[UTILS] FSGET: Transition to using deb822 format for Debian sources replacing the...

[thirdparty/freeswitch.git] / src / switch_xml.c

/*
 * FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application
 * Copyright (C) 2005-2014, Anthony Minessale II <anthm@freeswitch.org>
 *
 * Version: MPL 1.1
 *
 * The contents of this file are subject to the Mozilla Public License Version
 * 1.1 (the "License"); you may not use this file except in compliance with
 * the License. You may obtain a copy of the License at
 * http://www.mozilla.org/MPL/
 *
 * Software distributed under the License is distributed on an "AS IS" basis,
 * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
 * for the specific language governing rights and limitations under the
 * License.
 *
 * The Original Code is FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application
 *
 * The Initial Developer of the Original Code is
 * Anthony Minessale II <anthm@freeswitch.org>
 * Portions created by the Initial Developer are Copyright (C)
 * the Initial Developer. All Rights Reserved.
 *
 * Contributor(s):
 *
 * Anthony Minessale II <anthm@freeswitch.org>
 * Simon Capper <skyjunky@sbcglobal.net>
 * Marc Olivier Chouinard <mochouinard@moctel.com>
 * Raymond Chandler <intralanman@freeswitch.org>
 *
 * switch_xml.c -- XML PARSER
 *
 * Derived from ezxml http://ezxml.sourceforge.net
 * Original Copyright
 *
 * Copyright 2004, 2006 Aaron Voisine <aaron@voisine.org>
 *
 * Permission is hereby granted, free of charge, to any person obtaining
 * a copy of this software and associated documentation files (the
 * "Software"), to deal in the Software without restriction, including
 * without limitation the rights to use, copy, modify, merge, publish,
 * distribute, sublicense, and/or sell copies of the Software, and to
 * permit persons to whom the Software is furnished to do so, subject to
 * the following conditions:
 *
 * The above copyright notice and this permission notice shall be included
 * in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
 * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
 * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
 * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
 * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
 */

#include <switch.h>
#include <switch_stun.h>
#ifndef WIN32
#include <sys/wait.h>
#include <switch_private.h>
#include <glob.h>
#else /* we're on windoze :( */
/* glob functions at end of this file */
#include <fspr_file_io.h>

typedef struct {
	size_t gl_pathc;			/* Count of total paths so far. */
	size_t gl_matchc;			/* Count of paths matching pattern. */
	size_t gl_offs;				/* Reserved at beginning of gl_pathv. */
	int gl_flags;				/* Copy of flags parameter to glob. */
	char **gl_pathv;			/* List of paths matching pattern. */
	/* Copy of errfunc parameter to glob. */
	int (*gl_errfunc) (const char *, int);
} glob_t;

/* Believed to have been introduced in 1003.2-1992 */
#define	GLOB_APPEND		0x0001	/* Append to output from previous call. */
#define	GLOB_DOOFFS		0x0002	/* Use gl_offs. */
#define	GLOB_ERR		0x0004	/* Return on error. */
#define	GLOB_MARK		0x0008	/* Append / to matching directories. */
#define	GLOB_NOCHECK	0x0010	/* Return pattern itself if nothing matches. */
#define	GLOB_NOSORT		0x0020	/* Don't sort. */

/* Error values returned by glob(3) */
#define	GLOB_NOSPACE	(-1)	/* Malloc call failed. */
#define	GLOB_ABORTED	(-2)	/* Unignored error. */
#define	GLOB_NOMATCH	(-3)	/* No match and GLOB_NOCHECK was not set. */
#define	GLOB_NOSYS		(-4)	/* Obsolete: source comptability only. */

#define	GLOB_ALTDIRFUNC	0x0040	/* Use alternately specified directory funcs. */
#define	GLOB_MAGCHAR	0x0100	/* Pattern had globbing characters. */
#define	GLOB_NOMAGIC	0x0200	/* GLOB_NOCHECK without magic chars (csh). */
#define	GLOB_QUOTE		0x0400	/* Quote special chars with \. */
#define	GLOB_LIMIT		0x1000	/* limit number of returned paths */

int glob(const char *, int, int (*)(const char *, int), glob_t *);
void globfree(glob_t *);

#endif

#define SWITCH_XML_WS   "\t\r\n "	/* whitespace */
#define SWITCH_XML_ERRL 128		/* maximum error string length */

static void preprocess_exec_set(char *keyval)
{
	char *key = keyval;
	char *val = strchr(keyval, '=');

	if (val) {
		char *ve = val++;
		while (*val && *val == ' ') {
			val++;
		}
		*ve-- = '\0';
		while (*ve && *ve == ' ') {
			*ve-- = '\0';
		}
	}

	if (key && val) {
		switch_stream_handle_t exec_result = { 0 };
		SWITCH_STANDARD_STREAM(exec_result);
		if (switch_stream_system(val, &exec_result) == 0) {
			if (!zstr(exec_result.data)) {
				char *tmp = (char *) exec_result.data;
				tmp = &tmp[strlen(tmp)-1];
				while (tmp >= (char *) exec_result.data && ( tmp[0] == ' ' || tmp[0] == '\n') ) {
					tmp[0] = '\0'; /* remove trailing spaces and newlines */
					tmp--;
				}
				switch_core_set_variable(key, exec_result.data);
			}
		} else {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Error while executing command: %s\n", val);
		}
		switch_safe_free(exec_result.data);
	}
}

static void preprocess_stun_set(char *keyval)
{
	char *key = keyval;
	char *val = strchr(keyval, '=');

	if (val) {
		char *ve = val++;
		while (*val && *val == ' ') {
			val++;
		}
		*ve-- = '\0';
		while (*ve && *ve == ' ') {
			*ve-- = '\0';
		}
	}

	if (key && val) {
		char *external_ip = NULL;
		switch_memory_pool_t *pool;

		switch_core_new_memory_pool(&pool);

		if (switch_stun_ip_lookup(&external_ip, val, pool) == SWITCH_STATUS_SUCCESS) {
			if (!zstr(external_ip)) {
				char *tmp = external_ip;
				tmp = &tmp[strlen(tmp) - 1];
				while (tmp >= external_ip && (tmp[0] == ' ' || tmp[0] == '\n')) {
					tmp[0] = '\0'; /* remove trailing spaces and newlines */
					tmp--;
				}
				switch_core_set_variable(key, external_ip);
			}
		} else {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "stun-set failed.\n");
		}

		switch_core_destroy_memory_pool(&pool);
	}
}

static void preprocess_env_set(char *keyval)
{
	char *key = keyval;
	char *val = strchr(keyval, '=');

	if (key && val) {
		*val++ = '\0';

		if (*val++ == '$') {
			char *data = getenv(val);

			if (data) {
				switch_core_set_variable(key, data);
			}
		}
	}
}

static int preprocess(const char *cwd, const char *file, FILE *write_fd, int rlevel);

typedef struct switch_xml_root *switch_xml_root_t;
struct switch_xml_root {		/* additional data for the root tag */
	struct switch_xml xml;		/* is a super-struct built on top of switch_xml struct */
	switch_xml_t cur;			/* current xml tree insertion point */
	char *m;					/* original xml string */
	switch_size_t len;			/* length of allocated memory */
	uint8_t dynamic;			/* Free the original string when calling switch_xml_free */
	char *u;					/* UTF-8 conversion of string if original was UTF-16 */
	char *s;					/* start of work area */
	char *e;					/* end of work area */
	char **ent;					/* general entities (ampersand sequences) */
	char ***attr;				/* default attributes */
	char ***pi;					/* processing instructions */
	short standalone;			/* non-zero if <?xml standalone="yes"?> */
	char err[SWITCH_XML_ERRL];	/* error string */
};

char *SWITCH_XML_NIL[] = { NULL };	/* empty, null terminated array of strings */

struct switch_xml_binding {
	switch_xml_search_function_t function;
	switch_xml_section_t sections;
	void *user_data;
	struct switch_xml_binding *next;
};


static switch_xml_binding_t *BINDINGS = NULL;
static switch_xml_t MAIN_XML_ROOT = NULL;
static switch_memory_pool_t *XML_MEMORY_POOL = NULL;

static switch_thread_rwlock_t *B_RWLOCK = NULL;
static switch_mutex_t *XML_LOCK = NULL;
static switch_mutex_t *CACHE_MUTEX = NULL;
static switch_mutex_t *REFLOCK = NULL;
static switch_mutex_t *FILE_LOCK = NULL;

SWITCH_DECLARE_NONSTD(switch_xml_t) __switch_xml_open_root(uint8_t reload, const char **err, void *user_data);

static switch_xml_open_root_function_t XML_OPEN_ROOT_FUNCTION = (switch_xml_open_root_function_t)__switch_xml_open_root;
static void *XML_OPEN_ROOT_FUNCTION_USER_DATA = NULL;

static switch_hash_t *CACHE_HASH = NULL;
static switch_hash_t *CACHE_EXPIRES_HASH = NULL;

struct xml_section_t {
	const char *name;
	/* switch_xml_section_t section; */
	uint32_t section;
};

static struct xml_section_t SECTIONS[] = {
	{"result", SWITCH_XML_SECTION_RESULT},
	{"config", SWITCH_XML_SECTION_CONFIG},
	{"directory", SWITCH_XML_SECTION_DIRECTORY},
	{"dialplan", SWITCH_XML_SECTION_DIALPLAN},
	{"languages", SWITCH_XML_SECTION_LANGUAGES},
	{"chatplan", SWITCH_XML_SECTION_CHATPLAN},
	{"channels", SWITCH_XML_SECTION_CHANNELS},
	{NULL, 0}
};

SWITCH_DECLARE(switch_xml_section_t) switch_xml_parse_section_string(const char *str)
{
	size_t x;
	char buf[1024] = "";
	/*switch_xml_section_t sections = SWITCH_XML_SECTION_RESULT; */
	uint32_t sections = SWITCH_XML_SECTION_RESULT;

	if (str) {
		for (x = 0; x < strlen(str); x++) {
			buf[x] = (char) tolower((int) str[x]);
		}
		for (x = 0;; x++) {
			if (!SECTIONS[x].name) {
				break;
			}
			if (strstr(buf, SECTIONS[x].name)) {
				sections |= SECTIONS[x].section;
			}
		}
	}
	return (switch_xml_section_t) sections;
}

SWITCH_DECLARE(switch_status_t) switch_xml_unbind_search_function(switch_xml_binding_t **binding)
{
	switch_xml_binding_t *ptr, *last = NULL;
	switch_status_t status = SWITCH_STATUS_FALSE;


	switch_thread_rwlock_wrlock(B_RWLOCK);
	for (ptr = BINDINGS; ptr; ptr = ptr->next) {
		if (ptr == *binding) {
			if (last) {
				last->next = (*binding)->next;
			} else {
				BINDINGS = (*binding)->next;
			}
			status = SWITCH_STATUS_SUCCESS;
			break;
		}
		last = ptr;
	}
	switch_thread_rwlock_unlock(B_RWLOCK);

	return status;
}

SWITCH_DECLARE(switch_status_t) switch_xml_unbind_search_function_ptr(switch_xml_search_function_t function)
{
	switch_xml_binding_t *ptr, *last = NULL;
	switch_status_t status = SWITCH_STATUS_FALSE;

	switch_thread_rwlock_wrlock(B_RWLOCK);
	for (ptr = BINDINGS; ptr; ptr = ptr->next) {
		if (ptr->function == function) {
			status = SWITCH_STATUS_SUCCESS;

			if (last) {
				last->next = ptr->next;
			} else {
				BINDINGS = ptr->next;
				last = NULL;
				continue;
			}
		}
		last = ptr;
	}
	switch_thread_rwlock_unlock(B_RWLOCK);

	return status;
}

SWITCH_DECLARE(void) switch_xml_set_binding_sections(switch_xml_binding_t *binding, switch_xml_section_t sections)
{
	switch_assert(binding);
	binding->sections = sections;
}

SWITCH_DECLARE(void) switch_xml_set_binding_user_data(switch_xml_binding_t *binding, void *user_data)
{
	switch_assert(binding);
	binding->user_data = user_data;
}

SWITCH_DECLARE(switch_xml_section_t) switch_xml_get_binding_sections(switch_xml_binding_t *binding)
{
	return binding->sections;
}

SWITCH_DECLARE(void *) switch_xml_get_binding_user_data(switch_xml_binding_t *binding)
{
	return binding->user_data;
}

SWITCH_DECLARE(switch_status_t) switch_xml_bind_search_function_ret(switch_xml_search_function_t function,
																	switch_xml_section_t sections, void *user_data, switch_xml_binding_t **ret_binding)
{
	switch_xml_binding_t *binding = NULL, *ptr = NULL;
	assert(function != NULL);

	if (!(binding = (switch_xml_binding_t *) switch_core_alloc(XML_MEMORY_POOL, sizeof(*binding)))) {
		return SWITCH_STATUS_MEMERR;
	}

	binding->function = function;
	binding->sections = sections;
	binding->user_data = user_data;

	switch_thread_rwlock_wrlock(B_RWLOCK);
	for (ptr = BINDINGS; ptr && ptr->next; ptr = ptr->next);

	if (ptr) {
		ptr->next = binding;
	} else {
		BINDINGS = binding;
	}

	if (ret_binding) {
		*ret_binding = binding;
	}

	switch_thread_rwlock_unlock(B_RWLOCK);

	return SWITCH_STATUS_SUCCESS;
}

SWITCH_DECLARE(switch_xml_t) switch_xml_find_child(switch_xml_t node, const char *childname, const char *attrname, const char *value)
{
	switch_xml_t p = NULL;

	if (!(childname && attrname && value)) {
		return node;
	}

	for (p = switch_xml_child(node, childname); p; p = p->next) {
		const char *aname = switch_xml_attr(p, attrname);
		if (aname && !strcasecmp(aname, value)) {
			break;
		}
	}

	return p;
}

SWITCH_DECLARE(switch_xml_t) switch_xml_find_child_multi(switch_xml_t node, const char *childname,...)
{
	switch_xml_t p = NULL;
	const char *names[256] = { 0 };
	const char *vals[256] = { 0 };
	int x, i = 0;
	va_list ap;
	const char *attrname, *value = NULL;

	va_start(ap, childname);

	while (i < 255) {
		if ((attrname = va_arg(ap, const char *))) {
			value = va_arg(ap, const char *);
		}
		if (attrname && value) {
			names[i] = attrname;
			vals[i] = value;
		} else {
			break;
		}
		i++;
	}

	va_end(ap);

	if (!(childname && i)) {
		return node;
	}

	for (p = switch_xml_child(node, childname); p; p = p->next) {
		for (x = 0; x < i; x++) {
			if (names[x] && vals[x]) {
				const char *aname = switch_xml_attr(p, names[x]);

				if (aname) {
					if (*vals[x] == '!') {
						const char *sval = vals[x] + 1;
						if (strcasecmp(aname, sval)) {
							goto done;
						}
					} else {
						if (!strcasecmp(aname, vals[x])) {
							goto done;
						}
					}
				}
			}
		}
	}

  done:

	return p;
}

/* returns the first child tag with the given name or NULL if not found */
SWITCH_DECLARE(switch_xml_t) switch_xml_child(switch_xml_t xml, const char *name)
{
	xml = (xml) ? xml->child : NULL;
	while (xml && strcmp(name, xml->name))
		xml = xml->sibling;
	return xml;
}

/* returns the Nth tag with the same name in the same subsection or NULL if not found */
switch_xml_t switch_xml_idx(switch_xml_t xml, int idx)
{
	for (; xml && idx; idx--)
		xml = xml->next;
	return xml;
}

/* returns the value of the requested tag attribute or "" if not found */
SWITCH_DECLARE(const char *) switch_xml_attr_soft(switch_xml_t xml, const char *attr)
{
	const char *ret = switch_xml_attr(xml, attr);

	return ret ? ret : "";
}

/* returns the value of the requested tag attribute or NULL if not found */
SWITCH_DECLARE(const char *) switch_xml_attr(switch_xml_t xml, const char *attr)
{
	int i = 0, j = 1;
	switch_xml_root_t root = (switch_xml_root_t) xml;

	if (!xml || !xml->attr)
		return NULL;
	while (xml->attr[i] && attr && strcmp(attr, xml->attr[i]))
		i += 2;
	if (xml->attr[i])
		return xml->attr[i + 1];	/* found attribute */

	while (root->xml.parent)
		root = (switch_xml_root_t) root->xml.parent;	/* root tag */

	if (!root->attr) {
		return NULL;
	}

	for (i = 0; root->attr[i] && xml->name && strcmp(xml->name, root->attr[i][0]); i++);
	if (!root->attr[i])
		return NULL;			/* no matching default attributes */
	while (root->attr[i][j] && attr && strcmp(attr, root->attr[i][j]))
		j += 3;
	return (root->attr[i][j]) ? root->attr[i][j + 1] : NULL;	/* found default */
}

/* same as switch_xml_get but takes an already initialized va_list */
static switch_xml_t switch_xml_vget(switch_xml_t xml, va_list ap)
{
	char *name = va_arg(ap, char *);
	int idx = -1;

	if (name && *name) {
		idx = va_arg(ap, int);
		xml = switch_xml_child(xml, name);
	}
	return (idx < 0) ? xml : switch_xml_vget(switch_xml_idx(xml, idx), ap);
}

/* Traverses the xml tree to retrieve a specific subtag. Takes a variable
   length list of tag names and indexes. The argument list must be terminated
   by either an index of -1 or an empty string tag name. Example:
   title = switch_xml_get(library, "shelf", 0, "book", 2, "title", -1);
   This retrieves the title of the 3rd book on the 1st shelf of library.
   Returns NULL if not found. */
SWITCH_DECLARE(switch_xml_t) switch_xml_get(switch_xml_t xml,...)
{
	va_list ap;
	switch_xml_t r;

	va_start(ap, xml);
	r = switch_xml_vget(xml, ap);
	va_end(ap);
	return r;
}

/* returns a null terminated array of processing instructions for the given target */
SWITCH_DECLARE(const char **) switch_xml_pi(switch_xml_t xml, const char *target)
{
	switch_xml_root_t root = (switch_xml_root_t) xml;
	int i = 0;

	if (!root) {
		return (const char **) SWITCH_XML_NIL;
	}

	while (root && root->xml.parent) {
		root = (switch_xml_root_t) root->xml.parent;	/* root tag */
	}

	if (!root || !root->pi) {
		return (const char **) SWITCH_XML_NIL;
	}

	while (root->pi[i] && strcmp(target, root->pi[i][0])) {
		i++;					/* find target */
	}

	return (const char **) ((root->pi[i]) ? root->pi[i] + 1 : SWITCH_XML_NIL);
}

/* set an error string and return root */
static switch_xml_t switch_xml_err(switch_xml_root_t root, char *s, const char *err, ...)
{
	va_list ap;
	int line = 1;
	char *t, fmt[SWITCH_XML_ERRL];

	if (!root || !root->s) {
		return NULL;
	}

	for (t = root->s; t && t < s; t++)
		if (*t == '\n')
			line++;
	switch_snprintf(fmt, SWITCH_XML_ERRL, "[error near line %d]: %s", line, err);

	va_start(ap, err);
	vsnprintf(root->err, SWITCH_XML_ERRL, fmt, ap);
	va_end(ap);

	return &root->xml;
}

/* Recursively decodes entity and character references and normalizes new lines
   ent is a null terminated array of alternating entity names and values. set t
   to '&' for general entity decoding, '%' for parameter entity decoding, 'c'
   for cdata sections, ' ' for attribute normalization, or '*' for non-cdata
   attribute normalization. Returns s, or if the decoded string is longer than
   s, returns a malloced string that must be freed. */
static char *switch_xml_decode(char *s, char **ent, char t)
{
	char *e, *r = s, *m = s;
	unsigned long b, c, d, l;

	for (; *s; s++) {			/* normalize line endings */
		while (*s == '\r') {
			*(s++) = '\n';
			if (*s == '\n')
				memmove(s, (s + 1), strlen(s));
		}
	}

	for (s = r;;) {
		while (*s && *s != '&' && (*s != '%' || t != '%') && !isspace((unsigned char) (*s)))
			s++;

		if (!*s)
			break;
		else if (t != 'c' && !strncmp(s, "&#", 2)) {	/* character reference */
			char *code = s + 2;
			int base = 10;
			if (*code == 'x') {
				code++;
				base = 16;
			}
			if (!isxdigit((int)*code)) { /* "&# 1;" and "&#-1;" are invalid */
				s++;
				continue;
			}
			c = strtoul(code, &e, base);
			if (!c || *e != ';') {
				s++;
				continue;
			}
			/* not a character ref */
			if (c < 0x80)
				*(s++) = (char) c;	/* US-ASCII subset */
			else if (c > 0x7FFFFFFF) { /* out of UTF-8 range */
				s++;
				continue;
			} else {				/* multi-byte UTF-8 sequence */
				for (b = 0, d = c; d; d /= 2)
					b++;		/* number of bits in c */
				b = (b - 2) / 5;	/* number of bytes in payload */
				assert(b < 7);		/* because c <= 0x7FFFFFFF */
				*(s++) = (char) ((0xFF << (7 - b)) | (c >> (6 * b)));	/* head */
				while (b)
					*(s++) = (char) (0x80 | ((c >> (6 * --b)) & 0x3F));	/* payload */
			}

			memmove(s, strchr(s, ';') + 1, strlen(strchr(s, ';')));
		} else if ((*s == '&' && (t == '&' || t == ' ' || t == '*')) || (*s == '%' && t == '%')) {	/* entity reference */
			for (b = 0; ent[b] && strncmp(s + 1, ent[b], strlen(ent[b])); b += 2);	/* find entity in entity list */

			if (ent[b++]) {		/* found a match */
				if ((c = (unsigned long) strlen(ent[b])) - 1 > (e = strchr(s, ';')) - s) {
					l = (d = (unsigned long) (s - r)) + c + (unsigned long) strlen(e);	/* new length */
					if (l) {
						if (r == m) {
							char *tmp = (char *) switch_must_malloc(l);
							r = strcpy(tmp, r);
						} else {
							r = (char *) switch_must_realloc(r, l);
						}
					}
					e = strchr((s = r + d), ';');	/* fix up pointers */
				}

				memmove(s + c, e + 1, strlen(e));	/* shift rest of string */
				strncpy(s, ent[b], c);	/* copy in replacement text */
			} else
				s++;			/* not a known entity */
		} else if ((t == ' ' || t == '*') && isspace((int) (*s)))
			*(s++) = ' ';
		else
			s++;				/* no decoding needed */
	}

	if (t == '*') {				/* normalize spaces for non-cdata attributes */
		for (s = r; *s; s++) {
			if ((l = (unsigned long) strspn(s, " ")))
				memmove(s, s + l, strlen(s + l) + 1);
			while (*s && *s != ' ')
				s++;
		}
		if (--s >= r && *s == ' ')
			*s = '\0';			/* trim any trailing space */
	}
	return r;
}

/* called when parser finds start of new tag */
static void switch_xml_open_tag(switch_xml_root_t root, char *name, char *open_pos, char **attr)
{
	switch_xml_t xml;

	if (!root || !root->cur) {
		return;
	}

	xml = root->cur;

	if (xml->name)
		xml = switch_xml_add_child(xml, name, strlen(xml->txt));
	else
		xml->name = name;		/* first open tag */

	xml->attr = attr;
	root->cur = xml;			/* update tag insertion point */
	root->cur->open = open_pos;
}

/* called when parser finds character content between open and closing tag */
static void switch_xml_char_content(switch_xml_root_t root, char *s, switch_size_t len, char t)
{
	switch_xml_t xml;
	char *m = s;
	switch_size_t l;

	if (!root || !root->cur) {
		return;
	}

	xml = root->cur;

	if (!xml || !xml->name || !len)
		return;					/* sanity check */

	s[len] = '\0';				/* null terminate text (calling functions anticipate this) */
	len = strlen(s = switch_xml_decode(s, root->ent, t)) + 1;

	if (!*(xml->txt))
		xml->txt = s;			/* initial character content */
	else {						/* allocate our own memory and make a copy */
		if ((xml->flags & SWITCH_XML_TXTM)) {	/* allocate some space */
			xml->txt = (char *) switch_must_realloc(xml->txt, (l = strlen(xml->txt)) + len);
		} else {
			char *tmp = (char *) switch_must_malloc((l = strlen(xml->txt)) + len);

			xml->txt = strcpy(tmp, xml->txt);
		}
		strcpy(xml->txt + l, s);	/* add new char content */
		if (s != m)
			free(s);			/* free s if it was malloced by switch_xml_decode() */
	}

	if (xml->txt != m)
		switch_xml_set_flag(xml, SWITCH_XML_TXTM);
}

/* called when parser finds closing tag */
static switch_xml_t switch_xml_close_tag(switch_xml_root_t root, char *name, char *s, char *close_pos)
{
	if (!root || !root->cur || !root->cur->name || strcmp(name, root->cur->name))
		return switch_xml_err(root, s, "unexpected closing tag </%s>", name);

	root->cur->close = close_pos;
	root->cur = root->cur->parent;
	return NULL;
}

/* checks for circular entity references, returns non-zero if no circular
   references are found, zero otherwise */
static int switch_xml_ent_ok(char *name, char *s, char **ent)
{
	int i;

	for (;; s++) {
		while (*s && *s != '&')
			s++;				/* find next entity reference */
		if (!*s)
			return 1;
		if (!strncmp(s + 1, name, strlen(name)))
			return 0;			/* circular ref. */
		for (i = 0; ent[i] && strncmp(ent[i], s + 1, strlen(ent[i])); i += 2);
		if (ent[i] && !switch_xml_ent_ok(name, ent[i + 1], ent))
			return 0;
	}
}

/* called when the parser finds a processing instruction */
static void switch_xml_proc_inst(switch_xml_root_t root, char *s, switch_size_t len)
{
	int i = 0, j = 1;
	char *target = s;
	char **sstmp;
	char *stmp;

	s[len] = '\0';				/* null terminate instruction */
	if (*(s += strcspn(s, SWITCH_XML_WS))) {
		*s = '\0';				/* null terminate target */
		s += strspn(s + 1, SWITCH_XML_WS) + 1;	/* skip whitespace after target */
	}

	if (!root)
		return;

	if (!strcmp(target, "xml")) {	/* <?xml ... ?> */
		if ((s = strstr(s, "standalone")) && !strncmp(s + strspn(s + 10, SWITCH_XML_WS "='\"") + 10, "yes", 3))
			root->standalone = 1;
		return;
	}

	if (root->pi == (char ***)(SWITCH_XML_NIL) || !root->pi || !root->pi[0]) {
		root->pi = (char ***) switch_must_malloc(sizeof(char **));
		*(root->pi) = NULL;		/* first pi */
	}

	while (root->pi[i] && strcmp(target, root->pi[i][0]))
		i++;					/* find target */
	if (!root->pi[i]) {			/* new target */
		char ***ssstmp = (char ***) switch_must_realloc(root->pi, sizeof(char **) * (i + 2));

		root->pi = ssstmp;
		if (!root->pi)
			return;
		root->pi[i] = (char **) switch_must_malloc(sizeof(char *) * 3);
		root->pi[i][0] = target;
		root->pi[i][1] = (char *) (root->pi[i + 1] = NULL);	/* terminate pi list */
		root->pi[i][2] = switch_must_strdup("");	/* empty document position list */
	}

	while (root->pi[i][j])
		j++;					/* find end of instruction list for this target */
	sstmp = (char **) switch_must_realloc(root->pi[i], sizeof(char *) * (j + 3));
	root->pi[i] = sstmp;
	stmp = (char *) switch_must_realloc(root->pi[i][j + 1], j + 1);
	root->pi[i][j + 2] = stmp;
	strcpy(root->pi[i][j + 2] + j - 1, (root->xml.name) ? ">" : "<");
	root->pi[i][j + 1] = NULL;	/* null terminate pi list for this target */
	root->pi[i][j] = s;			/* set instruction */
}

/* called when the parser finds an internal doctype subset */
static short switch_xml_internal_dtd(switch_xml_root_t root, char *s, switch_size_t len)
{
	char q, *c, *t, *n = NULL, *v, **ent, **pe;
	int i, j;
	char **sstmp;

	pe = (char **) memcpy(switch_must_malloc(sizeof(SWITCH_XML_NIL)), SWITCH_XML_NIL, sizeof(SWITCH_XML_NIL));

	for (s[len] = '\0'; s;) {
		while (*s && *s != '<' && *s != '%')
			s++;				/* find next declaration */

		if (!*s)
			break;
		else if (!strncmp(s, "<!ENTITY", 8)) {	/* parse entity definitions */
			int use_pe;

			c = s += strspn(s + 8, SWITCH_XML_WS) + 8;	/* skip white space separator */
			n = s + strspn(s, SWITCH_XML_WS "%");	/* find name */
			*(s = n + strcspn(n, SWITCH_XML_WS)) = ';';	/* append ; to name */

			v = s + strspn(s + 1, SWITCH_XML_WS) + 1;	/* find value */
			if ((q = *(v++)) != '"' && q != '\'') {	/* skip externals */
				s = strchr(s, '>');
				continue;
			}

			use_pe = (*c == '%');
			for (i = 0, ent = (use_pe) ? pe : root->ent; ent[i]; i++);
			sstmp = (char **) switch_must_realloc(ent, (i + 3) * sizeof(char *));	/* space for next ent */
			ent = sstmp;
			if (use_pe)
				pe = ent;
			else
				root->ent = ent;

			*(++s) = '\0';		/* null terminate name */
			if ((s = strchr(v, q)))
				*(s++) = '\0';	/* null terminate value */
			ent[i + 1] = switch_xml_decode(v, pe, '%');	/* set value */
			ent[i + 2] = NULL;	/* null terminate entity list */
			if (!switch_xml_ent_ok(n, ent[i + 1], ent)) {	/* circular reference */
				if (ent[i + 1] != v)
					free(ent[i + 1]);
				switch_xml_err(root, v, "circular entity declaration &%s", n);
				break;
			} else
				ent[i] = n;		/* set entity name */
		} else if (!strncmp(s, "<!ATTLIST", 9)) {	/* parse default attributes */
			t = s + strspn(s + 9, SWITCH_XML_WS) + 9;	/* skip whitespace separator */
			if (!*t) {
				switch_xml_err(root, t, "unclosed <!ATTLIST");
				break;
			}
			if (*(s = t + strcspn(t, SWITCH_XML_WS ">")) == '>')
				continue;
			else
				*s = '\0';		/* null terminate tag name */
			for (i = 0; root->attr[i] && n && strcmp(n, root->attr[i][0]); i++);

			//while (*(n = ++s + strspn(s, SWITCH_XML_WS)) && *n != '>') {
			// gcc 4.4 you are a creep
			for (;;) {
				s++;
				if (!(*(n = s + strspn(s, SWITCH_XML_WS)) && *n != '>')) {
					break;
				}
				if (*(s = n + strcspn(n, SWITCH_XML_WS)))
					*s = '\0';	/* attr name */
				else {
					switch_xml_err(root, t, "malformed <!ATTLIST");
					break;
				}

				s += strspn(s + 1, SWITCH_XML_WS) + 1;	/* find next token */
				c = (strncmp(s, "CDATA", 5)) ? (char *) "*" : (char *) " ";	/* is it cdata? */
				if (!strncmp(s, "NOTATION", 8))
					s += strspn(s + 8, SWITCH_XML_WS) + 8;
				s = (*s == '(') ? strchr(s, ')') : s + strcspn(s, SWITCH_XML_WS);
				if (!s) {
					switch_xml_err(root, t, "malformed <!ATTLIST");
					break;
				}

				s += strspn(s, SWITCH_XML_WS ")");	/* skip white space separator */
				if (!strncmp(s, "#FIXED", 6))
					s += strspn(s + 6, SWITCH_XML_WS) + 6;
				if (*s == '#') {	/* no default value */
					s += strcspn(s, SWITCH_XML_WS ">") - 1;
					if (*c == ' ')
						continue;	/* cdata is default, nothing to do */
					v = NULL;
				} else if ((*s == '"' || *s == '\'') &&	/* default value */
						   (s = strchr(v = s + 1, *s)))
					*s = '\0';
				else {
					switch_xml_err(root, t, "malformed <!ATTLIST");
					break;
				}

				if (!root->attr[i]) {	/* new tag name */
					root->attr = (!i) ? (char ***) switch_must_malloc(2 * sizeof(char **))
						: (char ***) switch_must_realloc(root->attr, (i + 2) * sizeof(char **));
					root->attr[i] = (char **) switch_must_malloc(2 * sizeof(char *));
					root->attr[i][0] = t;	/* set tag name */
					root->attr[i][1] = (char *) (root->attr[i + 1] = NULL);
				}

				for (j = 1; root->attr[i][j]; j += 3);	/* find end of list */
				sstmp = (char **) switch_must_realloc(root->attr[i], (j + 4) * sizeof(char *));

				root->attr[i] = sstmp;
				root->attr[i][j + 3] = NULL;	/* null terminate list */
				root->attr[i][j + 2] = c;	/* is it cdata? */
				root->attr[i][j + 1] = (v) ? switch_xml_decode(v, root->ent, *c) : NULL;
				root->attr[i][j] = n;	/* attribute name  */
			}
		} else if (!strncmp(s, "<!--", 4))
			s = strstr(s + 4, "-->");	/* comments */
		else if (!strncmp(s, "<?", 2)) {	/* processing instructions */
			if ((s = strstr(c = s + 2, "?>")))
				switch_xml_proc_inst(root, c, s++ - c);
		} else if (*s == '<')
			s = strchr(s, '>');	/* skip other declarations */
		else if (*(s++) == '%' && !root->standalone)
			break;
	}

	free(pe);
	return !*root->err;
}

/* Converts a UTF-16 string to UTF-8. Returns a new string that must be freed
   or NULL if no conversion was needed. */
static char *switch_xml_str2utf8(char **s, switch_size_t *len)
{
	char *u;
	switch_size_t l = 0, sl, max = *len;
	long c, d;
	int b, be = (**s == '\xFE') ? 1 : (**s == '\xFF') ? 0 : -1;

	if (be == -1)
		return NULL;			/* not UTF-16 */

	if (*len <= 3)
		return NULL;

	u = (char *) switch_must_malloc(max);
	for (sl = 2; sl < *len - 1; sl += 2) {
		c = (be) ? (((*s)[sl] & 0xFF) << 8) | ((*s)[sl + 1] & 0xFF)	/* UTF-16BE */
			: (((*s)[sl + 1] & 0xFF) << 8) | ((*s)[sl] & 0xFF);	/* UTF-16LE */
		if (c >= 0xD800 && c <= 0xDFFF && (sl += 2) < *len - 1) {	/* high-half */
			d = (be) ? (((*s)[sl] & 0xFF) << 8) | ((*s)[sl + 1] & 0xFF)
				: (((*s)[sl + 1] & 0xFF) << 8) | ((*s)[sl] & 0xFF);
			c = (((c & 0x3FF) << 10) | (d & 0x3FF)) + 0x10000;
		}

		while (l + 6 > max) {
			char *tmp;
			tmp = (char *) switch_must_realloc(u, max += SWITCH_XML_BUFSIZE);
			u = tmp;
		}
		if (c < 0x80)
			u[l++] = (char) c;	/* US-ASCII subset */
		else {					/* multi-byte UTF-8 sequence */
			for (b = 0, d = c; d; d /= 2)
				b++;			/* bits in c */
			b = (b - 2) / 5;	/* bytes in payload */
			u[l++] = (char) ((0xFF << (7 - b)) | (c >> (6 * b)));	/* head */
			while (b)
				u[l++] = (char) (0x80 | ((c >> (6 * --b)) & 0x3F));	/* payload */
		}
	}
	return *s = (char *) switch_must_realloc(u, *len = l);
}

/* frees a tag attribute list */
static void switch_xml_free_attr(char **attr)
{
	int i, c = 0;
	char *m;

	if (!attr || attr == SWITCH_XML_NIL)
		return;					/* nothing to free */
	while (attr[c])
		c += 2;					/* find end of attribute list */
	m = attr[c + 1];			/* list of which names and values are malloced */
	for (i = c / 2 - 1; i >= 0 ; i--) {
		if (m[i] & SWITCH_XML_NAMEM)
			free(attr[i * 2]);
		if (m[i] & SWITCH_XML_TXTM)
			free(attr[(i * 2) + 1]);
	}
	free(m);
	free(attr);
}

SWITCH_DECLARE(switch_xml_t) switch_xml_parse_str_dynamic(char *s, switch_bool_t dup)
{
	switch_xml_root_t root;
	char *data;

	switch_assert(s);
	data = dup ? switch_must_strdup(s) : s;

	if ((root = (switch_xml_root_t) switch_xml_parse_str(data, strlen(data)))) {
		root->dynamic = 1;		/* Make sure we free the memory is switch_xml_free() */
		return &root->xml;
	} else {
		if (dup) {
			free(data);
		}
		return NULL;
	}
}

/* parse the given xml string and return a switch_xml structure */
SWITCH_DECLARE(switch_xml_t) switch_xml_parse_str(char *s, switch_size_t len)
{
	switch_xml_root_t root = (switch_xml_root_t) switch_xml_new(NULL);
	char q, e, *d, **attr, **a = NULL;	/* initialize a to avoid compile warning */
	int l, i, j;

	root->m = s;
	if (!len)
		return switch_xml_err(root, s, "root tag missing");
	root->u = switch_xml_str2utf8(&s, &len);	/* convert utf-16 to utf-8 */
	root->e = (root->s = s) + len;	/* record start and end of work area */

	e = s[len - 1];				/* save end char */
	s[len - 1] = '\0';			/* turn end char into null terminator */

	while (*s && *s != '<')
		s++;					/* find first tag */
	if (!*s)
		return switch_xml_err(root, s, "root tag missing");

	for (;;) {
		attr = (char **) SWITCH_XML_NIL;
		d = ++s;

		if (isalpha((int) (*s)) || *s == '_' || *s == ':' || (int8_t) * s < '\0') {	/* new tag */
			if (!root->cur)
				return switch_xml_err(root, d, "markup outside of root element");

			s += strcspn(s, SWITCH_XML_WS "/>");
			while (isspace((int) (*s)))
				*(s++) = '\0';	/* null terminate tag name */

			if (*s && *s != '/' && *s != '>')	/* find tag in default attr list */
				for (i = 0; (a = root->attr[i]) && strcmp(a[0], d); i++);

			for (l = 0; *s && *s != '/' && *s != '>'; l += 2) {	/* new attrib */
				attr = (l) ? (char **) switch_must_realloc(attr, (l + 4) * sizeof(char *))
					: (char **) switch_must_malloc(4 * sizeof(char *));	/* allocate space */
				attr[l + 3] = (l) ? (char *) switch_must_realloc(attr[l + 1], (l / 2) + 2)
					: (char *) switch_must_malloc(2);	/* mem for list of maloced vals */
				strcpy(attr[l + 3] + (l / 2), " ");	/* value is not malloced */
				attr[l + 2] = NULL;	/* null terminate list */
				attr[l + 1] = (char *) "";	/* temporary attribute value */
				attr[l] = s;	/* set attribute name */

				s += strcspn(s, SWITCH_XML_WS "=/>");
				if (*s == '=' || isspace((int) (*s))) {
					*(s++) = '\0';	/* null terminate tag attribute name */
					q = *(s += strspn(s, SWITCH_XML_WS "="));
					if (q == '"' || q == '\'') {	/* attribute value */
						attr[l + 1] = ++s;
						while (*s && *s != q)
							s++;
						if (*s)
							*(s++) = '\0';	/* null terminate attribute val */
						else {
							switch_xml_free_attr(attr);
							return switch_xml_err(root, d, "missing %c", q);
						}

						for (j = 1; a && a[j] && strcmp(a[j], attr[l]); j += 3);
						attr[l + 1] = switch_xml_decode(attr[l + 1], root->ent, (a && a[j]) ? *a[j + 2] : ' ');
						if (attr[l + 1] < d || attr[l + 1] > s)
							attr[l + 3][l / 2] = SWITCH_XML_TXTM;	/* value malloced */
					}
				}
				while (isspace((int) (*s)))
					s++;
			}

			if (*s == '/') {	/* self closing tag */
				*(s++) = '\0';
				if ((*s && *s != '>') || (!*s && e != '>')) {
					if (l)
						switch_xml_free_attr(attr);
					return switch_xml_err(root, d, "missing >");
				}
				switch_xml_open_tag(root, d, s + 1, attr);
				switch_xml_close_tag(root, d, s, NULL);
			} else if ((q = *s) == '>' || (!*s && e == '>')) {	/* open tag */
				*s = '\0';		/* temporarily null terminate tag name */
				switch_xml_open_tag(root, d, s, attr);
				*s = q;
			} else {
				if (l)
					switch_xml_free_attr(attr);
				return switch_xml_err(root, d, "missing >");
			}
		} else if (*s == '/') {	/* close tag */
			char *close_pos = d - 1;
			s += strcspn(d = s + 1, SWITCH_XML_WS ">") + 1;
			if (!(q = *s) && e != '>')
				return switch_xml_err(root, d, "missing >");
			*s = '\0';			/* temporarily null terminate tag name */
			if (switch_xml_close_tag(root, d, s, close_pos))
				return &root->xml;
			if (isspace((int) (*s = q)))
				s += strspn(s, SWITCH_XML_WS);
		} else if (!strncmp(s, "!--", 3)) {	/* xml comment */
			if (!(s = strstr(s + 3, "--")) || (*(s += 2) != '>' && *s) || (!*s && e != '>'))
				return switch_xml_err(root, d, "unclosed <!--");
		} else if (!strncmp(s, "![CDATA[", 8)) {	/* cdata */
			if ((s = strstr(s, "]]>"))) {
				if (root->cur) {
					root->cur->flags |= SWITCH_XML_CDATA;
				}
				switch_xml_char_content(root, d + 8, (s += 2) - d - 10, 'c');
			} else {
				return switch_xml_err(root, d, "unclosed <![CDATA[");
			}
		} else if (!strncmp(s, "!DOCTYPE", 8)) {	/* dtd */
			for (l = 0; *s && ((!l && *s != '>') || (l && (*s != ']' || *(s + strspn(s + 1, SWITCH_XML_WS) + 1) != '>'))); l = (*s == '[') ? 1 : l)
				s += strcspn(s + 1, "[]>") + 1;
			if (!*s && e != '>')
				return switch_xml_err(root, d, "unclosed <!DOCTYPE");
			d = (l) ? strchr(d, '[') + 1 : d;
			if (l && !switch_xml_internal_dtd(root, d, s++ - d))
				return &root->xml;
		} else if (*s == '?') {	/* <?...?> processing instructions */
			do {
				s = strchr(s, '?');
			} while (s && *(++s) && *s != '>');
			if (!s || (!*s && e != '>'))
				return switch_xml_err(root, d, "unclosed <?");
			else
				switch_xml_proc_inst(root, d + 1, s - d - 2);
		} else
			return switch_xml_err(root, d, "unexpected <");

		if (!s || !*s)
			break;
		*s = '\0';
		d = ++s;
		if (*s && *s != '<') {	/* tag character content */
			while (*s && *s != '<')
				s++;
			if (*s)
				switch_xml_char_content(root, d, s - d, '&');
			else
				break;
		} else if (!*s)
			break;
	}

	if (!root->cur)
		return &root->xml;
	else if (!root->cur->name)
		return switch_xml_err(root, d, "root tag missing");
	else
		return switch_xml_err(root, d, "unclosed tag <%s>", root->cur->name);
}

/* Wrapper for switch_xml_parse_str() that accepts a file stream. Reads the entire
   stream into memory and then parses it. For xml files, use switch_xml_parse_file()
   or switch_xml_parse_fd() */
SWITCH_DECLARE(switch_xml_t) switch_xml_parse_fp(FILE * fp)
{
	switch_xml_root_t root;
	switch_size_t l, len = 0;
	char *s;

	s = (char *) switch_must_malloc(SWITCH_XML_BUFSIZE);

	do {
		len += (l = fread((s + len), 1, SWITCH_XML_BUFSIZE, fp));
		if (l == SWITCH_XML_BUFSIZE) {
			s = (char *) switch_must_realloc(s, len + SWITCH_XML_BUFSIZE);
		}
	} while (s && l == SWITCH_XML_BUFSIZE);

	if (!s) {
		return NULL;
	}

	if (!(root = (switch_xml_root_t) switch_xml_parse_str(s, len))) {
		free(s);

		return NULL;
	}

	root->dynamic = 1;			/* so we know to free s in switch_xml_free() */

	return &root->xml;
}

/* A wrapper for switch_xml_parse_str() that accepts a file descriptor. First
   attempts to mem map the file. Failing that, reads the file into memory.
   Returns NULL on failure. */
SWITCH_DECLARE(switch_xml_t) switch_xml_parse_fd(int fd)
{
	switch_xml_root_t root;
	struct stat st;
	switch_ssize_t l;
	void *m;

	if (fd < 0)
		return NULL;

	if (fstat(fd, &st) == -1 || !st.st_size) {
		return NULL;
	}

	m = switch_must_malloc(st.st_size);

	if (!(0<(l = read(fd, m, st.st_size)))
		|| !(root = (switch_xml_root_t) switch_xml_parse_str((char *) m, l))) {
		free(m);

		return NULL;
	}

	root->dynamic = 1;		/* so we know to free s in switch_xml_free() */

	return &root->xml;
}

static char *expand_vars(char *buf, char *ebuf, switch_size_t elen, switch_size_t *newlen, const char **err)
{
	char *var, *val;
	char *rp = buf;
	char *wp = ebuf;
	char *ep = ebuf + elen - 1;

	if (!strstr(rp, "$${")) {
		*newlen = strlen(buf);
		return buf;
	}

	while (*rp && wp < ep) {

		if (*rp == '$' && *(rp + 1) == '$' && *(rp + 2) == '{') {
			char *e = switch_find_end_paren(rp + 2, '{', '}');

			if (e) {
				rp += 3;
				var = rp;
				*e++ = '\0';
				rp = e;
				if ((val = switch_core_get_variable_dup(var))) {
					char *p;
					for (p = val; p && *p && wp <= ep; p++) {
						*wp++ = *p;
					}
					free(val);
				}
				continue;
			} else if (err) {
				*err = "unterminated ${var}";
			}
		}

		*wp++ = *rp++;
	}

	if (wp == ep) {
		return NULL;
	}

	*wp++ = '\0';
	*newlen = strlen(ebuf);

	return ebuf;
}

static FILE *preprocess_exec(const char *cwd, const char *command, FILE *write_fd, int rlevel)
{
#ifdef WIN32
	FILE *fp = NULL;
	char buffer[1024];

	if (!command || !strlen(command)) goto end;

	if ((fp = _popen(command, "r"))) {
		while (fgets(buffer, sizeof(buffer), fp) != NULL) {
			if (fwrite(buffer, 1, strlen(buffer), write_fd) <= 0) {
					break;
			}
		}

		if(feof(fp)) {
			_pclose(fp);
		} else {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Exec failed to read the pipe of [%s] to the end\n", command);
		}
	} else {
		switch_snprintf(buffer, sizeof(buffer), "<!-- exec can not execute [%s] -->", command);
		fwrite( buffer, 1, strlen(buffer), write_fd);
 	}
#else
	int fds[2], pid = 0;

	if (pipe(fds)) {
		goto end;
	} else {					/* good to go */
		pid = switch_fork();

		if (pid < 0) {			/* ok maybe not */
			close(fds[0]);
			close(fds[1]);
			goto end;
		} else if (pid) {		/* parent */
			char buf[1024] = "";
			int bytes;
			close(fds[1]);
			while ((bytes = read(fds[0], buf, sizeof(buf))) > 0) {
				if (fwrite(buf, 1, bytes, write_fd) <= 0) {
					break;
				}
			}
			close(fds[0]);
			waitpid(pid, NULL, 0);
		} else {				/*  child */
			switch_close_extra_files(fds, 2);
			close(fds[0]);
			dup2(fds[1], STDOUT_FILENO);
			switch_system(command, SWITCH_TRUE);
			close(fds[1]);
			exit(0);
		}
	}
#endif
  end:

	return write_fd;

}

static FILE *preprocess_glob(const char *cwd, const char *pattern, FILE *write_fd, int rlevel)
{
	char *full_path = NULL;
	char *dir_path = NULL, *e = NULL;
	glob_t glob_data;
	size_t n;
	int glob_return;

	if (!switch_is_file_path(pattern)) {
		full_path = switch_mprintf("%s%s%s", cwd, SWITCH_PATH_SEPARATOR, pattern);
		pattern = full_path;
	}

	glob_return = glob(pattern, GLOB_ERR, NULL, &glob_data);
	if (glob_return == GLOB_NOSPACE || glob_return == GLOB_ABORTED) {
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Error including %s\n", pattern);
		goto end;
	} else if (glob_return == GLOB_NOMATCH) {
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_INFO, "No files to include at %s\n", pattern);
		goto end;
	}

	for (n = 0; n < glob_data.gl_pathc; ++n) {
		dir_path = switch_must_strdup(glob_data.gl_pathv[n]);

		if ((e = strrchr(dir_path, *SWITCH_PATH_SEPARATOR))) {
			*e = '\0';
		}
		if (preprocess(dir_path, glob_data.gl_pathv[n], write_fd, rlevel) < 0) {
			if (rlevel > 100) {
				switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Error including %s (Maximum recursion limit reached)\n", pattern);
			}
		}
		free(dir_path);
	}
	globfree(&glob_data);

 end:

	switch_safe_free(full_path);

	return write_fd;
}

static int preprocess(const char *cwd, const char *file, FILE *write_fd, int rlevel)
{
	FILE *read_fd = NULL;
	switch_size_t cur = 0, ml = 0;
	char *q, *cmd, *buf = NULL, *ebuf = NULL;
	char *tcmd, *targ;
	int line = 0;
	switch_size_t len = 0, eblen = 0;

	if (rlevel > 100) {
		return -1;
	}

	if (!(read_fd = fopen(file, "r"))) {
		const char *reason = strerror(errno);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Couldn't open %s (%s)\n", file, reason);
		return -1;
	}

	setvbuf(read_fd, (char *) NULL, _IOFBF, 65536);

	for(;;) {
		char *arg, *e;
		const char *err = NULL;
		char *bp;

		switch_safe_free(ebuf);

		if ((cur = switch_fp_read_dline(read_fd, &buf, &len)) <= 0) {
			break;
		}

		eblen = len * 2;
		ebuf = switch_must_malloc(eblen);
		memset(ebuf, 0, eblen);

		while (!(bp = expand_vars(buf, ebuf, eblen, &cur, &err))) {
			eblen *= 2;
			ebuf = switch_must_realloc(ebuf, eblen);
			memset(ebuf, 0, eblen);
		}

		line++;

		if (err) {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Error [%s] in file %s line %d\n", err, file, line);
		}

		/* we ignore <include> or </include> for the sake of validators as well as <?xml version="1.0"?> type stuff */
		if (strstr(buf, "<include>") || strstr(buf, "</include>") || strstr(buf, "<?")) {
			continue;
		}

		if (ml) {
			if ((e = strstr(buf, "-->"))) {
				ml = 0;
				bp = e + 3;
				cur = strlen(bp);
			} else {
				continue;
			}
		}

		if ((tcmd = (char *) switch_stristr("X-pre-process", bp))) {
			if (*(tcmd - 1) != '<') {
				continue;
			}
			if ((e = strstr(tcmd, "/>"))) {
				e += 2;
				*e = '\0';
				if (fwrite(e, 1, (unsigned) strlen(e), write_fd) != (int) strlen(e)) {
					switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Short write!\n");
				}
			}

			if (!(tcmd = (char *) switch_stristr("cmd", tcmd))) {
				continue;
			}

			if (!(tcmd = (char *) switch_stristr("=", tcmd))) {
				continue;
			}

			if (!(tcmd = (char *) switch_stristr("\"", tcmd))) {
				continue;
			}

			tcmd++;


			if ((e = strchr(tcmd, '"'))) {
				*e++ = '\0';
			}

			if (!(targ = (char *) switch_stristr("data", e))) {
				continue;
			}

			if (!(targ = (char *) switch_stristr("=", targ))) {
				continue;
			}

			if (!(targ = (char *) switch_stristr("\"", targ))) {
				continue;
			}

			targ++;

			if ((e = strchr(targ, '"'))) {
				*e++ = '\0';
			}

			if (!strcasecmp(tcmd, "set")) {
				char *name = (char *) targ;
				char *val = strchr(name, '=');

				if (val) {
					char *ve = val++;
					while (*val && *val == ' ') {
						val++;
					}
					*ve-- = '\0';
					while (*ve && *ve == ' ') {
						*ve-- = '\0';
					}
				}

				if (val) {
					switch_core_set_variable(name, val);
				}

			} else if (!strcasecmp(tcmd, "exec-set")) {
				preprocess_exec_set(targ);
			} else if (!strcasecmp(tcmd, "stun-set")) {
				preprocess_stun_set(targ);
			} else if (!strcasecmp(tcmd, "env-set")) {
				preprocess_env_set(targ);
			} else if (!strcasecmp(tcmd, "include")) {
				preprocess_glob(cwd, targ, write_fd, rlevel + 1);
			} else if (!strcasecmp(tcmd, "exec")) {
				preprocess_exec(cwd, targ, write_fd, rlevel + 1);
			}

			continue;
		}

		if ((cmd = strstr(bp, "<!--#"))) {
			if (fwrite(bp, 1, (unsigned) (cmd - bp), write_fd) != (unsigned) (cmd - bp)) {
				switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Short write!\n");
			}
			if ((e = strstr(cmd, "-->"))) {
				*e = '\0';
				e += 3;
				if (fwrite(e, 1, (unsigned) strlen(e), write_fd) != (int) strlen(e)) {
					switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Short write!\n");
				}
			} else {
				ml++;
			}

			cmd += 5;
			if ((e = strchr(cmd, '\r')) || (e = strchr(cmd, '\n'))) {
				*e = '\0';
			}

			if ((arg = strchr(cmd, ' '))) {
				*arg++ = '\0';
				if ((q = strchr(arg, '"'))) {
					char *qq = q + 1;

					if ((qq = strchr(qq, '"'))) {
						*qq = '\0';
						arg = q + 1;
					}
				}

				if (!strcasecmp(cmd, "set")) {
					char *name = arg;
					char *val = strchr(name, '=');

					if (val) {
						char *ve = val++;
						while (*val && *val == ' ') {
							val++;
						}
						*ve-- = '\0';
						while (*ve && *ve == ' ') {
							*ve-- = '\0';
						}
					}

					if (val) {
						switch_core_set_variable(name, val);
					}

				} else if (!strcasecmp(cmd, "exec-set")) {
					preprocess_exec_set(arg);
				} else if (!strcasecmp(cmd, "stun-set")) {
					preprocess_stun_set(arg);
				} else if (!strcasecmp(cmd, "include")) {
					preprocess_glob(cwd, arg, write_fd, rlevel + 1);
				} else if (!strcasecmp(cmd, "exec")) {
					preprocess_exec(cwd, arg, write_fd, rlevel + 1);
				}
			}

			continue;
		}

		if (fwrite(bp, 1, (unsigned) cur, write_fd) != (int) cur) {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Short write!\n");
		}

	}

	switch_safe_free(buf);
	switch_safe_free(ebuf);

	fclose(read_fd);

	return 0;
}

SWITCH_DECLARE(switch_xml_t) switch_xml_parse_file_simple(const char *file)
{
	int fd = -1;
	struct stat st;
	switch_ssize_t l;
	void *m;
	switch_xml_root_t root;

	if ((fd = open(file, O_RDONLY, 0)) > -1) {
		if (fstat(fd, &st) == -1 || !st.st_size) {
			close(fd);
			goto error;
		}

		m = switch_must_malloc(st.st_size);

		if (!(0 < (l = read(fd, m, st.st_size)))) {
			free(m);
			close(fd);
			goto error;
		}

		if (!(root = (switch_xml_root_t)switch_xml_parse_str((char*)m, l))) {
			free(m);
			close(fd);
			goto error;
		}

		root->dynamic = 1;
		close(fd);

		return &root->xml;
	}

 error:

	switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Error Parsing File [%s]\n", file);

	return NULL;
}

SWITCH_DECLARE(switch_xml_t) switch_xml_parse_file(const char *file)
{
	int fd = -1;
	FILE *write_fd = NULL;
	switch_xml_t xml = NULL;
	char *new_file = NULL;
	char *new_file_tmp = NULL;
	const char *abs, *absw;

	abs = strrchr(file, '/');
	absw = strrchr(file, '\\');
	if (abs || absw) {
		abs > absw ? abs++ : (abs = ++absw);
	} else {
		abs = file;
	}

	switch_mutex_lock(FILE_LOCK);

	if (!(new_file = switch_mprintf("%s%s%s.fsxml", SWITCH_GLOBAL_dirs.log_dir, SWITCH_PATH_SEPARATOR, abs))) {
		goto done;
	}

	if (!(new_file_tmp = switch_mprintf("%s%s%s.fsxml.tmp", SWITCH_GLOBAL_dirs.log_dir, SWITCH_PATH_SEPARATOR, abs))) {
		goto done;
	}

	if ((write_fd = fopen(new_file_tmp, "w+")) == NULL) {
		goto done;
	}

	setvbuf(write_fd, (char *) NULL, _IOFBF, 65536);

	if (preprocess(SWITCH_GLOBAL_dirs.conf_dir, file, write_fd, 0) > -1) {
		fclose(write_fd);
		write_fd = NULL;
		unlink (new_file);

		if ( rename(new_file_tmp,new_file) ) {
			goto done;
		}

		if ((fd = open(new_file, O_RDONLY, 0)) > -1) {
			if ((xml = switch_xml_parse_fd(fd))) {
				if (strcmp(abs, SWITCH_GLOBAL_filenames.conf_name)) {
					xml->free_path = new_file;
					new_file = NULL;
				}
			}

			close(fd);
		}
	}

  done:

	switch_mutex_unlock(FILE_LOCK);

	if (write_fd) {
		fclose(write_fd);
		write_fd = NULL;
	}

	switch_safe_free(new_file_tmp);
	switch_safe_free(new_file);

	return xml;
}

SWITCH_DECLARE(switch_status_t) switch_xml_locate(const char *section,
												  const char *tag_name,
												  const char *key_name,
												  const char *key_value,
												  switch_xml_t *root, switch_xml_t *node, switch_event_t *params, switch_bool_t clone)
{
	switch_xml_t conf = NULL;
	switch_xml_t tag = NULL;
	switch_xml_t xml = NULL;
	switch_xml_binding_t *binding;
	uint8_t loops = 0;
	switch_xml_section_t sections = BINDINGS ? switch_xml_parse_section_string(section) : 0;

	switch_thread_rwlock_rdlock(B_RWLOCK);

	for (binding = BINDINGS; binding; binding = binding->next) {
		if (binding->sections && !(sections & binding->sections)) {
			continue;
		}

		if ((xml = binding->function(section, tag_name, key_name, key_value, params, binding->user_data))) {
			const char *err = NULL;

			err = switch_xml_error(xml);
			if (zstr(err)) {
				if ((conf = switch_xml_find_child(xml, "section", "name", "result"))) {
					switch_xml_t p;
					const char *aname;

					if ((p = switch_xml_child(conf, "result"))) {
						aname = switch_xml_attr(p, "status");
						if (aname && !strcasecmp(aname, "not found")) {
							switch_xml_free(xml);
							xml = NULL;
							continue;
						}
					}
				}
				break;
			} else {
				switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Error[%s]\n", err);
				switch_xml_free(xml);
				xml = NULL;
			}
		}
	}
	switch_thread_rwlock_unlock(B_RWLOCK);

	for (;;) {
		if (!xml) {
			if (!(xml = switch_xml_root())) {
				*node = NULL;
				*root = NULL;
				return SWITCH_STATUS_FALSE;
			}
		}

		if ((conf = switch_xml_find_child(xml, "section", "name", section)) && (tag = switch_xml_find_child(conf, tag_name, key_name, key_value))) {
			if (clone) {
				char *x = switch_xml_toxml(tag, SWITCH_FALSE);
				switch_assert(x);
				*node = *root = switch_xml_parse_str_dynamic(x, SWITCH_FALSE);	/* x will be free()'d in switch_xml_free() */
				switch_xml_free(xml);
			} else {
				*node = tag;
				*root = xml;
			}
			return SWITCH_STATUS_SUCCESS;
		} else {
			switch_xml_free(xml);
			xml = NULL;
			*node = NULL;
			*root = NULL;
			if (loops++ > 1) {
				break;
			}
		}
	}

	return SWITCH_STATUS_FALSE;
}

SWITCH_DECLARE(switch_status_t) switch_xml_locate_domain(const char *domain_name, switch_event_t *params, switch_xml_t *root, switch_xml_t *domain)
{
	switch_event_t *my_params = NULL;
	switch_status_t status;
	*domain = NULL;

	if (!params) {
		switch_event_create(&my_params, SWITCH_EVENT_REQUEST_PARAMS);
		switch_assert(my_params);
		switch_event_add_header_string(my_params, SWITCH_STACK_BOTTOM, "domain", domain_name);
		params = my_params;
	}

	status = switch_xml_locate("directory", "domain", "name", domain_name, root, domain, params, SWITCH_FALSE);
	if (my_params) {
		switch_event_destroy(&my_params);
	}
	return status;
}

SWITCH_DECLARE(switch_status_t) switch_xml_locate_group(const char *group_name,
														const char *domain_name,
														switch_xml_t *root, switch_xml_t *domain, switch_xml_t *group, switch_event_t *params)
{
	switch_status_t status = SWITCH_STATUS_FALSE;
	switch_event_t *my_params = NULL;
	switch_xml_t groups = NULL;

	*root = NULL;
	*group = NULL;
	*domain = NULL;

	if (!params) {
		switch_event_create(&my_params, SWITCH_EVENT_REQUEST_PARAMS);
		switch_assert(my_params);
		params = my_params;
	}

	if (group_name) {
		switch_event_add_header_string(params, SWITCH_STACK_BOTTOM, "group_name", group_name);
	}

	if (domain_name) {
		switch_event_add_header_string(params, SWITCH_STACK_BOTTOM, "domain", domain_name);
	}

	if ((status = switch_xml_locate_domain(domain_name, params, root, domain)) != SWITCH_STATUS_SUCCESS) {
		goto end;
	}

	status = SWITCH_STATUS_FALSE;

	if ((groups = switch_xml_child(*domain, "groups"))) {
		if ((*group = switch_xml_find_child(groups, "group", "name", group_name))) {
			status = SWITCH_STATUS_SUCCESS;
		}
	}

  end:

	if (my_params) {
		switch_event_destroy(&my_params);
	}

	return status;
}

static switch_status_t find_user_in_tag(switch_xml_t tag, const char *ip, const char *user_name,
										const char *key, switch_event_t *params, switch_xml_t *user)
{
	const char *type = "!pointer";
	const char *val;

	if (params && (val = switch_event_get_header(params, "user_type"))) {
		if (!strcasecmp(val, "any")) {
			type = NULL;
		} else {
			type = val;
		}
	}

	if (ip) {
		if ((*user = switch_xml_find_child_multi(tag, "user", "ip", ip, "type", type, NULL))) {
			return SWITCH_STATUS_SUCCESS;
		}
	}

	if (user_name) {
		if (!strcasecmp(key, "id")) {
			if ((*user = switch_xml_find_child_multi(tag, "user", key, user_name, "number-alias", user_name, "type", type, NULL))) {
				return SWITCH_STATUS_SUCCESS;
			}
		} else {
			if ((*user = switch_xml_find_child_multi(tag, "user", key, user_name, "type", type, NULL))) {
				return SWITCH_STATUS_SUCCESS;
			}
		}
	}

	return SWITCH_STATUS_FALSE;

}

SWITCH_DECLARE(switch_status_t) switch_xml_locate_user_in_domain(const char *user_name, switch_xml_t domain, switch_xml_t *user, switch_xml_t *ingroup)
{
	switch_xml_t group = NULL, groups = NULL, users = NULL;
	switch_status_t status = SWITCH_STATUS_FALSE;

	if ((groups = switch_xml_child(domain, "groups"))) {
		for (group = switch_xml_child(groups, "group"); group; group = group->next) {
			if ((users = switch_xml_child(group, "users"))) {
				if ((status = find_user_in_tag(users, NULL, user_name, "id", NULL, user)) == SWITCH_STATUS_SUCCESS) {
					if (ingroup) {
						*ingroup = group;
					}
					break;
				}
			}
		}
	} else {
		if ((users = switch_xml_child(domain, "users"))) {
			status = find_user_in_tag(users, NULL, user_name, "id", NULL, user);
		} else {
			status = find_user_in_tag(domain, NULL, user_name, "id", NULL, user);
		}
	}

	return status;
}


SWITCH_DECLARE(switch_xml_t) switch_xml_dup(switch_xml_t xml)
{
	char *x = switch_xml_toxml(xml, SWITCH_FALSE);
	return switch_xml_parse_str_dynamic(x, SWITCH_FALSE);
}


static void do_merge(switch_xml_t in, switch_xml_t src, const char *container, const char *tag_name)
{
	switch_xml_t itag, tag, param, iparam, iitag;

	if (!(itag = switch_xml_child(in, container))) {
		itag = switch_xml_add_child_d(in, container, 0);
	}

	if ((tag = switch_xml_child(src, container))) {
		for (param = switch_xml_child(tag, tag_name); param; param = param->next) {
			const char *var = switch_xml_attr(param, "name");
			const char *val = switch_xml_attr(param, "value");

			switch_bool_t add_child = SWITCH_TRUE;

			for (iparam = switch_xml_child(itag, tag_name); iparam; iparam = iparam->next) {
				const char *ivar = switch_xml_attr(iparam, "name");

				if (var && ivar && !strcasecmp(var, ivar)) {
					add_child = SWITCH_FALSE;
					break;
				}
			}

			if (add_child) {
				iitag = switch_xml_add_child_d(itag, tag_name, 0);
				switch_xml_set_attr_d(iitag, "name", var);
				switch_xml_set_attr_d(iitag, "value", val);
			}
		}
	}

}


SWITCH_DECLARE(void) switch_xml_merge_user(switch_xml_t user, switch_xml_t domain, switch_xml_t group)
{
	const char *domain_name = switch_xml_attr(domain, "name");

	do_merge(user, group, "params", "param");
	do_merge(user, group, "variables", "variable");
	do_merge(user, group, "profile-variables", "variable");
	do_merge(user, domain, "params", "param");
	do_merge(user, domain, "variables", "variable");
	do_merge(user, domain, "profile-variables", "variable");

	if (!zstr(domain_name)) {
		switch_xml_set_attr_d(user, "domain-name", domain_name);
	}
}

SWITCH_DECLARE(uint32_t) switch_xml_clear_user_cache(const char *key, const char *user_name, const char *domain_name)
{
	switch_hash_index_t *hi = NULL;
	void *val;
	const void *var;
	char mega_key[1024];
	int r = 0;
	switch_xml_t lookup;
	char *expires_val = NULL;

	switch_mutex_lock(CACHE_MUTEX);

	if (key && user_name && !domain_name) {
		domain_name = switch_core_get_variable("domain");
	}
	
	if (key && user_name && domain_name) {
		switch_snprintf(mega_key, sizeof(mega_key), "%s%s%s", key, user_name, domain_name);

		if ((lookup = switch_core_hash_find(CACHE_HASH, mega_key))) {
			switch_core_hash_delete(CACHE_HASH, mega_key);
			if ((expires_val = switch_core_hash_find(CACHE_EXPIRES_HASH, mega_key))) {
				switch_core_hash_delete(CACHE_EXPIRES_HASH, mega_key);
				free(expires_val);
				expires_val = NULL;
			}
			switch_xml_free(lookup);
			r++;
		}

	} else {

		while ((hi = switch_core_hash_first_iter( CACHE_HASH, hi))) {
			switch_core_hash_this(hi, &var, NULL, &val);
			switch_xml_free(val);
			switch_core_hash_delete(CACHE_HASH, var);
			r++;
		}

		while ((hi = switch_core_hash_first_iter( CACHE_EXPIRES_HASH, hi))) {
			switch_core_hash_this(hi, &var, NULL, &val);
			switch_safe_free(val);
			switch_core_hash_delete(CACHE_EXPIRES_HASH, var);
		}

		switch_safe_free(hi);
	}

	switch_mutex_unlock(CACHE_MUTEX);

	return r;

}

static switch_status_t switch_xml_locate_user_cache(const char *key, const char *user_name, const char *domain_name, switch_xml_t *user)
{
	char mega_key[1024];
	switch_status_t status = SWITCH_STATUS_FALSE;
	switch_xml_t lookup;

	switch_snprintf(mega_key, sizeof(mega_key), "%s%s%s", key, user_name, domain_name);

	switch_mutex_lock(CACHE_MUTEX);
	if ((lookup = switch_core_hash_find(CACHE_HASH, mega_key))) {
		char *expires_lookup = NULL;

		if ((expires_lookup = switch_core_hash_find(CACHE_EXPIRES_HASH, mega_key))) {
			switch_time_t time_expires = 0;
			switch_time_t time_now = 0;

			time_now = switch_micro_time_now();
			time_expires = atol(expires_lookup);
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Cache Info\nTime Now:\t%ld\nExpires:\t%ld\n", (long)time_now, (long)time_expires);
			if (time_expires < time_now) {
				switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Cache expired for %s@%s, doing fresh lookup\n", user_name, domain_name);
			} else {
				*user = switch_xml_dup(lookup);
				status = SWITCH_STATUS_SUCCESS;
			}
		} else {
			*user = switch_xml_dup(lookup);
			status = SWITCH_STATUS_SUCCESS;
		}
	}
	switch_mutex_unlock(CACHE_MUTEX);

	return status;
}

static void switch_xml_user_cache(const char *key, const char *user_name, const char *domain_name, switch_xml_t user, switch_time_t expires)
{
	char mega_key[1024];
	switch_xml_t lookup;
	char *expires_lookup;

	switch_snprintf(mega_key, sizeof(mega_key), "%s%s%s", key, user_name, domain_name);

	switch_mutex_lock(CACHE_MUTEX);
	if ((lookup = switch_core_hash_find(CACHE_HASH, mega_key))) {
		switch_core_hash_delete(CACHE_HASH, mega_key);
		switch_xml_free(lookup);
	}
	if ((expires_lookup = switch_core_hash_find(CACHE_EXPIRES_HASH, mega_key))) {
		switch_core_hash_delete(CACHE_EXPIRES_HASH, mega_key);
		switch_safe_free(expires_lookup);
	}
	if (expires) {
		char *expires_val = (char *)switch_core_hash_insert_alloc(CACHE_EXPIRES_HASH, mega_key, 22);
		if (!snprintf(expires_val, 22, "%ld", (long)expires)) {
			switch_core_hash_delete(CACHE_EXPIRES_HASH, mega_key);
			switch_safe_free(expires_val);
		}
	}
	switch_core_hash_insert(CACHE_HASH, mega_key, switch_xml_dup(user));
	switch_mutex_unlock(CACHE_MUTEX);
}

SWITCH_DECLARE(switch_status_t) switch_xml_locate_user_merged(const char *key, const char *user_name, const char *domain_name,
															  const char *ip, switch_xml_t *user, switch_event_t *params)
{
	switch_xml_t xml, domain, group, x_user, x_user_dup;
	switch_status_t status = SWITCH_STATUS_FALSE;
	char *kdup = NULL;
	char *keys[10] = {0};
	int i, nkeys;

	if (strchr(key, ':')) {
		kdup = switch_must_strdup(key);
		nkeys  = switch_split(kdup, ':', keys);
	} else {
		keys[0] = (char *)key;
		nkeys = 1;
	}

	for(i = 0; i < nkeys; i++) {
		if ((status = switch_xml_locate_user_cache(keys[i], user_name, domain_name, &x_user)) == SWITCH_STATUS_SUCCESS) {
			*user = x_user;
			break;
		} else if ((status = switch_xml_locate_user(keys[i], user_name, domain_name, ip, &xml, &domain, &x_user, &group, params)) == SWITCH_STATUS_SUCCESS) {
			const char *cacheable = NULL;

			x_user_dup = switch_xml_dup(x_user);
			switch_xml_merge_user(x_user_dup, domain, group);

			cacheable = switch_xml_attr(x_user_dup, "cacheable");
			if (!zstr(cacheable)) {
				switch_time_t expires = 0;
				switch_time_t time_now = 0;

				if (switch_is_number(cacheable)) {
					int cache_ms = atol(cacheable);
					switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "caching lookup for user %s@%s for %d milliseconds\n",
									  user_name, domain_name, cache_ms);
					time_now = switch_micro_time_now();
					expires = time_now + (cache_ms * 1000);
				} else {
					switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "caching lookup for user %s@%s indefinitely\n", user_name, domain_name);
				}
				switch_xml_user_cache(keys[i], user_name, domain_name, x_user_dup, expires);
			}
			*user = x_user_dup;
			switch_xml_free(xml);
			break;
		}
	}

	switch_safe_free(kdup);

	return status;

}

SWITCH_DECLARE(switch_status_t) switch_xml_locate_user(const char *key,
													   const char *user_name,
													   const char *domain_name,
													   const char *ip,
													   switch_xml_t *root,
													   switch_xml_t *domain, switch_xml_t *user, switch_xml_t *ingroup, switch_event_t *params)
{
	switch_status_t status = SWITCH_STATUS_FALSE;
	switch_event_t *my_params = NULL;
	switch_xml_t group = NULL, groups = NULL, users = NULL;

	*root = NULL;
	*user = NULL;
	*domain = NULL;

	if (ingroup) {
		*ingroup = NULL;
	}

	if (!params) {
		switch_event_create(&my_params, SWITCH_EVENT_REQUEST_PARAMS);
		switch_assert(my_params);
		params = my_params;
	}

	switch_event_add_header_string(params, SWITCH_STACK_BOTTOM, "key", key);

	if (user_name) {
		switch_event_add_header_string(params, SWITCH_STACK_BOTTOM, "user", user_name);
	}

	if (domain_name) {
		switch_event_add_header_string(params, SWITCH_STACK_BOTTOM, "domain", domain_name);
	}

	if (ip) {
		switch_event_add_header_string(params, SWITCH_STACK_BOTTOM, "ip", ip);
	}

	if ((status = switch_xml_locate_domain(domain_name, params, root, domain)) != SWITCH_STATUS_SUCCESS) {
		goto end;
	}

	status = SWITCH_STATUS_FALSE;

	if ((groups = switch_xml_child(*domain, "groups"))) {
		for (group = switch_xml_child(groups, "group"); group; group = group->next) {
			if ((users = switch_xml_child(group, "users"))) {
				if ((status = find_user_in_tag(users, ip, user_name, key, params, user)) == SWITCH_STATUS_SUCCESS) {
					if (ingroup) {
						*ingroup = group;
					}
					break;
				}
			}
		}
	}

	if (status != SWITCH_STATUS_SUCCESS) {
		if ((users = switch_xml_child(*domain, "users"))) {
			status = find_user_in_tag(users, ip, user_name, key, params, user);
		} else {
			status = find_user_in_tag(*domain, ip, user_name, key, params, user);
		}
	}

  end:

	if (my_params) {
		switch_event_destroy(&my_params);
	}

	if (status != SWITCH_STATUS_SUCCESS && *root) {
		switch_xml_free(*root);
		*root = NULL;
		*domain = NULL;
	}

	return status;
}

SWITCH_DECLARE(switch_xml_t) switch_xml_root(void)
{
	switch_xml_t xml;

	switch_mutex_lock(REFLOCK);
	xml = MAIN_XML_ROOT;
	xml->refs++;
	switch_mutex_unlock(REFLOCK);

	return xml;
}

struct destroy_xml {
	switch_xml_t xml;
	switch_memory_pool_t *pool;
};

static void *SWITCH_THREAD_FUNC destroy_thread(switch_thread_t *thread, void *obj)
{
	struct destroy_xml *dx = (struct destroy_xml *) obj;
	switch_memory_pool_t *pool = dx->pool;
	switch_xml_free(dx->xml);
	switch_core_destroy_memory_pool(&pool);
	return NULL;
}

SWITCH_DECLARE(void) switch_xml_free_in_thread(switch_xml_t xml, int stacksize)
{
	switch_thread_t *thread;
	switch_threadattr_t *thd_attr;
	switch_memory_pool_t *pool = NULL;
	struct destroy_xml *dx;

	switch_core_new_memory_pool(&pool);

	switch_threadattr_create(&thd_attr, pool);
	switch_threadattr_detach_set(thd_attr, 1);
	/* TBD figure out how much space we need by looking at the xml_t when stacksize == 0 */
	switch_threadattr_stacksize_set(thd_attr, stacksize);

	dx = switch_core_alloc(pool, sizeof(*dx));
	dx->pool = pool;
	dx->xml = xml;

	switch_thread_create(&thread, thd_attr, destroy_thread, dx, pool);
}

static char not_so_threadsafe_error_buffer[256] = "";

SWITCH_DECLARE(switch_status_t) switch_xml_set_root(switch_xml_t new_main)
{
	switch_xml_t old_root = NULL;

	switch_mutex_lock(REFLOCK);

	old_root = MAIN_XML_ROOT;
	MAIN_XML_ROOT = new_main;
	switch_set_flag(MAIN_XML_ROOT, SWITCH_XML_ROOT);
	MAIN_XML_ROOT->refs++;

	if (old_root) {
		if (old_root->refs) {
			old_root->refs--;
		}

		if (!old_root->refs) {
			switch_xml_free(old_root);
		}
	}

	switch_mutex_unlock(REFLOCK);

	return SWITCH_STATUS_SUCCESS;
}

SWITCH_DECLARE(switch_status_t) switch_xml_set_open_root_function(switch_xml_open_root_function_t func, void *user_data)
{
	if (XML_LOCK) {
		switch_mutex_lock(XML_LOCK);
	}

	XML_OPEN_ROOT_FUNCTION = func;
	XML_OPEN_ROOT_FUNCTION_USER_DATA = user_data;

	if (XML_LOCK) {
		switch_mutex_unlock(XML_LOCK);
	}
	return SWITCH_STATUS_SUCCESS;
}

SWITCH_DECLARE(switch_xml_t) switch_xml_open_root(uint8_t reload, const char **err)
{
	switch_xml_t root = NULL;
	switch_event_t *event;

	switch_mutex_lock(XML_LOCK);

	if (XML_OPEN_ROOT_FUNCTION) {
		root = XML_OPEN_ROOT_FUNCTION(reload, err, XML_OPEN_ROOT_FUNCTION_USER_DATA);
	}
	switch_mutex_unlock(XML_LOCK);


	if (root) {
		if (switch_event_create(&event, SWITCH_EVENT_RELOADXML) == SWITCH_STATUS_SUCCESS) {
			if (switch_event_fire(&event) != SWITCH_STATUS_SUCCESS) {
				switch_event_destroy(&event);
			}
		}
	}

	return root;
}

SWITCH_DECLARE_NONSTD(switch_xml_t) __switch_xml_open_root(uint8_t reload, const char **err, void *user_data)
{
	char path_buf[1024];
	uint8_t errcnt = 0;
	switch_xml_t new_main, r = NULL;

	if (MAIN_XML_ROOT) {
		if (!reload) {
			r = switch_xml_root();
			goto done;
		}
	}

	switch_snprintf(path_buf, sizeof(path_buf), "%s%s%s", SWITCH_GLOBAL_dirs.conf_dir, SWITCH_PATH_SEPARATOR, SWITCH_GLOBAL_filenames.conf_name);
	if ((new_main = switch_xml_parse_file(path_buf))) {
		*err = switch_xml_error(new_main);
		switch_copy_string(not_so_threadsafe_error_buffer, *err, sizeof(not_so_threadsafe_error_buffer));
		*err = not_so_threadsafe_error_buffer;
		if (!zstr(*err)) {
			switch_xml_free(new_main);
			new_main = NULL;
			errcnt++;
		} else {
			*err = "Success";
			switch_xml_set_root(new_main);

		}
	} else {
		*err = "Cannot Open log directory or XML Root!";
		errcnt++;
	}

	if (errcnt == 0) {
		r = switch_xml_root();
	}

 done:

	return r;
}

SWITCH_DECLARE(switch_status_t) switch_xml_reload(const char **err)
{
	switch_xml_t xml_root;

	if ((xml_root = switch_xml_open_root(1, err))) {
		switch_xml_free(xml_root);
		return SWITCH_STATUS_SUCCESS;
	}

	return SWITCH_STATUS_GENERR;
}

SWITCH_DECLARE(switch_status_t) switch_xml_init(switch_memory_pool_t *pool, const char **err)
{
	switch_xml_t xml;
	XML_MEMORY_POOL = pool;
	*err = "Success";

	switch_mutex_init(&CACHE_MUTEX, SWITCH_MUTEX_NESTED, XML_MEMORY_POOL);
	switch_mutex_init(&XML_LOCK, SWITCH_MUTEX_NESTED, XML_MEMORY_POOL);
	switch_mutex_init(&REFLOCK, SWITCH_MUTEX_NESTED, XML_MEMORY_POOL);
	switch_mutex_init(&FILE_LOCK, SWITCH_MUTEX_NESTED, XML_MEMORY_POOL);
	switch_core_hash_init(&CACHE_HASH);
	switch_core_hash_init(&CACHE_EXPIRES_HASH);

	switch_thread_rwlock_create(&B_RWLOCK, XML_MEMORY_POOL);

	assert(pool != NULL);

	if ((xml = switch_xml_open_root(FALSE, err))) {
		switch_xml_free(xml);
		return SWITCH_STATUS_SUCCESS;
	} else {
		return SWITCH_STATUS_FALSE;
	}
}

SWITCH_DECLARE(switch_status_t) switch_xml_destroy(void)
{
	switch_status_t status = SWITCH_STATUS_FALSE;


	switch_mutex_lock(XML_LOCK);
	switch_mutex_lock(REFLOCK);

	if (MAIN_XML_ROOT) {
		switch_xml_t xml = MAIN_XML_ROOT;
		MAIN_XML_ROOT = NULL;
		switch_xml_free(xml);
		status = SWITCH_STATUS_SUCCESS;
	}

	switch_mutex_unlock(XML_LOCK);
	switch_mutex_unlock(REFLOCK);

	switch_xml_clear_user_cache(NULL, NULL, NULL);

	switch_core_hash_destroy(&CACHE_HASH);
	switch_core_hash_destroy(&CACHE_EXPIRES_HASH);

	return status;
}

SWITCH_DECLARE(switch_xml_t) switch_xml_open_cfg(const char *file_path, switch_xml_t *node, switch_event_t *params)
{
	switch_xml_t xml = NULL, cfg = NULL;

	*node = NULL;

	assert(MAIN_XML_ROOT != NULL);

	if (switch_xml_locate("configuration", "configuration", "name", file_path, &xml, &cfg, params, SWITCH_FALSE) == SWITCH_STATUS_SUCCESS) {
		*node = cfg;
	}

	return xml;

}

/* Encodes ampersand sequences appending the results to *dst, reallocating *dst
   if length exceeds max. a is non-zero for attribute encoding. Returns *dst */
static char *switch_xml_ampencode(const char *s, switch_size_t len, char **dst, switch_size_t *dlen, switch_size_t *max, short a, switch_bool_t use_utf8_encoding)
{
	const char *e = NULL;
	int immune = 0;
	int expecting_x_utf_8_char = 0;
	int unicode_char = 0x000000;

	if (!(s && *s))
		return *dst;

	if (len) {
		e = s + len;
	}

	while (s != e) {
		while (*dlen + 10 > *max) {
			*dst = (char *) switch_must_realloc(*dst, *max += SWITCH_XML_BUFSIZE);
		}

		if (immune) {
			if (*s == '\0') {
				return *dst;
			}
			(*dst)[(*dlen)++] = *s;
		} else
			switch (*s) {
			case '\0':
				return *dst;
			case '&':
				*dlen += sprintf(*dst + *dlen, "&amp;");
				break;
			case '<':
				if (*(s + 1) == '!') {
					(*dst)[(*dlen)++] = *s;
					immune++;
					break;
				}
				*dlen += sprintf(*dst + *dlen, "&lt;");
				break;
			case '>':
				*dlen += sprintf(*dst + *dlen, "&gt;");
				break;
			case '"':
				*dlen += sprintf(*dst + *dlen, (a) ? "&quot;" : "\"");
				break;
			case '\n':
				*dlen += sprintf(*dst + *dlen, (a) ? "&#xA;" : "\n");
				break;
			case '\t':
				*dlen += sprintf(*dst + *dlen, (a) ? "&#x9;" : "\t");
				break;
			case '\r':
				*dlen += sprintf(*dst + *dlen, "&#xD;");
				break;
			default:
				if (use_utf8_encoding && expecting_x_utf_8_char == 0 && ((*s >> 8) & 0x01)) {
					int num = 1;
					for (;num<4;num++) {
						if (! ((*s >> (7-num)) & 0x01)) {
							break;
						}
					}
					switch (num) {
						case 2:
							unicode_char = *s & 0x1f;
							break;
						case 3:
							unicode_char = *s & 0x0f;
							break;
						case 4:
							unicode_char = *s & 0x07;
							break;
						default:
							switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Invalid UTF-8 Initial charactere, skip it\n");
							/* ERROR HERE */
							break;
					}
					expecting_x_utf_8_char = num - 1;

				} else if (use_utf8_encoding && expecting_x_utf_8_char > 0) {
					if (((*s >> 6) & 0x03) == 0x2) {

						unicode_char = unicode_char << 6;
						unicode_char = unicode_char | (*s & 0x3f);
					} else {
						switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Invalid UTF-8 character to ampersand, skip it\n");
						expecting_x_utf_8_char = 0;
						break;
					}
					expecting_x_utf_8_char--;
					if (expecting_x_utf_8_char == 0) {
						*dlen += sprintf(*dst + *dlen, "&#x%X;", unicode_char);
					}
				} else {
					(*dst)[(*dlen)++] = *s;
				}
			}
		s++;
	}
	return *dst;
}

#define XML_INDENT "  "
/* Recursively converts each tag to xml appending it to *s. Reallocates *s if
   its length exceeds max. start is the location of the previous tag in the
   parent tag's character content. Returns *s. */
static char *switch_xml_toxml_r(switch_xml_t xml, char **s, switch_size_t *len, switch_size_t *max, switch_size_t start, char ***attr, uint32_t *count, int isroot, switch_bool_t use_utf8_encoding)
{
	int i, j;
	char *txt;
	switch_size_t off;
	uint32_t lcount;
	uint32_t loops = 0;

  tailrecurse:
	off = 0;
	txt = "";

	if (loops++) {
		isroot = 0;
	}

	if (!isroot && xml->parent) {
		txt = (char *) xml->parent->txt;
	}

	/* parent character content up to this tag */
	*s = switch_xml_ampencode(txt + start, xml->off - start, s, len, max, 0, use_utf8_encoding);

	while (*len + strlen(xml->name) + 5 + (strlen(XML_INDENT) * (*count)) + 1 > *max) {	/* reallocate s */
		*s = (char *) switch_must_realloc(*s, *max += SWITCH_XML_BUFSIZE);
	}

	if (*len && *(*s + (*len) - 1) == '>') {
		*len += sprintf(*s + *len, "\n");	/* indent */
	}
	for (lcount = 0; lcount < *count; lcount++) {
		*len += sprintf(*s + *len, "%s", XML_INDENT);	/* indent */
	}

	*len += sprintf(*s + *len, "<%s", xml->name);	/* open tag */
	for (i = 0; xml->attr[i]; i += 2) {	/* tag attributes */
		if (switch_xml_attr(xml, xml->attr[i]) != xml->attr[i + 1])
			continue;
		while (*len + strlen(xml->attr[i]) + 7 + (strlen(XML_INDENT) * (*count)) > *max) {	/* reallocate s */
			*s = (char *) switch_must_realloc(*s, *max += SWITCH_XML_BUFSIZE);
		}

		*len += sprintf(*s + *len, " %s=\"", xml->attr[i]);
		switch_xml_ampencode(xml->attr[i + 1], 0, s, len, max, 1, use_utf8_encoding);
		*len += sprintf(*s + *len, "\"");
	}

	for (i = 0; attr[i] && strcmp(attr[i][0], xml->name); i++);
	for (j = 1; attr[i] && attr[i][j]; j += 3) {	/* default attributes */
		if (!attr[i][j + 1] || switch_xml_attr(xml, attr[i][j]) != attr[i][j + 1])
			continue;			/* skip duplicates and non-values */
		while (*len + strlen(attr[i][j]) + 8 + (strlen(XML_INDENT) * (*count)) > *max) {	/* reallocate s */
			*s = (char *) switch_must_realloc(*s, *max += SWITCH_XML_BUFSIZE);
		}

		*len += sprintf(*s + *len, " %s=\"", attr[i][j]);
		switch_xml_ampencode(attr[i][j + 1], 0, s, len, max, 1, use_utf8_encoding);
		*len += sprintf(*s + *len, "\"");
	}

	*len += sprintf(*s + *len, (xml->child || xml->txt) ? ">" : "/>\n");

	if (xml->child) {
		(*count)++;
		*s = switch_xml_toxml_r(xml->child, s, len, max, 0, attr, count, 0, use_utf8_encoding);

	} else {
		*s = switch_xml_ampencode(xml->txt, 0, s, len, max, 0, use_utf8_encoding);	/* data */
	}

	while (*len + strlen(xml->name) + 5 + (strlen(XML_INDENT) * (*count)) > *max) {	/* reallocate s */
		*s = (char *) switch_must_realloc(*s, *max += SWITCH_XML_BUFSIZE);
	}

	if (xml->child || xml->txt) {
		if (*(*s + (*len) - 1) == '\n') {
			for (lcount = 0; lcount < *count; lcount++) {
				*len += sprintf(*s + *len, "%s", XML_INDENT);	/* indent */
			}
		}
		*len += sprintf(*s + (*len), "</%s>\n", xml->name);	/* close tag */
	}

	while (txt[off] && off < xml->off)
		off++;					/* make sure off is within bounds */

	if (!isroot && xml->ordered) {
		xml = xml->ordered;
		start = off;
		goto tailrecurse;
/*
		return switch_xml_toxml_r(xml->ordered, s, len, max, off, attr, count, use_utf8_encoding);
*/
	} else {
		if (*count > 0)
			(*count)--;
		return switch_xml_ampencode(txt + off, 0, s, len, max, 0, use_utf8_encoding);
	}
}

SWITCH_DECLARE(char *) switch_xml_toxml_nolock_ex(switch_xml_t xml, switch_bool_t prn_header, switch_bool_t use_utf8_encoding)
{
	char *s = (char *) switch_must_malloc(SWITCH_XML_BUFSIZE);

	return switch_xml_toxml_buf_ex(xml, s, SWITCH_XML_BUFSIZE, 0, prn_header, use_utf8_encoding);
}

SWITCH_DECLARE(char *) switch_xml_toxml_ex(switch_xml_t xml, switch_bool_t prn_header, switch_bool_t use_utf8_encoding)
{
	char *r, *s;

	s = (char *) switch_must_malloc(SWITCH_XML_BUFSIZE);

	r = switch_xml_toxml_buf_ex(xml, s, SWITCH_XML_BUFSIZE, 0, prn_header, use_utf8_encoding);

	return r;
}

SWITCH_DECLARE(char *) switch_xml_tohtml_ex(switch_xml_t xml, switch_bool_t prn_header, switch_bool_t use_utf8_encoding)
{
	char *r, *s, *h;
	switch_size_t rlen = 0;
	switch_size_t len = SWITCH_XML_BUFSIZE;

	s = (char *) switch_must_malloc(SWITCH_XML_BUFSIZE);
	h = (char *) switch_must_malloc(SWITCH_XML_BUFSIZE);

	r = switch_xml_toxml_buf_ex(xml, s, SWITCH_XML_BUFSIZE, 0, prn_header, use_utf8_encoding);
	h = switch_xml_ampencode(r, 0, &h, &rlen, &len, 1, use_utf8_encoding);
	switch_safe_free(r);
	return h;
}

/* converts a switch_xml structure back to xml, returning a string of xml data that
   must be freed */
SWITCH_DECLARE(char *) switch_xml_toxml_buf_ex(switch_xml_t xml, char *buf, switch_size_t buflen, switch_size_t offset, switch_bool_t prn_header, switch_bool_t use_utf8_encoding)
{
	switch_xml_t p = (xml) ? xml->parent : NULL;
	switch_xml_root_t root = (switch_xml_root_t) xml;
	switch_size_t len = 0, max = buflen;
	char *s, *t, *n;
	int i, j, k;
	uint32_t count = 0;

	s = buf;
	assert(s != NULL);
	memset(s, 0, max);
	len += offset;
	if (prn_header) {
		len += sprintf(s + len, "<?xml version=\"1.0\"?>\n");
	}

	if (!xml || !xml->name) {
		return (char *) switch_must_realloc(s, len + 1);
	}

	while (root->xml.parent) {
		root = (switch_xml_root_t) root->xml.parent;	/* root tag */
	}

	for (i = 0; !p && root->pi[i]; i++) {	/* pre-root processing instructions */
		for (k = 2; root->pi[i][k - 1]; k++);
		for (j = 1; (n = root->pi[i][j]); j++) {
			if (root->pi[i][k][j - 1] == '>') {
				continue;		/* not pre-root */
			}
			while (len + strlen(t = root->pi[i][0]) + strlen(n) + 7 > max) {
				s = (char *) switch_must_realloc(s, max += SWITCH_XML_BUFSIZE);
			}
			len += sprintf(s + len, "<?%s%s%s?>", t, *n ? " " : "", n);
		}
	}

	s = switch_xml_toxml_r(xml, &s, &len, &max, 0, root->attr, &count, 1, use_utf8_encoding);

	for (i = 0; !p && root->pi[i]; i++) {	/* post-root processing instructions */
		for (k = 2; root->pi[i][k - 1]; k++);
		for (j = 1; (n = root->pi[i][j]); j++) {
			if (root->pi[i][k][j - 1] == '<') {
				continue;		/* not post-root */
			}
			while (len + strlen(t = root->pi[i][0]) + strlen(n) + 7 > max) {
				s = (char *) switch_must_realloc(s, max += SWITCH_XML_BUFSIZE);
			}
			len += sprintf(s + len, "\n<?%s%s%s?>", t, *n ? " " : "", n);
		}
	}

	return (char *) switch_must_realloc(s, len + 1);
}

/* free the memory allocated for the switch_xml structure */
SWITCH_DECLARE(void) switch_xml_free(switch_xml_t xml)
{
	switch_xml_root_t root;
	int i, j;
	char **a, *s;
	switch_xml_t orig_xml;
	int refs = 0;

  tailrecurse:
	root = (switch_xml_root_t) xml;
	if (!xml) {
		return;
	}

	if (switch_test_flag(xml, SWITCH_XML_ROOT)) {
		switch_mutex_lock(REFLOCK);

		if (xml->refs) {
			xml->refs--;
			refs = xml->refs;
		}
		switch_mutex_unlock(REFLOCK);
	}

	if (refs) {
		return;
	}

	if (xml->free_path) {
		if (unlink(xml->free_path) != 0) {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Failed to delete file [%s]\n", xml->free_path);
		}
		switch_safe_free(xml->free_path);
	}

	switch_xml_free(xml->child);
	/*switch_xml_free(xml->ordered); */

	if (!xml->parent) {			/* free root tag allocations */
#if (_MSC_VER >= 1400)			// VC8+
		__analysis_assume(sizeof(root->ent) > 44);	/* tail recursion confuses code analysis */
#endif
		for (i = 10; root->ent[i]; i += 2)	/* 0 - 9 are default entities (<>&"') */
			if ((s = root->ent[i + 1]) < root->s || s > root->e)
				free(s);
		free(root->ent);		/* free list of general entities */

		for (i = 0; (a = root->attr[i]); i++) {
			for (j = 1; a[j++]; j += 2)	/* free malloced attribute values */
				if (a[j] && (a[j] < root->s || a[j] > root->e))
					free(a[j]);
			free(a);
		}
		if (root->attr[0])
			free(root->attr);	/* free default attribute list */

		for (i = 0; root->pi[i]; i++) {
			for (j = 1; root->pi[i][j]; j++);
			free(root->pi[i][j + 1]);
			free(root->pi[i]);
		}
		if (root->pi[0])
			free(root->pi);		/* free processing instructions */

		if (root->dynamic == 1)
			free(root->m);		/* malloced xml data */
		if (root->u)
			free(root->u);		/* utf8 conversion */
	}

	switch_xml_free_attr(xml->attr);	/* tag attributes */
	if ((xml->flags & SWITCH_XML_TXTM))
		free(xml->txt);			/* character content */
	if ((xml->flags & SWITCH_XML_NAMEM))
		free(xml->name);		/* tag name */
	if (xml->ordered) {
		orig_xml = xml;
		xml = xml->ordered;
		free(orig_xml);
		goto tailrecurse;
	}
	free(xml);
}

/* return parser error message or empty string if none */
SWITCH_DECLARE(const char *) switch_xml_error(switch_xml_t xml)
{
	while (xml && xml->parent)
		xml = xml->parent;		/* find root tag */
	return (xml) ? ((switch_xml_root_t) xml)->err : "";
}

/* returns a new empty switch_xml structure with the given root tag name */
SWITCH_DECLARE(switch_xml_t) switch_xml_new(const char *name)
{
	static const char *ent[] = { "lt;", "&#60;", "gt;", "&#62;", "quot;", "&#34;",
		"apos;", "&#39;", "amp;", "&#38;", NULL
	};
	switch_xml_root_t root = (switch_xml_root_t) switch_must_malloc(sizeof(struct switch_xml_root));

	memset(root, '\0', sizeof(struct switch_xml_root));
	root->xml.name = (char *) name;
	root->cur = &root->xml;
	strcpy(root->err, root->xml.txt = (char *) "");
	root->ent = (char **) memcpy(switch_must_malloc(sizeof(ent)), ent, sizeof(ent));
	root->attr = root->pi = (char ***) (root->xml.attr = SWITCH_XML_NIL);
	return &root->xml;
}

/* inserts an existing tag into a switch_xml structure */
SWITCH_DECLARE(switch_xml_t) switch_xml_insert(switch_xml_t xml, switch_xml_t dest, switch_size_t off)
{
	switch_xml_t cur, prev, head;

	xml->next = xml->sibling = xml->ordered = NULL;
	xml->off = off;
	xml->parent = dest;

	if ((head = dest->child)) {	/* already have sub tags */
		if (head->off <= off) {	/* not first subtag */
			for (cur = head; cur->ordered && cur->ordered->off <= off; cur = cur->ordered);
			xml->ordered = cur->ordered;
			cur->ordered = xml;
		} else {				/* first subtag */
			xml->ordered = head;
			dest->child = xml;
		}

		for (cur = head, prev = NULL; cur && strcmp(cur->name, xml->name); prev = cur, cur = cur->sibling);	/* find tag type */
		if (cur && cur->off <= off) {	/* not first of type */
			while (cur->next && cur->next->off <= off)
				cur = cur->next;
			xml->next = cur->next;
			cur->next = xml;
		} else {				/* first tag of this type */
			if (prev && cur)
				prev->sibling = cur->sibling;	/* remove old first */
			xml->next = cur;	/* old first tag is now next */
			for (cur = head, prev = NULL; cur && cur->off <= off; prev = cur, cur = cur->sibling);	/* new sibling insert point */
			xml->sibling = cur;
			if (prev)
				prev->sibling = xml;
		}
	} else
		dest->child = xml;		/* only sub tag */

	return xml;
}

/* Adds a child tag. off is the offset of the child tag relative to the start
   of the parent tag's character content. Returns the child tag */
SWITCH_DECLARE(switch_xml_t) switch_xml_add_child(switch_xml_t xml, const char *name, switch_size_t off)
{
	switch_xml_t child;

	if (!xml)
		return NULL;
	child = (switch_xml_t) switch_must_malloc(sizeof(struct switch_xml));

	memset(child, '\0', sizeof(struct switch_xml));
	child->name = (char *) name;
	child->attr = SWITCH_XML_NIL;
	child->off = off;
	child->parent = xml;
	child->txt = (char *) "";

	return switch_xml_insert(child, xml, off);
}

/* Adds a child tag. off is the offset of the child tag relative to the start
   of the parent tag's character content. Returns the child tag */
SWITCH_DECLARE(switch_xml_t) switch_xml_add_child_d(switch_xml_t xml, const char *name, switch_size_t off)
{
	if (!xml) return NULL;
	return switch_xml_set_flag(switch_xml_add_child(xml, strdup(name), off), SWITCH_XML_NAMEM);
}

/* sets the character content for the given tag and returns the tag */
SWITCH_DECLARE(switch_xml_t) switch_xml_set_txt(switch_xml_t xml, const char *txt)
{
	if (!xml)
		return NULL;
	if (xml->flags & SWITCH_XML_TXTM)
		free(xml->txt);			/* existing txt was malloced */
	xml->flags &= ~SWITCH_XML_TXTM;
	xml->txt = (char *) txt;
	return xml;
}

/* sets the character content for the given tag and returns the tag */
SWITCH_DECLARE(switch_xml_t) switch_xml_set_txt_d(switch_xml_t xml, const char *txt)
{
	if (!xml) return NULL;
	return switch_xml_set_flag(switch_xml_set_txt(xml, strdup(txt)), SWITCH_XML_TXTM);
}

/* Sets the given tag attribute or adds a new attribute if not found. A value
   of NULL will remove the specified attribute.  Returns the tag given */
SWITCH_DECLARE(switch_xml_t) switch_xml_set_attr(switch_xml_t xml, const char *name, const char *value)
{
	int l = 0, c;

	if (!xml)
		return NULL;
	while (xml->attr[l] && strcmp(xml->attr[l], name))
		l += 2;
	if (!xml->attr[l]) {		/* not found, add as new attribute */
		if (!value)
			return xml;			/* nothing to do */
		if (xml->attr == SWITCH_XML_NIL) {	/* first attribute */
			xml->attr = (char **) switch_must_malloc(4 * sizeof(char *));
			xml->attr[l + 1] = switch_must_strdup("");	/* empty list of malloced names/vals */
		} else {
			xml->attr = (char **) switch_must_realloc(xml->attr, (l + 4) * sizeof(char *));
		}

		xml->attr[l] = (char *) name;	/* set attribute name */
		xml->attr[l + 2] = NULL;	/* null terminate attribute list */
		xml->attr[l + 3] = (char *) switch_must_realloc(xml->attr[l + 1], (c = (int) strlen(xml->attr[l + 1])) + 2);
		strcpy(xml->attr[l + 3] + c, " ");	/* set name/value as not malloced */
		if (xml->flags & SWITCH_XML_DUP)
			xml->attr[l + 3][c] = SWITCH_XML_NAMEM;
		c = l + 2; /* end of attribute list */
	} else {
		for (c = l; xml->attr[c]; c += 2);	/* find end of attribute list */

		if (xml->flags & SWITCH_XML_DUP)
			free((char*)name);	/* name was strduped */
		if (xml->attr[c + 1][l / 2] & SWITCH_XML_TXTM)
			free(xml->attr[l + 1]);	/* old val */
	}

	if (xml->flags & SWITCH_XML_DUP)
		xml->attr[c + 1][l / 2] |= SWITCH_XML_TXTM;
	else
		xml->attr[c + 1][l / 2] &= ~SWITCH_XML_TXTM;

	if (value)
		xml->attr[l + 1] = (char *) value;	/* set attribute value */
	else {						/* remove attribute */
		if (xml->attr[c + 1][l / 2] & SWITCH_XML_NAMEM)
			free(xml->attr[l]);
		c -= 2;
		if (c > 0) {
			memmove(xml->attr + l, xml->attr + l + 2, (c - l + 2) * sizeof(char*));
			xml->attr = (char**)switch_must_realloc(xml->attr, (c + 2) * sizeof(char*));
			memmove(xml->attr[c + 1] + (l / 2), xml->attr[c + 1] + (l / 2) + 1, (c / 2) - (l / 2));	/* fix list of which name/vals are malloced */
			xml->attr[c + 1][c / 2] = '\0';
		} else {
			/* last attribute removed, reset attribute list */
			free(xml->attr[3]);
			free(xml->attr);
			xml->attr = SWITCH_XML_NIL;
		}
	}
	xml->flags &= ~SWITCH_XML_DUP;	/* clear strdup() flag */

	return xml;
}

/* Sets the given tag attribute or adds a new attribute if not found. A value
   of NULL will remove the specified attribute.  Returns the tag given */
SWITCH_DECLARE(switch_xml_t) switch_xml_set_attr_d(switch_xml_t xml, const char *name, const char *value)
{
	if (!xml) return NULL;
	return switch_xml_set_attr(switch_xml_set_flag(xml, SWITCH_XML_DUP), switch_must_strdup(name), switch_must_strdup(switch_str_nil(value)));
}

/* Sets the given tag attribute or adds a new attribute if not found. A value
   of NULL will remove the specified attribute.  Returns the tag given */
SWITCH_DECLARE(switch_xml_t) switch_xml_set_attr_d_buf(switch_xml_t xml, const char *name, const char *value)
{
	if (!xml) return NULL;
	return switch_xml_set_attr(switch_xml_set_flag(xml, SWITCH_XML_DUP), switch_must_strdup(name), switch_must_strdup(value));
}

/* sets a flag for the given tag and returns the tag */
SWITCH_DECLARE(switch_xml_t) switch_xml_set_flag(switch_xml_t xml, switch_xml_flag_t flag)
{
	if (xml)
		xml->flags |= flag;
	return xml;
}

/* removes a tag along with its subtags without freeing its memory */
SWITCH_DECLARE(switch_xml_t) switch_xml_cut(switch_xml_t xml)
{
	switch_xml_t cur;

	if (!xml)
		return NULL;			/* nothing to do */
	if (xml->next)
		xml->next->sibling = xml->sibling;	/* patch sibling list */

	if (xml->parent) {			/* not root tag */
		cur = xml->parent->child;	/* find head of subtag list */
		if (cur == xml)
			xml->parent->child = xml->ordered;	/* first subtag */
		else {					/* not first subtag */
			while (cur->ordered != xml)
				cur = cur->ordered;
			cur->ordered = cur->ordered->ordered;	/* patch ordered list */

			cur = xml->parent->child;	/* go back to head of subtag list */
			if (strcmp(cur->name, xml->name)) {	/* not in first sibling list */
				while (strcmp(cur->sibling->name, xml->name))
					cur = cur->sibling;
				if (cur->sibling == xml) {	/* first of a sibling list */
					cur->sibling = (xml->next) ? xml->next : cur->sibling->sibling;
				} else
					cur = cur->sibling;	/* not first of a sibling list */
			}

			while (cur->next && cur->next != xml)
				cur = cur->next;
			if (cur->next)
				cur->next = cur->next->next;	/* patch next list */
		}
	}
	xml->ordered = xml->sibling = xml->next = NULL;	/* prevent switch_xml_free() from clobbering ordered list */
	return xml;
}

SWITCH_DECLARE(int) switch_xml_std_datetime_check(switch_xml_t xcond, int *offset, const char *tzname)
{

	const char *xdt = switch_xml_attr(xcond, "date-time");
	const char *xyear = switch_xml_attr(xcond, "year");
	const char *xyday = switch_xml_attr(xcond, "yday");
	const char *xmon = switch_xml_attr(xcond, "mon");
	const char *xmday = switch_xml_attr(xcond, "mday");
	const char *xweek = switch_xml_attr(xcond, "week");
	const char *xmweek = switch_xml_attr(xcond, "mweek");
	const char *xwday = switch_xml_attr(xcond, "wday");
	const char *xhour = switch_xml_attr(xcond, "hour");
	const char *xminute = switch_xml_attr(xcond, "minute");
	const char *xminday = switch_xml_attr(xcond, "minute-of-day");
	const char *xtod = switch_xml_attr(xcond, "time-of-day");
	const char *tzoff = switch_xml_attr(xcond, "tz-offset");
	const char *isdst = switch_xml_attr(xcond, "dst");

	int loffset = -1000;
	int eoffset = -1000;
	int dst = -1000;
	switch_time_t ts = switch_micro_time_now();
	int time_match = -1;
	switch_time_exp_t tm, tm2;

	if (!zstr(isdst)) {
		dst = switch_true(isdst);
	}

	if (!zstr(tzoff) && switch_is_number(tzoff)) {
		loffset = atoi(tzoff);
	}

	switch_time_exp_lt(&tm2, ts);

	if (offset) {
		eoffset = *offset;
		switch_time_exp_tz(&tm, ts, *offset * 3600);
	} else if (!zstr(tzname)) {
		switch_time_exp_tz_name(tzname, &tm, ts);
	} else {
		tm = tm2;
	}

	if (eoffset == -1000) {
		eoffset = tm.tm_gmtoff / 3600;
	}

	if (loffset == -1000) {
		loffset = eoffset;
	}


	if (time_match && tzoff) {
		time_match = loffset == eoffset;
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
						  "XML DateTime Check: TZOFFSET[%d] == %d (%s)\n", eoffset, loffset, time_match ? "PASS" : "FAIL");

	}

	if (time_match && dst > -1) {
		time_match = (tm2.tm_isdst > 0 && dst > 0);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
						  "XML DateTime Check: DST[%s] == %s (%s)\n",
						  tm2.tm_isdst > 0 ? "true" : "false", dst > 0 ? "true" : "false", time_match ? "PASS" : "FAIL");

	}

	if (time_match && xdt) {
		char tmpdate[80];
		switch_size_t retsize;
		switch_strftime(tmpdate, &retsize, sizeof(tmpdate), "%Y-%m-%d %H:%M:%S", &tm);
		time_match = switch_fulldate_cmp(xdt, &ts);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG,
				"XML DateTime Check: date time[%s] =~ %s (%s)\n", tmpdate, xdt, time_match ? "PASS" : "FAIL");
	}

	if (time_match && xyear) {
		int test = tm.tm_year + 1900;
		time_match = switch_number_cmp(xyear, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime Check: year[%d] =~ %s (%s)\n", test, xyear, time_match ? "PASS" : "FAIL");
	}

	if (time_match && xyday) {
		int test = tm.tm_yday + 1;
		time_match = switch_number_cmp(xyday, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime Check: day of year[%d] =~ %s (%s)\n", test, xyday, time_match ? "PASS" : "FAIL");
	}

	if (time_match && xmon) {
		int test = tm.tm_mon + 1;
		time_match = switch_number_cmp(xmon, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime Check: month[%d] =~ %s (%s)\n", test, xmon, time_match ? "PASS" : "FAIL");
	}

	if (time_match && xmday) {
		int test = tm.tm_mday;
		time_match = switch_number_cmp(xmday, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime Check: day of month[%d] =~ %s (%s)\n", test, xmday, time_match ? "PASS" : "FAIL");
	}

	if (time_match && xweek) {
		int test = (int) (tm.tm_yday / 7 + 1);
		time_match = switch_number_cmp(xweek, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime Check: week of year[%d] =~ %s (%s)\n", test, xweek, time_match ? "PASS" : "FAIL");
	}

	if (time_match && xmweek) {
		/* calculate the day of the week of the first of the month (0-6) */
		int firstdow = (int) (7 - (tm.tm_mday - (tm.tm_wday + 1)) % 7) % 7;
		/* calculate the week of the month (1-6)*/
		int test = (int) ceil((tm.tm_mday + firstdow) / 7.0);
		time_match = switch_number_cmp(xmweek, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime: week of month[%d] =~ %s (%s)\n", test, xmweek, time_match ? "PASS" : "FAIL");
	}

	if (time_match && xwday) {
		int test = tm.tm_wday + 1;
		time_match = switch_dow_cmp(xwday, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime Check: day of week[%s] =~ %s (%s)\n", switch_dow_int2str(test), xwday, time_match ? "PASS" : "FAIL");
	}
	if (time_match && xhour) {
		int test = tm.tm_hour;
		time_match = switch_number_cmp(xhour, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime Check: hour[%d] =~ %s (%s)\n", test, xhour, time_match ? "PASS" : "FAIL");
	}

	if (time_match && xminute) {
		int test = tm.tm_min;
		time_match = switch_number_cmp(xminute, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime Check: minute[%d] =~ %s (%s)\n", test, xminute, time_match ? "PASS" : "FAIL");
	}

	if (time_match && xminday) {
		int test = (tm.tm_hour * 60) + (tm.tm_min + 1);
		time_match = switch_number_cmp(xminday, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime Check: minute of day[%d] =~ %s (%s)\n", test, xminday, time_match ? "PASS" : "FAIL");
	}

	if (time_match && xtod) {
		int test = (tm.tm_hour * 60 * 60) + (tm.tm_min * 60) + tm.tm_sec;
		char tmpdate[10];
		switch_snprintf(tmpdate, 10, "%d:%d:%d", tm.tm_hour, tm.tm_min, tm.tm_sec);
		time_match = switch_tod_cmp(xtod, test);
		switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG9,
				"XML DateTime Check: time of day[%s] =~ %s (%s)\n", tmpdate, xtod, time_match ? "PASS" : "FAIL");
	}

	return time_match;
}

SWITCH_DECLARE(switch_status_t) switch_xml_locate_language_ex(switch_xml_t *root, switch_xml_t *node, switch_event_t *params, switch_xml_t *language, switch_xml_t *phrases, switch_xml_t *macros, const char *str_language) {
	switch_status_t status = SWITCH_STATUS_FALSE;

	if (switch_xml_locate("languages", NULL, NULL, NULL, root, node, params, SWITCH_TRUE) != SWITCH_STATUS_SUCCESS) {
		switch_xml_t sub_macros;

		if (switch_xml_locate("phrases", NULL, NULL, NULL, root, node, params, SWITCH_TRUE) != SWITCH_STATUS_SUCCESS) {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Open of languages and phrases failed.\n");
			goto done;
		}
		if (!(sub_macros = switch_xml_child(*node, "macros"))) {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Can't find macros tag.\n");
			switch_xml_free(*root);
			*root = NULL;
			*node = NULL;
			goto done;
		}
		if (!(*language = switch_xml_find_child(sub_macros, "language", "name", str_language))) {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Can't find language %s.\n", str_language);
			switch_xml_free(*root);
			*root = NULL;
			*node = NULL;
			goto done;
		}
		*macros = *language;
	} else {
		if (!(*language = switch_xml_find_child(*node, "language", "name", str_language))) {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Can't find language %s.\n", str_language);
			switch_xml_free(*root);
			*root = NULL;
			goto done;
		}
		if (!(*phrases = switch_xml_child(*language, "phrases"))) {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Can't find phrases tag.\n");
			switch_xml_free(*root);
			*root = NULL;
			*node = NULL;
			*language = NULL;
			goto done;
		}

		if (!(*macros = switch_xml_child(*phrases, "macros"))) {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Can't find macros tag.\n");
			switch_xml_free(*root);
			*root = NULL;
			*node = NULL;
			*language = NULL;
			*phrases = NULL;
			goto done;
		}
	}
	status = SWITCH_STATUS_SUCCESS;

done:
	return status;
}

SWITCH_DECLARE(switch_status_t) switch_xml_locate_language(switch_xml_t *root, switch_xml_t *node, switch_event_t *params, switch_xml_t *language, switch_xml_t *phrases, switch_xml_t *macros, const char *str_language) {
	switch_status_t status;

	if ((status = switch_xml_locate_language_ex(root, node, params, language, phrases, macros, str_language)) != SWITCH_STATUS_SUCCESS) {
		char *str_language_dup = strdup(str_language);
		char *secondary;
		switch_assert(str_language_dup);
		if ((secondary = strchr(str_language_dup, '-'))) {
			*secondary++ = '\0';
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING,
							  "language %s not found. trying %s by removing %s\n", str_language, str_language_dup, secondary);
			switch_event_add_header_string(params, SWITCH_STACK_BOTTOM, "lang", str_language_dup);
			status = switch_xml_locate_language_ex(root, node, params, language, phrases, macros, str_language_dup);
		}
		switch_safe_free(str_language_dup);
	}

	return status;
}

#ifdef WIN32
/*
 * globbing functions for windows, part of libc on unix, this code was cut and paste from
 * freebsd lib and distilled a bit to work with windows
 */

/*
 * Copyright (c) 1989, 1993
 *	The Regents of the University of California.  All rights reserved.
 *
 * This code is derived from software contributed to Berkeley by
 * Guido van Rossum.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 * 4. Neither the name of the University nor the names of its contributors
 *    may be used to endorse or promote products derived from this software
 *    without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 */

#define	DOLLAR		'$'
#define	DOT		'.'
#define	EOS		'\0'
#define	LBRACKET	'['
#define	NOT		'!'
#define	QUESTION	'?'
#define	RANGE		'-'
#define	RBRACKET	']'
#define	SEP		'/'
#define WIN_SEP '/'
#define	STAR		'*'
#define	TILDE		'~'
#define	UNDERSCORE	'_'
#define	LBRACE		'{'
#define	RBRACE		'}'
#define	SLASH		'/'
#define	COMMA		','

#define	M_QUOTE		(char)0x80
#define	M_PROTECT	(char)0x40
#define	M_MASK		(char)0xff
#define	M_ASCII		(char)0x7f

#define	CHAR(c)		((char)((c)&M_ASCII))
#define	META(c)		((char)((c)|M_QUOTE))
#define	M_ALL		META('*')
#define	M_END		META(']')
#define	M_NOT		META('!')
#define	M_ONE		META('?')
#define	M_RNG		META('-')
#define	M_SET		META('[')
#define	ismeta(c)	(((c)&M_QUOTE) != 0)

#ifndef MAXPATHLEN
#define MAXPATHLEN 256
#endif

static int compare(const void *, const void *);
static int glob0(const char *, glob_t *, size_t *);
static int glob1(char *, glob_t *, size_t *);
static int glob2(char *, char *, char *, char *, glob_t *, size_t *);
static int glob3(char *, char *, char *, char *, char *, glob_t *, size_t *);
static int globextend(const char *, glob_t *, size_t *);
static int match(char *, char *, char *);

#pragma warning(push)
#pragma warning(disable:4310)

int glob(const char *pattern, int flags, int (*errfunc) (const char *, int), glob_t *pglob)
{
	const unsigned char *patnext;
	size_t limit;
	char c;
	char *bufnext, *bufend, patbuf[MAXPATHLEN];

	patnext = (unsigned char *) pattern;
	if (!(flags & GLOB_APPEND)) {
		pglob->gl_pathc = 0;
		pglob->gl_pathv = NULL;
		if (!(flags & GLOB_DOOFFS))
			pglob->gl_offs = 0;
	}
	if (flags & GLOB_LIMIT) {
		limit = pglob->gl_matchc;
		if (limit == 0)
			limit = 9999999;
	} else
		limit = 0;
	pglob->gl_flags = flags & ~GLOB_MAGCHAR;
	pglob->gl_errfunc = errfunc;
	pglob->gl_matchc = 0;

	bufnext = patbuf;
	bufend = bufnext + MAXPATHLEN - 1;
	while (bufnext < bufend && (c = *patnext++) != EOS)
		*bufnext++ = c;
	*bufnext = EOS;

	return glob0(patbuf, pglob, &limit);
}

/*
 * The main glob() routine: compiles the pattern (optionally processing
 * quotes), calls glob1() to do the real pattern matching, and finally
 * sorts the list (unless unsorted operation is requested).  Returns 0
 * if things went well, nonzero if errors occurred.
 */
static int glob0(const char *pattern, glob_t *pglob, size_t *limit)
{
	const char *qpatnext;
	int c, err;
	size_t oldpathc;
	char *bufnext, patbuf[MAXPATHLEN];

	qpatnext = pattern;
	oldpathc = pglob->gl_pathc;
	bufnext = patbuf;

	/* We don't need to check for buffer overflow any more. */
	while ((c = *qpatnext++) != EOS) {
		switch (c) {
		case SEP:
			*bufnext++ = WIN_SEP;
			break;
		case LBRACKET:
			c = *qpatnext;
			if (c == NOT)
				++qpatnext;
			if (*qpatnext == EOS || strchr((char *) qpatnext + 1, RBRACKET) == NULL) {
				*bufnext++ = LBRACKET;
				if (c == NOT)
					--qpatnext;
				break;
			}
			*bufnext++ = M_SET;
			if (c == NOT)
				*bufnext++ = M_NOT;
			c = *qpatnext++;
			do {
				*bufnext++ = CHAR(c);
				if (*qpatnext == RANGE && (c = qpatnext[1]) != RBRACKET) {
					*bufnext++ = M_RNG;
					*bufnext++ = CHAR(c);
					qpatnext += 2;
				}
			} while ((c = *qpatnext++) != RBRACKET);
			pglob->gl_flags |= GLOB_MAGCHAR;
			*bufnext++ = M_END;
			break;
		case QUESTION:
			pglob->gl_flags |= GLOB_MAGCHAR;
			*bufnext++ = M_ONE;
			break;
		case STAR:
			pglob->gl_flags |= GLOB_MAGCHAR;
			/* collapse adjacent stars to one,
			 * to avoid exponential behavior
			 */
			if (bufnext == patbuf || bufnext[-1] != M_ALL)
				*bufnext++ = M_ALL;
			break;
		default:
			*bufnext++ = CHAR(c);
			break;
		}
	}
	*bufnext = EOS;

	if ((err = glob1(patbuf, pglob, limit)) != 0)
		return (err);

	/*
	 * If there was no match we are going to append the pattern
	 * if GLOB_NOCHECK was specified or if GLOB_NOMAGIC was specified
	 * and the pattern did not contain any magic characters
	 * GLOB_NOMAGIC is there just for compatibility with csh.
	 */
	if (pglob->gl_pathc == oldpathc) {
		if (((pglob->gl_flags & GLOB_NOCHECK) || ((pglob->gl_flags & GLOB_NOMAGIC) && !(pglob->gl_flags & GLOB_MAGCHAR))))
			return (globextend(pattern, pglob, limit));
		else
			return (GLOB_NOMATCH);
	}
	if (!(pglob->gl_flags & GLOB_NOSORT))
		qsort(pglob->gl_pathv + pglob->gl_offs + oldpathc, pglob->gl_pathc - oldpathc, sizeof(char *), compare);
	return (0);
}

static int compare(const void *p, const void *q)
{
	return (strcmp(*(char **) p, *(char **) q));
}

static int glob1(char *pattern, glob_t *pglob, size_t *limit)
{
	char pathbuf[MAXPATHLEN];

	/* A null pathname is invalid -- POSIX 1003.1 sect. 2.4. */
	if (*pattern == EOS)
		return (0);
	return (glob2(pathbuf, pathbuf, pathbuf + MAXPATHLEN - 1, pattern, pglob, limit));
}

/*
 * The functions glob2 and glob3 are mutually recursive; there is one level
 * of recursion for each segment in the pattern that contains one or more
 * meta characters.
 */
static int glob2(char *pathbuf, char *pathend, char *pathend_last, char *pattern, glob_t *pglob, size_t *limit)
{
	struct stat sb;
	char *p, *q;
	int anymeta;

	/*
	 * Loop over pattern segments until end of pattern or until
	 * segment with meta character found.
	 */
	for (anymeta = 0;;) {
		if (*pattern == EOS) {	/* End of pattern? */
			*pathend = EOS;
			if (stat(pathbuf, &sb))
				return (0);

			if (((pglob->gl_flags & GLOB_MARK) && pathend[-1] != SEP && pathend[-1] != WIN_SEP) && (_S_IFDIR & sb.st_mode)) {
				if (pathend + 1 > pathend_last)
					return (GLOB_ABORTED);
				*pathend++ = WIN_SEP;
				*pathend = EOS;
			}
			++pglob->gl_matchc;
			return (globextend(pathbuf, pglob, limit));
		}

		/* Find end of next segment, copy tentatively to pathend. */
		q = pathend;
		p = pattern;
		while (*p != EOS && *p != SEP && *p != WIN_SEP) {
			if (ismeta(*p))
				anymeta = 1;
			if (q + 1 > pathend_last)
				return (GLOB_ABORTED);
			*q++ = *p++;
		}

		if (!anymeta) {			/* No expansion, do next segment. */
			pathend = q;
			pattern = p;
			while (*pattern == SEP || *pattern == WIN_SEP) {
				if (pathend + 1 > pathend_last)
					return (GLOB_ABORTED);
				*pathend++ = *pattern++;
			}
		} else					/* Need expansion, recurse. */
			return (glob3(pathbuf, pathend, pathend_last, pattern, p, pglob, limit));
	}
	/* NOTREACHED */
}

static int glob3(char *pathbuf, char *pathend, char *pathend_last, char *pattern, char *restpattern, glob_t *pglob, size_t *limit)
{
	int err;
	fspr_dir_t *dirp;
	fspr_pool_t *pool;

	fspr_pool_create(&pool, NULL);

	if (pathend > pathend_last)
		return (GLOB_ABORTED);
	*pathend = EOS;
	errno = 0;

	if (fspr_dir_open(&dirp, pathbuf, pool) != APR_SUCCESS) {
		/* TODO: don't call for ENOENT or ENOTDIR? */
		fspr_pool_destroy(pool);
		if (pglob->gl_errfunc) {
			if (pglob->gl_errfunc(pathbuf, errno) || pglob->gl_flags & GLOB_ERR)
				return (GLOB_ABORTED);
		}
		return (0);
	}

	err = 0;

	/* Search directory for matching names. */
	while (dirp) {
		fspr_finfo_t dp;
		unsigned char *sc;
		char *dc;

		if (fspr_dir_read(&dp, APR_FINFO_NAME, dirp) != APR_SUCCESS)
			break;
		if (!(dp.valid & APR_FINFO_NAME) || !(dp.name) || !strlen(dp.name))
			break;

		/* Initial DOT must be matched literally. */
		if (dp.name[0] == DOT && *pattern != DOT)
			continue;
		dc = pathend;
		sc = (unsigned char *) dp.name;

		while (dc < pathend_last && (*dc++ = *sc++) != EOS);

		if (!match(pathend, pattern, restpattern)) {
			*pathend = EOS;
			continue;
		}
		err = glob2(pathbuf, --dc, pathend_last, restpattern, pglob, limit);
		if (err)
			break;
	}

	if (dirp)
		fspr_dir_close(dirp);
	fspr_pool_destroy(pool);
	return (err);
}


/*
 * Extend the gl_pathv member of a glob_t structure to accommodate a new item,
 * add the new item, and update gl_pathc.
 *
 * This assumes the BSD realloc, which only copies the block when its size
 * crosses a power-of-two boundary; for v7 realloc, this would cause quadratic
 * behavior.
 *
 * Return 0 if new item added, error code if memory couldn't be allocated.
 *
 * Invariant of the glob_t structure:
 *	Either gl_pathc is zero and gl_pathv is NULL; or gl_pathc > 0 and
 *	gl_pathv points to (gl_offs + gl_pathc + 1) items.
 */
static int globextend(const char *path, glob_t *pglob, size_t *limit)
{
	char **pathv;
	char *copy;
	size_t i;
	size_t newsize, len;
	const char *p;

	if (*limit && pglob->gl_pathc > *limit) {
		errno = 0;
		return (GLOB_NOSPACE);
	}

	newsize = sizeof(*pathv) * (2 + pglob->gl_pathc + pglob->gl_offs);
	pathv = pglob->gl_pathv ? switch_must_realloc((char *) pglob->gl_pathv, newsize) : switch_must_malloc(newsize);

	if (pglob->gl_pathv == NULL && pglob->gl_offs > 0) {
		/* first time around -- clear initial gl_offs items */
		pathv += pglob->gl_offs;
		for (i = pglob->gl_offs; i-- > 0;)
			*--pathv = NULL;
	}
	pglob->gl_pathv = pathv;

	for (p = path; *p++;)
		continue;
	len = (size_t) (p - path);
	copy = switch_must_malloc(len);
	memcpy(copy, path, len);
	pathv[pglob->gl_offs + pglob->gl_pathc++] = copy;
	pathv[pglob->gl_offs + pglob->gl_pathc] = NULL;
	return (copy == NULL ? GLOB_NOSPACE : 0);
}

/*
 * pattern matching function for filenames.  Each occurrence of the *
 * pattern causes a recursion level.
 */
static int match(char *name, char *pat, char *patend)
{
	int ok, negate_range;
	char c, k;
	char s1[6];

	while (pat < patend) {
		c = *pat++;
		switch (c & M_MASK) {
		case M_ALL:
			if (pat == patend)
				return (1);
			do
				if (match(name, pat, patend))
					return (1);
			while (*name++ != EOS);
			return (0);
		case M_ONE:
			if (*name++ == EOS)
				return (0);
			break;
		case M_SET:
			ok = 0;
			if ((k = *name++) == EOS)
				return (0);
			if ((negate_range = ((*pat & M_MASK) == M_NOT)) != EOS)
				++pat;
			while (((c = *pat++) & M_MASK) != M_END)
				if ((*pat & M_MASK) == M_RNG) {
					memset(s1, 0, sizeof(s1));
					s1[0] = c;
					s1[2] = k;
					s1[4] = pat[1];
					if (strcoll(&s1[0], &s1[2]) <= 0 && strcoll(&s1[2], &s1[4]) <= 0)
						ok = 1;
					pat += 2;
				} else if (c == k)
					ok = 1;
			if (ok == negate_range)
				return (0);
			break;
		default:
			if (*name++ != c)
				return (0);
			break;
		}
	}
	return (*name == EOS);
}

/* Free allocated data belonging to a glob_t structure. */
void globfree(glob_t *pglob)
{
	size_t i;
	char **pp;

	if (pglob->gl_pathv != NULL) {
		pp = pglob->gl_pathv + pglob->gl_offs;
		for (i = pglob->gl_pathc; i--; ++pp)
			if (*pp)
				free(*pp);
		free(pglob->gl_pathv);
		pglob->gl_pathv = NULL;
	}
}

#pragma warning(pop)
#endif

/* For Emacs:
 * Local Variables:
 * mode:c
 * indent-tabs-mode:t
 * tab-width:4
 * c-basic-offset:4
 * End:
 * For VIM:
 * vim:set softtabstop=4 shiftwidth=4 tabstop=4 noet:
 */