示例#1
0
char *test_read_input()
{
        FILE *f;

        /* open, read and parse some invalid xml */
        f = fopen("test.invalid.xml", "r");
        mu_assert("read invalid xml", read_input(f) == 0);
        fclose(f);
        mu_assert("parse invalid xml", xml_parse(buf) == XML_STATUS_INVALID);

        /* open, read and parse some valid xml */
        f = fopen("test.xml", "r");
        mu_assert("read valid xml", read_input(f) == 0);
        fclose(f);
        mu_assert("buffer contains request", strncmp(buf,"<request>", 9) == 0);
        mu_assert("parse some valid xml", xml_parse(buf) == XML_STATUS_OK);

        /* fetch value of an element */
        char *value = xml_element("//username");
        mu_assert("perform xpath search for element", value != NULL);
        mu_assert("get value of xml element", strcmp(value, "iamauser") == 0);
        xml_free(value);

        xml_cleanup();

        return 0;
}
示例#2
0
文件: app.c 项目: an0nym0u5/PSL1GHT
void read_xml_file( char *fname )
{
  char tag[MaxStr], contents[MaxStr], tagname[MaxStr], attrname[MaxStr], value[MaxStr];
  float x1, y1, z1, x2, y2, z2, t0, t1;
  int linum=0;
  FILE *infile=0, *outfile=0;

 infile = fopen(fname,"r");    
 if (infile==0) {printf("Error: Cannot open input file '%s'.\n",fname); exit(1);} 
 xml_parse( infile, tag, contents, MaxStr, &linum );
 while (tag[0]!='\0')
  {
   xml_grab_tag_name( tag, tagname, MaxStr );	/* Get tag name. */

   /* Add your application code here to accept tag-name, such as: */
   printf("Tag name = '%s'\n", tagname );

   xml_grab_attrib( tag, attrname, value, MaxStr );	/* Get any attributes within tag. */
   while (value[0] != '\0')
    {
     /* Add application code here to accept attribute attrname and value, such as: */
     printf(" Attribute: %s = '%s'\n", attrname, value );

     xml_grab_attrib( tag, attrname, value, MaxStr );	/* Get next attribute, if any. */
    }

   /* Add application code here to accept contents between tags, such as: */
   printf(" Contents = '%s'\n", contents );

   xml_parse( infile, tag, contents, MaxStr, &linum );	/* Get next tag, if any. */
  }
 fclose(infile);
}
示例#3
0
/** \brief Parse a soap reply
 */
upnp_err_t upnp_call_t::parse_soap_rep(const datum_t &xml_datum, strvar_db_t &strvar_db)	const throw()
{
	// log to debug
	KLOG_DBG("enter xml_datum=" << xml_datum.to_stdstring());
	// set the document to parse
	xml_parse_doc_t	xml_parse_doc;
	xml_parse_doc.set_document(xml_datum);
	// if it is impossible to parse the xml, return an error
	if( xml_parse_doc.is_null() ){
		KLOG_ERR("unable to parse the xml in " << xml_datum);
		return upnp_err_t(upnp_err_t::ERROR, "unable to parse the xml");
	}

	// init the xml_parse_t on this document
	xml_parse_t	xml_parse(&xml_parse_doc);
	// go inside the "Body"
	try {
		xml_parse.goto_children().goto_firstsib("Body").goto_children();
	}catch(xml_except_t &e){
		KLOG_ERR("unable to parse the xml 'subbody' due to " << e.what() << " in " << xml_datum);
		return upnp_err_t(upnp_err_t::ERROR, "unable to parse the xml 'subbody' due to " + e.what());
	}

	// if this is a SOAP_FAULT, goto the fault parser
	if( xml_parse.has_firstsib("Fault") )
		return parse_soap_rep_fault(xml_datum, xml_parse, strvar_db);
	
	// else goto the success parser
	return parse_soap_rep_success(xml_datum, xml_parse, strvar_db);
}
示例#4
0
void
xmlrpc_parse_response2(xmlrpc_env *    const envP,
                       const char *    const xmlData,
                       size_t          const xmlDataLen,
                       xmlrpc_value ** const resultPP,
                       int *           const faultCodeP,
                       const char **   const faultStringP) {
/*----------------------------------------------------------------------------
  Given some XML text, attempt to parse it as an XML-RPC response.

  If the response is a regular, valid response, return a new reference
  to the appropriate value as *resultP and return NULL as
  *faultStringP and nothing as *faultCodeP.

  If the response is valid, but indicates a failure of the RPC, return the
  fault string in newly malloc'ed space as *faultStringP and the fault
  code as *faultCodeP and nothing as *resultP.

  If the XML text is not a valid response or something prevents us from
  parsing it, return a description of the error as *envP and nothing else.
-----------------------------------------------------------------------------*/
    xml_element * response;

    XMLRPC_ASSERT_ENV_OK(envP);
    XMLRPC_ASSERT(xmlData != NULL);

    /* SECURITY: Last-ditch attempt to make sure our content length is legal.
    ** XXX - This check occurs too late to prevent an attacker from creating
    ** an enormous memory block, so you should try to enforce it
    ** *before* reading any data off the network. */
    if (xmlDataLen > xmlrpc_limit_get(XMLRPC_XML_SIZE_LIMIT_ID))
        xmlrpc_env_set_fault_formatted(
            envP, XMLRPC_LIMIT_EXCEEDED_ERROR,
            "XML-RPC response too large.  Our limit is %u characters.  "
            "We got %u characters",
            xmlrpc_limit_get(XMLRPC_XML_SIZE_LIMIT_ID), xmlDataLen);
    else {
        xmlrpc_env env;
        xmlrpc_env_init(&env);

        xml_parse(&env, xmlData, xmlDataLen, &response);

        if (env.fault_occurred)
            setParseFault(envP, "Not valid XML.  %s", env.fault_string);
        else {
            /* Pick apart and verify our structure. */
            if (xmlrpc_streq(xml_element_name(response), "methodResponse")) {
                parseMethodResponseElt(envP, response,
                                       resultPP, faultCodeP, faultStringP);
            } else
                setParseFault(envP, "XML-RPC response must consist of a "
                              "<methodResponse> element.  "
                              "This has a <%s> instead.",
                              xml_element_name(response));
            
            xml_element_free(response);
        }
        xmlrpc_env_clean(&env);
    }
}
示例#5
0
        void xml_parse_generic_container(
            ContainerT <T, L...>& value,
            NodeName const& name,
            PropertyTree const& object,
            XmlParseOptions options = {},
            typename std::enable_if <
                    has_random_access_iterator <ContainerT, L...>::value
                ||  has_bidirectional_iterator <ContainerT, L...>::value
                ||  has_forward_iterator <ContainerT, L...>::value
            >::type* = nullptr)
        {
            try
            {
                if (!options.stateMixing)
                    value.clear();

                auto parent = name.parent();
                SXML_GET_CHILD(parent, pt, {});

                auto range = pt.equal_range(name.getName());
                for (auto i = range.first; i != range.second; ++i)
                {
                    T temp;
                    xml_parse(temp, "", i->second, options);
                    emplacer<ContainerT<T, L...>>::emplace(value, std::move(temp));
                }
            }
            SXML_DEFAULT_CATCH({}, {})
        }
    }
}
示例#6
0
static void
parseCallXml(xmlrpc_env *   const envP,
             const char *   const xmlData,
             size_t         const xmlDataLen,
             xml_element ** const callElemPP) {
/*----------------------------------------------------------------------------
   Parse the XML of an XML-RPC call.
-----------------------------------------------------------------------------*/
    xml_element * callElemP;
    xmlrpc_env env;

    xmlrpc_env_init(&env);
    xml_parse(&env, xmlData, xmlDataLen, &callElemP);
    if (env.fault_occurred)
        xmlrpc_env_set_fault_formatted(
            envP, env.fault_code, "Call is not valid XML.  %s",
            env.fault_string);
    else {
        if (!xmlrpc_streq(xml_element_name(callElemP), "methodCall"))
            setParseFault(envP,
                          "XML-RPC call should be a <methodCall> element.  "
                          "Instead, we have a <%s> element.",
                          xml_element_name(callElemP));

        if (envP->fault_occurred)
            xml_element_free(callElemP);
    }
    *callElemPP = callElemP;

    xmlrpc_env_clean(&env);
}
示例#7
0
int main( int argc, char **argv )
{
	FILE *fp = 0;
	if( argc < 2 )
	{
		fprintf( stderr, "Usage : %s filename.\n", argv[0] );
		exit( -1 );
	}
	fp = fopen( argv[1], "r" );
	if( fp == 0 )
	{
		fprintf( stderr, "Unable to open %s.\n", argv[1] );
		exit( -1 );
	}

	{
		struct xmlDocument *doc = xmldoc_new( fp );
		xml_seterrorfn( error_log );
		xml_parse( doc );
		dump_node( doc->root );
		xmldoc_free( doc );
	}
	fclose( fp );

	return 0;
}
示例#8
0
/* we add another function:
 *        XmlNode *xml_load_buffer(const char *buffer) to fit our need. */
XmlNode* xml_load_buffer(const char * buffer, unsigned int buffer_len)
{
	struct XMLBUF xml;
	XmlNode *ret = NULL;

	xml.error = 0;
	xml.eof = 1;
	xml.read_index = 0;
	xml.fptr = NULL;

	xml.buf = (char *)malloc(sizeof(char) * buffer_len + 1);
	if(!xml.buf)
		goto xml_load_fail_malloc_buf;
	memset(xml.buf, 0, buffer_len + 1);

	xml.len = buffer_len;

	memcpy(xml.buf, buffer, buffer_len);

	ret = xml_parse(&xml);

	if(xml.error)
	{
		xml_free(ret);
		ret = NULL;
	}

	free(xml.buf);
xml_load_fail_malloc_buf:
	return ret;
}
示例#9
0
文件: ttxml.c 项目: atbrox/ccan
/* bootstrap the structures for xml_parse() to be able to get started */
XmlNode* xml_load(const char * filename)
{
	struct XMLBUF xml;
	XmlNode *ret = NULL;

//	printf("xml_load(\"%s\");\n", filename);

	xml.error = 0;
	xml.eof = 0;
	xml.read_index = 0;
	xml.fptr = fopen(filename, "rb");
	if(!xml.fptr)
		return NULL;

	xml.buf = malloc(BUFFER+1);
	if(!xml.buf)
		goto xml_load_fail_malloc_buf;
	xml.buf[BUFFER]=0;
	xml.len = BUFFER;
	
	xml_read_file(&xml);

	ret = xml_parse(&xml);

	if(xml.error)
	{
		xml_free(ret);
		ret = NULL;
	}

	free(xml.buf);
xml_load_fail_malloc_buf:
	fclose(xml.fptr);
	return ret;
}
示例#10
0
文件: xparse.c 项目: NearZhxiAo/3730
int xml_validate(request *req, char *xstr, int len)
{
	int rval;
	tag_t *parent = NULL;

	rval = xml_parse(req, parent, xstr, len);
	return rval;
}
示例#11
0
        typename std::enable_if <!isAttribute<U>::value && !isContent<U>::value && !isInline<U>::value>::type
        memberTypeDependendParser(U& value, bool attributeRun, NodeName const& name, PropertyTree const& object, XmlParseOptions const& options)
        {
            if (attributeRun)
                return;

            xml_parse(value, name, object, options);
        }
示例#12
0
int main (int argc, char **argv)
{
  XML *xml;
  QUEUE *q;
  QUEUEROW *r;
  MIME *m;
  char *ch;
  int arg = 1;

  xml = xml_parse (PhineasConfig);
  loadpath (cfg_installdir (xml));
  queue_init (xml);

  /* test folder polling */
  if ((argc > arg) && (strcmp (argv[arg], "-f") == 0))
  {
    fpoller_register ("ebxml", ebxml_fprocessor);
    fpoller_task (xml);
    arg++;
    ran = 0;
  }
  /* test message from queue */
  if ((argc > arg) && (strcmp (argv[arg], "-m") == 0))
  {
    if ((q = queue_find ("MemSendQ")) == NULL)
      error ("can't find MemSendQ");
    else if ((r = queue_pop (q)) == NULL)
      error ("can't pop row\n");
    /*
    else if ((m = ebxml_getsoap (xml, r)) == NULL)
      error ("can't get soap container\n");
    */
    else if ((m = ebxml_getmessage (xml, r)) == NULL)
      error ("can't get message\n");
    else if ((ch = mime_format (m)) == NULL)
      error ("Can't format soap containter\n");
    else
      debug ("message MIME\n%s\n", ch);
    free (ch);
    mime_free (m);
    queue_row_free (r);
    arg++;
  }
  /* test queue polling */
  if ((argc > arg) && (strcmp (argv[arg], "-q") == 0))
  {
    qpoller_register ("EbXmlSndQ", ebxml_qprocessor);
    qpoller_task (xml);
    arg++;
    ran = 0;
  }
  queue_shutdown ();
  xml_free (xml);
  info ("%s %s\n", argv[0], Errors ? "failed" : "passed");
  exit (Errors);
}
示例#13
0
static gchar *
update_apply_xslt (updateJobPtr job)
{
	xsltStylesheetPtr	xslt = NULL;
	xmlOutputBufferPtr	buf;
	xmlDocPtr		srcDoc = NULL, resDoc = NULL;
	gchar			*output = NULL;

	g_assert (NULL != job->result);
	
	do {
		srcDoc = xml_parse (job->result->data, job->result->size, NULL);
		if (!srcDoc) {
			g_warning("fatal: parsing request result XML source failed (%s)!", job->request->filtercmd);
			break;
		}

		/* load localization stylesheet */
		xslt = xsltParseStylesheetFile (job->request->filtercmd);
		if (!xslt) {
			g_warning ("fatal: could not load filter stylesheet \"%s\"!", job->request->filtercmd);
			break;
		}

		resDoc = xsltApplyStylesheet (xslt, srcDoc, NULL);
		if (!resDoc) {
			g_warning ("fatal: applying stylesheet \"%s\" failed!", job->request->filtercmd);
			break;
		}

		buf = xmlAllocOutputBuffer (NULL);
		if (-1 == xsltSaveResultTo (buf, resDoc, xslt)) {
			g_warning ("fatal: retrieving result of filter stylesheet failed (%s)!", job->request->filtercmd);
			break;
		}
		
#ifdef LIBXML2_NEW_BUFFER
		if (xmlOutputBufferGetSize (buf) > 0)
			output = xmlCharStrdup (xmlOutputBufferGetContent (buf));
#else
		if (xmlBufferLength (buf->buffer) > 0)
			output = xmlCharStrdup (xmlBufferContent (buf->buffer));
#endif
 
		xmlOutputBufferClose (buf);
	} while (FALSE);

	if (srcDoc)
		xmlFreeDoc (srcDoc);
	if (resDoc)
		xmlFreeDoc (resDoc);
	if (xslt)
		xsltFreeStylesheet (xslt);
	
	return output;
}
示例#14
0
static void test_expat (void)
{
    xmlrpc_env env;
    xml_element *elem, *array, *data, *value1, *i4;
    char *cdata;
    size_t size;

    xmlrpc_env_init(&env);

    /* Parse a moderately complex XML document. */
    xml_parse(&env, expat_data, strlen(expat_data), &elem);
    TEST_NO_FAULT(&env);
    TEST(elem != NULL);

    /* Verify our results. */
    TEST(streq(xml_element_name(elem), "value"));
    TEST(xml_element_children_size(elem) == 1);
    array = xml_element_children(elem)[0];
    TEST(streq(xml_element_name(array), "array"));
    TEST(xml_element_children_size(array) == 1);
    data = xml_element_children(array)[0];
    TEST(streq(xml_element_name(data), "data"));
    TEST(xml_element_children_size(data) > 1);
    value1 = xml_element_children(data)[0];
    TEST(streq(xml_element_name(value1), "value"));
    TEST(xml_element_children_size(value1) == 1);
    i4 = xml_element_children(value1)[0];
    TEST(streq(xml_element_name(i4), "i4"));
    TEST(xml_element_children_size(i4) == 0);
    cdata = xml_element_cdata(i4);
    size = xml_element_cdata_size(i4);
    TEST(size == strlen("2147483647"));
    TEST(memcmp(cdata, "2147483647", strlen("2147483647")) == 0);

    /* Test cleanup code (w/memprof). */
    xml_element_free(elem);

    /* Test broken XML */
    xml_parse(&env, expat_error_data, strlen(expat_error_data), &elem);
    TEST(env.fault_occurred);

    xmlrpc_env_clean(&env);
}
示例#15
0
文件: x2sconf.c 项目: ricann/xml2sql
/******************************************************************************
 * *Function: conf_init
 * *Description: open and parse xml config file
 * *Input: none
 * *Output: none
 * *Return: CONF_SUCCESS/CONF_FAIL
 * *Date: 2016/8/22
 * ****************************************************************************/
int conf_init()
{
	if(xml_open(CONF_FNAME) == PARSE_FAIL)
		return CONF_FAIL;

	if(xml_parse() == PARSE_FAIL)
		return CONF_FAIL;
	
	return CONF_SUCCESS;
}
示例#16
0
VMINT vm_xml_parse(
	VM_XML_PARSER_STRUCT *parser,
	const VMCHAR *xmlsource,
	VMINT length)
{
	int ret = VM_XML_RESULT_FAIL;

	ret = xml_new_parser(&mtk_xml_parser);

	if (XML_RESULT_OK != ret)
	{
		MMI_TRACE(MMI_MRE_TRC_ERROR, TRC_MRE_VMXML_336 , ret);
		xml_close_parser(&mtk_xml_parser);
		return -1;
	}
	
	xml_configure_memory(&mtk_xml_parser, vm_malloc, vm_free);

		
    xml_register_doctype_handler(
	   	&mtk_xml_parser, 
	   	parser->start_doctype_hdlr, 
	   	parser->end_doctype_hdlr);
	   
    xml_register_element_handler(
	   	&mtk_xml_parser, 
	   	parser->start_elem_hdlr, 
	   	parser->end_elem_hdlr);
	   
    xml_register_data_handler(
	   	&mtk_xml_parser, 
	   	parser->data_hdlr);
	   
	if(0 == length)
	{
		ret = xml_parse(&mtk_xml_parser, (VMUWSTR)vm_ucs2_string_by_ascii((VMSTR)xmlsource));
	}
	else
	{
		ret = xml_parse_buffer(&mtk_xml_parser, xmlsource, length);
	}

	xml_close_parser(&mtk_xml_parser);

	if (XML_RESULT_OK!= ret)
	{
 		return -1;
	}

	return VM_XML_RESULT_OK;
}
示例#17
0
int main (int argc, char **argv)
{
  XML *xml;
  char *ch;

  xml = xml_parse (PhineasConfig);
  queue_register ("FileQueue", fileq_connect);
  queue_init (xml);
  debug ("begin registration...\n");
  qpoller_register ("EbXmlSndQ", test_qprocessor);
  qpoller_task (xml);
  xml_free (xml);
  info ("%s unit test completed\n", argv[0]);
}
示例#18
0
文件: medin.c 项目: wilx/hs-bibutils
static int
medin_processf( fields *medin, char *data, char *filename, long nref, param *p )
{
	int status;
	xml top;

	xml_init( &top );
	xml_parse( data, &top );
	status = medin_assembleref( &top, medin );
	xml_free( &top );

	if ( status==BIBL_OK ) return 1;
	return 0;
}
示例#19
0
static void
test_parse_xml_call(void) {

    xmlrpc_env env;
    const char *method_name;
    xmlrpc_value *params;
    int i1, i2;
    const char **bad_call;
    xml_element *elem;

    xmlrpc_env_init(&env);

    /* Parse a valid call. */
    xmlrpc_parse_call(&env, serialized_call, strlen(serialized_call),
                      &method_name, &params);
    TEST_NO_FAULT(&env);
    TEST(params != NULL);
    xmlrpc_decompose_value(&env, params, "(ii)", &i1, &i2);
    xmlrpc_DECREF(params);    
    TEST_NO_FAULT(&env);
    TEST(streq(method_name, "gloom&doom"));
    TEST(i1 == 10 && i2 == 20);
    strfree(method_name);

    /* Test some poorly-formed XML data. */
    xmlrpc_parse_call(&env, unparseable_value, strlen(unparseable_value),
                      &method_name, &params);
    TEST_FAULT(&env, XMLRPC_PARSE_ERROR);
    TEST(method_name == NULL && params == NULL);

    /* Next, check for bogus values. These are all well-formed XML, but
       they aren't legal XML-RPC.
    */
    for (bad_call = bad_calls; *bad_call != NULL; ++bad_call) {
    
        /* First, check to make sure that our test case is well-formed XML.
        ** (It's easy to make mistakes when writing the test cases!) */
        xml_parse(&env, *bad_call, strlen(*bad_call), &elem);
        TEST_NO_FAULT(&env);
        xml_element_free(elem);

        /* Now, make sure the higher-level routine barfs appropriately. */
        xmlrpc_parse_call(&env, *bad_call, strlen(*bad_call),
                          &method_name, &params);
        TEST_FAULT(&env, XMLRPC_PARSE_ERROR);
        TEST(method_name == NULL && params == NULL);
    }
    xmlrpc_env_clean(&env);    
}
示例#20
0
void
xmlrpc_parse_value_xml(xmlrpc_env *    const envP,
                       const char *    const xmlData,
                       size_t          const xmlDataLen,
                       xmlrpc_value ** const valuePP) {
/*----------------------------------------------------------------------------
   Compute the xmlrpc_value represented by the XML document 'xmlData' (of
   length 'xmlDataLen' characters), which must consist of a single <value>
   element.  Return that xmlrpc_value.

   We call convert_array() and convert_struct(), which may ultimately
   call us recursively.  Don't recurse any more than 'maxRecursion'
   times.

   This isn't generally useful in XML-RPC programs, because such programs
   parse a whole XML-RPC call or response document, and never see the XML text
   of just a <value> element.  But a program may do some weird form of XML-RPC
   processing or just borrow Xmlrpc-c's value serialization facilities for
   something unrelated to XML-RPC.  In any case, it makes sense to have an
   inverse of xmlrpc_serialize_value2(), which generates XML text from an
   xmlrpc_value.
-----------------------------------------------------------------------------*/
    xmlrpc_env env;

    xml_element * valueEltP;

    XMLRPC_ASSERT_ENV_OK(envP);
    XMLRPC_ASSERT(xmlData != NULL);

    xmlrpc_env_init(&env);

    xml_parse(&env, xmlData, xmlDataLen, &valueEltP);

    if (env.fault_occurred) {
        setParseFault(envP, "Not valid XML.  %s", env.fault_string);
    } else {
        if (xmlrpc_streq(xml_element_name(valueEltP), "value")) {
            unsigned int const maxRecursion = (unsigned int)
                xmlrpc_limit_get(XMLRPC_NESTING_LIMIT_ID);
            xmlrpc_parseValue(envP, maxRecursion, valueEltP, valuePP);
        } else
            setParseFault(envP, "XML-RPC value XML document must consist of "
                          "a <value> element.  This has a <%s> instead.",
                          xml_element_name(valueEltP));
        xml_element_free(valueEltP);
    }
    xmlrpc_env_clean(&env);
}
示例#21
0
int main(int argc,char *argv[])
  {
  FILE *f=fopen(argv[1],"r");

  // Parse XML file
  struct foo *b=(struct foo *)xml_parse(f,"root",&myschema,metafind(&myschema, "foo"),1);
  struct item *i;

  // Access values in foo
  printf("root->val = %d\n",b->val);
  printf("root->val_name = %s\n",b->val_name);
  printf("root->items->val = %d\n",b->items->val);
  printf("root->items->next->val = %d\n",b->items->next->val);
  printf("root->items->next->next->val = %d\n",b->items->next->next->val);

  // Print in various formats
  xml_print(stdout,"root",0,(struct base *)b);

  lisp_print(stdout,"root",0,(struct base *)b);

  lisp_print_untagged(stdout,"root",0,(struct base *)b);

  indent_print(stdout,"root",0,(struct base *)b);

  indent_print_untagged(stdout,"root",0,(struct base *)b);

  json_print(stdout,NULL,0,(struct base *)b,0);

  // Create a database within C
  b=mk(&myschema, "foo");
  b->val=10;
  b->val_name=strdup("Hello");

  // Build list
  i=b->items=mk(&myschema, "item");
  i->val=7;
  i=i->next=mk(&myschema, "item");
  i->val=8;
  i=i->next=mk(&myschema, "item");
  i->val=9;

  // Print it
  xml_print(stdout,"root",0,(struct base *)b);

  return 0;
  }
示例#22
0
文件: cfg.c 项目: tdunnick/phineas
/*
 * load a configuration, decrypting it if credentials found
 */
XML *cfg_load (char *path)
{
  XML *xml;
  
  cfg_clean (path);
  if ((xml = xml_load (path)) == NULL)
    return (NULL);
  if (strcmp (xml_root (xml), "Phineas"))
  {
    unsigned char *p;
    xcrypt_decrypt (xml, &p, ConfigCert, NULL, ConfigPass);
    xml_free (xml);
    xml = xml_parse (p);
    free (p);
  }
  return (xml);
}
示例#23
0
static void
google_subscription_opml_cb (subscriptionPtr subscription, const struct updateResult * const result, updateFlags flags)
{
	AolSourcePtr	gsource = (AolSourcePtr) subscription->node->data;

	subscription->updateJob = NULL;
	
	if (result->data) {
		xmlDocPtr doc = xml_parse (result->data, result->size, NULL);
		if(doc) {		
			xmlNodePtr root = xmlDocGetRootElement (doc);
			
			/* Go through all existing nodes and remove those whose
			   URLs are not in new feed list. Also removes those URLs
			   from the list that have corresponding existing nodes. */
			node_foreach_child_data (subscription->node, aol_source_check_for_removal, (gpointer)root);
			node_foreach_child (subscription->node, aol_source_migrate_node);
						
			opml_source_export (subscription->node);	/* save new feed list tree to disk 
									   to ensure correct document in 
									   next step */

			xpath_foreach_match (root, "/object/list[@name='subscriptions']/object",
			                     aol_source_merge_feed,
			                     (gpointer)gsource);

			opml_source_export (subscription->node);	/* save new feeds to feed list */
						   
			subscription->node->available = TRUE;
			xmlFreeDoc (doc);
		} else { 
			/** @todo The session seems to have expired */
			g_warning ("Unable to parse OPML list from google, the session might have expired.\n");
		}
	} else {
		subscription->node->available = FALSE;
		debug0 (DEBUG_UPDATE, "google_subscription_opml_cb(): ERROR: failed to get subscription list!\n");
	}

	if (!(flags & NODE_SOURCE_UPDATE_ONLY_LIST))
		node_foreach_child_data (subscription->node, node_update_subscription, GUINT_TO_POINTER (0));

}
示例#24
0
static void
testParseBadResult(void) {
/*----------------------------------------------------------------------------
   Test parsing of data that is supposed to be a response, but is not
   valid.  It looks like a valid success response, but the result value
   is not valid XML-RPC.
-----------------------------------------------------------------------------*/
    unsigned int i;

    for (i = 0; bad_values[i] != NULL; ++i) {
        const char * const bad_resp = bad_values[i];
        xmlrpc_env env;
        xmlrpc_value * valueP;
        xml_element *elem;
        int faultCode;
        const char * faultString;
    
        xmlrpc_env_init(&env);

        /* First, check to make sure that our test case is well-formed XML.
        ** (It's easy to make mistakes when writing the test cases!) */
        xml_parse(&env, bad_resp, strlen(bad_resp), &elem);
        TEST_NO_FAULT(&env);
        xml_element_free(elem);
    
        /* Now, make sure the higher-level routine barfs appropriately. */
        
        xmlrpc_parse_response2(&env, bad_resp, strlen(bad_resp),
                               &valueP, &faultCode, &faultString);

        TEST_FAULT(&env, XMLRPC_PARSE_ERROR);
        xmlrpc_env_clean(&env);

        xmlrpc_env_init(&env);

        /* And again with the old interface */

        valueP = xmlrpc_parse_response(&env, bad_resp, strlen(bad_resp));
        TEST_FAULT(&env, XMLRPC_PARSE_ERROR);
        TEST(valueP == NULL);
        xmlrpc_env_clean(&env);
    }
}
示例#25
0
static void theme_add_theme(char *xmlfile, option_t *option) {
	state s;

	s.option = option;
	s.theme = NULL;

	if (xml_parse(xmlfile, "theme", theme_data_cb, theme_open_cb, theme_close_cb, &s))
		DBG_ERROR("Error loading theme file '%s'", xmlfile);

	if (s.theme) {
		free(s.theme->name);
		free(s.theme->style);
		free(s.theme->pieces);
		free(s.theme->board);
		free(s.theme->white_name);
		free(s.theme->black_name);
		free(s.theme);
	}
}
示例#26
0
void test_parse()
{
    char *xml = "<Body UnitCode=\"场所编码\" Code=\"结果代码\" Description=\"结果附加说明\">"
        "<Table Name=\"记录集名称\" Method=\"处理动作\" Range=\"数据范围\" CmdNo=\"命令号\" Description=\"附加说明\">"
        "<Item item1=\"值1\" item2=\"值2\" />"
        "</Table></Body>";  
    xml_body_ptr body = NULL;

    printf("\n*** test_parse ***\n");

    printf("XML: %s\n", xml);
    
    /* parse to body */
    body = xml_parse(xml);

    test_print(body);
    
    /* clean body */
    xml_body_clean(body);
}
示例#27
0
int xml_validate(request *req, char *xstr, int len)
{
	int rval;
	tag_t *parent = NULL;
	//int i;
	//char *ch;

	if(xstr == NULL)
		return -1;

	//ch = xstr;
	//fprintf(stderr,"\r\nInside xml_validate with len:%d & input string: \n",len);
	//for (i=0; i<len ;i++)
	//{
	//	fprintf(stderr,"%c",*ch++);
	//}

	rval = xml_parse(req, parent, xstr, len);
	return rval;
}
示例#28
0
/******************************************************************************
 **函数名称: xml_screat
 **功    能: 将XML字串转为XML树
 **输入参数:
 **     str: XML字串
 **     len: 字串长度限制(-1:表示遇到\0结束)
 **     opt: 选项信息
 **输出参数:
 **返    回: XML树
 **实现描述: 
 **     1. 初始化栈
 **     2. 初始化xml树
 **     3. 在内存中将文件解析为XML树
 **注意事项: 
 **作    者: # Qifeng.zou # 2013.02.05 #
 ******************************************************************************/
xml_tree_t *xml_screat(const char *str, size_t len, xml_opt_t *opt)
{
    Stack_t stack;
    xml_tree_t *xml;

    if ((NULL == str) || ('\0' == str[0])) {
        return xml_creat_empty(opt);
    }
    
    do {
        /* 1. 初始化栈 */
        if (stack_init(&stack, XML_MAX_DEPTH)) {
            log_error(opt->log, "Init xml stack failed!");
            break;
        }

        /* 2. 初始化XML树 */
        xml = xml_init(opt); 
        if (NULL == xml) {   
            log_error(opt->log, "Init xml tree failed!");
            break;
        }

        /* 3. 解析XML文件缓存 */
        if (xml_parse(xml, &stack, str, len)) {
            log_error(xml->log, "Parse xml failed!");
            xml_destroy(xml);
            break;
        }

        stack_destroy(&stack);
        return xml;
    } while(0);

    /* 4. 释放内存空间 */
    stack_destroy(&stack);
    
    return NULL;
}
示例#29
0
/*****************************************************************************
 * FUNCTION
 *  mmi_dcd_get_attr_from_sl
 * DESCRIPTION
 *  this function is used to get tagname by token 
 * PARAMETERS
 *  filename        [IN]        File name of wap push sl
 *  url             [IN]        [out]       buf to save url
 *  action          [IN]        [out]       buf to save action
 * RETURNS
 *  if < 0: failed
 *****************************************************************************/
int mmi_dcd_get_attr_from_sl(const kal_wchar  * filename, 
						   kal_char ** url,  kal_char ** action)
{
    /*----------------------------------------------------------------*/
    /* Local Variables                                                */
    /*----------------------------------------------------------------*/
	XML_PARSER_STRUCT parser;

    /*----------------------------------------------------------------*/
    /* Code Body                                                      */
    /*----------------------------------------------------------------*/
    g_sl_url_p = NULL;
    g_sl_action_p = NULL;

	xml_new_parser (&parser);

    /* xml_configure_memory (&parser, get_ctrl_buffer, free_ctrl_buffer); */

    xml_register_element_handler(&parser, dcd_xml_start_elem_hdlr, dcd_xml_end_elem_hdlr);

	xml_register_data_handler(&parser, dcd_xml_data_hdlr);

	xml_parse(&parser, (kal_wchar*)filename);

	xml_close_parser(&parser);

    if (url)
    {
	    *url = g_sl_url_p;
    }
    if (action)
    {
	    *action = g_sl_action_p;
    }
    /* no need to free, caller will free it */

	return 1;
}
static void
inoreader_source_opml_quick_update_cb (const struct updateResult* const result, gpointer userdata, updateFlags flags) 
{
	InoreaderSourcePtr gsource = (InoreaderSourcePtr) userdata;
	xmlDocPtr       doc;

	if (!result->data) { 
		/* what do I do? */
		debug0 (DEBUG_UPDATE, "InoreaderSource: Unable to get unread counts, this update is aborted.");
		return;
	}
	doc = xml_parse (result->data, result->size, NULL);
	if (!doc) {
		debug0 (DEBUG_UPDATE, "InoreaderSource: The XML failed to parse, maybe the session has expired. (FIXME)");
		return;
	}

	xpath_foreach_match (xmlDocGetRootElement (doc),
			    "/object/list[@name='unreadcounts']/object", 
			    inoreader_source_opml_quick_update_helper, gsource);
	
	xmlFreeDoc (doc);
}