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freebsd-skq/contrib/apr-util/xml/apr_xml.c
peter 6c648dd642 Introduce svnlite so that we can check out our source code again. 
This is actually a fully functional build except:
* All internal shared libraries are static linked to make sure there
  is no interference with ports (and to reduce build time).
* It does not have the python/perl/etc plugin or API support.
* By default, it installs as "svnlite" rather than "svn".
* If WITH_SVN added in make.conf, you get "svn".
* If WITHOUT_SVNLITE is in make.conf, this is completely disabled.

To be absolutely clear, this is not intended for any use other than
checking out freebsd source and committing, like we once did with cvs.

It should be usable for small scale local repositories that don't
need the python/perl plugin architecture.
2013-06-18 02:53:45 +00:00

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/* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (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.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "apr.h"
#include "apr_strings.h"
#define APR_WANT_STDIO /* for sprintf() */
#define APR_WANT_STRFUNC
#include "apr_want.h"
#include "apr_xml.h"
#include "apu_config.h"
#if defined(HAVE_XMLPARSE_XMLPARSE_H)
#include <xmlparse/xmlparse.h>
#elif defined(HAVE_XMLTOK_XMLPARSE_H)
#include <xmltok/xmlparse.h>
#elif defined(HAVE_XML_XMLPARSE_H)
#include <xml/xmlparse.h>
#else
#include <expat.h>
#endif
#define DEBUG_CR "\r\n"
static const char APR_KW_xmlns[] = { 0x78, 0x6D, 0x6C, 0x6E, 0x73, '\0' };
static const char APR_KW_xmlns_lang[] = { 0x78, 0x6D, 0x6C, 0x3A, 0x6C, 0x61, 0x6E, 0x67, '\0' };
static const char APR_KW_DAV[] = { 0x44, 0x41, 0x56, 0x3A, '\0' };
/* errors related to namespace processing */
#define APR_XML_NS_ERROR_UNKNOWN_PREFIX (-1000)
#define APR_XML_NS_ERROR_INVALID_DECL (-1001)
/* test for a namespace prefix that begins with [Xx][Mm][Ll] */
#define APR_XML_NS_IS_RESERVED(name) \
( (name[0] == 0x58 || name[0] == 0x78) && \
(name[1] == 0x4D || name[1] == 0x6D) && \
(name[2] == 0x4C || name[2] == 0x6C) )
/* the real (internal) definition of the parser context */
struct apr_xml_parser {
apr_xml_doc *doc; /* the doc we're parsing */
apr_pool_t *p; /* the pool we allocate from */
apr_xml_elem *cur_elem; /* current element */
int error; /* an error has occurred */
#define APR_XML_ERROR_EXPAT 1
#define APR_XML_ERROR_PARSE_DONE 2
/* also: public APR_XML_NS_ERROR_* values (if any) */
XML_Parser xp; /* the actual (Expat) XML parser */
enum XML_Error xp_err; /* stored Expat error code */
};
/* struct for scoping namespace declarations */
typedef struct apr_xml_ns_scope {
const char *prefix; /* prefix used for this ns */
int ns; /* index into namespace table */
int emptyURI; /* the namespace URI is the empty string */
struct apr_xml_ns_scope *next; /* next scoped namespace */
} apr_xml_ns_scope;
/* return namespace table index for a given prefix */
static int find_prefix(apr_xml_parser *parser, const char *prefix)
{
apr_xml_elem *elem = parser->cur_elem;
/*
** Walk up the tree, looking for a namespace scope that defines this
** prefix.
*/
for (; elem; elem = elem->parent) {
apr_xml_ns_scope *ns_scope = elem->ns_scope;
for (ns_scope = elem->ns_scope; ns_scope; ns_scope = ns_scope->next) {
if (strcmp(prefix, ns_scope->prefix) == 0) {
if (ns_scope->emptyURI) {
/*
** It is possible to set the default namespace to an
** empty URI string; this resets the default namespace
** to mean "no namespace." We just found the prefix
** refers to an empty URI, so return "no namespace."
*/
return APR_XML_NS_NONE;
}
return ns_scope->ns;
}
}
}
/*
* If the prefix is empty (""), this means that a prefix was not
* specified in the element/attribute. The search that was performed
* just above did not locate a default namespace URI (which is stored
* into ns_scope with an empty prefix). This means the element/attribute
* has "no namespace". We have a reserved value for this.
*/
if (*prefix == '\0') {
return APR_XML_NS_NONE;
}
/* not found */
return APR_XML_NS_ERROR_UNKNOWN_PREFIX;
}
static void start_handler(void *userdata, const char *name, const char **attrs)
{
apr_xml_parser *parser = userdata;
apr_xml_elem *elem;
apr_xml_attr *attr;
apr_xml_attr *prev;
char *colon;
const char *quoted;
char *elem_name;
/* punt once we find an error */
if (parser->error)
return;
elem = apr_pcalloc(parser->p, sizeof(*elem));
/* prep the element */
elem->name = elem_name = apr_pstrdup(parser->p, name);
/* fill in the attributes (note: ends up in reverse order) */
while (*attrs) {
attr = apr_palloc(parser->p, sizeof(*attr));
attr->name = apr_pstrdup(parser->p, *attrs++);
attr->value = apr_pstrdup(parser->p, *attrs++);
attr->next = elem->attr;
elem->attr = attr;
}
/* hook the element into the tree */
if (parser->cur_elem == NULL) {
/* no current element; this also becomes the root */
parser->cur_elem = parser->doc->root = elem;
}
else {
/* this element appeared within the current elem */
elem->parent = parser->cur_elem;
/* set up the child/sibling links */
if (elem->parent->last_child == NULL) {
/* no first child either */
elem->parent->first_child = elem->parent->last_child = elem;
}
else {
/* hook onto the end of the parent's children */
elem->parent->last_child->next = elem;
elem->parent->last_child = elem;
}
/* this element is now the current element */
parser->cur_elem = elem;
}
/* scan the attributes for namespace declarations */
for (prev = NULL, attr = elem->attr;
attr;
attr = attr->next) {
if (strncmp(attr->name, APR_KW_xmlns, 5) == 0) {
const char *prefix = &attr->name[5];
apr_xml_ns_scope *ns_scope;
/* test for xmlns:foo= form and xmlns= form */
if (*prefix == 0x3A) {
/* a namespace prefix declaration must have a
non-empty value. */
if (attr->value[0] == '\0') {
parser->error = APR_XML_NS_ERROR_INVALID_DECL;
return;
}
++prefix;
}
else if (*prefix != '\0') {
/* advance "prev" since "attr" is still present */
prev = attr;
continue;
}
/* quote the URI before we ever start working with it */
quoted = apr_xml_quote_string(parser->p, attr->value, 1);
/* build and insert the new scope */
ns_scope = apr_pcalloc(parser->p, sizeof(*ns_scope));
ns_scope->prefix = prefix;
ns_scope->ns = apr_xml_insert_uri(parser->doc->namespaces, quoted);
ns_scope->emptyURI = *quoted == '\0';
ns_scope->next = elem->ns_scope;
elem->ns_scope = ns_scope;
/* remove this attribute from the element */
if (prev == NULL)
elem->attr = attr->next;
else
prev->next = attr->next;
/* Note: prev will not be advanced since we just removed "attr" */
}
else if (strcmp(attr->name, APR_KW_xmlns_lang) == 0) {
/* save away the language (in quoted form) */
elem->lang = apr_xml_quote_string(parser->p, attr->value, 1);
/* remove this attribute from the element */
if (prev == NULL)
elem->attr = attr->next;
else
prev->next = attr->next;
/* Note: prev will not be advanced since we just removed "attr" */
}
else {
/* advance "prev" since "attr" is still present */
prev = attr;
}
}
/*
** If an xml:lang attribute didn't exist (lang==NULL), then copy the
** language from the parent element (if present).
**
** NOTE: elem_size() *depends* upon this pointer equality.
*/
if (elem->lang == NULL && elem->parent != NULL)
elem->lang = elem->parent->lang;
/* adjust the element's namespace */
colon = strchr(elem_name, 0x3A);
if (colon == NULL) {
/*
* The element is using the default namespace, which will always
* be found. Either it will be "no namespace", or a default
* namespace URI has been specified at some point.
*/
elem->ns = find_prefix(parser, "");
}
else if (APR_XML_NS_IS_RESERVED(elem->name)) {
elem->ns = APR_XML_NS_NONE;
}
else {
*colon = '\0';
elem->ns = find_prefix(parser, elem->name);
elem->name = colon + 1;
if (APR_XML_NS_IS_ERROR(elem->ns)) {
parser->error = elem->ns;
return;
}
}
/* adjust all remaining attributes' namespaces */
for (attr = elem->attr; attr; attr = attr->next) {
/*
* apr_xml_attr defines this as "const" but we dup'd it, so we
* know that we can change it. a bit hacky, but the existing
* structure def is best.
*/
char *attr_name = (char *)attr->name;
colon = strchr(attr_name, 0x3A);
if (colon == NULL) {
/*
* Attributes do NOT use the default namespace. Therefore,
* we place them into the "no namespace" category.
*/
attr->ns = APR_XML_NS_NONE;
}
else if (APR_XML_NS_IS_RESERVED(attr->name)) {
attr->ns = APR_XML_NS_NONE;
}
else {
*colon = '\0';
attr->ns = find_prefix(parser, attr->name);
attr->name = colon + 1;
if (APR_XML_NS_IS_ERROR(attr->ns)) {
parser->error = attr->ns;
return;
}
}
}
}
static void end_handler(void *userdata, const char *name)
{
apr_xml_parser *parser = userdata;
/* punt once we find an error */
if (parser->error)
return;
/* pop up one level */
parser->cur_elem = parser->cur_elem->parent;
}
static void cdata_handler(void *userdata, const char *data, int len)
{
apr_xml_parser *parser = userdata;
apr_xml_elem *elem;
apr_text_header *hdr;
const char *s;
/* punt once we find an error */
if (parser->error)
return;
elem = parser->cur_elem;
s = apr_pstrndup(parser->p, data, len);
if (elem->last_child == NULL) {
/* no children yet. this cdata follows the start tag */
hdr = &elem->first_cdata;
}
else {
/* child elements exist. this cdata follows the last child. */
hdr = &elem->last_child->following_cdata;
}
apr_text_append(parser->p, hdr, s);
}
static apr_status_t cleanup_parser(void *ctx)
{
apr_xml_parser *parser = ctx;
XML_ParserFree(parser->xp);
parser->xp = NULL;
return APR_SUCCESS;
}
#if XML_MAJOR_VERSION > 1
/* Stop the parser if an entity declaration is hit. */
static void entity_declaration(void *userData, const XML_Char *entityName,
int is_parameter_entity, const XML_Char *value,
int value_length, const XML_Char *base,
const XML_Char *systemId, const XML_Char *publicId,
const XML_Char *notationName)
{
apr_xml_parser *parser = userData;
XML_StopParser(parser->xp, XML_FALSE);
}
#else
/* A noop default_handler. */
static void default_handler(void *userData, const XML_Char *s, int len)
{
}
#endif
APU_DECLARE(apr_xml_parser *) apr_xml_parser_create(apr_pool_t *pool)
{
apr_xml_parser *parser = apr_pcalloc(pool, sizeof(*parser));
parser->p = pool;
parser->doc = apr_pcalloc(pool, sizeof(*parser->doc));
parser->doc->namespaces = apr_array_make(pool, 5, sizeof(const char *));
/* ### is there a way to avoid hard-coding this? */
apr_xml_insert_uri(parser->doc->namespaces, APR_KW_DAV);
parser->xp = XML_ParserCreate(NULL);
if (parser->xp == NULL) {
(*apr_pool_abort_get(pool))(APR_ENOMEM);
return NULL;
}
apr_pool_cleanup_register(pool, parser, cleanup_parser,
apr_pool_cleanup_null);
XML_SetUserData(parser->xp, parser);
XML_SetElementHandler(parser->xp, start_handler, end_handler);
XML_SetCharacterDataHandler(parser->xp, cdata_handler);
/* Prevent the "billion laughs" attack against expat by disabling
* internal entity expansion. With 2.x, forcibly stop the parser
* if an entity is declared - this is safer and a more obvious
* failure mode. With older versions, installing a noop
* DefaultHandler means that internal entities will be expanded as
* the empty string, which is also sufficient to prevent the
* attack. */
#if XML_MAJOR_VERSION > 1
XML_SetEntityDeclHandler(parser->xp, entity_declaration);
#else
XML_SetDefaultHandler(parser->xp, default_handler);
#endif
return parser;
}
static apr_status_t do_parse(apr_xml_parser *parser,
const char *data, apr_size_t len,
int is_final)
{
if (parser->xp == NULL) {
parser->error = APR_XML_ERROR_PARSE_DONE;
}
else {
int rv = XML_Parse(parser->xp, data, (int)len, is_final);
if (rv == 0) {
parser->error = APR_XML_ERROR_EXPAT;
parser->xp_err = XML_GetErrorCode(parser->xp);
}
}
/* ### better error code? */
return parser->error ? APR_EGENERAL : APR_SUCCESS;
}
APU_DECLARE(apr_status_t) apr_xml_parser_feed(apr_xml_parser *parser,
const char *data,
apr_size_t len)
{
return do_parse(parser, data, len, 0 /* is_final */);
}
APU_DECLARE(apr_status_t) apr_xml_parser_done(apr_xml_parser *parser,
apr_xml_doc **pdoc)
{
char end;
apr_status_t status = do_parse(parser, &end, 0, 1 /* is_final */);
/* get rid of the parser */
(void) apr_pool_cleanup_run(parser->p, parser, cleanup_parser);
if (status)
return status;
if (pdoc != NULL)
*pdoc = parser->doc;
return APR_SUCCESS;
}
APU_DECLARE(char *) apr_xml_parser_geterror(apr_xml_parser *parser,
char *errbuf,
apr_size_t errbufsize)
{
int error = parser->error;
const char *msg;
/* clear our record of an error */
parser->error = 0;
switch (error) {
case 0:
msg = "No error.";
break;
case APR_XML_NS_ERROR_UNKNOWN_PREFIX:
msg = "An undefined namespace prefix was used.";
break;
case APR_XML_NS_ERROR_INVALID_DECL:
msg = "A namespace prefix was defined with an empty URI.";
break;
case APR_XML_ERROR_EXPAT:
(void) apr_snprintf(errbuf, errbufsize,
"XML parser error code: %s (%d)",
XML_ErrorString(parser->xp_err), parser->xp_err);
return errbuf;
case APR_XML_ERROR_PARSE_DONE:
msg = "The parser is not active.";
break;
default:
msg = "There was an unknown error within the XML body.";
break;
}
(void) apr_cpystrn(errbuf, msg, errbufsize);
return errbuf;
}
APU_DECLARE(apr_status_t) apr_xml_parse_file(apr_pool_t *p,
apr_xml_parser **parser,
apr_xml_doc **ppdoc,
apr_file_t *xmlfd,
apr_size_t buffer_length)
{
apr_status_t rv;
char *buffer;
apr_size_t length;
*parser = apr_xml_parser_create(p);
if (*parser == NULL) {
/* FIXME: returning an error code would be nice,
* but we dont get one ;( */
return APR_EGENERAL;
}
buffer = apr_palloc(p, buffer_length);
length = buffer_length;
rv = apr_file_read(xmlfd, buffer, &length);
while (rv == APR_SUCCESS) {
rv = apr_xml_parser_feed(*parser, buffer, length);
if (rv != APR_SUCCESS) {
return rv;
}
length = buffer_length;
rv = apr_file_read(xmlfd, buffer, &length);
}
if (rv != APR_EOF) {
return rv;
}
rv = apr_xml_parser_done(*parser, ppdoc);
*parser = NULL;
return rv;
}
APU_DECLARE(void) apr_text_append(apr_pool_t * p, apr_text_header *hdr,
const char *text)
{
apr_text *t = apr_palloc(p, sizeof(*t));
t->text = text;
t->next = NULL;
if (hdr->first == NULL) {
/* no text elements yet */
hdr->first = hdr->last = t;
}
else {
/* append to the last text element */
hdr->last->next = t;
hdr->last = t;
}
}
/* ---------------------------------------------------------------
**
** XML UTILITY FUNCTIONS
*/
/*
** apr_xml_quote_string: quote an XML string
**
** Replace '<', '>', and '&' with '&lt;', '&gt;', and '&amp;'.
** If quotes is true, then replace '"' with '&quot;'.
**
** quotes is typically set to true for XML strings that will occur within
** double quotes -- attribute values.
*/
APU_DECLARE(const char *) apr_xml_quote_string(apr_pool_t *p, const char *s,
int quotes)
{
const char *scan;
apr_size_t len = 0;
apr_size_t extra = 0;
char *qstr;
char *qscan;
char c;
for (scan = s; (c = *scan) != '\0'; ++scan, ++len) {
if (c == '<' || c == '>')
extra += 3; /* &lt; or &gt; */
else if (c == '&')
extra += 4; /* &amp; */
else if (quotes && c == '"')
extra += 5; /* &quot; */
}
/* nothing to do? */
if (extra == 0)
return s;
qstr = apr_palloc(p, len + extra + 1);
for (scan = s, qscan = qstr; (c = *scan) != '\0'; ++scan) {
if (c == '<') {
*qscan++ = '&';
*qscan++ = 'l';
*qscan++ = 't';
*qscan++ = ';';
}
else if (c == '>') {
*qscan++ = '&';
*qscan++ = 'g';
*qscan++ = 't';
*qscan++ = ';';
}
else if (c == '&') {
*qscan++ = '&';
*qscan++ = 'a';
*qscan++ = 'm';
*qscan++ = 'p';
*qscan++ = ';';
}
else if (quotes && c == '"') {
*qscan++ = '&';
*qscan++ = 'q';
*qscan++ = 'u';
*qscan++ = 'o';
*qscan++ = 't';
*qscan++ = ';';
}
else {
*qscan++ = c;
}
}
*qscan = '\0';
return qstr;
}
/* how many characters for the given integer? */
#define APR_XML_NS_LEN(ns) ((ns) < 10 ? 1 : (ns) < 100 ? 2 : (ns) < 1000 ? 3 : \
(ns) < 10000 ? 4 : (ns) < 100000 ? 5 : \
(ns) < 1000000 ? 6 : (ns) < 10000000 ? 7 : \
(ns) < 100000000 ? 8 : (ns) < 1000000000 ? 9 : 10)
static apr_size_t text_size(const apr_text *t)
{
apr_size_t size = 0;
for (; t; t = t->next)
size += strlen(t->text);
return size;
}
static apr_size_t elem_size(const apr_xml_elem *elem, int style,
apr_array_header_t *namespaces, int *ns_map)
{
apr_size_t size;
if (style == APR_XML_X2T_FULL || style == APR_XML_X2T_FULL_NS_LANG) {
const apr_xml_attr *attr;
size = 0;
if (style == APR_XML_X2T_FULL_NS_LANG) {
int i;
/*
** The outer element will contain xmlns:ns%d="%s" attributes
** and an xml:lang attribute, if applicable.
*/
for (i = namespaces->nelts; i--;) {
/* compute size of: ' xmlns:ns%d="%s"' */
size += (9 + APR_XML_NS_LEN(i) + 2 +
strlen(APR_XML_GET_URI_ITEM(namespaces, i)) + 1);
}
if (elem->lang != NULL) {
/* compute size of: ' xml:lang="%s"' */
size += 11 + strlen(elem->lang) + 1;
}
}
if (elem->ns == APR_XML_NS_NONE) {
/* compute size of: <%s> */
size += 1 + strlen(elem->name) + 1;
}
else {
int ns = ns_map ? ns_map[elem->ns] : elem->ns;
/* compute size of: <ns%d:%s> */
size += 3 + APR_XML_NS_LEN(ns) + 1 + strlen(elem->name) + 1;
}
if (APR_XML_ELEM_IS_EMPTY(elem)) {
/* insert a closing "/" */
size += 1;
}
else {
/*
* two of above plus "/":
* <ns%d:%s> ... </ns%d:%s>
* OR <%s> ... </%s>
*/
size = 2 * size + 1;
}
for (attr = elem->attr; attr; attr = attr->next) {
if (attr->ns == APR_XML_NS_NONE) {
/* compute size of: ' %s="%s"' */
size += 1 + strlen(attr->name) + 2 + strlen(attr->value) + 1;
}
else {
/* compute size of: ' ns%d:%s="%s"' */
int ns = ns_map ? ns_map[attr->ns] : attr->ns;
size += 3 + APR_XML_NS_LEN(ns) + 1 + strlen(attr->name) + 2 + strlen(attr->value) + 1;
}
}
/*
** If the element has an xml:lang value that is *different* from
** its parent, then add the thing in: ' xml:lang="%s"'.
**
** NOTE: we take advantage of the pointer equality established by
** the parsing for "inheriting" the xml:lang values from parents.
*/
if (elem->lang != NULL &&
(elem->parent == NULL || elem->lang != elem->parent->lang)) {
size += 11 + strlen(elem->lang) + 1;
}
}
else if (style == APR_XML_X2T_LANG_INNER) {
/*
* This style prepends the xml:lang value plus a null terminator.
* If a lang value is not present, then we insert a null term.
*/
size = elem->lang ? strlen(elem->lang) + 1 : 1;
}
else
size = 0;
size += text_size(elem->first_cdata.first);
for (elem = elem->first_child; elem; elem = elem->next) {
/* the size of the child element plus the CDATA that follows it */
size += (elem_size(elem, APR_XML_X2T_FULL, NULL, ns_map) +
text_size(elem->following_cdata.first));
}
return size;
}
static char *write_text(char *s, const apr_text *t)
{
for (; t; t = t->next) {
apr_size_t len = strlen(t->text);
memcpy(s, t->text, len);
s += len;
}
return s;
}
static char *write_elem(char *s, const apr_xml_elem *elem, int style,
apr_array_header_t *namespaces, int *ns_map)
{
const apr_xml_elem *child;
apr_size_t len;
int ns;
if (style == APR_XML_X2T_FULL || style == APR_XML_X2T_FULL_NS_LANG) {
int empty = APR_XML_ELEM_IS_EMPTY(elem);
const apr_xml_attr *attr;
if (elem->ns == APR_XML_NS_NONE) {
len = sprintf(s, "<%s", elem->name);
}
else {
ns = ns_map ? ns_map[elem->ns] : elem->ns;
len = sprintf(s, "<ns%d:%s", ns, elem->name);
}
s += len;
for (attr = elem->attr; attr; attr = attr->next) {
if (attr->ns == APR_XML_NS_NONE)
len = sprintf(s, " %s=\"%s\"", attr->name, attr->value);
else {
ns = ns_map ? ns_map[attr->ns] : attr->ns;
len = sprintf(s, " ns%d:%s=\"%s\"", ns, attr->name, attr->value);
}
s += len;
}
/* add the xml:lang value if necessary */
if (elem->lang != NULL &&
(style == APR_XML_X2T_FULL_NS_LANG ||
elem->parent == NULL ||
elem->lang != elem->parent->lang)) {
len = sprintf(s, " xml:lang=\"%s\"", elem->lang);
s += len;
}
/* add namespace definitions, if required */
if (style == APR_XML_X2T_FULL_NS_LANG) {
int i;
for (i = namespaces->nelts; i--;) {
len = sprintf(s, " xmlns:ns%d=\"%s\"", i,
APR_XML_GET_URI_ITEM(namespaces, i));
s += len;
}
}
/* no more to do. close it up and go. */
if (empty) {
*s++ = '/';
*s++ = '>';
return s;
}
/* just close it */
*s++ = '>';
}
else if (style == APR_XML_X2T_LANG_INNER) {
/* prepend the xml:lang value */
if (elem->lang != NULL) {
len = strlen(elem->lang);
memcpy(s, elem->lang, len);
s += len;
}
*s++ = '\0';
}
s = write_text(s, elem->first_cdata.first);
for (child = elem->first_child; child; child = child->next) {
s = write_elem(s, child, APR_XML_X2T_FULL, NULL, ns_map);
s = write_text(s, child->following_cdata.first);
}
if (style == APR_XML_X2T_FULL || style == APR_XML_X2T_FULL_NS_LANG) {
if (elem->ns == APR_XML_NS_NONE) {
len = sprintf(s, "</%s>", elem->name);
}
else {
ns = ns_map ? ns_map[elem->ns] : elem->ns;
len = sprintf(s, "</ns%d:%s>", ns, elem->name);
}
s += len;
}
return s;
}
APU_DECLARE(void) apr_xml_quote_elem(apr_pool_t *p, apr_xml_elem *elem)
{
apr_text *scan_txt;
apr_xml_attr *scan_attr;
apr_xml_elem *scan_elem;
/* convert the element's text */
for (scan_txt = elem->first_cdata.first;
scan_txt != NULL;
scan_txt = scan_txt->next) {
scan_txt->text = apr_xml_quote_string(p, scan_txt->text, 0);
}
for (scan_txt = elem->following_cdata.first;
scan_txt != NULL;
scan_txt = scan_txt->next) {
scan_txt->text = apr_xml_quote_string(p, scan_txt->text, 0);
}
/* convert the attribute values */
for (scan_attr = elem->attr;
scan_attr != NULL;
scan_attr = scan_attr->next) {
scan_attr->value = apr_xml_quote_string(p, scan_attr->value, 1);
}
/* convert the child elements */
for (scan_elem = elem->first_child;
scan_elem != NULL;
scan_elem = scan_elem->next) {
apr_xml_quote_elem(p, scan_elem);
}
}
/* convert an element to a text string */
APU_DECLARE(void) apr_xml_to_text(apr_pool_t * p, const apr_xml_elem *elem,
int style, apr_array_header_t *namespaces,
int *ns_map, const char **pbuf,
apr_size_t *psize)
{
/* get the exact size, plus a null terminator */
apr_size_t size = elem_size(elem, style, namespaces, ns_map) + 1;
char *s = apr_palloc(p, size);
(void) write_elem(s, elem, style, namespaces, ns_map);
s[size - 1] = '\0';
*pbuf = s;
if (psize)
*psize = size;
}
APU_DECLARE(const char *) apr_xml_empty_elem(apr_pool_t * p,
const apr_xml_elem *elem)
{
if (elem->ns == APR_XML_NS_NONE) {
/*
* The prefix (xml...) is already within the prop name, or
* the element simply has no prefix.
*/
return apr_psprintf(p, "<%s/>" DEBUG_CR, elem->name);
}
return apr_psprintf(p, "<ns%d:%s/>" DEBUG_CR, elem->ns, elem->name);
}
/* return the URI's (existing) index, or insert it and return a new index */
APU_DECLARE(int) apr_xml_insert_uri(apr_array_header_t *uri_array,
const char *uri)
{
int i;
const char **pelt;
/* never insert an empty URI; this index is always APR_XML_NS_NONE */
if (*uri == '\0')
return APR_XML_NS_NONE;
for (i = uri_array->nelts; i--;) {
if (strcmp(uri, APR_XML_GET_URI_ITEM(uri_array, i)) == 0)
return i;
}
pelt = apr_array_push(uri_array);
*pelt = uri; /* assume uri is const or in a pool */
return uri_array->nelts - 1;
}
/* convert the element to EBCDIC */
#if APR_CHARSET_EBCDIC
static apr_status_t apr_xml_parser_convert_elem(apr_xml_elem *e,
apr_xlate_t *convset)
{
apr_xml_attr *a;
apr_xml_elem *ec;
apr_text *t;
apr_size_t inbytes_left, outbytes_left;
apr_status_t status;
inbytes_left = outbytes_left = strlen(e->name);
status = apr_xlate_conv_buffer(convset, e->name, &inbytes_left, (char *) e->name, &outbytes_left);
if (status) {
return status;
}
for (t = e->first_cdata.first; t != NULL; t = t->next) {
inbytes_left = outbytes_left = strlen(t->text);
status = apr_xlate_conv_buffer(convset, t->text, &inbytes_left, (char *) t->text, &outbytes_left);
if (status) {
return status;
}
}
for (t = e->following_cdata.first; t != NULL; t = t->next) {
inbytes_left = outbytes_left = strlen(t->text);
status = apr_xlate_conv_buffer(convset, t->text, &inbytes_left, (char *) t->text, &outbytes_left);
if (status) {
return status;
}
}
for (a = e->attr; a != NULL; a = a->next) {
inbytes_left = outbytes_left = strlen(a->name);
status = apr_xlate_conv_buffer(convset, a->name, &inbytes_left, (char *) a->name, &outbytes_left);
if (status) {
return status;
}
inbytes_left = outbytes_left = strlen(a->value);
status = apr_xlate_conv_buffer(convset, a->value, &inbytes_left, (char *) a->value, &outbytes_left);
if (status) {
return status;
}
}
for (ec = e->first_child; ec != NULL; ec = ec->next) {
status = apr_xml_parser_convert_elem(ec, convset);
if (status) {
return status;
}
}
return APR_SUCCESS;
}
/* convert the whole document to EBCDIC */
APU_DECLARE(apr_status_t) apr_xml_parser_convert_doc(apr_pool_t *pool,
apr_xml_doc *pdoc,
apr_xlate_t *convset)
{
apr_status_t status;
/* Don't convert the namespaces: they are constant! */
if (pdoc->namespaces != NULL) {
int i;
apr_array_header_t *namespaces;
namespaces = apr_array_make(pool, pdoc->namespaces->nelts, sizeof(const char *));
if (namespaces == NULL)
return APR_ENOMEM;
for (i = 0; i < pdoc->namespaces->nelts; i++) {
apr_size_t inbytes_left, outbytes_left;
char *ptr = (char *) APR_XML_GET_URI_ITEM(pdoc->namespaces, i);
ptr = apr_pstrdup(pool, ptr);
if ( ptr == NULL)
return APR_ENOMEM;
inbytes_left = outbytes_left = strlen(ptr);
status = apr_xlate_conv_buffer(convset, ptr, &inbytes_left, ptr, &outbytes_left);
if (status) {
return status;
}
apr_xml_insert_uri(namespaces, ptr);
}
pdoc->namespaces = namespaces;
}
return apr_xml_parser_convert_elem(pdoc->root, convset);
}
#endif
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