Google Git
Sign in
fuchsia / third_party / libxml2 / refs/tags/LIBXML2_2_6_11 / . / xmlschemas.c
blob: 59cfee029a27387b7707196e1caa53c957fd5301 [file] [log] [blame]
/*
* schemas.c : implementation of the XML Schema handling and
* schema validity checking
*
* See Copyright for the status of this software.
*
* Daniel Veillard <veillard@redhat.com>
*/
/*
* TODO:
* - when types are redefined in includes, check that all
* types in the redef list are equal
* -> need a type equality operation.
* - if we don't intend to use the schema for schemas, we
* need to validate all schema attributes (ref, type, name)
* against their types.
*/
#define IN_LIBXML
#include "libxml.h"
#ifdef LIBXML_SCHEMAS_ENABLED
#include <string.h>
#include <libxml/xmlmemory.h>
#include <libxml/parser.h>
#include <libxml/parserInternals.h>
#include <libxml/hash.h>
#include <libxml/uri.h>
#include <libxml/xmlschemas.h>
#include <libxml/schemasInternals.h>
#include <libxml/xmlschemastypes.h>
#include <libxml/xmlautomata.h>
#include <libxml/xmlregexp.h>
#include <libxml/dict.h>
/* #define DEBUG 1 */
/* #define DEBUG_CONTENT 1 */
/* #define DEBUG_TYPE 1 */
/* #define DEBUG_CONTENT_REGEXP 1 */
/* #define DEBUG_AUTOMATA 1 */
/* #define DEBUG_ATTR_VALIDATION 1 */
#define UNBOUNDED (1 << 30)
#define TODO \
xmlGenericError(xmlGenericErrorContext, \
"Unimplemented block at %s:%d\n", \
__FILE__, __LINE__);
#define XML_SCHEMAS_DEFAULT_NAMESPACE (const xmlChar *)"the default namespace"
/*
* The XML Schemas namespaces
*/
static const xmlChar *xmlSchemaNs = (const xmlChar *)
"http://www.w3.org/2001/XMLSchema";
static const xmlChar *xmlSchemaInstanceNs = (const xmlChar *)
"http://www.w3.org/2001/XMLSchema-instance";
#define IS_SCHEMA(node, type) \
((node != NULL) && (node->ns != NULL) && \
(xmlStrEqual(node->name, (const xmlChar *) type)) && \
(xmlStrEqual(node->ns->href, xmlSchemaNs)))
#define XML_SCHEMAS_PARSE_ERROR 1
#define SCHEMAS_PARSE_OPTIONS XML_PARSE_NOENT
struct _xmlSchemaParserCtxt {
void *userData; /* user specific data block */
xmlSchemaValidityErrorFunc error; /* the callback in case of errors */
xmlSchemaValidityWarningFunc warning; /* the callback in case of warning */
xmlSchemaValidError err;
int nberrors;
xmlStructuredErrorFunc serror;
xmlSchemaPtr topschema; /* The main schema */
xmlHashTablePtr namespaces; /* Hash table of namespaces to schemas */
xmlSchemaPtr schema; /* The schema in use */
const xmlChar *container; /* the current element, group, ... */
int counter;
const xmlChar *URL;
xmlDocPtr doc;
int preserve; /* Whether the doc should be freed */
const char *buffer;
int size;
/*
* Used to build complex element content models
*/
xmlAutomataPtr am;
xmlAutomataStatePtr start;
xmlAutomataStatePtr end;
xmlAutomataStatePtr state;
xmlDictPtr dict; /* dictionnary for interned string names */
int includes; /* the inclusion level, 0 for root or imports */
xmlSchemaTypePtr ctxtType; /* The current context simple/complex type */
xmlSchemaTypePtr parentItem; /* The current parent schema item */
};
#define XML_SCHEMAS_ATTR_UNKNOWN 1
#define XML_SCHEMAS_ATTR_CHECKED 2
#define XML_SCHEMAS_ATTR_PROHIBITED 3
#define XML_SCHEMAS_ATTR_MISSING 4
#define XML_SCHEMAS_ATTR_INVALID_VALUE 5
#define XML_SCHEMAS_ATTR_TYPE_NOT_RESOLVED 6
typedef struct _xmlSchemaAttrState xmlSchemaAttrState;
typedef xmlSchemaAttrState *xmlSchemaAttrStatePtr;
struct _xmlSchemaAttrState {
xmlSchemaAttrStatePtr next;
xmlAttrPtr attr;
int state;
xmlSchemaAttributePtr decl;
};
/**
* xmlSchemaValidCtxt:
*
* A Schemas validation context
*/
struct _xmlSchemaValidCtxt {
void *userData; /* user specific data block */
xmlSchemaValidityErrorFunc error; /* the callback in case of errors */
xmlSchemaValidityWarningFunc warning; /* the callback in case of warning */
xmlStructuredErrorFunc serror;
xmlSchemaPtr schema; /* The schema in use */
xmlDocPtr doc;
xmlParserInputBufferPtr input;
xmlCharEncoding enc;
xmlSAXHandlerPtr sax;
void *user_data;
xmlDocPtr myDoc;
int err;
int nberrors;
xmlNodePtr node;
xmlNodePtr cur;
xmlSchemaTypePtr type;
xmlRegExecCtxtPtr regexp;
xmlSchemaValPtr value;
xmlSchemaAttrStatePtr attrTop;
/* xmlSchemaAttrStatePtr attrBase; */
/* int attrMax; */
xmlSchemaAttrStatePtr attr;
};
/*
* These are the entries in the schemas importSchemas hash table
*/
typedef struct _xmlSchemaImport xmlSchemaImport;
typedef xmlSchemaImport *xmlSchemaImportPtr;
struct _xmlSchemaImport {
const xmlChar *schemaLocation;
xmlSchemaPtr schema;
};
/*
* These are the entries associated to includes in a schemas
*/
typedef struct _xmlSchemaInclude xmlSchemaInclude;
typedef xmlSchemaInclude *xmlSchemaIncludePtr;
struct _xmlSchemaInclude {
xmlSchemaIncludePtr next;
const xmlChar *schemaLocation;
xmlDocPtr doc;
};
/************************************************************************
* *
* Some predeclarations *
* *
************************************************************************/
#if 0 /* Not currently used. */
static int xmlSchemaValidateSimpleValue(xmlSchemaValidCtxtPtr ctxt,
xmlSchemaTypePtr type,
const xmlChar * value);
#endif
static int xmlSchemaParseInclude(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node);
#if 0
static int
xmlSchemaValidateSimpleValueInternal(xmlSchemaValidCtxtPtr ctxt,
xmlSchemaTypePtr type,
const xmlChar * value,
int fireErrors);
#endif /* Not currently used. */
static void
xmlSchemaTypeFixup(xmlSchemaTypePtr typeDecl,
xmlSchemaParserCtxtPtr ctxt, const xmlChar * name);
static const char *
xmlSchemaFacetTypeToString(xmlSchemaTypeType type);
static int
xmlSchemaValidateSimpleTypeValue(xmlSchemaValidCtxtPtr ctxt,
const xmlChar *value,
int fireErrors,
int applyFacets);
/************************************************************************
* *
* Datatype error handlers *
* *
************************************************************************/
/**
* xmlSchemaPErrMemory:
* @node: a context node
* @extra: extra informations
*
* Handle an out of memory condition
*/
static void
xmlSchemaPErrMemory(xmlSchemaParserCtxtPtr ctxt,
const char *extra, xmlNodePtr node)
{
if (ctxt != NULL)
ctxt->nberrors++;
__xmlSimpleError(XML_FROM_SCHEMASP, XML_ERR_NO_MEMORY, node, NULL,
extra);
}
/**
* xmlSchemaPErr:
* @ctxt: the parsing context
* @node: the context node
* @error: the error code
* @msg: the error message
* @str1: extra data
* @str2: extra data
*
* Handle a parser error
*/
static void
xmlSchemaPErr(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node, int error,
const char *msg, const xmlChar * str1, const xmlChar * str2)
{
xmlGenericErrorFunc channel = NULL;
xmlStructuredErrorFunc schannel = NULL;
void *data = NULL;
if (ctxt != NULL) {
ctxt->nberrors++;
channel = ctxt->error;
data = ctxt->userData;
schannel = ctxt->serror;
}
__xmlRaiseError(schannel, channel, data, ctxt, node, XML_FROM_SCHEMASP,
error, XML_ERR_ERROR, NULL, 0,
(const char *) str1, (const char *) str2, NULL, 0, 0,
msg, str1, str2);
}
/**
* xmlSchemaPErr2:
* @ctxt: the parsing context
* @node: the context node
* @node: the current child
* @error: the error code
* @msg: the error message
* @str1: extra data
* @str2: extra data
*
* Handle a parser error
*/
static void
xmlSchemaPErr2(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node,
xmlNodePtr child, int error,
const char *msg, const xmlChar * str1, const xmlChar * str2)
{
if (child != NULL)
xmlSchemaPErr(ctxt, child, error, msg, str1, str2);
else
xmlSchemaPErr(ctxt, node, error, msg, str1, str2);
}
/**
* xmlSchemaPErrExt:
* @ctxt: the parsing context
* @node: the context node
* @error: the error code
* @strData1: extra data
* @strData2: extra data
* @strData3: extra data
* @msg: the message
* @str1: extra parameter for the message display
* @str2: extra parameter for the message display
* @str3: extra parameter for the message display
* @str4: extra parameter for the message display
* @str5: extra parameter for the message display
*
* Handle a parser error
*/
static void
xmlSchemaPErrExt(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node, int error,
const xmlChar * strData1, const xmlChar * strData2,
const xmlChar * strData3, const char *msg, const xmlChar * str1,
const xmlChar * str2, const xmlChar * str3, const xmlChar * str4,
const xmlChar * str5)
{
xmlGenericErrorFunc channel = NULL;
xmlStructuredErrorFunc schannel = NULL;
void *data = NULL;
if (ctxt != NULL) {
ctxt->nberrors++;
channel = ctxt->error;
data = ctxt->userData;
schannel = ctxt->serror;
}
__xmlRaiseError(schannel, channel, data, ctxt, node, XML_FROM_SCHEMASP,
error, XML_ERR_ERROR, NULL, 0,
(const char *) strData1, (const char *) strData2,
(const char *) strData3, 0, 0, msg, str1, str2,
str3, str4, str5);
}
/**
* xmlSchemaVTypeErrMemory:
* @node: a context node
* @extra: extra informations
*
* Handle an out of memory condition
*/
static void
xmlSchemaVErrMemory(xmlSchemaValidCtxtPtr ctxt,
const char *extra, xmlNodePtr node)
{
if (ctxt != NULL) {
ctxt->nberrors++;
ctxt->err = XML_SCHEMAS_ERR_INTERNAL;
}
__xmlSimpleError(XML_FROM_SCHEMASV, XML_ERR_NO_MEMORY, node, NULL,
extra);
}
/**
* xmlSchemaVErr3:
* @ctxt: the validation context
* @node: the context node
* @error: the error code
* @msg: the error message
* @str1: extra data
* @str2: extra data
* @str3: extra data
*
* Handle a validation error
*/
static void
xmlSchemaVErr3(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr node, int error,
const char *msg, const xmlChar *str1, const xmlChar *str2,
const xmlChar *str3)
{
xmlStructuredErrorFunc schannel = NULL;
xmlGenericErrorFunc channel = NULL;
void *data = NULL;
if (ctxt != NULL) {
ctxt->nberrors++;
ctxt->err = error;
channel = ctxt->error;
schannel = ctxt->serror;
data = ctxt->userData;
}
/* reajust to global error numbers */
error += XML_SCHEMAV_NOROOT - XML_SCHEMAS_ERR_NOROOT;
__xmlRaiseError(schannel, channel, data, ctxt, node, XML_FROM_SCHEMASV,
error, XML_ERR_ERROR, NULL, 0,
(const char *) str1, (const char *) str2,
(const char *) str3, 0, 0,
msg, str1, str2, str3);
}
/**
* xmlSchemaVErr:
* @ctxt: the validation context
* @node: the context node
* @error: the error code
* @msg: the error message
* @str1: extra data
* @str2: extra data
*
* Handle a validation error
*/
static void
xmlSchemaVErr(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr node, int error,
const char *msg, const xmlChar * str1, const xmlChar * str2)
{
xmlStructuredErrorFunc schannel = NULL;
xmlGenericErrorFunc channel = NULL;
void *data = NULL;
if (ctxt != NULL) {
ctxt->nberrors++;
ctxt->err = error;
channel = ctxt->error;
data = ctxt->userData;
schannel = ctxt->serror;
}
/* reajust to global error numbers */
error += XML_SCHEMAV_NOROOT - XML_SCHEMAS_ERR_NOROOT;
__xmlRaiseError(schannel, channel, data, ctxt, node, XML_FROM_SCHEMASV,
error, XML_ERR_ERROR, NULL, 0,
(const char *) str1, (const char *) str2, NULL, 0, 0,
msg, str1, str2);
}
/************************************************************************
* *
* Allocation functions *
* *
************************************************************************/
/**
* xmlSchemaNewSchema:
* @ctxt: a schema validation context
*
* Allocate a new Schema structure.
*
* Returns the newly allocated structure or NULL in case or error
*/
static xmlSchemaPtr
xmlSchemaNewSchema(xmlSchemaParserCtxtPtr ctxt)
{
xmlSchemaPtr ret;
ret = (xmlSchemaPtr) xmlMalloc(sizeof(xmlSchema));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating schema", NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchema));
ret->dict = ctxt->dict;
xmlDictReference(ret->dict);
return (ret);
}
/**
* xmlSchemaNewFacet:
*
* Allocate a new Facet structure.
*
* Returns the newly allocated structure or NULL in case or error
*/
xmlSchemaFacetPtr
xmlSchemaNewFacet(void)
{
xmlSchemaFacetPtr ret;
ret = (xmlSchemaFacetPtr) xmlMalloc(sizeof(xmlSchemaFacet));
if (ret == NULL) {
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaFacet));
return (ret);
}
/**
* xmlSchemaNewAnnot:
* @ctxt: a schema validation context
* @node: a node
*
* Allocate a new annotation structure.
*
* Returns the newly allocated structure or NULL in case or error
*/
static xmlSchemaAnnotPtr
xmlSchemaNewAnnot(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node)
{
xmlSchemaAnnotPtr ret;
ret = (xmlSchemaAnnotPtr) xmlMalloc(sizeof(xmlSchemaAnnot));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating annotation", node);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaAnnot));
ret->content = node;
return (ret);
}
/**
* xmlSchemaFreeAnnot:
* @annot: a schema type structure
*
* Deallocate a annotation structure
*/
static void
xmlSchemaFreeAnnot(xmlSchemaAnnotPtr annot)
{
if (annot == NULL)
return;
xmlFree(annot);
}
/**
* xmlSchemaFreeImport:
* @import: a schema import structure
*
* Deallocate an import structure
*/
static void
xmlSchemaFreeImport(xmlSchemaImportPtr import)
{
if (import == NULL)
return;
xmlSchemaFree(import->schema);
xmlFree(import);
}
/**
* xmlSchemaFreeInclude:
* @include: a schema include structure
*
* Deallocate an include structure
*/
static void
xmlSchemaFreeInclude(xmlSchemaIncludePtr include)
{
if (include == NULL)
return;
xmlFreeDoc(include->doc);
xmlFree(include);
}
/**
* xmlSchemaFreeIncludeList:
* @includes: a schema include list
*
* Deallocate an include structure
*/
static void
xmlSchemaFreeIncludeList(xmlSchemaIncludePtr includes)
{
xmlSchemaIncludePtr next;
while (includes != NULL) {
next = includes->next;
xmlSchemaFreeInclude(includes);
includes = next;
}
}
/**
* xmlSchemaFreeNotation:
* @schema: a schema notation structure
*
* Deallocate a Schema Notation structure.
*/
static void
xmlSchemaFreeNotation(xmlSchemaNotationPtr nota)
{
if (nota == NULL)
return;
xmlFree(nota);
}
/**
* xmlSchemaFreeAttribute:
* @schema: a schema attribute structure
*
* Deallocate a Schema Attribute structure.
*/
static void
xmlSchemaFreeAttribute(xmlSchemaAttributePtr attr)
{
if (attr == NULL)
return;
xmlFree(attr);
}
/**
* xmlSchemaFreeWildcardNsSet:
* set: a schema wildcard namespace
*
* Deallocates a list of wildcard constraint structures.
*/
static void
xmlSchemaFreeWildcardNsSet(xmlSchemaWildcardNsPtr set)
{
xmlSchemaWildcardNsPtr next;
while (set != NULL) {
next = set->next;
xmlFree(set);
set = next;
}
}
/**
* xmlSchemaFreeWildcard:
* @wildcard: a wildcard structure
*
* Deallocates a wildcard structure.
*/
void
xmlSchemaFreeWildcard(xmlSchemaWildcardPtr wildcard)
{
if (wildcard == NULL)
return;
if (wildcard->annot != NULL)
xmlSchemaFreeAnnot(wildcard->annot);
if (wildcard->nsSet != NULL)
xmlSchemaFreeWildcardNsSet(wildcard->nsSet);
if (wildcard->negNsSet != NULL)
xmlFree(wildcard->negNsSet);
xmlFree(wildcard);
}
/**
* xmlSchemaFreeAttributeGroup:
* @schema: a schema attribute group structure
*
* Deallocate a Schema Attribute Group structure.
*/
static void
xmlSchemaFreeAttributeGroup(xmlSchemaAttributeGroupPtr attr)
{
if (attr == NULL)
return;
if (attr->annot != NULL)
xmlSchemaFreeAnnot(attr->annot);
if ((attr->flags & XML_SCHEMAS_ATTRGROUP_GLOBAL) &&
(attr->attributeWildcard != NULL))
xmlSchemaFreeWildcard(attr->attributeWildcard);
xmlFree(attr);
}
/**
* xmlSchemaFreeAttributeUseList:
* @attrUse: an attribute link
*
* Deallocate a list of schema attribute uses.
*/
static void
xmlSchemaFreeAttributeUseList(xmlSchemaAttributeLinkPtr attrUse)
{
xmlSchemaAttributeLinkPtr next;
while (attrUse != NULL) {
next = attrUse->next;
xmlFree(attrUse);
attrUse = next;
}
}
/**
* xmlSchemaFreeTypeLinkList:
* @alink: a type link
*
* Deallocate a list of types.
*/
static void
xmlSchemaFreeTypeLinkList(xmlSchemaTypeLinkPtr link)
{
xmlSchemaTypeLinkPtr next;
while (link != NULL) {
next = link->next;
xmlFree(link);
link = next;
}
}
/**
* xmlSchemaFreeElement:
* @schema: a schema element structure
*
* Deallocate a Schema Element structure.
*/
static void
xmlSchemaFreeElement(xmlSchemaElementPtr elem)
{
if (elem == NULL)
return;
if (elem->annot != NULL)
xmlSchemaFreeAnnot(elem->annot);
if (elem->contModel != NULL)
xmlRegFreeRegexp(elem->contModel);
xmlFree(elem);
}
/**
* xmlSchemaFreeFacet:
* @facet: a schema facet structure
*
* Deallocate a Schema Facet structure.
*/
void
xmlSchemaFreeFacet(xmlSchemaFacetPtr facet)
{
if (facet == NULL)
return;
if (facet->val != NULL)
xmlSchemaFreeValue(facet->val);
if (facet->regexp != NULL)
xmlRegFreeRegexp(facet->regexp);
if (facet->annot != NULL)
xmlSchemaFreeAnnot(facet->annot);
xmlFree(facet);
}
/**
* xmlSchemaFreeType:
* @type: a schema type structure
*
* Deallocate a Schema Type structure.
*/
void
xmlSchemaFreeType(xmlSchemaTypePtr type)
{
if (type == NULL)
return;
if (type->annot != NULL)
xmlSchemaFreeAnnot(type->annot);
if (type->facets != NULL) {
xmlSchemaFacetPtr facet, next;
facet = type->facets;
while (facet != NULL) {
next = facet->next;
xmlSchemaFreeFacet(facet);
facet = next;
}
}
if (type->type != XML_SCHEMA_TYPE_BASIC) {
if (type->attributeUses != NULL)
xmlSchemaFreeAttributeUseList(type->attributeUses);
/* TODO: There must be a way more simple than this. */
if ((type->attributeWildcard != NULL) &&
((type->type != XML_SCHEMA_TYPE_COMPLEX) ||
((type->type == XML_SCHEMA_TYPE_COMPLEX) &&
(type->flags & XML_SCHEMAS_TYPE_OWNED_ATTR_WILDCARD)))) {
xmlSchemaFreeWildcard(type->attributeWildcard);
}
}
if (type->memberTypes != NULL)
xmlSchemaFreeTypeLinkList(type->memberTypes);
if (type->facetSet != NULL) {
xmlSchemaFacetLinkPtr next, link;
link = type->facetSet;
do {
next = link->next;
xmlFree(link);
link = next;
} while (link != NULL);
}
xmlFree(type);
}
/**
* xmlSchemaFreeTypeList:
* @type: a schema type structure
*
* Deallocate a Schema Type structure.
*/
static void
xmlSchemaFreeTypeList(xmlSchemaTypePtr type)
{
xmlSchemaTypePtr next;
while (type != NULL) {
next = type->redef;
xmlSchemaFreeType(type);
type = next;
}
}
/**
* xmlSchemaFree:
* @schema: a schema structure
*
* Deallocate a Schema structure.
*/
void
xmlSchemaFree(xmlSchemaPtr schema)
{
if (schema == NULL)
return;
if (schema->notaDecl != NULL)
xmlHashFree(schema->notaDecl,
(xmlHashDeallocator) xmlSchemaFreeNotation);
if (schema->attrDecl != NULL)
xmlHashFree(schema->attrDecl,
(xmlHashDeallocator) xmlSchemaFreeAttribute);
if (schema->attrgrpDecl != NULL)
xmlHashFree(schema->attrgrpDecl,
(xmlHashDeallocator) xmlSchemaFreeAttributeGroup);
if (schema->elemDecl != NULL)
xmlHashFree(schema->elemDecl,
(xmlHashDeallocator) xmlSchemaFreeElement);
if (schema->typeDecl != NULL)
xmlHashFree(schema->typeDecl,
(xmlHashDeallocator) xmlSchemaFreeTypeList);
if (schema->groupDecl != NULL)
xmlHashFree(schema->groupDecl,
(xmlHashDeallocator) xmlSchemaFreeType);
if (schema->schemasImports != NULL)
xmlHashFree(schema->schemasImports,
(xmlHashDeallocator) xmlSchemaFreeImport);
if (schema->includes != NULL) {
xmlSchemaFreeIncludeList((xmlSchemaIncludePtr) schema->includes);
}
if (schema->annot != NULL)
xmlSchemaFreeAnnot(schema->annot);
if (schema->doc != NULL && !schema->preserve)
xmlFreeDoc(schema->doc);
xmlDictFree(schema->dict);
xmlFree(schema);
}
/************************************************************************
* *
* Debug functions *
* *
************************************************************************/
#ifdef LIBXML_OUTPUT_ENABLED
/**
* xmlSchemaElementDump:
* @elem: an element
* @output: the file output
*
* Dump the element
*/
static void
xmlSchemaElementDump(xmlSchemaElementPtr elem, FILE * output,
const xmlChar * name ATTRIBUTE_UNUSED,
const xmlChar * context ATTRIBUTE_UNUSED,
const xmlChar * namespace ATTRIBUTE_UNUSED)
{
if (elem == NULL)
return;
fprintf(output, "Element ");
if (elem->flags & XML_SCHEMAS_ELEM_GLOBAL)
fprintf(output, "global ");
fprintf(output, ": %s ", elem->name);
if (namespace != NULL)
fprintf(output, "namespace '%s' ", namespace);
if (elem->flags & XML_SCHEMAS_ELEM_NILLABLE)
fprintf(output, "nillable ");
if (elem->flags & XML_SCHEMAS_ELEM_DEFAULT)
fprintf(output, "default ");
if (elem->flags & XML_SCHEMAS_ELEM_FIXED)
fprintf(output, "fixed ");
if (elem->flags & XML_SCHEMAS_ELEM_ABSTRACT)
fprintf(output, "abstract ");
if (elem->flags & XML_SCHEMAS_ELEM_REF)
fprintf(output, "ref '%s' ", elem->ref);
if (elem->id != NULL)
fprintf(output, "id '%s' ", elem->id);
fprintf(output, "\n");
if ((elem->minOccurs != 1) || (elem->maxOccurs != 1)) {
fprintf(output, " ");
if (elem->minOccurs != 1)
fprintf(output, "min: %d ", elem->minOccurs);
if (elem->maxOccurs >= UNBOUNDED)
fprintf(output, "max: unbounded\n");
else if (elem->maxOccurs != 1)
fprintf(output, "max: %d\n", elem->maxOccurs);
else
fprintf(output, "\n");
}
if (elem->namedType != NULL) {
fprintf(output, " type: %s", elem->namedType);
if (elem->namedTypeNs != NULL)
fprintf(output, " ns %s\n", elem->namedTypeNs);
else
fprintf(output, "\n");
}
if (elem->substGroup != NULL) {
fprintf(output, " substitutionGroup: %s", elem->substGroup);
if (elem->substGroupNs != NULL)
fprintf(output, " ns %s\n", elem->substGroupNs);
else
fprintf(output, "\n");
}
if (elem->value != NULL)
fprintf(output, " default: %s", elem->value);
}
/**
* xmlSchemaAnnotDump:
* @output: the file output
* @annot: a annotation
*
* Dump the annotation
*/
static void
xmlSchemaAnnotDump(FILE * output, xmlSchemaAnnotPtr annot)
{
xmlChar *content;
if (annot == NULL)
return;
content = xmlNodeGetContent(annot->content);
if (content != NULL) {
fprintf(output, " Annot: %s\n", content);
xmlFree(content);
} else
fprintf(output, " Annot: empty\n");
}
/**
* xmlSchemaTypeDump:
* @output: the file output
* @type: a type structure
*
* Dump a SchemaType structure
*/
static void
xmlSchemaTypeDump(xmlSchemaTypePtr type, FILE * output)
{
if (type == NULL) {
fprintf(output, "Type: NULL\n");
return;
}
fprintf(output, "Type: ");
if (type->name != NULL)
fprintf(output, "%s, ", type->name);
else
fprintf(output, "no name");
switch (type->type) {
case XML_SCHEMA_TYPE_BASIC:
fprintf(output, "basic ");
break;
case XML_SCHEMA_TYPE_SIMPLE:
fprintf(output, "simple ");
break;
case XML_SCHEMA_TYPE_COMPLEX:
fprintf(output, "complex ");
break;
case XML_SCHEMA_TYPE_SEQUENCE:
fprintf(output, "sequence ");
break;
case XML_SCHEMA_TYPE_CHOICE:
fprintf(output, "choice ");
break;
case XML_SCHEMA_TYPE_ALL:
fprintf(output, "all ");
break;
case XML_SCHEMA_TYPE_UR:
fprintf(output, "ur ");
break;
case XML_SCHEMA_TYPE_RESTRICTION:
fprintf(output, "restriction ");
break;
case XML_SCHEMA_TYPE_EXTENSION:
fprintf(output, "extension ");
break;
default:
fprintf(output, "unknowntype%d ", type->type);
break;
}
if (type->base != NULL) {
fprintf(output, "base %s, ", type->base);
}
switch (type->contentType) {
case XML_SCHEMA_CONTENT_UNKNOWN:
fprintf(output, "unknown ");
break;
case XML_SCHEMA_CONTENT_EMPTY:
fprintf(output, "empty ");
break;
case XML_SCHEMA_CONTENT_ELEMENTS:
fprintf(output, "element ");
break;
case XML_SCHEMA_CONTENT_MIXED:
fprintf(output, "mixed ");
break;
case XML_SCHEMA_CONTENT_MIXED_OR_ELEMENTS:
/* not used. */
break;
case XML_SCHEMA_CONTENT_BASIC:
fprintf(output, "basic ");
break;
case XML_SCHEMA_CONTENT_SIMPLE:
fprintf(output, "simple ");
break;
case XML_SCHEMA_CONTENT_ANY:
fprintf(output, "any ");
break;
}
fprintf(output, "\n");
if ((type->minOccurs != 1) || (type->maxOccurs != 1)) {
fprintf(output, " ");
if (type->minOccurs != 1)
fprintf(output, "min: %d ", type->minOccurs);
if (type->maxOccurs >= UNBOUNDED)
fprintf(output, "max: unbounded\n");
else if (type->maxOccurs != 1)
fprintf(output, "max: %d\n", type->maxOccurs);
else
fprintf(output, "\n");
}
if (type->annot != NULL)
xmlSchemaAnnotDump(output, type->annot);
if (type->subtypes != NULL) {
xmlSchemaTypePtr sub = type->subtypes;
fprintf(output, " subtypes: ");
while (sub != NULL) {
fprintf(output, "%s ", sub->name);
sub = sub->next;
}
fprintf(output, "\n");
}
}
/**
* xmlSchemaDump:
* @output: the file output
* @schema: a schema structure
*
* Dump a Schema structure.
*/
void
xmlSchemaDump(FILE * output, xmlSchemaPtr schema)
{
if (schema == NULL) {
fprintf(output, "Schemas: NULL\n");
return;
}
fprintf(output, "Schemas: ");
if (schema->name != NULL)
fprintf(output, "%s, ", schema->name);
else
fprintf(output, "no name, ");
if (schema->targetNamespace != NULL)
fprintf(output, "%s", (const char *) schema->targetNamespace);
else
fprintf(output, "no target namespace");
fprintf(output, "\n");
if (schema->annot != NULL)
xmlSchemaAnnotDump(output, schema->annot);
xmlHashScan(schema->typeDecl, (xmlHashScanner) xmlSchemaTypeDump,
output);
xmlHashScanFull(schema->elemDecl,
(xmlHashScannerFull) xmlSchemaElementDump, output);
}
#endif /* LIBXML_OUTPUT_ENABLED */
/************************************************************************
* *
* Utilities *
* *
************************************************************************/
static xmlAttrPtr
xmlSchemaGetPropNode(xmlNodePtr node, const xmlChar *name)
{
xmlAttrPtr prop;
if ((node == NULL) || (name == NULL)) return(NULL);
prop = node->properties;
while (prop != NULL) {
if ((xmlStrEqual(prop->name, name)) &&
(prop->ns == NULL))
return(prop);
prop = prop->next;
}
return (NULL);
}
static const xmlChar *
xmlSchemaGetNodeContent(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node)
{
xmlChar *val;
const xmlChar *ret;
val = xmlNodeGetContent(node);
if (val == NULL)
return(NULL);
ret = xmlDictLookup(ctxt->dict, val, -1);
xmlFree(val);
return(ret);
}
/**
* xmlSchemaGetProp:
* @ctxt: the parser context
* @node: the node
* @name: the property name
*
* Read a attribute value and internalize the string
*
* Returns the string or NULL if not present.
*/
static const xmlChar *
xmlSchemaGetProp(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node,
const char *name)
{
xmlChar *val;
const xmlChar *ret;
val = xmlGetProp(node, BAD_CAST name);
if (val == NULL)
return(NULL);
ret = xmlDictLookup(ctxt->dict, val, -1);
xmlFree(val);
return(ret);
}
#if 0
/**
* xmlSchemaGetNamespace:
* @ctxt: the parser context
* @schema: the schemas containing the declaration
* @node: the node
* @qname: the QName to analyze
*
* Find the namespace name for the given declaration.
*
* Returns the local name for that declaration, as well as the namespace name
* NOTE: This function is no longer used (Buchcik, May '04)
*/
static const xmlChar *
xmlSchemaGetNamespace(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, const xmlChar *qname,
const xmlChar **namespace) {
int len;
const xmlChar *name, *prefix, *def = NULL;
xmlNsPtr ns;
*namespace = NULL;
/* TODO: The following seems to be not correct here:
* 1. The name of a declaration is a NCName, not a QName.
* 2. The attribute "targetNamespace" is allowed for the
* <schema> Element Information Item only.
* 3. One cannot evaluate the target namespace, by the type
* of declaration, since it is dependant on the xxxFormDefault
* of <schema> and the form attribute of an <element> or <attribute>.
*/
if (xmlStrEqual(node->name, BAD_CAST "element") ||
xmlStrEqual(node->name, BAD_CAST "attribute") ||
xmlStrEqual(node->name, BAD_CAST "simpleType") ||
xmlStrEqual(node->name, BAD_CAST "complexType")) {
def = xmlSchemaGetProp(ctxt, node, "targetNamespace");
}
qname = xmlDictLookup(ctxt->dict, qname, -1); /* intern the string */
name = xmlSplitQName3(qname, &len);
if (name == NULL) {
if (def == NULL) {
if (xmlStrEqual(node->name, BAD_CAST "element")) {
if (schema->flags & XML_SCHEMAS_QUALIF_ELEM)
*namespace = schema->targetNamespace;
} else if (xmlStrEqual(node->name, BAD_CAST "attribute")) {
if (schema->flags & XML_SCHEMAS_QUALIF_ATTR)
*namespace = schema->targetNamespace;
} else if ((xmlStrEqual(node->name, BAD_CAST "simpleType")) ||
(xmlStrEqual(node->name, BAD_CAST "complexType"))) {
*namespace = schema->targetNamespace;
}
} else {
*namespace = def;
}
return(qname);
}
name = xmlDictLookup(ctxt->dict, name, -1);
prefix = xmlDictLookup(ctxt->dict, qname, len);
if (def != NULL) {
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_DEF_AND_PREFIX,
"%s: presence of both prefix %s and targetNamespace\n",
node->name, prefix);
}
ns = xmlSearchNs(node->doc, node, prefix);
if (ns == NULL) {
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_PREFIX_UNDEFINED,
"%s: the QName prefix %s is undefined\n",
node->name, prefix);
return(name);
}
*namespace = xmlDictLookup(ctxt->dict, ns->href, -1);
return(name);
}
#endif
/************************************************************************
* *
* Parsing functions *
* *
************************************************************************/
/**
* xmlSchemaGetElem:
* @schema: the schemas context
* @name: the element name
* @ns: the element namespace
* @level: how deep is the request
*
* Lookup a an element in the schemas or the accessible schemas
*
* Returns the element definition or NULL if not found.
*/
static xmlSchemaElementPtr
xmlSchemaGetElem(xmlSchemaPtr schema, const xmlChar * name,
const xmlChar * namespace, int level)
{
xmlSchemaElementPtr ret;
xmlSchemaImportPtr import = NULL;
if ((name == NULL) || (schema == NULL))
return (NULL);
ret = xmlHashLookup2(schema->elemDecl, name, namespace);
if ((ret != NULL) &&
((level == 0) || (ret->flags & XML_SCHEMAS_ELEM_GLOBAL))) {
return (ret);
} else
ret = NULL;
/*
* This one was removed, since top level element declarations have
* the target namespace specified in targetNamespace of the <schema>
* information element, even if elementFormDefault is "unqualified".
*/
/* else if ((schema->flags & XML_SCHEMAS_QUALIF_ELEM) == 0) {
if (xmlStrEqual(namespace, schema->targetNamespace))
ret = xmlHashLookup2(schema->elemDecl, name, NULL);
else
ret = xmlHashLookup2(schema->elemDecl, name, namespace);
if ((ret != NULL) &&
((level == 0) || (ret->flags & XML_SCHEMAS_ELEM_TOPLEVEL))) {
return (ret);
}
*/
/* if (level > 0) */
if (namespace == NULL)
import = xmlHashLookup(schema->schemasImports, XML_SCHEMAS_DEFAULT_NAMESPACE);
else
import = xmlHashLookup(schema->schemasImports, namespace);
if (import != NULL) {
ret = xmlSchemaGetElem(import->schema, name, namespace, level + 1);
if ((ret != NULL) && (ret->flags & XML_SCHEMAS_ELEM_GLOBAL)) {
return (ret);
} else
ret = NULL;
}
#ifdef DEBUG
if (ret == NULL) {
if (namespace == NULL)
fprintf(stderr, "Unable to lookup type %s", name);
else
fprintf(stderr, "Unable to lookup type %s:%s", name,
namespace);
}
#endif
return (ret);
}
/**
* xmlSchemaGetType:
* @schema: the schemas context
* @name: the type name
* @ns: the type namespace
*
* Lookup a type in the schemas or the predefined types
*
* Returns the group definition or NULL if not found.
*/
static xmlSchemaTypePtr
xmlSchemaGetType(xmlSchemaPtr schema, const xmlChar * name,
const xmlChar * namespace)
{
xmlSchemaTypePtr ret;
xmlSchemaImportPtr import;
if (name == NULL)
return (NULL);
if (schema != NULL) {
ret = xmlHashLookup2(schema->typeDecl, name, namespace);
if ((ret != NULL) && (ret->flags & XML_SCHEMAS_TYPE_GLOBAL))
return (ret);
}
ret = xmlSchemaGetPredefinedType(name, namespace);
if (ret != NULL)
return (ret);
if (namespace == NULL)
import = xmlHashLookup(schema->schemasImports, XML_SCHEMAS_DEFAULT_NAMESPACE);
else
import = xmlHashLookup(schema->schemasImports, namespace);
if (import != NULL) {
ret = xmlSchemaGetType(import->schema, name, namespace);
if ((ret != NULL) && (ret->flags & XML_SCHEMAS_TYPE_GLOBAL)) {
return (ret);
} else
ret = NULL;
}
#ifdef DEBUG
if (ret == NULL) {
if (namespace == NULL)
fprintf(stderr, "Unable to lookup type %s", name);
else
fprintf(stderr, "Unable to lookup type %s:%s", name,
namespace);
}
#endif
return (ret);
}
/**
* xmlSchemaGetAttribute:
* @schema: the context of the schema
* @name: the name of the attribute
* @ns: the target namespace of the attribute
*
* Lookup a an attribute in the schema or imported schemas
*
* Returns the attribute declaration or NULL if not found.
*/
static xmlSchemaAttributePtr
xmlSchemaGetAttribute(xmlSchemaPtr schema, const xmlChar * name,
const xmlChar * namespace)
{
xmlSchemaAttributePtr ret;
xmlSchemaImportPtr import = NULL;
if ((name == NULL) || (schema == NULL))
return (NULL);
ret = xmlHashLookup2(schema->attrDecl, name, namespace);
if ((ret != NULL) && (ret->flags & XML_SCHEMAS_ATTR_GLOBAL))
return (ret);
else
ret = NULL;
if (namespace == NULL)
import = xmlHashLookup(schema->schemasImports, XML_SCHEMAS_DEFAULT_NAMESPACE);
else
import = xmlHashLookup(schema->schemasImports, namespace);
if (import != NULL) {
ret = xmlSchemaGetAttribute(import->schema, name, namespace);
if ((ret != NULL) && (ret->flags & XML_SCHEMAS_ATTR_GLOBAL)) {
return (ret);
} else
ret = NULL;
}
#ifdef DEBUG
if (ret == NULL) {
if (namespace == NULL)
fprintf(stderr, "Unable to lookup attribute %s", name);
else
fprintf(stderr, "Unable to lookup attribute %s:%s", name,
namespace);
}
#endif
return (ret);
}
/**
* xmlSchemaGetAttributeGroup:
* @schema: the context of the schema
* @name: the name of the attribute group
* @ns: the target namespace of the attribute group
*
* Lookup a an attribute group in the schema or imported schemas
*
* Returns the attribute group definition or NULL if not found.
*/
static xmlSchemaAttributeGroupPtr
xmlSchemaGetAttributeGroup(xmlSchemaPtr schema, const xmlChar * name,
const xmlChar * namespace)
{
xmlSchemaAttributeGroupPtr ret;
xmlSchemaImportPtr import = NULL;
if ((name == NULL) || (schema == NULL))
return (NULL);
ret = xmlHashLookup2(schema->attrgrpDecl, name, namespace);
if ((ret != NULL) && (ret->flags & XML_SCHEMAS_ATTRGROUP_GLOBAL))
return (ret);
else
ret = NULL;
if (namespace == NULL)
import = xmlHashLookup(schema->schemasImports, XML_SCHEMAS_DEFAULT_NAMESPACE);
else
import = xmlHashLookup(schema->schemasImports, namespace);
if (import != NULL) {
ret = xmlSchemaGetAttributeGroup(import->schema, name, namespace);
if ((ret != NULL) && (ret->flags & XML_SCHEMAS_ATTRGROUP_GLOBAL))
return (ret);
else
ret = NULL;
}
#ifdef DEBUG
if (ret == NULL) {
if (namespace == NULL)
fprintf(stderr, "Unable to lookup attribute group %s", name);
else
fprintf(stderr, "Unable to lookup attribute group %s:%s", name,
namespace);
}
#endif
return (ret);
}
/**
* xmlSchemaGetGroup:
* @schema: the context of the schema
* @name: the name of the group
* @ns: the target namespace of the group
*
* Lookup a group in the schema or imported schemas
*
* Returns the group definition or NULL if not found.
*/
static xmlSchemaTypePtr
xmlSchemaGetGroup(xmlSchemaPtr schema, const xmlChar * name,
const xmlChar * namespace)
{
xmlSchemaTypePtr ret;
xmlSchemaImportPtr import = NULL;
if ((name == NULL) || (schema == NULL))
return (NULL);
ret = xmlHashLookup2(schema->groupDecl, name, namespace);
if ((ret != NULL) && (ret->flags & XML_SCHEMAS_TYPE_GLOBAL))
return (ret);
else
ret = NULL;
if (namespace == NULL)
import = xmlHashLookup(schema->schemasImports, XML_SCHEMAS_DEFAULT_NAMESPACE);
else
import = xmlHashLookup(schema->schemasImports, namespace);
if (import != NULL) {
ret = xmlSchemaGetGroup(import->schema, name, namespace);
if ((ret != NULL) && (ret->flags & XML_SCHEMAS_TYPE_GLOBAL))
return (ret);
else
ret = NULL;
}
#ifdef DEBUG
if (ret == NULL) {
if (namespace == NULL)
fprintf(stderr, "Unable to lookup group %s", name);
else
fprintf(stderr, "Unable to lookup group %s:%s", name,
namespace);
}
#endif
return (ret);
}
/************************************************************************
* *
* Parsing functions *
* *
************************************************************************/
#define IS_BLANK_NODE(n) \
(((n)->type == XML_TEXT_NODE) && (xmlSchemaIsBlank((n)->content)))
/**
* xmlSchemaIsBlank:
* @str: a string
*
* Check if a string is ignorable
*
* Returns 1 if the string is NULL or made of blanks chars, 0 otherwise
*/
static int
xmlSchemaIsBlank(xmlChar * str)
{
if (str == NULL)
return (1);
while (*str != 0) {
if (!(IS_BLANK_CH(*str)))
return (0);
str++;
}
return (1);
}
/**
* xmlSchemaAddNotation:
* @ctxt: a schema validation context
* @schema: the schema being built
* @name: the item name
*
* Add an XML schema Attrribute declaration
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaNotationPtr
xmlSchemaAddNotation(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
const xmlChar * name)
{
xmlSchemaNotationPtr ret = NULL;
int val;
if ((ctxt == NULL) || (schema == NULL) || (name == NULL))
return (NULL);
if (schema->notaDecl == NULL)
schema->notaDecl = xmlHashCreate(10);
if (schema->notaDecl == NULL)
return (NULL);
ret = (xmlSchemaNotationPtr) xmlMalloc(sizeof(xmlSchemaNotation));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "add annotation", NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaNotation));
ret->name = xmlDictLookup(ctxt->dict, name, -1);
val = xmlHashAddEntry2(schema->notaDecl, name, schema->targetNamespace,
ret);
if (val != 0) {
xmlSchemaPErr(ctxt, (xmlNodePtr) ctxt->doc,
XML_SCHEMAP_REDEFINED_NOTATION,
"Notation %s already defined\n",
name, NULL);
xmlFree(ret);
return (NULL);
}
return (ret);
}
/**
* xmlSchemaAddAttribute:
* @ctxt: a schema validation context
* @schema: the schema being built
* @name: the item name
* @namespace: the namespace
*
* Add an XML schema Attrribute declaration
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaAttributePtr
xmlSchemaAddAttribute(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
const xmlChar * name, const xmlChar * namespace)
{
xmlSchemaAttributePtr ret = NULL;
int val;
if ((ctxt == NULL) || (schema == NULL) || (name == NULL))
return (NULL);
#ifdef DEBUG
fprintf(stderr, "Adding attribute %s\n", name);
if (namespace != NULL)
fprintf(stderr, " target namespace %s\n", namespace);
#endif
if (schema->attrDecl == NULL)
schema->attrDecl = xmlHashCreate(10);
if (schema->attrDecl == NULL)
return (NULL);
ret = (xmlSchemaAttributePtr) xmlMalloc(sizeof(xmlSchemaAttribute));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating attribute", NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaAttribute));
ret->name = xmlDictLookup(ctxt->dict, name, -1);
ret->targetNamespace = xmlDictLookup(ctxt->dict, namespace, -1);
val = xmlHashAddEntry3(schema->attrDecl, name,
schema->targetNamespace, ctxt->container, ret);
if (val != 0) {
xmlSchemaPErr(ctxt, (xmlNodePtr) ctxt->doc,
XML_SCHEMAP_REDEFINED_ATTR,
"Attribute %s already defined\n",
name, NULL);
xmlFree(ret);
return (NULL);
}
return (ret);
}
/**
* xmlSchemaAddAttributeGroup:
* @ctxt: a schema validation context
* @schema: the schema being built
* @name: the item name
*
* Add an XML schema Attrribute Group declaration
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaAttributeGroupPtr
xmlSchemaAddAttributeGroup(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, const xmlChar * name)
{
xmlSchemaAttributeGroupPtr ret = NULL;
int val;
if ((ctxt == NULL) || (schema == NULL) || (name == NULL))
return (NULL);
if (schema->attrgrpDecl == NULL)
schema->attrgrpDecl = xmlHashCreate(10);
if (schema->attrgrpDecl == NULL)
return (NULL);
ret =
(xmlSchemaAttributeGroupPtr)
xmlMalloc(sizeof(xmlSchemaAttributeGroup));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating attribute group", NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaAttributeGroup));
ret->name = xmlDictLookup(ctxt->dict, name, -1);
val = xmlHashAddEntry3(schema->attrgrpDecl, name,
schema->targetNamespace, ctxt->container, ret);
if (val != 0) {
xmlSchemaPErr(ctxt, (xmlNodePtr) ctxt->doc,
XML_SCHEMAP_REDEFINED_ATTRGROUP,
"Attribute group %s already defined\n",
name, NULL);
xmlFree(ret);
return (NULL);
}
return (ret);
}
/**
* xmlSchemaAddElement:
* @ctxt: a schema validation context
* @schema: the schema being built
* @name: the type name
* @namespace: the type namespace
*
* Add an XML schema Element declaration
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaElementPtr
xmlSchemaAddElement(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
const xmlChar * name, const xmlChar * namespace)
{
xmlSchemaElementPtr ret = NULL;
int val;
if ((ctxt == NULL) || (schema == NULL) || (name == NULL))
return (NULL);
#ifdef DEBUG
fprintf(stderr, "Adding element %s\n", name);
if (namespace != NULL)
fprintf(stderr, " target namespace %s\n", namespace);
#endif
if (schema->elemDecl == NULL)
schema->elemDecl = xmlHashCreate(10);
if (schema->elemDecl == NULL)
return (NULL);
ret = (xmlSchemaElementPtr) xmlMalloc(sizeof(xmlSchemaElement));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating element", NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaElement));
ret->name = xmlDictLookup(ctxt->dict, name, -1);
ret->targetNamespace = xmlDictLookup(ctxt->dict, namespace, -1);
val = xmlHashAddEntry3(schema->elemDecl, name,
namespace, ctxt->container, ret);
if (val != 0) {
char buf[100];
snprintf(buf, 99, "privatieelem %d", ctxt->counter++ + 1);
val = xmlHashAddEntry3(schema->elemDecl, name, (xmlChar *) buf,
namespace, ret);
if (val != 0) {
xmlSchemaPErr(ctxt, (xmlNodePtr) ctxt->doc,
XML_SCHEMAP_REDEFINED_ELEMENT,
"Element %s already defined\n",
name, NULL);
xmlFree(ret);
return (NULL);
}
}
return (ret);
}
/**
* xmlSchemaAddType:
* @ctxt: a schema parser context
* @schema: the schema being built
* @name: the item name
* @namespace: the namespace
*
* Add an XML schema item
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaAddType(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
const xmlChar * name, const xmlChar * namespace)
{
xmlSchemaTypePtr ret = NULL;
int val;
if ((ctxt == NULL) || (schema == NULL) || (name == NULL))
return (NULL);
#ifdef DEBUG
fprintf(stderr, "Adding type %s\n", name);
if (namespace != NULL)
fprintf(stderr, " target namespace %s\n", namespace);
#endif
if (schema->typeDecl == NULL)
schema->typeDecl = xmlHashCreate(10);
if (schema->typeDecl == NULL)
return (NULL);
ret = (xmlSchemaTypePtr) xmlMalloc(sizeof(xmlSchemaType));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating type", NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaType));
ret->name = xmlDictLookup(ctxt->dict, name, -1);
ret->redef = NULL;
val = xmlHashAddEntry2(schema->typeDecl, name, namespace, ret);
if (val != 0) {
if (ctxt->includes == 0) {
xmlSchemaPErr(ctxt, (xmlNodePtr) ctxt->doc,
XML_SCHEMAP_REDEFINED_TYPE,
"Type %s already defined\n",
name, NULL);
xmlFree(ret);
return (NULL);
} else {
xmlSchemaTypePtr prev;
prev = xmlHashLookup2(schema->typeDecl, name, namespace);
if (prev == NULL) {
xmlSchemaPErr(ctxt, (xmlNodePtr) ctxt->doc,
XML_ERR_INTERNAL_ERROR,
"Internal error on type %s definition\n",
name, NULL);
xmlFree(ret);
return (NULL);
}
ret->redef = prev->redef;
prev->redef = ret;
}
}
ret->minOccurs = 1;
ret->maxOccurs = 1;
ret->attributeUses = NULL;
ret->attributeWildcard = NULL;
return (ret);
}
/**
* xmlSchemaAddGroup:
* @ctxt: a schema validation context
* @schema: the schema being built
* @name: the group name
*
* Add an XML schema Group definition
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaAddGroup(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
const xmlChar * name)
{
xmlSchemaTypePtr ret = NULL;
int val;
if ((ctxt == NULL) || (schema == NULL) || (name == NULL))
return (NULL);
if (schema->groupDecl == NULL)
schema->groupDecl = xmlHashCreate(10);
if (schema->groupDecl == NULL)
return (NULL);
ret = (xmlSchemaTypePtr) xmlMalloc(sizeof(xmlSchemaType));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "adding group", NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaType));
ret->name = xmlDictLookup(ctxt->dict, name, -1);
val =
xmlHashAddEntry2(schema->groupDecl, name, schema->targetNamespace,
ret);
if (val != 0) {
xmlSchemaPErr(ctxt, (xmlNodePtr) ctxt->doc,
XML_SCHEMAP_REDEFINED_GROUP,
"Group %s already defined\n",
name, NULL);
xmlFree(ret);
return (NULL);
}
ret->minOccurs = 1;
ret->maxOccurs = 1;
return (ret);
}
/**
* xmlSchemaNewWildcardNs:
* @ctxt: a schema validation context
*
* Creates a new wildcard namespace constraint.
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaWildcardNsPtr
xmlSchemaNewWildcardNsConstraint(xmlSchemaParserCtxtPtr ctxt)
{
xmlSchemaWildcardNsPtr ret;
ret = (xmlSchemaWildcardNsPtr)
xmlMalloc(sizeof(xmlSchemaWildcardNs));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "creating wildcard namespace constraint", NULL);
return (NULL);
}
ret->value = NULL;
ret->next = NULL;
return (ret);
}
/**
* xmlSchemaAddWildcard:
* @ctxt: a schema validation context
* @schema: the schema being built
* @name: the group name
*
* Add an XML schema Group definition
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaWildcardPtr
xmlSchemaAddWildcard(xmlSchemaParserCtxtPtr ctxt)
{
xmlSchemaWildcardPtr ret = NULL;
if (ctxt == NULL)
return (NULL);
ret = (xmlSchemaWildcardPtr) xmlMalloc(sizeof(xmlSchemaWildcard));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "adding wildcard", NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaWildcard));
ret->minOccurs = 1;
ret->maxOccurs = 1;
return (ret);
}
/************************************************************************
* *
* Utilities for parsing *
* *
************************************************************************/
/**
* xmlGetQNameProp:
* @ctxt: a schema validation context
* @node: a subtree containing XML Schema informations
* @name: the attribute name
* @namespace: the result namespace if any
*
* Extract a QName Attribute value
*
* Returns the NCName or NULL if not found, and also update @namespace
* with the namespace URI
*/
static const xmlChar *
xmlGetQNameProp(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node,
const char *name, const xmlChar ** namespace)
{
const xmlChar *val;
xmlNsPtr ns;
const xmlChar *ret, *prefix;
int len;
*namespace = NULL;
val = xmlSchemaGetProp(ctxt, node, name);
if (val == NULL)
return (NULL);
if (!strchr((char *) val, ':')) {
ns = xmlSearchNs(node->doc, node, 0);
if (ns) {
*namespace = xmlDictLookup(ctxt->dict, ns->href, -1);
return (val);
}
}
ret = xmlSplitQName3(val, &len);
if (ret == NULL) {
return (val);
}
ret = xmlDictLookup(ctxt->dict, ret, -1);
prefix = xmlDictLookup(ctxt->dict, val, len);
ns = xmlSearchNs(node->doc, node, prefix);
if (ns == NULL) {
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_PREFIX_UNDEFINED,
"Attribute \"%s\": the QName prefix \"%s\" is undefined\n",
(const xmlChar *) name, prefix);
} else {
*namespace = xmlDictLookup(ctxt->dict, ns->href, -1);
}
return (ret);
}
/**
* xmlGetMaxOccurs:
* @ctxt: a schema validation context
* @node: a subtree containing XML Schema informations
*
* Get the maxOccurs property
*
* Returns the default if not found, or the value
*/
static int
xmlGetMaxOccurs(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node)
{
const xmlChar *val, *cur;
int ret = 0;
val = xmlSchemaGetProp(ctxt, node, "maxOccurs");
if (val == NULL)
return (1);
if (xmlStrEqual(val, (const xmlChar *) "unbounded")) {
return (UNBOUNDED); /* encoding it with -1 might be another option */
}
cur = val;
while (IS_BLANK_CH(*cur))
cur++;
while ((*cur >= '0') && (*cur <= '9')) {
ret = ret * 10 + (*cur - '0');
cur++;
}
while (IS_BLANK_CH(*cur))
cur++;
if (*cur != 0) {
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_INVALID_MAXOCCURS,
"invalid value for maxOccurs: %s\n", val, NULL);
return (1);
}
return (ret);
}
/**
* xmlGetMinOccurs:
* @ctxt: a schema validation context
* @node: a subtree containing XML Schema informations
*
* Get the minOccurs property
*
* Returns the default if not found, or the value
*/
static int
xmlGetMinOccurs(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node)
{
const xmlChar *val, *cur;
int ret = 0;
val = xmlSchemaGetProp(ctxt, node, "minOccurs");
if (val == NULL)
return (1);
cur = val;
while (IS_BLANK_CH(*cur))
cur++;
while ((*cur >= '0') && (*cur <= '9')) {
ret = ret * 10 + (*cur - '0');
cur++;
}
while (IS_BLANK_CH(*cur))
cur++;
if (*cur != 0) {
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_INVALID_MINOCCURS,
"invalid value for minOccurs: %s\n", val, NULL);
return (1);
}
return (ret);
}
/**
* xmlGetBooleanProp:
* @ctxt: a schema validation context
* @node: a subtree containing XML Schema informations
* @name: the attribute name
* @def: the default value
*
* Get is a bolean property is set
*
* Returns the default if not found, 0 if found to be false,
* 1 if found to be true
*/
static int
xmlGetBooleanProp(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node,
const char *name, int def)
{
const xmlChar *val;
val = xmlSchemaGetProp(ctxt, node, name);
if (val == NULL)
return (def);
if (xmlStrEqual(val, BAD_CAST "true"))
def = 1;
else if (xmlStrEqual(val, BAD_CAST "false"))
def = 0;
else {
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_INVALID_BOOLEAN,
"Attribute %s: the value %s is not boolean\n",
(const xmlChar *) name, val);
}
return (def);
}
/************************************************************************
* *
* Shema extraction from an Infoset *
* *
************************************************************************/
static xmlSchemaTypePtr xmlSchemaParseSimpleType(xmlSchemaParserCtxtPtr
ctxt, xmlSchemaPtr schema,
xmlNodePtr node,
int topLevel);
static xmlSchemaTypePtr xmlSchemaParseComplexType(xmlSchemaParserCtxtPtr
ctxt,
xmlSchemaPtr schema,
xmlNodePtr node,
int topLevel);
static xmlSchemaTypePtr xmlSchemaParseRestriction(xmlSchemaParserCtxtPtr
ctxt,
xmlSchemaPtr schema,
xmlNodePtr node);
static xmlSchemaTypePtr xmlSchemaParseSequence(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node);
static xmlSchemaTypePtr xmlSchemaParseAll(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node);
static xmlSchemaAttributePtr xmlSchemaParseAttribute(xmlSchemaParserCtxtPtr
ctxt,
xmlSchemaPtr schema,
xmlNodePtr node,
int topLevel);
static xmlSchemaAttributeGroupPtr
xmlSchemaParseAttributeGroup(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr node,
int topLevel);
static xmlSchemaTypePtr xmlSchemaParseChoice(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node);
static xmlSchemaTypePtr xmlSchemaParseList(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node);
static xmlSchemaWildcardPtr
xmlSchemaParseAnyAttribute(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr node);
/**
* xmlSchemaParseSchemaAttrValue:
*
* @ctxt: a schema parser context
* @attr: the schema attribute being validated
* @type: the built-in type to be validated against
* @value: the value to be validated
*
* Validates a value against the given built-in type.
* This one is intended to be used internally for validation
* of schema attribute values during parsing of the schema.
*
* Returns 0 if the value is valid, a positive error code
* number otherwise and -1 in case of an internal or API error.
*/
static int
xmlSchemaParseSchemaAttrValue(xmlSchemaParserCtxtPtr ctxt,
xmlAttrPtr attr,
xmlSchemaTypePtr type)
{
const xmlChar *value;
int ret;
if ((ctxt == NULL) || (type == NULL) || (attr == NULL))
return (-1);
value = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
switch (type->builtInType) {
case XML_SCHEMAS_NCNAME:
ret = xmlValidateNCName(value, 1);
break;
case XML_SCHEMAS_QNAME:
ret = xmlValidateQName(value, 1);
if ((ret == 0) && (attr != NULL)) {
xmlChar *local = NULL;
xmlChar *prefix;
local = xmlSplitQName2(value, &prefix);
if (prefix != NULL) {
xmlNsPtr ns;
ns = xmlSearchNs(attr->doc, (xmlNodePtr) attr, prefix);
if (ns == NULL) {
xmlSchemaPErr(ctxt, (xmlNodePtr) attr,
XML_SCHEMAP_PREFIX_UNDEFINED,
"Attribute \"%s\": the QName prefix "
"\"%s\" is undefined.\n",
attr->name, prefix);
ret = 1;
}
}
if (local != NULL)
xmlFree(local);
if (prefix != NULL)
xmlFree(prefix);
}
break;
default: {
xmlSchemaPErr(ctxt, (xmlNodePtr) attr,
XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaParseSchemaAttrValue, validation "
"using this type in not implemented yet\"%s\".\n",
type->name, NULL);
return (-1);
}
}
if (ret > 0) {
if (type->flags & XML_SCHEMAS_TYPE_VARIETY_LIST) {
xmlSchemaPErrExt(ctxt, (xmlNodePtr) attr,
XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_2,
NULL, NULL, NULL,
"The schema attribute \"%s\" with the value \"%s\" is not "
"of built-in list simple type \"%s\".\n",
attr->name, value, type->name, NULL, NULL);
} else {
if (type->flags & XML_SCHEMAS_TYPE_BUILTIN_PRIMITIVE) {
xmlSchemaPErrExt(ctxt, (xmlNodePtr) attr,
XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1,
NULL, NULL, NULL,
"The schema attribute \"%s\" with the value \"%s\" is not "
"of built-in primitive type \"%s\".\n",
attr->name, value, type->name, NULL, NULL);
} else {
xmlSchemaPErrExt(ctxt, (xmlNodePtr) attr,
XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1,
NULL, NULL, NULL,
"The schema attribute \"%s\" with the value \"%s\" is not "
"of built-in atomic simple type \"%s\".\n",
attr->name, value, type->name, NULL, NULL);
}
}
}
return (ret);
}
/**
* xmlSchemaParseAttrDecls:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
* @type: the hosting type
*
* parse a XML schema attrDecls declaration corresponding to
* <!ENTITY % attrDecls
* '((%attribute;| %attributeGroup;)*,(%anyAttribute;)?)'>
*/
static xmlNodePtr
xmlSchemaParseAttrDecls(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr child, xmlSchemaTypePtr type)
{
xmlSchemaAttributePtr lastattr, attr;
lastattr = NULL;
while ((IS_SCHEMA(child, "attribute")) ||
(IS_SCHEMA(child, "attributeGroup"))) {
attr = NULL;
if (IS_SCHEMA(child, "attribute")) {
attr = xmlSchemaParseAttribute(ctxt, schema, child, 0);
} else if (IS_SCHEMA(child, "attributeGroup")) {
attr = (xmlSchemaAttributePtr)
xmlSchemaParseAttributeGroup(ctxt, schema, child, 0);
}
if (attr != NULL) {
if (lastattr == NULL) {
if (type->type == XML_SCHEMA_TYPE_ATTRIBUTEGROUP)
((xmlSchemaAttributeGroupPtr) type)->attributes = attr;
else
type->attributes = attr;
lastattr = attr;
} else {
lastattr->next = attr;
lastattr = attr;
}
}
child = child->next;
}
if (IS_SCHEMA(child, "anyAttribute")) {
xmlSchemaWildcardPtr wildcard;
wildcard = xmlSchemaParseAnyAttribute(ctxt, schema, child);
if (wildcard != NULL) {
if (type->type == XML_SCHEMA_TYPE_ATTRIBUTEGROUP)
((xmlSchemaAttributeGroupPtr) type)->attributeWildcard = wildcard;
else
type->attributeWildcard = wildcard;
}
child = child->next;
}
return (child);
}
/**
* xmlSchemaParseAnnotation:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Attrribute declaration
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaAnnotPtr
xmlSchemaParseAnnotation(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaAnnotPtr ret;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
ret = xmlSchemaNewAnnot(ctxt, node);
return (ret);
}
/**
* xmlSchemaParseFacet:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Facet declaration
* *WARNING* this interface is highly subject to change
*
* Returns the new type structure or NULL in case of error
*/
static xmlSchemaFacetPtr
xmlSchemaParseFacet(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaFacetPtr facet;
xmlNodePtr child = NULL;
const xmlChar *value;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
facet = xmlSchemaNewFacet();
if (facet == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating facet", node);
return (NULL);
}
facet->node = node;
value = xmlSchemaGetProp(ctxt, node, "value");
if (value == NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_FACET_NO_VALUE,
"Facet %s has no value\n", node->name, NULL);
xmlSchemaFreeFacet(facet);
return (NULL);
}
if (IS_SCHEMA(node, "minInclusive")) {
facet->type = XML_SCHEMA_FACET_MININCLUSIVE;
} else if (IS_SCHEMA(node, "minExclusive")) {
facet->type = XML_SCHEMA_FACET_MINEXCLUSIVE;
} else if (IS_SCHEMA(node, "maxInclusive")) {
facet->type = XML_SCHEMA_FACET_MAXINCLUSIVE;
} else if (IS_SCHEMA(node, "maxExclusive")) {
facet->type = XML_SCHEMA_FACET_MAXEXCLUSIVE;
} else if (IS_SCHEMA(node, "totalDigits")) {
facet->type = XML_SCHEMA_FACET_TOTALDIGITS;
} else if (IS_SCHEMA(node, "fractionDigits")) {
facet->type = XML_SCHEMA_FACET_FRACTIONDIGITS;
} else if (IS_SCHEMA(node, "pattern")) {
facet->type = XML_SCHEMA_FACET_PATTERN;
} else if (IS_SCHEMA(node, "enumeration")) {
facet->type = XML_SCHEMA_FACET_ENUMERATION;
} else if (IS_SCHEMA(node, "whiteSpace")) {
facet->type = XML_SCHEMA_FACET_WHITESPACE;
} else if (IS_SCHEMA(node, "length")) {
facet->type = XML_SCHEMA_FACET_LENGTH;
} else if (IS_SCHEMA(node, "maxLength")) {
facet->type = XML_SCHEMA_FACET_MAXLENGTH;
} else if (IS_SCHEMA(node, "minLength")) {
facet->type = XML_SCHEMA_FACET_MINLENGTH;
} else {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_FACET_TYPE,
"Unknown facet type %s\n", node->name, NULL);
xmlSchemaFreeFacet(facet);
return (NULL);
}
facet->id = xmlSchemaGetProp(ctxt, node, "id");
facet->value = value;
if ((facet->type != XML_SCHEMA_FACET_PATTERN) &&
(facet->type != XML_SCHEMA_FACET_ENUMERATION)) {
const xmlChar *fixed;
fixed = xmlSchemaGetProp(ctxt, node, "fixed");
if (fixed != NULL) {
if (xmlStrEqual(fixed, BAD_CAST "true"))
facet->fixed = 1;
}
}
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
facet->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_FACET_CHILD,
"Facet %s has unexpected child content\n",
node->name, NULL);
}
return (facet);
}
/**
* xmlSchemaParseAny:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Any declaration
* *WARNING* this interface is highly subject to change
*
* Returns the new type structure or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaParseAny(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaTypePtr type;
xmlNodePtr child = NULL;
xmlChar name[30];
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
snprintf((char *) name, 30, "any %d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, name, NULL);
if (type == NULL)
return (NULL);
type->node = node;
type->type = XML_SCHEMA_TYPE_ANY;
child = node->children;
type->minOccurs = xmlGetMinOccurs(ctxt, node);
type->maxOccurs = xmlGetMaxOccurs(ctxt, node);
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_UNKNOWN_SEQUENCE_CHILD,
"Sequence %s has unexpected content\n", type->name,
NULL);
}
return (type);
}
/**
* xmlSchemaParseNotation:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Notation declaration
*
* Returns the new structure or NULL in case of error
*/
static xmlSchemaNotationPtr
xmlSchemaParseNotation(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
const xmlChar *name;
xmlSchemaNotationPtr ret;
xmlNodePtr child = NULL;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
name = xmlSchemaGetProp(ctxt, node, "name");
if (name == NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_NOTATION_NO_NAME,
"Notation has no name\n", NULL, NULL);
return (NULL);
}
ret = xmlSchemaAddNotation(ctxt, schema, name);
if (ret == NULL) {
return (NULL);
}
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
ret->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_UNKNOWN_NOTATION_CHILD,
"notation %s has unexpected content\n", name, NULL);
}
return (ret);
}
/**
* xmlSchemaParseAnyAttribute:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema AnyAttrribute declaration
* *WARNING* this interface is highly subject to change
*
* Returns an attribute def structure or NULL
*/
static xmlSchemaWildcardPtr
xmlSchemaParseAnyAttribute(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr node)
{
const xmlChar *processContents, *nsConstraint, *end, *cur, *dictMember;
xmlChar *member;
xmlSchemaWildcardPtr ret;
xmlSchemaWildcardNsPtr tmp, lastNs = NULL;
xmlNodePtr child = NULL;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
ret = xmlSchemaAddWildcard(ctxt);
if (ret == NULL) {
return (NULL);
}
ret->type = XML_SCHEMA_TYPE_ANY_ATTRIBUTE;
ret->id = xmlSchemaGetProp(ctxt, node, "id");
processContents = xmlSchemaGetProp(ctxt, node, "processContents");
if ((processContents == NULL)
|| (xmlStrEqual(processContents, (const xmlChar *) "strict"))) {
ret->processContents = XML_SCHEMAS_ANY_STRICT;
} else if (xmlStrEqual(processContents, (const xmlChar *) "skip")) {
ret->processContents = XML_SCHEMAS_ANY_SKIP;
} else if (xmlStrEqual(processContents, (const xmlChar *) "lax")) {
ret->processContents = XML_SCHEMAS_ANY_LAX;
} else {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_UNKNOWN_PROCESSCONTENT_CHILD,
"anyAttribute has unexpected content "
"for processContents: %s\n",
processContents, NULL);
ret->processContents = XML_SCHEMAS_ANY_STRICT;
}
/*
* Build the namespace constraints.
*/
nsConstraint = xmlSchemaGetProp(ctxt, node, "namespace");
if ((nsConstraint == NULL) || (xmlStrEqual(nsConstraint, BAD_CAST "##any")))
ret->any = 1;
else if (xmlStrEqual(nsConstraint, BAD_CAST "##other")) {
ret->negNsSet = xmlSchemaNewWildcardNsConstraint(ctxt);
if (ret->negNsSet == NULL) {
xmlSchemaFreeWildcard(ret);
return (NULL);
}
ret->negNsSet->value = schema->targetNamespace;
} else {
cur = nsConstraint;
do {
while (IS_BLANK_CH(*cur))
cur++;
end = cur;
while ((*end != 0) && (!(IS_BLANK_CH(*end))))
end++;
if (end == cur)
break;
member = xmlStrndup(cur, end - cur);
if ((xmlStrEqual(member, BAD_CAST "##other")) ||
(xmlStrEqual(member, BAD_CAST "##any"))) {
xmlSchemaPErr(ctxt, ret->node, XML_SCHEMAP_WILDCARD_INVALID_NS_MEMBER,
"The namespace constraint of an anyAttribute "
"is a set and must not contain \"%s\"\n",
member, NULL);
} else {
/*
* TODO: Validate the value (anyURI).
*/
if (xmlStrEqual(member, BAD_CAST "##targetNamespace")) {
dictMember = schema->targetNamespace;
} else if (xmlStrEqual(member, BAD_CAST "##local")) {
dictMember = NULL;
} else
dictMember = xmlDictLookup(ctxt->dict, member, -1);
/*
* Avoid dublicate namespaces.
*/
tmp = ret->nsSet;
while (tmp != NULL) {
if (dictMember == tmp->value)
break;
tmp = tmp->next;
}
if (tmp == NULL) {
tmp = xmlSchemaNewWildcardNsConstraint(ctxt);
if (tmp == NULL) {
xmlFree(member);
xmlSchemaFreeWildcard(ret);
return (NULL);
}
tmp->value = dictMember;
tmp->next = NULL;
if (ret->nsSet == NULL)
ret->nsSet = tmp;
else
lastNs->next = tmp;
lastNs = tmp;
}
}
xmlFree(member);
cur = end;
} while (*cur != 0);
}
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
ret->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_UNKNOWN_ANYATTRIBUTE_CHILD,
"anyAttribute has unexpected content\n",
NULL, NULL);
}
return (ret);
}
/**
* xmlSchemaParseAttribute:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Attrribute declaration
* *WARNING* this interface is highly subject to change
*
* Returns the attribute declaration.
*/
static xmlSchemaAttributePtr
xmlSchemaParseAttribute(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, int topLevel)
{
const xmlChar *name, *refNs = NULL, *ref = NULL, *attrVal;
xmlSchemaAttributePtr ret;
xmlNodePtr child = NULL;
char buf[100];
int hasRefType = 0;
/*
* Note that the w3c spec assumes the schema to be validated with schema
* for schemas beforehand.
*
* 3.2.3 Constraints on XML Representations of Attribute Declarations
*
* TODO: Complete implementation of:
* 3.2.6 Schema Component Constraint: Attribute Declaration Properties
* Correct
*/
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
name = xmlSchemaGetProp(ctxt, node, "name");
if (name == NULL) {
ref = xmlGetQNameProp(ctxt, node, "ref", &refNs);
/* 3.2.3 : 3.1
* One of ref or name must be present, but not both
*/
if (ref == NULL) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_ATTR_NONAME_NOREF,
"Attribute declaration has no \"name\" or \"ref\"\n",
NULL, NULL);
return (NULL);
}
hasRefType = 1;
snprintf(buf, 99, "anonattr %d", ctxt->counter++ + 1);
name = (const xmlChar *) buf;
ret = xmlSchemaAddAttribute(ctxt, schema, name, NULL);
if (!topLevel) {
/* 3.2.3 : 3.2
* If ref is present, then all of <simpleType>,
* form and type must be absent.
*/
if (xmlSchemaGetProp(ctxt, node, "form") != NULL) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_INVALID_ATTR_COMBINATION,
"Attribute declaration %s has \"ref\", thus "
"\"form\" must be absent\n", name, NULL);
}
if (xmlSchemaGetProp(ctxt, node, "type") != NULL) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_INVALID_ATTR_COMBINATION,
"Attribute declaration %s has \"ref\", thus "
"\"type\" must be absent\n", name, NULL);
}
}
} else {
const xmlChar *ns = NULL;
/* 3.2.3 : 3.1
* One of ref or name must be present, but not both
*/
if ((!topLevel) && (xmlSchemaGetProp(ctxt, node, "ref") != NULL)) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_INVALID_ATTR_COMBINATION,
"Attribute declaration \"%s\" has both, \"name\" and "
"\"ref\"\n", name, NULL);
}
/* local = xmlSchemaGetNamespace(ctxt, schema, node, name, &ns); */
/* Evaluate the target namespace */
if (schema->targetNamespace != NULL) {
if (topLevel) {
ns = schema->targetNamespace;
} else if (xmlSchemaGetProp(ctxt, node, "form") != NULL) {
if (xmlStrEqual( xmlSchemaGetProp(ctxt, node, "form"),
BAD_CAST "qualified")) {
ns = schema->targetNamespace;
}
} else if (schema->flags & XML_SCHEMAS_QUALIF_ATTR) {
ns = schema->targetNamespace;
}
}
ret = xmlSchemaAddAttribute(ctxt, schema, name, ns);
if (ret == NULL)
return (NULL);
/* 3.2.6 Schema Component Constraint: xmlns Not Allowed */
if (xmlStrEqual(name, BAD_CAST "xmlns")) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_INVALID_ATTR_NAME,
"The name of an attribute declaration must not match "
"\"xmlns\".\n", NULL, NULL);
}
/* 3.2.6 Schema Component Constraint: xsi: Not Allowed */
if (xmlStrEqual(ret->targetNamespace, xmlSchemaInstanceNs)) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_INVALID_ATTR_NAME,
"The target namespace of an attribute declaration, "
"must not match \"http://www.w3.org/2001/"
"XMLSchema-instance\"", NULL, NULL);
}
}
if (ret == NULL) {
return (NULL);
}
ret->type = XML_SCHEMA_TYPE_ATTRIBUTE;
if (topLevel)
ret->flags |= XML_SCHEMAS_ATTR_GLOBAL;
/* Handle the "use" attribute. */
attrVal = xmlSchemaGetProp(ctxt, node, "use");
if (attrVal != NULL) {
if (xmlStrEqual(attrVal, BAD_CAST "optional"))
ret->occurs = XML_SCHEMAS_ATTR_USE_OPTIONAL;
else if (xmlStrEqual(attrVal, BAD_CAST "prohibited"))
ret->occurs = XML_SCHEMAS_ATTR_USE_PROHIBITED;
else if (xmlStrEqual(attrVal, BAD_CAST "required"))
ret->occurs = XML_SCHEMAS_ATTR_USE_REQUIRED;
else
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_INVALID_ATTR_USE,
"Attribute declaration %s has an invalid "
"value for \"use\"\n", name, NULL);
} else
ret->occurs = XML_SCHEMAS_ATTR_USE_OPTIONAL;
if (xmlSchemaGetProp(ctxt, node, "default") != NULL) {
/* 3.2.3 : 1
* default and fixed must not both be present.
*/
if (xmlSchemaGetProp(ctxt, node, "fixed") != NULL) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_INVALID_ATTR_COMBINATION,
"Attribute declaration has both, \"default\" "
"and \"fixed\"\n", NULL, NULL);
}
/* 3.2.3 : 2
* If default and use are both present, use must have
* the actual value optional.
*/
if (ret->occurs != XML_SCHEMAS_ATTR_USE_OPTIONAL) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_INVALID_ATTR_COMBINATION,
"Attribute declaration has \"default\" but "
"\"use\" is not \"optional\"\n", NULL, NULL);
}
}
ret->ref = ref;
ret->refNs = refNs;
/*
* The setting of XML_SCHEMAS_ATTR_NSDEFAULT is not needed anymore,
* since the target namespace was already evaluated and took
* attributeFormDefault into account.
*/
/*
if ((ret->targetNamespace != NULL) &&
((schema->flags & XML_SCHEMAS_QUALIF_ATTR) == 0) &&
(xmlStrEqual(ret->targetNamespace, schema->targetNamespace)))
ret->flags |= XML_SCHEMAS_ATTR_NSDEFAULT;
*/
ret->typeName = xmlGetQNameProp(ctxt, node, "type", &(ret->typeNs));
if (ret->typeName != NULL)
hasRefType = 1;
ret->node = node;
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
ret->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
if (IS_SCHEMA(child, "simpleType")) {
if (hasRefType) {
/* 3.2.3 : 4
* type and <simpleType> must not both be present.
*
* TODO: XML_SCHEMAP_INVALID_ATTR_COMBINATION seems not to be
* a proper error type here.
*/
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_INVALID_ATTR_COMBINATION,
"Attribute declaration %s has both (\"ref\" or "
"\"type\") and <simpleType>\n", name, NULL);
} else
ret->subtypes = xmlSchemaParseSimpleType(ctxt, schema, child, 0);
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_ATTR_CHILD,
"attribute %s has unexpected content\n", name,
NULL);
}
return (ret);
}
/**
* xmlSchemaParseAttributeGroup:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Attribute Group declaration
* *WARNING* this interface is highly subject to change
*
* Returns the attribute group or NULL in case of error.
*/
static xmlSchemaAttributeGroupPtr
xmlSchemaParseAttributeGroup(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr node,
int topLevel)
{
const xmlChar *name, *refNs = NULL, *ref = NULL;
xmlSchemaAttributeGroupPtr ret;
xmlNodePtr child = NULL;
const xmlChar *oldcontainer;
char buf[100];
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
oldcontainer = ctxt->container;
name = xmlSchemaGetProp(ctxt, node, "name");
if (name == NULL) {
ref = xmlGetQNameProp(ctxt, node, "ref", &refNs);
if (ref == NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_ATTRGRP_NONAME_NOREF,
"AttributeGroup has no name nor ref\n", NULL,
NULL);
return (NULL);
}
snprintf(buf, 99, "anonattrgroup %d", ctxt->counter++ + 1);
name = (const xmlChar *) buf;
if (name == NULL) {
xmlSchemaPErrMemory(ctxt, "creating attribute group", node);
return (NULL);
}
}
ret = xmlSchemaAddAttributeGroup(ctxt, schema, name);
if (ret == NULL) {
return (NULL);
}
ret->ref = ref;
ret->refNs = refNs;
ret->type = XML_SCHEMA_TYPE_ATTRIBUTEGROUP;
if (topLevel)
ret->flags |= XML_SCHEMAS_ATTRGROUP_GLOBAL;
ret->node = node;
child = node->children;
ctxt->container = name;
if (IS_SCHEMA(child, "annotation")) {
ret->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
child = xmlSchemaParseAttrDecls(ctxt, schema, child, (xmlSchemaTypePtr) ret);
/* Seems that this can be removed. */
/*
while ((IS_SCHEMA(child, "attribute")) ||
(IS_SCHEMA(child, "attributeGroup"))) {
attr = NULL;
if (IS_SCHEMA(child, "attribute")) {
attr = xmlSchemaParseAttribute(ctxt, schema, child, 0);
} else if (IS_SCHEMA(child, "attributeGroup")) {
attr = (xmlSchemaAttributePtr)
xmlSchemaParseAttributeGroup(ctxt, schema, child, 0);
}
if (attr != NULL) {
if (last == NULL) {
ret->attributes = attr;
last = attr;
} else {
last->next = attr;
last = attr;
}
}
child = child->next;
}
if (IS_SCHEMA(child, "anyAttribute")) {
TODO
child = child->next;
}
*/
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_UNKNOWN_ATTRGRP_CHILD,
"attribute group %s has unexpected content\n", name,
NULL);
}
ctxt->container = oldcontainer;
return (ret);
}
/**
* xmlSchemaParseElement:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Element declaration
* *WARNING* this interface is highly subject to change
*
* Returns the parsed element declaration.
*/
static xmlSchemaElementPtr
xmlSchemaParseElement(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, int topLevel)
{
const xmlChar *name, *fixed;
const xmlChar *refNs = NULL, *ref = NULL;
xmlSchemaElementPtr ret;
xmlNodePtr child = NULL;
const xmlChar *oldcontainer;
char buf[100];
xmlAttrPtr attr;
/* 3.3.3 Constraints on XML Representations of Element Declarations */
/* TODO: Complete implementation of 3.3.6 */
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
oldcontainer = ctxt->container;
name = xmlSchemaGetProp(ctxt, node, "name");
if (name == NULL) {
ref = xmlGetQNameProp(ctxt, node, "ref", &refNs);
/* 3.3.3 : 2.1
* One of ref or name must be present, but not both
*/
if (ref == NULL) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_ELEM_NONAME_NOREF,
"Element declaration has no name nor ref\n", NULL, NULL);
return (NULL);
}
snprintf(buf, 99, "anonelem %d", ctxt->counter++ + 1);
name = (const xmlChar *) buf;
ret = xmlSchemaAddElement(ctxt, schema, name, NULL);
} else {
const xmlChar *ns = NULL;
/* Evaluate the target namespace */
if (schema->targetNamespace != NULL) {
if (topLevel) {
ns = schema->targetNamespace;
} else if (xmlSchemaGetProp(ctxt, node, "form") != NULL) {
if (xmlStrEqual( xmlSchemaGetProp(ctxt, node, "form"),
BAD_CAST "qualified")) {
ns = schema->targetNamespace;
}
} else if (schema->flags & XML_SCHEMAS_QUALIF_ATTR) {
ns = schema->targetNamespace;
}
}
/*local = xmlSchemaGetNamespace(ctxt, schema, node, name, &ns); */
ret = xmlSchemaAddElement(ctxt, schema, name, ns);
/* 3.3.3 : 2.1
* One of ref or name must be present, but not both
*/
if ((!topLevel) && (xmlSchemaGetProp(ctxt, node, "ref") != NULL)) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_INVALID_ATTR_COMBINATION,
"Element declaration has both, \"name\" and "
"\"ref\"\n", NULL, NULL);
}
}
if (ret != NULL)
ret->node = node;
if (ret == NULL) {
return (NULL);
}
ret->type = XML_SCHEMA_TYPE_ELEMENT;
ret->ref = ref;
ret->refNs = refNs;
if (ref != NULL)
ret->flags |= XML_SCHEMAS_ELEM_REF;
/* 3.3.3 : 2.2 */
if ((!topLevel) && (ref != NULL)) {
attr = node->properties;
while (attr != NULL) {
if ((attr->ns == NULL) &&
(!xmlStrEqual(attr->name, BAD_CAST "ref")) &&
(!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "maxOccurs")) &&
(!xmlStrEqual(attr->name, BAD_CAST "minOccurs"))) {
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_INVALID_ATTR_COMBINATION,
"Element declaration %s: only minOccurs, maxOccurs "
"and id are allowed in addition to ref\n",
ret->name, NULL);
}
attr = attr->next;
}
}
if (topLevel) {
ret->flags |= XML_SCHEMAS_ELEM_GLOBAL;
ret->flags |= XML_SCHEMAS_ELEM_TOPLEVEL;
}
if (xmlGetBooleanProp(ctxt, node, "nillable", 0))
ret->flags |= XML_SCHEMAS_ELEM_NILLABLE;
if (xmlGetBooleanProp(ctxt, node, "abstract", 0))
ret->flags |= XML_SCHEMAS_ELEM_ABSTRACT;
ctxt->container = name;
ret->id = xmlSchemaGetProp(ctxt, node, "id");
ret->namedType =
xmlGetQNameProp(ctxt, node, "type", &(ret->namedTypeNs));
ret->substGroup =
xmlGetQNameProp(ctxt, node, "substitutionGroup",
&(ret->substGroupNs));
if ((ret->substGroup != NULL) && (!topLevel)) {
/* 3.3.6 : 3 */
/*
* TODO: This seems to be redundant, since the schema for schemas
* already prohibits the use of the "substitutionGroup" attribute
* in local element declarations.
*/
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_INVALID_ATTR_COMBINATION,
"Element declaration %s: substitutionGroup is allowed "
"on top-level declarations only\n", ret->name, NULL);
}
fixed = xmlSchemaGetProp(ctxt, node, "fixed");
ret->minOccurs = xmlGetMinOccurs(ctxt, node);
ret->maxOccurs = xmlGetMaxOccurs(ctxt, node);
ret->value = xmlSchemaGetProp(ctxt, node, "default");
if ((ret->value != NULL) && (fixed != NULL)) {
/* 3.3.3 : 1
* default and fixed must not both be present.
*/
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_ELEM_DEFAULT_FIXED,
"Element %s has both default and fixed\n",
ret->name, NULL);
} else if (fixed != NULL) {
ret->flags |= XML_SCHEMAS_ELEM_FIXED;
ret->value = fixed;
}
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
ret->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
if (ref != NULL) {
/* 3.3.3 (2.2) */
while (child != NULL) {
if ((IS_SCHEMA(child, "complexType")) ||
(IS_SCHEMA(child, "simpleType")) ||
(IS_SCHEMA(child, "unique")) ||
(IS_SCHEMA(child, "key")) ||
(IS_SCHEMA(child, "keyref"))) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_REF_AND_CONTENT,
"Element declaration %s: only annotation is "
"allowed as content in addition to ref\n",
ret->name, NULL);
} else {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_ELEM_CHILD,
"element %s has unexpected content\n", name, NULL);
}
child = child->next;
}
} else {
if (IS_SCHEMA(child, "complexType")) {
/* 3.3.3 : 3
* type and either <simpleType> or <complexType> are mutually
* exclusive
*/
if (ret->namedType != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_INVALID_ATTR_INLINE_COMBINATION,
"Element declaration %s has both \"type\" "
"and a local complex type\n",
ret->name, NULL);
} else
ret->subtypes = xmlSchemaParseComplexType(ctxt, schema, child, 0);
child = child->next;
} else if (IS_SCHEMA(child, "simpleType")) {
/* 3.3.3 : 3
* type and either <simpleType> or <complexType> are
* mutually exclusive
*/
if (ret->namedType != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_INVALID_ATTR_INLINE_COMBINATION,
"Element declaration %s has both \"type\" "
"and a local simple type\n",
ret->name, NULL);
} else
ret->subtypes = xmlSchemaParseSimpleType(ctxt, schema, child, 0);
child = child->next;
}
while ((IS_SCHEMA(child, "unique")) ||
(IS_SCHEMA(child, "key")) || (IS_SCHEMA(child, "keyref"))) {
TODO child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_ELEM_CHILD,
"element %s has unexpected content\n", name, NULL);
}
}
ctxt->container = oldcontainer;
return (ret);
}
/**
* xmlSchemaParseUnion:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Union definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaTypePtr
xmlSchemaParseUnion(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaTypePtr type, subtype, last = NULL;
xmlNodePtr child = NULL;
xmlChar name[30];
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
snprintf((char *) name, 30, "union %d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, name, NULL);
if (type == NULL)
return (NULL);
type->type = XML_SCHEMA_TYPE_UNION;
type->node = node;
type->id = xmlSchemaGetProp(ctxt, node, "id");
type->base = xmlSchemaGetProp(ctxt, node, "memberTypes");
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
while (IS_SCHEMA(child, "simpleType")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseSimpleType(ctxt, schema, child, 0);
if (subtype != NULL) {
if (last == NULL) {
type->subtypes = subtype;
last = subtype;
} else {
last->next = subtype;
last = subtype;
}
last->next = NULL;
}
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_UNION_CHILD,
"Union %s has unexpected content\n", type->name,
NULL);
}
return (type);
}
/**
* xmlSchemaParseList:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema List definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaTypePtr
xmlSchemaParseList(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaTypePtr type, subtype;
xmlNodePtr child = NULL;
xmlChar name[30];
xmlAttrPtr attr;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
snprintf((char *) name, 30, "list %d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, name, NULL);
if (type == NULL)
return (NULL);
type->node = node;
type->type = XML_SCHEMA_TYPE_LIST;
type->id = xmlSchemaGetProp(ctxt, node, "id");
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
/*
* Check type of "itemType".
*/
attr = xmlSchemaGetPropNode(node, BAD_CAST "itemType");
if (attr != NULL) {
type->base = xmlGetQNameProp(ctxt, node, "itemType", &(type->baseNs));
xmlSchemaParseSchemaAttrValue(ctxt, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_QNAME));
}
subtype = NULL;
if (IS_SCHEMA(child, "simpleType")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseSimpleType(ctxt, schema, child, 0);
type->subtypes = subtype;
/*
* This is a hack to save the information that a local
* simple type was defined.
*/
type->baseType = subtype;
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_LIST_CHILD,
"List %s has unexpected content\n", type->name,
NULL);
}
return (type);
}
/**
* xmlSchemaParseSimpleType:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Simple Type definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaTypePtr
xmlSchemaParseSimpleType(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, int topLevel)
{
xmlSchemaTypePtr type, subtype, ctxtType;
xmlNodePtr child = NULL;
const xmlChar *propVal;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
ctxtType = ctxt->ctxtType;
propVal = xmlSchemaGetProp(ctxt, node, "name");
if (propVal == NULL) {
char buf[100];
snprintf(buf, 99, "simpleType %d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, (const xmlChar *)buf, NULL);
} else {
if (!topLevel) {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED,
"The attribute \"name\" is not allowed on a local "
"simpleType definition\n",
propVal, NULL);
return (NULL);
}
/*
* "name" has to be of type NCName.
* TODO: Actually this should be validated by the schema for schemas.
*/
if (xmlSchemaParseSchemaAttrValue(ctxt,
xmlSchemaGetPropNode(node, BAD_CAST "name"),
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME)) != 0)
return (NULL);
type = xmlSchemaAddType(ctxt, schema, propVal, schema->targetNamespace);
}
if (type == NULL)
return (NULL);
type->node = node;
type->type = XML_SCHEMA_TYPE_SIMPLE;
if (topLevel)
type->flags |= XML_SCHEMAS_TYPE_GLOBAL;
type->id = xmlSchemaGetProp(ctxt, node, "id");
propVal = xmlSchemaGetProp(ctxt, node, "final");
if (propVal == NULL) {
type->flags |= XML_SCHEMAS_TYPE_FINAL_DEFAULT;
} else {
if (xmlStrEqual(propVal, BAD_CAST "#all")) {
type->flags |= XML_SCHEMAS_TYPE_FINAL_RESTRICTION;
type->flags |= XML_SCHEMAS_TYPE_FINAL_UNION;
type->flags |= XML_SCHEMAS_TYPE_FINAL_LIST;
} else {
const xmlChar *end, *cur = propVal;
xmlChar *item;
do {
while (IS_BLANK_CH(*cur))
cur++;
end = cur;
while ((*end != 0) && (!(IS_BLANK_CH(*end))))
end++;
if (end == cur)
break;
item = xmlStrndup(cur, end - cur);
if (xmlStrEqual(item, BAD_CAST "restriction")) {
if ((type->flags & XML_SCHEMAS_TYPE_FINAL_RESTRICTION) == 0)
type->flags |= XML_SCHEMAS_TYPE_FINAL_RESTRICTION;
} else if (xmlStrEqual(item, BAD_CAST "list")) {
if ((type->flags & XML_SCHEMAS_TYPE_FINAL_LIST) == 0)
type->flags |= XML_SCHEMAS_TYPE_FINAL_LIST;
} else if (xmlStrEqual(item, BAD_CAST "union")) {
if ((type->flags & XML_SCHEMAS_TYPE_FINAL_UNION) == 0)
type->flags |= XML_SCHEMAS_TYPE_FINAL_UNION;
} else {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAS_ERR_INTERNAL,
"The attribute \"final\" of type \"%s\" "
"has an invalid value\n",
type->name, NULL);
}
if (item != NULL)
xmlFree(item);
cur = end;
} while (*cur != 0);
}
}
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
subtype = NULL;
ctxt->ctxtType = type;
ctxt->parentItem = type;
if (IS_SCHEMA(child, "restriction")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseRestriction(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "list")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseList(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "union")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseUnion(ctxt, schema, child);
child = child->next;
}
type->subtypes = subtype;
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
"SimpleType \"%s\" has unexpected content\n",
type->name, NULL);
} else {
if (subtype == NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_S4S_ELEM_MISSING,
"SimpleType \"%s\" must have one of <restriction> or "
"<list> or <union> as a child\n",
type->name, NULL);
}
}
ctxt->ctxtType = ctxtType;
return (type);
}
/**
* xmlSchemaParseGroup:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Group definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaTypePtr
xmlSchemaParseGroup(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, int topLevel)
{
xmlSchemaTypePtr type, subtype;
xmlNodePtr child = NULL;
const xmlChar *name;
const xmlChar *ref = NULL, *refNs = NULL;
char buf[100];
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
name = xmlSchemaGetProp(ctxt, node, "name");
if (name == NULL) {
ref = xmlGetQNameProp(ctxt, node, "ref", &refNs);
if (ref == NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_GROUP_NONAME_NOREF,
"Group has no name nor ref\n", NULL, NULL);
return (NULL);
}
if (refNs == NULL)
refNs = schema->targetNamespace;
snprintf(buf, 99, "anongroup %d", ctxt->counter++ + 1);
name = (const xmlChar *) buf;
}
type = xmlSchemaAddGroup(ctxt, schema, name);
if (type == NULL)
return (NULL);
type->node = node;
type->type = XML_SCHEMA_TYPE_GROUP;
if (topLevel)
type->flags |= XML_SCHEMAS_TYPE_GLOBAL;
type->id = xmlSchemaGetProp(ctxt, node, "id");
type->ref = ref;
type->refNs = refNs;
type->minOccurs = xmlGetMinOccurs(ctxt, node);
type->maxOccurs = xmlGetMaxOccurs(ctxt, node);
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
subtype = NULL;
if (IS_SCHEMA(child, "all")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseAll(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "choice")) {
subtype = xmlSchemaParseChoice(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "sequence")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseSequence(ctxt, schema, child);
child = child->next;
}
if (subtype != NULL)
type->subtypes = subtype;
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_GROUP_CHILD,
"Group %s has unexpected content\n", type->name,
NULL);
}
return (type);
}
/**
* xmlSchemaParseAll:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema All definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaTypePtr
xmlSchemaParseAll(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaTypePtr type, subtype, last = NULL;
xmlNodePtr child = NULL;
xmlChar name[30];
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
snprintf((char *) name, 30, "all%d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, name, NULL);
if (type == NULL)
return (NULL);
type->node = node;
type->type = XML_SCHEMA_TYPE_ALL;
type->id = xmlSchemaGetProp(ctxt, node, "id");
type->minOccurs = xmlGetMinOccurs(ctxt, node);
if (type->minOccurs > 1)
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_INVALID_MINOCCURS,
"invalid value for minOccurs (must be 0 or 1)\n", NULL, NULL);
type->maxOccurs = xmlGetMaxOccurs(ctxt, node);
if (type->maxOccurs > 1)
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_INVALID_MAXOCCURS,
"invalid value for maxOccurs (must be 0 or 1)\n", NULL, NULL);
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
while (IS_SCHEMA(child, "element")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseElement(ctxt, schema, child, 0);
if (subtype != NULL) {
if (subtype->minOccurs > 1)
xmlSchemaPErr(ctxt, child, XML_SCHEMAP_INVALID_MINOCCURS,
"invalid value for minOccurs (must be 0 or 1)\n",
NULL, NULL);
if (subtype->maxOccurs > 1)
xmlSchemaPErr(ctxt, child, XML_SCHEMAP_INVALID_MAXOCCURS,
"invalid value for maxOccurs (must be 0 or 1)\n",
NULL, NULL);
if (last == NULL) {
type->subtypes = subtype;
last = subtype;
} else {
last->next = subtype;
last = subtype;
}
last->next = NULL;
}
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_ALL_CHILD,
"All %s has unexpected content\n", type->name,
NULL);
}
return (type);
}
/**
* xmlSchemaImportSchema
*
* @ctxt: a schema validation context
* @schemaLocation: an URI defining where to find the imported schema
*
* import a XML schema
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error and 1 in case of success.
*/
static xmlSchemaImportPtr
xmlSchemaImportSchema(xmlSchemaParserCtxtPtr ctxt,
const xmlChar *schemaLocation)
{
xmlSchemaImportPtr import;
xmlSchemaParserCtxtPtr newctxt;
newctxt = (xmlSchemaParserCtxtPtr) xmlMalloc(sizeof(xmlSchemaParserCtxt));
if (newctxt == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating schema parser context",
NULL);
return (NULL);
}
memset(newctxt, 0, sizeof(xmlSchemaParserCtxt));
/* Keep the same dictionnary for parsing, really */
xmlDictReference(ctxt->dict);
newctxt->dict = ctxt->dict;
newctxt->includes = 0;
newctxt->URL = xmlDictLookup(newctxt->dict, schemaLocation, -1);
xmlSchemaSetParserErrors(newctxt, ctxt->error, ctxt->warning,
ctxt->userData);
import = (xmlSchemaImport*) xmlMalloc(sizeof(xmlSchemaImport));
if (import == NULL) {
xmlSchemaPErrMemory(NULL, "allocating imported schema",
NULL);
xmlSchemaFreeParserCtxt(newctxt);
return (NULL);
}
memset(import, 0, sizeof(xmlSchemaImport));
import->schemaLocation = xmlDictLookup(ctxt->dict, schemaLocation, -1);
import->schema = xmlSchemaParse(newctxt);
if (import->schema == NULL) {
/* FIXME use another error enum here ? */
xmlSchemaPErr(ctxt, NULL, XML_SCHEMAS_ERR_INTERNAL,
"failed to import schema at location %s\n",
schemaLocation, NULL);
xmlSchemaFreeParserCtxt(newctxt);
if (import->schemaLocation != NULL)
xmlFree((xmlChar *)import->schemaLocation);
xmlFree(import);
return NULL;
}
xmlSchemaFreeParserCtxt(newctxt);
return import;
}
/**
* xmlSchemaParseImport:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Import definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static int
xmlSchemaParseImport(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlNodePtr child = NULL;
xmlSchemaImportPtr import = NULL;
const xmlChar *namespace;
const xmlChar *schemaLocation;
const xmlChar *previous;
xmlURIPtr check;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (-1);
namespace = xmlSchemaGetProp(ctxt, node, "namespace");
if (namespace != NULL) {
check = xmlParseURI((const char *) namespace);
if (check == NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_IMPORT_NAMESPACE_NOT_URI,
"Import namespace attribute is not an URI: %s\n",
namespace, NULL);
return (-1);
} else {
xmlFreeURI(check);
}
}
schemaLocation = xmlSchemaGetProp(ctxt, node, "schemaLocation");
if (schemaLocation != NULL) {
xmlChar *base = NULL;
xmlChar *URI = NULL;
check = xmlParseURI((const char *) schemaLocation);
if (check == NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_IMPORT_SCHEMA_NOT_URI,
"Import schemaLocation attribute is not an URI: %s\n",
schemaLocation, NULL);
return (-1);
} else {
xmlFreeURI(check);
}
base = xmlNodeGetBase(node->doc, node);
if (base == NULL) {
URI = xmlBuildURI(schemaLocation, node->doc->URL);
} else {
URI = xmlBuildURI(schemaLocation, base);
xmlFree(base);
}
if (URI != NULL) {
schemaLocation = xmlDictLookup(ctxt->dict, URI, -1);
xmlFree(URI);
}
}
if (schema->schemasImports == NULL) {
schema->schemasImports = xmlHashCreate(10);
if (schema->schemasImports == NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_FAILED_BUILD_IMPORT,
"Internal: failed to build import table\n",
NULL, NULL);
return (-1);
}
}
if (namespace == NULL) {
import = xmlHashLookup(schema->schemasImports,
XML_SCHEMAS_DEFAULT_NAMESPACE);
if (import != NULL)
previous = import->schemaLocation;
else
previous = NULL;
if (schemaLocation != NULL) {
if (previous != NULL) {
if (!xmlStrEqual(schemaLocation, previous)) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_IMPORT_REDEFINE_NSNAME,
"Redefining import for default namespace "
"with a different URI: %s\n",
schemaLocation, NULL);
}
} else {
import = xmlSchemaImportSchema(ctxt, schemaLocation);
if (import == NULL) {
return (-1);
}
xmlHashAddEntry(schema->schemasImports,
XML_SCHEMAS_DEFAULT_NAMESPACE,
import);
}
}
} else {
import = xmlHashLookup(schema->schemasImports, namespace);
if (import != NULL)
previous = import->schemaLocation;
else
previous = NULL;
if (schemaLocation != NULL) {
if (previous != NULL) {
if (!xmlStrEqual(schemaLocation, previous)) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_IMPORT_REDEFINE_NSNAME,
"Redefining import for namespace %s with "
"a different URI: %s\n",
namespace, schemaLocation);
}
} else {
import = xmlSchemaImportSchema(ctxt, schemaLocation);
if (import == NULL) {
return (-1);
}
if (!xmlStrEqual(import->schema->targetNamespace, namespace)) {
if (namespace == NULL) {
if (import->schema->targetNamespace != NULL) {
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_SRC_IMPORT_3_2,
"There is no namespace attribute on the <import> "
"element information item, so the imported document "
"must have no targetNamespace attribute.\n",
NULL, NULL);
}
} else {
if (import->schema->targetNamespace != NULL) {
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_SRC_IMPORT_3_1,
"The namespace attribute \"%s\" of an <import> "
"element information item must be identical to the "
"targetNamespace attribute \"%s\" of the "
"imported document.\n",
namespace, import->schema->targetNamespace);
} else {
xmlSchemaPErr(ctxt, node, XML_SCHEMAP_SRC_IMPORT_3_1,
"The namespace attribute on the <import> "
"element information item, requires the imported "
"document to have a targetNamespace attribute "
"with the value \"%s\".\n",
namespace, NULL);
}
}
xmlSchemaFreeImport(import);
return (-1);
}
xmlHashAddEntry(schema->schemasImports,
namespace, import);
}
}
}
child = node->children;
while (IS_SCHEMA(child, "annotation")) {
/*
* the annotations here are simply discarded ...
*/
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_IMPORT_CHILD,
"Import has unexpected content\n", NULL, NULL);
return (-1);
}
return (1);
}
/**
* xmlSchemaCleanupDoc:
* @ctxt: a schema validation context
* @node: the root of the document.
*
* removes unwanted nodes in a schemas document tree
*/
static void
xmlSchemaCleanupDoc(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr root)
{
xmlNodePtr delete, cur;
if ((ctxt == NULL) || (root == NULL)) return;
/*
* Remove all the blank text nodes
*/
delete = NULL;
cur = root;
while (cur != NULL) {
if (delete != NULL) {
xmlUnlinkNode(delete);
xmlFreeNode(delete);
delete = NULL;
}
if (cur->type == XML_TEXT_NODE) {
if (IS_BLANK_NODE(cur)) {
if (xmlNodeGetSpacePreserve(cur) != 1) {
delete = cur;
}
}
} else if ((cur->type != XML_ELEMENT_NODE) &&
(cur->type != XML_CDATA_SECTION_NODE)) {
delete = cur;
goto skip_children;
}
/*
* Skip to next node
*/
if (cur->children != NULL) {
if ((cur->children->type != XML_ENTITY_DECL) &&
(cur->children->type != XML_ENTITY_REF_NODE) &&
(cur->children->type != XML_ENTITY_NODE)) {
cur = cur->children;
continue;
}
}
skip_children:
if (cur->next != NULL) {
cur = cur->next;
continue;
}
do {
cur = cur->parent;
if (cur == NULL)
break;
if (cur == root) {
cur = NULL;
break;
}
if (cur->next != NULL) {
cur = cur->next;
break;
}
} while (cur != NULL);
}
if (delete != NULL) {
xmlUnlinkNode(delete);
xmlFreeNode(delete);
delete = NULL;
}
}
/**
* xmlSchemaParseSchemaTopLevel:
* @ctxt: a schema validation context
* @schema: the schemas
* @nodes: the list of top level nodes
*
* Returns the internal XML Schema structure built from the resource or
* NULL in case of error
*/
static void
xmlSchemaParseSchemaTopLevel(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr nodes)
{
xmlNodePtr child;
xmlSchemaAnnotPtr annot;
if ((ctxt == NULL) || (schema == NULL) || (nodes == NULL))
return;
child = nodes;
while ((IS_SCHEMA(child, "include")) ||
(IS_SCHEMA(child, "import")) ||
(IS_SCHEMA(child, "redefine")) ||
(IS_SCHEMA(child, "annotation"))) {
if (IS_SCHEMA(child, "annotation")) {
annot = xmlSchemaParseAnnotation(ctxt, schema, child);
if (schema->annot == NULL)
schema->annot = annot;
else
xmlSchemaFreeAnnot(annot);
} else if (IS_SCHEMA(child, "import")) {
xmlSchemaParseImport(ctxt, schema, child);
} else if (IS_SCHEMA(child, "include")) {
ctxt->includes++;
xmlSchemaParseInclude(ctxt, schema, child);
ctxt->includes--;
} else if (IS_SCHEMA(child, "redefine")) {
TODO
}
child = child->next;
}
while (child != NULL) {
if (IS_SCHEMA(child, "complexType")) {
xmlSchemaParseComplexType(ctxt, schema, child, 1);
child = child->next;
} else if (IS_SCHEMA(child, "simpleType")) {
xmlSchemaParseSimpleType(ctxt, schema, child, 1);
child = child->next;
} else if (IS_SCHEMA(child, "element")) {
xmlSchemaParseElement(ctxt, schema, child, 1);
child = child->next;
} else if (IS_SCHEMA(child, "attribute")) {
xmlSchemaParseAttribute(ctxt, schema, child, 1);
child = child->next;
} else if (IS_SCHEMA(child, "attributeGroup")) {
xmlSchemaParseAttributeGroup(ctxt, schema, child, 1);
child = child->next;
} else if (IS_SCHEMA(child, "group")) {
xmlSchemaParseGroup(ctxt, schema, child, 1);
child = child->next;
} else if (IS_SCHEMA(child, "notation")) {
xmlSchemaParseNotation(ctxt, schema, child);
child = child->next;
} else {
xmlSchemaPErr2(ctxt, NULL, child,
XML_SCHEMAP_UNKNOWN_SCHEMAS_CHILD,
"Schemas: unexpected element %s here \n",
child->name, NULL);
child = child->next;
}
while (IS_SCHEMA(child, "annotation")) {
annot = xmlSchemaParseAnnotation(ctxt, schema, child);
if (schema->annot == NULL)
schema->annot = annot;
else
xmlSchemaFreeAnnot(annot);
child = child->next;
}
}
ctxt->parentItem = NULL;
ctxt->ctxtType = NULL;
}
/**
* xmlSchemaParseInclude:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Include definition
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static int
xmlSchemaParseInclude(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlNodePtr child = NULL;
const xmlChar *schemaLocation;
xmlURIPtr check;
xmlDocPtr doc;
xmlNodePtr root;
xmlSchemaIncludePtr include;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (-1);
/*
* Preliminary step, extract the URI-Reference for the include and
* make an URI from the base.
*/
schemaLocation = xmlSchemaGetProp(ctxt, node, "schemaLocation");
if (schemaLocation != NULL) {
xmlChar *base = NULL;
xmlChar *URI = NULL;
check = xmlParseURI((const char *) schemaLocation);
if (check == NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_INCLUDE_SCHEMA_NOT_URI,
"Include schemaLocation attribute is not an URI: %s\n",
schemaLocation, NULL);
return (-1);
} else {
xmlFreeURI(check);
}
base = xmlNodeGetBase(node->doc, node);
if (base == NULL) {
URI = xmlBuildURI(schemaLocation, node->doc->URL);
} else {
URI = xmlBuildURI(schemaLocation, base);
xmlFree(base);
}
if (URI != NULL) {
schemaLocation = xmlDictLookup(ctxt->dict, URI, -1);
xmlFree(URI);
}
} else {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_INCLUDE_SCHEMA_NO_URI,
"Include schemaLocation attribute missing\n",
NULL, NULL);
return (-1);
}
child = node->children;
while (IS_SCHEMA(child, "annotation")) {
/*
* the annotations here are simply discarded ...
*/
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_INCLUDE_CHILD,
"Include has unexpected content\n", NULL, NULL);
return (-1);
}
/*
* First step is to parse the input document into an DOM/Infoset
*/
doc = xmlReadFile((const char *) schemaLocation, NULL,
SCHEMAS_PARSE_OPTIONS);
if (doc == NULL) {
xmlSchemaPErr(ctxt, NULL,
XML_SCHEMAP_FAILED_LOAD,
"xmlSchemaParse: could not load %s\n",
ctxt->URL, NULL);
return(-1);
}
/*
* Then extract the root of the schema
*/
root = xmlDocGetRootElement(doc);
if (root == NULL) {
xmlSchemaPErr(ctxt, (xmlNodePtr) doc,
XML_SCHEMAP_NOROOT,
"schemas %s has no root", schemaLocation, NULL);
xmlFreeDoc(doc);
return (-1);
}
/*
* Remove all the blank text nodes
*/
xmlSchemaCleanupDoc(ctxt, root);
/*
* Check the schemas top level element
*/
if (!IS_SCHEMA(root, "schema")) {
xmlSchemaPErr(ctxt, (xmlNodePtr) doc,
XML_SCHEMAP_NOT_SCHEMA,
"File %s is not a schema", schemaLocation, NULL);
xmlFreeDoc(doc);
return (-1);
}
/*
* register the include
*/
include = (xmlSchemaIncludePtr) xmlMalloc(sizeof(xmlSchemaInclude));
if (include == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating included schema", NULL);
xmlFreeDoc(doc);
return (-1);
}
memset(include, 0, sizeof(xmlSchemaInclude));
include->schemaLocation = xmlDictLookup(ctxt->dict, schemaLocation, -1);
include->doc = doc;
include->next = schema->includes;
schema->includes = include;
/*
* parse the declarations in the included file like if they
* were in the original file.
*/
xmlSchemaParseSchemaTopLevel(ctxt, schema, root->children);
return (1);
}
/**
* xmlSchemaParseChoice:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Choice definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaTypePtr
xmlSchemaParseChoice(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaTypePtr type, subtype, last = NULL;
xmlNodePtr child = NULL;
xmlChar name[30];
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
snprintf((char *) name, 30, "choice %d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, name, NULL);
if (type == NULL)
return (NULL);
type->node = node;
type->type = XML_SCHEMA_TYPE_CHOICE;
type->id = xmlSchemaGetProp(ctxt, node, "id");
type->minOccurs = xmlGetMinOccurs(ctxt, node);
type->maxOccurs = xmlGetMaxOccurs(ctxt, node);
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
while ((IS_SCHEMA(child, "element")) ||
(IS_SCHEMA(child, "group")) ||
(IS_SCHEMA(child, "any")) ||
(IS_SCHEMA(child, "choice")) ||
(IS_SCHEMA(child, "sequence"))) {
subtype = NULL;
if (IS_SCHEMA(child, "element")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseElement(ctxt, schema, child, 0);
} else if (IS_SCHEMA(child, "group")) {
subtype = xmlSchemaParseGroup(ctxt, schema, child, 0);
} else if (IS_SCHEMA(child, "any")) {
subtype = xmlSchemaParseAny(ctxt, schema, child);
} else if (IS_SCHEMA(child, "sequence")) {
subtype = xmlSchemaParseSequence(ctxt, schema, child);
} else if (IS_SCHEMA(child, "choice")) {
subtype = xmlSchemaParseChoice(ctxt, schema, child);
}
if (subtype != NULL) {
if (last == NULL) {
type->subtypes = subtype;
last = subtype;
} else {
last->next = subtype;
last = subtype;
}
last->next = NULL;
}
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_CHOICE_CHILD,
"Choice %s has unexpected content\n", type->name,
NULL);
}
return (type);
}
/**
* xmlSchemaParseSequence:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Sequence definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaTypePtr
xmlSchemaParseSequence(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaTypePtr type, subtype, last = NULL;
xmlNodePtr child = NULL;
xmlChar name[30];
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
snprintf((char *) name, 30, "sequence %d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, name, NULL);
if (type == NULL)
return (NULL);
type->node = node;
type->type = XML_SCHEMA_TYPE_SEQUENCE;
type->id = xmlSchemaGetProp(ctxt, node, "id");
type->minOccurs = xmlGetMinOccurs(ctxt, node);
type->maxOccurs = xmlGetMaxOccurs(ctxt, node);
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
while ((IS_SCHEMA(child, "element")) ||
(IS_SCHEMA(child, "group")) ||
(IS_SCHEMA(child, "any")) ||
(IS_SCHEMA(child, "choice")) ||
(IS_SCHEMA(child, "sequence"))) {
subtype = NULL;
if (IS_SCHEMA(child, "element")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseElement(ctxt, schema, child, 0);
} else if (IS_SCHEMA(child, "group")) {
subtype = xmlSchemaParseGroup(ctxt, schema, child, 0);
} else if (IS_SCHEMA(child, "any")) {
subtype = xmlSchemaParseAny(ctxt, schema, child);
} else if (IS_SCHEMA(child, "choice")) {
subtype = xmlSchemaParseChoice(ctxt, schema, child);
} else if (IS_SCHEMA(child, "sequence")) {
subtype = xmlSchemaParseSequence(ctxt, schema, child);
}
if (subtype != NULL) {
if (last == NULL) {
type->subtypes = subtype;
last = subtype;
} else {
last->next = subtype;
last = subtype;
}
last->next = NULL;
}
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_UNKNOWN_SEQUENCE_CHILD,
"Sequence %s has unexpected content\n", type->name,
NULL);
}
return (type);
}
/**
* xmlSchemaParseRestriction:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Restriction definition
* *WARNING* this interface is highly subject to change
*
* Returns the type definition or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaParseRestriction(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaTypePtr type, subtype;
xmlNodePtr child = NULL;
xmlChar name[30];
const xmlChar *oldcontainer;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
oldcontainer = ctxt->container;
snprintf((char *) name, 30, "restriction %d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, name, NULL);
if (type == NULL)
return (NULL);
type->type = XML_SCHEMA_TYPE_RESTRICTION;
type->node = node;
type->id = xmlSchemaGetProp(ctxt, node, "id");
type->base = xmlGetQNameProp(ctxt, node, "base", &(type->baseNs));
if ((type->base == NULL) &&
(ctxt->parentItem->type == XML_SCHEMA_TYPE_COMPLEX_CONTENT)) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_RESTRICTION_NONAME_NOREF,
"Restriction \"%s\" must have a \"base\" attribute.\n",
type->name, NULL);
}
ctxt->container = name;
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
subtype = NULL;
if (ctxt->parentItem->type == XML_SCHEMA_TYPE_COMPLEX_CONTENT) {
if (IS_SCHEMA(child, "all")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseAll(ctxt, schema, child);
child = child->next;
type->subtypes = subtype;
} else if (IS_SCHEMA(child, "choice")) {
subtype = xmlSchemaParseChoice(ctxt, schema, child);
child = child->next;
type->subtypes = subtype;
} else if (IS_SCHEMA(child, "sequence")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseSequence(ctxt, schema, child);
child = child->next;
type->subtypes = subtype;
} else if (IS_SCHEMA(child, "group")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseGroup(ctxt, schema, child, 0);
child = child->next;
type->subtypes = subtype;
}
} else if ((ctxt->ctxtType->type == XML_SCHEMA_TYPE_SIMPLE) ||
(ctxt->parentItem->type == XML_SCHEMA_TYPE_SIMPLE_CONTENT)) {
xmlSchemaFacetPtr facet, lastfacet = NULL;
if (IS_SCHEMA(child, "simpleType")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseSimpleType(ctxt, schema, child, 0);
/*
* For the simple type this serves as the base type.
*/
type->baseType = subtype;
/*
* For the complex type this serves as information for the
* definition of the content type.
* Additionally this is a hack for the simple type, to save
* the information that a local simple type was defined; thus
* allowing to check: src-restriction-base-or-simpleType.
*/
type->subtypes = subtype;
child = child->next;
}
/*
* Add the facets to the parent simpleType/complexType.
*/
while ((IS_SCHEMA(child, "minInclusive")) ||
(IS_SCHEMA(child, "minExclusive")) ||
(IS_SCHEMA(child, "maxInclusive")) ||
(IS_SCHEMA(child, "maxExclusive")) ||
(IS_SCHEMA(child, "totalDigits")) ||
(IS_SCHEMA(child, "fractionDigits")) ||
(IS_SCHEMA(child, "pattern")) ||
(IS_SCHEMA(child, "enumeration")) ||
(IS_SCHEMA(child, "whiteSpace")) ||
(IS_SCHEMA(child, "length")) ||
(IS_SCHEMA(child, "maxLength")) ||
(IS_SCHEMA(child, "minLength"))) {
facet = xmlSchemaParseFacet(ctxt, schema, child);
if (facet != NULL) {
if (lastfacet == NULL)
ctxt->ctxtType->facets = facet;
else
lastfacet->next = facet;
lastfacet = facet;
lastfacet->next = NULL;
}
child = child->next;
}
/*
* Create links for derivation and validation.
*/
if (lastfacet != NULL) {
xmlSchemaFacetLinkPtr facetLink, lastFacetLink = NULL;
facet = ctxt->ctxtType->facets;
do {
facetLink = (xmlSchemaFacetLinkPtr) xmlMalloc(sizeof(xmlSchemaFacetLink));
if (facetLink == NULL) {
xmlSchemaPErrMemory(ctxt, "allocation a facet link", NULL);
xmlFree(facetLink);
return (NULL);
}
facetLink->facet = facet;
facetLink->next = NULL;
if (lastFacetLink == NULL)
ctxt->ctxtType->facetSet = facetLink;
else
lastFacetLink->next = facetLink;
lastFacetLink = facetLink;
facet = facet->next;
} while (facet != NULL);
}
}
if (ctxt->ctxtType->type == XML_SCHEMA_TYPE_COMPLEX)
child = xmlSchemaParseAttrDecls(ctxt, schema, child, type);
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_UNKNOWN_RESTRICTION_CHILD,
"Restriction \"%s\" has unexpected content.\n",
type->name, NULL);
}
ctxt->container = oldcontainer;
return (type);
}
/**
* xmlSchemaParseExtension:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Extension definition
* *WARNING* this interface is highly subject to change
*
* Returns the type definition or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaParseExtension(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaTypePtr type, subtype;
xmlNodePtr child = NULL;
xmlChar name[30];
const xmlChar *oldcontainer;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
oldcontainer = ctxt->container;
snprintf((char *) name, 30, "extension %d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, name, NULL);
if (type == NULL)
return (NULL);
type->type = XML_SCHEMA_TYPE_EXTENSION;
type->node = node;
type->id = xmlSchemaGetProp(ctxt, node, "id");
ctxt->container = name;
type->base = xmlGetQNameProp(ctxt, node, "base", &(type->baseNs));
if (type->base == NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_EXTENSION_NO_BASE,
"Extension %s has no base\n", type->name, NULL);
}
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
subtype = NULL;
if (IS_SCHEMA(child, "all")) {
subtype = xmlSchemaParseAll(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "choice")) {
subtype = xmlSchemaParseChoice(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "sequence")) {
subtype = xmlSchemaParseSequence(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "group")) {
subtype = xmlSchemaParseGroup(ctxt, schema, child, 0);
child = child->next;
}
if (subtype != NULL)
type->subtypes = subtype;
child = xmlSchemaParseAttrDecls(ctxt, schema, child, type);
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_UNKNOWN_EXTENSION_CHILD,
"Extension %s has unexpected content\n", type->name,
NULL);
}
ctxt->container = oldcontainer;
return (type);
}
/**
* xmlSchemaParseSimpleContent:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema SimpleContent definition
* *WARNING* this interface is highly subject to change
*
* Returns the type definition or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaParseSimpleContent(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr node)
{
xmlSchemaTypePtr type, subtype;
xmlNodePtr child = NULL;
xmlChar name[30];
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
snprintf((char *) name, 30, "simpleContent %d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, name, NULL);
if (type == NULL)
return (NULL);
type->type = XML_SCHEMA_TYPE_SIMPLE_CONTENT;
type->node = node;
type->id = xmlSchemaGetProp(ctxt, node, "id");
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
ctxt->parentItem = type;
subtype = NULL;
if (IS_SCHEMA(child, "restriction")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseRestriction(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "extension")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseExtension(ctxt, schema, child);
child = child->next;
}
type->subtypes = subtype;
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_UNKNOWN_SIMPLECONTENT_CHILD,
"SimpleContent %s has unexpected content\n",
type->name, NULL);
}
return (type);
}
/**
* xmlSchemaParseComplexContent:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema ComplexContent definition
* *WARNING* this interface is highly subject to change
*
* Returns the type definition or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaParseComplexContent(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr node)
{
xmlSchemaTypePtr type, subtype;
xmlNodePtr child = NULL;
xmlChar name[30];
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
snprintf((char *) name, 30, "complexContent %d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema, name, NULL);
if (type == NULL)
return (NULL);
type->type = XML_SCHEMA_TYPE_COMPLEX_CONTENT;
type->node = node;
type->id = xmlSchemaGetProp(ctxt, node, "id");
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
ctxt->parentItem = type;
subtype = NULL;
if (IS_SCHEMA(child, "restriction")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseRestriction(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "extension")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseExtension(ctxt, schema, child);
child = child->next;
}
type->subtypes = subtype;
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_UNKNOWN_COMPLEXCONTENT_CHILD,
"ComplexContent %s has unexpected content\n",
type->name, NULL);
}
return (type);
}
/**
* xmlSchemaParseComplexType:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Complex Type definition
* *WARNING* this interface is highly subject to change
*
* Returns the type definition or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaParseComplexType(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, int topLevel)
{
xmlSchemaTypePtr type, subtype, ctxtType;
xmlNodePtr child = NULL;
const xmlChar *name;
const xmlChar *oldcontainer;
char buf[100];
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
ctxtType = ctxt->ctxtType;
oldcontainer = ctxt->container;
name = xmlSchemaGetProp(ctxt, node, "name");
if (name == NULL) {
snprintf(buf, 99, "complexType %d", ctxt->counter++ + 1);
name = (const xmlChar *)buf;
type = xmlSchemaAddType(ctxt, schema, name, NULL);
} else {
/* local = xmlSchemaGetNamespace(ctxt, schema, node, name, &ns); */
type = xmlSchemaAddType(ctxt, schema, name, schema->targetNamespace);
}
if (type == NULL) {
return (NULL);
}
if (xmlGetBooleanProp(ctxt, node, "mixed", 0))
type->flags |= XML_SCHEMAS_TYPE_MIXED;
type->node = node;
type->type = XML_SCHEMA_TYPE_COMPLEX;
if (topLevel)
type->flags |= XML_SCHEMAS_TYPE_GLOBAL;
type->id = xmlSchemaGetProp(ctxt, node, "id");
ctxt->container = name;
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, schema, child);
child = child->next;
}
ctxt->ctxtType = type;
if (IS_SCHEMA(child, "simpleContent")) {
/* 3.4.3 : 2.2
* Specifying mixed='true' when the <simpleContent>
* alternative is chosen has no effect
*/
if (type->flags & XML_SCHEMAS_TYPE_MIXED)
type->flags ^= XML_SCHEMAS_TYPE_MIXED;
type->subtypes = xmlSchemaParseSimpleContent(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "complexContent")) {
type->subtypes = xmlSchemaParseComplexContent(ctxt, schema, child);
child = child->next;
} else {
subtype = NULL;
if (IS_SCHEMA(child, "all")) {
subtype = xmlSchemaParseAll(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "choice")) {
subtype = xmlSchemaParseChoice(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "sequence")) {
subtype = xmlSchemaParseSequence(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "group")) {
subtype = xmlSchemaParseGroup(ctxt, schema, child, 0);
child = child->next;
}
if (subtype != NULL)
type->subtypes = subtype;
child = xmlSchemaParseAttrDecls(ctxt, schema, child, type);
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_UNKNOWN_COMPLEXTYPE_CHILD,
"ComplexType %s has unexpected content\n",
type->name, NULL);
}
if (type->attributeWildcard != NULL)
type->flags |= XML_SCHEMAS_TYPE_OWNED_ATTR_WILDCARD;
ctxt->container = oldcontainer;
ctxt->ctxtType = ctxtType;
return (type);
}
/**
* xmlSchemaParseSchema:
* @ctxt: a schema validation context
* @node: a subtree containing XML Schema informations
*
* parse a XML schema definition from a node set
* *WARNING* this interface is highly subject to change
*
* Returns the internal XML Schema structure built from the resource or
* NULL in case of error
*/
static xmlSchemaPtr
xmlSchemaParseSchema(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node)
{
xmlSchemaPtr schema = NULL;
xmlNodePtr child = NULL;
const xmlChar *val;
int nberrors;
if ((ctxt == NULL) || (node == NULL))
return (NULL);
nberrors = ctxt->nberrors;
ctxt->nberrors = 0;
if (IS_SCHEMA(node, "schema")) {
schema = xmlSchemaNewSchema(ctxt);
if (schema == NULL)
return (NULL);
val = xmlSchemaGetProp(ctxt, node, "targetNamespace");
if (val != NULL) {
schema->targetNamespace = xmlDictLookup(ctxt->dict, val, -1);
} else {
schema->targetNamespace = NULL;
}
schema->id = xmlSchemaGetProp(ctxt, node, "id");
schema->version = xmlSchemaGetProp(ctxt, node, "version");
val = xmlSchemaGetProp(ctxt, node, "elementFormDefault");
if (val != NULL) {
if (xmlStrEqual(val, BAD_CAST "qualified"))
schema->flags |= XML_SCHEMAS_QUALIF_ELEM;
else if (!xmlStrEqual(val, BAD_CAST "unqualified")) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_ELEMFORMDEFAULT_VALUE,
"Invalid value %s for elementFormDefault\n",
val, NULL);
}
} else {
/* Removed, since the default value for elementFormDefault
* is "unqualified".
*/
/* schema->flags |= XML_SCHEMAS_QUALIF_ELEM; */
}
val = xmlSchemaGetProp(ctxt, node, "attributeFormDefault");
if (val != NULL) {
if (xmlStrEqual(val, BAD_CAST "qualified"))
schema->flags |= XML_SCHEMAS_QUALIF_ATTR;
else if (!xmlStrEqual(val, BAD_CAST "unqualified")) {
xmlSchemaPErr2(ctxt, node, child,
XML_SCHEMAP_ATTRFORMDEFAULT_VALUE,
"Invalid value %s for attributeFormDefault\n",
val, NULL);
}
}
val = xmlSchemaGetProp(ctxt, node, "finalDefault");
if (val != NULL) {
if (xmlStrEqual(val, BAD_CAST "#all")) {
schema->flags |= XML_SCHEMAS_FINAL_DEFAULT_EXTENSION;
schema->flags |= XML_SCHEMAS_FINAL_DEFAULT_RESTRICTION;
schema->flags |= XML_SCHEMAS_FINAL_DEFAULT_LIST;
schema->flags |= XML_SCHEMAS_FINAL_DEFAULT_UNION;
} else {
const xmlChar *end, *cur = val;
xmlChar *item;
do {
while (IS_BLANK_CH(*cur))
cur++;
end = cur;
while ((*end != 0) && (!(IS_BLANK_CH(*end))))
end++;
if (end == cur)
break;
item = xmlStrndup(cur, end - cur);
if (xmlStrEqual(item, BAD_CAST "extension")) {
if ((schema->flags & XML_SCHEMAS_FINAL_DEFAULT_EXTENSION) == 0)
schema->flags |= XML_SCHEMAS_FINAL_DEFAULT_EXTENSION;
} else if (xmlStrEqual(item, BAD_CAST "restriction")) {
if ((schema->flags & XML_SCHEMAS_FINAL_DEFAULT_RESTRICTION) == 0)
schema->flags |= XML_SCHEMAS_FINAL_DEFAULT_RESTRICTION;
} else if (xmlStrEqual(item, BAD_CAST "list")) {
if ((schema->flags & XML_SCHEMAS_FINAL_DEFAULT_LIST) == 0)
schema->flags |= XML_SCHEMAS_FINAL_DEFAULT_LIST;
} else if (xmlStrEqual(item, BAD_CAST "union")) {
if ((schema->flags & XML_SCHEMAS_FINAL_DEFAULT_UNION) == 0)
schema->flags |= XML_SCHEMAS_FINAL_DEFAULT_UNION;
} else {
xmlSchemaPErr(ctxt, node,
XML_SCHEMAS_ERR_INTERNAL,
"Invalid value for the attribute \"finalDefault\".\n",
NULL, NULL);
}
if (item != NULL)
xmlFree(item);
cur = end;
} while (*cur != 0);
}
}
xmlSchemaParseSchemaTopLevel(ctxt, schema, node->children);
} else {
xmlDocPtr doc;
doc = node->doc;
if ((doc != NULL) && (doc->URL != NULL)) {
xmlSchemaPErr(ctxt, (xmlNodePtr) doc,
XML_SCHEMAP_NOT_SCHEMA,
"File %s is not a schemas", doc->URL, NULL);
} else {
xmlSchemaPErr(ctxt, (xmlNodePtr) doc,
XML_SCHEMAP_NOT_SCHEMA,
"File is not a schemas", NULL, NULL);
}
return(NULL);
}
if (ctxt->nberrors != 0) {
if (schema != NULL) {
xmlSchemaFree(schema);
schema = NULL;
}
}
ctxt->nberrors = nberrors;
#ifdef DEBUG
if (schema == NULL)
xmlGenericError(xmlGenericErrorContext,
"xmlSchemaParse() failed\n");
#endif
return (schema);
}
/************************************************************************
* *
* Validating using Schemas *
* *
************************************************************************/
/************************************************************************
* *
* Reading/Writing Schemas *
* *
************************************************************************/
/**
* xmlSchemaNewParserCtxt:
* @URL: the location of the schema
*
* Create an XML Schemas parse context for that file/resource expected
* to contain an XML Schemas file.
*
* Returns the parser context or NULL in case of error
*/
xmlSchemaParserCtxtPtr
xmlSchemaNewParserCtxt(const char *URL)
{
xmlSchemaParserCtxtPtr ret;
if (URL == NULL)
return (NULL);
ret = (xmlSchemaParserCtxtPtr) xmlMalloc(sizeof(xmlSchemaParserCtxt));
if (ret == NULL) {
xmlSchemaPErrMemory(NULL, "allocating schama parser context",
NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaParserCtxt));
ret->dict = xmlDictCreate();
ret->URL = xmlDictLookup(ret->dict, (const xmlChar *) URL, -1);
ret->includes = 0;
return (ret);
}
/**
* xmlSchemaNewMemParserCtxt:
* @buffer: a pointer to a char array containing the schemas
* @size: the size of the array
*
* Create an XML Schemas parse context for that memory buffer expected
* to contain an XML Schemas file.
*
* Returns the parser context or NULL in case of error
*/
xmlSchemaParserCtxtPtr
xmlSchemaNewMemParserCtxt(const char *buffer, int size)
{
xmlSchemaParserCtxtPtr ret;
if ((buffer == NULL) || (size <= 0))
return (NULL);
ret = (xmlSchemaParserCtxtPtr) xmlMalloc(sizeof(xmlSchemaParserCtxt));
if (ret == NULL) {
xmlSchemaPErrMemory(NULL, "allocating schama parser context",
NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaParserCtxt));
ret->buffer = buffer;
ret->size = size;
ret->dict = xmlDictCreate();
return (ret);
}
/**
* xmlSchemaNewDocParserCtxt:
* @doc: a preparsed document tree
*
* Create an XML Schemas parse context for that document.
* NB. The document may be modified during the parsing process.
*
* Returns the parser context or NULL in case of error
*/
xmlSchemaParserCtxtPtr
xmlSchemaNewDocParserCtxt(xmlDocPtr doc)
{
xmlSchemaParserCtxtPtr ret;
if (doc == NULL)
return (NULL);
ret = (xmlSchemaParserCtxtPtr) xmlMalloc(sizeof(xmlSchemaParserCtxt));
if (ret == NULL) {
xmlSchemaPErrMemory(NULL, "allocating schema parser context",
NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaParserCtxt));
ret->doc = doc;
ret->dict = xmlDictCreate();
/* The application has responsibility for the document */
ret->preserve = 1;
return (ret);
}
/**
* xmlSchemaFreeParserCtxt:
* @ctxt: the schema parser context
*
* Free the resources associated to the schema parser context
*/
void
xmlSchemaFreeParserCtxt(xmlSchemaParserCtxtPtr ctxt)
{
if (ctxt == NULL)
return;
if (ctxt->doc != NULL && !ctxt->preserve)
xmlFreeDoc(ctxt->doc);
xmlDictFree(ctxt->dict);
xmlFree(ctxt);
}
/************************************************************************
* *
* Building the content models *
* *
************************************************************************/
/**
* xmlSchemaBuildAContentModel:
* @type: the schema type definition
* @ctxt: the schema parser context
* @name: the element name whose content is being built
*
* Generate the automata sequence needed for that type
*/
static void
xmlSchemaBuildAContentModel(xmlSchemaTypePtr type,
xmlSchemaParserCtxtPtr ctxt,
const xmlChar * name)
{
if (type == NULL) {
xmlGenericError(xmlGenericErrorContext,
"Found unexpected type = NULL in %s content model\n",
name);
return;
}
switch (type->type) {
case XML_SCHEMA_TYPE_ANY:
/* TODO : handle the namespace too */
/* TODO : make that a specific transition type */
/* Daniel says: use xmlAutomataNewTransition2 */
TODO ctxt->state =
xmlAutomataNewTransition(ctxt->am, ctxt->state, NULL,
BAD_CAST "*", NULL);
break;
case XML_SCHEMA_TYPE_ELEMENT:{
xmlSchemaElementPtr elem = (xmlSchemaElementPtr) type;
/* TODO : handle the namespace too */
xmlAutomataStatePtr oldstate = ctxt->state;
if (elem->maxOccurs >= UNBOUNDED) {
if (elem->minOccurs > 1) {
xmlAutomataStatePtr tmp;
int counter;
ctxt->state = xmlAutomataNewEpsilon(ctxt->am,
oldstate,
NULL);
oldstate = ctxt->state;
counter = xmlAutomataNewCounter(ctxt->am,
elem->minOccurs -
1, UNBOUNDED);
if (elem->refDecl != NULL) {
xmlSchemaBuildAContentModel((xmlSchemaTypePtr)
elem->refDecl,
ctxt,
elem->refDecl->
name);
} else {
ctxt->state =
xmlAutomataNewTransition(ctxt->am,
ctxt->state, NULL,
elem->name, type);
}
tmp = ctxt->state;
xmlAutomataNewCountedTrans(ctxt->am, tmp, oldstate,
counter);
ctxt->state =
xmlAutomataNewCounterTrans(ctxt->am, tmp, NULL,
counter);
} else {
if (elem->refDecl != NULL) {
xmlSchemaBuildAContentModel((xmlSchemaTypePtr)
elem->refDecl,
ctxt,
elem->refDecl->
name);
} else {
ctxt->state =
xmlAutomataNewTransition(ctxt->am,
ctxt->state, NULL,
elem->name, type);
}
xmlAutomataNewEpsilon(ctxt->am, ctxt->state,
oldstate);
if (elem->minOccurs == 0) {
/* basically an elem* */
xmlAutomataNewEpsilon(ctxt->am, oldstate,
ctxt->state);
}
}
} else if ((elem->maxOccurs > 1) || (elem->minOccurs > 1)) {
xmlAutomataStatePtr tmp;
int counter;
ctxt->state = xmlAutomataNewEpsilon(ctxt->am,
oldstate, NULL);
oldstate = ctxt->state;
counter = xmlAutomataNewCounter(ctxt->am,
elem->minOccurs - 1,
elem->maxOccurs - 1);
if (elem->refDecl != NULL) {
xmlSchemaBuildAContentModel((xmlSchemaTypePtr)
elem->refDecl, ctxt,
elem->refDecl->name);
} else {
ctxt->state = xmlAutomataNewTransition(ctxt->am,
ctxt->state,
NULL,
elem->name,
type);
}
tmp = ctxt->state;
xmlAutomataNewCountedTrans(ctxt->am, tmp, oldstate,
counter);
ctxt->state = xmlAutomataNewCounterTrans(ctxt->am, tmp,
NULL,
counter);
if (elem->minOccurs == 0) {
/* basically an elem? */
xmlAutomataNewEpsilon(ctxt->am, oldstate,
ctxt->state);
}
} else {
if (elem->refDecl != NULL) {
xmlSchemaBuildAContentModel((xmlSchemaTypePtr)
elem->refDecl, ctxt,
elem->refDecl->name);
} else {
ctxt->state = xmlAutomataNewTransition(ctxt->am,
ctxt->state,
NULL,
elem->name,
type);
}
if (elem->minOccurs == 0) {
/* basically an elem? */
xmlAutomataNewEpsilon(ctxt->am, oldstate,
ctxt->state);
}
}
break;
}
case XML_SCHEMA_TYPE_SEQUENCE:{
xmlSchemaTypePtr subtypes;
/*
* If max and min occurances are default (1) then
* simply iterate over the subtypes
*/
if ((type->minOccurs == 1) && (type->maxOccurs == 1)) {
subtypes = type->subtypes;
while (subtypes != NULL) {
xmlSchemaBuildAContentModel(subtypes, ctxt, name);
subtypes = subtypes->next;
}
} else {
xmlAutomataStatePtr oldstate = ctxt->state;
if (type->maxOccurs >= UNBOUNDED) {
if (type->minOccurs > 1) {
xmlAutomataStatePtr tmp;
int counter;
ctxt->state = xmlAutomataNewEpsilon(ctxt->am,
oldstate,
NULL);
oldstate = ctxt->state;
counter = xmlAutomataNewCounter(ctxt->am,
type->
minOccurs - 1,
UNBOUNDED);
subtypes = type->subtypes;
while (subtypes != NULL) {
xmlSchemaBuildAContentModel(subtypes, ctxt,
name);
subtypes = subtypes->next;
}
tmp = ctxt->state;
xmlAutomataNewCountedTrans(ctxt->am, tmp,
oldstate, counter);
ctxt->state =
xmlAutomataNewCounterTrans(ctxt->am, tmp,
NULL, counter);
} else {
subtypes = type->subtypes;
while (subtypes != NULL) {
xmlSchemaBuildAContentModel(subtypes, ctxt,
name);
subtypes = subtypes->next;
}
xmlAutomataNewEpsilon(ctxt->am, ctxt->state,
oldstate);
if (type->minOccurs == 0) {
xmlAutomataNewEpsilon(ctxt->am, oldstate,
ctxt->state);
}
}
} else if ((type->maxOccurs > 1)
|| (type->minOccurs > 1)) {
xmlAutomataStatePtr tmp;
int counter;
ctxt->state = xmlAutomataNewEpsilon(ctxt->am,
oldstate,
NULL);
oldstate = ctxt->state;
counter = xmlAutomataNewCounter(ctxt->am,
type->minOccurs -
1,
type->maxOccurs -
1);
subtypes = type->subtypes;
while (subtypes != NULL) {
xmlSchemaBuildAContentModel(subtypes, ctxt,
name);
subtypes = subtypes->next;
}
tmp = ctxt->state;
xmlAutomataNewCountedTrans(ctxt->am, tmp, oldstate,
counter);
ctxt->state =
xmlAutomataNewCounterTrans(ctxt->am, tmp, NULL,
counter);
if (type->minOccurs == 0) {
xmlAutomataNewEpsilon(ctxt->am, oldstate,
ctxt->state);
}
} else {
subtypes = type->subtypes;
while (subtypes != NULL) {
xmlSchemaBuildAContentModel(subtypes, ctxt,
name);
subtypes = subtypes->next;
}
if (type->minOccurs == 0) {
xmlAutomataNewEpsilon(ctxt->am, oldstate,
ctxt->state);
}
}
}
break;
}
case XML_SCHEMA_TYPE_CHOICE:{
xmlSchemaTypePtr subtypes;
xmlAutomataStatePtr start, end;
start = ctxt->state;
end = xmlAutomataNewState(ctxt->am);
/*
* iterate over the subtypes and remerge the end with an
* epsilon transition
*/
if (type->maxOccurs == 1) {
subtypes = type->subtypes;
while (subtypes != NULL) {
ctxt->state = start;
xmlSchemaBuildAContentModel(subtypes, ctxt, name);
xmlAutomataNewEpsilon(ctxt->am, ctxt->state, end);
subtypes = subtypes->next;
}
} else {
int counter;
xmlAutomataStatePtr hop;
int maxOccurs = type->maxOccurs == UNBOUNDED ?
UNBOUNDED : type->maxOccurs - 1;
int minOccurs =
type->minOccurs < 1 ? 0 : type->minOccurs - 1;
/*
* use a counter to keep track of the number of transtions
* which went through the choice.
*/
counter =
xmlAutomataNewCounter(ctxt->am, minOccurs,
maxOccurs);
hop = xmlAutomataNewState(ctxt->am);
subtypes = type->subtypes;
while (subtypes != NULL) {
ctxt->state = start;
xmlSchemaBuildAContentModel(subtypes, ctxt, name);
xmlAutomataNewEpsilon(ctxt->am, ctxt->state, hop);
subtypes = subtypes->next;
}
xmlAutomataNewCountedTrans(ctxt->am, hop, start,
counter);
xmlAutomataNewCounterTrans(ctxt->am, hop, end,
counter);
}
if (type->minOccurs == 0) {
xmlAutomataNewEpsilon(ctxt->am, start, end);
}
ctxt->state = end;
break;
}
case XML_SCHEMA_TYPE_ALL:{
xmlAutomataStatePtr start;
xmlSchemaTypePtr subtypes;
/*
* Changed, since type in not an xmlSchemaElement here.
*/
/* xmlSchemaElementPtr elem = (xmlSchemaElementPtr) type; */
xmlSchemaElementPtr elem;
int lax;
subtypes = type->subtypes;
if (subtypes == NULL)
break;
start = ctxt->state;
while (subtypes != NULL) {
ctxt->state = start;
/*
* the following 'if' was needed to fix bug 139897
* not quite sure why it only needs to be done for
* elements with a 'ref', but it seems to work ok.
*/
if (subtypes->ref != NULL)
xmlSchemaBuildAContentModel(subtypes, ctxt, name);
elem = (xmlSchemaElementPtr) subtypes;
/* TODO : handle the namespace too */
if ((elem->minOccurs == 1) && (elem->maxOccurs == 1)) {
xmlAutomataNewOnceTrans(ctxt->am, ctxt->state,
ctxt->state, elem->name, 1,
1, subtypes);
} else {
xmlAutomataNewCountTrans(ctxt->am, ctxt->state,
ctxt->state, elem->name,
elem->minOccurs,
elem->maxOccurs,
subtypes);
}
subtypes = subtypes->next;
}
lax = type->minOccurs == 0;
ctxt->state =
xmlAutomataNewAllTrans(ctxt->am, ctxt->state, NULL,
lax);
break;
}
case XML_SCHEMA_TYPE_RESTRICTION:
if (type->subtypes != NULL)
xmlSchemaBuildAContentModel(type->subtypes, ctxt, name);
break;
case XML_SCHEMA_TYPE_EXTENSION:
if (type->baseType != NULL) {
xmlSchemaTypePtr subtypes;
if (type->recurse) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_UNKNOWN_BASE_TYPE,
"Schemas: extension type %s is recursive\n",
type->name, NULL);
return;
}
type->recurse = 1;
xmlSchemaBuildAContentModel(type->baseType, ctxt, name);
type->recurse = 0;
subtypes = type->subtypes;
while (subtypes != NULL) {
xmlSchemaBuildAContentModel(subtypes, ctxt, name);
subtypes = subtypes->next;
}
} else if (type->subtypes != NULL)
xmlSchemaBuildAContentModel(type->subtypes, ctxt, name);
break;
case XML_SCHEMA_TYPE_GROUP:
if (type->subtypes == NULL) {
xmlSchemaTypePtr rgroup;
if (type->ref != NULL) {
rgroup = xmlSchemaGetGroup(ctxt->schema, type->ref,
type->refNs);
if (rgroup == NULL) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_UNKNOWN_REF,
"Schemas: group %s reference %s is not found",
name, type->ref);
return;
}
xmlSchemaBuildAContentModel(rgroup, ctxt, name);
break;
}
}
case XML_SCHEMA_TYPE_COMPLEX:
case XML_SCHEMA_TYPE_COMPLEX_CONTENT:
if (type->subtypes != NULL)
xmlSchemaBuildAContentModel(type->subtypes, ctxt, name);
break;
default:
xmlGenericError(xmlGenericErrorContext,
"Found unexpected type %d in %s content model\n",
type->type, name);
return;
}
}
/**
* xmlSchemaBuildContentModel:
* @elem: the element
* @ctxt: the schema parser context
* @name: the element name
*
* Builds the content model of the element.
*/
static void
xmlSchemaBuildContentModel(xmlSchemaElementPtr elem,
xmlSchemaParserCtxtPtr ctxt,
const xmlChar * name)
{
xmlAutomataStatePtr start;
if (elem->contModel != NULL)
return;
if (elem->subtypes == NULL) {
elem->contentType = XML_SCHEMA_CONTENT_ANY;
return;
}
if (elem->subtypes->type != XML_SCHEMA_TYPE_COMPLEX)
return;
if ((elem->subtypes->contentType == XML_SCHEMA_CONTENT_BASIC) ||
(elem->subtypes->contentType == XML_SCHEMA_CONTENT_SIMPLE))
return;
#ifdef DEBUG_CONTENT
xmlGenericError(xmlGenericErrorContext,
"Building content model for %s\n", name);
#endif
ctxt->am = xmlNewAutomata();
if (ctxt->am == NULL) {
xmlGenericError(xmlGenericErrorContext,
"Cannot create automata for elem %s\n", name);
return;
}
start = ctxt->state = xmlAutomataGetInitState(ctxt->am);
xmlSchemaBuildAContentModel(elem->subtypes, ctxt, name);
xmlAutomataSetFinalState(ctxt->am, ctxt->state);
elem->contModel = xmlAutomataCompile(ctxt->am);
if (elem->contModel == NULL) {
xmlSchemaPErr(ctxt, elem->node, XML_SCHEMAS_ERR_INTERNAL,
"failed to compile %s content model\n", name, NULL);
} else if (xmlRegexpIsDeterminist(elem->contModel) != 1) {
xmlSchemaPErr(ctxt, elem->node, XML_SCHEMAS_ERR_NOTDETERMINIST,
"Content model of %s is not determinist:\n", name,
NULL);
} else {
#ifdef DEBUG_CONTENT_REGEXP
xmlGenericError(xmlGenericErrorContext,
"Content model of %s:\n", name);
xmlRegexpPrint(stderr, elem->contModel);
#endif
}
ctxt->state = NULL;
xmlFreeAutomata(ctxt->am);
ctxt->am = NULL;
}
/**
* xmlSchemaRefFixupCallback:
* @elem: the schema element context
* @ctxt: the schema parser context
*
* Free the resources associated to the schema parser context
*/
static void
xmlSchemaRefFixupCallback(xmlSchemaElementPtr elem,
xmlSchemaParserCtxtPtr ctxt,
const xmlChar * name,
const xmlChar * context ATTRIBUTE_UNUSED,
const xmlChar * namespace ATTRIBUTE_UNUSED)
{
if ((ctxt == NULL) || (elem == NULL))
return;
if (elem->ref != NULL) {
xmlSchemaElementPtr elemDecl;
if (elem->subtypes != NULL) {
xmlSchemaPErr(ctxt, elem->node,
XML_SCHEMAP_INVALID_REF_AND_SUBTYPE,
"Schemas: element %s has both ref and subtype\n",
name, NULL);
return;
}
elemDecl = xmlSchemaGetElem(ctxt->schema, elem->ref, elem->refNs, 0);
if (elemDecl == NULL) {
xmlSchemaPErr(ctxt, elem->node,
XML_SCHEMAP_SRC_RESOLVE,
"Element \"%s\": the QName \"%s\" of the attribute "
"\"ref\" does not resolve to a schema "
"component.\n",
name, elem->ref);
return;
}
elem->refDecl = elemDecl;
} else if (elem->namedType != NULL) {
xmlSchemaTypePtr typeDecl;
if (elem->subtypes != NULL) {
xmlSchemaPErr(ctxt, elem->node, XML_SCHEMAP_TYPE_AND_SUBTYPE,
"Schemas: element %s has both type and subtype\n",
name, NULL);
return;
}
typeDecl = xmlSchemaGetType(ctxt->schema, elem->namedType,
elem->namedTypeNs);
if (typeDecl == NULL) {
xmlSchemaPErr(ctxt, elem->node,
XML_SCHEMAP_SRC_RESOLVE,
"Element \"%s\": the QName \"%s\" of the attribute "
"\"type\" does not resolve to a schema "
"component.\n", name, elem->namedType);
return;
}
elem->subtypes = typeDecl;
}
}
/**
* xmlSchemaParseListRefFixup:
* @type: the schema type definition
* @ctxt: the schema parser context
*
* Fixup of the itemType reference of the list type.
*/
static void
xmlSchemaParseListRefFixup(xmlSchemaTypePtr type, xmlSchemaParserCtxtPtr ctxt)
{
/*
* src-list-itemType-or-simpleType
* Either the itemType [attribute] or the <simpleType> [child] of
* the <list> element must be present, but not both.
*/
if (((type->base == NULL) &&
(type->subtypes == NULL)) ||
((type->base != NULL) &&
(type->subtypes != NULL))) {
/*
* src-restriction-base-or-simpleType
* Either the base [attribute] or the simpleType [child] of the
* <restriction> element must be present, but not both.
*/
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_SRC_LIST_ITEMTYPE_OR_SIMPLETYPE,
"List \"%s\": "
"Either the \"base\" attribute or the <simpleType> child "
"must be present, but not both.\n",
type->name, NULL);
} else if (type->base!= NULL) {
type->subtypes = xmlSchemaGetType(ctxt->schema, type->base, type->baseNs);
if (type->subtypes == NULL) {
xmlSchemaPErr(ctxt, type->node, XML_SCHEMAP_UNKNOWN_TYPE,
"List \"%s\" references an unknown item type: \"%s\"\n",
type->name, type->base);
}
}
if ((type->subtypes != NULL) &&
(type->subtypes->contentType == XML_SCHEMA_CONTENT_UNKNOWN))
xmlSchemaTypeFixup(type->subtypes, ctxt, NULL);
}
/**
* xmlSchemaParseUnionRefCheck:
* @typeDecl: the schema type definition
* @ctxt: the schema parser context
*
* Checks and builds the memberTypes of the union type.
* Returns -1 in case of an internal error, 0 otherwise.
*/
static int
xmlSchemaParseUnionRefCheck(xmlSchemaTypePtr type,
xmlSchemaParserCtxtPtr ctxt)
{
const xmlChar *cur, *end, *prefix, *ncName, *namespace;
xmlChar *tmp;
xmlSchemaTypeLinkPtr link, lastLink = NULL, prevLink, subLink, newLink;
xmlSchemaTypePtr memberType, ctxtType;
xmlNsPtr ns;
int len;
/* 1 If the <union> alternative is chosen, then [Definition:]
* define the explicit members as the type definitions ·resolved·
* to by the items in the ·actual value· of the memberTypes [attribute],
* if any, followed by the type definitions corresponding to the
* <simpleType>s among the [children] of <union>, if any.
*/
if (type->type != XML_SCHEMA_TYPE_UNION)
return (-1);
if (ctxt->ctxtType == NULL) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaParseUnionRefCheck, no parent type "
"available", NULL, NULL);
return (-1);
}
/*
* src-union-memberTypes-or-simpleTypes
* Either the memberTypes [attribute] of the <union> element must
* be non-empty or there must be at least one simpleType [child].
*/
if ((type->base == NULL) &&
(type->subtypes == NULL)) {
/*
* src-restriction-base-or-simpleType
* Either the base [attribute] or the simpleType [child] of the
* <restriction> element must be present, but not both.
*/
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_SRC_UNION_MEMBERTYPES_OR_SIMPLETYPES,
"Union \"%s\": "
"Either the \"memberTypes\" attribute must be non-empty "
"or there must be at least one <simpleType> child.\n",
type->name, NULL);
}
ctxtType = ctxt->ctxtType;
if (type->base != NULL) {
cur = type->base;
do {
while (IS_BLANK_CH(*cur))
cur++;
end = cur;
while ((*end != 0) && (!(IS_BLANK_CH(*end))))
end++;
if (end == cur)
break;
tmp = xmlStrndup(cur, end - cur);
ncName = xmlSplitQName3(tmp, &len);
if (ncName != NULL) {
prefix = xmlDictLookup(ctxt->dict, tmp, len);
} else {
prefix = NULL;
ncName = tmp;
}
ns = xmlSearchNs(type->node->doc, type->node, prefix);
if (ns == NULL) {
if (prefix != NULL) {
xmlSchemaPErr(ctxt, type->node, XML_SCHEMAP_PREFIX_UNDEFINED,
"Union \"%s\": the namespace prefix of member type "
"\"%s\" is undefined\n",
type->name, (const xmlChar *) tmp);
}
namespace = NULL;
} else {
namespace = xmlDictLookup(ctxt->dict, ns->href, -1);
}
memberType = xmlSchemaGetType(ctxt->schema, ncName, namespace);
if (memberType == NULL) {
xmlSchemaPErr(ctxt, type->node, XML_SCHEMAP_UNKNOWN_MEMBER_TYPE,
"Union \"%s\" references an unknown member type \"%s\".\n",
type->name, (const xmlChar *) tmp);
} else {
if (memberType->contentType == XML_SCHEMA_CONTENT_UNKNOWN)
xmlSchemaTypeFixup(memberType, ctxt, NULL);
link = (xmlSchemaTypeLinkPtr) xmlMalloc(sizeof(xmlSchemaTypeLink));
if (link == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating a type link", NULL);
return (-1);
}
link->type = memberType;
link->next = NULL;
if (lastLink == NULL)
ctxtType->memberTypes = link;
else
lastLink->next = link;
lastLink = link;
}
xmlFree(tmp);
cur = end;
} while (*cur != 0);
}
/*
* Add local simple types,
*/
memberType = type->subtypes;
while (memberType != NULL) {
if (memberType->contentType == XML_SCHEMA_CONTENT_UNKNOWN)
xmlSchemaTypeFixup(memberType, ctxt, NULL);
link = (xmlSchemaTypeLinkPtr) xmlMalloc(sizeof(xmlSchemaTypeLink));
if (link == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating a type link", NULL);
return (-1);
}
link->type = memberType;
link->next = NULL;
if (lastLink == NULL)
ctxtType->memberTypes = link;
else
lastLink->next = link;
lastLink = link;
memberType = memberType->next;
}
/*
* The actual value is then formed by replacing any union type
* definition in the ·explicit members· with the members of their
* {member type definitions}, in order.
*/
link = ctxtType->memberTypes;
while (link != NULL) {
if (link->type->flags & XML_SCHEMAS_TYPE_VARIETY_UNION) {
subLink = link->type->memberTypes;
if (subLink != NULL) {
link->type = subLink->type;
if (subLink->next != NULL) {
lastLink = link->next;
subLink = subLink->next;
prevLink = link;
while (subLink != NULL) {
newLink = (xmlSchemaTypeLinkPtr)
xmlMalloc(sizeof(xmlSchemaTypeLink));
if (newLink == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating a type link",
NULL);
return (-1);
}
newLink->type = memberType;
prevLink->next = newLink;
prevLink = newLink;
newLink->next = lastLink;
subLink = subLink->next;
}
}
}
}
link = link->next;
}
return (0);
}
/**
* xmlSchemaGetOnymousTypeName:
* @attr: the attribute declaration/use
*
* Returns the name of the attribute; if the attribute
* is a reference, the name of the referenced global type will be returned.
*/
static const xmlChar *
xmlSchemaGetOnymousAttrName(xmlSchemaAttributePtr attr)
{
if (attr->ref != NULL)
return(attr->ref);
else
return(attr->name);
}
/**
* xmlSchemaGetOnymousTargetNsURI:
* @type: the type (element or attribute)
*
* Returns the target namespace URI of the type; if the type is a reference,
* the target namespace of the referenced type will be returned.
*/
static const xmlChar *
xmlSchemaGetOnymousTargetNsURI(xmlSchemaTypePtr type)
{
if (type->type == XML_SCHEMA_TYPE_ELEMENT) {
if (type->ref != NULL)
return(((xmlSchemaElementPtr)((xmlSchemaElementPtr)
type)->subtypes)->targetNamespace);
else
return(((xmlSchemaElementPtr) type)->targetNamespace);
} else if (type->type == XML_SCHEMA_TYPE_ATTRIBUTE) {
if (type->ref != NULL)
return(((xmlSchemaAttributePtr)((xmlSchemaAttributePtr)
type)->subtypes)->targetNamespace);
else
return(((xmlSchemaAttributePtr) type)->targetNamespace);
} else
return (NULL);
}
/**
* xmlSchemaIsDerivedFromBuiltInType:
* @ctxt: the schema parser context
* @type: the type definition
* @valType: the value type
*
*
* Returns 1 if the type has the given value type, or
* is derived from such a type.
*/
static int
xmlSchemaIsDerivedFromBuiltInType(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaTypePtr type, int valType)
{
/* TODO: Check if this works in every case. */
if ((type->type == XML_SCHEMA_TYPE_BASIC) &&
(type->contentType == XML_SCHEMA_CONTENT_BASIC)) {
if (type->builtInType == valType)
return(1);
} else if (type->type == XML_SCHEMA_TYPE_ATTRIBUTE) {
if (((xmlSchemaAttributePtr) type)->subtypes != NULL)
return(xmlSchemaIsDerivedFromBuiltInType(ctxt,
((xmlSchemaAttributePtr) type)->subtypes, valType));
} else if ((type->type == XML_SCHEMA_TYPE_RESTRICTION) ||
(type->type == XML_SCHEMA_TYPE_EXTENSION)) {
if (type->baseType != NULL)
return(xmlSchemaIsDerivedFromBuiltInType(ctxt, type->baseType,
valType));
} else if ((type->subtypes != NULL) &&
((type->subtypes->type == XML_SCHEMA_TYPE_COMPLEX) ||
(type->subtypes->type == XML_SCHEMA_TYPE_COMPLEX_CONTENT) ||
(type->subtypes->type == XML_SCHEMA_TYPE_SIMPLE) ||
(type->subtypes->type == XML_SCHEMA_TYPE_SIMPLE_CONTENT))) {
return(xmlSchemaIsDerivedFromBuiltInType(ctxt, type->subtypes,
valType));
}
return (0);
}
/**
* xmlSchemaIsDerivedFromBuiltInType:
* @type: the simpleType definition
*
* Returns the primitive type of the given type or
* NULL in case of error.
*/
static xmlSchemaTypePtr
xmlSchemaGetPrimitiveType(xmlSchemaTypePtr type)
{
while (type != NULL) {
if (type->flags & XML_SCHEMAS_TYPE_BUILTIN_PRIMITIVE)
return (type);
type = type->baseType;
}
return (NULL);
}
/**
* xmlSchemaBuildAttributeUsesOwned:
* @ctxt: the schema parser context
* @type: the complex type definition
* @cur: the attribute declaration list
* @lastUse: the top of the attribute use list
*
* Builds the attribute uses list on the given complex type.
* This one is supposed to be called by
* xmlSchemaBuildAttributeValidation only.
*/
static int
xmlSchemaBuildAttributeUsesOwned(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaAttributePtr cur,
xmlSchemaAttributeLinkPtr *uses,
xmlSchemaAttributeLinkPtr *lastUse)
{
xmlSchemaAttributeLinkPtr tmp;
while (cur != NULL) {
if (cur->type == XML_SCHEMA_TYPE_ATTRIBUTEGROUP) {
/*
* W3C: "2 The {attribute uses} of the attribute groups ·resolved·
* to by the ·actual value·s of the ref [attribute] of the
* <attributeGroup> [children], if any."
*/
if (xmlSchemaBuildAttributeUsesOwned(ctxt,
((xmlSchemaAttributeGroupPtr) cur)->attributes, uses,
lastUse) == -1) {
return (-1);
}
} else {
/* W3C: "1 The set of attribute uses corresponding to the
* <attribute> [children], if any."
*/
tmp = (xmlSchemaAttributeLinkPtr)
xmlMalloc(sizeof(xmlSchemaAttributeLink));
if (tmp == NULL) {
xmlSchemaPErrMemory(ctxt, "building attribute uses", NULL);
return (-1);
}
tmp->attr = cur;
tmp->next = NULL;
if (*uses == NULL)
*uses = tmp;
else
(*lastUse)->next = tmp;
*lastUse = tmp;
}
cur = cur->next;
}
return (0);
}
/**
* xmlSchemaCloneWildcardNsConstraints:
* @ctxt: the schema parser context
* @dest: the destination wildcard
* @source: the source wildcard
*
* Clones the namespace constraints of source
* and assignes them to dest.
* Returns -1 on internal error, 0 otherwise.
*/
static int
xmlSchemaCloneWildcardNsConstraints(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaWildcardPtr *dest,
xmlSchemaWildcardPtr source)
{
xmlSchemaWildcardNsPtr cur, tmp, last;
if ((source == NULL) || (*dest == NULL))
return(-1);
(*dest)->any = source->any;
cur = source->nsSet;
last = NULL;
while (cur != NULL) {
tmp = xmlSchemaNewWildcardNsConstraint(ctxt);
if (tmp == NULL)
return(-1);
tmp->value = cur->value;
if (last == NULL)
(*dest)->nsSet = tmp;
else
last->next = tmp;
last = tmp;
cur = cur->next;
}
if ((*dest)->negNsSet != NULL)
xmlSchemaFreeWildcardNsSet((*dest)->negNsSet);
if (source->negNsSet != NULL) {
(*dest)->negNsSet = xmlSchemaNewWildcardNsConstraint(ctxt);
if ((*dest)->negNsSet == NULL)
return(-1);
(*dest)->negNsSet->value = source->negNsSet->value;
} else
(*dest)->negNsSet = NULL;
return(0);
}
/**
* xmlSchemaUnionWildcards:
* @ctxt: the schema parser context
* @completeWild: the first wildcard
* @curWild: the second wildcard
*
* Unions the namespace constraints of the given wildcards.
* @completeWild will hold the resulting union.
* Returns a positive error code on failure, -1 in case of an
* internal error, 0 otherwise.
*/
static int
xmlSchemaUnionWildcards(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaWildcardPtr completeWild,
xmlSchemaWildcardPtr curWild)
{
xmlSchemaWildcardNsPtr cur, curB, tmp;
/*
* 1 If O1 and O2 are the same value, then that value must be the
* value.
*/
if ((completeWild->any == curWild->any) &&
((completeWild->nsSet == NULL) == (curWild->nsSet == NULL)) &&
((completeWild->negNsSet == NULL) == (curWild->negNsSet == NULL))) {
if ((completeWild->negNsSet == NULL) ||
(completeWild->negNsSet->value == curWild->negNsSet->value)) {
if (completeWild->nsSet != NULL) {
int found = 0;
/*
* Check equality of sets.
*/
cur = completeWild->nsSet;
while (cur != NULL) {
found = 0;
curB = curWild->nsSet;
while (curB != NULL) {
if (cur->value == curB->value) {
found = 1;
break;
}
curB = curB->next;
}
if (!found)
break;
cur = cur->next;
}
if (found)
return(0);
} else
return(0);
}
}
/*
* 2 If either O1 or O2 is any, then any must be the value
*/
if (completeWild->any != curWild->any) {
if (completeWild->any == 0) {
completeWild->any = 1;
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
if (completeWild->negNsSet != NULL) {
xmlFree(completeWild->negNsSet);
completeWild->negNsSet = NULL;
}
}
return (0);
}
/*
* 3 If both O1 and O2 are sets of (namespace names or ·absent·),
* then the union of those sets must be the value.
*/
if ((completeWild->nsSet != NULL) && (curWild->nsSet != NULL)) {
int found;
xmlSchemaWildcardNsPtr start;
cur = curWild->nsSet;
start = completeWild->nsSet;
while (cur != NULL) {
found = 0;
curB = start;
while (curB != NULL) {
if (cur->value == curB->value) {
found = 1;
break;
}
curB = curB->next;
}
if (!found) {
tmp = xmlSchemaNewWildcardNsConstraint(ctxt);
if (tmp == NULL)
return (-1);
tmp->value = cur->value;
tmp->next = completeWild->nsSet;
completeWild->nsSet = tmp;
}
cur = cur->next;
}
return(0);
}
/*
* 4 If the two are negations of different values (namespace names
* or ·absent·), then a pair of not and ·absent· must be the value.
*/
if ((completeWild->negNsSet != NULL) &&
(curWild->negNsSet != NULL) &&
(completeWild->negNsSet->value != curWild->negNsSet->value)) {
completeWild->negNsSet->value = NULL;
return(0);
}
/*
* 5.
*/
if (((completeWild->negNsSet != NULL) &&
(completeWild->negNsSet->value != NULL) &&
(curWild->nsSet != NULL)) ||
((curWild->negNsSet != NULL) &&
(curWild->negNsSet->value != NULL) &&
(completeWild->nsSet != NULL))) {
int nsFound, absentFound = 0;
if (completeWild->nsSet != NULL) {
cur = completeWild->nsSet;
curB = curWild->negNsSet;
} else {
cur = curWild->nsSet;
curB = completeWild->negNsSet;
}
nsFound = 0;
while (cur != NULL) {
if (cur->value == NULL)
absentFound = 1;
else if (cur->value == curB->value)
nsFound = 1;
if (nsFound && absentFound)
break;
cur = cur->next;
}
if (nsFound && absentFound) {
/*
* 5.1 If the set S includes both the negated namespace
* name and ·absent·, then any must be the value.
*/
completeWild->any = 1;
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
if (completeWild->negNsSet != NULL) {
xmlFree(completeWild->negNsSet);
completeWild->negNsSet = NULL;
}
} else if (nsFound && (!absentFound)) {
/*
* 5.2 If the set S includes the negated namespace name
* but not ·absent·, then a pair of not and ·absent· must
* be the value.
*/
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
if (completeWild->negNsSet == NULL) {
completeWild->negNsSet = xmlSchemaNewWildcardNsConstraint(ctxt);
if (completeWild->negNsSet == NULL)
return (-1);
}
completeWild->negNsSet->value = NULL;
} else if ((!nsFound) && absentFound) {
/*
* 5.3 If the set S includes ·absent· but not the negated
* namespace name, then the union is not expressible.
*/
xmlSchemaPErr(ctxt, completeWild->node,
XML_SCHEMAP_UNION_NOT_EXPRESSIBLE,
"The union of the wilcard is not expressible\n",
NULL, NULL);
return(XML_SCHEMAP_UNION_NOT_EXPRESSIBLE);
} else if ((!nsFound) && (!absentFound)) {
/*
* 5.4 If the set S does not include either the negated namespace
* name or ·absent·, then whichever of O1 or O2 is a pair of not
* and a namespace name must be the value.
*/
if (completeWild->negNsSet == NULL) {
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
completeWild->negNsSet = xmlSchemaNewWildcardNsConstraint(ctxt);
if (completeWild->negNsSet == NULL)
return (-1);
completeWild->negNsSet->value = curWild->negNsSet->value;
}
}
return (0);
}
/*
* 6.
*/
if (((completeWild->negNsSet != NULL) &&
(completeWild->negNsSet->value == NULL) &&
(curWild->nsSet != NULL)) ||
((curWild->negNsSet != NULL) &&
(curWild->negNsSet->value == NULL) &&
(completeWild->nsSet != NULL))) {
if (completeWild->nsSet != NULL) {
cur = completeWild->nsSet;
} else {
cur = curWild->nsSet;
}
while (cur != NULL) {
if (cur->value == NULL) {
/*
* 6.1 If the set S includes ·absent·, then any must be the
* value.
*/
completeWild->any = 1;
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
if (completeWild->negNsSet != NULL) {
xmlFree(completeWild->negNsSet);
completeWild->negNsSet = NULL;
}
return (0);
}
cur = cur->next;
}
if (completeWild->negNsSet == NULL) {
/*
* 6.2 If the set S does not include ·absent·, then a pair of not
* and ·absent· must be the value.
*/
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
completeWild->negNsSet = xmlSchemaNewWildcardNsConstraint(ctxt);
if (completeWild->negNsSet == NULL)
return (-1);
completeWild->negNsSet->value = NULL;
}
return (0);
}
return (0);
}
/**
* xmlSchemaIntersectWildcards:
* @ctxt: the schema parser context
* @completeWild: the first wildcard
* @curWild: the second wildcard
*
* Intersects the namespace constraints of the given wildcards.
* @completeWild will hold the resulting intersection.
* Returns a positive error code on failure, -1 in case of an
* internal error, 0 otherwise.
*/
static int
xmlSchemaIntersectWildcards(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaWildcardPtr completeWild,
xmlSchemaWildcardPtr curWild)
{
xmlSchemaWildcardNsPtr cur, curB, prev, tmp;
/*
* 1 If O1 and O2 are the same value, then that value must be the
* value.
*/
if ((completeWild->any == curWild->any) &&
((completeWild->nsSet == NULL) == (curWild->nsSet == NULL)) &&
((completeWild->negNsSet == NULL) == (curWild->negNsSet == NULL))) {
if ((completeWild->negNsSet == NULL) ||
(completeWild->negNsSet->value == curWild->negNsSet->value)) {
if (completeWild->nsSet != NULL) {
int found = 0;
/*
* Check equality of sets.
*/
cur = completeWild->nsSet;
while (cur != NULL) {
found = 0;
curB = curWild->nsSet;
while (curB != NULL) {
if (cur->value == curB->value) {
found = 1;
break;
}
curB = curB->next;
}
if (!found)
break;
cur = cur->next;
}
if (found)
return(0);
} else
return(0);
}
}
/*
* 2 If either O1 or O2 is any, then the other must be the value.
*/
if ((completeWild->any != curWild->any) && (completeWild->any)) {
if (xmlSchemaCloneWildcardNsConstraints(ctxt, &completeWild, curWild) == -1)
return(-1);
return(0);
}
/*
* 3 If either O1 or O2 is a pair of not and a value (a namespace
* name or ·absent·) and the other is a set of (namespace names or
* ·absent·), then that set, minus the negated value if it was in
* the set, minus ·absent· if it was in the set, must be the value.
*/
if (((completeWild->negNsSet != NULL) && (curWild->nsSet != NULL)) ||
((curWild->negNsSet != NULL) && (completeWild->nsSet != NULL))) {
const xmlChar *neg;
if (completeWild->nsSet == NULL) {
neg = completeWild->negNsSet->value;
if (xmlSchemaCloneWildcardNsConstraints(ctxt, &completeWild, curWild) == -1)
return(-1);
} else
neg = curWild->negNsSet->value;
/*
* Remove absent and negated.
*/
prev = NULL;
cur = completeWild->nsSet;
while (cur != NULL) {
if (cur->value == NULL) {
if (prev == NULL)
completeWild->nsSet = cur->next;
else
prev->next = cur->next;
xmlFree(cur);
break;
}
prev = cur;
cur = cur->next;
}
if (neg != NULL) {
prev = NULL;
cur = completeWild->nsSet;
while (cur != NULL) {
if (cur->value == neg) {
if (prev == NULL)
completeWild->nsSet = cur->next;
else
prev->next = cur->next;
xmlFree(cur);
break;
}
prev = cur;
cur = cur->next;
}
}
return(0);
}
/*
* 4 If both O1 and O2 are sets of (namespace names or ·absent·),
* then the intersection of those sets must be the value.
*/
if ((completeWild->nsSet != NULL) && (curWild->nsSet != NULL)) {
int found;
cur = completeWild->nsSet;
prev = NULL;
while (cur != NULL) {
found = 0;
curB = curWild->nsSet;
while (curB != NULL) {
if (cur->value == curB->value) {
found = 1;
break;
}
curB = curB->next;
}
if (!found) {
if (prev == NULL)
completeWild->nsSet = cur->next;
else
prev->next = cur->next;
tmp = cur->next;
xmlFree(cur);
cur = tmp;
continue;
}
prev = cur;
cur = cur->next;
}
return(0);
}
/* 5 If the two are negations of different namespace names,
* then the intersection is not expressible
*/
if ((completeWild->negNsSet != NULL) &&
(curWild->negNsSet != NULL) &&
(completeWild->negNsSet->value != curWild->negNsSet->value) &&
(completeWild->negNsSet->value != NULL) &&
(curWild->negNsSet->value != NULL)) {
xmlSchemaPErr(ctxt, completeWild->node, XML_SCHEMAP_INTERSECTION_NOT_EXPRESSIBLE,
"The intersection of the wilcard is not expressible\n",
NULL, NULL);
return(XML_SCHEMAP_INTERSECTION_NOT_EXPRESSIBLE);
}
/*
* 6 If the one is a negation of a namespace name and the other
* is a negation of ·absent·, then the one which is the negation
* of a namespace name must be the value.
*/
if ((completeWild->negNsSet != NULL) && (curWild->negNsSet != NULL) &&
(completeWild->negNsSet->value != curWild->negNsSet->value) &&
(completeWild->negNsSet->value == NULL)) {
completeWild->negNsSet->value = curWild->negNsSet->value;
}
return(0);
}
/**
* xmlSchemaIsWildcardNsConstraintSubset:
* @ctxt: the schema parser context
* @wildA: the first wildcard
* @wildB: the second wildcard
*
* Returns 1 if the namespace constraint of @wildA is an intensional
* subset of @wildB, 0 otherwise.
*/
static int
xmlSchemaIsWildcardNsConstraintSubset(
xmlSchemaParserCtxtPtr ctxt ATTRIBUTE_UNUSED,
xmlSchemaWildcardPtr wildA,
xmlSchemaWildcardPtr wildB)
{
/*
* Schema Component Constraint: Wildcard Subset
*/
/*
* 1 super must be any.
*/
if (wildB->any)
return (1);
/*
* 2.1 sub must be a pair of not and a namespace name or ·absent·.
* 2.2 super must be a pair of not and the same value.
*/
if ((wildA->negNsSet != NULL) &&
(wildB->negNsSet != NULL) &&
(wildA->negNsSet->value == wildA->negNsSet->value))
return (1);
/*
* 3.1 sub must be a set whose members are either namespace names or ·absent·.
*/
if (wildA->nsSet != NULL) {
/*
* 3.2.1 super must be the same set or a superset thereof.
*/
if (wildB->nsSet != NULL) {
xmlSchemaWildcardNsPtr cur, curB;
int found = 0;
cur = wildA->nsSet;
while (cur != NULL) {
found = 0;
curB = wildB->nsSet;
while (curB != NULL) {
if (cur->value == curB->value) {
found = 1;
break;
}
curB = curB->next;
}
if (!found)
return (0);
cur = cur->next;
}
if (found)
return (1);
} else if (wildB->negNsSet != NULL) {
xmlSchemaWildcardNsPtr cur;
/*
* 3.2.2 super must be a pair of not and a namespace name or
* ·absent· and that value must not be in sub's set.
*/
cur = wildA->nsSet;
while (cur != NULL) {
if (cur->value == wildB->negNsSet->value)
return (0);
cur = cur->next;
}
return (1);
}
}
return (0);
}
/**
* xmlSchemaBuildCompleteAttributeWildcard:
* @ctxt: the schema parser context
* @attrs: the attribute list
* @completeWild: the resulting complete wildcard
*
* Returns -1 in case of an internal error, 0 otherwise.
*/
static int
xmlSchemaBuildCompleteAttributeWildcard(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaAttributePtr attrs,
xmlSchemaWildcardPtr *completeWild)
{
while (attrs != NULL) {
if (attrs->type == XML_SCHEMA_TYPE_ATTRIBUTEGROUP) {
xmlSchemaAttributeGroupPtr group;
group = (xmlSchemaAttributeGroupPtr) attrs;
if ((group->flags & XML_SCHEMAS_ATTRGROUP_WILDCARD_BUILDED) == 0) {
if (group->attributes != NULL) {
if (xmlSchemaBuildCompleteAttributeWildcard(ctxt,
group->attributes, &group->attributeWildcard) == -1)
return (-1);
}
group->flags |= XML_SCHEMAS_ATTRGROUP_WILDCARD_BUILDED;
}
if (group->attributeWildcard != NULL) {
if (*completeWild == NULL) {
/*
* Copy the first encountered wildcard as context, except for the annotation.
*/
*completeWild = xmlSchemaAddWildcard(ctxt);
(*completeWild)->type = XML_SCHEMA_TYPE_ANY_ATTRIBUTE;
if (xmlSchemaCloneWildcardNsConstraints(ctxt,
completeWild, group->attributeWildcard) == -1)
return (-1);
(*completeWild)->processContents = group->attributeWildcard->processContents;
/*
* Although the complete wildcard might not correspond to any
* node in the schema, we will save this context node.
*/
(*completeWild)->node = group->attributeWildcard->node;
} else if (xmlSchemaIntersectWildcards(ctxt, *completeWild, group->attributeWildcard) == -1) {
xmlSchemaFreeWildcard(*completeWild);
return (-1);
}
}
}
attrs = attrs->next;
}
return (0);
}
/**
* xmlSchemaMatchesWildcardNs:
* @wild: the wildcard
* @ns: the namespace
*
*
* Returns 1 if the given namespace matches the wildcard,
* 0 otherwise.
*/
static int
xmlSchemaMatchesWildcardNs(xmlSchemaWildcardPtr wild, const xmlChar* ns)
{
if (wild == NULL)
return(0);
if (wild->any)
return(1);
else if (wild->nsSet != NULL) {
xmlSchemaWildcardNsPtr cur;
cur = wild->nsSet;
while (cur != NULL) {
if (xmlStrEqual(cur->value, ns))
return(1);
cur = cur->next;
}
} else if ((wild->negNsSet != NULL) && (ns != NULL) &&
(!xmlStrEqual(wild->negNsSet->value, ns)))
return(1);
return(0);
}
/**
* xmlSchemaBuildAttributeValidation:
* @ctxt: the schema parser context
* @type: the complex type definition
*
*
* Builds the wildcard and the attribute uses on the given complex type.
* Returns -1 if an internal error occurs, 0 otherwise.
*/
static int
xmlSchemaBuildAttributeValidation(xmlSchemaParserCtxtPtr ctxt, xmlSchemaTypePtr type)
{
xmlSchemaTypePtr baseType = NULL;
xmlSchemaAttributeLinkPtr cur, base, tmp, id = NULL, prev = NULL, uses = NULL,
lastUse = NULL, lastBaseUse = NULL;
xmlSchemaAttributePtr attrs;
xmlSchemaTypePtr anyType;
int baseIsAnyType = 0;
anyType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYTYPE);
/*
* Complex Type Definition with complex content Schema Component.
*
* Attribute uses.
*/
if (type->attributeUses != NULL) {
xmlSchemaPErr(ctxt, type->node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaBuildAttributeValidation: "
"attribute uses already builded.\n",
NULL, NULL);
return (-1);
}
if (type->baseType == NULL) {
xmlSchemaPErr(ctxt, type->node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaBuildAttributeValidation: "
"complex type \"%s\" has no base type.\n",
type->name, NULL);
return (-1);
}
baseType = type->baseType;
if (baseType == NULL) {
xmlSchemaPErr(ctxt, type->node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaBuildAttributeValidation: "
"type has no base type.\n",
NULL, NULL);
return (-1);
}
if (baseType == anyType)
baseIsAnyType = 1;
/*
* Inherit the attribute uses of the base type.
*/
/*
* NOTE: It is allowed to "extend" the anyType complex type.
*/
if (!baseIsAnyType) {
if (baseType != NULL) {
for (cur = baseType->attributeUses; cur != NULL; cur = cur->next) {
tmp = (xmlSchemaAttributeLinkPtr)
xmlMalloc(sizeof(xmlSchemaAttributeLink));
if (tmp == NULL) {
xmlSchemaPErrMemory(ctxt,
"building attribute uses of complexType", NULL);
return (-1);
}
tmp->attr = cur->attr;
tmp->next = NULL;
if (type->attributeUses == NULL) {
type->attributeUses = tmp;
} else
lastBaseUse->next = tmp;
lastBaseUse = tmp;
}
}
}
if ((type->subtypes != NULL) &&
((type->subtypes->type == XML_SCHEMA_TYPE_COMPLEX_CONTENT) ||
(type->subtypes->type == XML_SCHEMA_TYPE_SIMPLE_CONTENT))) {
attrs = type->subtypes->subtypes->attributes;
type->attributeWildcard = type->subtypes->subtypes->attributeWildcard;
} else {
/* Short hand form of the complexType. */
attrs = type->attributes;
}
/*
* Handle attribute wildcards.
*/
if (xmlSchemaBuildCompleteAttributeWildcard(ctxt,
attrs, &type->attributeWildcard) == -1) {
if ((type->attributeWildcard != NULL) &&
/* Either we used the short hand form... */
((type->subtypes == NULL) ||
/* Or complexType -> restriction/extension */
(type->attributeWildcard != type->subtypes->subtypes->attributeWildcard)))
type->flags |= XML_SCHEMAS_TYPE_OWNED_ATTR_WILDCARD;
return (-1);
}
/*
* TODO: This "onwed_attr_wildcard" is quite sensless: we should
* create the wildcard right from the start on the complexType,
* rather than on the <restriction>/<extension>.
*/
if ((type->attributeWildcard != NULL) &&
/* Either we used the short hand form... */
((type->subtypes == NULL) ||
/* Or complexType -> restriction/extension */
(type->attributeWildcard != type->subtypes->subtypes->attributeWildcard)))
type->flags |= XML_SCHEMAS_TYPE_OWNED_ATTR_WILDCARD;
if ((type->flags & XML_SCHEMAS_TYPE_DERIVATION_METHOD_EXTENSION) &&
((baseIsAnyType) ||
((baseType != NULL) &&
(baseType->type == XML_SCHEMA_TYPE_COMPLEX) &&
(baseType->attributeWildcard != NULL)))) {
if (type->attributeWildcard != NULL) {
/*
* Union the complete wildcard with the base wildcard.
*/
if (xmlSchemaUnionWildcards(ctxt, type->attributeWildcard,
baseType->attributeWildcard) == -1)
return (-1);
} else {
/*
* Just inherit the wildcard.
*/
type->attributeWildcard = baseType->attributeWildcard;
}
}
if (type->flags & XML_SCHEMAS_TYPE_DERIVATION_METHOD_RESTRICTION) {
if (type->attributeWildcard != NULL) {
/*
* Derivation Valid (Restriction, Complex)
* 4.1 The {base type definition} must also have one.
*/
if (baseType->attributeWildcard == NULL) {
xmlSchemaPErr(ctxt, type->node, XML_SCHEMAP_DERIVATION_OK_RESTRICTION_4_1,
"The derived type \"%s\" has an attribute wildcard, "
"but the base type \"%s\" does not have one.\n",
type->name, baseType->name);
return (1);
} else if (xmlSchemaIsWildcardNsConstraintSubset(ctxt,
type->attributeWildcard, baseType->attributeWildcard) == 0) {
/* 4.2 */
xmlSchemaPErr(ctxt, type->node, XML_SCHEMAP_DERIVATION_OK_RESTRICTION_4_2,
"The wildcard in the derived type \"%s\" is not a valid "
"subset of the one in the base type \"%s\".\n",
type->name, baseType->name);
return (1);
}
/* 4.3 Unless the {base type definition} is the ·ur-type
* definition·, the complex type definition's {attribute
* wildcard}'s {process contents} must be identical to or
* stronger than the {base type definition}'s {attribute
* wildcard}'s {process contents}, where strict is stronger
* than lax is stronger than skip.
*/
if ((type->baseType != anyType) &&
(type->attributeWildcard->processContents <
baseType->attributeWildcard->processContents)) {
xmlSchemaPErr(ctxt, type->node, XML_SCHEMAP_DERIVATION_OK_RESTRICTION_4_3,
"The process contents of the wildcard in the "
"derived type \"%s\" is weaker than "
"that in the base type \"%s\".\n",
type->name, baseType->name);
return (1);
}
}
} else if (type->flags & XML_SCHEMAS_TYPE_DERIVATION_METHOD_EXTENSION) {
/*
* Derivation Valid (Extension)
* At this point the type and the base have both, either
* no wildcard or a wildcard.
*/
if ((baseType->attributeWildcard != NULL) &&
(baseType->attributeWildcard != type->attributeWildcard)) {
/* 1.3 */
if (xmlSchemaIsWildcardNsConstraintSubset(ctxt,
baseType->attributeWildcard, type->attributeWildcard) == 0) {
xmlSchemaPErr(ctxt, type->node, XML_SCHEMAP_COS_CT_EXTENDS_1_3,
"The wildcard in the derived type \"%s\" is not a valid "
"superset of the one in the base type \"%s\".\n",
type->name, baseType->name);
return (1);
}
}
}
/*
* Gather attribute uses defined by this type.
*/
if (attrs != NULL) {
if (xmlSchemaBuildAttributeUsesOwned(ctxt, attrs,
&uses, &lastUse) == -1) {
return (-1);
}
}
/* 3.4.6 -> Complex Type Definition Properties Correct 4.
* "Two distinct attribute declarations in the {attribute uses} must
* not have identical {name}s and {target namespace}s."
*
* For "extension" this is done further down.
*/
if ((uses != NULL) && ((type->flags & XML_SCHEMAS_TYPE_DERIVATION_METHOD_EXTENSION) == 0)) {
cur = uses;
while (cur != NULL) {
tmp = cur->next;
while (tmp != NULL) {
if ((xmlStrEqual(xmlSchemaGetOnymousAttrName(cur->attr),
xmlSchemaGetOnymousAttrName(tmp->attr))) &&
(xmlStrEqual(xmlSchemaGetOnymousTargetNsURI((xmlSchemaTypePtr) cur->attr ),
xmlSchemaGetOnymousTargetNsURI((xmlSchemaTypePtr) tmp->attr)))) {
xmlSchemaPErr(ctxt, cur->attr->node, XML_SCHEMAP_CT_PROPS_CORRECT_4,
"ct-props-correct.4: Duplicate attribute use with the name \"%s\" specified\n",
xmlSchemaGetOnymousAttrName(cur->attr), NULL);
break;
}
tmp = tmp->next;
}
cur = cur->next;
}
}
if (type->flags & XML_SCHEMAS_TYPE_DERIVATION_METHOD_RESTRICTION) {
/*
* Derive by restriction.
*/
if (baseIsAnyType) {
type->attributeUses = uses;
} else {
int found;
cur = uses;
while (cur != NULL) {
found = 0;
base = type->attributeUses;
while (base != NULL) {
if ((xmlStrEqual(xmlSchemaGetOnymousAttrName(cur->attr),
xmlSchemaGetOnymousAttrName(base->attr))) &&
(xmlStrEqual(xmlSchemaGetOnymousTargetNsURI((xmlSchemaTypePtr) cur->attr),
xmlSchemaGetOnymousTargetNsURI((xmlSchemaTypePtr) base->attr)))) {
found = 1;
if ((cur->attr->occurs == XML_SCHEMAS_ATTR_USE_OPTIONAL) &&
(base->attr->occurs == XML_SCHEMAS_ATTR_USE_REQUIRED)) {
/*
* derivation-ok-restriction 2.1.1
*/
xmlSchemaPErr(ctxt, cur->attr->node,
XML_SCHEMAP_DERIVATION_OK_RESTRICTION_2_1_1,
"derivation-ok-restriction.2.1.1: "
"The \"optional\" attribute "
"use \"%s\" is inconsistent with a matching "
"\"required\" attribute use of the base type\n",
xmlSchemaGetOnymousAttrName(cur->attr), NULL);
} else if ((cur->attr->occurs == XML_SCHEMAS_ATTR_USE_PROHIBITED) &&
(base->attr->occurs == XML_SCHEMAS_ATTR_USE_REQUIRED)) {
/*
* derivation-ok-restriction 3
*/
xmlSchemaPErr(ctxt, cur->attr->node, XML_SCHEMAP_DERIVATION_OK_RESTRICTION_3,
"derivation-ok-restriction.3: "
"The \"required\" attribute use \"%s\" of the base type "
"does not have a matching attribute use in the derived type\n",
xmlSchemaGetOnymousAttrName(cur->attr), NULL);
} else {
/*
* Override the attribute use.
*/
base->attr = cur->attr;
}
/*
* TODO: derivation-ok-restriction 2.1.2 ({type definition} must be validly derived)
* TODO: derivation-ok-restriction 2.1.3
*/
break;
}
base = base->next;
}
if (!found) {
if (cur->attr->occurs != XML_SCHEMAS_ATTR_USE_PROHIBITED) {
/*
* derivation-ok-restriction 2.2
*/
if ((type->attributeWildcard != NULL) &&
xmlSchemaMatchesWildcardNs(type->attributeWildcard,
cur->attr->targetNamespace))
found = 1;
if (!found) {
xmlSchemaPErr(ctxt, cur->attr->node, XML_SCHEMAP_DERIVATION_OK_RESTRICTION_2_2,
"derivation-ok-restriction.2.2: "
"The attribute use \"%s\" has neither a matching attribute use, "
"nor a matching wildcard in the base type\n",
xmlSchemaGetOnymousAttrName(cur->attr), NULL);
} else {
/*
* Add the attribute use.
*
* Note that this may lead to funny derivation error reports, if
* multiple equal attribute uses exist; but this is not
* allowed anyway, and it will be reported beforehand.
*/
tmp = cur;
if (prev != NULL)
prev->next = cur->next;
else
uses = cur->next;
cur = cur->next;
if (type->attributeUses == NULL) {
type->attributeUses = tmp;
} else
lastBaseUse->next = tmp;
lastBaseUse = tmp;
continue;
}
}
}
prev = cur;
cur = cur->next;
}
if (uses != NULL)
xmlSchemaFreeAttributeUseList(uses);
}
} else if (type->flags & XML_SCHEMAS_TYPE_DERIVATION_METHOD_EXTENSION) {
/*
* The spec allows only appending, and not other kinds of extensions.
*
* This ensures: Schema Component Constraint: Derivation Valid (Extension) : 1.2
*/
if (uses != NULL) {
if (type->attributeUses == NULL) {
type->attributeUses = uses;
} else
lastBaseUse->next = uses;
}
} else {
/*
* Derive implicitely from the ur-type.
*/
type->attributeUses = uses;
}
/*
* 3.4.6 -> Complex Type Definition Properties Correct
*/
if (type->attributeUses != NULL) {
cur = type->attributeUses;
prev = NULL;
while (cur != NULL) {
/*
* 4. Two distinct attribute declarations in the {attribute uses} must
* not have identical {name}s and {target namespace}s.
*
* Note that this was already done for "restriction" and types derived from
* the ur-type.
*/
if (type->flags & XML_SCHEMAS_TYPE_DERIVATION_METHOD_EXTENSION) {
tmp = cur->next;
while (tmp != NULL) {
if ((xmlStrEqual(xmlSchemaGetOnymousAttrName(cur->attr),
xmlSchemaGetOnymousAttrName(tmp->attr))) &&
(xmlStrEqual(xmlSchemaGetOnymousTargetNsURI((xmlSchemaTypePtr) cur->attr ),
xmlSchemaGetOnymousTargetNsURI((xmlSchemaTypePtr) tmp->attr)))) {
xmlSchemaPErr(ctxt, cur->attr->node, XML_SCHEMAP_CT_PROPS_CORRECT_4,
"ct-props-correct.4: Duplicate attribute use with the name \"%s\" specified\n",
xmlSchemaGetOnymousAttrName(cur->attr), NULL);
break;
}
tmp = tmp->next;
}
}
/*
* 5. Two distinct attribute declarations in the {attribute uses} must
* not have {type definition}s which are or are derived from ID.
*/
if ((cur->attr->subtypes != NULL) &&
(xmlSchemaIsDerivedFromBuiltInType(ctxt, (xmlSchemaTypePtr) cur->attr, XML_SCHEMAS_ID))) {
if (id != NULL) {
xmlSchemaPErr(ctxt, cur->attr->node, XML_SCHEMAP_CT_PROPS_CORRECT_5,
"ct-props-correct.5: Two attribute declarations, "
"\"%s\" and \"%s\" have types which derived from ID\n",
xmlSchemaGetOnymousAttrName(id->attr),
xmlSchemaGetOnymousAttrName(cur->attr));
}
id = cur;
}
/*
* Remove "prohibited" attribute uses. The reason this is done at this late
* stage is to be able to catch dublicate attribute uses. So we had to keep
* prohibited uses in the list as well.
*/
if (cur->attr->occurs == XML_SCHEMAS_ATTR_USE_PROHIBITED) {
tmp = cur;
if (prev == NULL)
type->attributeUses = cur->next;
else
prev->next = cur->next;
cur = cur->next;
xmlFree(tmp);
} else {
prev = cur;
cur = cur->next;
}
}
}
/*
* TODO: This check should be removed if we are 100% sure of
* the base type attribute uses already being built.
*/
if ((baseType != NULL) && (!baseIsAnyType) &&
(baseType->type == XML_SCHEMA_TYPE_COMPLEX) &&
(baseType->contentType == XML_SCHEMA_CONTENT_UNKNOWN)) {
xmlSchemaPErr(ctxt, baseType->node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaBuildAttributeValidation: "
"attribute uses not builded on base type \"%s\".\n",
baseType->name, NULL);
}
return (0);
}
/**
* xmlSchemaTypeFinalContains:
* @schema: the schema
* @type: the type definition
* @final: the final
*
* Evaluates if a type definition contains the given "final".
* This does take "finalDefault" into account as well.
*
* Returns 1 if the type does containt the given "final",
* 0 otherwise.
*/
static int
xmlSchemaTypeFinalContains(xmlSchemaPtr schema, xmlSchemaTypePtr type, int final)
{
int tfinal = final, tflags = type->flags;
if (type == NULL)
return (0);
if (type->flags & XML_SCHEMAS_TYPE_FINAL_DEFAULT) {
switch (final) {
case XML_SCHEMAS_TYPE_FINAL_RESTRICTION:
tfinal = XML_SCHEMAS_FINAL_DEFAULT_RESTRICTION;
break;
case XML_SCHEMAS_TYPE_FINAL_EXTENSION:
tfinal = XML_SCHEMAS_FINAL_DEFAULT_EXTENSION;
break;
case XML_SCHEMAS_TYPE_FINAL_LIST:
tfinal = XML_SCHEMAS_FINAL_DEFAULT_LIST;
break;
case XML_SCHEMAS_TYPE_FINAL_UNION:
tfinal = XML_SCHEMAS_FINAL_DEFAULT_UNION;
break;
}
tflags = schema->flags;
}
if (tflags & tfinal)
return (1);
else
return (0);
}
/**
* xmlSchemaGetUnionSimpleTypeMemberTypes:
* @type: the Union Simple Type
*
* Returns a list of member types of @type if existing,
* returns NULL otherwise.
*/
static xmlSchemaTypeLinkPtr
xmlSchemaGetUnionSimpleTypeMemberTypes(xmlSchemaTypePtr type)
{
while (type != NULL) {
if (type->memberTypes != NULL)
return (type->memberTypes);
else
type = type->baseType;
}
return (NULL);
}
/**
* xmlSchemaGetListSimpleTypeItemType:
* @type: the simple type definition
*
* Returns the item type definition of the list simple type.
*/
static xmlSchemaTypePtr
xmlSchemaGetListSimpleTypeItemType(xmlSchemaTypePtr type)
{
if ((type->flags & XML_SCHEMAS_TYPE_VARIETY_LIST) == 0)
return (NULL);
/*
* Note: In libxml2, the built-in types do not reflect
* the datatype hierarchy (yet?) - we have to treat them
* in a special way.
*/
if (type->type == XML_SCHEMA_TYPE_BASIC)
return (xmlSchemaGetBuiltInListSimpleTypeItemType(type));
if (type->subtypes->type == XML_SCHEMA_TYPE_LIST)
/* 1 If the <list> alternative is chosen, then the type
* definition ·resolved· to by the ·actual value· of the
* itemType [attribute] of <list>, if present, otherwise
* the type definition corresponding to the <simpleType>
* among the [children] of <list>.
*/
return (type->subtypes->subtypes);
else {
/* 2 If the <restriction> option is chosen, then the
* {item type definition} of the {base type definition}.
*/
return (xmlSchemaGetListSimpleTypeItemType(type->baseType));
}
}
/**
* xmlSchemaCheckCOSSTDerivedOK:
* @type: the derived simple type definition
* @baseType: the base type definition
*
* Checks wheter @type can be validly
* derived from @baseType.
*
* Returns 0 on success, an positive error code otherwise.
*/
static int
xmlSchemaCheckCOSSTDerivedOK(xmlSchemaPtr schema,
xmlSchemaTypePtr type,
xmlSchemaTypePtr baseType,
int subset)
{
/*
* Schema Component Constraint: Type Derivation OK (Simple)
*
*
* 1 They are the same type definition.
* TODO: The identy check might have to be more complex than this.
*/
if (type == baseType)
return (0);
/*
* 2.1 restriction is not in the subset, or in the {final}
* of its own {base type definition};
*/
if ((subset & XML_SCHEMAS_TYPE_FINAL_RESTRICTION) ||
(xmlSchemaTypeFinalContains(schema,
type->baseType, XML_SCHEMAS_TYPE_FINAL_RESTRICTION))) {
return (XML_SCHEMAP_COS_ST_DERIVED_OK_2_1);
}
/* 2.2 */
if (type->baseType == baseType) {
/*
* 2.2.1 D's ·base type definition· is B.
*/
return (0);
}
/*
* 2.2.2 D's ·base type definition· is not the ·ur-type definition·
* and is validly derived from B given the subset, as defined by this
* constraint.
*/
if ((type->baseType != xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYTYPE)) &&
(xmlSchemaCheckCOSSTDerivedOK(schema, type->baseType, baseType, subset) == 0)) {
return (0);
}
/*
* 2.2.3 D's {variety} is list or union and B is the ·simple ur-type
* definition·.
*/
if (((type->flags & XML_SCHEMAS_TYPE_VARIETY_LIST) ||
(type->flags & XML_SCHEMAS_TYPE_VARIETY_UNION)) &&
(baseType == xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYSIMPLETYPE))) {
return (0);
}
/*
* 2.2.4 B's {variety} is union and D is validly derived from a type
* definition in B's {member type definitions} given the subset, as
* defined by this constraint.
*
* NOTE: This seems not to involve built-in types, since there is no
* built-in Union Simple Type.
*/
if (baseType->flags & XML_SCHEMAS_TYPE_VARIETY_UNION) {
xmlSchemaTypeLinkPtr cur;
cur = baseType->memberTypes;
while (cur != NULL) {
if (xmlSchemaCheckCOSSTDerivedOK(schema, type,
cur->type, subset) == 0)
return (0);
cur = cur->next;
}
}
return (XML_SCHEMAP_COS_ST_DERIVED_OK_2_2);
}
/**
* xmlSchemaCheckSTPropsCorrect:
* @ctxt: the schema parser context
* @type: the simple type definition
*
* Checks st-props-correct.
*
* Returns 0 if the properties are correct,
* if not, a positive error code and -1 on internal
* errors.
*/
static int
xmlSchemaCheckSTPropsCorrect(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaTypePtr type)
{
xmlSchemaTypePtr baseType = type->baseType, anySimpleType,
anyType;
/*
* Schema Component Constraint: Simple Type Definition Properties Correct
*
* NOTE: This is somehow redundant, since we actually built a simple type
* to have all the needed information; this acts as an self test.
*/
anySimpleType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYSIMPLETYPE);
anyType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYTYPE);
/*
* TODO: 1 The values of the properties of a simple type definition must be as
* described in the property tableau in Datatype definition, modulo the
* impact of Missing Sub-components (§5.3).
*/
/* Base type: If the datatype has been ·derived· by ·restriction·
* then the Simple Type Definition component from which it is ·derived·,
* otherwise the Simple Type Definition for anySimpleType (§4.1.6).
*/
if (baseType == NULL) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_ST_PROPS_CORRECT_1,
"Simple type \"%s\" does not have a base type.\n",
type->name, NULL);
return (XML_SCHEMAP_ST_PROPS_CORRECT_1);
}
if ((baseType->type != XML_SCHEMA_TYPE_SIMPLE) &&
((baseType->type != XML_SCHEMA_TYPE_BASIC) ||
(baseType == anyType))) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_ST_PROPS_CORRECT_1,
"Simple type \"%s\": its base type \"%s\" is not a simple "
"type.\n",
type->name, baseType->name);
return (XML_SCHEMAP_ST_PROPS_CORRECT_1);
}
if ((baseType != anySimpleType) &&
(type->subtypes->type != XML_SCHEMA_TYPE_RESTRICTION)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_ST_PROPS_CORRECT_1,
"Simple type \"%s\" (not derived by restriction) must have"
"the simple ur-type definition as base type, not \"%s\".\n",
type->name, NULL);
return (XML_SCHEMAP_ST_PROPS_CORRECT_1);
}
/*
* Variety: One of {atomic, list, union}.
*/
if (((type->flags & XML_SCHEMAS_TYPE_VARIETY_ATOMIC) == 0) &&
((type->flags & XML_SCHEMAS_TYPE_VARIETY_UNION) == 0) &&
((type->flags & XML_SCHEMAS_TYPE_VARIETY_LIST) == 0)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_ST_PROPS_CORRECT_1,
"Simple type \"%s\" has an absent variety.\n",
type->name, NULL);
return (XML_SCHEMAP_ST_PROPS_CORRECT_1);
}
/* TODO: Finish this. */
/*
* 2 All simple type definitions must be derived ultimately from the ·simple
* ur-type definition (so· circular definitions are disallowed). That is, it
* must be possible to reach a built-in primitive datatype or the ·simple
* ur-type definition· by repeatedly following the {base type definition}.
*/
baseType = type->baseType;
while ((baseType != NULL) && (baseType->type != XML_SCHEMA_TYPE_BASIC)) {
if (baseType->contentType == XML_SCHEMA_CONTENT_UNKNOWN)
xmlSchemaTypeFixup(baseType, ctxt, NULL);
if (baseType == anySimpleType)
break;
else if (baseType == type) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_ST_PROPS_CORRECT_2,
"Simple type \"%s\" is not derived from the simple "
"ur-type definition (circular definitions are disallowed).\n",
type->name, NULL);
return (XML_SCHEMAP_ST_PROPS_CORRECT_2);
}
baseType = baseType->baseType;
}
/*
* 3 The {final} of the {base type definition} must not contain restriction.
*/
if (xmlSchemaTypeFinalContains(ctxt->schema, baseType,
XML_SCHEMAS_TYPE_FINAL_RESTRICTION)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_ST_PROPS_CORRECT_3,
"Simple type \"%s\": the \"final\" of its base type "
"\"%s\" must not contain \"restriction\".\n",
type->name, baseType->name);
return (XML_SCHEMAP_ST_PROPS_CORRECT_3);
}
return (0);
}
/**
* xmlSchemaCheckDerivationValidSimpleRestriction:
* @ctxt: the schema parser context
* @type: the simple type definition
*
* Checks if the given @type (simpleType) is derived
* validly by restriction.
*
* Returns -1 on internal errors, 0 if the type is validly derived,
* a positive error code otherwise.
*/
static int
xmlSchemaCheckCOSSTRestricts(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaTypePtr type)
{
if (type->type != XML_SCHEMA_TYPE_SIMPLE) {
xmlSchemaPErr(ctxt, type->node,
XML_ERR_INTERNAL_ERROR,
"xmlSchemaCheckDerivationValidSimpleRestriction: the given "
"type \"%s\" is not a user-derived simpleType.\n",
type->name, NULL);
return (-1);
}
if (type->flags & XML_SCHEMAS_TYPE_VARIETY_ATOMIC) {
xmlSchemaTypePtr primitive;
/*
* 1.1 The {base type definition} must be an atomic simple
* type definition or a built-in primitive datatype.
*/
if ((type->baseType->flags & XML_SCHEMAS_TYPE_VARIETY_ATOMIC) == 0) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_1_1,
"Atomic simple type \"%s\": "
"its base type \"%s\" is not an atomic simple type.\n",
type->name, NULL);
return (XML_SCHEMAP_COS_ST_RESTRICTS_1_1);
}
/* 1.2 The {final} of the {base type definition} must not contain
* restriction.
*/
/* OPTIMIZE: This is already done in xmlSchemaCheckStPropsCorrect */
if (xmlSchemaTypeFinalContains(ctxt->schema, type->baseType,
XML_SCHEMAS_TYPE_FINAL_RESTRICTION)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_1_2,
"Atomic simple type \"%s\": the \"final\" of its base type "
"\"%s\" must not contain \"restriction\".\n",
type->name, type->baseType->name);
return (XML_SCHEMAP_COS_ST_RESTRICTS_1_2);
}
/*
* 1.3.1 DF must be an allowed constraining facet for the {primitive
* type definition}, as specified in the appropriate subsection of 3.2
* Primitive datatypes.
*/
if (type->facets != NULL) {
xmlSchemaFacetPtr facet;
int ok = 1;
primitive = xmlSchemaGetPrimitiveType(type);
if (primitive == NULL) {
xmlSchemaPErr(ctxt, type->node,
XML_ERR_INTERNAL_ERROR,
"xmlSchemaCheckDerivationValidSimpleRestriction: failed "
"to get primitive type of type \"%s\".\n",
type->name, NULL);
return (-1);
}
facet = type->facets;
do {
if (xmlSchemaIsBuiltInTypeFacet(primitive, facet->type) == 0) {
xmlSchemaPErrExt(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_1_3_1,
NULL, NULL, NULL,
"Atomic simple type \"%s\": the facet \"%s\" "
"is not allowed on primitive type \"%s\".\n",
type->name,
(const xmlChar *)
xmlSchemaFacetTypeToString(facet->type),
BAD_CAST primitive->name, NULL, NULL);
ok = 0;
}
facet = facet->next;
} while (facet != NULL);
if (ok == 0)
return (XML_SCHEMAP_COS_ST_RESTRICTS_1_3_1);
}
/*
* TODO: 1.3.2 (facet derivation)
*/
} else if (type->flags & XML_SCHEMAS_TYPE_VARIETY_LIST) {
xmlSchemaTypePtr itemType = NULL;
itemType = xmlSchemaGetListSimpleTypeItemType(type);
if (itemType == NULL) {
xmlSchemaPErr(ctxt, type->node,
XML_ERR_INTERNAL_ERROR,
"Internal error: xmlSchemaCheckDerivationValidSimpleRestriction: "
"failed to evaluate the item type of type \"%s\".\n",
type->name, NULL);
return (-1);
}
/*
* 2.1 The {item type definition} must have a {variety} of atomic or
* union (in which case all the {member type definitions}
* must be atomic).
*/
if (((itemType->flags & XML_SCHEMAS_TYPE_VARIETY_ATOMIC) == 0) &&
((itemType->flags & XML_SCHEMAS_TYPE_VARIETY_UNION) == 0)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_2_1,
"List simple type \"%s\": its item type \"%s\" "
"is not an atomic or union simple type.\n",
type->name, itemType->name);
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_1);
} else if (itemType->flags & XML_SCHEMAS_TYPE_VARIETY_UNION) {
xmlSchemaTypeLinkPtr member;
member = itemType->memberTypes;
while (member != NULL) {
if ((member->type->flags &
XML_SCHEMAS_TYPE_VARIETY_ATOMIC) == 0) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_2_1,
"List simple type \"%s\": its item type "
"is a union simple type, but the member type "
"\"%s\" of this item type is not an \"atomic\" "
"simple type.\n",
type->name, member->type->name);
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_1);
}
member = member->next;
}
}
if (type->baseType == xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYSIMPLETYPE)) {
xmlSchemaFacetPtr facet;
/*
* This is the case if we have: <simpleType><list ..
*/
/*
* 2.3.1
* 2.3.1.1 The {final} of the {item type definition} must not
* contain list.
*/
if (xmlSchemaTypeFinalContains(ctxt->schema,
itemType, XML_SCHEMAS_TYPE_FINAL_LIST)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_1_1,
"List simple type \"%s\": the \"final\" of its item type "
"\"%s\" must not contain \"list\".\n",
type->name, itemType->name);
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_1_1);
}
/*
* 2.3.1.2 The {facets} must only contain the whiteSpace
* facet component.
*/
if (type->facets != NULL) {
facet = type->facets;
do {
if (facet->type != XML_SCHEMA_FACET_WHITESPACE) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_1_2,
"List simple type \"%s\": the facet \"%s\" "
"is not allowed.\n",
type->name,
BAD_CAST xmlSchemaFacetTypeToString(facet->type));
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_1_2);
}
facet = facet->next;
} while (facet != NULL);
}
/*
* TODO: Datatypes states:
* A ·list· datatype can be ·derived· from an ·atomic· datatype
* whose ·lexical space· allows space (such as string or anyURI)or
* a ·union· datatype any of whose {member type definitions}'s
* ·lexical space· allows space.
*/
} else {
/*
* This is the case if we have: <simpleType><restriction ...
*/
/*
* 2.3.2
* 2.3.2.1 The {base type definition} must have a {variety} of list.
*/
if ((type->baseType->flags & XML_SCHEMAS_TYPE_VARIETY_LIST) == 0) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_1,
"List simple type \"%s\": its base type \"%s\" must "
"have a variety of list.\n",
type->name, type->baseType->name);
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_1);
}
/*
* 2.3.2.2 The {final} of the {base type definition} must not
* contain restriction.
*/
if (xmlSchemaTypeFinalContains(ctxt->schema, type->baseType,
XML_SCHEMAS_TYPE_FINAL_RESTRICTION)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_2,
"List simple type \"%s\": its base type \"%s\" must not "
"have a \"final\" containing \"restriction\".\n",
type->name, type->baseType->name);
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_2);
}
/*
* 2.3.2.3 The {item type definition} must be validly derived
* from the {base type definition}'s {item type definition} given
* the empty set, as defined in Type Derivation OK (Simple) (§3.14.6).
*/
{
xmlSchemaTypePtr baseItemType;
baseItemType = xmlSchemaGetListSimpleTypeItemType(type->baseType);
if (baseItemType == NULL) {
xmlSchemaPErr(ctxt, type->node,
XML_ERR_INTERNAL_ERROR,
"xmlSchemaCheckDerivationValidSimpleRestriction: "
"List simple type \"%s\": failed to "
"evaluate the item type of its base type \"%s\".\n",
type->name, type->baseType->name);
return (-1);
}
if ((itemType != baseItemType) &&
(xmlSchemaCheckCOSSTDerivedOK(ctxt->schema, itemType,
baseItemType, 0) != 0)) {
xmlSchemaPErrExt(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_3, NULL, NULL, NULL,
"List simple type \"%s\": its item type \"%s\" is not "
"validly derived from the item type \"%s\" of the "
"base type \"%s\" as defined in Type Derivation OK "
"(Simple).\n",
type->name, itemType->name, baseItemType->name,
type->baseType->name, NULL);
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_3);
}
}
if (type->facets != NULL) {
xmlSchemaFacetPtr facet;
int ok = 1;
/*
* 2.3.2.4 Only length, minLength, maxLength, whiteSpace, pattern
* and enumeration facet components are allowed among the {facets}.
*/
facet = type->facets;
do {
switch (facet->type) {
case XML_SCHEMA_FACET_LENGTH:
case XML_SCHEMA_FACET_MINLENGTH:
case XML_SCHEMA_FACET_MAXLENGTH:
case XML_SCHEMA_FACET_WHITESPACE:
/*
* TODO: 2.5.1.2 List datatypes
* The value of ·whiteSpace· is fixed to the value collapse.
*/
case XML_SCHEMA_FACET_PATTERN:
case XML_SCHEMA_FACET_ENUMERATION:
break;
default: {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_4,
"List simple type \"%s\": the facet \"%s\" "
"is not allowed.\n",
type->name,
BAD_CAST xmlSchemaFacetTypeToString(facet->type));
/*
* We could return, but it's nicer to report all
* invalid facets.
*/
ok = 0;
}
}
facet = facet->next;
} while (facet != NULL);
if (ok == 0)
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_4);
/*
* TODO: 2.3.2.5 For each facet in the {facets} (call this DF), if there
* is a facet of the same kind in the {facets} of the {base type
* definition} (call this BF),then the DF's {value} must be a valid
* restriction of BF's {value} as defined in [XML Schemas: Datatypes].
*/
}
}
} else if (type->flags & XML_SCHEMAS_TYPE_VARIETY_UNION) {
/*
* 3.1 The {member type definitions} must all have {variety} of
* atomic or list.
*/
xmlSchemaTypeLinkPtr member;
member = type->memberTypes;
while (member != NULL) {
if (((member->type->flags &
XML_SCHEMAS_TYPE_VARIETY_ATOMIC) == 0) &&
((member->type->flags &
XML_SCHEMAS_TYPE_VARIETY_LIST) == 0)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_3_1,
"Union simple type \"%s\": the member type "
"\"%s\" is not an \"atomic\" simple type.\n",
type->name, member->type->name);
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_1);
}
member = member->next;
}
/*
* 3.3.1 If the {base type definition} is the ·simple ur-type
* definition·
*/
if (type->baseType == xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYSIMPLETYPE)) {
/*
* 3.3.1.1 All of the {member type definitions} must have a
* {final} which does not contain union.
*/
member = type->memberTypes;
while (member != NULL) {
if (xmlSchemaTypeFinalContains(ctxt->schema, member->type,
XML_SCHEMAS_TYPE_FINAL_UNION)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_3_3_1,
"Union simple type \"%s\": the \"final\" of member type "
"\"%s\" contains \"union\".\n",
type->name, member->type->name);
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_3_1);
}
member = member->next;
}
/*
* 3.3.1.2 The {facets} must be empty.
*/
if (type->facetSet != NULL) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_3_3_1_2,
"Union simple type \"%s\": the facets must be empty.\n",
type->name, NULL);
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_3_1_2);
}
} else {
/*
* 3.3.2.1 The {base type definition} must have a {variety} of union.
*/
if ((type->baseType->flags & XML_SCHEMAS_TYPE_VARIETY_UNION) == 0) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_1,
"Union simple type \"%s\": its base type \"%s\" has not a "
"variety of union.\n",
type->name, type->baseType->name);
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_1);
}
/*
* 3.3.2.2 The {final} of the {base type definition} must not contain restriction.
*/
if (xmlSchemaTypeFinalContains(ctxt->schema, type->baseType,
XML_SCHEMAS_TYPE_FINAL_RESTRICTION)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_2,
"Union simple type \"%s\": the \"final\" of its base "
"type \"%s\" must not contain \"restriction\".\n",
type->name, type->baseType->name);
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_2);
}
/*
* 3.3.2.3 The {member type definitions}, in order, must be validly
* derived from the corresponding type definitions in the {base
* type definition}'s {member type definitions} given the empty set,
* as defined in Type Derivation OK (Simple) (§3.14.6).
*/
{
xmlSchemaTypeLinkPtr baseMember;
/*
* OPTIMIZE: if the type is restricting, it has no local defined
* member types and inherits the member types of the base type;
* thus a check for equality can be skipped.
*/
/*
* TODO: Even worse: I cannot see a scenario where a restricting
* union simple type can have other member types as the member
* types of it's base type. This check seems not necessary with
* respect to the derivation process in libxml2.
*/
if (type->memberTypes != NULL) {
member = type->memberTypes;
baseMember = xmlSchemaGetUnionSimpleTypeMemberTypes(type->baseType);
if ((member == NULL) && (baseMember != NULL)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAS_ERR_INTERNAL,
"Internal error: "
"xmlSchemaCheckDerivationValidSimpleRestriction "
"(3.3.2.3), union simple type \"%s\", unequal number "
"of member types in the base type\n",
type->name, NULL);
}
while (member != NULL) {
if (baseMember == NULL) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAS_ERR_INTERNAL,
"Internal error: "
"xmlSchemaCheckDerivationValidSimpleRestriction "
"(3.3.2.3), union simple type \"%s\", unequal number "
"of member types in the base type\n",
type->name, NULL);
}
if ((member->type != baseMember->type) &&
(xmlSchemaCheckCOSSTDerivedOK(ctxt->schema,
member->type, baseMember->type, 0) != 0)) {
xmlSchemaPErrExt(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_3, NULL,
NULL, NULL,
"Union simple type \"%s\": its member type "
"\"%s\" is not validly derived from its "
"corresponding member type \"%s\" of the base "
"type \"%s\" as defined in Type Derivation OK "
"(Simple).\n",
type->name, member->type->name,
baseMember->type->name,
type->baseType->name, NULL);
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_3);
}
member = member->next;
baseMember = baseMember->next;
}
}
}
/*
* 3.3.2.4 Only pattern and enumeration facet components are
* allowed among the {facets}.
*/
if (type->facets != NULL) {
xmlSchemaFacetPtr facet;
int ok = 1;
facet = type->facets;
do {
if ((facet->type != XML_SCHEMA_FACET_PATTERN) &&
(facet->type != XML_SCHEMA_FACET_ENUMERATION)) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_4,
"Union simple type \"%s\": the facet \"%s\" "
"is not allowed.\n",
type->name,
BAD_CAST xmlSchemaFacetTypeToString(facet->type));
ok = 0;
}
facet = facet->next;
} while (facet != NULL);
if (ok == 0)
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_4);
}
/*
* TODO: 3.3.2.5 (facet derivation)
*/
}
}
return (0);
}
/**
* xmlSchemaCheckSRCSimpleType:
* @ctxt: the schema parser context
* @type: the simple type definition
*
* Checks crc-simple-type constraints.
*
* Returns 0 if the constraints are satisfied,
* if not a positive error code and -1 on internal
* errors.
*/
static int
xmlSchemaCheckSRCSimpleType(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaTypePtr type)
{
/*
* NOTE: src-simple-type 2-4 are redundant, since the checks
* were are done for the corresponding <restriction>, <list> and <union>
* elements, but W3C wants a <simpleType> error as well, so it gets one.
* Maby this can be skipped in the future, if we get sure it's not needed.
*/
if (type->subtypes == NULL) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaCheckSRCSimpleType, "
"no subtype on simple type \"%s\".\n",
type->name, NULL);
return (-1);
}
/*
* src-simple-type.1 The corresponding simple type definition, if any,
* must satisfy the conditions set out in Constraints on Simple Type
* Definition Schema Components (§3.14.6).
*/
if ((xmlSchemaCheckSTPropsCorrect(ctxt, type) != 0) ||
(xmlSchemaCheckCOSSTRestricts(ctxt, type) != 0)) {
/*
* TODO: Removed this, since it got annoying to get an
* extra error report, if anything failed until now.
* Enable this if needed.
*/
/*
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_SRC_SIMPLE_TYPE_1,
"Simple type \"%s\" does not satisfy the constraints "
"on simple type definitions.\n",
type->name, NULL);
*/
return (XML_SCHEMAP_SRC_SIMPLE_TYPE_1);
}
if (type->subtypes->type == XML_SCHEMA_TYPE_RESTRICTION) {
/*
* src-simple-type.2 If the <restriction> alternative is chosen,
* either it must have a base [attribute] or a <simpleType> among its
* [children], but not both.
*/
if (((type->subtypes->base == NULL) &&
((type->subtypes->subtypes == NULL) ||
(type->subtypes->subtypes->type != XML_SCHEMA_TYPE_SIMPLE))) ||
((type->subtypes->base != NULL) &&
(type->subtypes->subtypes != NULL) &&
(type->subtypes->subtypes->type == XML_SCHEMA_TYPE_SIMPLE))) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_SRC_SIMPLE_TYPE_2,
"Simple type \"%s\": "
"The <restriction> alternative is chosen, thus either the "
"\"base\" attribute or the <simpleType> child "
"must be present, but not both.\n",
type->name, NULL);
return (XML_SCHEMAP_SRC_SIMPLE_TYPE_2);
}
} else if (type->subtypes->type == XML_SCHEMA_TYPE_LIST) {
/* src-simple-type.3 If the <list> alternative is chosen, either it must have
* an itemType [attribute] or a <simpleType> among its [children],
* but not both.
* NOTE: baseType is set to the local simple type definiton,
* if existent, at parse time. This is a hack and not nice.
*/
if (((type->subtypes->base == NULL) &&
(type->baseType == NULL)) ||
((type->subtypes->base != NULL) &&
(type->subtypes->baseType != NULL))) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_SRC_SIMPLE_TYPE_3,
"Simple type \"%s\": "
"The <list> alternative is chosen, thus either the "
"\"itemType\" attribute or the <simpleType> child "
"must be present, but not both.\n",
type->name, NULL);
return (XML_SCHEMAP_SRC_SIMPLE_TYPE_3);
}
} else if (type->subtypes->type == XML_SCHEMA_TYPE_UNION) {
xmlSchemaTypeLinkPtr member;
xmlSchemaTypePtr ancestor, anySimpleType;
anySimpleType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYSIMPLETYPE);
/* src-simple-type.4 Circular union type definition is disallowed. That is, if
* the <union> alternative is chosen, there must not be any entries
* in the memberTypes [attribute] at any depth which resolve to the
* component corresponding to the <simpleType>.
*/
member = type->memberTypes;
while (member != NULL) {
ancestor = member->type;
while ((ancestor != NULL) && (ancestor->type != XML_SCHEMA_TYPE_BASIC)) {
if (ancestor->contentType == XML_SCHEMA_CONTENT_UNKNOWN)
xmlSchemaTypeFixup(ancestor, ctxt, NULL);
if (ancestor == anySimpleType)
break;
else if (ancestor == type) {
xmlSchemaPErr(ctxt, type->node,
XML_SCHEMAP_SRC_SIMPLE_TYPE_4,
"Simple type \"%s\" is not derived from the simple "
"ur-type definition (circular definitions are disallowed).\n",
type->name, NULL);
return (XML_SCHEMAP_SRC_SIMPLE_TYPE_4);
} else if (ancestor->flags & XML_SCHEMAS_TYPE_VARIETY_LIST) {
/*
* TODO: Although a list simple type must not have a union ST
* type as item type, which in turn has a list ST as member
* type, we will assume this here as well, since this check
* was not yet performed.
*/
}
ancestor = ancestor->baseType;
}
member = member->next;
}
}
return (0);
}
/**
* xmlSchemaTypeFixup:
* @typeDecl: the schema type definition
* @ctxt: the schema parser context
*
* Fixes the content model of the type.
*/
static void
xmlSchemaTypeFixup(xmlSchemaTypePtr typeDecl,
xmlSchemaParserCtxtPtr ctxt, const xmlChar * name)
{
xmlSchemaTypePtr ctxtType;
if (typeDecl == NULL)
return;
/*
* Do not allow the following types to be typefixed, prior to
* the corresponding simple/complex types.
*/
if (ctxt->ctxtType == NULL) {
switch (typeDecl->type) {
case XML_SCHEMA_TYPE_SIMPLE_CONTENT:
case XML_SCHEMA_TYPE_COMPLEX_CONTENT:
case XML_SCHEMA_TYPE_UNION:
case XML_SCHEMA_TYPE_RESTRICTION:
case XML_SCHEMA_TYPE_EXTENSION:
return;
default:
break;
}
}
if (name == NULL)
name = typeDecl->name;
if (typeDecl->contentType == XML_SCHEMA_CONTENT_UNKNOWN) {
switch (typeDecl->type) {
case XML_SCHEMA_TYPE_SIMPLE_CONTENT:{
if (typeDecl->subtypes != NULL) {
if (typeDecl->subtypes->contentType ==
XML_SCHEMA_CONTENT_UNKNOWN) {
xmlSchemaTypeFixup(typeDecl->subtypes, ctxt,
NULL);
}
typeDecl->contentType =
typeDecl->subtypes->contentType;
}
break;
}
case XML_SCHEMA_TYPE_RESTRICTION:{
xmlSchemaTypePtr base = NULL;
ctxt->ctxtType->flags |=
XML_SCHEMAS_TYPE_DERIVATION_METHOD_RESTRICTION;
if (typeDecl->subtypes != NULL)
xmlSchemaTypeFixup(typeDecl->subtypes, ctxt, NULL);
if (typeDecl->base != NULL) {
base =
xmlSchemaGetType(ctxt->schema, typeDecl->base,
typeDecl->baseNs);
if (base == NULL) {
xmlSchemaPErr(ctxt, typeDecl->node,
XML_SCHEMAP_SRC_RESOLVE,
"Restriction \"%s\": the QName \"%s\" of the "
"attribute \"base\" does not resolve to a schema "
"component.\n",
name, typeDecl->base);
} else if (base->contentType ==
XML_SCHEMA_CONTENT_UNKNOWN) {
/*
* The base type might be not "type fixed" yet,
* so do it now. */
/*
* TODO: Is a check for circular derivation already
* done?
*/
xmlSchemaTypeFixup(base, ctxt, NULL);
}
}
if (ctxt->ctxtType->type == XML_SCHEMA_TYPE_COMPLEX) {
/*
* ComplexType restriction.
*/
/*
* Base type: The type definition ·resolved· to by the ·actual
* value· of the base [attribute]
*/
ctxt->ctxtType->baseType = base;
/*
* Content type.
*/
if (typeDecl->subtypes == NULL)
/* 1.1.1 */
typeDecl->contentType = XML_SCHEMA_CONTENT_EMPTY;
else if ((typeDecl->subtypes->subtypes == NULL) &&
((typeDecl->subtypes->type ==
XML_SCHEMA_TYPE_ALL)
|| (typeDecl->subtypes->type ==
XML_SCHEMA_TYPE_SEQUENCE)))
/* 1.1.2 */
typeDecl->contentType = XML_SCHEMA_CONTENT_EMPTY;
else if ((typeDecl->subtypes->type ==
XML_SCHEMA_TYPE_CHOICE)
&& (typeDecl->subtypes->subtypes == NULL))
/* 1.1.3 */
typeDecl->contentType = XML_SCHEMA_CONTENT_EMPTY;
else {
/* 1.2 and 2.X are applied at the other layer */
typeDecl->contentType =
XML_SCHEMA_CONTENT_ELEMENTS;
}
} else {
/*
* SimpleType restriction.
*/
/* Base type:
* The Simple Type Definition component resolved to by
* the actual value of the base [attribute] or the
* <simpleType> [children], whichever is present.
*/
if ((base == NULL) && (typeDecl->subtypes != NULL)) {
base = typeDecl->subtypes;
ctxt->ctxtType->baseType = base;
if (base->contentType == XML_SCHEMA_CONTENT_UNKNOWN)
xmlSchemaTypeFixup(base, ctxt, NULL);
} else
ctxt->ctxtType->baseType = base;
if (((typeDecl->base == NULL) &&
((typeDecl->subtypes == NULL) ||
(typeDecl->subtypes->type != XML_SCHEMA_TYPE_SIMPLE))) ||
((typeDecl->base != NULL) &&
(typeDecl->subtypes != NULL) &&
(typeDecl->subtypes->type == XML_SCHEMA_TYPE_SIMPLE))) {
/*
* src-restriction-base-or-simpleType
* Either the base [attribute] or the simpleType [child] of the
* <restriction> element must be present, but not both.
*/
xmlSchemaPErr(ctxt, typeDecl->node,
XML_SCHEMAP_SRC_RESTRICTION_BASE_OR_SIMPLETYPE,
"Restriction \"%s\": "
"Either the \"base\" attribute or the <simpleType> child "
"must be present, but not both.\n",
typeDecl->name, NULL);
}
}
break;
}
case XML_SCHEMA_TYPE_EXTENSION:{
xmlSchemaTypePtr base = NULL;
xmlSchemaContentType explicitContentType;
/*
* An extension does exist on a complexType only.
*/
ctxt->ctxtType->flags |=
XML_SCHEMAS_TYPE_DERIVATION_METHOD_EXTENSION;
if (typeDecl->recurse) {
/* TODO: The word "recursive" should be changed to "circular" here. */
xmlSchemaPErr(ctxt, typeDecl->node,
XML_SCHEMAP_UNKNOWN_BASE_TYPE,
"Schemas: extension type %s is recursive\n",
name, NULL);
return;
}
if (typeDecl->base != NULL) {
base =
xmlSchemaGetType(ctxt->schema, typeDecl->base,
typeDecl->baseNs);
if (base == NULL) {
xmlSchemaPErr(ctxt, typeDecl->node,
XML_SCHEMAP_SRC_RESOLVE,
"Extension \"%s\": the QName \"%s\" of the "
"attribute \"base\" does not resolve to a schema "
"component.\n",
name, typeDecl->base);
} else if (base->contentType ==
XML_SCHEMA_CONTENT_UNKNOWN) {
typeDecl->recurse = 1;
xmlSchemaTypeFixup(base, ctxt, NULL);
typeDecl->recurse = 0;
}
/*
* The type definition ·resolved· to by the ·actual
* value· of the base [attribute]
*/
ctxt->ctxtType->baseType = base;
/*
* TODO: This one is still needed for computation of
* the content model by xmlSchemaBuildAContentModel.
* Try to get rid of it.
*/
typeDecl->baseType = base;
}
if ((typeDecl->subtypes != NULL) &&
(typeDecl->subtypes->contentType == XML_SCHEMA_CONTENT_UNKNOWN))
xmlSchemaTypeFixup(typeDecl->subtypes, ctxt, NULL);
explicitContentType = XML_SCHEMA_CONTENT_ELEMENTS;
if (typeDecl->subtypes == NULL)
/* 1.1.1 */
explicitContentType = XML_SCHEMA_CONTENT_EMPTY;
else if ((typeDecl->subtypes->subtypes == NULL) &&
((typeDecl->subtypes->type ==
XML_SCHEMA_TYPE_ALL)
|| (typeDecl->subtypes->type ==
XML_SCHEMA_TYPE_SEQUENCE)))
/* 1.1.2 */
explicitContentType = XML_SCHEMA_CONTENT_EMPTY;
else if ((typeDecl->subtypes->type ==
XML_SCHEMA_TYPE_CHOICE)
&& (typeDecl->subtypes->subtypes == NULL))
/* 1.1.3 */
explicitContentType = XML_SCHEMA_CONTENT_EMPTY;
if (base != NULL) {
/* It will be reported later, if the base is missing. */
if (explicitContentType == XML_SCHEMA_CONTENT_EMPTY) {
/* 2.1 */
typeDecl->contentType = base->contentType;
} else if (base->contentType ==
XML_SCHEMA_CONTENT_EMPTY) {
/* 2.2 imbitable ! */
typeDecl->contentType =
XML_SCHEMA_CONTENT_ELEMENTS;
} else {
/* 2.3 imbitable pareil ! */
typeDecl->contentType =
XML_SCHEMA_CONTENT_ELEMENTS;
}
}
break;
}
case XML_SCHEMA_TYPE_COMPLEX:{
ctxtType = ctxt->ctxtType;
ctxt->ctxtType = typeDecl;
if ((typeDecl->subtypes == NULL) ||
((typeDecl->subtypes->type !=
XML_SCHEMA_TYPE_SIMPLE_CONTENT) &&
(typeDecl->subtypes->type !=
XML_SCHEMA_TYPE_COMPLEX_CONTENT))) {
/*
* This case is understood as shorthand for complex
* content restricting the ur-type definition, and
* the details of the mappings should be modified as
* necessary.
*/
typeDecl->baseType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYTYPE);
typeDecl->flags |=
XML_SCHEMAS_TYPE_DERIVATION_METHOD_RESTRICTION;
}
if (typeDecl->subtypes == NULL) {
typeDecl->contentType = XML_SCHEMA_CONTENT_EMPTY;
if (typeDecl->flags & XML_SCHEMAS_TYPE_MIXED)
typeDecl->contentType =
XML_SCHEMA_CONTENT_MIXED;
} else {
if ((typeDecl->subtypes != NULL) &&
(typeDecl->subtypes->contentType ==
XML_SCHEMA_CONTENT_UNKNOWN)) {
xmlSchemaTypeFixup(typeDecl->subtypes, ctxt,
NULL);
}
if (typeDecl->flags & XML_SCHEMAS_TYPE_MIXED) {
typeDecl->contentType =
XML_SCHEMA_CONTENT_MIXED;
} else {
if (typeDecl->subtypes != NULL) {
typeDecl->contentType =
typeDecl->subtypes->contentType;
}
}
}
xmlSchemaBuildAttributeValidation(ctxt, typeDecl);
ctxt->ctxtType = ctxtType;
break;
}
case XML_SCHEMA_TYPE_COMPLEX_CONTENT:{
if (typeDecl->subtypes == NULL) {
typeDecl->contentType = XML_SCHEMA_CONTENT_EMPTY;
if (typeDecl->flags & XML_SCHEMAS_TYPE_MIXED)
typeDecl->contentType =
XML_SCHEMA_CONTENT_MIXED;
} else {
if (typeDecl->flags & XML_SCHEMAS_TYPE_MIXED) {
typeDecl->contentType =
XML_SCHEMA_CONTENT_MIXED;
} else {
xmlSchemaTypeFixup(typeDecl->subtypes, ctxt,
NULL);
if (typeDecl->subtypes != NULL)
typeDecl->contentType =
typeDecl->subtypes->contentType;
}
/*
* Removed due to implementation of the build of attribute uses.
*/
/*
if (typeDecl->attributes == NULL)
typeDecl->attributes =
typeDecl->subtypes->attributes;
*/
}
break;
}
case XML_SCHEMA_TYPE_SIMPLE:
/*
* Simple Type Definition Schema Component
*
*/
ctxtType = ctxt->ctxtType;
typeDecl->contentType = XML_SCHEMA_CONTENT_SIMPLE;
if (typeDecl->subtypes->contentType ==
XML_SCHEMA_CONTENT_UNKNOWN) {
ctxt->ctxtType = typeDecl;
xmlSchemaTypeFixup(typeDecl->subtypes, ctxt, NULL);
}
/* Fixup base type */
if ((typeDecl->baseType != NULL) &&
(typeDecl->baseType->contentType ==
XML_SCHEMA_CONTENT_UNKNOWN)) {
/* OPTIMIZE: Actually this one will never by hit, since
* the base type is already type-fixed in <restriction>.
*/
ctxt->ctxtType = typeDecl;
xmlSchemaTypeFixup(typeDecl->baseType, ctxt, NULL);
}
/* Base type:
* 2 If the <list> or <union> alternative is chosen,
* then the ·simple ur-type definition·.
*/
if (typeDecl->subtypes->type ==
XML_SCHEMA_TYPE_LIST) {
typeDecl->baseType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYSIMPLETYPE);
typeDecl->flags |= XML_SCHEMAS_TYPE_VARIETY_LIST;
} else if (typeDecl->subtypes->type ==
XML_SCHEMA_TYPE_UNION) {
typeDecl->baseType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYSIMPLETYPE);
typeDecl->flags |= XML_SCHEMAS_TYPE_VARIETY_UNION;
} else if (typeDecl->subtypes->type ==
XML_SCHEMA_TYPE_RESTRICTION) {
xmlSchemaFacetLinkPtr facet, cur, last = NULL;
/*
* Variety
* If the <restriction> alternative is chosen, then the
* {variety} of the {base type definition}.
*/
if (typeDecl->baseType != NULL) {
if (typeDecl->baseType->flags &
XML_SCHEMAS_TYPE_VARIETY_ATOMIC)
typeDecl->flags |= XML_SCHEMAS_TYPE_VARIETY_ATOMIC;
else if (typeDecl->baseType->flags &
XML_SCHEMAS_TYPE_VARIETY_LIST)
typeDecl->flags |= XML_SCHEMAS_TYPE_VARIETY_LIST;
else if (typeDecl->baseType->flags &
XML_SCHEMAS_TYPE_VARIETY_UNION)
typeDecl->flags |= XML_SCHEMAS_TYPE_VARIETY_UNION;
/*
* Schema Component Constraint: Simple Type Restriction
* (Facets)
* NOTE: Satisfaction of 1 and 2 arise from the fixup
* applied beforehand.
*
* 3 The {facets} of R are the union of S and the {facets}
* of B, eliminating duplicates. To eliminate duplicates,
* when a facet of the same kind occurs in both S and the
* {facets} of B, the one in the {facets} of B is not
* included, with the exception of enumeration and pattern
* facets, for which multiple occurrences with distinct values
* are allowed.
*/
if (typeDecl->baseType->facetSet != NULL) {
last = typeDecl->facetSet;
if (last != NULL)
while (last->next != NULL)
last = last->next;
cur = typeDecl->baseType->facetSet;
for (; cur != NULL; cur = cur->next) {
/*
* Base patterns won't be add here:
* they are ORed in a type and
* ANDed in derived types. This will
* happed at validation level by
* walking the base axis of the type.
*/
if (cur->facet->type ==
XML_SCHEMA_FACET_PATTERN)
continue;
facet = NULL;
if ((typeDecl->facetSet != NULL) &&
(cur->facet->type !=
XML_SCHEMA_FACET_PATTERN) &&
(cur->facet->type !=
XML_SCHEMA_FACET_ENUMERATION)) {
facet = typeDecl->facetSet;
do {
if (cur->facet->type ==
facet->facet->type)
break;
facet = facet->next;
} while (facet != NULL);
}
if (facet == NULL) {
facet = (xmlSchemaFacetLinkPtr)
xmlMalloc(sizeof(xmlSchemaFacetLink));
if (facet == NULL) {
xmlSchemaPErrMemory(ctxt,
"fixing simpleType", NULL);
return;
}
facet->facet = cur->facet;
facet->next = NULL;
if (last == NULL)
typeDecl->facetSet = facet;
else
last->next = facet;
last = facet;
}
}
}
}
}
/*
* Check constraints.
*/
xmlSchemaCheckSRCSimpleType(ctxt, typeDecl);
ctxt->ctxtType = ctxtType;
break;
case XML_SCHEMA_TYPE_SEQUENCE:
case XML_SCHEMA_TYPE_GROUP:
case XML_SCHEMA_TYPE_ALL:
case XML_SCHEMA_TYPE_CHOICE:
typeDecl->contentType = XML_SCHEMA_CONTENT_ELEMENTS;
break;
case XML_SCHEMA_TYPE_LIST:
xmlSchemaParseListRefFixup(typeDecl, ctxt);
typeDecl->contentType = XML_SCHEMA_CONTENT_SIMPLE;
break;
case XML_SCHEMA_TYPE_UNION:
xmlSchemaParseUnionRefCheck(typeDecl, ctxt);
typeDecl->contentType = XML_SCHEMA_CONTENT_SIMPLE;
break;
case XML_SCHEMA_TYPE_BASIC:
case XML_SCHEMA_TYPE_ANY:
case XML_SCHEMA_TYPE_FACET:
case XML_SCHEMA_TYPE_UR:
case XML_SCHEMA_TYPE_ELEMENT:
case XML_SCHEMA_TYPE_ATTRIBUTE:
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP:
case XML_SCHEMA_TYPE_ANY_ATTRIBUTE:
case XML_SCHEMA_TYPE_NOTATION:
case XML_SCHEMA_FACET_MININCLUSIVE:
case XML_SCHEMA_FACET_MINEXCLUSIVE:
case XML_SCHEMA_FACET_MAXINCLUSIVE:
case XML_SCHEMA_FACET_MAXEXCLUSIVE:
case XML_SCHEMA_FACET_TOTALDIGITS:
case XML_SCHEMA_FACET_FRACTIONDIGITS:
case XML_SCHEMA_FACET_PATTERN:
case XML_SCHEMA_FACET_ENUMERATION:
case XML_SCHEMA_FACET_WHITESPACE:
case XML_SCHEMA_FACET_LENGTH:
case XML_SCHEMA_FACET_MAXLENGTH:
case XML_SCHEMA_FACET_MINLENGTH:
typeDecl->contentType = XML_SCHEMA_CONTENT_SIMPLE;
if (typeDecl->subtypes != NULL)
xmlSchemaTypeFixup(typeDecl->subtypes, ctxt, NULL);
break;
}
}
#ifdef DEBUG_TYPE
if (typeDecl->node != NULL) {
xmlGenericError(xmlGenericErrorContext,
"Type of %s : %s:%d :", name,
typeDecl->node->doc->URL,
xmlGetLineNo(typeDecl->node));
} else {
xmlGenericError(xmlGenericErrorContext, "Type of %s :", name);
}
switch (typeDecl->contentType) {
case XML_SCHEMA_CONTENT_SIMPLE:
xmlGenericError(xmlGenericErrorContext, "simple\n");
break;
case XML_SCHEMA_CONTENT_ELEMENTS:
xmlGenericError(xmlGenericErrorContext, "elements\n");
break;
case XML_SCHEMA_CONTENT_UNKNOWN:
xmlGenericError(xmlGenericErrorContext, "unknown !!!\n");
break;
case XML_SCHEMA_CONTENT_EMPTY:
xmlGenericError(xmlGenericErrorContext, "empty\n");
break;
case XML_SCHEMA_CONTENT_MIXED:
xmlGenericError(xmlGenericErrorContext, "mixed\n");
break;
/* Removed, since not used. */
/*
case XML_SCHEMA_CONTENT_MIXED_OR_ELEMENTS:
xmlGenericError(xmlGenericErrorContext, "mixed or elems\n");
break;
*/
case XML_SCHEMA_CONTENT_BASIC:
xmlGenericError(xmlGenericErrorContext, "basic\n");
break;
default:
xmlGenericError(xmlGenericErrorContext,
"not registered !!!\n");
break;
}
#endif
}
/**
* xmlSchemaCheckFacet:
* @facet: the facet
* @typeDecl: the schema type definition
* @ctxt: the schema parser context or NULL
* @name: name of the type
*
* Checks the default values types, especially for facets
*
* Returns 0 if okay or -1 in cae of error
*/
int
xmlSchemaCheckFacet(xmlSchemaFacetPtr facet,
xmlSchemaTypePtr typeDecl,
xmlSchemaParserCtxtPtr ctxt, const xmlChar * name)
{
static xmlSchemaTypePtr nonNegativeIntegerType = NULL;
int ret = 0;
if (nonNegativeIntegerType == NULL) {
nonNegativeIntegerType =
xmlSchemaGetBuiltInType(XML_SCHEMAS_NNINTEGER);
}
switch (facet->type) {
case XML_SCHEMA_FACET_MININCLUSIVE:
case XML_SCHEMA_FACET_MINEXCLUSIVE:
case XML_SCHEMA_FACET_MAXINCLUSIVE:
case XML_SCHEMA_FACET_MAXEXCLUSIVE:
case XML_SCHEMA_FACET_ENUMERATION: {
/*
* Okay we need to validate the value
* at that point.
*/
xmlSchemaValidCtxtPtr vctxt;
xmlSchemaTypePtr base;
/* 4.3.5.5 Constraints on enumeration Schema Components
* Schema Component Constraint: enumeration valid restriction
* It is an ·error· if any member of {value} is not in the
* ·value space· of {base type definition}.
*
* minInclusive, maxInclusive, minExclusive, maxExclusive:
* The value ·must· be in the
* ·value space· of the ·base type·.
*/
/*
* This function is intended to deliver a compiled value
* on the facet. In XML Schemas the type holding a facet,
* cannot be a built-in type. Thus to ensure that other API
* calls (relaxng) do work, if the given type is a built-in
* type, we will assume that the given built-in type *is
* already* the base type.
*/
if (typeDecl->type != XML_SCHEMA_TYPE_BASIC) {
base = typeDecl->baseType;
if (base == NULL) {
xmlSchemaPErr(ctxt, typeDecl->node,
XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaCheckFacet, "
"the type \"%s\" has no base type.\n",
typeDecl->name, NULL);
return (-1);
}
} else
base = typeDecl;
/*
* TODO: Try to avoid creating a new context.
*/
vctxt = xmlSchemaNewValidCtxt(NULL);
if (vctxt == NULL) {
xmlSchemaPErr(ctxt, typeDecl->node,
XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaCheckFacet, "
"creating a new validation context.\n",
typeDecl->name, NULL);
return (-1);
}
vctxt->type = base;
ret = xmlSchemaValidateSimpleTypeValue(vctxt, facet->value, 0, 1);
facet->val = vctxt->value;
vctxt->value = NULL;
if (ret > 0) {
/* error code */
if (ctxt != NULL) {
xmlSchemaPErrExt(ctxt, facet->node,
XML_SCHEMAP_INVALID_FACET,
NULL, NULL, NULL,
"Type \"%s\": the value \"%s\" of the "
"facet \"%s\" is invalid.\n",
name, facet->value,
BAD_CAST xmlSchemaFacetTypeToString(facet->type),
NULL, NULL);
}
ret = -1;
} else if (ret < 0) {
xmlSchemaPErrExt(ctxt, facet->node,
XML_SCHEMAS_ERR_INTERNAL,
NULL, NULL, NULL,
"Internal error: xmlSchemaCheckFacet, "
"failed to validate the value \"%s\" name of the "
"facet \"%s\" against the base type \"%s\".\n",
facet->value,
BAD_CAST xmlSchemaFacetTypeToString(facet->type),
base->name, NULL, NULL);
ret = -1;
}
xmlSchemaFreeValidCtxt(vctxt);
break;
}
/*
* Removed, since added to the case above.
*
case XML_SCHEMA_FACET_ENUMERATION:{
*
* Okay we need to validate the value
* at that point.
*
xmlSchemaValidCtxtPtr vctxt;
int tmp;
xmlSchemaTypePtr base;
* 4.3.5.5 Constraints on enumeration Schema Components
* Schema Component Constraint: enumeration valid restriction
* It is an ·error· if any member of {value} is not in the
* ·value space· of {base type definition}.
*
vctxt = xmlSchemaNewValidCtxt(NULL);
if (vctxt == NULL)
break;
base = typeDecl->baseType;
if (base == NULL) {
xmlSchemaPErr(ctxt, typeDecl->node,
XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaCheckFacet, "
"the type \"%s\" has no base type.\n",
typeDecl->name, NULL);
return (-1);
}
vctxt->type = base;
tmp = xmlSchemaValidateSimpleTypeValue(vctxt, facet->value, 0, 1);
* tmp = xmlSchemaValidateSimpleValue(vctxt, typeDecl,
facet->value);
*
if (tmp != 0) {
if (ctxt != NULL) {
xmlSchemaPErr(ctxt, facet->node,
XML_SCHEMAP_INVALID_ENUM,
"Type \"%s\": the value \"%s\" of the "
"facet \"enumeration\" is invalid.\n",
name, facet->value);
}
ret = -1;
}
xmlSchemaFreeValidCtxt(vctxt);
break;
}
*/
case XML_SCHEMA_FACET_PATTERN:
facet->regexp = xmlRegexpCompile(facet->value);
if (facet->regexp == NULL) {
xmlSchemaPErr(ctxt, typeDecl->node,
XML_SCHEMAP_REGEXP_INVALID,
"Type \"%s\": the value \"%s\" of the "
"facet \"pattern\" is invalid.\n",
name, facet->value);
ret = -1;
}
break;
case XML_SCHEMA_FACET_TOTALDIGITS:
case XML_SCHEMA_FACET_FRACTIONDIGITS:
case XML_SCHEMA_FACET_LENGTH:
case XML_SCHEMA_FACET_MAXLENGTH:
case XML_SCHEMA_FACET_MINLENGTH:{
int tmp;
tmp =
xmlSchemaValidatePredefinedType(nonNegativeIntegerType,
facet->value,
&facet->val);
if (tmp != 0) {
/* error code */
if (ctxt != NULL) {
xmlSchemaPErrExt(ctxt, facet->node,
XML_SCHEMAP_INVALID_FACET_VALUE,
NULL, NULL, NULL,
"Type \"%s\": the value \"%s\" of the "
"facet \"%s\" is invalid.\n",
name, facet->value,
BAD_CAST xmlSchemaFacetTypeToString(facet->type),
NULL, NULL);
}
ret = -1;
}
break;
}
case XML_SCHEMA_FACET_WHITESPACE:{
if (xmlStrEqual(facet->value, BAD_CAST "preserve")) {
facet->whitespace = XML_SCHEMAS_FACET_PRESERVE;
} else if (xmlStrEqual(facet->value, BAD_CAST "replace")) {
facet->whitespace = XML_SCHEMAS_FACET_REPLACE;
} else if (xmlStrEqual(facet->value, BAD_CAST "collapse")) {
facet->whitespace = XML_SCHEMAS_FACET_COLLAPSE;
} else {
if (ctxt != NULL) {
xmlSchemaPErr(ctxt, facet->node,
XML_SCHEMAP_INVALID_WHITE_SPACE,
"Type \"%s\": the value \"%s\" of the "
"facet \"whiteSpace\" is invalid.\n",
name, facet->value);
}
ret = -1;
}
}
default:
break;
}
return (ret);
}
/**
* xmlSchemaCheckDefaults:
* @typeDecl: the schema type definition
* @ctxt: the schema parser context
*
* Checks the default values types, especially for facets
*/
static void
xmlSchemaCheckDefaults(xmlSchemaTypePtr typeDecl,
xmlSchemaParserCtxtPtr ctxt, const xmlChar * name)
{
if (name == NULL)
name = typeDecl->name;
/*
* NOTE: It is intended to use the facets list, instead
* of facetSet.
*/
if (typeDecl->facets != NULL) {
xmlSchemaFacetPtr facet = typeDecl->facets;
while (facet != NULL) {
xmlSchemaCheckFacet(facet, typeDecl, ctxt, name);
facet = facet->next;
}
}
}
/**
* xmlSchemaAttrGrpFixup:
* @attrgrpDecl: the schema attribute definition
* @ctxt: the schema parser context
* @name: the attribute name
*
* Fixes finish doing the computations on the attributes definitions
*/
static void
xmlSchemaAttrGrpFixup(xmlSchemaAttributeGroupPtr attrgrp,
xmlSchemaParserCtxtPtr ctxt, const xmlChar * name)
{
if (name == NULL)
name = attrgrp->name;
if (attrgrp->attributes != NULL)
return;
if (attrgrp->ref != NULL) {
xmlSchemaAttributeGroupPtr ref;
ref = xmlSchemaGetAttributeGroup(ctxt->schema, attrgrp->ref, attrgrp->refNs);
if (ref == NULL) {
xmlSchemaPErr(ctxt, attrgrp->node,
XML_SCHEMAP_SRC_RESOLVE,
"Attribute group \"%s\": the QName \"%s\" of the attribute "
"\"ref\" does not resolve to a schema "
"component.\n",
name, attrgrp->ref);
return;
}
xmlSchemaAttrGrpFixup(ref, ctxt, NULL);
attrgrp->attributes = ref->attributes;
attrgrp->attributeWildcard = ref->attributeWildcard;
}
/*
* Removed, since a global attribute group does not need to hold any
* attributes or wildcard
*/
/*
else {
xmlSchemaPErr(ctxt, attrgrp->node, XML_SCHEMAP_NOATTR_NOREF,
"Schemas: attribute group %s has no attributes nor reference\n",
name, NULL);
}
*/
}
/**
* xmlSchemaAttrFixup:
* @attrDecl: the schema attribute definition
* @ctxt: the schema parser context
* @name: the attribute name
*
* Fixes finish doing the computations on the attributes definitions
*/
static void
xmlSchemaAttrFixup(xmlSchemaAttributePtr attrDecl,
xmlSchemaParserCtxtPtr ctxt, const xmlChar * name)
{
/*
* The simple type definition corresponding to the <simpleType> element
* information item in the [children], if present, otherwise the simple
* type definition ·resolved· to by the ·actual value· of the type
* [attribute], if present, otherwise the ·simple ur-type definition·.
*/
if (name == NULL)
name = attrDecl->name;
if (attrDecl->subtypes != NULL)
return;
if (attrDecl->typeName != NULL) {
xmlSchemaTypePtr type;
type = xmlSchemaGetType(ctxt->schema, attrDecl->typeName,
attrDecl->typeNs);
if (type == NULL) {
xmlSchemaPErr(ctxt, attrDecl->node,
XML_SCHEMAP_SRC_RESOLVE,
"Attribute \"%s\": the QName \"%s\" of the attribute "
"\"type\" does not resolve to a schema "
"component.\n",
name, attrDecl->typeName);
}
attrDecl->subtypes = type;
} else if (attrDecl->ref != NULL) {
xmlSchemaAttributePtr ref;
ref = xmlSchemaGetAttribute(ctxt->schema, attrDecl->ref, attrDecl->refNs);
if (ref == NULL) {
xmlSchemaPErr(ctxt, attrDecl->node,
XML_SCHEMAP_SRC_RESOLVE,
"Attribute \"%s\": the QName \"%s\" of the attribute "
"\"ref\" does not resolve to a schema "
"component.\n",
name, attrDecl->ref);
return;
}
xmlSchemaAttrFixup(ref, ctxt, NULL);
attrDecl->subtypes = ref->subtypes;
} else {
attrDecl->subtypes = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYSIMPLETYPE);
}
}
/**
* xmlSchemaParse:
* @ctxt: a schema validation context
*
* parse a schema definition resource and build an internal
* XML Shema struture which can be used to validate instances.
* *WARNING* this interface is highly subject to change
*
* Returns the internal XML Schema structure built from the resource or
* NULL in case of error
*/
xmlSchemaPtr
xmlSchemaParse(xmlSchemaParserCtxtPtr ctxt)
{
xmlSchemaPtr ret = NULL;
xmlDocPtr doc;
xmlNodePtr root;
int nberrors;
int preserve = 0;
xmlSchemaInitTypes();
if (ctxt == NULL)
return (NULL);
nberrors = ctxt->nberrors;
ctxt->nberrors = 0;
ctxt->counter = 0;
ctxt->container = NULL;
/*
* First step is to parse the input document into an DOM/Infoset
*/
if (ctxt->URL != NULL) {
doc = xmlReadFile((const char *) ctxt->URL, NULL,
SCHEMAS_PARSE_OPTIONS);
if (doc == NULL) {
xmlSchemaPErr(ctxt, NULL,
XML_SCHEMAP_FAILED_LOAD,
"xmlSchemaParse: could not load %s\n",
ctxt->URL, NULL);
return (NULL);
}
} else if (ctxt->buffer != NULL) {
doc = xmlReadMemory(ctxt->buffer, ctxt->size, NULL, NULL,
SCHEMAS_PARSE_OPTIONS);
if (doc == NULL) {
xmlSchemaPErr(ctxt, NULL,
XML_SCHEMAP_FAILED_PARSE,
"xmlSchemaParse: could not parse\n",
NULL, NULL);
return (NULL);
}
doc->URL = xmlStrdup(BAD_CAST "in_memory_buffer");
ctxt->URL = xmlDictLookup(ctxt->dict, BAD_CAST "in_memory_buffer", -1);
} else if (ctxt->doc != NULL) {
doc = ctxt->doc;
preserve = 1;
} else {
xmlSchemaPErr(ctxt, NULL,
XML_SCHEMAP_NOTHING_TO_PARSE,
"xmlSchemaParse: could not parse\n",
NULL, NULL);
return (NULL);
}
/*
* Then extract the root and Schema parse it
*/
root = xmlDocGetRootElement(doc);
if (root == NULL) {
xmlSchemaPErr(ctxt, (xmlNodePtr) doc,
XML_SCHEMAP_NOROOT,
"schemas has no root", NULL, NULL);
if (!preserve) {
xmlFreeDoc(doc);
}
return (NULL);
}
/*
* Remove all the blank text nodes
*/
xmlSchemaCleanupDoc(ctxt, root);
/*
* Then do the parsing for good
*/
ret = xmlSchemaParseSchema(ctxt, root);
if (ret == NULL) {
if (!preserve) {
xmlFreeDoc(doc);
}
return (NULL);
}
ret->doc = doc;
ret->preserve = preserve;
/*
* Then fix all the references.
*/
ctxt->schema = ret;
xmlHashScanFull(ret->elemDecl,
(xmlHashScannerFull) xmlSchemaRefFixupCallback, ctxt);
/*
* Then fixup all attributes declarations
*/
xmlHashScan(ret->attrDecl, (xmlHashScanner) xmlSchemaAttrFixup, ctxt);
/*
* Then fixup all attributes group declarations
*/
xmlHashScan(ret->attrgrpDecl, (xmlHashScanner) xmlSchemaAttrGrpFixup,
ctxt);
/*
* Then fixup all types properties
*/
ctxt->ctxtType = NULL;
ctxt->parentItem = NULL;
xmlHashScan(ret->typeDecl, (xmlHashScanner) xmlSchemaTypeFixup, ctxt);
/*
* Then build the content model for all elements
*/
xmlHashScan(ret->elemDecl,
(xmlHashScanner) xmlSchemaBuildContentModel, ctxt);
/*
* Then check the defaults part of the type like facets values
*/
xmlHashScan(ret->typeDecl, (xmlHashScanner) xmlSchemaCheckDefaults,
ctxt);
if (ctxt->nberrors != 0) {
xmlSchemaFree(ret);
ret = NULL;
}
return (ret);
}
/**
* xmlSchemaSetParserErrors:
* @ctxt: a schema validation context
* @err: the error callback
* @warn: the warning callback
* @ctx: contextual data for the callbacks
*
* Set the callback functions used to handle errors for a validation context
*/
void
xmlSchemaSetParserErrors(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaValidityErrorFunc err,
xmlSchemaValidityWarningFunc warn, void *ctx)
{
if (ctxt == NULL)
return;
ctxt->error = err;
ctxt->warning = warn;
ctxt->userData = ctx;
}
/**
* xmlSchemaFacetTypeToString:
* @type: the facet type
*
* Convert the xmlSchemaTypeType to a char string.
*
* Returns the char string representation of the facet type if the
* type is a facet and an "Internal Error" string otherwise.
*/
static const char *
xmlSchemaFacetTypeToString(xmlSchemaTypeType type)
{
switch (type) {
case XML_SCHEMA_FACET_PATTERN:
return ("pattern");
case XML_SCHEMA_FACET_MAXEXCLUSIVE:
return ("maxExclusive");
case XML_SCHEMA_FACET_MAXINCLUSIVE:
return ("maxInclusive");
case XML_SCHEMA_FACET_MINEXCLUSIVE:
return ("minExclusive");
case XML_SCHEMA_FACET_MININCLUSIVE:
return ("minInclusive");
case XML_SCHEMA_FACET_WHITESPACE:
return ("whiteSpace");
case XML_SCHEMA_FACET_ENUMERATION:
return ("enumeration");
case XML_SCHEMA_FACET_LENGTH:
return ("length");
case XML_SCHEMA_FACET_MAXLENGTH:
return ("maxLength");
case XML_SCHEMA_FACET_MINLENGTH:
return ("minLength");
case XML_SCHEMA_FACET_TOTALDIGITS:
return ("totalDigits");
case XML_SCHEMA_FACET_FRACTIONDIGITS:
return ("fractionDigits");
default:
break;
}
return ("Internal Error");
}
/**
* xmlSchemaValidateFacetsInternal:
* @ctxt: a schema validation context
* @base: the base type
* @facets: the list of facets to check
* @value: the lexical repr of the value to validate
* @val: the precomputed value
* @fireErrors: if 0, only internal errors will be fired;
* otherwise all errors will be fired.
*
* Check a value against all facet conditions
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateFacetsInternal(xmlSchemaValidCtxtPtr ctxt,
xmlSchemaTypePtr base,
xmlSchemaFacetLinkPtr facets,
const xmlChar * value, int fireErrors)
{
int ret = 0;
int tmp = 0;
xmlSchemaTypeType type;
xmlSchemaFacetLinkPtr facetLink = facets;
while (facetLink != NULL) {
type = facetLink->facet->type;
if (type == XML_SCHEMA_FACET_ENUMERATION) {
tmp = 1;
while (facetLink != NULL) {
tmp =
xmlSchemaValidateFacet(base, facetLink->facet, value,
ctxt->value);
if (tmp == 0) {
return 0;
}
facetLink = facetLink->next;
}
} else
tmp = xmlSchemaValidateFacet(base, facetLink->facet, value,
ctxt->value);
if (tmp != 0) {
ret = tmp;
if (fireErrors) {
xmlSchemaVErr(ctxt, ctxt->cur, tmp,
"The value failed to validate against the facet \"%s\".\n",
(const xmlChar *) xmlSchemaFacetTypeToString(type),
NULL);
}
}
if (facetLink != NULL)
facetLink = facetLink->next;
}
return (ret);
}
/************************************************************************
* *
* Simple type validation *
* *
************************************************************************/
#if 0 /* Not currently used. */
/**
* xmlSchemaValidateSimpleValueUnion:
* @ctxt: a schema validation context
* @type: the type declaration
* @value: the value to validate
*
* Validates a value against a union.
*
* Returns 0 if the value is valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateSimpleValueUnion(xmlSchemaValidCtxtPtr ctxt,
xmlSchemaTypePtr type, const xmlChar * value)
{
int ret = 0;
const xmlChar *cur, *end, *prefix, *ncName;
xmlChar *tmp;
xmlSchemaTypePtr subtype;
xmlNsPtr ns;
int len;
/* Process referenced memberTypes. */
cur = type->ref;
do {
while (IS_BLANK_CH(*cur))
cur++;
end = cur;
while ((*end != 0) && (!(IS_BLANK_CH(*end))))
end++;
if (end == cur)
break;
tmp = xmlStrndup(cur, end - cur);
ncName = xmlSplitQName3(tmp, &len);
if (ncName != NULL) {
prefix = xmlStrndup(tmp, len);
/* prefix = xmlDictLookup(ctxt->doc->dict, tmp, len); */
} else {
prefix = NULL;
ncName = tmp;
}
/* We won't do additional checks here,
* since they have been performed during parsing. */
ns = xmlSearchNs(type->node->doc, type->node, prefix);
/* namespace = xmlDictLookup(ctxt->doc->dict, ns->href, -1); */
subtype = xmlSchemaGetType(ctxt->schema, ncName, ns->href);
if (tmp != NULL)
xmlFree(tmp);
if (prefix != NULL)
xmlFree((void *)prefix);
ret = xmlSchemaValidateSimpleValueInternal(ctxt, subtype, value, 0);
if ((ret == 0) || (ret == -1)) {
return (ret);
}
cur = end;
} while (*cur != 0);
if (type->subtypes != NULL) {
subtype = type->subtypes;
do {
ret = xmlSchemaValidateSimpleValueInternal(ctxt, subtype, value, 0);
if ((ret == 0) || (ret == -1)) {
return (ret);
}
subtype = subtype->next;
} while (subtype != NULL);
}
return (ret);
}
/**
* xmlSchemaValidateSimpleValue:
* @ctxt: a schema validation context
* @type: the type declaration
* @value: the value to validate
*
* Validate a value against a simple type
*
* Returns 0 if the value is valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateSimpleValue(xmlSchemaValidCtxtPtr ctxt,
xmlSchemaTypePtr type, const xmlChar * value)
{
return (xmlSchemaValidateSimpleValueInternal(ctxt, type, value, 1));
}
/**
* xmlSchemaValidateSimpleValue:
* @ctxt: a schema validation context
* @type: the type declaration
* @value: the value to validate
* @fireErrors: if 0, only internal errors will be fired;
* otherwise all errors will be fired.
*
* Validate a value against a simple type
*
* Returns 0 if the value is valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateSimpleValueInternal(xmlSchemaValidCtxtPtr ctxt,
xmlSchemaTypePtr type,
const xmlChar * value,
int fireErrors)
{
int ret = 0;
/*
* First normalize the value accordingly to Schema Datatype
* 4.3.6 whiteSpace definition of the whiteSpace facet of type
*
* Then check the normalized value against the lexical space of the
* type.
*/
if (type->type == XML_SCHEMA_TYPE_BASIC) {
if (ctxt->value != NULL) {
xmlSchemaFreeValue(ctxt->value);
ctxt->value = NULL;
}
ret = xmlSchemaValPredefTypeNode(type, value, &(ctxt->value),
ctxt->cur);
if ((fireErrors) && (ret != 0)) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_VALUE,
"Failed to validate basic type %s\n",
type->name, NULL);
}
} else if (type->type == XML_SCHEMA_TYPE_RESTRICTION) {
xmlSchemaTypePtr base;
base = type->baseType;
if (base != NULL) {
ret = xmlSchemaValidateSimpleValueInternal(ctxt, base,
value, fireErrors);
} else if (type->subtypes != NULL) {
TODO
}
/*
* Do not validate facets or attributes when working on
* building the Schemas
*/
if (ctxt->schema != NULL) {
xmlSchemaFacetLinkPtr facetLink;
if ((ret == 0) && (type->facetSet != NULL)) {
facetLink = type->facetSet;
ret = xmlSchemaValidateFacetsInternal(ctxt, base, facetLink,
value, fireErrors);
}
}
} else if (type->type == XML_SCHEMA_TYPE_SIMPLE) {
xmlSchemaTypePtr base;
base = type->subtypes;
if (base != NULL) {
ret = xmlSchemaValidateSimpleValueInternal(ctxt, base,
value, fireErrors);
} else {
TODO}
} else if (type->type == XML_SCHEMA_TYPE_LIST) {
xmlSchemaTypePtr base;
const xmlChar *cur, *end;
xmlChar *tmp;
int ret2;
base = type->subtypes;
if (base == NULL) {
xmlSchemaVErr(ctxt, type->node, XML_SCHEMAS_ERR_INTERNAL,
"Internal: List type %s has no base type\n",
type->name, NULL);
return (-1);
}
cur = value;
do {
while (IS_BLANK_CH(*cur))
cur++;
end = cur;
while ((*end != 0) && (!(IS_BLANK_CH(*end))))
end++;
if (end == cur)
break;
tmp = xmlStrndup(cur, end - cur);
ret2 = xmlSchemaValidateSimpleValueInternal(ctxt, base,
tmp, fireErrors);
xmlFree(tmp);
if (ret2 != 0)
ret = 1;
cur = end;
} while (*cur != 0);
} else if (type->type == XML_SCHEMA_TYPE_UNION) {
ret = xmlSchemaValidateSimpleValueUnion(ctxt, type, value);
if ((fireErrors) && (ret != 0)) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_VALUE,
"Failed to validate type %s\n", type->name, NULL);
}
} else {
TODO
}
return (ret);
}
#endif
/************************************************************************
* *
* DOM Validation code *
* *
************************************************************************/
static int xmlSchemaValidateContent(xmlSchemaValidCtxtPtr ctxt,
xmlNodePtr node);
static int xmlSchemaValidateAttributes(xmlSchemaValidCtxtPtr ctxt,
xmlNodePtr elem,
xmlSchemaTypePtr type);
static int xmlSchemaValidateType(xmlSchemaValidCtxtPtr ctxt,
xmlNodePtr elem,
xmlSchemaElementPtr elemDecl,
xmlSchemaTypePtr type);
/**
* xmlSchemaFreeAttrStates:
* @state: a list of attribute states
*
* Free the given list of attribute states
*
*/
static void
xmlSchemaFreeAttributeStates(xmlSchemaAttrStatePtr state)
{
xmlSchemaAttrStatePtr tmp;
while (state != NULL) {
tmp = state;
state = state->next;
xmlFree(tmp);
}
}
/**
* xmlSchemaRegisterAttributes:
* @ctxt: a schema validation context
* @attrs: a list of attributes
*
* Register the list of attributes as the set to be validated on that element
*
* Returns -1 in case of error, 0 otherwise
*/
static int
xmlSchemaRegisterAttributes(xmlSchemaValidCtxtPtr ctxt, xmlAttrPtr attrs)
{
xmlSchemaAttrStatePtr tmp;
ctxt->attr = NULL;
ctxt->attrTop = NULL;
while (attrs != NULL) {
if ((attrs->ns != NULL) &&
(xmlStrEqual(attrs->ns->href, xmlSchemaInstanceNs))) {
attrs = attrs->next;
continue;
}
tmp = (xmlSchemaAttrStatePtr)
xmlMalloc(sizeof(xmlSchemaAttrState));
if (tmp == NULL) {
xmlSchemaVErrMemory(ctxt, "registering attributes", NULL);
return (-1);
}
tmp->attr = attrs;
tmp->state = XML_SCHEMAS_ATTR_UNKNOWN;
tmp->next = NULL;
if (ctxt->attr == NULL)
ctxt->attr = tmp;
else
ctxt->attrTop->next = tmp;
ctxt->attrTop = tmp;
attrs = attrs->next;
}
return (0);
}
/**
* xmlSchemaCheckAttributes:
* @ctxt: a schema validation context
* @node: the node carrying it.
*
* Check that the registered set of attributes on the current node
* has been properly validated.
*
* Returns 0 if validity constraints are met, 1 otherwise.
*/
static int
xmlSchemaCheckAttributes(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr node)
{
int ret = 0;
xmlSchemaAttrStatePtr cur;
cur = ctxt->attr;
while ((cur != NULL) && (cur != ctxt->attrTop->next)) {
if (cur->state != XML_SCHEMAS_ATTR_CHECKED) {
ret = 1;
if (cur->state == XML_SCHEMAS_ATTR_UNKNOWN)
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_ATTRUNKNOWN,
"Attribute \"%s\" is not allowed.\n",
cur->attr->name, NULL);
else if (cur->state == XML_SCHEMAS_ATTR_PROHIBITED)
/*
* TODO: This won't ever be touched so remove it.
*/
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_ATTRUNKNOWN,
"Attribute \"%s\" is prohibited.\n",
cur->attr->name, NULL);
else if (cur->state == XML_SCHEMAS_ATTR_INVALID_VALUE) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_ATTRINVALID,
"Attribute \"%s\": the value is not valid.\n",
cur->attr->name, node->name);
} else if (cur->state == XML_SCHEMAS_ATTR_MISSING) {
if (cur->decl->ref != NULL)
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_MISSING,
"Attribute \"%s\" is required but missing.\n",
cur->decl->ref, NULL);
else
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_MISSING,
"Attribute \"%s\" is required but missing.\n",
cur->decl->name, NULL);
}
}
cur = cur->next;
}
return (ret);
}
#if 0 /* Not currently used - remove if ever needed */
/**
* xmlSchemaValidateSimpleContent:
* @ctxt: a schema validation context
* @elem: an element
* @type: the type declaration
*
* Validate the content of an element expected to be a simple type
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateSimpleContent(xmlSchemaValidCtxtPtr ctxt,
xmlNodePtr node ATTRIBUTE_UNUSED)
{
xmlNodePtr child;
xmlSchemaTypePtr type, base;
xmlChar *value;
int ret = 0;
child = ctxt->node;
type = ctxt->type;
/*
* Validation Rule: Element Locally Valid (Type): 3.1.3
*/
value = xmlNodeGetContent(child);
/* xmlSchemaValidateSimpleValue(ctxt, type, value); */
switch (type->type) {
case XML_SCHEMA_TYPE_RESTRICTION:{
xmlSchemaFacetPtr facet;
base = type->baseType;
if (base != NULL) {
ret = xmlSchemaValidateSimpleValue(ctxt, base, value);
} else {
TODO}
if (ret == 0) {
facet = type->facets;
ret =
xmlSchemaValidateFacets(ctxt, base, facet, value);
}
/*
* This should attempt to validate the attributes even
* when validation of the value failed.
*/
/*
if (type->attributes != NULL) {
ret = xmlSchemaValidateAttributes(ctxt, node,
type->attributes);
}
*/
break;
}
case XML_SCHEMA_TYPE_EXTENSION:{
TODO
break;
}
default:
TODO
}
if (value != NULL)
xmlFree(value);
return (ret);
}
#endif
/**
* xmlSchemaValidateCheckNodeList
* @nodelist: the list of nodes
*
* Check the node list is only made of text nodes and entities pointing
* to text nodes
*
* Returns 1 if true, 0 if false and -1 in case of error
*/
static int
xmlSchemaValidateCheckNodeList(xmlNodePtr nodelist)
{
while (nodelist != NULL) {
if (nodelist->type == XML_ENTITY_REF_NODE) {
TODO /* implement recursion in the entity content */
}
if ((nodelist->type != XML_TEXT_NODE) &&
(nodelist->type != XML_COMMENT_NODE) &&
(nodelist->type != XML_PI_NODE) &&
(nodelist->type != XML_CDATA_SECTION_NODE)) {
return (0);
}
nodelist = nodelist->next;
}
return (1);
}
/**
* xmlSchemaValidateCallback:
* @ctxt: a schema validation context
* @name: the name of the element detected (might be NULL)
* @type: the type
*
* A transition has been made in the automata associated to an element
* content model
*/
static void
xmlSchemaValidateCallback(xmlSchemaValidCtxtPtr ctxt,
const xmlChar * name ATTRIBUTE_UNUSED,
xmlSchemaTypePtr type, xmlNodePtr node)
{
xmlSchemaTypePtr oldtype = ctxt->type;
xmlNodePtr oldnode = ctxt->node;
#ifdef DEBUG_CONTENT
xmlGenericError(xmlGenericErrorContext,
"xmlSchemaValidateCallback: %s, %s, %s\n",
name, type->name, node->name);
#endif
ctxt->type = type;
ctxt->node = node;
xmlSchemaValidateContent(ctxt, node);
ctxt->type = oldtype;
ctxt->node = oldnode;
}
#if 0
/**
* xmlSchemaValidateSimpleRestrictionType:
* @ctxt: a schema validation context
* @node: the top node.
*
* Validate the content of a restriction type.
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateSimpleRestrictionType(xmlSchemaValidCtxtPtr ctxt,
xmlNodePtr node)
{
xmlNodePtr child;
xmlSchemaTypePtr type;
int ret;
child = ctxt->node;
type = ctxt->type;
if ((ctxt == NULL) || (type == NULL)) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleRestrictionType %s\n",
node->name, NULL);
return (-1);
}
/*
* Only text and text based entities references shall be found there
*/
ret = xmlSchemaValidateCheckNodeList(child);
if (ret < 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleRestrictionType %s content\n",
node->name, NULL);
return (-1);
} else if (ret == 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_NOTSIMPLE,
"Element %s content is not a simple type\n",
node->name, NULL);
return (-1);
}
ctxt->type = type->subtypes;
xmlSchemaValidateContent(ctxt, node);
ctxt->type = type;
return (ret);
}
#endif
#if 0 /* Not used any more */
/**
* xmlSchemaValidateSimpleType:
* @ctxt: a schema validation context
* @node: the top node.
*
* Validate the content of an simple type.
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateSimpleType(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr node)
{
xmlNodePtr child;
xmlSchemaTypePtr type, base, variety;
xmlAttrPtr attr;
int ret;
xmlChar *value;
child = ctxt->node;
type = ctxt->type;
if ((ctxt == NULL) || (type == NULL)) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleType %s\n",
node->name, NULL);
return (-1);
}
/*
* Only text and text based entities references shall be found there
*/
ret = xmlSchemaValidateCheckNodeList(child);
if (ret < 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleType %s content\n",
node->name, NULL);
return (-1);
} else if (ret == 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_NOTSIMPLE,
"Element %s content is not a simple type\n",
node->name, NULL);
return (-1);
}
/*
* Validation Rule: Element Locally Valid (Type): 3.1.1
*/
attr = node->properties;
while (attr != NULL) {
if ((attr->ns == NULL) ||
(!xmlStrEqual(attr->ns->href, xmlSchemaInstanceNs)) ||
((!xmlStrEqual(attr->name, BAD_CAST "type")) &&
(!xmlStrEqual(attr->name, BAD_CAST "nil")) &&
(!xmlStrEqual(attr->name, BAD_CAST "schemasLocation")) &&
(!xmlStrEqual
(attr->name, BAD_CAST "noNamespaceSchemaLocation")))) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INVALIDATTR,
"Element %s: attribute %s should not be present\n",
node->name, attr->name);
return (ctxt->err);
}
}
/* TODO:
* If {variety} is ·atomic· then the {variety} of {base type definition}
* must be ·atomic·.
* If {variety} is ·list· then the {variety} of {item type definition}
* must be either ·atomic· or ·union·.
* If {variety} is ·union· then {member type definitions} must be a list
* of datatype definitions.
*/
if (type->subtypes == NULL) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleType; "
"simple type %s does not define a variety\n",
node->name, NULL);
return (ctxt->err);
}
/* Varieties: Restriction or List or Union. */
variety = type->subtypes;
ctxt->type = variety;
value = xmlNodeGetContent(child);
switch (variety->type) {
case XML_SCHEMA_TYPE_RESTRICTION:{
base = variety->baseType;
if (base != NULL) {
ret = xmlSchemaValidateSimpleValue(ctxt, base, value);
} else {
TODO}
/* Removed due to changes of attribute validation:
if ((ret == 0) && (variety->attributes != NULL)) {
ret = xmlSchemaValidateAttributes(ctxt, node,
variety->attributes);
}
*/
break;
}
case XML_SCHEMA_TYPE_LIST:
case XML_SCHEMA_TYPE_UNION: {
ret = xmlSchemaValidateSimpleValue(ctxt, variety, value);
break;
}
default:{
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleType; "
"simple type %s defines unknown content: %s\n",
variety->name, NULL);
ret = ctxt->err;
}
}
if ((ret == 0) && (variety->facetSet != NULL)) {
ret = xmlSchemaValidateFacets(ctxt, base, variety->facetSet, value);
}
if (value != NULL)
xmlFree(value);
/* This was removed, since a simple content is not a content of a
* simple type, but of a complex type.
* ret = xmlSchemaValidateSimpleContent(ctxt, node);
*/
ctxt->type = type;
return (ret);
}
#endif
/**
* xmlSchemaValidateSimpleTypeValue:
* @ctxt: a schema validation context
* @value: the value to be validated
* @fireErrors: shall errors be reported?
* @applyFacets: shall facets be applied?
*
* Validates a value by the given type (user derived or built-in).
*
* Returns 0 if the value is valid, a positive error code
* number otherwise and -1 in case of an internal or API error.
* Note on reported errors: Although it might be nice to report
* the name of the simple/complex type, used to validate the content
* of a node, it is quite unnecessary: for global defined types
* the local name of the element is equal to the NCName of the type,
* for local defined types it makes no sense to output the internal
* computed name of the type. TODO: Instead, one should attach the
* struct of the type involved to the error handler - this allows
* the report of any additional information by the user.
* TODO: Correct character normalization of union simple types.
*/
static int
xmlSchemaValidateSimpleTypeValue(xmlSchemaValidCtxtPtr ctxt,
const xmlChar *value,
int fireErrors,
int applyFacets)
{
xmlSchemaTypePtr type;
int ret = 0;
type = ctxt->type;
if (type->type == XML_SCHEMA_TYPE_BASIC) {
xmlNodePtr child;
if (ctxt->value != NULL) {
xmlSchemaFreeValue(ctxt->value);
ctxt->value = NULL;
}
child = ctxt->node;
while (child != NULL) {
switch (child->type) {
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_PI_NODE:
case XML_COMMENT_NODE:
case XML_XINCLUDE_START:
case XML_XINCLUDE_END:
break;
case XML_ENTITY_REF_NODE:
case XML_ENTITY_NODE:
TODO break;
case XML_ELEMENT_NODE:
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INVALIDELEM,
"Element \"%s\": child \"%s\" should not be present.\n",
ctxt->cur->name, child->name);
return (ctxt->err);
case XML_ATTRIBUTE_NODE:
case XML_DOCUMENT_NODE:
case XML_DOCUMENT_TYPE_NODE:
case XML_DOCUMENT_FRAG_NODE:
case XML_NOTATION_NODE:
case XML_HTML_DOCUMENT_NODE:
case XML_DTD_NODE:
case XML_ELEMENT_DECL:
case XML_ATTRIBUTE_DECL:
case XML_ENTITY_DECL:
case XML_NAMESPACE_DECL:
#ifdef LIBXML_DOCB_ENABLED
case XML_DOCB_DOCUMENT_NODE:
#endif
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INVALIDELEM,
"Element \"%s\": node type of node unexpected here.\n",
ctxt->cur->name, NULL);
return (ctxt->err);
}
child = child->next;
}
ret = xmlSchemaValPredefTypeNode(type, value, &(ctxt->value),
ctxt->cur);
if (ret > 0) {
if (type->flags & XML_SCHEMAS_TYPE_VARIETY_LIST)
ret = XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_2;
else
ret = XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1;
if (fireErrors) {
if (ctxt->cur->type == XML_ATTRIBUTE_NODE)
xmlSchemaVErr(ctxt, ctxt->cur,
XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1,
"The value of attribute \"%s\" is not valid.\n",
ctxt->cur->name, NULL);
else
xmlSchemaVErr(ctxt, ctxt->cur,
XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1,
"The value is not valid.\n",
NULL, NULL);
}
} else if (ret < 0) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeValue, "
"validating built-in type \"%s\"\n",
type->name, NULL);
}
} else if (type->flags & XML_SCHEMAS_TYPE_VARIETY_ATOMIC) {
/* 1.2.1 if {variety} is ·atomic· then the string must ·match·
* a literal in the ·lexical space· of {base type definition}
*/
ctxt->type = type->baseType;
ret = xmlSchemaValidateSimpleTypeValue(ctxt, value, 0, 0);
if (ret < 0) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeValue, "
"validating atomic simple type \"%s\"\n",
type->name, NULL);
} else if (ret > 0) {
ret = XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1;
if (fireErrors) {
xmlSchemaVErr(ctxt, ctxt->cur,
XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1,
"The value is not valid.\n",
NULL, NULL);
}
} else if ((applyFacets) &&
(type->facetSet != NULL)) {
xmlSchemaTypePtr builtIn;
/*
* Check facets. Be sure to pass the built-in type to
* xmlSchemaValidateFacetsInternal.
*/
builtIn = type->baseType;
while (builtIn->type != XML_SCHEMA_TYPE_BASIC)
builtIn = builtIn->baseType;
ret = xmlSchemaValidateFacetsInternal(ctxt, builtIn,
type->facetSet, value, fireErrors);
if (ret < 0) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeValue, "
"validating facets of atomic simple type \"%s\"\n",
type->name, NULL);
} else if (ret > 0) {
ret = XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1;
if (fireErrors) {
xmlSchemaVErr(ctxt, ctxt->cur,
XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1,
"The value is not valid.\n",
NULL, NULL);
}
}
}
} else if (type->flags & XML_SCHEMAS_TYPE_VARIETY_LIST) {
xmlSchemaTypePtr tmpType;
const xmlChar *cur, *end;
xmlChar *tmp;
int len = 0;
/* 1.2.2 if {variety} is ·list· then the string must be a sequence
* of white space separated tokens, each of which ·match·es a literal
* in the ·lexical space· of {item type definition}
*/
tmpType = xmlSchemaGetListSimpleTypeItemType(type);
cur = value;
do {
while (IS_BLANK_CH(*cur))
cur++;
end = cur;
while ((*end != 0) && (!(IS_BLANK_CH(*end))))
end++;
if (end == cur)
break;
tmp = xmlStrndup(cur, end - cur);
len++;
ctxt->type = tmpType;
ret = xmlSchemaValidateSimpleTypeValue(ctxt, tmp, 0, 1);
xmlFree(tmp);
if (ret > 0) {
ret = XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_2;
if (fireErrors) {
xmlSchemaVErr(ctxt, ctxt->cur,
XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_2,
"The value is not valid.\n",
NULL, NULL);
}
break;
} else if (ret < 0)
break;
cur = end;
} while (*cur != 0);
/*
* Check facets.
*/
if (ret < 0) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeValue, "
"validating list simple type \"%s\"\n",
type->name, NULL);
} else if ((ret == 0) && (applyFacets) &&
(type->facetSet != NULL)) {
int okFacet = 0, hasFacet = 0;
unsigned long expLen;
xmlSchemaFacetPtr facet;
xmlSchemaFacetLinkPtr facetLink;
xmlChar *collapsedValue = NULL;
/*
* The value of ·whiteSpace· is fixed to the value collapse.
*/
collapsedValue = xmlSchemaCollapseString((const xmlChar *) value);
if (collapsedValue != NULL)
value = (const xmlChar *) collapsedValue;
facetLink = type->facetSet;
do {
facet = facetLink->facet;
/*
* List types need a special facet treatment.
* Skip whiteSpace, since it is fixed to "collapse".
*/
if ((facet->type != XML_SCHEMA_FACET_WHITESPACE) &&
(facet->type != XML_SCHEMA_FACET_PATTERN)) {
ret = xmlSchemaValidateListSimpleTypeFacet(facet, value,
len, &expLen);
if (facet->type == XML_SCHEMA_FACET_ENUMERATION) {
hasFacet = 1;
if (ret == 0)
okFacet = 1;
} else if ((ret > 0) && (fireErrors)) {
char l[25], fl[25];
/* FIXME: What is the max expected string length of the
* length value?
*/
snprintf(l, 24, "%d", len);
snprintf(fl, 24, "%lu", expLen);
if (ret == XML_SCHEMAV_CVC_LENGTH_VALID) {
xmlSchemaVErr(ctxt, ctxt->cur, ret,
"The value with length \"%s\" is not "
"facet-valid with respect to length = \"%s\".\n",
(const xmlChar *)l, (const xmlChar *)fl);
} else if (ret == XML_SCHEMAV_CVC_MINLENGTH_VALID) {
xmlSchemaVErr(ctxt, ctxt->cur, ret,
"The value with length \"%s\" is not "
"facet-valid with respect to minLength = \"%s\".\n",
(const xmlChar *)l, (const xmlChar *)fl);
} else if (ret == XML_SCHEMAV_CVC_MAXLENGTH_VALID) {
xmlSchemaVErr(ctxt, ctxt->cur, ret,
"The value with length \"%s\" is not "
"facet-valid with respect to maxLength = \"%s\".\n",
(const xmlChar *)l, (const xmlChar *)fl);
} else {
xmlSchemaVErr(ctxt, ctxt->cur, ret,
"The value is not valid with respect "
"to the facet \"%s\".\n",
(const xmlChar *)
xmlSchemaFacetTypeToString(facet->type),
NULL);
}
} else if (ret < 0) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeValue, "
"validating facets of list simple type \"%s\"\n",
type->name, NULL);
break;
}
}
facetLink = facetLink->next;
} while (facetLink != NULL);
if (ret >= 0) {
if ((hasFacet) && (okFacet == 0)) {
ret = XML_SCHEMAV_CVC_ENUMERATION_VALID;
if (fireErrors) {
/*
* TODO: Try to create a report that outputs all the enumeration
* values in use.
*/
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAV_CVC_ENUMERATION_VALID,
"The value is not valid with respect "
"to the \"enumeration\" facet(s).\n",
NULL, NULL);
}
}
/*
* Pattern facets are ORed at type level and ANDed
* if derived. Walk the base axis.
*/
hasFacet = 0;
tmpType = type;
do {
okFacet = 0;
for (facetLink = tmpType->facetSet; facetLink != NULL;
facetLink = facetLink->next) {
if (facetLink->facet->type != XML_SCHEMA_FACET_PATTERN)
continue;
okFacet = xmlSchemaValidateListSimpleTypeFacet(
facetLink->facet, value, len, &expLen);
if (okFacet <= 0)
break;
}
if (okFacet != 0)
break;
tmpType = tmpType->baseType;
} while ((tmpType != NULL) && (tmpType->type != XML_SCHEMA_TYPE_BASIC));
if (okFacet < 0) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeValue, "
"validating \"pattern\" facets of type \"%s\"\n",
type->name, NULL);
} else if (okFacet > 0) {
ret = XML_SCHEMAV_CVC_PATTERN_VALID;
if (fireErrors) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAV_CVC_ENUMERATION_VALID,
"The value is not valid with respect "
"to the \"pattern\" facet(s) of type "
"\"%s\".\n",
tmpType->name, NULL);
}
}
}
if (collapsedValue != NULL)
xmlFree(collapsedValue);
}
} else if (type->flags & XML_SCHEMAS_TYPE_VARIETY_UNION) {
xmlSchemaTypeLinkPtr memberLink;
/*
* TODO: For all datatypes ·derived· by ·union· whiteSpace does
* not apply directly; however, the normalization behavior of ·union·
* types is controlled by the value of whiteSpace on that one of the
* ·memberTypes· against which the ·union· is successfully validated.
*
* This means that the value is normalized by the first validating
* member type, then the facets of the union type are applied. This
* needs changing of the value!
*/
/*
* 1.2.3 if {variety} is ·union· then the string must ·match· a
* literal in the ·lexical space· of at least one member of
* {member type definitions}
*/
memberLink = xmlSchemaGetUnionSimpleTypeMemberTypes(type);
if (memberLink == NULL) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeValue, "
"union simple type \"%s\" has no member types\n",
type->name, NULL);
ret = -1;
}
if (ret == 0) {
while (memberLink != NULL) {
ctxt->type = memberLink->type;
ret = xmlSchemaValidateSimpleTypeValue(ctxt, value, 0, 1);
if ((ret <= 0) || (ret == 0))
break;
memberLink = memberLink->next;
}
if (ret > 0) {
ret = XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_3;
if (fireErrors) {
xmlSchemaVErr(ctxt, ctxt->cur,
XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_3,
"The value is not valid.\n",
NULL, NULL);
}
} else if (ret < 0) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeValue, "
"validating members of union simple type \"%s\"\n",
type->name, NULL);
}
}
/*
* Apply facets (pattern, enumeration).
*/
if ((ret == 0) && (applyFacets) &&
(type->facetSet != NULL)) {
xmlSchemaTypePtr anySimpleType;
/*
* Check facets. Be sure to pass the built-in type (the
* simple ur-type in this case) to xmlSchemaValidateFacetsInternal.
*/
anySimpleType = type->baseType;
while (anySimpleType->type != XML_SCHEMA_TYPE_BASIC)
anySimpleType = anySimpleType->baseType;
ret = xmlSchemaValidateFacetsInternal(ctxt, anySimpleType,
type->facetSet, value, fireErrors);
if (ret < 0) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeValue, "
"validating facets of union simple type \"%s\"\n",
type->name, NULL);
} else if (ret > 0) {
ret = XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_3;
if (fireErrors) {
xmlSchemaVErr(ctxt, ctxt->cur,
XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1,
"The value is not valid.\n",
NULL, NULL);
}
}
}
}
ctxt->type = type;
return (ret);
}
/**
* xmlSchemaValidateSimpleTypeElement:
* @ctxt: a schema validation context
* @node: the element node to be validated.
*
* Validate the element against a simple type.
*
* Returns 0 if the element is valid, a positive error code
* number otherwise and -1 in case of an internal or API error.
*/
static int
xmlSchemaValidateSimpleTypeElement(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr node)
{
xmlNodePtr child;
xmlSchemaTypePtr type;
xmlAttrPtr attr;
int ret;
xmlChar *value;
child = ctxt->node;
type = ctxt->type;
if ((ctxt == NULL) || (type == NULL)) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeElement %s\n",
node->name, NULL);
return (-1);
}
/*
* Only text and text based entities references shall be found there
*/
ret = xmlSchemaValidateCheckNodeList(child);
if (ret < 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateSimpleTypeElement %s content\n",
node->name, NULL);
return (-1);
} else if (ret == 0) {
/* 3.1.2 The element information item must have no element
* information item [children].
*/
xmlSchemaVErr(ctxt, node, XML_SCHEMAV_CVC_TYPE_3_1_2,
"Element \"%s\" must have no element children.\n",
node->name, NULL);
return (-1);
}
/*
* Validation Rule: Element Locally Valid (Type): 3.1.1
*/
attr = node->properties;
while (attr != NULL) {
if ((attr->ns == NULL) ||
(!xmlStrEqual(attr->ns->href, xmlSchemaInstanceNs)) ||
((!xmlStrEqual(attr->name, BAD_CAST "type")) &&
(!xmlStrEqual(attr->name, BAD_CAST "nil")) &&
(!xmlStrEqual(attr->name, BAD_CAST "schemaLocation")) &&
(!xmlStrEqual
(attr->name, BAD_CAST "noNamespaceSchemaLocation")))) {
xmlSchemaVErr(ctxt, node,
XML_SCHEMAV_CVC_TYPE_3_1_1,
"The attributes of element \"%s\" must be empty, excepting "
"those whose namespace name is identical to "
"http://www.w3.org/2001/XMLSchema-instance and whose local "
"name is one of type, nil, schemaLocation or "
"noNamespaceSchemaLocation.\n",
node->name, attr->name);
return (ctxt->err);
}
attr = attr->next;
}
value = xmlNodeGetContent(child);
ret = xmlSchemaValidateSimpleTypeValue(ctxt, value, 1, 1);
if (value != NULL)
xmlFree(value);
ctxt->type = type;
return (ret);
}
/**
* xmlSchemaValidateElementType:
* @ctxt: a schema validation context
* @node: the top node.
*
* Validate the content of an element type.
* Validation Rule: Element Locally Valid (Complex Type)
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateElementType(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr node)
{
xmlNodePtr child;
xmlSchemaTypePtr type;
xmlRegExecCtxtPtr oldregexp; /* cont model of the parent */
xmlSchemaElementPtr decl;
int ret;
xmlSchemaAttrStatePtr attrs = NULL, attrTop = NULL;
/* This one is called by xmlSchemaValidateContent only. */
/*
* TODO: Look into "xmlSchemaValidateElement" for missing parts, which should
* go in here as well.
*/
/* TODO: Is this one called always with an element declaration as the
* context's type?
*/
oldregexp = ctxt->regexp;
child = ctxt->node;
type = ctxt->type;
if ((ctxt == NULL) || (type == NULL)) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateElementType\n",
node->name, NULL);
return (-1);
}
if (child == NULL) {
if (type->minOccurs > 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_MISSING,
"Element %s: missing child %s\n",
node->name, type->name);
}
return (ctxt->err);
}
/*
* Verify the element matches
*/
if (!xmlStrEqual(child->name, type->name)) {
xmlSchemaVErr3(ctxt, node, XML_SCHEMAS_ERR_WRONGELEM,
"Element %s: missing child %s found %s\n",
node->name, type->name, child->name);
return (ctxt->err);
}
/*
* Verify the attributes
*/
attrs = ctxt->attr;
attrTop = ctxt->attrTop;
xmlSchemaRegisterAttributes(ctxt, child->properties);
/*
* Verify the element content recursively
*/
decl = (xmlSchemaElementPtr) type;
oldregexp = ctxt->regexp;
if (decl->contModel != NULL) {
ctxt->regexp = xmlRegNewExecCtxt(decl->contModel,
(xmlRegExecCallbacks)
xmlSchemaValidateCallback, ctxt);
#ifdef DEBUG_AUTOMATA
xmlGenericError(xmlGenericErrorContext, "====> %s\n", node->name);
#endif
}
xmlSchemaValidateType(ctxt, child, (xmlSchemaElementPtr) type,
type->subtypes);
if (decl->contModel != NULL) {
ret = xmlRegExecPushString(ctxt->regexp, NULL, NULL);
#ifdef DEBUG_AUTOMATA
xmlGenericError(xmlGenericErrorContext,
"====> %s : %d\n", node->name, ret);
#endif
if (ret == 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_ELEMCONT,
"Element %s content check failed\n",
node->name, NULL);
} else if (ret < 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_ELEMCONT,
"Element %s content check failure\n",
node->name, NULL);
#ifdef DEBUG_CONTENT
} else {
xmlGenericError(xmlGenericErrorContext,
"Element %s content check succeeded\n",
node->name);
#endif
}
xmlRegFreeExecCtxt(ctxt->regexp);
}
/*
* Verify that all attributes were Schemas-validated
*/
xmlSchemaCheckAttributes(ctxt, node);
if (ctxt->attr != NULL)
xmlSchemaFreeAttributeStates(ctxt->attr);
ctxt->attr = attrs;
ctxt->attrTop = attrTop;
ctxt->regexp = oldregexp;
ctxt->node = child;
ctxt->type = type;
return (ctxt->err);
}
#if 0 /* Not currently used. */
/**
* xmlSchemaValidateBasicType:
* @ctxt: a schema validation context
* @node: the top node.
*
* Validate the content of an element expected to be a basic type type
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateBasicType(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr node)
{
int ret;
xmlNodePtr child, cur;
xmlSchemaTypePtr type;
xmlChar *value; /* lexical representation */
child = ctxt->node;
type = ctxt->type;
if ((ctxt == NULL) || (type == NULL)) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateBasicType\n",
node->name, NULL);
return (-1);
}
if (type->type != XML_SCHEMA_TYPE_BASIC) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateBasicType, "
"the given type is not a built-in type.\n",
node->name, NULL);
return (-1);
}
/*
* First check the content model of the node.
*/
cur = child;
while (cur != NULL) {
switch (cur->type) {
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_PI_NODE:
case XML_COMMENT_NODE:
case XML_XINCLUDE_START:
case XML_XINCLUDE_END:
break;
case XML_ENTITY_REF_NODE:
case XML_ENTITY_NODE:
TODO break;
case XML_ELEMENT_NODE:
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INVALIDELEM,
"Element %s: child %s should not be present\n",
node->name, cur->name);
return (ctxt->err);
case XML_ATTRIBUTE_NODE:
case XML_DOCUMENT_NODE:
case XML_DOCUMENT_TYPE_NODE:
case XML_DOCUMENT_FRAG_NODE:
case XML_NOTATION_NODE:
case XML_HTML_DOCUMENT_NODE:
case XML_DTD_NODE:
case XML_ELEMENT_DECL:
case XML_ATTRIBUTE_DECL:
case XML_ENTITY_DECL:
case XML_NAMESPACE_DECL:
#ifdef LIBXML_DOCB_ENABLED
case XML_DOCB_DOCUMENT_NODE:
#endif
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INVALIDELEM,
"Element %s: node type of node unexpected here\n",
node->name, NULL);
return (ctxt->err);
}
cur = cur->next;
}
if (child == NULL)
value = NULL;
else
value = xmlNodeGetContent(child->parent);
if (ctxt->value != NULL) {
xmlSchemaFreeValue(ctxt->value);
ctxt->value = NULL;
}
ret = xmlSchemaValidatePredefinedType(type, value, &(ctxt->value));
if (value != NULL)
xmlFree(value);
if (ret != 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_VALUE,
"Element %s: failed to validate basic type %s\n",
node->name, type->name);
}
return (ret);
}
#endif
/**
* xmlSchemaValidateComplexType:
* @ctxt: a schema validation context
* @node: the top node.
*
* Validate the content of an element expected to be a complex type type
* xmlschema-1.html#cvc-complex-type
* Validation Rule: Element Locally Valid (Complex Type)
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
* Note on reported errors: Although it might be nice to report
* the name of the simple/complex type, used to validate the content
* of a node, it is quite unnecessary: for global defined types
* the local name of the element is equal to the NCName of the type,
* for local defined types it makes no sense to output the internal
* computed name of the type. TODO: Instead, one should attach the
* struct of the type involved to the error handler - this allows
* the report of any additional information by the user.
*/
static int
xmlSchemaValidateComplexType(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr node)
{
xmlNodePtr child;
xmlSchemaTypePtr type;
int ret = 0;
child = ctxt->node;
type = ctxt->type;
ctxt->cur = node;
switch (type->contentType) {
case XML_SCHEMA_CONTENT_EMPTY: {
/*
* 1 If the {content type} is empty, then the element information
* item has no character or element information item [children].
*/
/* TODO: Hmm, Xerces reports nodes like Comment to be invalid
* content, but XSV does not.
*/
/*
* TODO: Is the entity stuff correct?
*/
while (child != NULL) {
if ((child->type == XML_ELEMENT_NODE) ||
/*
* TODO: Ask Daniel if this are all character nodes.
*/
(child->type == XML_TEXT_NODE) ||
(child->type == XML_CDATA_SECTION_NODE) ||
(child->type == XML_ENTITY_REF_NODE) ||
(child->type == XML_ENTITY_NODE)) {
break;
}
child = child->next;
}
if (child != NULL) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAV_CVC_COMPLEX_TYPE_2_1,
"Character or element children are not allowed, "
"because the content type is empty.\n",
NULL, NULL);
}
break;
}
case XML_SCHEMA_CONTENT_ELEMENTS:
case XML_SCHEMA_CONTENT_MIXED:
while (child != NULL) {
if (child->type == XML_ELEMENT_NODE) {
ret = xmlRegExecPushString(ctxt->regexp,
child->name, child);
#ifdef DEBUG_AUTOMATA
if (ret < 0)
xmlGenericError(xmlGenericErrorContext,
" --> %s Error\n", child->name);
else
xmlGenericError(xmlGenericErrorContext,
" --> %s\n", child->name);
#endif
} else if ((type->contentType == XML_SCHEMA_CONTENT_ELEMENTS) &&
/*
* TODO: Ask Daniel if this are all character nodes.
*/
(((child->type == XML_TEXT_NODE) && (!IS_BLANK_NODE(child))) ||
(child->type == XML_ENTITY_NODE) ||
(child->type == XML_ENTITY_REF_NODE) ||
(child->type == XML_CDATA_SECTION_NODE))) {
/*
* 2.3 If the {content type} is element-only, then the
* element information item has no character information
* item [children] other than those whose [character
* code] is defined as a white space in [XML 1.0 (Second
* Edition)].
*/
xmlSchemaVErr(ctxt, node, XML_SCHEMAV_CVC_COMPLEX_TYPE_2_3,
"Character children are not allowed, "
"because the content type is element-only.\n",
NULL, NULL);
break;
}
child = child->next;
}
break;
case XML_SCHEMA_CONTENT_SIMPLE:
case XML_SCHEMA_CONTENT_BASIC:{
xmlSchemaTypePtr base, anyType;
xmlChar *value = NULL;
/*
* We hit a complexType with a simpleContent resolving
* to a user derived or built-in simple type.
*/
anyType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYTYPE);
/*
* Internal check for integrity of the base type.
*/
base = type->baseType;
while ((base != NULL) &&
(base->type != XML_SCHEMA_TYPE_SIMPLE) &&
(base->type != XML_SCHEMA_TYPE_BASIC) &&
(base != anyType)) {
base = base->baseType;
}
if ((base == NULL) ||
(((type->contentType == XML_SCHEMA_CONTENT_SIMPLE) &&
(base->type != XML_SCHEMA_TYPE_SIMPLE)) ||
((type->contentType == XML_SCHEMA_CONTENT_BASIC) &&
(base->type != XML_SCHEMA_TYPE_BASIC)))) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateComplexType, "
"Element \"%s\": the base type of the corresponding "
"complex type \"%s\" is not a user derived or a "
"built-in simple type.\n",
node->name, type->name);
return (-1);
}
/*
* 2.2 If the {content type} is a simple type definition,
* then the element information item has no element
* information item [children], and the ·normalized value·
* of the element information item is ·valid· with respect
* to that simple type definition as defined by String
* Valid (§3.14.4).
*/
child = node->children;
while (child != NULL) {
if (child->type == XML_ELEMENT_NODE) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAV_CVC_COMPLEX_TYPE_2_2,
"Element children are not allowed, because "
"the content type is a simple type.\n",
NULL, NULL);
ret = XML_SCHEMAV_CVC_COMPLEX_TYPE_2_2;
break;
}
child = child->next;
}
if (ret == 0) {
/*
* Validate the character content against a simple type.
*/
if (ctxt->node == NULL)
value = NULL;
else
value = xmlNodeGetContent(node);
ctxt->type = base;
ret = xmlSchemaValidateSimpleTypeValue(ctxt, value, 1, 1);
ctxt->type = type;
if (ret > 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAV_CVC_COMPLEX_TYPE_2_2,
"The character value "
"is not valid with respect to the simple type.\n",
NULL, NULL);
ret = XML_SCHEMAV_CVC_COMPLEX_TYPE_2_2;
} else if (ret < 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateComplexType, "
"Element \"%s\": error while validating character "
"content against complex type \"%s\".\n",
node->name, type->name);
return (-1);
}
}
if (ret == 0) {
/*
* Apply facets of the complexType. Be sure to pass the
* built-in type to xmlSchemaValidateFacetsInternal.
*/
/* TODO: I don't know yet if the facets of the simple type
* are used, or if the facets, defined by this complex type,
* are to be used only. This here applies both facet sets.
*/
while (base->type != XML_SCHEMA_TYPE_BASIC)
base = base->baseType;
if (base == NULL) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateComplexType, "
"Element \"%s\": error while validating character "
"content against complex type \"%s\"; failed to "
"compute the built-in simple type for facet "
"validation.\n",
node->name, type->name);
return (-1);
}
ret = xmlSchemaValidateFacetsInternal(ctxt, base,
type->facetSet, value, 1);
if (ret > 0) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAV_CVC_COMPLEX_TYPE_2_2,
"The character value "
"is not valid with respect to the simple type.\n",
NULL, NULL);
ret = XML_SCHEMAV_CVC_COMPLEX_TYPE_2_2;
} else if (ret < 0) {
xmlSchemaVErr(ctxt, ctxt->cur, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateComplexType, "
"Element \"%s\": error while validating character "
"content against complex type \"%s\"; failed to "
"apply facets.\n",
type->name, NULL);
}
}
if (value != NULL)
xmlFree(value);
/* TODO: facets */
break;
}
/*
case XML_SCHEMA_CONTENT_SIMPLE:{
if (type->subtypes != NULL) {
ctxt->type = type->subtypes;
xmlSchemaValidateComplexType(ctxt, node);
}
if (type->baseType != NULL) {
ctxt->type = type->baseType;
xmlSchemaValidateComplexType(ctxt, node);
}
* Removed due to changes of attribute validation:
if (type->attributes != NULL) {
xmlSchemaValidateAttributes(ctxt, node,
type->attributes);
}
*
ctxt->type = type;
break;
}
*/
default:
TODO xmlGenericError(xmlGenericErrorContext,
"unimplemented content type %d\n",
type->contentType);
}
if (type->type == XML_SCHEMA_TYPE_COMPLEX) {
xmlSchemaValidateAttributes(ctxt, node, type);
}
ctxt->cur = node;
return (ctxt->err);
}
/**
* xmlSchemaValidateContent:
* @ctxt: a schema validation context
* @elem: an element
* @type: the type declaration
*
* Validate the content of an element against the type.
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateContent(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr node)
{
xmlNodePtr child;
xmlSchemaTypePtr type;
child = ctxt->node;
type = ctxt->type;
ctxt->cur = node;
ctxt->cur = node;
switch (type->type) {
case XML_SCHEMA_TYPE_ANY:
/* Any type will do it, fine */
TODO /* handle recursivity */
break;
case XML_SCHEMA_TYPE_COMPLEX:
xmlSchemaValidateComplexType(ctxt, node);
break;
case XML_SCHEMA_TYPE_ELEMENT:{
xmlSchemaElementPtr decl = (xmlSchemaElementPtr) type;
/*
* Handle element reference here
*/
if (decl->ref != NULL) {
if (decl->refDecl == NULL) {
xmlSchemaVErr(ctxt, node, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: element reference %s "
"not resolved\n", decl->ref, NULL);
return (-1);
}
ctxt->type = (xmlSchemaTypePtr) decl->refDecl;
decl = decl->refDecl;
}
/* TODO: Should "xmlSchemaValidateElement" be called instead? */
xmlSchemaValidateElementType(ctxt, node);
ctxt->type = type;
break;
}
case XML_SCHEMA_TYPE_BASIC:
case XML_SCHEMA_TYPE_SIMPLE:
xmlSchemaValidateSimpleTypeElement(ctxt, node);
break;
case XML_SCHEMA_TYPE_FACET:
TODO break;
case XML_SCHEMA_TYPE_SEQUENCE:
TODO break;
case XML_SCHEMA_TYPE_CHOICE:
TODO break;
case XML_SCHEMA_TYPE_ALL:
TODO break;
case XML_SCHEMA_TYPE_SIMPLE_CONTENT:
TODO break;
case XML_SCHEMA_TYPE_COMPLEX_CONTENT:
TODO break;
case XML_SCHEMA_TYPE_UR:
TODO break;
case XML_SCHEMA_TYPE_RESTRICTION:
/*xmlSchemaValidateRestrictionType(ctxt, node); */
TODO break;
case XML_SCHEMA_TYPE_EXTENSION:
TODO break;
case XML_SCHEMA_TYPE_ATTRIBUTE:
TODO break;
case XML_SCHEMA_TYPE_GROUP:
TODO break;
case XML_SCHEMA_TYPE_NOTATION:
TODO break;
case XML_SCHEMA_TYPE_LIST:
TODO break;
case XML_SCHEMA_TYPE_UNION:
TODO break;
case XML_SCHEMA_FACET_MININCLUSIVE:
TODO break;
case XML_SCHEMA_FACET_MINEXCLUSIVE:
TODO break;
case XML_SCHEMA_FACET_MAXINCLUSIVE:
TODO break;
case XML_SCHEMA_FACET_MAXEXCLUSIVE:
TODO break;
case XML_SCHEMA_FACET_TOTALDIGITS:
TODO break;
case XML_SCHEMA_FACET_FRACTIONDIGITS:
TODO break;
case XML_SCHEMA_FACET_PATTERN:
TODO break;
case XML_SCHEMA_FACET_ENUMERATION:
TODO break;
case XML_SCHEMA_FACET_WHITESPACE:
TODO break;
case XML_SCHEMA_FACET_LENGTH:
TODO break;
case XML_SCHEMA_FACET_MAXLENGTH:
TODO break;
case XML_SCHEMA_FACET_MINLENGTH:
TODO break;
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP:
TODO break;
case XML_SCHEMA_TYPE_ANY_ATTRIBUTE:
TODO break;
}
if (ctxt->node == NULL)
return (ctxt->err);
ctxt->node = ctxt->node->next;
ctxt->type = type->next;
return (ctxt->err);
}
/**
* xmlSchemaValidateType:
* @ctxt: a schema validation context
* @elem: an element
* @type: the list of type declarations
*
* Validate the content of an element against the types.
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateType(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr elem,
xmlSchemaElementPtr elemDecl, xmlSchemaTypePtr type)
{
xmlChar *nil;
if ((elem == NULL) || (type == NULL) || (elemDecl == NULL))
return (0);
/* This one is called by "xmlSchemaValidateElementType" and
* "xmlSchemaValidateElement".
*/
/*
* 3.3.4 : 2
*/
if (elemDecl->flags & XML_SCHEMAS_ELEM_ABSTRACT) {
xmlSchemaVErr(ctxt, elem, XML_SCHEMAS_ERR_ISABSTRACT,
"Element declaration %s is abstract\n",
elemDecl->name, NULL);
/* Changed, since the element declaration is abstract and not
* the element itself. */
/* xmlSchemaVErr(ctxt, elem, XML_SCHEMAS_ERR_ISABSTRACT,
"Element %s is abstract\n", elem->name, NULL); */
return (ctxt->err);
}
/*
* 3.3.4: 3
*/
nil = xmlGetNsProp(elem, BAD_CAST "nil", xmlSchemaInstanceNs);
if (elemDecl->flags & XML_SCHEMAS_ELEM_NILLABLE) {
/* 3.3.4: 3.2 */
if (xmlStrEqual(nil, BAD_CAST "true")) {
if (elem->children != NULL) {
xmlSchemaVErr(ctxt, elem, XML_SCHEMAS_ERR_NOTEMPTY,
"Element %s is not empty\n", elem->name, NULL);
return (ctxt->err);
}
if ((elemDecl->flags & XML_SCHEMAS_ELEM_FIXED) &&
(elemDecl->value != NULL)) {
xmlSchemaVErr(ctxt, elem, XML_SCHEMAS_ERR_HAVEDEFAULT,
"Empty element %s cannot get a fixed value\n",
elem->name, NULL);
return (ctxt->err);
}
}
} else {
/* 3.3.4: 3.1 */
if (nil != NULL) {
xmlSchemaVErr(ctxt, elem, XML_SCHEMAS_ERR_NOTNILLABLE,
"Element %s with xs:nil but not nillable\n",
elem->name, NULL);
xmlFree(nil);
return (ctxt->err);
}
}
/* TODO 3.3.4: 4 if the element carries xs:type */
ctxt->type = elemDecl->subtypes;
ctxt->node = elem->children;
xmlSchemaValidateContent(ctxt, elem);
return (ctxt->err);
}
/**
* xmlSchemaValidateAttributes:
* @ctxt: a schema validation context
* @elem: an element
* @type: the complexType holding the attribute uses
*
* Validate the attributes of an element.
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateAttributes(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr elem, xmlSchemaTypePtr type)
{
int ret;
xmlAttrPtr attr; /* An attribute on the element. */
xmlChar *value;
const xmlChar *nsURI;
xmlSchemaAttributeLinkPtr attrUse;
xmlSchemaAttributePtr attrDecl;
int found;
xmlSchemaAttrStatePtr curState, reqAttrStates = NULL, reqAttrStatesTop = NULL;
#ifdef DEBUG_ATTR_VALIDATION
int redundant = 0;
#endif
if (type->type != XML_SCHEMA_TYPE_COMPLEX) {
xmlSchemaVErr(ctxt, elem, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: xmlSchemaValidateAttributes: "
"given type \"%s\"is not a complexType\n",
type->name, NULL);
return(-1);
}
if ((type->attributeUses == NULL) && (type->attributeWildcard == NULL))
return (0);
attrUse = type->attributeUses;
while (attrUse != NULL) {
found = 0;
attrDecl = attrUse->attr;
#ifdef DEBUG_ATTR_VALIDATION
printf("attr use - name: %s\n", xmlSchemaGetOnymousAttrName(attrDecl));
printf("attr use - use: %d\n", attrDecl->occurs);
#endif
for (curState = ctxt->attr; curState != NULL; curState = curState->next) {
if (curState->decl == attrUse->attr) {
#ifdef DEBUG_ATTR_VALIDATION
redundant = 1;
#endif
}
attr = curState->attr;
#ifdef DEBUG_ATTR_VALIDATION
printf("attr - name: %s\n", attr->name);
if (attr->ns != NULL)
printf("attr - ns: %s\n", attr->ns->href);
else
printf("attr - ns: none\n");
#endif
/* TODO: Can this ever happen? */
if (attr == NULL)
continue;
if (attrDecl->ref != NULL) {
if (!xmlStrEqual(attr->name, attrDecl->ref))
continue;
if (attr->ns != NULL) {
if ((attrDecl->refNs == NULL) ||
(!xmlStrEqual(attr->ns->href, attrDecl->refNs)))
continue;
} else if (attrDecl->refNs != NULL) {
continue;
}
} else {
if (!xmlStrEqual(attr->name, attrDecl->name))
continue;
/*
* handle the namespaces checks here
*/
if (attr->ns == NULL) {
/*
* accept an unqualified attribute only if the target
* namespace of the declaration is absent.
*/
if (attrDecl->targetNamespace != NULL)
/*
* This check was removed, since the target namespace
* was evaluated during parsing and already took
* "attributeFormDefault" into account.
*/
/* ((attributes->flags & XML_SCHEMAS_ATTR_NSDEFAULT) == 0)) */
continue;
} else {
if (attrDecl->targetNamespace == NULL)
continue;
if (!xmlStrEqual(attrDecl->targetNamespace,
attr->ns->href))
continue;
}
}
#ifdef DEBUG_ATTR_VALIDATION
printf("found\n");
#endif
found = 1;
ctxt->cur = (xmlNodePtr) attr;
ctxt->node = attr->children;
if (attrDecl->subtypes == NULL) {
curState->state = XML_SCHEMAS_ATTR_TYPE_NOT_RESOLVED;
curState->decl = attrDecl;
/*
* This could be put into "xmlSchemaCheckAttributes" as well, but
* since it reports an internal error, it better stays here to ease
* debugging.
*/
xmlSchemaVErr(ctxt, (xmlNodePtr) attr, XML_SCHEMAS_ERR_INTERNAL,
"Internal error: attribute %s type not resolved\n",
attr->name, NULL);
continue;
}
value = xmlNodeListGetString(elem->doc, attr->children, 1);
ctxt->type = attrDecl->subtypes;
ret = xmlSchemaValidateSimpleTypeValue(ctxt, value, 0, 1);
ctxt->type = type;
if (ret != 0)
curState->state = XML_SCHEMAS_ATTR_INVALID_VALUE;
else
curState->state = XML_SCHEMAS_ATTR_CHECKED;
curState->decl = attrDecl;
if (value != NULL) {
xmlFree(value);
}
}
if ((!found) && (attrDecl->occurs == XML_SCHEMAS_ATTR_USE_REQUIRED)) {
xmlSchemaAttrStatePtr tmp;
#ifdef DEBUG_ATTR_VALIDATION
printf("required attr not found\n");
#endif
/*
* Add a new dummy attribute state.
*/
tmp = (xmlSchemaAttrStatePtr) xmlMalloc(sizeof(xmlSchemaAttrState));
if (tmp == NULL) {
xmlSchemaVErrMemory(ctxt, "registering required attributes", NULL);
return (-1);
}
tmp->attr = NULL;
tmp->state = XML_SCHEMAS_ATTR_MISSING;
tmp->decl = attrDecl;
tmp->next = NULL;
if (reqAttrStates == NULL) {
reqAttrStates = tmp;
reqAttrStatesTop = tmp;
} else {
reqAttrStatesTop->next = tmp;
reqAttrStatesTop = tmp;
}
}
attrUse = attrUse->next;
}
/*
* Add required attributes to the attribute states of the context.
*/
if (reqAttrStates != NULL) {
if (ctxt->attr == NULL) {
ctxt->attr = reqAttrStates;
} else {
ctxt->attrTop->next = reqAttrStates;
}
ctxt->attrTop = reqAttrStatesTop;
}
/*
* Process wildcards.
*/
if (type->attributeWildcard != NULL) {
#ifdef DEBUG_ATTR_VALIDATION
xmlSchemaWildcardNsPtr ns;
printf("matching wildcard: [%d] of complexType: %s\n", type->attributeWildcard, type->name);
if (type->attributeWildcard->processContents ==
XML_SCHEMAS_ANY_LAX)
printf("processContents: lax\n");
else if (type->attributeWildcard->processContents ==
XML_SCHEMAS_ANY_STRICT)
printf("processContents: strict\n");
else
printf("processContents: skip\n");
if (type->attributeWildcard->any)
printf("type: any\n");
else if (type->attributeWildcard->negNsSet != NULL) {
printf("type: negated\n");
if (type->attributeWildcard->negNsSet->value == NULL)
printf("ns: (absent)\n");
else
printf("ns: %s\n", type->attributeWildcard->negNsSet->value);
} else if (type->attributeWildcard->nsSet != NULL) {
printf("type: set\n");
ns = type->attributeWildcard->nsSet;
while (ns != NULL) {
if (ns->value == NULL)
printf("ns: (absent)\n");
else
printf("ns: %s\n", ns->value);
ns = ns->next;
}
} else
printf("empty\n");
#endif
curState = ctxt->attr;
while (curState != NULL) {
if (curState->state == XML_SCHEMAS_ATTR_UNKNOWN) {
if (curState->attr->ns != NULL)
nsURI = curState->attr->ns->href;
else
nsURI = NULL;
if (xmlSchemaMatchesWildcardNs(type->attributeWildcard,
nsURI)) {
/*
* Handle processContents.
*/
if ((type->attributeWildcard->processContents ==
XML_SCHEMAS_ANY_LAX) ||
(type->attributeWildcard->processContents ==
XML_SCHEMAS_ANY_STRICT)) {
attr = curState->attr;
attrDecl = xmlSchemaGetAttribute(ctxt->schema,
attr->name, nsURI);
if (attrDecl != NULL) {
value = xmlNodeListGetString(elem->doc, attr->children, 1);
ctxt->type = attrDecl->subtypes;
ret = xmlSchemaValidateSimpleTypeValue(ctxt, value, 1, 1);
ctxt->type = type;
if (ret != 0)
curState->state = XML_SCHEMAS_ATTR_INVALID_VALUE;
else
curState->state = XML_SCHEMAS_ATTR_CHECKED;
curState->decl = attrDecl;
if (value != NULL) {
xmlFree(value);
}
} else if (type->attributeWildcard->processContents ==
XML_SCHEMAS_ANY_LAX) {
curState->state = XML_SCHEMAS_ATTR_CHECKED;
}
} else
curState->state = XML_SCHEMAS_ATTR_CHECKED;
}
}
curState = curState->next;
}
}
#ifdef DEBUG_ATTR_VALIDATION
if (redundant)
xmlGenericError(xmlGenericErrorContext,
"xmlSchemaValidateAttributes: redundant call by type: %s\n",
type->name);
#endif
return (ctxt->err);
}
/**
* xmlSchemaValidateElement:
* @ctxt: a schema validation context
* @elem: an element
*
* Validate an element in a tree
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateElement(xmlSchemaValidCtxtPtr ctxt, xmlNodePtr elem)
{
xmlSchemaElementPtr elemDecl;
int ret;
xmlSchemaAttrStatePtr attrs, attrTop;
if (elem->ns != NULL) {
elemDecl = xmlHashLookup3(ctxt->schema->elemDecl,
elem->name, elem->ns->href, NULL);
} else {
elemDecl = xmlHashLookup3(ctxt->schema->elemDecl,
elem->name, NULL, NULL);
}
/* This one is called by xmlSchemaValidateDocument only. */
/*
* 3.3.4 : 1
*/
if (elemDecl == NULL) {
xmlSchemaVErr(ctxt, elem, XML_SCHEMAS_ERR_UNDECLAREDELEM,
"Element %s not declared\n", elem->name, NULL);
return (ctxt->err);
}
if (elemDecl->subtypes == NULL) {
xmlSchemaVErr(ctxt, elem, XML_SCHEMAS_ERR_NOTYPE,
"Element %s has no type\n", elem->name, NULL);
return (ctxt->err);
}
/*
* Verify the attributes
*/
attrs = ctxt->attr;
attrTop = ctxt->attrTop;
xmlSchemaRegisterAttributes(ctxt, elem->properties);
/*
* Verify the element content recursively
*/
if (elemDecl->contModel != NULL) {
ctxt->regexp = xmlRegNewExecCtxt(elemDecl->contModel,
(xmlRegExecCallbacks)
xmlSchemaValidateCallback, ctxt);
#ifdef DEBUG_AUTOMATA
xmlGenericError(xmlGenericErrorContext, "====> %s\n", elem->name);
#endif
}
xmlSchemaValidateType(ctxt, elem, elemDecl, elemDecl->subtypes);
if (elemDecl->contModel != NULL) {
ret = xmlRegExecPushString(ctxt->regexp, NULL, NULL);
#ifdef DEBUG_AUTOMATA
xmlGenericError(xmlGenericErrorContext,
"====> %s : %d\n", elem->name, ret);
#endif
if (ret == 0) {
xmlSchemaVErr(ctxt, elem, XML_SCHEMAS_ERR_ELEMCONT,
"Element %s content check failed\n",
elem->name, NULL);
} else if (ret < 0) {
xmlSchemaVErr(ctxt, elem, XML_SCHEMAS_ERR_ELEMCONT,
"Element %s content check failed\n",
elem->name, NULL);
#ifdef DEBUG_CONTENT
} else {
xmlGenericError(xmlGenericErrorContext,
"Element %s content check succeeded\n",
elem->name);
#endif
}
xmlRegFreeExecCtxt(ctxt->regexp);
}
/*
* Verify that all attributes were Schemas-validated
*/
xmlSchemaCheckAttributes(ctxt, elem);
if (ctxt->attr != NULL)
xmlSchemaFreeAttributeStates(ctxt->attr);
ctxt->attr = attrs;
ctxt->attrTop = attrTop;
return (ctxt->err);
}
/**
* xmlSchemaValidateDocument:
* @ctxt: a schema validation context
* @doc: a parsed document tree
*
* Validate a document tree in memory.
*
* Returns 0 if the document is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateDocument(xmlSchemaValidCtxtPtr ctxt, xmlDocPtr doc)
{
xmlNodePtr root;
xmlSchemaElementPtr elemDecl;
root = xmlDocGetRootElement(doc);
if (root == NULL) {
xmlSchemaVErr(ctxt, (xmlNodePtr) doc, XML_SCHEMAS_ERR_NOROOT,
"document has no root\n", NULL, NULL);
return (ctxt->err);
}
if (root->ns != NULL)
elemDecl = xmlHashLookup3(ctxt->schema->elemDecl,
root->name, root->ns->href, NULL);
else
elemDecl = xmlHashLookup3(ctxt->schema->elemDecl,
root->name, NULL, NULL);
/*
* special case whe elementFormDefault is unqualified for top-level elem.
*/
/* Removed, since elementFormDefault does not apply to top level
* elements */
/*
if ((elemDecl == NULL) && (root->ns != NULL) &&
(xmlStrEqual(ctxt->schema->targetNamespace, root->ns->href)) &&
((ctxt->schema->flags & XML_SCHEMAS_QUALIF_ELEM) == 0)) {
elemDecl = xmlHashLookup3(ctxt->schema->elemDecl,
root->name, NULL, NULL);
}
*/
if (elemDecl == NULL) {
xmlSchemaVErr(ctxt, root, XML_SCHEMAS_ERR_UNDECLAREDELEM,
"Element %s not declared\n", root->name, NULL);
} else if ((elemDecl->flags & XML_SCHEMAS_ELEM_GLOBAL) == 0) {
xmlSchemaVErr(ctxt, root, XML_SCHEMAS_ERR_NOTTOPLEVEL,
"Root element %s not global\n", root->name, NULL);
}
/*
* Okay, start the recursive validation
*/
xmlSchemaValidateElement(ctxt, root);
return (ctxt->err);
}
/************************************************************************
* *
* SAX Validation code *
* *
************************************************************************/
/************************************************************************
* *
* Validation interfaces *
* *
************************************************************************/
/**
* xmlSchemaNewValidCtxt:
* @schema: a precompiled XML Schemas
*
* Create an XML Schemas validation context based on the given schema
*
* Returns the validation context or NULL in case of error
*/
xmlSchemaValidCtxtPtr
xmlSchemaNewValidCtxt(xmlSchemaPtr schema)
{
xmlSchemaValidCtxtPtr ret;
ret = (xmlSchemaValidCtxtPtr) xmlMalloc(sizeof(xmlSchemaValidCtxt));
if (ret == NULL) {
xmlSchemaVErrMemory(NULL, "allocating validation context", NULL);
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaValidCtxt));
ret->schema = schema;
/*
* Removed due to changes of the attribute state list.
*/
/* ret->attrNr = 0; */
/* ret->attrMax = 10; */
/* ret->attrBase = NULL; */
ret->attrTop = NULL;
ret->attr = NULL;
/*
* Removed due to changes of the attribute state list.
*
ret->attr = (xmlSchemaAttrStatePtr) xmlMalloc(ret->attrMax *
sizeof
(xmlSchemaAttrState));
if (ret->attr == NULL) {
xmlSchemaVErrMemory(NULL, "allocating validation context", NULL);
free(ret);
return (NULL);
}
memset(ret->attr, 0, ret->attrMax * sizeof(xmlSchemaAttrState));
*/
return (ret);
}
/**
* xmlSchemaFreeValidCtxt:
* @ctxt: the schema validation context
*
* Free the resources associated to the schema validation context
*/
void
xmlSchemaFreeValidCtxt(xmlSchemaValidCtxtPtr ctxt)
{
if (ctxt == NULL)
return;
if (ctxt->attr != NULL)
xmlSchemaFreeAttributeStates(ctxt->attr);
if (ctxt->value != NULL)
xmlSchemaFreeValue(ctxt->value);
xmlFree(ctxt);
}
/**
* xmlSchemaSetValidErrors:
* @ctxt: a schema validation context
* @err: the error function
* @warn: the warning function
* @ctx: the functions context
*
* Set the error and warning callback informations
*/
void
xmlSchemaSetValidErrors(xmlSchemaValidCtxtPtr ctxt,
xmlSchemaValidityErrorFunc err,
xmlSchemaValidityWarningFunc warn, void *ctx)
{
if (ctxt == NULL)
return;
ctxt->error = err;
ctxt->warning = warn;
ctxt->userData = ctx;
}
/**
* xmlSchemaValidateDoc:
* @ctxt: a schema validation context
* @doc: a parsed document tree
*
* Validate a document tree in memory.
*
* Returns 0 if the document is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
int
xmlSchemaValidateDoc(xmlSchemaValidCtxtPtr ctxt, xmlDocPtr doc)
{
int ret;
if ((ctxt == NULL) || (doc == NULL))
return (-1);
ctxt->doc = doc;
ret = xmlSchemaValidateDocument(ctxt, doc);
return (ret);
}
/**
* xmlSchemaValidateStream:
* @ctxt: a schema validation context
* @input: the input to use for reading the data
* @enc: an optional encoding information
* @sax: a SAX handler for the resulting events
* @user_data: the context to provide to the SAX handler.
*
* Validate a document tree in memory.
*
* Returns 0 if the document is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
int
xmlSchemaValidateStream(xmlSchemaValidCtxtPtr ctxt,
xmlParserInputBufferPtr input, xmlCharEncoding enc,
xmlSAXHandlerPtr sax, void *user_data)
{
if ((ctxt == NULL) || (input == NULL))
return (-1);
ctxt->input = input;
ctxt->enc = enc;
ctxt->sax = sax;
ctxt->user_data = user_data;
TODO return (0);
}
#endif /* LIBXML_SCHEMAS_ENABLED */