &rule_data, next_change); } enum expression_type find_expression_type(xmlNode * expr) { const char *tag = NULL; const char *attr = NULL; attr = crm_element_value(expr, XML_EXPR_ATTR_ATTRIBUTE); tag = crm_element_name(expr); if (pcmk__str_eq(tag, PCMK_XE_DATE_EXPRESSION, pcmk__str_none)) { return time_expr; } else if (pcmk__str_eq(tag, PCMK_XE_RSC_EXPRESSION, pcmk__str_none)) { return rsc_expr; } else if (pcmk__str_eq(tag, PCMK_XE_OP_EXPRESSION, pcmk__str_none)) { return op_expr; } else if (pcmk__str_eq(tag, XML_TAG_RULE, pcmk__str_none)) { return nested_rule; } else if (!pcmk__str_eq(tag, XML_TAG_EXPRESSION, pcmk__str_none)) { return not_expr; } else if (pcmk__str_any_of(attr, CRM_ATTR_UNAME, CRM_ATTR_KIND, CRM_ATTR_ID, NULL)) { return loc_expr; } else if (pcmk__str_eq(attr, CRM_ATTR_ROLE, pcmk__str_none)) { return role_expr; } return attr_expr; } /* As per the nethack rules: * * moon period = 29.53058 days ~= 30, year = 365.2422 days * days moon phase advances on first day of year compared to preceding year * = 365.2422 - 12*29.53058 ~= 11 * years in Metonic cycle (time until same phases fall on the same days of * the month) = 18.6 ~= 19 * moon phase on first day of year (epact) ~= (11*(year%19) + 29) % 30 * (29 as initial condition) * current phase in days = first day phase + days elapsed in year * 6 moons ~= 177 days * 177 ~= 8 reported phases * 22 * + 11/22 for rounding * * 0-7, with 0: new, 4: full */ static int phase_of_the_moon(const crm_time_t *now) { uint32_t epact, diy, goldn; uint32_t y; crm_time_get_ordinal(now, &y, &diy); goldn = (y % 19) + 1; epact = (11 * goldn + 18) % 30; if ((epact == 25 && goldn > 11) || epact == 24) epact++; return ((((((diy + epact) * 6) + 11) % 177) / 22) & 7); } static int check_one(const xmlNode *cron_spec, const char *xml_field, uint32_t time_field) { int rc = pcmk_rc_undetermined; const char *value = crm_element_value(cron_spec, xml_field); long long low, high; if (value == NULL) { /* Return pe_date_result_undetermined if the field is missing. */ goto bail; } - if (pcmk__parse_ll_range(value, &low, &high) == pcmk_rc_unknown_format) { + if (pcmk__parse_ll_range(value, &low, &high) != pcmk_rc_ok) { goto bail; } else if (low == high) { /* A single number was given, not a range. */ if (time_field < low) { rc = pcmk_rc_before_range; } else if (time_field > high) { rc = pcmk_rc_after_range; } else { rc = pcmk_rc_within_range; } } else if (low != -1 && high != -1) { /* This is a range with both bounds. */ if (time_field < low) { rc = pcmk_rc_before_range; } else if (time_field > high) { rc = pcmk_rc_after_range; } else { rc = pcmk_rc_within_range; } } else if (low == -1) { /* This is a range with no starting value. */ rc = time_field <= high ? pcmk_rc_within_range : pcmk_rc_after_range; } else if (high == -1) { /* This is a range with no ending value. */ rc = time_field >= low ? pcmk_rc_within_range : pcmk_rc_before_range; } bail: if (rc == pcmk_rc_within_range) { crm_debug("Condition '%s' in %s: passed", value, xml_field); } else { crm_debug("Condition '%s' in %s: failed", value, xml_field); } return rc; } static gboolean check_passes(int rc) { /* _within_range is obvious. _undetermined is a pass because * this is the return value if a field is not given. In this * case, we just want to ignore it and check other fields to * see if they place some restriction on what can pass. */ return rc == pcmk_rc_within_range || rc == pcmk_rc_undetermined; } #define CHECK_ONE(spec, name, var) do { \ int subpart_rc = check_one(spec, name, var); \ if (check_passes(subpart_rc) == FALSE) { \ return subpart_rc; \ } \ } while (0) int pe_cron_range_satisfied(const crm_time_t *now, const xmlNode *cron_spec) { uint32_t h, m, s, y, d, w; CRM_CHECK(now != NULL, return pcmk_rc_op_unsatisfied); crm_time_get_gregorian(now, &y, &m, &d); CHECK_ONE(cron_spec, "years", y); CHECK_ONE(cron_spec, "months", m); CHECK_ONE(cron_spec, "monthdays", d); crm_time_get_timeofday(now, &h, &m, &s); CHECK_ONE(cron_spec, "hours", h); CHECK_ONE(cron_spec, "minutes", m); CHECK_ONE(cron_spec, "seconds", s); crm_time_get_ordinal(now, &y, &d); CHECK_ONE(cron_spec, "yeardays", d); crm_time_get_isoweek(now, &y, &w, &d); CHECK_ONE(cron_spec, "weekyears", y); CHECK_ONE(cron_spec, "weeks", w); CHECK_ONE(cron_spec, "weekdays", d); CHECK_ONE(cron_spec, "moon", phase_of_the_moon(now)); /* If we get here, either no fields were specified (which is success), or all * the fields that were specified had their conditions met (which is also a * success). Thus, the result is success. */ return pcmk_rc_ok; } static void update_field(crm_time_t *t, const xmlNode *xml, const char *attr, void (*time_fn)(crm_time_t *, int)) { long long value; if ((pcmk__scan_ll(crm_element_value(xml, attr), &value, 0LL) == pcmk_rc_ok) && (value != 0LL) && (value >= INT_MIN) && (value <= INT_MAX)) { time_fn(t, (int) value); } } static crm_time_t * parse_xml_duration(const crm_time_t *start, const xmlNode *duration_spec) { crm_time_t *end = pcmk_copy_time(start); update_field(end, duration_spec, "years", crm_time_add_years); update_field(end, duration_spec, "months", crm_time_add_months); update_field(end, duration_spec, "weeks", crm_time_add_weeks); update_field(end, duration_spec, "days", crm_time_add_days); update_field(end, duration_spec, "hours", crm_time_add_hours); update_field(end, duration_spec, "minutes", crm_time_add_minutes); update_field(end, duration_spec, "seconds", crm_time_add_seconds); return end; } // Set next_change to t if t is earlier static void crm_time_set_if_earlier(crm_time_t *next_change, crm_time_t *t) { if ((next_change != NULL) && (t != NULL)) { if (!crm_time_is_defined(next_change) || (crm_time_compare(t, next_change) < 0)) { crm_time_set(next_change, t); } } } // Information about a block of nvpair elements typedef struct sorted_set_s { int score; // This block's score for sorting const char *name; // This block's ID const char *special_name; // ID that should sort first xmlNode *attr_set; // This block } sorted_set_t; static gint sort_pairs(gconstpointer a, gconstpointer b) { const sorted_set_t *pair_a = a; const sorted_set_t *pair_b = b; if (a == NULL && b == NULL) { return 0; } else if (a == NULL) { return 1; } else if (b == NULL) { return -1; } if (pcmk__str_eq(pair_a->name, pair_a->special_name, pcmk__str_casei)) { return -1; } else if (pcmk__str_eq(pair_b->name, pair_a->special_name, pcmk__str_casei)) { return 1; } if (pair_a->score < pair_b->score) { return 1; } else if (pair_a->score > pair_b->score) { return -1; } return 0; } static void populate_hash(xmlNode * nvpair_list, GHashTable * hash, gboolean overwrite, xmlNode * top) { const char *name = NULL; const char *value = NULL; const char *old_value = NULL; xmlNode *list = nvpair_list; xmlNode *an_attr = NULL; name = crm_element_name(list->children); if (pcmk__str_eq(XML_TAG_ATTRS, name, pcmk__str_casei)) { list = list->children; } for (an_attr = pcmk__xe_first_child(list); an_attr != NULL; an_attr = pcmk__xe_next(an_attr)) { if (pcmk__str_eq((const char *)an_attr->name, XML_CIB_TAG_NVPAIR, pcmk__str_none)) { xmlNode *ref_nvpair = expand_idref(an_attr, top); name = crm_element_value(an_attr, XML_NVPAIR_ATTR_NAME); if (name == NULL) { name = crm_element_value(ref_nvpair, XML_NVPAIR_ATTR_NAME); } value = crm_element_value(an_attr, XML_NVPAIR_ATTR_VALUE); if (value == NULL) { value = crm_element_value(ref_nvpair, XML_NVPAIR_ATTR_VALUE); } if (name == NULL || value == NULL) { continue; } old_value = g_hash_table_lookup(hash, name); if (pcmk__str_eq(value, "#default", pcmk__str_casei)) { if (old_value) { crm_trace("Letting %s default (removing explicit value \"%s\")", name, value); g_hash_table_remove(hash, name); } continue; } else if (old_value == NULL) { crm_trace("Setting %s=\"%s\"", name, value); g_hash_table_insert(hash, strdup(name), strdup(value)); } else if (overwrite) { crm_trace("Setting %s=\"%s\" (overwriting old value \"%s\")", name, value, old_value); g_hash_table_replace(hash, strdup(name), strdup(value)); } } } } typedef struct unpack_data_s { gboolean overwrite; void *hash; crm_time_t *next_change; const pe_rule_eval_data_t *rule_data; xmlNode *top; } unpack_data_t; static void unpack_attr_set(gpointer data, gpointer user_data) { sorted_set_t *pair = data; unpack_data_t *unpack_data = user_data; if (!pe_eval_rules(pair->attr_set, unpack_data->rule_data, unpack_data->next_change)) { return; } crm_trace("Adding attributes from %s (score %d) %s overwrite", pair->name, pair->score, (unpack_data->overwrite? "with" : "without")); populate_hash(pair->attr_set, unpack_data->hash, unpack_data->overwrite, unpack_data->top); } /*! * \internal * \brief Create a sorted list of nvpair blocks * * \param[in,out] top XML document root (used to expand id-ref's) * \param[in] xml_obj XML element containing blocks of nvpair elements * \param[in] set_name If not NULL, only get blocks of this element * \param[in] always_first If not NULL, sort block with this ID as first * * \return List of sorted_set_t entries for nvpair blocks */ static GList * make_pairs(xmlNode *top, const xmlNode *xml_obj, const char *set_name, const char *always_first) { GList *unsorted = NULL; if (xml_obj == NULL) { return NULL; } for (xmlNode *attr_set = pcmk__xe_first_child(xml_obj); attr_set != NULL; attr_set = pcmk__xe_next(attr_set)) { if (pcmk__str_eq(set_name, (const char *) attr_set->name, pcmk__str_null_matches)) { const char *score = NULL; sorted_set_t *pair = NULL; xmlNode *expanded_attr_set = expand_idref(attr_set, top); if (expanded_attr_set == NULL) { // Schema (if not "none") prevents this continue; } pair = calloc(1, sizeof(sorted_set_t)); pair->name = ID(expanded_attr_set); pair->special_name = always_first; pair->attr_set = expanded_attr_set; score = crm_element_value(expanded_attr_set, XML_RULE_ATTR_SCORE); pair->score = char2score(score); unsorted = g_list_prepend(unsorted, pair); } } return g_list_sort(unsorted, sort_pairs); } /*! * \brief Extract nvpair blocks contained by an XML element into a hash table * * \param[in,out] top XML document root (used to expand id-ref's) * \param[in] xml_obj XML element containing blocks of nvpair elements * \param[in] set_name If not NULL, only use blocks of this element * \param[in] rule_data Matching parameters to use when unpacking * \param[out] hash Where to store extracted name/value pairs * \param[in] always_first If not NULL, process block with this ID first * \param[in] overwrite Whether to replace existing values with same name * \param[out] next_change If not NULL, set to when evaluation will change */ void pe_eval_nvpairs(xmlNode *top, const xmlNode *xml_obj, const char *set_name, const pe_rule_eval_data_t *rule_data, GHashTable *hash, const char *always_first, gboolean overwrite, crm_time_t *next_change) { GList *pairs = make_pairs(top, xml_obj, set_name, always_first); if (pairs) { unpack_data_t data = { .hash = hash, .overwrite = overwrite, .next_change = next_change, .top = top, .rule_data = rule_data }; g_list_foreach(pairs, unpack_attr_set, &data); g_list_free_full(pairs, free); } } /*! * \brief Extract nvpair blocks contained by an XML element into a hash table * * \param[in,out] top XML document root (used to expand id-ref's) * \param[in] xml_obj XML element containing blocks of nvpair elements * \param[in] set_name Element name to identify nvpair blocks * \param[in] node_hash Node attributes to use when evaluating rules * \param[out] hash Where to store extracted name/value pairs * \param[in] always_first If not NULL, process block with this ID first * \param[in] overwrite Whether to replace existing values with same name * \param[in] now Time to use when evaluating rules * \param[out] next_change If not NULL, set to when evaluation will change */ void pe_unpack_nvpairs(xmlNode *top, const xmlNode *xml_obj, const char *set_name, GHashTable *node_hash, GHashTable *hash, const char *always_first, gboolean overwrite, crm_time_t *now, crm_time_t *next_change) { pe_rule_eval_data_t rule_data = { .node_hash = node_hash, .role = RSC_ROLE_UNKNOWN, .now = now, .match_data = NULL, .rsc_data = NULL, .op_data = NULL }; pe_eval_nvpairs(top, xml_obj, set_name, &rule_data, hash, always_first, overwrite, next_change); } /*! * \brief Expand any regular expression submatches (%0-%9) in a string * * \param[in] string String possibly containing submatch variables * \param[in] match_data If not NULL, regular expression matches * * \return Newly allocated string identical to \p string with submatches * expanded, or NULL if there were no matches */ char * pe_expand_re_matches(const char *string, const pe_re_match_data_t *match_data) { size_t len = 0; int i; const char *p, *last_match_index; char *p_dst, *result = NULL; if (pcmk__str_empty(string) || !match_data) { return NULL; } p = last_match_index = string; while (*p) { if (*p == '%' && *(p + 1) && isdigit(*(p + 1))) { i = *(p + 1) - '0'; if (match_data->nregs >= i && match_data->pmatch[i].rm_so != -1 && match_data->pmatch[i].rm_eo > match_data->pmatch[i].rm_so) { len += p - last_match_index + (match_data->pmatch[i].rm_eo - match_data->pmatch[i].rm_so); last_match_index = p + 2; } p++; } p++; } len += p - last_match_index + 1; /* FIXME: Excessive? */ if (len - 1 <= 0) { return NULL; } p_dst = result = calloc(1, len); p = string; while (*p) { if (*p == '%' && *(p + 1) && isdigit(*(p + 1))) { i = *(p + 1) - '0'; if (match_data->nregs >= i && match_data->pmatch[i].rm_so != -1 && match_data->pmatch[i].rm_eo > match_data->pmatch[i].rm_so) { /* rm_eo can be equal to rm_so, but then there is nothing to do */ int match_len = match_data->pmatch[i].rm_eo - match_data->pmatch[i].rm_so; memcpy(p_dst, match_data->string + match_data->pmatch[i].rm_so, match_len); p_dst += match_len; } p++; } else { *(p_dst) = *(p); p_dst++; } p++; } return result; } /*! * \brief Evaluate rules * * \param[in,out] ruleset XML possibly containing rule sub-elements * \param[in] rule_data * \param[out] next_change If not NULL, set to when evaluation will change * * \return TRUE if there are no rules or */ gboolean pe_eval_rules(xmlNode *ruleset, const pe_rule_eval_data_t *rule_data, crm_time_t *next_change) { // If there are no rules, pass by default gboolean ruleset_default = TRUE; for (xmlNode *rule = first_named_child(ruleset, XML_TAG_RULE); rule != NULL; rule = crm_next_same_xml(rule)) { ruleset_default = FALSE; if (pe_eval_expr(rule, rule_data, next_change)) { /* Only the deprecated "lifetime" element of location constraints * may contain more than one rule at the top level -- the schema * limits a block of nvpairs to a single top-level rule. So, this * effectively means that a lifetime is active if any rule it * contains is active. */ return TRUE; } } return ruleset_default; } /*! * \brief Evaluate all of a rule's expressions * * \param[in,out] rule XML containing a rule definition or its id-ref * \param[in] rule_data Matching parameters to check against rule * \param[out] next_change If not NULL, set to when evaluation will change * * \return TRUE if \p rule_data passes \p rule, otherwise FALSE */ gboolean pe_eval_expr(xmlNode *rule, const pe_rule_eval_data_t *rule_data, crm_time_t *next_change) { xmlNode *expr = NULL; gboolean test = TRUE; gboolean empty = TRUE; gboolean passed = TRUE; gboolean do_and = TRUE; const char *value = NULL; rule = expand_idref(rule, NULL); value = crm_element_value(rule, XML_RULE_ATTR_BOOLEAN_OP); if (pcmk__str_eq(value, "or", pcmk__str_casei)) { do_and = FALSE; passed = FALSE; } crm_trace("Testing rule %s", ID(rule)); for (expr = pcmk__xe_first_child(rule); expr != NULL; expr = pcmk__xe_next(expr)) { test = pe_eval_subexpr(expr, rule_data, next_change); empty = FALSE; if (test && do_and == FALSE) { crm_trace("Expression %s/%s passed", ID(rule), ID(expr)); return TRUE; } else if (test == FALSE && do_and) { crm_trace("Expression %s/%s failed", ID(rule), ID(expr)); return FALSE; } } if (empty) { crm_err("Invalid Rule %s: rules must contain at least one expression", ID(rule)); } crm_trace("Rule %s %s", ID(rule), passed ? "passed" : "failed"); return passed; } /*! * \brief Evaluate a single rule expression, including any subexpressions * * \param[in,out] expr XML containing a rule expression * \param[in] rule_data Matching parameters to check against expression * \param[out] next_change If not NULL, set to when evaluation will change * * \return TRUE if \p rule_data passes \p expr, otherwise FALSE */ gboolean pe_eval_subexpr(xmlNode *expr, const pe_rule_eval_data_t *rule_data, crm_time_t *next_change) { gboolean accept = FALSE; const char *uname = NULL; switch (find_expression_type(expr)) { case nested_rule: accept = pe_eval_expr(expr, rule_data, next_change); break; case attr_expr: case loc_expr: /* these expressions can never succeed if there is * no node to compare with */ if (rule_data->node_hash != NULL) { accept = pe__eval_attr_expr(expr, rule_data); } break; case time_expr: switch (pe__eval_date_expr(expr, rule_data, next_change)) { case pcmk_rc_within_range: case pcmk_rc_ok: accept = TRUE; break; default: accept = FALSE; break; } break; case role_expr: accept = pe__eval_role_expr(expr, rule_data); break; case rsc_expr: accept = pe__eval_rsc_expr(expr, rule_data); break; case op_expr: accept = pe__eval_op_expr(expr, rule_data); break; default: CRM_CHECK(FALSE /* bad type */ , return FALSE); accept = FALSE; } if (rule_data->node_hash) { uname = g_hash_table_lookup(rule_data->node_hash, CRM_ATTR_UNAME); } crm_trace("Expression %s %s on %s", ID(expr), accept ? "passed" : "failed", uname ? uname : "all nodes"); return accept; } /*! * \internal * \brief Compare two values in a rule's node attribute expression * * \param[in] l_val Value on left-hand side of comparison * \param[in] r_val Value on right-hand side of comparison * \param[in] type How to interpret the values (allowed values: * \c "string", \c "integer", \c "number", * \c "version", \c NULL) * \param[in] op Type of comparison * * \return -1 if (l_val < r_val), * 0 if (l_val == r_val), * 1 if (l_val > r_val) */ static int compare_attr_expr_vals(const char *l_val, const char *r_val, const char *type, const char *op) { int cmp = 0; if (l_val != NULL && r_val != NULL) { if (type == NULL) { if (pcmk__strcase_any_of(op, "lt", "lte", "gt", "gte", NULL)) { if (pcmk__char_in_any_str('.', l_val, r_val, NULL)) { type = "number"; } else { type = "integer"; } } else { type = "string"; } crm_trace("Defaulting to %s based comparison for '%s' op", type, op); } if (pcmk__str_eq(type, "string", pcmk__str_casei)) { cmp = strcasecmp(l_val, r_val); } else if (pcmk__str_eq(type, "integer", pcmk__str_casei)) { long long l_val_num; int rc1 = pcmk__scan_ll(l_val, &l_val_num, 0LL); long long r_val_num; int rc2 = pcmk__scan_ll(r_val, &r_val_num, 0LL); if ((rc1 == pcmk_rc_ok) && (rc2 == pcmk_rc_ok)) { if (l_val_num < r_val_num) { cmp = -1; } else if (l_val_num > r_val_num) { cmp = 1; } else { cmp = 0; } } else { crm_debug("Integer parse error. Comparing %s and %s as strings", l_val, r_val); cmp = compare_attr_expr_vals(l_val, r_val, "string", op); } } else if (pcmk__str_eq(type, "number", pcmk__str_casei)) { double l_val_num; double r_val_num; int rc1 = pcmk__scan_double(l_val, &l_val_num, NULL, NULL); int rc2 = pcmk__scan_double(r_val, &r_val_num, NULL, NULL); if (rc1 == pcmk_rc_ok && rc2 == pcmk_rc_ok) { if (l_val_num < r_val_num) { cmp = -1; } else if (l_val_num > r_val_num) { cmp = 1; } else { cmp = 0; } } else { crm_debug("Floating-point parse error. Comparing %s and %s as " "strings", l_val, r_val); cmp = compare_attr_expr_vals(l_val, r_val, "string", op); } } else if (pcmk__str_eq(type, "version", pcmk__str_casei)) { cmp = compare_version(l_val, r_val); } } else if (l_val == NULL && r_val == NULL) { cmp = 0; } else if (r_val == NULL) { cmp = 1; } else { // l_val == NULL && r_val != NULL cmp = -1; } return cmp; } /*! * \internal * \brief Check whether an attribute expression evaluates to \c true * * \param[in] l_val Value on left-hand side of comparison * \param[in] r_val Value on right-hand side of comparison * \param[in] type How to interpret the values (allowed values: * \c "string", \c "integer", \c "number", * \c "version", \c NULL) * \param[in] op Type of comparison. * * \return \c true if expression evaluates to \c true, \c false * otherwise */ static bool accept_attr_expr(const char *l_val, const char *r_val, const char *type, const char *op) { int cmp; if (pcmk__str_eq(op, "defined", pcmk__str_casei)) { return (l_val != NULL); } else if (pcmk__str_eq(op, "not_defined", pcmk__str_casei)) { return (l_val == NULL); } cmp = compare_attr_expr_vals(l_val, r_val, type, op); if (pcmk__str_eq(op, "eq", pcmk__str_casei)) { return (cmp == 0); } else if (pcmk__str_eq(op, "ne", pcmk__str_casei)) { return (cmp != 0); } else if (l_val == NULL || r_val == NULL) { // The comparison is meaningless from this point on return false; } else if (pcmk__str_eq(op, "lt", pcmk__str_casei)) { return (cmp < 0); } else if (pcmk__str_eq(op, "lte", pcmk__str_casei)) { return (cmp <= 0); } else if (pcmk__str_eq(op, "gt", pcmk__str_casei)) { return (cmp > 0); } else if (pcmk__str_eq(op, "gte", pcmk__str_casei)) { return (cmp >= 0); } return false; // Should never reach this point } /*! * \internal * \brief Get correct value according to value-source * * \param[in] value value given in rule expression * \param[in] value_source value-source given in rule expressions * \param[in] match_data If not NULL, resource back-references and params */ static const char * expand_value_source(const char *value, const char *value_source, const pe_match_data_t *match_data) { GHashTable *table = NULL; if (pcmk__str_empty(value)) { return NULL; // value_source is irrelevant } else if (pcmk__str_eq(value_source, "param", pcmk__str_casei)) { table = match_data->params; } else if (pcmk__str_eq(value_source, "meta", pcmk__str_casei)) { table = match_data->meta; } else { // literal return value; } if (table == NULL) { return NULL; } return (const char *) g_hash_table_lookup(table, value); } /*! * \internal * \brief Evaluate a node attribute expression based on #uname, #id, #kind, * or a generic node attribute * * \param[in] expr XML of rule expression * \param[in] rule_data The match_data and node_hash members are used * * \return TRUE if rule_data satisfies the expression, FALSE otherwise */ gboolean pe__eval_attr_expr(const xmlNode *expr, const pe_rule_eval_data_t *rule_data) { gboolean attr_allocated = FALSE; const char *h_val = NULL; const char *op = NULL; const char *type = NULL; const char *attr = NULL; const char *value = NULL; const char *value_source = NULL; attr = crm_element_value(expr, XML_EXPR_ATTR_ATTRIBUTE); op = crm_element_value(expr, XML_EXPR_ATTR_OPERATION); value = crm_element_value(expr, XML_EXPR_ATTR_VALUE); type = crm_element_value(expr, XML_EXPR_ATTR_TYPE); value_source = crm_element_value(expr, XML_EXPR_ATTR_VALUE_SOURCE); if (attr == NULL) { pe_err("Expression %s invalid: " XML_EXPR_ATTR_ATTRIBUTE " not specified", pcmk__s(ID(expr), "without ID")); return FALSE; } else if (op == NULL) { pe_err("Expression %s invalid: " XML_EXPR_ATTR_OPERATION " not specified", pcmk__s(ID(expr), "without ID")); } if (rule_data->match_data != NULL) { // Expand any regular expression submatches (%0-%9) in attribute name if (rule_data->match_data->re != NULL) { char *resolved_attr = pe_expand_re_matches(attr, rule_data->match_data->re); if (resolved_attr != NULL) { attr = (const char *) resolved_attr; attr_allocated = TRUE; } } // Get value appropriate to value-source value = expand_value_source(value, value_source, rule_data->match_data); } if (rule_data->node_hash != NULL) { h_val = (const char *)g_hash_table_lookup(rule_data->node_hash, attr); } if (attr_allocated) { free((char *)attr); attr = NULL; } return accept_attr_expr(h_val, value, type, op); } /*! * \internal * \brief Evaluate a date_expression * * \param[in] expr XML of rule expression * \param[in] rule_data Only the now member is used * \param[out] next_change If not NULL, set to when evaluation will change * * \return Standard Pacemaker return code */ int pe__eval_date_expr(const xmlNode *expr, const pe_rule_eval_data_t *rule_data, crm_time_t *next_change) { crm_time_t *start = NULL; crm_time_t *end = NULL; const char *value = NULL; const char *op = crm_element_value(expr, "operation"); xmlNode *duration_spec = NULL; xmlNode *date_spec = NULL; // "undetermined" will also be returned for parsing errors int rc = pcmk_rc_undetermined; crm_trace("Testing expression: %s", ID(expr)); duration_spec = first_named_child(expr, "duration"); date_spec = first_named_child(expr, "date_spec"); value = crm_element_value(expr, "start"); if (value != NULL) { start = crm_time_new(value); } value = crm_element_value(expr, "end"); if (value != NULL) { end = crm_time_new(value); } if (start != NULL && end == NULL && duration_spec != NULL) { end = parse_xml_duration(start, duration_spec); } if (pcmk__str_eq(op, "in_range", pcmk__str_null_matches | pcmk__str_casei)) { if ((start == NULL) && (end == NULL)) { // in_range requires at least one of start or end } else if ((start != NULL) && (crm_time_compare(rule_data->now, start) < 0)) { rc = pcmk_rc_before_range; crm_time_set_if_earlier(next_change, start); } else if ((end != NULL) && (crm_time_compare(rule_data->now, end) > 0)) { rc = pcmk_rc_after_range; } else { rc = pcmk_rc_within_range; if (end && next_change) { // Evaluation doesn't change until second after end crm_time_add_seconds(end, 1); crm_time_set_if_earlier(next_change, end); } } } else if (pcmk__str_eq(op, "date_spec", pcmk__str_casei)) { rc = pe_cron_range_satisfied(rule_data->now, date_spec); // @TODO set next_change appropriately } else if (pcmk__str_eq(op, "gt", pcmk__str_casei)) { if (start == NULL) { // gt requires start } else if (crm_time_compare(rule_data->now, start) > 0) { rc = pcmk_rc_within_range; } else { rc = pcmk_rc_before_range; // Evaluation doesn't change until second after start crm_time_add_seconds(start, 1); crm_time_set_if_earlier(next_change, start); } } else if (pcmk__str_eq(op, "lt", pcmk__str_casei)) { if (end == NULL) { // lt requires end } else if (crm_time_compare(rule_data->now, end) < 0) { rc = pcmk_rc_within_range; crm_time_set_if_earlier(next_change, end); } else { rc = pcmk_rc_after_range; } } crm_time_free(start); crm_time_free(end); return rc; } gboolean pe__eval_op_expr(const xmlNode *expr, const pe_rule_eval_data_t *rule_data) { const char *name = crm_element_value(expr, XML_NVPAIR_ATTR_NAME); const char *interval_s = crm_element_value(expr, XML_LRM_ATTR_INTERVAL); guint interval; crm_trace("Testing op_defaults expression: %s", ID(expr)); if (rule_data->op_data == NULL) { crm_trace("No operations data provided"); return FALSE; } interval = crm_parse_interval_spec(interval_s); if (interval == 0 && errno != 0) { crm_trace("Could not parse interval: %s", interval_s); return FALSE; } if (interval_s != NULL && interval != rule_data->op_data->interval) { crm_trace("Interval doesn't match: %d != %d", interval, rule_data->op_data->interval); return FALSE; } if (!pcmk__str_eq(name, rule_data->op_data->op_name, pcmk__str_none)) { crm_trace("Name doesn't match: %s != %s", name, rule_data->op_data->op_name); return FALSE; } return TRUE; } /*! * \internal * \brief Evaluate a node attribute expression based on #role * * \param[in] expr XML of rule expression * \param[in] rule_data Only the role member is used * * \return TRUE if rule_data->role satisfies the expression, FALSE otherwise */ gboolean pe__eval_role_expr(const xmlNode *expr, const pe_rule_eval_data_t *rule_data) { gboolean accept = FALSE; const char *op = NULL; const char *value = NULL; if (rule_data->role == RSC_ROLE_UNKNOWN) { return accept; } value = crm_element_value(expr, XML_EXPR_ATTR_VALUE); op = crm_element_value(expr, XML_EXPR_ATTR_OPERATION); if (pcmk__str_eq(op, "defined", pcmk__str_casei)) { if (rule_data->role > RSC_ROLE_STARTED) { accept = TRUE; } } else if (pcmk__str_eq(op, "not_defined", pcmk__str_casei)) { if ((rule_data->role > RSC_ROLE_UNKNOWN) && (rule_data->role < RSC_ROLE_UNPROMOTED)) { accept = TRUE; } } else if (pcmk__str_eq(op, "eq", pcmk__str_casei)) { if (text2role(value) == rule_data->role) { accept = TRUE; } } else if (pcmk__str_eq(op, "ne", pcmk__str_casei)) { // Test "ne" only with promotable clone roles if ((rule_data->role > RSC_ROLE_UNKNOWN) && (rule_data->role < RSC_ROLE_UNPROMOTED)) { accept = FALSE; } else if (text2role(value) != rule_data->role) { accept = TRUE; } } return accept; } gboolean pe__eval_rsc_expr(const xmlNode *expr, const pe_rule_eval_data_t *rule_data) { const char *class = crm_element_value(expr, XML_AGENT_ATTR_CLASS); const char *provider = crm_element_value(expr, XML_AGENT_ATTR_PROVIDER); const char *type = crm_element_value(expr, XML_EXPR_ATTR_TYPE); crm_trace("Testing rsc_defaults expression: %s", ID(expr)); if (rule_data->rsc_data == NULL) { crm_trace("No resource data provided"); return FALSE; } if (class != NULL && !pcmk__str_eq(class, rule_data->rsc_data->standard, pcmk__str_none)) { crm_trace("Class doesn't match: %s != %s", class, rule_data->rsc_data->standard); return FALSE; } if ((provider == NULL && rule_data->rsc_data->provider != NULL) || (provider != NULL && rule_data->rsc_data->provider == NULL) || !pcmk__str_eq(provider, rule_data->rsc_data->provider, pcmk__str_none)) { crm_trace("Provider doesn't match: %s != %s", provider, rule_data->rsc_data->provider); return FALSE; } if (type != NULL && !pcmk__str_eq(type, rule_data->rsc_data->agent, pcmk__str_none)) { crm_trace("Agent doesn't match: %s != %s", type, rule_data->rsc_data->agent); return FALSE; } return TRUE; } // Deprecated functions kept only for backward API compatibility // LCOV_EXCL_START #include gboolean test_ruleset(xmlNode *ruleset, GHashTable *node_hash, crm_time_t *now) { return pe_evaluate_rules(ruleset, node_hash, now, NULL); } gboolean test_rule(xmlNode * rule, GHashTable * node_hash, enum rsc_role_e role, crm_time_t * now) { return pe_test_rule(rule, node_hash, role, now, NULL, NULL); } gboolean pe_test_rule_re(xmlNode * rule, GHashTable * node_hash, enum rsc_role_e role, crm_time_t * now, pe_re_match_data_t * re_match_data) { pe_match_data_t match_data = { .re = re_match_data, .params = NULL, .meta = NULL, }; return pe_test_rule(rule, node_hash, role, now, NULL, &match_data); } gboolean pe_test_rule_full(xmlNode *rule, GHashTable *node_hash, enum rsc_role_e role, crm_time_t *now, pe_match_data_t *match_data) { return pe_test_rule(rule, node_hash, role, now, NULL, match_data); } gboolean test_expression(xmlNode * expr, GHashTable * node_hash, enum rsc_role_e role, crm_time_t * now) { return pe_test_expression(expr, node_hash, role, now, NULL, NULL); } gboolean pe_test_expression_re(xmlNode * expr, GHashTable * node_hash, enum rsc_role_e role, crm_time_t * now, pe_re_match_data_t * re_match_data) { pe_match_data_t match_data = { .re = re_match_data, .params = NULL, .meta = NULL, }; return pe_test_expression(expr, node_hash, role, now, NULL, &match_data); } gboolean pe_test_expression_full(xmlNode *expr, GHashTable *node_hash, enum rsc_role_e role, crm_time_t *now, pe_match_data_t *match_data) { return pe_test_expression(expr, node_hash, role, now, NULL, match_data); } void unpack_instance_attributes(xmlNode *top, xmlNode *xml_obj, const char *set_name, GHashTable *node_hash, GHashTable *hash, const char *always_first, gboolean overwrite, crm_time_t *now) { pe_rule_eval_data_t rule_data = { .node_hash = node_hash, .role = RSC_ROLE_UNKNOWN, .now = now, .match_data = NULL, .rsc_data = NULL, .op_data = NULL }; pe_eval_nvpairs(top, xml_obj, set_name, &rule_data, hash, always_first, overwrite, NULL); } // LCOV_EXCL_STOP // End deprecated API