kdbtools.c

/**
 * @file
 *
 * @brief
 *
 * @copyright BSD License (see LICENSE.md or https://www.libelektra.org)
 */

#include <errno.h>
#include <string.h>
#include <unistd.h>

#include <libxml/xmlreader.h>
#include <libxml/xmlschemas.h>

#include "kdbtools.h"
#include <kdbinternal.h>

/*
 * Processes the current <key> node from reader, converting from XML
 * to a Key object, and ksAppendKey() it to ks.
 *
 * See keyToStream() for an example of a <key> node.
 *
 * This function is completely dependent on libxml.
 *
 * @param ks where to put the resulting read key
 * @param context a parent key name, so a full name can be calculated
 *        if the XML node for the current key only provides a basename
 * @param reader where to read from
 */
static int consumeKeyNode (KeySet * ks, const char * context, xmlTextReaderPtr reader)
{
	/* printf("%s", KDB_SCHEMA_PATH); */

	xmlChar * keyNodeName = xmlTextReaderName (reader);
	if (!strcmp ((char *) keyNodeName, "key"))
	{
		xmlChar * privateContext = 0;
		int appended = 0;
		int isbin = 0;
		int end = 0;

		Key * newKey = keyNew ("/", KEY_END);

		/* a <key> must have one of the following:
		   - a "name" attribute, used as an absolute name overriding the context
		   - a "basename" attribute, that will be appended to the current context
		   - a "parent" plus "basename" attributes, both appended to current context
		   - only a "parent", appended to current context
		*/
		xmlChar * buffer = xmlTextReaderGetAttribute (reader, (const xmlChar *) "name");
		if (buffer)
		{
			/* set absolute name */
			keySetName (newKey, (char *) buffer);
			xmlFree (buffer);
			buffer = 0;
		}
		else
		{
			/* logic for relative name calculation */

			privateContext = xmlTextReaderGetAttribute (reader, (const xmlChar *) "parent");
			buffer = xmlTextReaderGetAttribute (reader, (const xmlChar *) "basename");

			if (context) keySetName (newKey, context);
			if (privateContext) keyAddName (newKey, (char *) privateContext);
			if (buffer) keyAddName (newKey, (char *) buffer);

			xmlFree (privateContext);
			privateContext = 0;
			xmlFree (buffer);
			buffer = 0;
		}


		/* test for a short value attribute, instead of <value> below */
		buffer = xmlTextReaderGetAttribute (reader, (const xmlChar *) "value");
		if (buffer)
		{
			keySetRaw (newKey, buffer, elektraStrLen ((char *) buffer));
			xmlFree (buffer);
			buffer = 0;
		}

		if (xmlTextReaderIsEmptyElement (reader))
		{
			/* we have a <key ..../> element */
			if (newKey && !appended)
			{
				ksAppendKey (ks, newKey);
				appended = 1;
				end = 1;
			}
		}

		buffer = xmlTextReaderGetAttribute (reader, (const xmlChar *) "type");
		if (buffer)
		{
			if (!strcmp ((char *) buffer, "binary"))
				isbin = 1;
			else if (!strcmp ((char *) buffer, "bin"))
				isbin = 1;
		}
		xmlFree (buffer);

		if (isbin) keySetMeta (newKey, "binary", "");

		// TODO: should parse arbitrary attributes as metadata

		/* Parse everything else */
		while (!end)
		{
			xmlTextReaderRead (reader);
			xmlChar * nodeName = xmlTextReaderName (reader);

			if (!strcmp ((char *) nodeName, "value"))
			{
				if (xmlTextReaderIsEmptyElement (reader) || xmlTextReaderNodeType (reader) == 15)
				{
					xmlFree (nodeName);
					continue;
				}

				xmlTextReaderRead (reader);
				buffer = xmlTextReaderValue (reader);

				if (buffer)
				{
					/* Key's value type was already set above */
					if (keyIsBinary (newKey))
					{
						/* TODO binary values
						char *unencoded=0;
						size_t unencodedSize;

						unencodedSize=elektraStrLen((char *)buffer)/2;
						unencoded=elektraMalloc(unencodedSize);
						unencodedSize=kdbbDecode((char *)buffer,unencoded);
						if (!unencodedSize) return -1;
							keySetRaw(newKey,unencoded,unencodedSize);
						elektraFree (unencoded);
						*/
					}
					else
						keySetRaw (newKey, buffer, elektraStrLen ((char *) buffer));
				}
				xmlFree (buffer);
			}
			else if (!strcmp ((char *) nodeName, "comment"))
			{
				ssize_t commentSize = 0;

				if (xmlTextReaderIsEmptyElement (reader) || xmlTextReaderNodeType (reader) == 15)
				{
					xmlFree (nodeName);
					continue;
				}

				xmlTextReaderRead (reader);
				buffer = xmlTextReaderValue (reader);

				if ((commentSize = keyGetCommentSize (newKey)) > 1)
				{
					/*Multiple line comment*/
					char * tmpComment = 0;
					tmpComment = elektraMalloc (commentSize + xmlStrlen (buffer) * sizeof (xmlChar) + 1);

					if (tmpComment)
					{
						keyGetComment (newKey, tmpComment, commentSize);

						strcat (tmpComment, "\n");
						strcat (tmpComment, (char *) buffer);

						keySetComment (newKey, tmpComment);

						elektraFree (tmpComment);
						tmpComment = 0;
					}
				}
				else
					keySetComment (newKey, (char *) buffer);
				xmlFree (buffer);
			}
			else if (!strcmp ((char *) nodeName, "key"))
			{
				/* Here we found </key> or a sub <key>.
				   So include current key in the KeySet. */
				if (newKey && !appended)
				{
					ksAppendKey (ks, newKey);
					appended = 1;
				}

				if (xmlTextReaderNodeType (reader) == 15) /* found a </key> */
					end = 1;
				else if (newKey)
				{
					/* found a sub <key> */
					/* prepare the context (parent) */
					consumeKeyNode (ks, keyName (newKey), reader);
				}
			}

			xmlFree (nodeName);
		}

		if (privateContext) xmlFree (privateContext);

		/* seems like we forgot the key, lets delete it */
		if (newKey && !appended)
		{
			keyDel (newKey);
		}
	}

	xmlFree (keyNodeName);

	return 0;
}


static int consumeKeySetNode (KeySet * ks, const char * context, xmlTextReaderPtr reader)
{
	xmlChar * keySetNodeName = xmlTextReaderName (reader);
	if (!strcmp ((char *) keySetNodeName, "keyset"))
	{
		xmlChar fullContext[800] = "";
		int end = 0;

		xmlChar * privateContext = xmlTextReaderGetAttribute (reader, (const xmlChar *) "parent");
		if (context && privateContext)
		{
/*In libxml earlier than 2.9.4 const char * was used as argument, leading to a warning.
https://git.gnome.org/browse/libxml2/diff/include/libxml/xmlstring.h?id=4472c3a5a5b516aaf59b89be602fbce52756c3e9
*/
#pragma GCC diagnostic ignored "-Wpointer-sign"
			xmlStrPrintf (fullContext, sizeof (fullContext), "%s/%s", context, privateContext);
#pragma GCC diagnostic warning "-Wpointer-sign"
		}

		/* Parse everything else */
		while (!end)
		{
			xmlTextReaderRead (reader);
			xmlChar * nodeName = xmlTextReaderName (reader);

			if (!strcmp ((char *) nodeName, "key"))
			{
				if (privateContext)
					consumeKeyNode (ks, (char *) (*fullContext ? fullContext : privateContext), reader);
				else
					consumeKeyNode (ks, context, reader);
			}
			else if (!strcmp ((char *) nodeName, "keyset"))
			{
				/* A <keyset> can have nested <keyset>s */
				if (xmlTextReaderNodeType (reader) == 15) /* found a </keyset> */
					end = 1;
				else if (privateContext)
					consumeKeySetNode (ks, (char *) (*fullContext ? fullContext : privateContext), reader);
				else
					consumeKeySetNode (ks, context, reader);
			}
			xmlFree (nodeName);
		}
		if (privateContext) xmlFree (privateContext), privateContext = 0;
	}
	xmlFree (keySetNodeName);
	return 0;
}


/*
 * This is the workhorse behind ksFromXML() and ksFromXMLfile().
 * It will process the entire XML document in reader and convert and
 * save it in ks KeySet. Each node is processed by the processNode() function.
 *
 * This function is completely dependent on libxml.
 */
static int ksFromXMLReader (KeySet * ks, xmlTextReaderPtr reader)
{
	int ret = xmlTextReaderRead (reader); /* go to first node */
	while (ret == 1)
	{
		/* walk node per node until the end of the stream */
		xmlChar * nodeName = xmlTextReaderName (reader);

		if (!strcmp ((char *) nodeName, "key"))
			consumeKeyNode (ks, 0, reader);
		else if (!strcmp ((char *) nodeName, "keyset"))
			consumeKeySetNode (ks, 0, reader);

		ret = xmlTextReaderRead (reader);

		xmlFree (nodeName);
	}

	return ret;
}

/*
static int isValidXML(xmlDocPtr doc,char *schemaPath)
{
	xmlSchemaPtr wxschemas = NULL;
	xmlSchemaValidCtxtPtr ctxt;
	xmlSchemaParserCtxtPtr ctxt2=NULL;
	int ret=0;

	ctxt2 = xmlSchemaNewParserCtxt(schemaPath);


	if (ctxt2==NULL) {
		xmlFreeDoc(doc);
		return 1;
	}

	xmlSchemaSetParserErrors(ctxt2,
		(xmlSchemaValidityErrorFunc) fprintf,
		(xmlSchemaValidityWarningFunc) fprintf,
		stderr);
	wxschemas = xmlSchemaParse(ctxt2);

	if (wxschemas==NULL) {
		xmlSchemaFreeParserCtxt(ctxt2);
		xmlFreeDoc(doc);
		return 1;
	}

	ctxt = xmlSchemaNewValidCtxt(wxschemas);
	xmlSchemaSetValidErrors(ctxt,
		(xmlSchemaValidityErrorFunc) fprintf,
		(xmlSchemaValidityWarningFunc) fprintf,
		stderr);

	if (ctxt==NULL) {
		xmlSchemaFree(wxschemas);
		xmlSchemaFreeParserCtxt(ctxt2);
		xmlFreeDoc(doc);
		return 1;
	}

	ret = xmlSchemaValidateDoc(ctxt, doc);
	xmlSchemaFreeValidCtxt(ctxt);
	xmlSchemaFree(wxschemas);
	xmlSchemaFreeParserCtxt(ctxt2);

	return ret;
}
*/


/**
 * Given an XML @p filename, open it, validate schema, process nodes,
 * convert and save it in the @p ks KeySet.
 *
 * Currently, the XML file can have many root @c @<keyset@> and @c @<key@> nodes.
 * They will all be reduced to simple keys returned in @p ks.
 *
 * To check if the xml file is valid (best before you read from it):
 * @code
#include
char schemaPath[513];
schemaPath[0]=0;
ret=kdbGetString(handle, KDB_SCHEMA_PATH_KEY,schemaPath,sizeof(schemaPath));

if (ret==0) ret = isValidXML(filename,schemaPath);
else ret = isValidXML(filename,KDB_SCHEMA_PATH);
 * @endcode
 *
 * @retval -1 on error
 * @retval 0 if file could not be opened
 * @param ks the keyset
 * @param filename the file to parse
 * @ingroup stream
 */
int ksFromXMLfile (KeySet * ks, const char * filename)
{
	xmlTextReaderPtr reader = 0;
	xmlDocPtr doc = 0;
	int ret = 0;

	doc = xmlParseFile (filename);
	if (doc == 0)
	{
		// TODO: distinguish between parser errors and
		// permission errors?
		xmlCleanupParser ();
		return -1;
	}

	reader = xmlReaderWalker (doc);
	if (reader)
	{
		ret = ksFromXMLReader (ks, reader);
		xmlFreeTextReader (reader);
	}
	else
	{
		ret = -1;
	}

	xmlFreeDoc (doc);

	xmlCleanupParser ();
	return ret;
}


/**
 * Given a file descriptor (that can be @p stdin) for an XML file, validate
 * schema, process nodes, convert and save it in the @p ks KeySet.
 *
 * @param ks keyset
 * @param fd POSIX file descriptor
 * @ingroup stream
 */
int ksFromXML (KeySet * ks, int fd)
{
	// a complete XML document is expected
	xmlTextReaderPtr reader = 0;
	int ret;
	reader = xmlReaderForFd (fd, "file:/tmp/imp.xml", 0, 0);
	if (reader)
	{
		ret = ksFromXMLReader (ks, reader);
	}
	else
	{
		printf ("kdb: Unable to open file descriptor %d for XML reading\n", fd);
		return 1;
	}
	return ret;
}