/* * relaxng.c : implementation of the Relax-NG handling and validity checking * * See Copyright for the status of this software. * * Daniel Veillard */ /** * TODO: * - error reporting * - simplification of the resulting compiled trees: * - NOT_ALLOWED * - EMPTY * - handle namespace declarations as attributes. * - add support for DTD compatibility spec * http://www.oasis-open.org/committees/relax-ng/compatibility-20011203.html */ #define IN_LIBXML #include "libxml.h" #ifdef LIBXML_SCHEMAS_ENABLED #include #include #include #include #include #include #include #include #include #include #include #include /* * The Relax-NG namespace */ static const xmlChar *xmlRelaxNGNs = (const xmlChar *) "http://relaxng.org/ns/structure/1.0"; #define IS_RELAXNG(node, type) \ ((node != NULL) && (node->ns != NULL) && \ (xmlStrEqual(node->name, (const xmlChar *) type)) && \ (xmlStrEqual(node->ns->href, xmlRelaxNGNs))) /* #define DEBUG 1 */ /* very verbose output */ /* #define DEBUG_CONTENT 1 */ /* #define DEBUG_TYPE 1 */ /* #define DEBUG_VALID 1 */ /* #define DEBUG_INTERLEAVE 1 */ /* #define DEBUG_LIST 1 */ #define UNBOUNDED (1 << 30) #define TODO \ xmlGenericError(xmlGenericErrorContext, \ "Unimplemented block at %s:%d\n", \ __FILE__, __LINE__); typedef struct _xmlRelaxNGSchema xmlRelaxNGSchema; typedef xmlRelaxNGSchema *xmlRelaxNGSchemaPtr; typedef struct _xmlRelaxNGDefine xmlRelaxNGDefine; typedef xmlRelaxNGDefine *xmlRelaxNGDefinePtr; typedef struct _xmlRelaxNGDocument xmlRelaxNGDocument; typedef xmlRelaxNGDocument *xmlRelaxNGDocumentPtr; typedef struct _xmlRelaxNGInclude xmlRelaxNGInclude; typedef xmlRelaxNGInclude *xmlRelaxNGIncludePtr; typedef enum { XML_RELAXNG_COMBINE_UNDEFINED = 0, /* undefined */ XML_RELAXNG_COMBINE_CHOICE, /* choice */ XML_RELAXNG_COMBINE_INTERLEAVE /* interleave */ } xmlRelaxNGCombine; typedef enum { XML_RELAXNG_CONTENT_ERROR = -1, XML_RELAXNG_CONTENT_EMPTY = 0, XML_RELAXNG_CONTENT_SIMPLE, XML_RELAXNG_CONTENT_COMPLEX } xmlRelaxNGContentType; typedef struct _xmlRelaxNGGrammar xmlRelaxNGGrammar; typedef xmlRelaxNGGrammar *xmlRelaxNGGrammarPtr; struct _xmlRelaxNGGrammar { xmlRelaxNGGrammarPtr parent;/* the parent grammar if any */ xmlRelaxNGGrammarPtr children;/* the children grammar if any */ xmlRelaxNGGrammarPtr next; /* the next grammar if any */ xmlRelaxNGDefinePtr start; /* content */ xmlRelaxNGCombine combine; /* the default combine value */ xmlRelaxNGDefinePtr startList;/* list of definitions */ xmlHashTablePtr defs; /* define* */ xmlHashTablePtr refs; /* references */ }; typedef enum { XML_RELAXNG_NOOP = -1, /* a no operation from simplification */ XML_RELAXNG_EMPTY = 0, /* an empty pattern */ XML_RELAXNG_NOT_ALLOWED, /* not allowed top */ XML_RELAXNG_EXCEPT, /* except present in nameclass defs */ XML_RELAXNG_TEXT, /* textual content */ XML_RELAXNG_ELEMENT, /* an element */ XML_RELAXNG_DATATYPE, /* extenal data type definition */ XML_RELAXNG_PARAM, /* extenal data type parameter */ XML_RELAXNG_VALUE, /* value from an extenal data type definition */ XML_RELAXNG_LIST, /* a list of patterns */ XML_RELAXNG_ATTRIBUTE, /* an attrbute following a pattern */ XML_RELAXNG_DEF, /* a definition */ XML_RELAXNG_REF, /* reference to a definition */ XML_RELAXNG_EXTERNALREF, /* reference to an external def */ XML_RELAXNG_PARENTREF, /* reference to a def in the parent grammar */ XML_RELAXNG_OPTIONAL, /* optional patterns */ XML_RELAXNG_ZEROORMORE, /* zero or more non empty patterns */ XML_RELAXNG_ONEORMORE, /* one or more non empty patterns */ XML_RELAXNG_CHOICE, /* a choice between non empty patterns */ XML_RELAXNG_GROUP, /* a pair/group of non empty patterns */ XML_RELAXNG_INTERLEAVE, /* interleaving choice of non-empty patterns */ XML_RELAXNG_START /* Used to keep track of starts on grammars */ } xmlRelaxNGType; struct _xmlRelaxNGDefine { xmlRelaxNGType type; /* the type of definition */ xmlNodePtr node; /* the node in the source */ xmlChar *name; /* the element local name if present */ xmlChar *ns; /* the namespace local name if present */ xmlChar *value; /* value when available */ void *data; /* data lib or specific pointer */ int depth; /* used for the cycle detection */ xmlRelaxNGDefinePtr content;/* the expected content */ xmlRelaxNGDefinePtr parent; /* the parent definition, if any */ xmlRelaxNGDefinePtr next; /* list within grouping sequences */ xmlRelaxNGDefinePtr attrs; /* list of attributes for elements */ xmlRelaxNGDefinePtr nameClass;/* the nameClass definition if any */ xmlRelaxNGDefinePtr nextHash;/* next define in defs/refs hash tables */ }; /** * _xmlRelaxNG: * * A RelaxNGs definition */ struct _xmlRelaxNG { xmlRelaxNGGrammarPtr topgrammar; xmlDocPtr doc; xmlHashTablePtr defs; /* define */ xmlHashTablePtr refs; /* references */ xmlHashTablePtr documents; /* all the documents loaded */ xmlHashTablePtr includes; /* all the includes loaded */ int defNr; /* number of defines used */ xmlRelaxNGDefinePtr *defTab;/* pointer to the allocated definitions */ void *_private; /* unused by the library for users or bindings */ }; typedef enum { XML_RELAXNG_ERR_OK = 0, XML_RELAXNG_ERR_NOROOT = 1, XML_RELAXNG_ERR_ } xmlRelaxNGValidError; #define XML_RELAXNG_IN_ATTRIBUTE (1 << 0) #define XML_RELAXNG_IN_ONEORMORE (1 << 1) #define XML_RELAXNG_IN_LIST (1 << 2) #define XML_RELAXNG_IN_DATAEXCEPT (1 << 3) #define XML_RELAXNG_IN_START (1 << 4) #define XML_RELAXNG_IN_OOMGROUP (1 << 5) #define XML_RELAXNG_IN_OOMINTERLEAVE (1 << 6) #define XML_RELAXNG_IN_EXTERNALREF (1 << 7) #define XML_RELAXNG_IN_ANYEXCEPT (1 << 8) #define XML_RELAXNG_IN_NSEXCEPT (1 << 9) struct _xmlRelaxNGParserCtxt { void *userData; /* user specific data block */ xmlRelaxNGValidityErrorFunc error; /* the callback in case of errors */ xmlRelaxNGValidityWarningFunc warning;/* the callback in case of warning */ xmlRelaxNGValidError err; xmlRelaxNGPtr schema; /* The schema in use */ xmlRelaxNGGrammarPtr grammar; /* the current grammar */ xmlRelaxNGGrammarPtr parentgrammar;/* the parent grammar */ int flags; /* parser flags */ int nbErrors; /* number of errors at parse time */ int nbWarnings; /* number of warnings at parse time */ const xmlChar *define; /* the current define scope */ xmlRelaxNGDefinePtr def; /* the current define */ int nbInterleaves; xmlHashTablePtr interleaves; /* keep track of all the interleaves */ xmlHashTablePtr documents; /* all the documents loaded */ xmlHashTablePtr includes; /* all the includes loaded */ xmlChar *URL; xmlDocPtr document; int defNr; /* number of defines used */ int defMax; /* number of defines aloocated */ xmlRelaxNGDefinePtr *defTab; /* pointer to the allocated definitions */ const char *buffer; int size; /* the document stack */ xmlRelaxNGDocumentPtr doc; /* Current parsed external ref */ int docNr; /* Depth of the parsing stack */ int docMax; /* Max depth of the parsing stack */ xmlRelaxNGDocumentPtr *docTab; /* array of docs */ /* the include stack */ xmlRelaxNGIncludePtr inc; /* Current parsed include */ int incNr; /* Depth of the include parsing stack */ int incMax; /* Max depth of the parsing stack */ xmlRelaxNGIncludePtr *incTab; /* array of incs */ }; #define FLAGS_IGNORABLE 1 #define FLAGS_NEGATIVE 2 /** * xmlRelaxNGInterleaveGroup: * * A RelaxNGs partition set associated to lists of definitions */ typedef struct _xmlRelaxNGInterleaveGroup xmlRelaxNGInterleaveGroup; typedef xmlRelaxNGInterleaveGroup *xmlRelaxNGInterleaveGroupPtr; struct _xmlRelaxNGInterleaveGroup { xmlRelaxNGDefinePtr rule; /* the rule to satisfy */ xmlRelaxNGDefinePtr *defs; /* the array of element definitions */ xmlRelaxNGDefinePtr *attrs; /* the array of attributes definitions */ }; /** * xmlRelaxNGPartitions: * * A RelaxNGs partition associated to an interleave group */ typedef struct _xmlRelaxNGPartition xmlRelaxNGPartition; typedef xmlRelaxNGPartition *xmlRelaxNGPartitionPtr; struct _xmlRelaxNGPartition { int nbgroups; /* number of groups in the partitions */ xmlRelaxNGInterleaveGroupPtr *groups; }; /** * xmlRelaxNGValidState: * * A RelaxNGs validation state */ #define MAX_ATTR 20 typedef struct _xmlRelaxNGValidState xmlRelaxNGValidState; typedef xmlRelaxNGValidState *xmlRelaxNGValidStatePtr; struct _xmlRelaxNGValidState { xmlNodePtr node; /* the current node */ xmlNodePtr seq; /* the sequence of children left to validate */ int nbAttrs; /* the number of attributes */ int nbAttrLeft; /* the number of attributes left to validate */ xmlChar *value; /* the value when operating on string */ xmlChar *endvalue; /* the end value when operating on string */ xmlAttrPtr attrs[1]; /* the array of attributes */ }; /** * xmlRelaxNGValidCtxt: * * A RelaxNGs validation context */ struct _xmlRelaxNGValidCtxt { void *userData; /* user specific data block */ xmlRelaxNGValidityErrorFunc error; /* the callback in case of errors */ xmlRelaxNGValidityWarningFunc warning;/* the callback in case of warning */ xmlRelaxNGPtr schema; /* The schema in use */ xmlDocPtr doc; /* the document being validated */ xmlRelaxNGValidStatePtr state; /* the current validation state */ int flags; /* validation flags */ int depth; /* validation depth */ }; /** * xmlRelaxNGInclude: * * Structure associated to a RelaxNGs document element */ struct _xmlRelaxNGInclude { xmlChar *href; /* the normalized href value */ xmlDocPtr doc; /* the associated XML document */ xmlRelaxNGDefinePtr content;/* the definitions */ xmlRelaxNGPtr schema; /* the schema */ }; /** * xmlRelaxNGDocument: * * Structure associated to a RelaxNGs document element */ struct _xmlRelaxNGDocument { xmlChar *href; /* the normalized href value */ xmlDocPtr doc; /* the associated XML document */ xmlRelaxNGDefinePtr content;/* the definitions */ xmlRelaxNGPtr schema; /* the schema */ }; /************************************************************************ * * * Preliminary type checking interfaces * * * ************************************************************************/ /** * xmlRelaxNGTypeHave: * @data: data needed for the library * @type: the type name * @value: the value to check * * Function provided by a type library to check if a type is exported * * Returns 1 if yes, 0 if no and -1 in case of error. */ typedef int (*xmlRelaxNGTypeHave) (void *data, const xmlChar *type); /** * xmlRelaxNGTypeCheck: * @data: data needed for the library * @type: the type name * @value: the value to check * * Function provided by a type library to check if a value match a type * * Returns 1 if yes, 0 if no and -1 in case of error. */ typedef int (*xmlRelaxNGTypeCheck) (void *data, const xmlChar *type, const xmlChar *value); /** * xmlRelaxNGTypeCompare: * @data: data needed for the library * @type: the type name * @value1: the first value * @value2: the second value * * Function provided by a type library to compare two values accordingly * to a type. * * Returns 1 if yes, 0 if no and -1 in case of error. */ typedef int (*xmlRelaxNGTypeCompare) (void *data, const xmlChar *type, const xmlChar *value1, const xmlChar *value2); typedef struct _xmlRelaxNGTypeLibrary xmlRelaxNGTypeLibrary; typedef xmlRelaxNGTypeLibrary *xmlRelaxNGTypeLibraryPtr; struct _xmlRelaxNGTypeLibrary { const xmlChar *namespace; /* the datatypeLibrary value */ void *data; /* data needed for the library */ xmlRelaxNGTypeHave have; /* the export function */ xmlRelaxNGTypeCheck check; /* the checking function */ xmlRelaxNGTypeCompare comp; /* the compare function */ }; /************************************************************************ * * * Allocation functions * * * ************************************************************************/ static void xmlRelaxNGFreeGrammar(xmlRelaxNGGrammarPtr grammar); static void xmlRelaxNGFreeDefine(xmlRelaxNGDefinePtr define); static void xmlRelaxNGNormExtSpace(xmlChar *value); /** * xmlRelaxNGFreeDocument: * @docu: a document structure * * Deallocate a RelaxNG document structure. */ static void xmlRelaxNGFreeDocument(xmlRelaxNGDocumentPtr docu) { if (docu == NULL) return; if (docu->href != NULL) xmlFree(docu->href); if (docu->doc != NULL) xmlFreeDoc(docu->doc); if (docu->schema != NULL) xmlRelaxNGFree(docu->schema); xmlFree(docu); } /** * xmlRelaxNGFreeInclude: * @incl: a include structure * * Deallocate a RelaxNG include structure. */ static void xmlRelaxNGFreeInclude(xmlRelaxNGIncludePtr incl) { if (incl == NULL) return; if (incl->href != NULL) xmlFree(incl->href); if (incl->doc != NULL) xmlFreeDoc(incl->doc); if (incl->schema != NULL) xmlRelaxNGFree(incl->schema); xmlFree(incl); } /** * xmlRelaxNGNewRelaxNG: * @ctxt: a Relax-NG validation context (optional) * * Allocate a new RelaxNG structure. * * Returns the newly allocated structure or NULL in case or error */ static xmlRelaxNGPtr xmlRelaxNGNewRelaxNG(xmlRelaxNGParserCtxtPtr ctxt) { xmlRelaxNGPtr ret; ret = (xmlRelaxNGPtr) xmlMalloc(sizeof(xmlRelaxNG)); if (ret == NULL) { if ((ctxt != NULL) && (ctxt->error != NULL)) ctxt->error(ctxt->userData, "Out of memory\n"); ctxt->nbErrors++; return (NULL); } memset(ret, 0, sizeof(xmlRelaxNG)); return (ret); } /** * xmlRelaxNGFree: * @schema: a schema structure * * Deallocate a RelaxNG structure. */ void xmlRelaxNGFree(xmlRelaxNGPtr schema) { if (schema == NULL) return; if (schema->topgrammar != NULL) xmlRelaxNGFreeGrammar(schema->topgrammar); if (schema->doc != NULL) xmlFreeDoc(schema->doc); if (schema->documents != NULL) xmlHashFree(schema->documents, (xmlHashDeallocator) xmlRelaxNGFreeDocument); if (schema->includes != NULL) xmlHashFree(schema->includes, (xmlHashDeallocator) xmlRelaxNGFreeInclude); if (schema->defTab != NULL) { int i; for (i = 0;i < schema->defNr;i++) xmlRelaxNGFreeDefine(schema->defTab[i]); xmlFree(schema->defTab); } xmlFree(schema); } /** * xmlRelaxNGNewGrammar: * @ctxt: a Relax-NG validation context (optional) * * Allocate a new RelaxNG grammar. * * Returns the newly allocated structure or NULL in case or error */ static xmlRelaxNGGrammarPtr xmlRelaxNGNewGrammar(xmlRelaxNGParserCtxtPtr ctxt) { xmlRelaxNGGrammarPtr ret; ret = (xmlRelaxNGGrammarPtr) xmlMalloc(sizeof(xmlRelaxNGGrammar)); if (ret == NULL) { if ((ctxt != NULL) && (ctxt->error != NULL)) ctxt->error(ctxt->userData, "Out of memory\n"); ctxt->nbErrors++; return (NULL); } memset(ret, 0, sizeof(xmlRelaxNGGrammar)); return (ret); } /** * xmlRelaxNGFreeGrammar: * @grammar: a grammar structure * * Deallocate a RelaxNG grammar structure. */ static void xmlRelaxNGFreeGrammar(xmlRelaxNGGrammarPtr grammar) { if (grammar == NULL) return; if (grammar->next != NULL) { xmlRelaxNGFreeGrammar(grammar->next); } if (grammar->refs != NULL) { xmlHashFree(grammar->refs, NULL); } if (grammar->defs != NULL) { xmlHashFree(grammar->defs, NULL); } xmlFree(grammar); } /** * xmlRelaxNGNewDefine: * @ctxt: a Relax-NG validation context * @node: the node in the input document. * * Allocate a new RelaxNG define. * * Returns the newly allocated structure or NULL in case or error */ static xmlRelaxNGDefinePtr xmlRelaxNGNewDefine(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGDefinePtr ret; if (ctxt->defMax == 0) { ctxt->defMax = 16; ctxt->defNr = 0; ctxt->defTab = (xmlRelaxNGDefinePtr *) xmlMalloc(ctxt->defMax * sizeof(xmlRelaxNGDefinePtr)); if (ctxt->defTab == NULL) { if ((ctxt != NULL) && (ctxt->error != NULL)) ctxt->error(ctxt->userData, "Out of memory\n"); ctxt->nbErrors++; return (NULL); } } else if (ctxt->defMax <= ctxt->defNr) { xmlRelaxNGDefinePtr *tmp; ctxt->defMax *= 2; tmp = (xmlRelaxNGDefinePtr *) xmlRealloc(ctxt->defTab, ctxt->defMax * sizeof(xmlRelaxNGDefinePtr)); if (tmp == NULL) { if ((ctxt != NULL) && (ctxt->error != NULL)) ctxt->error(ctxt->userData, "Out of memory\n"); ctxt->nbErrors++; return (NULL); } ctxt->defTab = tmp; } ret = (xmlRelaxNGDefinePtr) xmlMalloc(sizeof(xmlRelaxNGDefine)); if (ret == NULL) { if ((ctxt != NULL) && (ctxt->error != NULL)) ctxt->error(ctxt->userData, "Out of memory\n"); ctxt->nbErrors++; return(NULL); } memset(ret, 0, sizeof(xmlRelaxNGDefine)); ctxt->defTab[ctxt->defNr++] = ret; ret->node = node; ret->depth = -1; return (ret); } /** * xmlRelaxNGFreePartition: * @partitions: a partition set structure * * Deallocate RelaxNG partition set structures. */ static void xmlRelaxNGFreePartition(xmlRelaxNGPartitionPtr partitions) { xmlRelaxNGInterleaveGroupPtr group; int j; if (partitions != NULL) { if (partitions->groups != NULL) { for (j = 0;j < partitions->nbgroups;j++) { group = partitions->groups[j]; if (group != NULL) { if (group->defs != NULL) xmlFree(group->defs); if (group->attrs != NULL) xmlFree(group->attrs); xmlFree(group); } } xmlFree(partitions->groups); } xmlFree(partitions); } } /** * xmlRelaxNGFreeDefine: * @define: a define structure * * Deallocate a RelaxNG define structure. */ static void xmlRelaxNGFreeDefine(xmlRelaxNGDefinePtr define) { if (define == NULL) return; if ((define->data != NULL) && (define->type == XML_RELAXNG_INTERLEAVE)) xmlRelaxNGFreePartition((xmlRelaxNGPartitionPtr) define->data); if (define->name != NULL) xmlFree(define->name); if (define->ns != NULL) xmlFree(define->ns); if (define->value != NULL) xmlFree(define->value); xmlFree(define); } /** * xmlRelaxNGNewValidState: * @ctxt: a Relax-NG validation context * @node: the current node or NULL for the document * * Allocate a new RelaxNG validation state * * Returns the newly allocated structure or NULL in case or error */ static xmlRelaxNGValidStatePtr xmlRelaxNGNewValidState(xmlRelaxNGValidCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGValidStatePtr ret; xmlAttrPtr attr; xmlAttrPtr attrs[MAX_ATTR]; int nbAttrs = 0; xmlNodePtr root = NULL; if (node == NULL) { root = xmlDocGetRootElement(ctxt->doc); if (root == NULL) return(NULL); } else { attr = node->properties; while (attr != NULL) { if (nbAttrs < MAX_ATTR) attrs[nbAttrs++] = attr; else nbAttrs++; attr = attr->next; } } if (nbAttrs < MAX_ATTR) attrs[nbAttrs] = NULL; ret = (xmlRelaxNGValidStatePtr) xmlMalloc(sizeof(xmlRelaxNGValidState) + nbAttrs * sizeof(xmlAttrPtr)); if (ret == NULL) { if ((ctxt != NULL) && (ctxt->error != NULL)) ctxt->error(ctxt->userData, "Out of memory\n"); return (NULL); } ret->value = NULL; ret->endvalue = NULL; if (node == NULL) { ret->node = (xmlNodePtr) ctxt->doc; ret->seq = root; ret->nbAttrs = 0; } else { ret->node = node; ret->seq = node->children; ret->nbAttrs = nbAttrs; if (nbAttrs > 0) { if (nbAttrs < MAX_ATTR) { memcpy(&(ret->attrs[0]), attrs, sizeof(xmlAttrPtr) * (nbAttrs + 1)); } else { attr = node->properties; nbAttrs = 0; while (attr != NULL) { ret->attrs[nbAttrs++] = attr; attr = attr->next; } ret->attrs[nbAttrs] = NULL; } } } ret->nbAttrLeft = ret->nbAttrs; return (ret); } /** * xmlRelaxNGCopyValidState: * @ctxt: a Relax-NG validation context * @state: a validation state * * Copy the validation state * * Returns the newly allocated structure or NULL in case or error */ static xmlRelaxNGValidStatePtr xmlRelaxNGCopyValidState(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGValidStatePtr state) { xmlRelaxNGValidStatePtr ret; unsigned int size; if (state == NULL) return(NULL); size = sizeof(xmlRelaxNGValidState) + state->nbAttrs * sizeof(xmlAttrPtr); ret = (xmlRelaxNGValidStatePtr) xmlMalloc(size); if (ret == NULL) { if ((ctxt != NULL) && (ctxt->error != NULL)) ctxt->error(ctxt->userData, "Out of memory\n"); return (NULL); } memcpy(ret, state, size); return(ret); } /** * xmlRelaxNGEqualValidState: * @ctxt: a Relax-NG validation context * @state1: a validation state * @state2: a validation state * * Compare the validation states for equality * * Returns 1 if equald, 0 otherwise */ static int xmlRelaxNGEqualValidState(xmlRelaxNGValidCtxtPtr ctxt ATTRIBUTE_UNUSED, xmlRelaxNGValidStatePtr state1, xmlRelaxNGValidStatePtr state2) { int i; if ((state1 == NULL) || (state2 == NULL)) return(0); if (state1 == state2) return(1); if (state1->node != state2->node) return(0); if (state1->seq != state2->seq) return(0); if (state1->nbAttrLeft != state2->nbAttrLeft) return(0); if (state1->nbAttrs != state2->nbAttrs) return(0); if (state1->endvalue != state2->endvalue) return(0); if ((state1->value != state2->value) && (!xmlStrEqual(state1->value, state2->value))) return(0); for (i = 0;i < state1->nbAttrs;i++) { if (state1->attrs[i] != state2->attrs[i]) return(0); } return(1); } /** * xmlRelaxNGFreeValidState: * @state: a validation state structure * * Deallocate a RelaxNG validation state structure. */ static void xmlRelaxNGFreeValidState(xmlRelaxNGValidStatePtr state) { if (state == NULL) return; xmlFree(state); } /************************************************************************ * * * Document functions * * * ************************************************************************/ static xmlDocPtr xmlRelaxNGCleanupDoc(xmlRelaxNGParserCtxtPtr ctxt, xmlDocPtr doc); /** * xmlRelaxNGIncludePush: * @ctxt: the parser context * @value: the element doc * * Pushes a new include on top of the include stack * * Returns 0 in case of error, the index in the stack otherwise */ static int xmlRelaxNGIncludePush(xmlRelaxNGParserCtxtPtr ctxt, xmlRelaxNGIncludePtr value) { if (ctxt->incTab == NULL) { ctxt->incMax = 4; ctxt->incNr = 0; ctxt->incTab = (xmlRelaxNGIncludePtr *) xmlMalloc( ctxt->incMax * sizeof(ctxt->incTab[0])); if (ctxt->incTab == NULL) { xmlGenericError(xmlGenericErrorContext, "malloc failed !\n"); return (0); } } if (ctxt->incNr >= ctxt->incMax) { ctxt->incMax *= 2; ctxt->incTab = (xmlRelaxNGIncludePtr *) xmlRealloc(ctxt->incTab, ctxt->incMax * sizeof(ctxt->incTab[0])); if (ctxt->incTab == NULL) { xmlGenericError(xmlGenericErrorContext, "realloc failed !\n"); return (0); } } ctxt->incTab[ctxt->incNr] = value; ctxt->inc = value; return (ctxt->incNr++); } /** * xmlRelaxNGIncludePop: * @ctxt: the parser context * * Pops the top include from the include stack * * Returns the include just removed */ static xmlRelaxNGIncludePtr xmlRelaxNGIncludePop(xmlRelaxNGParserCtxtPtr ctxt) { xmlRelaxNGIncludePtr ret; if (ctxt->incNr <= 0) return (0); ctxt->incNr--; if (ctxt->incNr > 0) ctxt->inc = ctxt->incTab[ctxt->incNr - 1]; else ctxt->inc = NULL; ret = ctxt->incTab[ctxt->incNr]; ctxt->incTab[ctxt->incNr] = 0; return (ret); } /** * xmlRelaxNGLoadInclude: * @ctxt: the parser context * @URL: the normalized URL * @node: the include node. * @ns: the namespace passed from the context. * * First lookup if the document is already loaded into the parser context, * check against recursion. If not found the resource is loaded and * the content is preprocessed before being returned back to the caller. * * Returns the xmlRelaxNGIncludePtr or NULL in case of error */ static xmlRelaxNGIncludePtr xmlRelaxNGLoadInclude(xmlRelaxNGParserCtxtPtr ctxt, const xmlChar *URL, xmlNodePtr node, const xmlChar *ns) { xmlRelaxNGIncludePtr ret = NULL; xmlDocPtr doc; int i; xmlNodePtr root, tmp, tmp2, cur; /* * check against recursion in the stack */ for (i = 0;i < ctxt->incNr;i++) { if (xmlStrEqual(ctxt->incTab[i]->href, URL)) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Detected an externalRef recursion for %s\n", URL); ctxt->nbErrors++; return(NULL); } } /* * Lookup in the hash table */ if (ctxt->includes == NULL) { ctxt->includes = xmlHashCreate(10); if (ctxt->includes == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to allocate hash table for document\n"); ctxt->nbErrors++; return(NULL); } } else { if (ns == NULL) ret = xmlHashLookup2(ctxt->includes, BAD_CAST "", URL); else ret = xmlHashLookup2(ctxt->includes, ns, URL); if (ret != NULL) return(ret); } /* * load the document */ doc = xmlParseFile((const char *) URL); if (doc == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNG: could not load %s\n", URL); ctxt->nbErrors++; return (NULL); } /* * Allocate the document structures and register it first. */ ret = (xmlRelaxNGIncludePtr) xmlMalloc(sizeof(xmlRelaxNGInclude)); if (ret == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNG: allocate memory for doc %s\n", URL); ctxt->nbErrors++; xmlFreeDoc(doc); return (NULL); } memset(ret, 0, sizeof(xmlRelaxNGInclude)); ret->doc = doc; ret->href = xmlStrdup(URL); /* * transmit the ns if needed */ if (ns != NULL) { root = xmlDocGetRootElement(doc); if (root != NULL) { if (xmlHasProp(root, BAD_CAST"ns") == NULL) { xmlSetProp(root, BAD_CAST"ns", ns); } } } /* * push it on the stack and register it in the hash table */ if (ns == NULL) xmlHashAddEntry2(ctxt->includes, BAD_CAST "", URL, ret); else xmlHashAddEntry2(ctxt->includes, ns, URL, ret); xmlRelaxNGIncludePush(ctxt, ret); /* * Some preprocessing of the document content, this include recursing * in the include stack. */ doc = xmlRelaxNGCleanupDoc(ctxt, doc); if (doc == NULL) { ctxt->inc = NULL; return(NULL); } /* * Pop up the include from the stack */ xmlRelaxNGIncludePop(ctxt); /* * Check that the top element is a grammar */ root = xmlDocGetRootElement(doc); if (root == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNG: included document is empty %s\n", URL); ctxt->nbErrors++; return (NULL); } if (!IS_RELAXNG(root, "grammar")) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNG: included document %s root is not a grammar\n", URL); ctxt->nbErrors++; return (NULL); } /* * Elimination of redefined rules in the include. */ cur = node->children; while (cur != NULL) { if (IS_RELAXNG(cur, "start")) { int found = 0; tmp = root->children; while (tmp != NULL) { tmp2 = tmp->next; if (IS_RELAXNG(tmp, "start")) { found = 1; xmlUnlinkNode(tmp); xmlFreeNode(tmp); } tmp = tmp2; } if (!found) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNG: include %s has a start but not the included grammar\n", URL); ctxt->nbErrors++; } } else if (IS_RELAXNG(cur, "define")) { xmlChar *name, *name2; name = xmlGetProp(cur, BAD_CAST "name"); if (name == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNG: include %s has define without name\n", URL); ctxt->nbErrors++; } else { int found = 0; xmlRelaxNGNormExtSpace(name); tmp = root->children; while (tmp != NULL) { tmp2 = tmp->next; if (IS_RELAXNG(tmp, "define")) { name2 = xmlGetProp(tmp, BAD_CAST "name"); xmlRelaxNGNormExtSpace(name2); if (name2 != NULL) { if (xmlStrEqual(name, name2)) { found = 1; xmlUnlinkNode(tmp); xmlFreeNode(tmp); } xmlFree(name2); } } tmp = tmp2; } if (!found) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNG: include %s has a define %s but not the included grammar\n", URL, name); ctxt->nbErrors++; } xmlFree(name); } } cur = cur->next; } return(ret); } /** * xmlRelaxNGDocumentPush: * @ctxt: the parser context * @value: the element doc * * Pushes a new doc on top of the doc stack * * Returns 0 in case of error, the index in the stack otherwise */ static int xmlRelaxNGDocumentPush(xmlRelaxNGParserCtxtPtr ctxt, xmlRelaxNGDocumentPtr value) { if (ctxt->docTab == NULL) { ctxt->docMax = 4; ctxt->docNr = 0; ctxt->docTab = (xmlRelaxNGDocumentPtr *) xmlMalloc( ctxt->docMax * sizeof(ctxt->docTab[0])); if (ctxt->docTab == NULL) { xmlGenericError(xmlGenericErrorContext, "malloc failed !\n"); return (0); } } if (ctxt->docNr >= ctxt->docMax) { ctxt->docMax *= 2; ctxt->docTab = (xmlRelaxNGDocumentPtr *) xmlRealloc(ctxt->docTab, ctxt->docMax * sizeof(ctxt->docTab[0])); if (ctxt->docTab == NULL) { xmlGenericError(xmlGenericErrorContext, "realloc failed !\n"); return (0); } } ctxt->docTab[ctxt->docNr] = value; ctxt->doc = value; return (ctxt->docNr++); } /** * xmlRelaxNGDocumentPop: * @ctxt: the parser context * * Pops the top doc from the doc stack * * Returns the doc just removed */ static xmlRelaxNGDocumentPtr xmlRelaxNGDocumentPop(xmlRelaxNGParserCtxtPtr ctxt) { xmlRelaxNGDocumentPtr ret; if (ctxt->docNr <= 0) return (0); ctxt->docNr--; if (ctxt->docNr > 0) ctxt->doc = ctxt->docTab[ctxt->docNr - 1]; else ctxt->doc = NULL; ret = ctxt->docTab[ctxt->docNr]; ctxt->docTab[ctxt->docNr] = 0; return (ret); } /** * xmlRelaxNGLoadExternalRef: * @ctxt: the parser context * @URL: the normalized URL * @ns: the inherited ns if any * * First lookup if the document is already loaded into the parser context, * check against recursion. If not found the resource is loaded and * the content is preprocessed before being returned back to the caller. * * Returns the xmlRelaxNGDocumentPtr or NULL in case of error */ static xmlRelaxNGDocumentPtr xmlRelaxNGLoadExternalRef(xmlRelaxNGParserCtxtPtr ctxt, const xmlChar *URL, const xmlChar *ns) { xmlRelaxNGDocumentPtr ret = NULL; xmlDocPtr doc; xmlNodePtr root; int i; /* * check against recursion in the stack */ for (i = 0;i < ctxt->docNr;i++) { if (xmlStrEqual(ctxt->docTab[i]->href, URL)) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Detected an externalRef recursion for %s\n", URL); ctxt->nbErrors++; return(NULL); } } /* * Lookup in the hash table */ if (ctxt->documents == NULL) { ctxt->documents = xmlHashCreate(10); if (ctxt->documents == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to allocate hash table for document\n"); ctxt->nbErrors++; return(NULL); } } else { if (ns == NULL) ret = xmlHashLookup2(ctxt->documents, BAD_CAST "", URL); else ret = xmlHashLookup2(ctxt->documents, ns, URL); if (ret != NULL) return(ret); } /* * load the document */ doc = xmlParseFile((const char *) URL); if (doc == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNG: could not load %s\n", URL); ctxt->nbErrors++; return (NULL); } /* * Allocate the document structures and register it first. */ ret = (xmlRelaxNGDocumentPtr) xmlMalloc(sizeof(xmlRelaxNGDocument)); if (ret == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNG: allocate memory for doc %s\n", URL); ctxt->nbErrors++; xmlFreeDoc(doc); return (NULL); } memset(ret, 0, sizeof(xmlRelaxNGDocument)); ret->doc = doc; ret->href = xmlStrdup(URL); /* * transmit the ns if needed */ if (ns != NULL) { root = xmlDocGetRootElement(doc); if (root != NULL) { if (xmlHasProp(root, BAD_CAST"ns") == NULL) { xmlSetProp(root, BAD_CAST"ns", ns); } } } /* * push it on the stack and register it in the hash table */ if (ns == NULL) xmlHashAddEntry2(ctxt->documents, BAD_CAST "", URL, ret); else xmlHashAddEntry2(ctxt->documents, ns, URL, ret); xmlRelaxNGDocumentPush(ctxt, ret); /* * Some preprocessing of the document content */ doc = xmlRelaxNGCleanupDoc(ctxt, doc); if (doc == NULL) { ctxt->doc = NULL; return(NULL); } xmlRelaxNGDocumentPop(ctxt); return(ret); } /************************************************************************ * * * Error functions * * * ************************************************************************/ #define VALID_CTXT() \ if (((ctxt->flags & 1) == 0) || (ctxt->flags & 2)) \ xmlGenericError(xmlGenericErrorContext, \ "error detected at %s:%d\n", \ __FILE__, __LINE__); #define VALID_ERROR(a) \ if (((ctxt->flags & 1) == 0) || (ctxt->flags & 2)) \ if (ctxt->error != NULL) ctxt->error(ctxt->userData, a) #define VALID_ERROR2(a, b) \ if (((ctxt->flags & 1) == 0) || (ctxt->flags & 2)) \ if (ctxt->error != NULL) ctxt->error(ctxt->userData, a, b) #define VALID_ERROR3(a, b, c) \ if (((ctxt->flags & 1) == 0) || (ctxt->flags & 2)) \ if (ctxt->error != NULL) ctxt->error(ctxt->userData, a, b, c) #ifdef DEBUG static const char * xmlRelaxNGDefName(xmlRelaxNGDefinePtr def) { if (def == NULL) return("none"); switch(def->type) { case XML_RELAXNG_EMPTY: return("empty"); case XML_RELAXNG_NOT_ALLOWED: return("notAllowed"); case XML_RELAXNG_EXCEPT: return("except"); case XML_RELAXNG_TEXT: return("text"); case XML_RELAXNG_ELEMENT: return("element"); case XML_RELAXNG_DATATYPE: return("datatype"); case XML_RELAXNG_VALUE: return("value"); case XML_RELAXNG_LIST: return("list"); case XML_RELAXNG_ATTRIBUTE: return("attribute"); case XML_RELAXNG_DEF: return("def"); case XML_RELAXNG_REF: return("ref"); case XML_RELAXNG_EXTERNALREF: return("externalRef"); case XML_RELAXNG_PARENTREF: return("parentRef"); case XML_RELAXNG_OPTIONAL: return("optional"); case XML_RELAXNG_ZEROORMORE: return("zeroOrMore"); case XML_RELAXNG_ONEORMORE: return("oneOrMore"); case XML_RELAXNG_CHOICE: return("choice"); case XML_RELAXNG_GROUP: return("group"); case XML_RELAXNG_INTERLEAVE: return("interleave"); case XML_RELAXNG_START: return("start"); } return("unknown"); } #endif #if 0 /** * xmlRelaxNGErrorContext: * @ctxt: the parsing context * @schema: the schema being built * @node: the node being processed * @child: the child being processed * * Dump a RelaxNGType structure */ static void xmlRelaxNGErrorContext(xmlRelaxNGParserCtxtPtr ctxt, xmlRelaxNGPtr schema, xmlNodePtr node, xmlNodePtr child) { int line = 0; const xmlChar *file = NULL; const xmlChar *name = NULL; const char *type = "error"; if ((ctxt == NULL) || (ctxt->error == NULL)) return; if (child != NULL) node = child; if (node != NULL) { if ((node->type == XML_DOCUMENT_NODE) || (node->type == XML_HTML_DOCUMENT_NODE)) { xmlDocPtr doc = (xmlDocPtr) node; file = doc->URL; } else { /* * Try to find contextual informations to report */ if (node->type == XML_ELEMENT_NODE) { line = (int) node->content; } else if ((node->prev != NULL) && (node->prev->type == XML_ELEMENT_NODE)) { line = (int) node->prev->content; } else if ((node->parent != NULL) && (node->parent->type == XML_ELEMENT_NODE)) { line = (int) node->parent->content; } if ((node->doc != NULL) && (node->doc->URL != NULL)) file = node->doc->URL; if (node->name != NULL) name = node->name; } } if (ctxt != NULL) type = "compilation error"; else if (schema != NULL) type = "runtime error"; if ((file != NULL) && (line != 0) && (name != NULL)) ctxt->error(ctxt->userData, "%s: file %s line %d element %s\n", type, file, line, name); else if ((file != NULL) && (name != NULL)) ctxt->error(ctxt->userData, "%s: file %s element %s\n", type, file, name); else if ((file != NULL) && (line != 0)) ctxt->error(ctxt->userData, "%s: file %s line %d\n", type, file, line); else if (file != NULL) ctxt->error(ctxt->userData, "%s: file %s\n", type, file); else if (name != NULL) ctxt->error(ctxt->userData, "%s: element %s\n", type, name); else ctxt->error(ctxt->userData, "%s\n", type); } #endif /************************************************************************ * * * Type library hooks * * * ************************************************************************/ static xmlChar *xmlRelaxNGNormalize(xmlRelaxNGValidCtxtPtr ctxt, const xmlChar *str); /** * xmlRelaxNGSchemaTypeHave: * @data: data needed for the library * @type: the type name * * Check if the given type is provided by * the W3C XMLSchema Datatype library. * * Returns 1 if yes, 0 if no and -1 in case of error. */ static int xmlRelaxNGSchemaTypeHave(void *data ATTRIBUTE_UNUSED, const xmlChar *type) { xmlSchemaTypePtr typ; if (type == NULL) return(-1); typ = xmlSchemaGetPredefinedType(type, BAD_CAST "http://www.w3.org/2001/XMLSchema"); if (typ == NULL) return(0); return(1); } /** * xmlRelaxNGSchemaTypeCheck: * @data: data needed for the library * @type: the type name * @value: the value to check * * Check if the given type and value are validated by * the W3C XMLSchema Datatype library. * * Returns 1 if yes, 0 if no and -1 in case of error. */ static int xmlRelaxNGSchemaTypeCheck(void *data ATTRIBUTE_UNUSED, const xmlChar *type, const xmlChar *value) { xmlSchemaTypePtr typ; int ret; /* * TODO: the type should be cached ab provided back, interface subject * to changes. * TODO: handle facets, may require an additional interface and keep * the value returned from the validation. */ if ((type == NULL) || (value == NULL)) return(-1); typ = xmlSchemaGetPredefinedType(type, BAD_CAST "http://www.w3.org/2001/XMLSchema"); if (typ == NULL) return(-1); ret = xmlSchemaValidatePredefinedType(typ, value, NULL); if (ret == 0) return(1); if (ret > 0) return(0); return(-1); } /** * xmlRelaxNGSchemaTypeCompare: * @data: data needed for the library * @type: the type name * @value1: the first value * @value2: the second value * * Compare two values accordingly a type from the W3C XMLSchema * Datatype library. * * Returns 1 if yes, 0 if no and -1 in case of error. */ static int xmlRelaxNGSchemaTypeCompare(void *data ATTRIBUTE_UNUSED, const xmlChar *type ATTRIBUTE_UNUSED, const xmlChar *value1 ATTRIBUTE_UNUSED, const xmlChar *value2 ATTRIBUTE_UNUSED) { TODO return(1); } /** * xmlRelaxNGDefaultTypeHave: * @data: data needed for the library * @type: the type name * * Check if the given type is provided by * the default datatype library. * * Returns 1 if yes, 0 if no and -1 in case of error. */ static int xmlRelaxNGDefaultTypeHave(void *data ATTRIBUTE_UNUSED, const xmlChar *type) { if (type == NULL) return(-1); if (xmlStrEqual(type, BAD_CAST "string")) return(1); if (xmlStrEqual(type, BAD_CAST "token")) return(1); return(0); } /** * xmlRelaxNGDefaultTypeCheck: * @data: data needed for the library * @type: the type name * @value: the value to check * * Check if the given type and value are validated by * the default datatype library. * * Returns 1 if yes, 0 if no and -1 in case of error. */ static int xmlRelaxNGDefaultTypeCheck(void *data ATTRIBUTE_UNUSED, const xmlChar *type ATTRIBUTE_UNUSED, const xmlChar *value ATTRIBUTE_UNUSED) { if (value == NULL) return(-1); if (xmlStrEqual(type, BAD_CAST "string")) return(1); if (xmlStrEqual(type, BAD_CAST "token")) { #if 0 const xmlChar *cur = value; while (*cur != 0) { if (!IS_BLANK(*cur)) return(1); cur++; } #endif return(1); } return(0); } /** * xmlRelaxNGDefaultTypeCompare: * @data: data needed for the library * @type: the type name * @value1: the first value * @value2: the second value * * Compare two values accordingly a type from the default * datatype library. * * Returns 1 if yes, 0 if no and -1 in case of error. */ static int xmlRelaxNGDefaultTypeCompare(void *data ATTRIBUTE_UNUSED, const xmlChar *type ATTRIBUTE_UNUSED, const xmlChar *value1 ATTRIBUTE_UNUSED, const xmlChar *value2 ATTRIBUTE_UNUSED) { int ret = -1; if (xmlStrEqual(type, BAD_CAST "string")) { ret = xmlStrEqual(value1, value2); } else if (xmlStrEqual(type, BAD_CAST "token")) { if (!xmlStrEqual(value1, value2)) { xmlChar *nval, *nvalue; /* * TODO: trivial optimizations are possible by * computing at compile-time */ nval = xmlRelaxNGNormalize(NULL, value1); nvalue = xmlRelaxNGNormalize(NULL, value2); if ((nval == NULL) || (nvalue == NULL)) ret = -1; else if (xmlStrEqual(nval, nvalue)) ret = 1; else ret = 0; if (nval != NULL) xmlFree(nval); if (nvalue != NULL) xmlFree(nvalue); } else ret = 1; } return(ret); } static int xmlRelaxNGTypeInitialized = 0; static xmlHashTablePtr xmlRelaxNGRegisteredTypes = NULL; /** * xmlRelaxNGFreeTypeLibrary: * @lib: the type library structure * @namespace: the URI bound to the library * * Free the structure associated to the type library */ static void xmlRelaxNGFreeTypeLibrary(xmlRelaxNGTypeLibraryPtr lib, const xmlChar *namespace ATTRIBUTE_UNUSED) { if (lib == NULL) return; if (lib->namespace != NULL) xmlFree((xmlChar *)lib->namespace); xmlFree(lib); } /** * xmlRelaxNGRegisterTypeLibrary: * @namespace: the URI bound to the library * @data: data associated to the library * @have: the provide function * @check: the checking function * @comp: the comparison function * * Register a new type library * * Returns 0 in case of success and -1 in case of error. */ static int xmlRelaxNGRegisterTypeLibrary(const xmlChar *namespace, void *data, xmlRelaxNGTypeHave have, xmlRelaxNGTypeCheck check, xmlRelaxNGTypeCompare comp) { xmlRelaxNGTypeLibraryPtr lib; int ret; if ((xmlRelaxNGRegisteredTypes == NULL) || (namespace == NULL) || (check == NULL) || (comp == NULL)) return(-1); if (xmlHashLookup(xmlRelaxNGRegisteredTypes, namespace) != NULL) { xmlGenericError(xmlGenericErrorContext, "Relax-NG types library '%s' already registered\n", namespace); return(-1); } lib = (xmlRelaxNGTypeLibraryPtr) xmlMalloc(sizeof(xmlRelaxNGTypeLibrary)); if (lib == NULL) { xmlGenericError(xmlGenericErrorContext, "Relax-NG types library '%s' malloc() failed\n", namespace); return (-1); } memset(lib, 0, sizeof(xmlRelaxNGTypeLibrary)); lib->namespace = xmlStrdup(namespace); lib->data = data; lib->have = have; lib->comp = comp; lib->check = check; ret = xmlHashAddEntry(xmlRelaxNGRegisteredTypes, namespace, lib); if (ret < 0) { xmlGenericError(xmlGenericErrorContext, "Relax-NG types library failed to register '%s'\n", namespace); xmlRelaxNGFreeTypeLibrary(lib, namespace); return(-1); } return(0); } /** * xmlRelaxNGInitTypes: * * Initilize the default type libraries. * * Returns 0 in case of success and -1 in case of error. */ static int xmlRelaxNGInitTypes(void) { if (xmlRelaxNGTypeInitialized != 0) return(0); xmlRelaxNGRegisteredTypes = xmlHashCreate(10); if (xmlRelaxNGRegisteredTypes == NULL) { xmlGenericError(xmlGenericErrorContext, "Failed to allocate sh table for Relax-NG types\n"); return(-1); } xmlRelaxNGRegisterTypeLibrary( BAD_CAST "http://www.w3.org/2001/XMLSchema-datatypes", NULL, xmlRelaxNGSchemaTypeHave, xmlRelaxNGSchemaTypeCheck, xmlRelaxNGSchemaTypeCompare); xmlRelaxNGRegisterTypeLibrary( xmlRelaxNGNs, NULL, xmlRelaxNGDefaultTypeHave, xmlRelaxNGDefaultTypeCheck, xmlRelaxNGDefaultTypeCompare); xmlRelaxNGTypeInitialized = 1; return(0); } /** * xmlRelaxNGCleanupTypes: * * Cleanup the default Schemas type library associated to RelaxNG */ void xmlRelaxNGCleanupTypes(void) { if (xmlRelaxNGTypeInitialized == 0) return; xmlSchemaCleanupTypes(); xmlHashFree(xmlRelaxNGRegisteredTypes, (xmlHashDeallocator) xmlRelaxNGFreeTypeLibrary); xmlRelaxNGTypeInitialized = 0; } /************************************************************************ * * * Parsing functions * * * ************************************************************************/ static xmlRelaxNGDefinePtr xmlRelaxNGParseAttribute( xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node); static xmlRelaxNGDefinePtr xmlRelaxNGParseElement( xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node); static xmlRelaxNGDefinePtr xmlRelaxNGParsePatterns( xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr nodes, int group); static xmlRelaxNGDefinePtr xmlRelaxNGParsePattern( xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node); static xmlRelaxNGPtr xmlRelaxNGParseDocument( xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node); static int xmlRelaxNGParseGrammarContent( xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr nodes); static xmlRelaxNGDefinePtr xmlRelaxNGParseNameClass( xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node, xmlRelaxNGDefinePtr def); static xmlRelaxNGGrammarPtr xmlRelaxNGParseGrammar( xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr nodes); #define IS_BLANK_NODE(n) \ (((n)->type == XML_TEXT_NODE) && (xmlRelaxNGIsBlank((n)->content))) /** * xmlRelaxNGIsBlank: * @str: a string * * Check if a string is ignorable c.f. 4.2. Whitespace * * Returns 1 if the string is NULL or made of blanks chars, 0 otherwise */ static int xmlRelaxNGIsBlank(xmlChar *str) { if (str == NULL) return(1); while (*str != 0) { if (!(IS_BLANK(*str))) return(0); str++; } return(1); } /** * xmlRelaxNGGetDataTypeLibrary: * @ctxt: a Relax-NG parser context * @node: the current data or value element * * Applies algorithm from 4.3. datatypeLibrary attribute * * Returns the datatypeLibary value or NULL if not found */ static xmlChar * xmlRelaxNGGetDataTypeLibrary(xmlRelaxNGParserCtxtPtr ctxt ATTRIBUTE_UNUSED, xmlNodePtr node) { xmlChar *ret, *escape; if ((IS_RELAXNG(node, "data")) || (IS_RELAXNG(node, "value"))) { ret = xmlGetProp(node, BAD_CAST "datatypeLibrary"); if (ret != NULL) { if (ret[0] == 0) { xmlFree(ret); return(NULL); } escape = xmlURIEscapeStr(ret, BAD_CAST ":/#?"); if (escape == NULL) { return(ret); } xmlFree(ret); return(escape); } } node = node->parent; while ((node != NULL) && (node->type == XML_ELEMENT_NODE)) { ret = xmlGetProp(node, BAD_CAST "datatypeLibrary"); if (ret != NULL) { if (ret[0] == 0) { xmlFree(ret); return(NULL); } escape = xmlURIEscapeStr(ret, BAD_CAST ":/#?"); if (escape == NULL) { return(ret); } xmlFree(ret); return(escape); } node = node->parent; } return(NULL); } /** * xmlRelaxNGParseValue: * @ctxt: a Relax-NG parser context * @node: the data node. * * parse the content of a RelaxNG value node. * * Returns the definition pointer or NULL in case of error */ static xmlRelaxNGDefinePtr xmlRelaxNGParseValue(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGDefinePtr def = NULL; xmlRelaxNGTypeLibraryPtr lib; xmlChar *type; xmlChar *library; int tmp; def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_VALUE; type = xmlGetProp(node, BAD_CAST "type"); if (type != NULL) { xmlRelaxNGNormExtSpace(type); if (xmlValidateNCName(type, 0)) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "value type '%s' is not an NCName\n", type); ctxt->nbErrors++; } library = xmlRelaxNGGetDataTypeLibrary(ctxt, node); if (library == NULL) library = xmlStrdup(BAD_CAST "http://relaxng.org/ns/structure/1.0"); def->name = type; def->ns = library; lib = (xmlRelaxNGTypeLibraryPtr) xmlHashLookup(xmlRelaxNGRegisteredTypes, library); if (lib == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Use of unregistered type library '%s'\n", library); ctxt->nbErrors++; def->data = NULL; } else { def->data = lib; if (lib->have == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Internal error with type library '%s': no 'have'\n", library); ctxt->nbErrors++; } else { tmp = lib->have(lib->data, def->name); if (tmp != 1) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Error type '%s' is not exported by type library '%s'\n", def->name, library); ctxt->nbErrors++; } } } } if (node->children == NULL) { def->value = xmlStrdup(BAD_CAST ""); } else if ((node->children->type != XML_TEXT_NODE) || (node->children->next != NULL)) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Expecting a single text value for content\n"); ctxt->nbErrors++; } else { def->value = xmlNodeGetContent(node); if (def->value == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element has no content\n"); ctxt->nbErrors++; } } /* TODO check ahead of time that the value is okay per the type */ return(def); } /** * xmlRelaxNGParseData: * @ctxt: a Relax-NG parser context * @node: the data node. * * parse the content of a RelaxNG data node. * * Returns the definition pointer or NULL in case of error */ static xmlRelaxNGDefinePtr xmlRelaxNGParseData(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGDefinePtr def = NULL, except, last = NULL; xmlRelaxNGDefinePtr param, lastparam = NULL; xmlRelaxNGTypeLibraryPtr lib; xmlChar *type; xmlChar *library; xmlNodePtr content; int tmp; type = xmlGetProp(node, BAD_CAST "type"); if (type == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "data has no type\n"); ctxt->nbErrors++; return(NULL); } xmlRelaxNGNormExtSpace(type); if (xmlValidateNCName(type, 0)) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "data type '%s' is not an NCName\n", type); ctxt->nbErrors++; } library = xmlRelaxNGGetDataTypeLibrary(ctxt, node); if (library == NULL) library = xmlStrdup(BAD_CAST "http://relaxng.org/ns/structure/1.0"); def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) { xmlFree(type); return(NULL); } def->type = XML_RELAXNG_DATATYPE; def->name = type; def->ns = library; lib = (xmlRelaxNGTypeLibraryPtr) xmlHashLookup(xmlRelaxNGRegisteredTypes, library); if (lib == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Use of unregistered type library '%s'\n", library); ctxt->nbErrors++; def->data = NULL; } else { def->data = lib; if (lib->have == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Internal error with type library '%s': no 'have'\n", library); ctxt->nbErrors++; } else { tmp = lib->have(lib->data, def->name); if (tmp != 1) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Error type '%s' is not exported by type library '%s'\n", def->name, library); ctxt->nbErrors++; } } } content = node->children; /* * Handle optional params */ while (content != NULL) { if (!xmlStrEqual(content->name, BAD_CAST "param")) break; if (xmlStrEqual(library, BAD_CAST"http://relaxng.org/ns/structure/1.0")) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Type library '%s' does not allow type parameters\n", library); ctxt->nbErrors++; content = content->next; while ((content != NULL) && (xmlStrEqual(content->name, BAD_CAST "param"))) content = content->next; } else { param = xmlRelaxNGNewDefine(ctxt, node); if (param != NULL) { param->type = XML_RELAXNG_PARAM; param->name = xmlGetProp(content, BAD_CAST "name"); if (param->name == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "param has no name\n"); ctxt->nbErrors++; } param->value = xmlNodeGetContent(content); if (lastparam == NULL) { def->attrs = lastparam = param; } else { lastparam->next = param; lastparam = param; } } content = content->next; } } /* * Handle optional except */ if ((content != NULL) && (xmlStrEqual(content->name, BAD_CAST "except"))) { xmlNodePtr child; xmlRelaxNGDefinePtr tmp2, last2 = NULL; except = xmlRelaxNGNewDefine(ctxt, node); if (except == NULL) { return(def); } except->type = XML_RELAXNG_EXCEPT; child = content->children; if (last == NULL) { def->content = except; } else { last->next = except; } if (child == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "except has no content\n"); ctxt->nbErrors++; } while (child != NULL) { tmp2 = xmlRelaxNGParsePattern(ctxt, child); if (tmp2 != NULL) { if (last2 == NULL) { except->content = last2 = tmp2; } else { last2->next = tmp2; last2 = tmp2; } } child = child->next; } content = content->next; } /* * Check there is no unhandled data */ if (content != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element data has unexpected content %s\n", content->name); ctxt->nbErrors++; } return(def); } static const xmlChar *invalidName = BAD_CAST "\1"; /** * xmlRelaxNGCompareNameClasses: * @defs1: the first element/attribute defs * @defs2: the second element/attribute defs * @name: the restriction on the name * @ns: the restriction on the namespace * * Compare the 2 lists of element definitions. The comparison is * that if both lists do not accept the same QNames, it returns 1 * If the 2 lists can accept the same QName the comparison returns 0 * * Returns 1 disttinct, 0 if equal */ static int xmlRelaxNGCompareNameClasses(xmlRelaxNGDefinePtr def1, xmlRelaxNGDefinePtr def2) { int ret = 1; xmlNode node; xmlNs ns; xmlRelaxNGValidCtxt ctxt; ctxt.flags = FLAGS_IGNORABLE; if ((def1->type == XML_RELAXNG_ELEMENT) || (def1->type == XML_RELAXNG_ATTRIBUTE)) { if (def2->type == XML_RELAXNG_TEXT) return(1); if (def1->name != NULL) { node.name = def1->name; } else { node.name = invalidName; } node.ns = &ns; if (def1->ns != NULL) { if (def1->ns[0] == 0) { node.ns = NULL; } else { ns.href = def1->ns; } } else { ns.href = invalidName; } if (xmlRelaxNGElementMatch(&ctxt, def2, &node)) { if (def1->nameClass != NULL) { ret = xmlRelaxNGCompareNameClasses(def1->nameClass, def2); } else { ret = 0; } } else { ret = 1; } } else if (def1->type == XML_RELAXNG_TEXT) { if (def2->type == XML_RELAXNG_TEXT) return(0); return(1); } else if (def1->type == XML_RELAXNG_EXCEPT) { xmlRelaxNGDefinePtr tmp = def1->content; TODO ret = 0; } else { TODO ret = 0; } if (ret == 0) return(ret); if ((def2->type == XML_RELAXNG_ELEMENT) || (def2->type == XML_RELAXNG_ATTRIBUTE)) { if (def2->name != NULL) { node.name = def2->name; } else { node.name = invalidName; } node.ns = &ns; if (def2->ns != NULL) { if (def2->ns[0] == 0) { node.ns = NULL; } else { ns.href = def2->ns; } } else { ns.href = invalidName; } if (xmlRelaxNGElementMatch(&ctxt, def1, &node)) { if (def2->nameClass != NULL) { ret = xmlRelaxNGCompareNameClasses(def2->nameClass, def1); } else { ret = 0; } } else { ret = 1; } } else { TODO ret = 0; } return(ret); } /** * xmlRelaxNGCompareElemDefLists: * @ctxt: a Relax-NG parser context * @defs1: the first list of element/attribute defs * @defs2: the second list of element/attribute defs * * Compare the 2 lists of element or attribute definitions. The comparison * is that if both lists do not accept the same QNames, it returns 1 * If the 2 lists can accept the same QName the comparison returns 0 * * Returns 1 disttinct, 0 if equal */ static int xmlRelaxNGCompareElemDefLists(xmlRelaxNGParserCtxtPtr ctxt ATTRIBUTE_UNUSED, xmlRelaxNGDefinePtr *def1, xmlRelaxNGDefinePtr *def2) { xmlRelaxNGDefinePtr *basedef2 = def2; if ((def1 == NULL) || (def2 == NULL)) return(1); if ((*def1 == NULL) || (*def2 == NULL)) return(1); while (*def1 != NULL) { while ((*def2) != NULL) { if (xmlRelaxNGCompareNameClasses(*def1, *def2) == 0) return(0); def2++; } def2 = basedef2; def1++; } return(1); } /** * xmlRelaxNGGetElements: * @ctxt: a Relax-NG parser context * @def: the definition definition * @eora: gather elements (0) or attributes (1) * * Compute the list of top elements a definition can generate * * Returns a list of elements or NULL if none was found. */ static xmlRelaxNGDefinePtr * xmlRelaxNGGetElements(xmlRelaxNGParserCtxtPtr ctxt, xmlRelaxNGDefinePtr def, int eora) { xmlRelaxNGDefinePtr *ret = NULL, parent, cur, tmp; int len = 0; int max = 0; /* * Don't run that check in case of error. Infinite recursion * becomes possible. */ if (ctxt->nbErrors != 0) return(NULL); parent = NULL; cur = def; while (cur != NULL) { if (((eora == 0) && ((cur->type == XML_RELAXNG_ELEMENT) || (cur->type == XML_RELAXNG_TEXT))) || ((eora == 1) && (cur->type == XML_RELAXNG_ATTRIBUTE))) { if (ret == NULL) { max = 10; ret = (xmlRelaxNGDefinePtr *) xmlMalloc((max + 1) * sizeof(xmlRelaxNGDefinePtr)); if (ret == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Out of memory in element search\n"); ctxt->nbErrors++; return(NULL); } } else if (max <= len) { max *= 2; ret = xmlRealloc(ret, (max + 1) * sizeof(xmlRelaxNGDefinePtr)); if (ret == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Out of memory in element search\n"); ctxt->nbErrors++; return(NULL); } } ret[len++] = cur; ret[len] = NULL; } else if ((cur->type == XML_RELAXNG_CHOICE) || (cur->type == XML_RELAXNG_INTERLEAVE) || (cur->type == XML_RELAXNG_GROUP) || (cur->type == XML_RELAXNG_ONEORMORE) || (cur->type == XML_RELAXNG_ZEROORMORE) || (cur->type == XML_RELAXNG_OPTIONAL) || (cur->type == XML_RELAXNG_REF) || (cur->type == XML_RELAXNG_DEF)) { /* * Don't go within elements or attributes or string values. * Just gather the element top list */ if (cur->content != NULL) { parent = cur; cur = cur->content; tmp = cur; while (tmp != NULL) { tmp->parent = parent; tmp = tmp->next; } continue; } } if (cur == def) break; if (cur->next != NULL) { cur = cur->next; continue; } do { cur = cur->parent; if (cur == NULL) break; if (cur == def) return(ret); if (cur->next != NULL) { cur = cur->next; break; } } while (cur != NULL); } return(ret); } /** * xmlRelaxNGCheckGroupAttrs: * @ctxt: a Relax-NG parser context * @def: the group definition * * Detects violations of rule 7.3 */ static void xmlRelaxNGCheckGroupAttrs(xmlRelaxNGParserCtxtPtr ctxt, xmlRelaxNGDefinePtr def) { xmlRelaxNGDefinePtr **list; xmlRelaxNGDefinePtr cur; int nbchild = 0, i, j, ret; if ((def == NULL) || ((def->type != XML_RELAXNG_GROUP) && (def->type != XML_RELAXNG_ELEMENT))) return; /* * Don't run that check in case of error. Infinite recursion * becomes possible. */ if (ctxt->nbErrors != 0) return; cur = def->attrs; while (cur != NULL) { nbchild++; cur = cur->next; } cur = def->content; while (cur != NULL) { nbchild++; cur = cur->next; } list = (xmlRelaxNGDefinePtr **) xmlMalloc(nbchild * sizeof(xmlRelaxNGDefinePtr *)); if (list == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Out of memory in group computation\n"); ctxt->nbErrors++; return; } i = 0; cur = def->attrs; while (cur != NULL) { list[i] = xmlRelaxNGGetElements(ctxt, cur, 1); i++; cur = cur->next; } cur = def->content; while (cur != NULL) { list[i] = xmlRelaxNGGetElements(ctxt, cur, 1); i++; cur = cur->next; } for (i = 0;i < nbchild;i++) { if (list[i] == NULL) continue; for (j = 0;j < i;j++) { if (list[j] == NULL) continue; ret = xmlRelaxNGCompareElemDefLists(ctxt, list[i], list[j]); if (ret == 0) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Attributes conflicts in group\n"); ctxt->nbErrors++; } } } for (i = 0;i < nbchild;i++) { if (list[i] != NULL) xmlFree(list[i]); } xmlFree(list); } /** * xmlRelaxNGComputeInterleaves: * @def: the interleave definition * @ctxt: a Relax-NG parser context * @name: the definition name * * A lot of work for preprocessing interleave definitions * is potentially needed to get a decent execution speed at runtime * - trying to get a total order on the element nodes generated * by the interleaves, order the list of interleave definitions * following that order. * - if is used to handle mixed content, it is better to * flag this in the define and simplify the runtime checking * algorithm */ static void xmlRelaxNGComputeInterleaves(xmlRelaxNGDefinePtr def, xmlRelaxNGParserCtxtPtr ctxt, xmlChar *name ATTRIBUTE_UNUSED) { xmlRelaxNGDefinePtr cur; xmlRelaxNGPartitionPtr partitions = NULL; xmlRelaxNGInterleaveGroupPtr *groups = NULL; xmlRelaxNGInterleaveGroupPtr group; int i,j,ret; int nbgroups = 0; int nbchild = 0; /* * Don't run that check in case of error. Infinite recursion * becomes possible. */ if (ctxt->nbErrors != 0) return; #ifdef DEBUG_INTERLEAVE xmlGenericError(xmlGenericErrorContext, "xmlRelaxNGComputeInterleaves(%s)\n", name); #endif cur = def->content; while (cur != NULL) { nbchild++; cur = cur->next; } #ifdef DEBUG_INTERLEAVE xmlGenericError(xmlGenericErrorContext, " %d child\n", nbchild); #endif groups = (xmlRelaxNGInterleaveGroupPtr *) xmlMalloc(nbchild * sizeof(xmlRelaxNGInterleaveGroupPtr)); if (groups == NULL) goto error; cur = def->content; while (cur != NULL) { groups[nbgroups] = (xmlRelaxNGInterleaveGroupPtr) xmlMalloc(sizeof(xmlRelaxNGInterleaveGroup)); if (groups[nbgroups] == NULL) goto error; groups[nbgroups]->rule = cur; groups[nbgroups]->defs = xmlRelaxNGGetElements(ctxt, cur, 0); groups[nbgroups]->attrs = xmlRelaxNGGetElements(ctxt, cur, 1); nbgroups++; cur = cur->next; } #ifdef DEBUG_INTERLEAVE xmlGenericError(xmlGenericErrorContext, " %d groups\n", nbgroups); #endif /* * Let's check that all rules makes a partitions according to 7.4 */ partitions = (xmlRelaxNGPartitionPtr) xmlMalloc(sizeof(xmlRelaxNGPartition)); if (partitions == NULL) goto error; partitions->nbgroups = nbgroups; for (i = 0;i < nbgroups;i++) { group = groups[i]; for (j = i+1;j < nbgroups;j++) { if (groups[j] == NULL) continue; ret = xmlRelaxNGCompareElemDefLists(ctxt, group->defs, groups[j]->defs); if (ret == 0) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element or text conflicts in interleave\n"); ctxt->nbErrors++; } ret = xmlRelaxNGCompareElemDefLists(ctxt, group->attrs, groups[j]->attrs); if (ret == 0) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Attributes conflicts in interleave\n"); ctxt->nbErrors++; } } } partitions->groups = groups; /* * and save the partition list back in the def */ def->data = partitions; return; error: if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Out of memory in interleave computation\n"); ctxt->nbErrors++; if (groups != NULL) { for (i = 0;i < nbgroups;i++) if (groups[i] != NULL) { if (groups[i]->defs != NULL) xmlFree(groups[i]->defs); xmlFree(groups[i]); } xmlFree(groups); } xmlRelaxNGFreePartition(partitions); } /** * xmlRelaxNGParseInterleave: * @ctxt: a Relax-NG parser context * @node: the data node. * * parse the content of a RelaxNG interleave node. * * Returns the definition pointer or NULL in case of error */ static xmlRelaxNGDefinePtr xmlRelaxNGParseInterleave(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGDefinePtr def = NULL; xmlRelaxNGDefinePtr last = NULL, cur; xmlNodePtr child; def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) { return(NULL); } def->type = XML_RELAXNG_INTERLEAVE; if (ctxt->interleaves == NULL) ctxt->interleaves = xmlHashCreate(10); if (ctxt->interleaves == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to create interleaves hash table\n"); ctxt->nbErrors++; } else { char name[32]; snprintf(name, 32, "interleave%d", ctxt->nbInterleaves++); if (xmlHashAddEntry(ctxt->interleaves, BAD_CAST name, def) < 0) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to add %s to hash table\n", name); ctxt->nbErrors++; } } child = node->children; if (child == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element interleave is empty\n"); ctxt->nbErrors++; } while (child != NULL) { if (IS_RELAXNG(child, "element")) { cur = xmlRelaxNGParseElement(ctxt, child); } else { cur = xmlRelaxNGParsePattern(ctxt, child); } if (cur != NULL) { cur->parent = def; if (last == NULL) { def->content = last = cur; } else { last->next = cur; last = cur; } } child = child->next; } return(def); } /** * xmlRelaxNGParseInclude: * @ctxt: a Relax-NG parser context * @node: the include node * * Integrate the content of an include node in the current grammar * * Returns 0 in case of success or -1 in case of error */ static int xmlRelaxNGParseInclude(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGIncludePtr incl; xmlNodePtr root; int ret = 0, tmp; incl = node->_private; if (incl == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Include node has no data\n"); ctxt->nbErrors++; return(-1); } root = xmlDocGetRootElement(incl->doc); if (root == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Include document is empty\n"); ctxt->nbErrors++; return(-1); } if (!xmlStrEqual(root->name, BAD_CAST "grammar")) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Include document root is not a grammar\n"); ctxt->nbErrors++; return(-1); } /* * Merge the definition from both the include and the internal list */ if (root->children != NULL) { tmp = xmlRelaxNGParseGrammarContent(ctxt, root->children); if (tmp != 0) ret = -1; } if (node->children != NULL) { tmp = xmlRelaxNGParseGrammarContent(ctxt, node->children); if (tmp != 0) ret = -1; } return(ret); } /** * xmlRelaxNGParseDefine: * @ctxt: a Relax-NG parser context * @node: the define node * * parse the content of a RelaxNG define element node. * * Returns 0 in case of success or -1 in case of error */ static int xmlRelaxNGParseDefine(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlChar *name; int ret = 0, tmp; xmlRelaxNGDefinePtr def; const xmlChar *olddefine; name = xmlGetProp(node, BAD_CAST "name"); if (name == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "define has no name\n"); ctxt->nbErrors++; } else { xmlRelaxNGNormExtSpace(name); if (xmlValidateNCName(name, 0)) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "define name '%s' is not an NCName\n", name); ctxt->nbErrors++; } def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) { xmlFree(name); return(-1); } def->type = XML_RELAXNG_DEF; def->name = name; if (node->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "define has no children\n"); ctxt->nbErrors++; } else { olddefine = ctxt->define; ctxt->define = name; def->content = xmlRelaxNGParsePatterns(ctxt, node->children, 0); ctxt->define = olddefine; } if (ctxt->grammar->defs == NULL) ctxt->grammar->defs = xmlHashCreate(10); if (ctxt->grammar->defs == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Could not create definition hash\n"); ctxt->nbErrors++; ret = -1; } else { tmp = xmlHashAddEntry(ctxt->grammar->defs, name, def); if (tmp < 0) { xmlRelaxNGDefinePtr prev; prev = xmlHashLookup(ctxt->grammar->defs, name); if (prev == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Internal error on define aggregation of %s\n", name); ctxt->nbErrors++; ret = -1; } else { while (prev->nextHash != NULL) prev = prev->nextHash; prev->nextHash = def; } } } } return(ret); } /** * xmlRelaxNGProcessExternalRef: * @ctxt: the parser context * @node: the externlRef node * * Process and compile an externlRef node * * Returns the xmlRelaxNGDefinePtr or NULL in case of error */ static xmlRelaxNGDefinePtr xmlRelaxNGProcessExternalRef(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGDocumentPtr docu; xmlNodePtr root, tmp; xmlChar *ns; int newNs = 0, oldflags; xmlRelaxNGDefinePtr def; docu = node->_private; if (docu != NULL) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_EXTERNALREF; if (docu->content == NULL) { /* * Then do the parsing for good */ root = xmlDocGetRootElement(docu->doc); if (root == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParse: %s is empty\n", ctxt->URL); ctxt->nbErrors++; return (NULL); } /* * ns transmission rules */ ns = xmlGetProp(root, BAD_CAST "ns"); if (ns == NULL) { tmp = node; while ((tmp != NULL) && (tmp->type == XML_ELEMENT_NODE)) { ns = xmlGetProp(tmp, BAD_CAST "ns"); if (ns != NULL) { break; } tmp = tmp->parent; } if (ns != NULL) { xmlSetProp(root, BAD_CAST "ns", ns); newNs = 1; xmlFree(ns); } } else { xmlFree(ns); } /* * Parsing to get a precompiled schemas. */ oldflags = ctxt->flags; ctxt->flags |= XML_RELAXNG_IN_EXTERNALREF; docu->schema = xmlRelaxNGParseDocument(ctxt, root); ctxt->flags = oldflags; if ((docu->schema != NULL) && (docu->schema->topgrammar != NULL)) { docu->content = docu->schema->topgrammar->start; } /* * the externalRef may be reused in a different ns context */ if (newNs == 1) { xmlUnsetProp(root, BAD_CAST "ns"); } } def->content = docu->content; } else { def = NULL; } return(def); } /** * xmlRelaxNGParsePattern: * @ctxt: a Relax-NG parser context * @node: the pattern node. * * parse the content of a RelaxNG pattern node. * * Returns the definition pointer or NULL in case of error or if no * pattern is generated. */ static xmlRelaxNGDefinePtr xmlRelaxNGParsePattern(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGDefinePtr def = NULL; if (node == NULL) { return(NULL); } if (IS_RELAXNG(node, "element")) { def = xmlRelaxNGParseElement(ctxt, node); } else if (IS_RELAXNG(node, "attribute")) { def = xmlRelaxNGParseAttribute(ctxt, node); } else if (IS_RELAXNG(node, "empty")) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_EMPTY; if (node->children != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "empty: had a child node\n"); ctxt->nbErrors++; } } else if (IS_RELAXNG(node, "text")) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_TEXT; if (node->children != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "text: had a child node\n"); ctxt->nbErrors++; } } else if (IS_RELAXNG(node, "zeroOrMore")) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_ZEROORMORE; if (node->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element %s is empty\n", node->name); ctxt->nbErrors++; } else { def->content = xmlRelaxNGParsePatterns(ctxt, node->children, 1); } } else if (IS_RELAXNG(node, "oneOrMore")) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_ONEORMORE; if (node->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element %s is empty\n", node->name); ctxt->nbErrors++; } else { def->content = xmlRelaxNGParsePatterns(ctxt, node->children, 1); } } else if (IS_RELAXNG(node, "optional")) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_OPTIONAL; if (node->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element %s is empty\n", node->name); ctxt->nbErrors++; } else { def->content = xmlRelaxNGParsePatterns(ctxt, node->children, 1); } } else if (IS_RELAXNG(node, "choice")) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_CHOICE; if (node->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element %s is empty\n", node->name); ctxt->nbErrors++; } else { def->content = xmlRelaxNGParsePatterns(ctxt, node->children, 0); } } else if (IS_RELAXNG(node, "group")) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_GROUP; if (node->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element %s is empty\n", node->name); ctxt->nbErrors++; } else { def->content = xmlRelaxNGParsePatterns(ctxt, node->children, 0); } } else if (IS_RELAXNG(node, "ref")) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_REF; def->name = xmlGetProp(node, BAD_CAST "name"); if (def->name == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "ref has no name\n"); ctxt->nbErrors++; } else { xmlRelaxNGNormExtSpace(def->name); if (xmlValidateNCName(def->name, 0)) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "ref name '%s' is not an NCName\n", def->name); ctxt->nbErrors++; } } if (node->children != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "ref is not empty\n"); ctxt->nbErrors++; } if (ctxt->grammar->refs == NULL) ctxt->grammar->refs = xmlHashCreate(10); if (ctxt->grammar->refs == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Could not create references hash\n"); ctxt->nbErrors++; def = NULL; } else { int tmp; tmp = xmlHashAddEntry(ctxt->grammar->refs, def->name, def); if (tmp < 0) { xmlRelaxNGDefinePtr prev; prev = (xmlRelaxNGDefinePtr) xmlHashLookup(ctxt->grammar->refs, def->name); if (prev == NULL) { if (def->name != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Error refs definitions '%s'\n", def->name); } else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Error refs definitions\n"); } ctxt->nbErrors++; def = NULL; } else { def->nextHash = prev->nextHash; prev->nextHash = def; } } } } else if (IS_RELAXNG(node, "data")) { def = xmlRelaxNGParseData(ctxt, node); #if 0 } else if (IS_RELAXNG(node, "define")) { xmlRelaxNGParseDefine(ctxt, node); def = NULL; #endif } else if (IS_RELAXNG(node, "value")) { def = xmlRelaxNGParseValue(ctxt, node); } else if (IS_RELAXNG(node, "list")) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_LIST; if (node->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element %s is empty\n", node->name); ctxt->nbErrors++; } else { def->content = xmlRelaxNGParsePatterns(ctxt, node->children, 0); } } else if (IS_RELAXNG(node, "interleave")) { def = xmlRelaxNGParseInterleave(ctxt, node); } else if (IS_RELAXNG(node, "externalRef")) { def = xmlRelaxNGProcessExternalRef(ctxt, node); } else if (IS_RELAXNG(node, "notAllowed")) { def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_NOT_ALLOWED; if (node->children != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParse: notAllowed element is not empty\n"); ctxt->nbErrors++; } } else if (IS_RELAXNG(node, "grammar")) { xmlRelaxNGGrammarPtr grammar, old; xmlRelaxNGGrammarPtr oldparent; oldparent = ctxt->parentgrammar; old = ctxt->grammar; ctxt->parentgrammar = old; grammar = xmlRelaxNGParseGrammar(ctxt, node->children); if (old != NULL) { ctxt->grammar = old; ctxt->parentgrammar = oldparent; if (grammar != NULL) { grammar->next = old->next; old->next = grammar; } } if (grammar != NULL) def = grammar->start; else def = NULL; } else if (IS_RELAXNG(node, "parentRef")) { if (ctxt->parentgrammar == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Use of parentRef without a parent grammar\n"); ctxt->nbErrors++; return(NULL); } def = xmlRelaxNGNewDefine(ctxt, node); if (def == NULL) return(NULL); def->type = XML_RELAXNG_PARENTREF; def->name = xmlGetProp(node, BAD_CAST "name"); if (def->name == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "parentRef has no name\n"); ctxt->nbErrors++; } else { xmlRelaxNGNormExtSpace(def->name); if (xmlValidateNCName(def->name, 0)) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "parentRef name '%s' is not an NCName\n", def->name); ctxt->nbErrors++; } } if (node->children != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "parentRef is not empty\n"); ctxt->nbErrors++; } if (ctxt->parentgrammar->refs == NULL) ctxt->parentgrammar->refs = xmlHashCreate(10); if (ctxt->parentgrammar->refs == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Could not create references hash\n"); ctxt->nbErrors++; def = NULL; } else if (def->name != NULL) { int tmp; tmp = xmlHashAddEntry(ctxt->parentgrammar->refs, def->name, def); if (tmp < 0) { xmlRelaxNGDefinePtr prev; prev = (xmlRelaxNGDefinePtr) xmlHashLookup(ctxt->parentgrammar->refs, def->name); if (prev == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Internal error parentRef definitions '%s'\n", def->name); ctxt->nbErrors++; def = NULL; } else { def->nextHash = prev->nextHash; prev->nextHash = def; } } } } else if (IS_RELAXNG(node, "mixed")) { if (node->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Mixed is empty\n"); ctxt->nbErrors++; def = NULL; } else { def = xmlRelaxNGParseInterleave(ctxt, node); if (def != NULL) { xmlRelaxNGDefinePtr tmp; if ((def->content != NULL) && (def->content->next != NULL)) { tmp = xmlRelaxNGNewDefine(ctxt, node); if (tmp != NULL) { tmp->type = XML_RELAXNG_GROUP; tmp->content = def->content; def->content = tmp; } } tmp = xmlRelaxNGNewDefine(ctxt, node); if (tmp == NULL) return(def); tmp->type = XML_RELAXNG_TEXT; tmp->next = def->content; def->content = tmp; } } } else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Unexpected node %s is not a pattern\n", node->name); ctxt->nbErrors++; def = NULL; } return(def); } /** * xmlRelaxNGParseAttribute: * @ctxt: a Relax-NG parser context * @node: the element node * * parse the content of a RelaxNG attribute node. * * Returns the definition pointer or NULL in case of error. */ static xmlRelaxNGDefinePtr xmlRelaxNGParseAttribute(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGDefinePtr ret, cur; xmlNodePtr child; int old_flags; ret = xmlRelaxNGNewDefine(ctxt, node); if (ret == NULL) return(NULL); ret->type = XML_RELAXNG_ATTRIBUTE; ret->parent = ctxt->def; child = node->children; if (child == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParseattribute: attribute has no children\n"); ctxt->nbErrors++; return(ret); } old_flags = ctxt->flags; ctxt->flags |= XML_RELAXNG_IN_ATTRIBUTE; cur = xmlRelaxNGParseNameClass(ctxt, child, ret); if (cur != NULL) child = child->next; if (child != NULL) { cur = xmlRelaxNGParsePattern(ctxt, child); if (cur != NULL) { switch (cur->type) { case XML_RELAXNG_EMPTY: case XML_RELAXNG_NOT_ALLOWED: case XML_RELAXNG_TEXT: case XML_RELAXNG_ELEMENT: case XML_RELAXNG_DATATYPE: case XML_RELAXNG_VALUE: case XML_RELAXNG_LIST: case XML_RELAXNG_REF: case XML_RELAXNG_PARENTREF: case XML_RELAXNG_EXTERNALREF: case XML_RELAXNG_DEF: case XML_RELAXNG_ONEORMORE: case XML_RELAXNG_ZEROORMORE: case XML_RELAXNG_OPTIONAL: case XML_RELAXNG_CHOICE: case XML_RELAXNG_GROUP: case XML_RELAXNG_INTERLEAVE: case XML_RELAXNG_ATTRIBUTE: ret->content = cur; cur->parent = ret; break; case XML_RELAXNG_START: case XML_RELAXNG_PARAM: case XML_RELAXNG_EXCEPT: if (ctxt->error != NULL) ctxt->error(ctxt->userData, "attribute has invalid content\n"); ctxt->nbErrors++; break; case XML_RELAXNG_NOOP: TODO if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Internal error, noop found\n"); ctxt->nbErrors++; break; } } child = child->next; } if (child != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "attribute has multiple children\n"); ctxt->nbErrors++; } ctxt->flags = old_flags; return(ret); } /** * xmlRelaxNGParseExceptNameClass: * @ctxt: a Relax-NG parser context * @node: the except node * @attr: 1 if within an attribute, 0 if within an element * * parse the content of a RelaxNG nameClass node. * * Returns the definition pointer or NULL in case of error. */ static xmlRelaxNGDefinePtr xmlRelaxNGParseExceptNameClass(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node, int attr) { xmlRelaxNGDefinePtr ret, cur, last = NULL; xmlNodePtr child; if (!IS_RELAXNG(node, "except")) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Expecting an except node\n"); ctxt->nbErrors++; return(NULL); } if (node->next != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "exceptNameClass allows only a single except node\n"); ctxt->nbErrors++; } if (node->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "except has no content\n"); ctxt->nbErrors++; return(NULL); } ret = xmlRelaxNGNewDefine(ctxt, node); if (ret == NULL) return(NULL); ret->type = XML_RELAXNG_EXCEPT; child = node->children; while (child != NULL) { cur = xmlRelaxNGNewDefine(ctxt, child); if (cur == NULL) break; if (attr) cur->type = XML_RELAXNG_ATTRIBUTE; else cur->type = XML_RELAXNG_ELEMENT; if (xmlRelaxNGParseNameClass(ctxt, child, cur) != NULL) { if (last == NULL) { ret->content = cur; } else { last->next = cur; } last = cur; } child = child->next; } return(ret); } /** * xmlRelaxNGParseNameClass: * @ctxt: a Relax-NG parser context * @node: the nameClass node * @def: the current definition * * parse the content of a RelaxNG nameClass node. * * Returns the definition pointer or NULL in case of error. */ static xmlRelaxNGDefinePtr xmlRelaxNGParseNameClass(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node, xmlRelaxNGDefinePtr def) { xmlRelaxNGDefinePtr ret, tmp; xmlChar *val; ret = def; if ((IS_RELAXNG(node, "name")) || (IS_RELAXNG(node, "anyName")) || (IS_RELAXNG(node, "nsName"))) { if ((def->type != XML_RELAXNG_ELEMENT) && (def->type != XML_RELAXNG_ATTRIBUTE)) { ret = xmlRelaxNGNewDefine(ctxt, node); if (ret == NULL) return(NULL); ret->parent = def; if (ctxt->flags & XML_RELAXNG_IN_ATTRIBUTE) ret->type = XML_RELAXNG_ATTRIBUTE; else ret->type = XML_RELAXNG_ELEMENT; } } if (IS_RELAXNG(node, "name")) { val = xmlNodeGetContent(node); xmlRelaxNGNormExtSpace(val); if (xmlValidateNCName(val, 0)) { if (ctxt->error != NULL) { if (node->parent != NULL) ctxt->error(ctxt->userData, "Element %s name '%s' is not an NCName\n", node->parent->name, val); else ctxt->error(ctxt->userData, "name '%s' is not an NCName\n", val); } ctxt->nbErrors++; } ret->name = val; val = xmlGetProp(node, BAD_CAST "ns"); ret->ns = val; if ((ctxt->flags & XML_RELAXNG_IN_ATTRIBUTE) && (val != NULL) && (xmlStrEqual(val, BAD_CAST "http://www.w3.org/2000/xmlns"))) { ctxt->error(ctxt->userData, "Attribute with namespace '%s' is not allowed\n", val); ctxt->nbErrors++; } if ((ctxt->flags & XML_RELAXNG_IN_ATTRIBUTE) && (val != NULL) && (val[0] == 0) && (xmlStrEqual(ret->name, BAD_CAST "xmlns"))) { ctxt->error(ctxt->userData, "Attribute with QName 'xmlns' is not allowed\n", val); ctxt->nbErrors++; } } else if (IS_RELAXNG(node, "anyName")) { ret->name = NULL; ret->ns = NULL; if (node->children != NULL) { ret->nameClass = xmlRelaxNGParseExceptNameClass(ctxt, node->children, (def->type == XML_RELAXNG_ATTRIBUTE)); } } else if (IS_RELAXNG(node, "nsName")) { ret->name = NULL; ret->ns = xmlGetProp(node, BAD_CAST "ns"); if (ret->ns == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "nsName has no ns attribute\n"); ctxt->nbErrors++; } if ((ctxt->flags & XML_RELAXNG_IN_ATTRIBUTE) && (ret->ns != NULL) && (xmlStrEqual(ret->ns, BAD_CAST "http://www.w3.org/2000/xmlns"))) { ctxt->error(ctxt->userData, "Attribute with namespace '%s' is not allowed\n", ret->ns); ctxt->nbErrors++; } if (node->children != NULL) { ret->nameClass = xmlRelaxNGParseExceptNameClass(ctxt, node->children, (def->type == XML_RELAXNG_ATTRIBUTE)); } } else if (IS_RELAXNG(node, "choice")) { xmlNodePtr child; xmlRelaxNGDefinePtr last = NULL; ret = xmlRelaxNGNewDefine(ctxt, node); if (ret == NULL) return(NULL); ret->parent = def; ret->type = XML_RELAXNG_CHOICE; if (node->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element choice is empty\n"); ctxt->nbErrors++; } else { child = node->children; while (child != NULL) { tmp = xmlRelaxNGParseNameClass(ctxt, child, ret); if (tmp != NULL) { if (last == NULL) { last = ret->nameClass = tmp; } else { last->next = tmp; last = tmp; } } child = child->next; } } } else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "expecting name, anyName, nsName or choice : got %s\n", node->name); ctxt->nbErrors++; return(NULL); } if (ret != def) { if (def->nameClass == NULL) { def->nameClass = ret; } else { tmp = def->nameClass; while (tmp->next != NULL) { tmp = tmp->next; } tmp->next = ret; } } return(ret); } /** * xmlRelaxNGParseElement: * @ctxt: a Relax-NG parser context * @node: the element node * * parse the content of a RelaxNG element node. * * Returns the definition pointer or NULL in case of error. */ static xmlRelaxNGDefinePtr xmlRelaxNGParseElement(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGDefinePtr ret, cur, last; xmlNodePtr child; const xmlChar *olddefine; ret = xmlRelaxNGNewDefine(ctxt, node); if (ret == NULL) return(NULL); ret->type = XML_RELAXNG_ELEMENT; ret->parent = ctxt->def; child = node->children; if (child == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParseElement: element has no children\n"); ctxt->nbErrors++; return(ret); } cur = xmlRelaxNGParseNameClass(ctxt, child, ret); if (cur != NULL) child = child->next; if (child == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParseElement: element has no content\n"); ctxt->nbErrors++; return(ret); } olddefine = ctxt->define; ctxt->define = NULL; last = NULL; while (child != NULL) { cur = xmlRelaxNGParsePattern(ctxt, child); if (cur != NULL) { cur->parent = ret; switch (cur->type) { case XML_RELAXNG_EMPTY: case XML_RELAXNG_NOT_ALLOWED: case XML_RELAXNG_TEXT: case XML_RELAXNG_ELEMENT: case XML_RELAXNG_DATATYPE: case XML_RELAXNG_VALUE: case XML_RELAXNG_LIST: case XML_RELAXNG_REF: case XML_RELAXNG_PARENTREF: case XML_RELAXNG_EXTERNALREF: case XML_RELAXNG_DEF: case XML_RELAXNG_ZEROORMORE: case XML_RELAXNG_ONEORMORE: case XML_RELAXNG_OPTIONAL: case XML_RELAXNG_CHOICE: case XML_RELAXNG_GROUP: case XML_RELAXNG_INTERLEAVE: if (last == NULL) { ret->content = last = cur; } else { if ((last->type == XML_RELAXNG_ELEMENT) && (ret->content == last)) { ret->content = xmlRelaxNGNewDefine(ctxt, node); if (ret->content != NULL) { ret->content->type = XML_RELAXNG_GROUP; ret->content->content = last; } else { ret->content = last; } } last->next = cur; last = cur; } break; case XML_RELAXNG_ATTRIBUTE: cur->next = ret->attrs; ret->attrs = cur; break; case XML_RELAXNG_START: case XML_RELAXNG_PARAM: case XML_RELAXNG_EXCEPT: TODO ctxt->nbErrors++; break; case XML_RELAXNG_NOOP: TODO if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Internal error, noop found\n"); ctxt->nbErrors++; break; } } child = child->next; } ctxt->define = olddefine; return(ret); } /** * xmlRelaxNGParsePatterns: * @ctxt: a Relax-NG parser context * @nodes: list of nodes * @group: use an implicit for elements * * parse the content of a RelaxNG start node. * * Returns the definition pointer or NULL in case of error. */ static xmlRelaxNGDefinePtr xmlRelaxNGParsePatterns(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr nodes, int group) { xmlRelaxNGDefinePtr def = NULL, last = NULL, cur, parent; parent = ctxt->def; while (nodes != NULL) { if (IS_RELAXNG(nodes, "element")) { cur = xmlRelaxNGParseElement(ctxt, nodes); if (def == NULL) { def = last = cur; } else { if ((group == 1) && (def->type == XML_RELAXNG_ELEMENT) && (def == last)) { def = xmlRelaxNGNewDefine(ctxt, nodes); def->type = XML_RELAXNG_GROUP; def->content = last; } last->next = cur; last = cur; } cur->parent = parent; } else { cur = xmlRelaxNGParsePattern(ctxt, nodes); if (cur != NULL) { if (def == NULL) { def = last = cur; } else { last->next = cur; last = cur; } } } nodes = nodes->next; } return(def); } /** * xmlRelaxNGParseStart: * @ctxt: a Relax-NG parser context * @nodes: start children nodes * * parse the content of a RelaxNG start node. * * Returns 0 in case of success, -1 in case of error */ static int xmlRelaxNGParseStart(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr nodes) { int ret = 0; xmlRelaxNGDefinePtr def = NULL, last; if (nodes == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "start has no children\n"); ctxt->nbErrors++; return(-1); } if (IS_RELAXNG(nodes, "empty")) { def = xmlRelaxNGNewDefine(ctxt, nodes); if (def == NULL) return(-1); def->type = XML_RELAXNG_EMPTY; if (nodes->children != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "element empty is not empty\n"); ctxt->nbErrors++; } } else if (IS_RELAXNG(nodes, "notAllowed")) { def = xmlRelaxNGNewDefine(ctxt, nodes); if (def == NULL) return(-1); def->type = XML_RELAXNG_NOT_ALLOWED; if (nodes->children != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "element notAllowed is not empty\n"); ctxt->nbErrors++; } } else { def = xmlRelaxNGParsePatterns(ctxt, nodes, 1); } if (ctxt->grammar->start != NULL) { last = ctxt->grammar->start; while (last->next != NULL) last = last->next; last->next = def; } else { ctxt->grammar->start = def; } nodes = nodes->next; if (nodes != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "start more than one children\n"); ctxt->nbErrors++; return(-1); } return(ret); } /** * xmlRelaxNGParseGrammarContent: * @ctxt: a Relax-NG parser context * @nodes: grammar children nodes * * parse the content of a RelaxNG grammar node. * * Returns 0 in case of success, -1 in case of error */ static int xmlRelaxNGParseGrammarContent(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr nodes) { int ret = 0, tmp; if (nodes == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "grammar has no children\n"); ctxt->nbErrors++; return(-1); } while (nodes != NULL) { if (IS_RELAXNG(nodes, "start")) { if (nodes->children == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "start has no children\n"); ctxt->nbErrors++; } else { tmp = xmlRelaxNGParseStart(ctxt, nodes->children); if (tmp != 0) ret = -1; } } else if (IS_RELAXNG(nodes, "define")) { tmp = xmlRelaxNGParseDefine(ctxt, nodes); if (tmp != 0) ret = -1; } else if (IS_RELAXNG(nodes, "include")) { tmp = xmlRelaxNGParseInclude(ctxt, nodes); if (tmp != 0) ret = -1; } else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "grammar has unexpected child %s\n", nodes->name); ctxt->nbErrors++; ret = -1; } nodes = nodes->next; } return (ret); } /** * xmlRelaxNGCheckReference: * @ref: the ref * @ctxt: a Relax-NG parser context * @name: the name associated to the defines * * Applies the 4.17. combine attribute rule for all the define * element of a given grammar using the same name. */ static void xmlRelaxNGCheckReference(xmlRelaxNGDefinePtr ref, xmlRelaxNGParserCtxtPtr ctxt, const xmlChar *name) { xmlRelaxNGGrammarPtr grammar; xmlRelaxNGDefinePtr def, cur; grammar = ctxt->grammar; if (grammar == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Internal error: no grammar in CheckReference %s\n", name); ctxt->nbErrors++; return; } if (ref->content != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Internal error: reference has content in CheckReference %s\n", name); ctxt->nbErrors++; return; } if (grammar->defs != NULL) { def = xmlHashLookup(grammar->defs, name); if (def != NULL) { cur = ref; while (cur != NULL) { cur->content = def; cur = cur->nextHash; } } else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Reference %s has no matching definition\n", name); ctxt->nbErrors++; } } else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Reference %s has no matching definition\n", name); ctxt->nbErrors++; } /* * TODO: make a closure and verify there is no loop ! */ } /** * xmlRelaxNGCheckCombine: * @define: the define(s) list * @ctxt: a Relax-NG parser context * @name: the name associated to the defines * * Applies the 4.17. combine attribute rule for all the define * element of a given grammar using the same name. */ static void xmlRelaxNGCheckCombine(xmlRelaxNGDefinePtr define, xmlRelaxNGParserCtxtPtr ctxt, const xmlChar *name) { xmlChar *combine; int choiceOrInterleave = -1; int missing = 0; xmlRelaxNGDefinePtr cur, last, tmp, tmp2; if (define->nextHash == NULL) return; cur = define; while (cur != NULL) { combine = xmlGetProp(cur->node, BAD_CAST "combine"); if (combine != NULL) { if (xmlStrEqual(combine, BAD_CAST "choice")) { if (choiceOrInterleave == -1) choiceOrInterleave = 1; else if (choiceOrInterleave == 0) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Defines for %s use both 'choice' and 'interleave'\n", name); ctxt->nbErrors++; } } else if (xmlStrEqual(combine, BAD_CAST "interleave")) { if (choiceOrInterleave == -1) choiceOrInterleave = 0; else if (choiceOrInterleave == 1) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Defines for %s use both 'choice' and 'interleave'\n", name); ctxt->nbErrors++; } } else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Defines for %s use unknown combine value '%s''\n", name, combine); ctxt->nbErrors++; } xmlFree(combine); } else { if (missing == 0) missing = 1; else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Some defines for %s lacks the combine attribute\n", name); ctxt->nbErrors++; } } cur = cur->nextHash; } #ifdef DEBUG xmlGenericError(xmlGenericErrorContext, "xmlRelaxNGCheckCombine(): merging %s defines: %d\n", name, choiceOrInterleave); #endif if (choiceOrInterleave == -1) choiceOrInterleave = 0; cur = xmlRelaxNGNewDefine(ctxt, define->node); if (cur == NULL) return; if (choiceOrInterleave == 0) cur->type = XML_RELAXNG_INTERLEAVE; else cur->type = XML_RELAXNG_CHOICE; tmp = define; last = NULL; while (tmp != NULL) { if (tmp->content != NULL) { if (tmp->content->next != NULL) { /* * we need first to create a wrapper. */ tmp2 = xmlRelaxNGNewDefine(ctxt, tmp->content->node); if (tmp2 == NULL) break; tmp2->type = XML_RELAXNG_GROUP; tmp2->content = tmp->content; } else { tmp2 = tmp->content; } if (last == NULL) { cur->content = tmp2; } else { last->next = tmp2; } last = tmp2; tmp->content = NULL; } tmp = tmp->nextHash; } define->content = cur; if (choiceOrInterleave == 0) { if (ctxt->interleaves == NULL) ctxt->interleaves = xmlHashCreate(10); if (ctxt->interleaves == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to create interleaves hash table\n"); ctxt->nbErrors++; } else { char tmpname[32]; snprintf(tmpname, 32, "interleave%d", ctxt->nbInterleaves++); if (xmlHashAddEntry(ctxt->interleaves, BAD_CAST tmpname, cur) < 0) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to add %s to hash table\n", tmpname); ctxt->nbErrors++; } } } } /** * xmlRelaxNGCombineStart: * @ctxt: a Relax-NG parser context * @grammar: the grammar * * Applies the 4.17. combine rule for all the start * element of a given grammar. */ static void xmlRelaxNGCombineStart(xmlRelaxNGParserCtxtPtr ctxt, xmlRelaxNGGrammarPtr grammar) { xmlRelaxNGDefinePtr starts; xmlChar *combine; int choiceOrInterleave = -1; int missing = 0; xmlRelaxNGDefinePtr cur; starts = grammar->start; if ((starts == NULL) || (starts->next == NULL)) return; cur = starts; while (cur != NULL) { if ((cur->node == NULL) || (cur->node->parent == NULL) || (!xmlStrEqual(cur->node->parent->name, BAD_CAST "start"))) { combine = NULL; if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Internal error: start element not found\n"); ctxt->nbErrors++; } else { combine = xmlGetProp(cur->node->parent, BAD_CAST "combine"); } if (combine != NULL) { if (xmlStrEqual(combine, BAD_CAST "choice")) { if (choiceOrInterleave == -1) choiceOrInterleave = 1; else if (choiceOrInterleave == 0) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, " use both 'choice' and 'interleave'\n"); ctxt->nbErrors++; } } else if (xmlStrEqual(combine, BAD_CAST "interleave")) { if (choiceOrInterleave == -1) choiceOrInterleave = 0; else if (choiceOrInterleave == 1) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, " use both 'choice' and 'interleave'\n"); ctxt->nbErrors++; } } else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, " uses unknown combine value '%s''\n", combine); ctxt->nbErrors++; } xmlFree(combine); } else { if (missing == 0) missing = 1; else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Some elements lacks the combine attribute\n"); ctxt->nbErrors++; } } cur = cur->next; } #ifdef DEBUG xmlGenericError(xmlGenericErrorContext, "xmlRelaxNGCombineStart(): merging : %d\n", choiceOrInterleave); #endif if (choiceOrInterleave == -1) choiceOrInterleave = 0; cur = xmlRelaxNGNewDefine(ctxt, starts->node); if (cur == NULL) return; if (choiceOrInterleave == 0) cur->type = XML_RELAXNG_INTERLEAVE; else cur->type = XML_RELAXNG_CHOICE; cur->content = grammar->start; grammar->start = cur; if (choiceOrInterleave == 0) { if (ctxt->interleaves == NULL) ctxt->interleaves = xmlHashCreate(10); if (ctxt->interleaves == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to create interleaves hash table\n"); ctxt->nbErrors++; } else { char tmpname[32]; snprintf(tmpname, 32, "interleave%d", ctxt->nbInterleaves++); if (xmlHashAddEntry(ctxt->interleaves, BAD_CAST tmpname, cur) < 0) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to add %s to hash table\n", tmpname); ctxt->nbErrors++; } } } } /** * xmlRelaxNGCheckCycles: * @ctxt: a Relax-NG parser context * @nodes: grammar children nodes * @depth: the counter * * Check for cycles. * * Returns 0 if check passed, and -1 in case of error */ static int xmlRelaxNGCheckCycles(xmlRelaxNGParserCtxtPtr ctxt, xmlRelaxNGDefinePtr cur, int depth) { int ret = 0; while ((ret == 0) && (cur != NULL)) { if ((cur->type == XML_RELAXNG_REF) || (cur->type == XML_RELAXNG_PARENTREF)) { if (cur->depth == -1) { cur->depth = depth; ret = xmlRelaxNGCheckCycles(ctxt, cur->content, depth); cur->depth = -2; } else if (depth == cur->depth) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Detected a cycle in %s references\n", cur->name); ctxt->nbErrors++; return(-1); } } else if (cur->type == XML_RELAXNG_ELEMENT) { ret = xmlRelaxNGCheckCycles(ctxt, cur->content, depth + 1); } else { ret = xmlRelaxNGCheckCycles(ctxt, cur->content, depth); } cur = cur->next; } return(ret); } /** * xmlRelaxNGTryUnlink: * @ctxt: a Relax-NG parser context * @cur: the definition to unlink * @parent: the parent definition * @prev: the previous sibling definition * * Try to unlink a definition. If not possble make it a NOOP * * Returns the new prev definition */ static xmlRelaxNGDefinePtr xmlRelaxNGTryUnlink(xmlRelaxNGParserCtxtPtr ctxt ATTRIBUTE_UNUSED, xmlRelaxNGDefinePtr cur, xmlRelaxNGDefinePtr parent, xmlRelaxNGDefinePtr prev) { if (prev != NULL) { prev->next = cur->next; } else { if (parent != NULL) { if (parent->content == cur) parent->content = cur->next; else if (parent->attrs == cur) parent->attrs = cur->next; else if (parent->nameClass == cur) parent->nameClass = cur->next; } else { cur->type = XML_RELAXNG_NOOP; prev = cur; } } return(prev); } /** * xmlRelaxNGSimplify: * @ctxt: a Relax-NG parser context * @nodes: grammar children nodes * * Check for simplification of empty and notAllowed */ static void xmlRelaxNGSimplify(xmlRelaxNGParserCtxtPtr ctxt, xmlRelaxNGDefinePtr cur, xmlRelaxNGDefinePtr parent) { xmlRelaxNGDefinePtr prev = NULL; while (cur != NULL) { if ((cur->type == XML_RELAXNG_REF) || (cur->type == XML_RELAXNG_PARENTREF)) { if (cur->depth != -3) { cur->depth = -3; xmlRelaxNGSimplify(ctxt, cur->content, cur); } } else if (cur->type == XML_RELAXNG_NOT_ALLOWED) { cur->parent = parent; if ((parent != NULL) && ((parent->type == XML_RELAXNG_ATTRIBUTE) || (parent->type == XML_RELAXNG_LIST) || (parent->type == XML_RELAXNG_GROUP) || (parent->type == XML_RELAXNG_INTERLEAVE) || (parent->type == XML_RELAXNG_ONEORMORE) || (parent->type == XML_RELAXNG_ZEROORMORE))) { parent->type = XML_RELAXNG_NOT_ALLOWED; break; } if ((parent != NULL) && (parent->type == XML_RELAXNG_CHOICE)) { prev = xmlRelaxNGTryUnlink(ctxt, cur, parent, prev); } else prev = cur; } else if (cur->type == XML_RELAXNG_EMPTY){ cur->parent = parent; if ((parent != NULL) && ((parent->type == XML_RELAXNG_ONEORMORE) || (parent->type == XML_RELAXNG_ZEROORMORE))) { parent->type = XML_RELAXNG_EMPTY; break; } if ((parent != NULL) && ((parent->type == XML_RELAXNG_GROUP) || (parent->type == XML_RELAXNG_INTERLEAVE))) { prev = xmlRelaxNGTryUnlink(ctxt, cur, parent, prev); } else prev = cur; } else { cur->parent = parent; if (cur->content != NULL) xmlRelaxNGSimplify(ctxt, cur->content, cur); if (cur->attrs != NULL) xmlRelaxNGSimplify(ctxt, cur->attrs, cur); if (cur->nameClass != NULL) xmlRelaxNGSimplify(ctxt, cur->nameClass, cur); /* * This may result in a simplification */ if ((cur->type == XML_RELAXNG_GROUP) || (cur->type == XML_RELAXNG_INTERLEAVE)) { if (cur->content == NULL) cur->type = XML_RELAXNG_EMPTY; else if (cur->content->next == NULL) { if ((parent == NULL) && (prev == NULL)) { cur->type = XML_RELAXNG_NOOP; } else if (prev == NULL) { parent->content = cur->content; cur->content->next = cur->next; cur = cur->content; } else { cur->content->next = cur->next; prev->next = cur->content; cur = cur->content; } } } /* * the current node may have been transformed back */ if ((cur->type == XML_RELAXNG_EXCEPT) && (cur->content != NULL) && (cur->content->type == XML_RELAXNG_NOT_ALLOWED)) { prev = xmlRelaxNGTryUnlink(ctxt, cur, parent, prev); } else if (cur->type == XML_RELAXNG_NOT_ALLOWED) { if ((parent != NULL) && ((parent->type == XML_RELAXNG_ATTRIBUTE) || (parent->type == XML_RELAXNG_LIST) || (parent->type == XML_RELAXNG_GROUP) || (parent->type == XML_RELAXNG_INTERLEAVE) || (parent->type == XML_RELAXNG_ONEORMORE) || (parent->type == XML_RELAXNG_ZEROORMORE))) { parent->type = XML_RELAXNG_NOT_ALLOWED; break; } if ((parent != NULL) && (parent->type == XML_RELAXNG_CHOICE)) { prev = xmlRelaxNGTryUnlink(ctxt, cur, parent, prev); } else prev = cur; } else if (cur->type == XML_RELAXNG_EMPTY){ if ((parent != NULL) && ((parent->type == XML_RELAXNG_ONEORMORE) || (parent->type == XML_RELAXNG_ZEROORMORE))) { parent->type = XML_RELAXNG_EMPTY; break; } if ((parent != NULL) && ((parent->type == XML_RELAXNG_GROUP) || (parent->type == XML_RELAXNG_INTERLEAVE) || (parent->type == XML_RELAXNG_CHOICE))) { prev = xmlRelaxNGTryUnlink(ctxt, cur, parent, prev); } else prev = cur; } else { prev = cur; } } cur = cur->next; } } /** * xmlRelaxNGGroupContentType: * @ct1: the first content type * @ct2: the second content type * * Try to group 2 content types * * Returns the content type */ static xmlRelaxNGContentType xmlRelaxNGGroupContentType(xmlRelaxNGContentType ct1, xmlRelaxNGContentType ct2) { if ((ct1 == XML_RELAXNG_CONTENT_ERROR) || (ct2 == XML_RELAXNG_CONTENT_ERROR)) return(XML_RELAXNG_CONTENT_ERROR); if (ct1 == XML_RELAXNG_CONTENT_EMPTY) return(ct2); if (ct2 == XML_RELAXNG_CONTENT_EMPTY) return(ct1); if ((ct1 == XML_RELAXNG_CONTENT_COMPLEX) && (ct2 == XML_RELAXNG_CONTENT_COMPLEX)) return(XML_RELAXNG_CONTENT_COMPLEX); return(XML_RELAXNG_CONTENT_ERROR); } /** * xmlRelaxNGMaxContentType: * @ct1: the first content type * @ct2: the second content type * * Compute the max content-type * * Returns the content type */ static xmlRelaxNGContentType xmlRelaxNGMaxContentType(xmlRelaxNGContentType ct1, xmlRelaxNGContentType ct2) { if ((ct1 == XML_RELAXNG_CONTENT_ERROR) || (ct2 == XML_RELAXNG_CONTENT_ERROR)) return(XML_RELAXNG_CONTENT_ERROR); if ((ct1 == XML_RELAXNG_CONTENT_SIMPLE) || (ct2 == XML_RELAXNG_CONTENT_SIMPLE)) return(XML_RELAXNG_CONTENT_SIMPLE); if ((ct1 == XML_RELAXNG_CONTENT_COMPLEX) || (ct2 == XML_RELAXNG_CONTENT_COMPLEX)) return(XML_RELAXNG_CONTENT_COMPLEX); return(XML_RELAXNG_CONTENT_EMPTY); } /** * xmlRelaxNGCheckRules: * @ctxt: a Relax-NG parser context * @cur: the current definition * @flags: some accumulated flags * @ptype: the parent type * * Check for rules in section 7.1 and 7.2 * * Returns the content type of @cur */ static xmlRelaxNGContentType xmlRelaxNGCheckRules(xmlRelaxNGParserCtxtPtr ctxt, xmlRelaxNGDefinePtr cur, int flags, xmlRelaxNGType ptype) { int nflags = flags; xmlRelaxNGContentType ret, tmp, val = XML_RELAXNG_CONTENT_EMPTY; while (cur != NULL) { ret = XML_RELAXNG_CONTENT_EMPTY; if ((cur->type == XML_RELAXNG_REF) || (cur->type == XML_RELAXNG_PARENTREF)) { if (flags & XML_RELAXNG_IN_LIST) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern list//ref\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_ATTRIBUTE) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern attribute//ref\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_DATAEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern data/except//ref\n"); ctxt->nbErrors++; } if (cur->depth > -4) { cur->depth = -4; ret = xmlRelaxNGCheckRules(ctxt, cur->content, flags, cur->type); cur->depth = ret - 15 ; } else if (cur->depth == -4) { ret = XML_RELAXNG_CONTENT_COMPLEX; } else { ret = (xmlRelaxNGContentType) cur->depth + 15; } } else if (cur->type == XML_RELAXNG_ELEMENT) { /* * The 7.3 Attribute derivation rule for groups is plugged there */ xmlRelaxNGCheckGroupAttrs(ctxt, cur); if (flags & XML_RELAXNG_IN_DATAEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern data/except//element(ref)\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_LIST) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern list//element(ref)\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_ATTRIBUTE) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern attribute//element(ref)\n"); ctxt->nbErrors++; } /* * reset since in the simple form elements are only child * of grammar/define */ nflags = 0; ret = xmlRelaxNGCheckRules(ctxt, cur->attrs, nflags, cur->type); if (ret != XML_RELAXNG_CONTENT_EMPTY) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element %s attributes have a content type error\n", cur->name); ctxt->nbErrors++; } ret = xmlRelaxNGCheckRules(ctxt, cur->content, nflags, cur->type); if (ret == XML_RELAXNG_CONTENT_ERROR) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element %s has a content type error\n", cur->name); ctxt->nbErrors++; } else { ret = XML_RELAXNG_CONTENT_COMPLEX; } } else if (cur->type == XML_RELAXNG_ATTRIBUTE) { if (flags & XML_RELAXNG_IN_ATTRIBUTE) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern attribute//attribute\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_LIST) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern list//attribute\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_OOMGROUP) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern oneOrMore//group//attribute\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_OOMINTERLEAVE) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern oneOrMore//interleave//attribute\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_DATAEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern data/except//attribute\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_START) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern start//attribute\n"); ctxt->nbErrors++; } nflags = flags | XML_RELAXNG_IN_ATTRIBUTE; xmlRelaxNGCheckRules(ctxt, cur->content, nflags, cur->type); ret = XML_RELAXNG_CONTENT_EMPTY; } else if ((cur->type == XML_RELAXNG_ONEORMORE) || (cur->type == XML_RELAXNG_ZEROORMORE)) { if (flags & XML_RELAXNG_IN_DATAEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern data/except//oneOrMore\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_START) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern start//oneOrMore\n"); ctxt->nbErrors++; } nflags = flags | XML_RELAXNG_IN_ONEORMORE; ret = xmlRelaxNGCheckRules(ctxt, cur->content, nflags, cur->type); ret = xmlRelaxNGGroupContentType(ret, ret); } else if (cur->type == XML_RELAXNG_LIST) { if (flags & XML_RELAXNG_IN_LIST) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern list//list\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_DATAEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern data/except//list\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_START) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern start//list\n"); ctxt->nbErrors++; } nflags = flags | XML_RELAXNG_IN_LIST; ret = xmlRelaxNGCheckRules(ctxt, cur->content, nflags, cur->type); } else if (cur->type == XML_RELAXNG_GROUP) { if (flags & XML_RELAXNG_IN_DATAEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern data/except//group\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_START) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern start//group\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_ONEORMORE) nflags = flags | XML_RELAXNG_IN_OOMGROUP; else nflags = flags; ret = xmlRelaxNGCheckRules(ctxt, cur->content, nflags, cur->type); /* * The 7.3 Attribute derivation rule for groups is plugged there */ xmlRelaxNGCheckGroupAttrs(ctxt, cur); } else if (cur->type == XML_RELAXNG_INTERLEAVE) { if (flags & XML_RELAXNG_IN_LIST) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern list//interleave\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_DATAEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern data/except//interleave\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_START) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern start//interleave\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_ONEORMORE) nflags = flags | XML_RELAXNG_IN_OOMINTERLEAVE; else nflags = flags; ret = xmlRelaxNGCheckRules(ctxt, cur->content, nflags, cur->type); } else if (cur->type == XML_RELAXNG_EXCEPT) { if ((cur->parent != NULL) && (cur->parent->type == XML_RELAXNG_DATATYPE)) nflags = flags | XML_RELAXNG_IN_DATAEXCEPT; else nflags = flags; ret = xmlRelaxNGCheckRules(ctxt, cur->content, nflags, cur->type); } else if (cur->type == XML_RELAXNG_DATATYPE) { if (flags & XML_RELAXNG_IN_START) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern start//data\n"); ctxt->nbErrors++; } xmlRelaxNGCheckRules(ctxt, cur->content, flags, cur->type); ret = XML_RELAXNG_CONTENT_SIMPLE; } else if (cur->type == XML_RELAXNG_VALUE) { if (flags & XML_RELAXNG_IN_START) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern start//value\n"); ctxt->nbErrors++; } xmlRelaxNGCheckRules(ctxt, cur->content, flags, cur->type); ret = XML_RELAXNG_CONTENT_SIMPLE; } else if (cur->type == XML_RELAXNG_TEXT) { if (flags & XML_RELAXNG_IN_LIST) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern list//text\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_DATAEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern data/except//text\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_START) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern start//text\n"); ctxt->nbErrors++; } ret = XML_RELAXNG_CONTENT_COMPLEX; } else if (cur->type == XML_RELAXNG_EMPTY) { if (flags & XML_RELAXNG_IN_DATAEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern data/except//empty\n"); ctxt->nbErrors++; } if (flags & XML_RELAXNG_IN_START) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found forbidden pattern start//empty\n"); ctxt->nbErrors++; } ret = XML_RELAXNG_CONTENT_EMPTY; } else { ret = xmlRelaxNGCheckRules(ctxt, cur->content, flags, cur->type); } cur = cur->next; if (ptype == XML_RELAXNG_GROUP) { val = xmlRelaxNGGroupContentType(val, ret); } else if (ptype == XML_RELAXNG_INTERLEAVE) { tmp = xmlRelaxNGGroupContentType(val, ret); if (tmp != XML_RELAXNG_CONTENT_ERROR) tmp = xmlRelaxNGMaxContentType(val, ret); } else if (ptype == XML_RELAXNG_CHOICE) { val = xmlRelaxNGMaxContentType(val, ret); } else if (ptype == XML_RELAXNG_LIST) { val = XML_RELAXNG_CONTENT_SIMPLE; } else if (ptype == XML_RELAXNG_EXCEPT) { if (ret == XML_RELAXNG_CONTENT_ERROR) val = XML_RELAXNG_CONTENT_ERROR; else val = XML_RELAXNG_CONTENT_SIMPLE; } else { val = xmlRelaxNGGroupContentType(val, ret); } } return(val); } /** * xmlRelaxNGParseGrammar: * @ctxt: a Relax-NG parser context * @nodes: grammar children nodes * * parse a Relax-NG node * * Returns the internal xmlRelaxNGGrammarPtr built or * NULL in case of error */ static xmlRelaxNGGrammarPtr xmlRelaxNGParseGrammar(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr nodes) { xmlRelaxNGGrammarPtr ret, tmp, old; ret = xmlRelaxNGNewGrammar(ctxt); if (ret == NULL) return(NULL); /* * Link the new grammar in the tree */ ret->parent = ctxt->grammar; if (ctxt->grammar != NULL) { tmp = ctxt->grammar->children; if (tmp == NULL) { ctxt->grammar->children = ret; } else { while (tmp->next != NULL) tmp = tmp->next; tmp->next = ret; } } old = ctxt->grammar; ctxt->grammar = ret; xmlRelaxNGParseGrammarContent(ctxt, nodes); ctxt->grammar = ret; if (ctxt->grammar == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to parse content\n"); ctxt->nbErrors++; } else if (ctxt->grammar->start == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Element has no \n"); ctxt->nbErrors++; } /* * Apply 4.17 mergingd rules to defines and starts */ xmlRelaxNGCombineStart(ctxt, ret); if (ret->defs != NULL) { xmlHashScan(ret->defs, (xmlHashScanner) xmlRelaxNGCheckCombine, ctxt); } /* * link together defines and refs in this grammar */ if (ret->refs != NULL) { xmlHashScan(ret->refs, (xmlHashScanner) xmlRelaxNGCheckReference, ctxt); } ctxt->grammar = old; return(ret); } /** * xmlRelaxNGParseDocument: * @ctxt: a Relax-NG parser context * @node: the root node of the RelaxNG schema * * parse a Relax-NG definition resource and build an internal * xmlRelaxNG struture which can be used to validate instances. * * Returns the internal XML RelaxNG structure built or * NULL in case of error */ static xmlRelaxNGPtr xmlRelaxNGParseDocument(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlRelaxNGPtr schema = NULL; const xmlChar *olddefine; xmlRelaxNGGrammarPtr old; if ((ctxt == NULL) || (node == NULL)) return (NULL); schema = xmlRelaxNGNewRelaxNG(ctxt); if (schema == NULL) return(NULL); olddefine = ctxt->define; ctxt->define = NULL; if (IS_RELAXNG(node, "grammar")) { schema->topgrammar = xmlRelaxNGParseGrammar(ctxt, node->children); } else { schema->topgrammar = xmlRelaxNGNewGrammar(ctxt); if (schema->topgrammar == NULL) { return(schema); } schema->topgrammar->parent = NULL; old = ctxt->grammar; ctxt->grammar = schema->topgrammar; xmlRelaxNGParseStart(ctxt, node); if (old != NULL) ctxt->grammar = old; } ctxt->define = olddefine; if (schema->topgrammar->start != NULL) { xmlRelaxNGCheckCycles(ctxt, schema->topgrammar->start, 0); if ((ctxt->flags & XML_RELAXNG_IN_EXTERNALREF) == 0) { xmlRelaxNGSimplify(ctxt, schema->topgrammar->start, NULL); while ((schema->topgrammar->start != NULL) && (schema->topgrammar->start->type == XML_RELAXNG_NOOP) && (schema->topgrammar->start->next != NULL)) schema->topgrammar->start = schema->topgrammar->start->content; xmlRelaxNGCheckRules(ctxt, schema->topgrammar->start, XML_RELAXNG_IN_START, XML_RELAXNG_NOOP); } } #ifdef DEBUG if (schema == NULL) xmlGenericError(xmlGenericErrorContext, "xmlRelaxNGParseDocument() failed\n"); #endif return (schema); } /************************************************************************ * * * Reading RelaxNGs * * * ************************************************************************/ /** * xmlRelaxNGNewParserCtxt: * @URL: the location of the schema * * Create an XML RelaxNGs parse context for that file/resource expected * to contain an XML RelaxNGs file. * * Returns the parser context or NULL in case of error */ xmlRelaxNGParserCtxtPtr xmlRelaxNGNewParserCtxt(const char *URL) { xmlRelaxNGParserCtxtPtr ret; if (URL == NULL) return(NULL); ret = (xmlRelaxNGParserCtxtPtr) xmlMalloc(sizeof(xmlRelaxNGParserCtxt)); if (ret == NULL) { xmlGenericError(xmlGenericErrorContext, "Failed to allocate new schama parser context for %s\n", URL); return (NULL); } memset(ret, 0, sizeof(xmlRelaxNGParserCtxt)); ret->URL = xmlStrdup((const xmlChar *)URL); ret->error = xmlGenericError; ret->userData = xmlGenericErrorContext; return (ret); } /** * xmlRelaxNGNewMemParserCtxt: * @buffer: a pointer to a char array containing the schemas * @size: the size of the array * * Create an XML RelaxNGs parse context for that memory buffer expected * to contain an XML RelaxNGs file. * * Returns the parser context or NULL in case of error */ xmlRelaxNGParserCtxtPtr xmlRelaxNGNewMemParserCtxt(const char *buffer, int size) { xmlRelaxNGParserCtxtPtr ret; if ((buffer == NULL) || (size <= 0)) return(NULL); ret = (xmlRelaxNGParserCtxtPtr) xmlMalloc(sizeof(xmlRelaxNGParserCtxt)); if (ret == NULL) { xmlGenericError(xmlGenericErrorContext, "Failed to allocate new schama parser context\n"); return (NULL); } memset(ret, 0, sizeof(xmlRelaxNGParserCtxt)); ret->buffer = buffer; ret->size = size; ret->error = xmlGenericError; ret->userData = xmlGenericErrorContext; return (ret); } /** * xmlRelaxNGFreeParserCtxt: * @ctxt: the schema parser context * * Free the resources associated to the schema parser context */ void xmlRelaxNGFreeParserCtxt(xmlRelaxNGParserCtxtPtr ctxt) { if (ctxt == NULL) return; if (ctxt->URL != NULL) xmlFree(ctxt->URL); if (ctxt->doc != NULL) xmlFreeDoc(ctxt->document); if (ctxt->interleaves != NULL) xmlHashFree(ctxt->interleaves, NULL); if (ctxt->documents != NULL) xmlHashFree(ctxt->documents, (xmlHashDeallocator) xmlRelaxNGFreeDocument); if (ctxt->includes != NULL) xmlHashFree(ctxt->includes, (xmlHashDeallocator) xmlRelaxNGFreeInclude); if (ctxt->docTab != NULL) xmlFree(ctxt->docTab); if (ctxt->incTab != NULL) xmlFree(ctxt->incTab); if (ctxt->defTab != NULL) { int i; for (i = 0;i < ctxt->defNr;i++) xmlRelaxNGFreeDefine(ctxt->defTab[i]); xmlFree(ctxt->defTab); } xmlFree(ctxt); } /** * xmlRelaxNGNormExtSpace: * @value: a value * * Removes the leading and ending spaces of the value * The string is modified "in situ" */ static void xmlRelaxNGNormExtSpace(xmlChar *value) { xmlChar *start = value; xmlChar *cur = value; if (value == NULL) return; while (IS_BLANK(*cur)) cur++; if (cur == start) { do { while ((*cur != 0) && (!IS_BLANK(*cur))) cur++; if (*cur == 0) return; start = cur; while (IS_BLANK(*cur)) cur++; if (*cur == 0) { *start = 0; return; } } while (1); } else { do { while ((*cur != 0) && (!IS_BLANK(*cur))) *start++ = *cur++; if (*cur == 0) { *start = 0; return; } /* don't try to normalize the inner spaces */ while (IS_BLANK(*cur)) cur++; *start++ = *cur++; if (*cur == 0) { *start = 0; return; } } while (1); } } /** * xmlRelaxNGCheckAttributes: * @ctxt: a Relax-NG parser context * @node: a Relax-NG node * * Check all the attributes on the given node */ static void xmlRelaxNGCleanupAttributes(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr node) { xmlAttrPtr cur, next; cur = node->properties; while (cur != NULL) { next = cur->next; if ((cur->ns == NULL) || (xmlStrEqual(cur->ns->href, xmlRelaxNGNs))) { if (xmlStrEqual(cur->name, BAD_CAST "name")) { if ((!xmlStrEqual(node->name, BAD_CAST "element")) && (!xmlStrEqual(node->name, BAD_CAST "attribute")) && (!xmlStrEqual(node->name, BAD_CAST "ref")) && (!xmlStrEqual(node->name, BAD_CAST "parentRef")) && (!xmlStrEqual(node->name, BAD_CAST "param")) && (!xmlStrEqual(node->name, BAD_CAST "define"))) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Attribute %s is not allowed on %s\n", cur->name, node->name); ctxt->nbErrors++; } } else if (xmlStrEqual(cur->name, BAD_CAST "type")) { if ((!xmlStrEqual(node->name, BAD_CAST "value")) && (!xmlStrEqual(node->name, BAD_CAST "data"))) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Attribute %s is not allowed on %s\n", cur->name, node->name); ctxt->nbErrors++; } } else if (xmlStrEqual(cur->name, BAD_CAST "href")) { if ((!xmlStrEqual(node->name, BAD_CAST "externalRef")) && (!xmlStrEqual(node->name, BAD_CAST "include"))) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Attribute %s is not allowed on %s\n", cur->name, node->name); ctxt->nbErrors++; } } else if (xmlStrEqual(cur->name, BAD_CAST "combine")) { if ((!xmlStrEqual(node->name, BAD_CAST "start")) && (!xmlStrEqual(node->name, BAD_CAST "define"))) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Attribute %s is not allowed on %s\n", cur->name, node->name); ctxt->nbErrors++; } } else if (xmlStrEqual(cur->name, BAD_CAST "datatypeLibrary")) { xmlChar *val; xmlURIPtr uri; val = xmlNodeListGetString(node->doc, cur->children, 1); if (val != NULL) { if (val[0] != 0) { uri = xmlParseURI((const char *) val); if (uri == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Attribute %s contains invalid URI %s\n", cur->name, val); ctxt->nbErrors++; } else { if (uri->scheme == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Attribute %s URI %s is not absolute\n", cur->name, val); ctxt->nbErrors++; } if (uri->fragment != NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Attribute %s URI %s has a fragment ID\n", cur->name, val); ctxt->nbErrors++; } xmlFreeURI(uri); } } xmlFree(val); } } else if (!xmlStrEqual(cur->name, BAD_CAST "ns")) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Unknown attribute %s on %s\n", cur->name, node->name); ctxt->nbErrors++; } } cur = next; } } /** * xmlRelaxNGCleanupTree: * @ctxt: a Relax-NG parser context * @root: an xmlNodePtr subtree * * Cleanup the subtree from unwanted nodes for parsing, resolve * Include and externalRef lookups. */ static void xmlRelaxNGCleanupTree(xmlRelaxNGParserCtxtPtr ctxt, xmlNodePtr root) { xmlNodePtr cur, delete; delete = NULL; cur = root; while (cur != NULL) { if (delete != NULL) { xmlUnlinkNode(delete); xmlFreeNode(delete); delete = NULL; } if (cur->type == XML_ELEMENT_NODE) { /* * Simplification 4.1. Annotations */ if ((cur->ns == NULL) || (!xmlStrEqual(cur->ns->href, xmlRelaxNGNs))) { if ((cur->parent != NULL) && (cur->parent->type == XML_ELEMENT_NODE) && ((xmlStrEqual(cur->parent->name, BAD_CAST "name")) || (xmlStrEqual(cur->parent->name, BAD_CAST "value")) || (xmlStrEqual(cur->parent->name, BAD_CAST "param")))) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "element %s doesn't allow foreign elements\n", cur->parent->name); ctxt->nbErrors++; } delete = cur; goto skip_children; } else { xmlRelaxNGCleanupAttributes(ctxt, cur); if (xmlStrEqual(cur->name, BAD_CAST "externalRef")) { xmlChar *href, *ns, *base, *URL; xmlRelaxNGDocumentPtr docu; xmlNodePtr tmp; ns = xmlGetProp(cur, BAD_CAST "ns"); if (ns == NULL) { tmp = cur->parent; while ((tmp != NULL) && (tmp->type == XML_ELEMENT_NODE)) { ns = xmlGetProp(tmp, BAD_CAST "ns"); if (ns != NULL) break; tmp = tmp->parent; } } href = xmlGetProp(cur, BAD_CAST "href"); if (href == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParse: externalRef has no href attribute\n"); ctxt->nbErrors++; delete = cur; goto skip_children; } base = xmlNodeGetBase(cur->doc, cur); URL = xmlBuildURI(href, base); if (URL == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to compute URL for externalRef %s\n", href); ctxt->nbErrors++; if (href != NULL) xmlFree(href); if (base != NULL) xmlFree(base); delete = cur; goto skip_children; } if (href != NULL) xmlFree(href); if (base != NULL) xmlFree(base); docu = xmlRelaxNGLoadExternalRef(ctxt, URL, ns); if (docu == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to load externalRef %s\n", URL); ctxt->nbErrors++; xmlFree(URL); delete = cur; goto skip_children; } if (ns != NULL) xmlFree(ns); xmlFree(URL); cur->_private = docu; } else if (xmlStrEqual(cur->name, BAD_CAST "include")) { xmlChar *href, *ns, *base, *URL; xmlRelaxNGIncludePtr incl; xmlNodePtr tmp; href = xmlGetProp(cur, BAD_CAST "href"); if (href == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParse: include has no href attribute\n"); ctxt->nbErrors++; delete = cur; goto skip_children; } base = xmlNodeGetBase(cur->doc, cur); URL = xmlBuildURI(href, base); if (URL == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to compute URL for include %s\n", href); ctxt->nbErrors++; if (href != NULL) xmlFree(href); if (base != NULL) xmlFree(base); delete = cur; goto skip_children; } if (href != NULL) xmlFree(href); if (base != NULL) xmlFree(base); ns = xmlGetProp(cur, BAD_CAST "ns"); if (ns == NULL) { tmp = cur->parent; while ((tmp != NULL) && (tmp->type == XML_ELEMENT_NODE)) { ns = xmlGetProp(tmp, BAD_CAST "ns"); if (ns != NULL) break; tmp = tmp->parent; } } incl = xmlRelaxNGLoadInclude(ctxt, URL, cur, ns); if (ns != NULL) xmlFree(ns); if (incl == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to load include %s\n", URL); ctxt->nbErrors++; xmlFree(URL); delete = cur; goto skip_children; } xmlFree(URL); cur->_private = incl; } else if ((xmlStrEqual(cur->name, BAD_CAST "element")) || (xmlStrEqual(cur->name, BAD_CAST "attribute"))) { xmlChar *name, *ns; xmlNodePtr text = NULL; /* * Simplification 4.8. name attribute of element * and attribute elements */ name = xmlGetProp(cur, BAD_CAST "name"); if (name != NULL) { if (cur->children == NULL) { text = xmlNewChild(cur, cur->ns, BAD_CAST "name", name); } else { xmlNodePtr node; node = xmlNewNode(cur->ns, BAD_CAST "name"); if (node != NULL) { xmlAddPrevSibling(cur->children, node); text = xmlNewText(name); xmlAddChild(node, text); text = node; } } if (text == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Failed to create a name %s element\n", name); ctxt->nbErrors++; } xmlUnsetProp(cur, BAD_CAST "name"); xmlFree(name); ns = xmlGetProp(cur, BAD_CAST "ns"); if (ns != NULL) { if (text != NULL) { xmlSetProp(text, BAD_CAST "ns", ns); /* xmlUnsetProp(cur, BAD_CAST "ns"); */ } xmlFree(ns); } else if (xmlStrEqual(cur->name, BAD_CAST "attribute")) { xmlSetProp(text, BAD_CAST "ns", BAD_CAST ""); } } } else if ((xmlStrEqual(cur->name, BAD_CAST "name")) || (xmlStrEqual(cur->name, BAD_CAST "nsName")) || (xmlStrEqual(cur->name, BAD_CAST "value"))) { /* * Simplification 4.8. name attribute of element * and attribute elements */ if (xmlHasProp(cur, BAD_CAST "ns") == NULL) { xmlNodePtr node; xmlChar *ns = NULL; node = cur->parent; while ((node != NULL) && (node->type == XML_ELEMENT_NODE)) { ns = xmlGetProp(node, BAD_CAST "ns"); if (ns != NULL) { break; } node = node->parent; } if (ns == NULL) { xmlSetProp(cur, BAD_CAST "ns", BAD_CAST ""); } else { xmlSetProp(cur, BAD_CAST "ns", ns); xmlFree(ns); } } if (xmlStrEqual(cur->name, BAD_CAST "name")) { xmlChar *name, *local, *prefix; /* * Simplification: 4.10. QNames */ name = xmlNodeGetContent(cur); if (name != NULL) { local = xmlSplitQName2(name, &prefix); if (local != NULL) { xmlNsPtr ns; ns = xmlSearchNs(cur->doc, cur, prefix); if (ns == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParse: no namespace for prefix %s\n", prefix); ctxt->nbErrors++; } else { xmlSetProp(cur, BAD_CAST "ns", ns->href); xmlNodeSetContent(cur, local); } xmlFree(local); xmlFree(prefix); } xmlFree(name); } } /* * 4.16 */ if (xmlStrEqual(cur->name, BAD_CAST "nsName")) { if (ctxt->flags & XML_RELAXNG_IN_NSEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found nsName/except//nsName forbidden construct\n"); ctxt->nbErrors++; } } } else if ((xmlStrEqual(cur->name, BAD_CAST "except")) && (cur != root)) { int oldflags = ctxt->flags; /* * 4.16 */ if ((cur->parent != NULL) && (xmlStrEqual(cur->parent->name, BAD_CAST "anyName"))) { ctxt->flags |= XML_RELAXNG_IN_ANYEXCEPT; xmlRelaxNGCleanupTree(ctxt, cur); ctxt->flags = oldflags; goto skip_children; } else if ((cur->parent != NULL) && (xmlStrEqual(cur->parent->name, BAD_CAST "nsName"))) { ctxt->flags |= XML_RELAXNG_IN_NSEXCEPT; xmlRelaxNGCleanupTree(ctxt, cur); ctxt->flags = oldflags; goto skip_children; } } else if (xmlStrEqual(cur->name, BAD_CAST "anyName")) { /* * 4.16 */ if (ctxt->flags & XML_RELAXNG_IN_ANYEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found anyName/except//anyName forbidden construct\n"); ctxt->nbErrors++; } else if (ctxt->flags & XML_RELAXNG_IN_NSEXCEPT) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "Found nsName/except//anyName forbidden construct\n"); ctxt->nbErrors++; } } /* * Thisd is not an else since "include" is transformed * into a div */ if (xmlStrEqual(cur->name, BAD_CAST "div")) { xmlChar *ns; xmlNodePtr child, ins, tmp; /* * implements rule 4.11 */ ns = xmlGetProp(cur, BAD_CAST "ns"); child = cur->children; ins = cur; while (child != NULL) { if (ns != NULL) { if (!xmlHasProp(child, BAD_CAST "ns")) { xmlSetProp(child, BAD_CAST "ns", ns); } } tmp = child->next; xmlUnlinkNode(child); ins = xmlAddNextSibling(ins, child); child = tmp; } if (ns != NULL) xmlFree(ns); delete = cur; goto skip_children; } } } /* * Simplification 4.2 whitespaces */ else if (cur->type == XML_TEXT_NODE) { if (IS_BLANK_NODE(cur)) { if (cur->parent->type == XML_ELEMENT_NODE) { if ((!xmlStrEqual(cur->parent->name, BAD_CAST "value")) && (!xmlStrEqual(cur->parent->name, BAD_CAST "param"))) delete = cur; } else { delete = cur; goto skip_children; } } } else if (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; } } /** * xmlRelaxNGCleanupDoc: * @ctxt: a Relax-NG parser context * @doc: an xmldocPtr document pointer * * Cleanup the document from unwanted nodes for parsing, resolve * Include and externalRef lookups. * * Returns the cleaned up document or NULL in case of error */ static xmlDocPtr xmlRelaxNGCleanupDoc(xmlRelaxNGParserCtxtPtr ctxt, xmlDocPtr doc) { xmlNodePtr root; /* * Extract the root */ root = xmlDocGetRootElement(doc); if (root == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParse: %s is empty\n", ctxt->URL); ctxt->nbErrors++; return (NULL); } xmlRelaxNGCleanupTree(ctxt, root); return(doc); } /** * xmlRelaxNGParse: * @ctxt: a Relax-NG parser 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 RelaxNG structure built from the resource or * NULL in case of error */ xmlRelaxNGPtr xmlRelaxNGParse(xmlRelaxNGParserCtxtPtr ctxt) { xmlRelaxNGPtr ret = NULL; xmlDocPtr doc; xmlNodePtr root; xmlRelaxNGInitTypes(); if (ctxt == NULL) return (NULL); /* * First step is to parse the input document into an DOM/Infoset */ if (ctxt->URL != NULL) { doc = xmlParseFile((const char *) ctxt->URL); if (doc == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParse: could not load %s\n", ctxt->URL); ctxt->nbErrors++; return (NULL); } } else if (ctxt->buffer != NULL) { doc = xmlParseMemory(ctxt->buffer, ctxt->size); if (doc == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParse: could not parse schemas\n"); ctxt->nbErrors++; return (NULL); } doc->URL = xmlStrdup(BAD_CAST "in_memory_buffer"); ctxt->URL = xmlStrdup(BAD_CAST "in_memory_buffer"); } else { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParse: nothing to parse\n"); ctxt->nbErrors++; return (NULL); } ctxt->document = doc; /* * Some preprocessing of the document content */ doc = xmlRelaxNGCleanupDoc(ctxt, doc); if (doc == NULL) { xmlFreeDoc(ctxt->document); ctxt->document = NULL; return(NULL); } /* * Then do the parsing for good */ root = xmlDocGetRootElement(doc); if (root == NULL) { if (ctxt->error != NULL) ctxt->error(ctxt->userData, "xmlRelaxNGParse: %s is empty\n", ctxt->URL); ctxt->nbErrors++; xmlFreeDoc(doc); return (NULL); } ret = xmlRelaxNGParseDocument(ctxt, root); if (ret == NULL) { xmlFreeDoc(doc); return(NULL); } /* * Check the ref/defines links */ /* * try to preprocess interleaves */ if (ctxt->interleaves != NULL) { xmlHashScan(ctxt->interleaves, (xmlHashScanner)xmlRelaxNGComputeInterleaves, ctxt); } /* * if there was a parsing error return NULL */ if (ctxt->nbErrors > 0) { xmlRelaxNGFree(ret); ctxt->document = NULL; xmlFreeDoc(doc); return(NULL); } /* * Transfer the pointer for cleanup at the schema level. */ ret->doc = doc; ctxt->document = NULL; ret->documents = ctxt->documents; ctxt->documents = NULL; ret->includes = ctxt->includes; ctxt->includes = NULL; ret->defNr = ctxt->defNr; ret->defTab = ctxt->defTab; ctxt->defTab = NULL; return (ret); } /** * xmlRelaxNGSetParserErrors: * @ctxt: a Relax-NG 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 xmlRelaxNGSetParserErrors(xmlRelaxNGParserCtxtPtr ctxt, xmlRelaxNGValidityErrorFunc err, xmlRelaxNGValidityWarningFunc warn, void *ctx) { if (ctxt == NULL) return; ctxt->error = err; ctxt->warning = warn; ctxt->userData = ctx; } /************************************************************************ * * * Dump back a compiled form * * * ************************************************************************/ static void xmlRelaxNGDumpDefine(FILE * output, xmlRelaxNGDefinePtr define); /** * xmlRelaxNGDumpDefines: * @output: the file output * @defines: a list of define structures * * Dump a RelaxNG structure back */ static void xmlRelaxNGDumpDefines(FILE * output, xmlRelaxNGDefinePtr defines) { while (defines != NULL) { xmlRelaxNGDumpDefine(output, defines); defines = defines->next; } } /** * xmlRelaxNGDumpDefine: * @output: the file output * @define: a define structure * * Dump a RelaxNG structure back */ static void xmlRelaxNGDumpDefine(FILE * output, xmlRelaxNGDefinePtr define) { if (define == NULL) return; switch(define->type) { case XML_RELAXNG_EMPTY: fprintf(output, "\n"); break; case XML_RELAXNG_NOT_ALLOWED: fprintf(output, "\n"); break; case XML_RELAXNG_TEXT: fprintf(output, "\n"); break; case XML_RELAXNG_ELEMENT: fprintf(output, "\n"); if (define->name != NULL) { fprintf(output, "ns != NULL) fprintf(output, " ns=\"%s\"", define->ns); fprintf(output, ">%s\n", define->name); } xmlRelaxNGDumpDefines(output, define->attrs); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_LIST: fprintf(output, "\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_ONEORMORE: fprintf(output, "\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_ZEROORMORE: fprintf(output, "\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_CHOICE: fprintf(output, "\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_GROUP: fprintf(output, "\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_INTERLEAVE: fprintf(output, "\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_OPTIONAL: fprintf(output, "\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_ATTRIBUTE: fprintf(output, "\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_DEF: fprintf(output, "name != NULL) fprintf(output, " name=\"%s\"", define->name); fprintf(output, ">\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_REF: fprintf(output, "name != NULL) fprintf(output, " name=\"%s\"", define->name); fprintf(output, ">\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_PARENTREF: fprintf(output, "name != NULL) fprintf(output, " name=\"%s\"", define->name); fprintf(output, ">\n"); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_EXTERNALREF: fprintf(output, ""); xmlRelaxNGDumpDefines(output, define->content); fprintf(output, "\n"); break; case XML_RELAXNG_DATATYPE: case XML_RELAXNG_VALUE: TODO break; case XML_RELAXNG_START: case XML_RELAXNG_EXCEPT: case XML_RELAXNG_PARAM: TODO break; case XML_RELAXNG_NOOP: xmlRelaxNGDumpDefines(output, define->content); break; } } /** * xmlRelaxNGDumpGrammar: * @output: the file output * @grammar: a grammar structure * @top: is this a top grammar * * Dump a RelaxNG structure back */ static void xmlRelaxNGDumpGrammar(FILE * output, xmlRelaxNGGrammarPtr grammar, int top) { if (grammar == NULL) return; fprintf(output, "combine) { case XML_RELAXNG_COMBINE_UNDEFINED: break; case XML_RELAXNG_COMBINE_CHOICE: fprintf(output, " combine=\"choice\""); break; case XML_RELAXNG_COMBINE_INTERLEAVE: fprintf(output, " combine=\"interleave\""); break; default: fprintf(output, " "); } fprintf(output, ">\n"); if (grammar->start == NULL) { fprintf(output, " "); } else { fprintf(output, "\n"); xmlRelaxNGDumpDefine(output, grammar->start); fprintf(output, "\n"); } /* TODO ? Dump the defines ? */ fprintf(output, "\n"); } /** * xmlRelaxNGDump: * @output: the file output * @schema: a schema structure * * Dump a RelaxNG structure back */ void xmlRelaxNGDump(FILE * output, xmlRelaxNGPtr schema) { if (schema == NULL) { fprintf(output, "RelaxNG empty or failed to compile\n"); return; } fprintf(output, "RelaxNG: "); if (schema->doc == NULL) { fprintf(output, "no document\n"); } else if (schema->doc->URL != NULL) { fprintf(output, "%s\n", schema->doc->URL); } else { fprintf(output, "\n"); } if (schema->topgrammar == NULL) { fprintf(output, "RelaxNG has no top grammar\n"); return; } xmlRelaxNGDumpGrammar(output, schema->topgrammar, 1); } /** * xmlRelaxNGDumpTree: * @output: the file output * @schema: a schema structure * * Dump the transformed RelaxNG tree. */ void xmlRelaxNGDumpTree(FILE * output, xmlRelaxNGPtr schema) { if (schema == NULL) { fprintf(output, "RelaxNG empty or failed to compile\n"); return; } if (schema->doc == NULL) { fprintf(output, "no document\n"); } else { xmlDocDump(output, schema->doc); } } /************************************************************************ * * * Validation implementation * * * ************************************************************************/ static int xmlRelaxNGValidateDefinition(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr define); static int xmlRelaxNGValidateValue(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr define); /** * xmlRelaxNGSkipIgnored: * @ctxt: a schema validation context * @node: the top node. * * Skip ignorable nodes in that context * * Returns the new sibling or NULL in case of error. */ static xmlNodePtr xmlRelaxNGSkipIgnored(xmlRelaxNGValidCtxtPtr ctxt ATTRIBUTE_UNUSED, xmlNodePtr node) { /* * TODO complete and handle entities */ while ((node != NULL) && ((node->type == XML_COMMENT_NODE) || (node->type == XML_PI_NODE) || ((node->type == XML_TEXT_NODE) && (IS_BLANK_NODE(node))))) { node = node->next; } return(node); } /** * xmlRelaxNGNormalize: * @ctxt: a schema validation context * @str: the string to normalize * * Implements the normalizeWhiteSpace( s ) function from * section 6.2.9 of the spec * * Returns the new string or NULL in case of error. */ static xmlChar * xmlRelaxNGNormalize(xmlRelaxNGValidCtxtPtr ctxt, const xmlChar *str) { xmlChar *ret, *p; const xmlChar *tmp; int len; if (str == NULL) return(NULL); tmp = str; while (*tmp != 0) tmp++; len = tmp - str; ret = (xmlChar *) xmlMalloc((len + 1) * sizeof(xmlChar)); if (ret == NULL) { if (ctxt != NULL) { VALID_CTXT(); VALID_ERROR("xmlRelaxNGNormalize: out of memory\n"); } else { xmlGenericError(xmlGenericErrorContext, "xmlRelaxNGNormalize: out of memory\n"); } return(NULL); } p = ret; while (IS_BLANK(*str)) str++; while (*str != 0) { if (IS_BLANK(*str)) { while (IS_BLANK(*str)) str++; if (*str == 0) break; *p++ = ' '; } else *p++ = *str++; } *p = 0; return(ret); } /** * xmlRelaxNGValidateDatatype: * @ctxt: a Relax-NG validation context * @value: the string value * @type: the datatype definition * * Validate the given value against the dataype * * Returns 0 if the validation succeeded or an error code. */ static int xmlRelaxNGValidateDatatype(xmlRelaxNGValidCtxtPtr ctxt, const xmlChar *value, xmlRelaxNGDefinePtr define) { int ret; xmlRelaxNGTypeLibraryPtr lib; if ((define == NULL) || (define->data == NULL)) { return(-1); } lib = (xmlRelaxNGTypeLibraryPtr) define->data; if (lib->check != NULL) ret = lib->check(lib->data, define->name, value); else ret = -1; if (ret < 0) { VALID_CTXT(); VALID_ERROR2("Internal: failed to validate type %s\n", define->name); return(-1); } else if (ret == 1) { ret = 0; } else { VALID_CTXT(); VALID_ERROR3("Type %s doesn't allow value %s\n", define->name, value); return(-1); ret = -1; } if ((ret == 0) && (define->content != NULL)) { const xmlChar *oldvalue, *oldendvalue; oldvalue = ctxt->state->value; oldendvalue = ctxt->state->endvalue; ctxt->state->value = (xmlChar *) value; ctxt->state->endvalue = NULL; ret = xmlRelaxNGValidateValue(ctxt, define->content); ctxt->state->value = (xmlChar *) oldvalue; ctxt->state->endvalue = (xmlChar *) oldendvalue; } return(ret); } /** * xmlRelaxNGNextValue: * @ctxt: a Relax-NG validation context * * Skip to the next value when validating within a list * * Returns 0 if the operation succeeded or an error code. */ static int xmlRelaxNGNextValue(xmlRelaxNGValidCtxtPtr ctxt) { xmlChar *cur; cur = ctxt->state->value; if ((cur == NULL) || (ctxt->state->endvalue == NULL)) { ctxt->state->value = NULL; ctxt->state->endvalue = NULL; return(0); } while (*cur != 0) cur++; while ((cur != ctxt->state->endvalue) && (*cur == 0)) cur++; if (cur == ctxt->state->endvalue) ctxt->state->value = NULL; else ctxt->state->value = cur; return(0); } /** * xmlRelaxNGValidateValueList: * @ctxt: a Relax-NG validation context * @defines: the list of definitions to verify * * Validate the given set of definitions for the current value * * Returns 0 if the validation succeeded or an error code. */ static int xmlRelaxNGValidateValueList(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr defines) { int ret = 0; while (defines != NULL) { ret = xmlRelaxNGValidateValue(ctxt, defines); if (ret != 0) break; defines = defines->next; } return(ret); } /** * xmlRelaxNGValidateValue: * @ctxt: a Relax-NG validation context * @define: the definition to verify * * Validate the given definition for the current value * * Returns 0 if the validation succeeded or an error code. */ static int xmlRelaxNGValidateValue(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr define) { int ret = 0, oldflags; xmlChar *value; value = ctxt->state->value; switch (define->type) { case XML_RELAXNG_EMPTY: { if ((value != NULL) && (value[0] != 0)) { int idx = 0; while (IS_BLANK(value[idx])) idx++; if (value[idx] != 0) ret = -1; } break; } case XML_RELAXNG_TEXT: break; case XML_RELAXNG_VALUE: { if (!xmlStrEqual(value, define->value)) { if (define->name != NULL) { xmlRelaxNGTypeLibraryPtr lib; lib = (xmlRelaxNGTypeLibraryPtr) define->data; if ((lib != NULL) && (lib->comp != NULL)) ret = lib->comp(lib->data, define->name, value, define->value); else ret = -1; if (ret < 0) { VALID_CTXT(); VALID_ERROR2("Internal: failed to compare type %s\n", define->name); return(-1); } else if (ret == 1) { ret = 0; } else { ret = -1; } } else { xmlChar *nval, *nvalue; /* * TODO: trivial optimizations are possible by * computing at compile-time */ nval = xmlRelaxNGNormalize(ctxt, define->value); nvalue = xmlRelaxNGNormalize(ctxt, value); if ((nval == NULL) || (nvalue == NULL) || (!xmlStrEqual(nval, nvalue))) ret = -1; if (nval != NULL) xmlFree(nval); if (nvalue != NULL) xmlFree(nvalue); } } if (ret == 0) xmlRelaxNGNextValue(ctxt); break; } case XML_RELAXNG_DATATYPE: { ret = xmlRelaxNGValidateDatatype(ctxt, value, define); if (ret == 0) xmlRelaxNGNextValue(ctxt); break; } case XML_RELAXNG_CHOICE: { xmlRelaxNGDefinePtr list = define->content; xmlChar *oldvalue; oldflags = ctxt->flags; ctxt->flags |= FLAGS_IGNORABLE; oldvalue = ctxt->state->value; while (list != NULL) { ret = xmlRelaxNGValidateValue(ctxt, list); if (ret == 0) { break; } ctxt->state->value = oldvalue; list = list->next; } ctxt->flags = oldflags; if (ret == 0) xmlRelaxNGNextValue(ctxt); break; } case XML_RELAXNG_LIST: { xmlRelaxNGDefinePtr list = define->content; xmlChar *oldvalue, *oldend, *val, *cur; #ifdef DEBUG_LIST int nb_values = 0; #endif oldvalue = ctxt->state->value; oldend = ctxt->state->endvalue; val = xmlStrdup(oldvalue); if (val == NULL) { val = xmlStrdup(BAD_CAST ""); } if (val == NULL) { VALID_CTXT(); VALID_ERROR("Internal: no state\n"); return(-1); } cur = val; while (*cur != 0) { if (IS_BLANK(*cur)) { *cur = 0; cur++; #ifdef DEBUG_LIST nb_values++; #endif while (IS_BLANK(*cur)) *cur++ = 0; } else cur++; } #ifdef DEBUG_LIST xmlGenericError(xmlGenericErrorContext, "list value: '%s' found %d items\n", oldvalue, nb_values); nb_values = 0; #endif ctxt->state->endvalue = cur; cur = val; while ((*cur == 0) && (cur != ctxt->state->endvalue)) cur++; ctxt->state->value = cur; while (list != NULL) { if (ctxt->state->value == ctxt->state->endvalue) ctxt->state->value = NULL; ret = xmlRelaxNGValidateValue(ctxt, list); if (ret != 0) { #ifdef DEBUG_LIST xmlGenericError(xmlGenericErrorContext, "Failed to validate value: '%s' with %d rule\n", ctxt->state->value, nb_values); #endif break; } #ifdef DEBUG_LIST nb_values++; #endif list = list->next; } if ((ret == 0) && (ctxt->state->value != NULL) && (ctxt->state->value != ctxt->state->endvalue)) { VALID_CTXT(); VALID_ERROR2("Extra data in list: %s\n", ctxt->state->value); ret = -1; } xmlFree(val); ctxt->state->value = oldvalue; ctxt->state->endvalue = oldend; break; } case XML_RELAXNG_ONEORMORE: ret = xmlRelaxNGValidateValueList(ctxt, define->content); if (ret != 0) { break; } /* no break on purpose */ case XML_RELAXNG_ZEROORMORE: { xmlChar *cur, *temp; oldflags = ctxt->flags; ctxt->flags |= FLAGS_IGNORABLE; cur = ctxt->state->value; temp = NULL; while ((cur != NULL) && (cur != ctxt->state->endvalue) && (temp != cur)) { temp = cur; ret = xmlRelaxNGValidateValueList(ctxt, define->content); if (ret != 0) { ctxt->state->value = temp; ret = 0; break; } cur = ctxt->state->value; } ctxt->flags = oldflags; break; } case XML_RELAXNG_EXCEPT: { xmlRelaxNGDefinePtr list; list = define->content; while (list != NULL) { ret = xmlRelaxNGValidateValue(ctxt, list); if (ret == 0) { ret = -1; break; } else ret = 0; list = list->next; } break; } case XML_RELAXNG_GROUP: { xmlRelaxNGDefinePtr list; list = define->content; while (list != NULL) { ret = xmlRelaxNGValidateValue(ctxt, list); if (ret != 0) { ret = -1; break; } else ret = 0; list = list->next; } break; } default: TODO ret = -1; } return(ret); } /** * xmlRelaxNGValidateValueContent: * @ctxt: a Relax-NG validation context * @defines: the list of definitions to verify * * Validate the given definitions for the current value * * Returns 0 if the validation succeeded or an error code. */ static int xmlRelaxNGValidateValueContent(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr defines) { int ret = 0; while (defines != NULL) { ret = xmlRelaxNGValidateValue(ctxt, defines); if (ret != 0) break; defines = defines->next; } return(ret); } /** * xmlRelaxNGAttributeMatch: * @ctxt: a Relax-NG validation context * @define: the definition to check * @prop: the attribute * * Check if the attribute matches the definition nameClass * * Returns 1 if the attribute matches, 0 if no, or -1 in case of error */ static int xmlRelaxNGAttributeMatch(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr define, xmlAttrPtr prop) { int ret; if (define->name != NULL) { if (!xmlStrEqual(define->name, prop->name)) return(0); } if (define->ns != NULL) { if (define->ns[0] == 0) { if (prop->ns != NULL) return(0); } else { if ((prop->ns == NULL) || (!xmlStrEqual(define->ns, prop->ns->href))) return(0); } } if (define->nameClass == NULL) return(1); define = define->nameClass; if (define->type == XML_RELAXNG_EXCEPT) { xmlRelaxNGDefinePtr list; list = define->content; while (list != NULL) { ret = xmlRelaxNGAttributeMatch(ctxt, list, prop); if (ret == 1) return(0); if (ret < 0) return(ret); list = list->next; } } else { TODO } return(1); } /** * xmlRelaxNGValidateAttribute: * @ctxt: a Relax-NG validation context * @define: the definition to verify * * Validate the given attribute definition for that node * * Returns 0 if the validation succeeded or an error code. */ static int xmlRelaxNGValidateAttribute(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr define) { int ret = 0, i; xmlChar *value, *oldvalue; xmlAttrPtr prop = NULL, tmp; if (ctxt->state->nbAttrLeft <= 0) return(-1); if (define->name != NULL) { for (i = 0;i < ctxt->state->nbAttrs;i++) { tmp = ctxt->state->attrs[i]; if ((tmp != NULL) && (xmlStrEqual(define->name, tmp->name))) { if ((((define->ns == NULL) || (define->ns[0] == 0)) && (tmp->ns == NULL)) || ((tmp->ns != NULL) && (xmlStrEqual(define->ns, tmp->ns->href)))) { prop = tmp; break; } } } if (prop != NULL) { value = xmlNodeListGetString(prop->doc, prop->children, 1); oldvalue = ctxt->state->value; ctxt->state->value = value; ctxt->state->endvalue = NULL; ret = xmlRelaxNGValidateValueContent(ctxt, define->content); if (ctxt->state->value != NULL) value = ctxt->state->value; if (value != NULL) xmlFree(value); ctxt->state->value = oldvalue; if (ret == 0) { /* * flag the attribute as processed */ ctxt->state->attrs[i] = NULL; ctxt->state->nbAttrLeft--; } } else { ret = -1; } #ifdef DEBUG xmlGenericError(xmlGenericErrorContext, "xmlRelaxNGValidateAttribute(%s): %d\n", define->name, ret); #endif } else { for (i = 0;i < ctxt->state->nbAttrs;i++) { tmp = ctxt->state->attrs[i]; if ((tmp != NULL) && (xmlRelaxNGAttributeMatch(ctxt, define, tmp) == 1)) { prop = tmp; break; } } if (prop != NULL) { value = xmlNodeListGetString(prop->doc, prop->children, 1); oldvalue = ctxt->state->value; ctxt->state->value = value; ret = xmlRelaxNGValidateValueContent(ctxt, define->content); if (ctxt->state->value != NULL) value = ctxt->state->value; if (value != NULL) xmlFree(value); ctxt->state->value = oldvalue; if (ret == 0) { /* * flag the attribute as processed */ ctxt->state->attrs[i] = NULL; ctxt->state->nbAttrLeft--; } } else { ret = -1; } #ifdef DEBUG if (define->ns != NULL) { xmlGenericError(xmlGenericErrorContext, "xmlRelaxNGValidateAttribute(nsName ns = %s): %d\n", define->ns, ret); } else { xmlGenericError(xmlGenericErrorContext, "xmlRelaxNGValidateAttribute(anyName): %d\n", ret); } #endif } return(ret); } /** * xmlRelaxNGValidateAttributeList: * @ctxt: a Relax-NG validation context * @define: the list of definition to verify * * Validate the given node against the list of attribute definitions * * Returns 0 if the validation succeeded or an error code. */ static int xmlRelaxNGValidateAttributeList(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr defines) { int ret = 0; while (defines != NULL) { if (xmlRelaxNGValidateAttribute(ctxt, defines) != 0) ret = -1; defines = defines->next; } return(ret); } /** * xmlRelaxNGNodeMatchesList: * @node: the node * @list: a NULL terminated array of definitions * * Check if a node can be matched by one of the definitions * * Returns 1 if matches 0 otherwise */ static int xmlRelaxNGNodeMatchesList(xmlNodePtr node, xmlRelaxNGDefinePtr *list) { xmlRelaxNGDefinePtr cur; int i = 0; if ((node == NULL) || (list == NULL)) return(0); cur = list[i++]; while (cur != NULL) { if ((node->type == XML_ELEMENT_NODE) && (cur->type == XML_RELAXNG_ELEMENT)) { if (cur->name == NULL) { if ((node->ns != NULL) && (xmlStrEqual(node->ns->href, cur->ns))) return(1); } else if (xmlStrEqual(cur->name, node->name)) { if ((cur->ns == NULL) || (cur->ns[0] == 0)) { if (node->ns == NULL) return(1); } else { if ((node->ns != NULL) && (xmlStrEqual(node->ns->href, cur->ns))) return(1); } } } else if ((node->type == XML_TEXT_NODE) && (cur->type == XML_RELAXNG_TEXT)) { return(1); } cur = list[i++]; } return(0); } /** * xmlRelaxNGValidateInterleave: * @ctxt: a Relax-NG validation context * @define: the definition to verify * * Validate an interleave definition for a node. * * Returns 0 if the validation succeeded or an error code. */ static int xmlRelaxNGValidateInterleave(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr define) { int ret = 0, i, nbgroups, left; xmlRelaxNGPartitionPtr partitions; xmlRelaxNGInterleaveGroupPtr group = NULL; xmlNodePtr cur, start, last = NULL, lastchg = NULL, lastelem; xmlNodePtr *list = NULL, *lasts = NULL; if (define->data != NULL) { partitions = (xmlRelaxNGPartitionPtr) define->data; nbgroups = partitions->nbgroups; left = nbgroups; } else { VALID_CTXT(); VALID_ERROR("Internal: interleave block has no data\n"); return(-1); } /* * Build arrays to store the first and last node of the chain * pertaining to each group */ list = (xmlNodePtr *) xmlMalloc(nbgroups * sizeof(xmlNodePtr)); if (list == NULL) { VALID_CTXT(); VALID_ERROR("Internal: out of memory in interleave check\n"); return(-1); } memset(list, 0, nbgroups * sizeof(xmlNodePtr)); lasts = (xmlNodePtr *) xmlMalloc(nbgroups * sizeof(xmlNodePtr)); if (lasts == NULL) { VALID_CTXT(); VALID_ERROR("Internal: out of memory in interleave check\n"); return(-1); } memset(lasts, 0, nbgroups * sizeof(xmlNodePtr)); /* * Walk the sequence of children finding the right group and * sorting them in sequences. */ cur = ctxt->state->seq; cur = xmlRelaxNGSkipIgnored(ctxt, cur); start = cur; while (cur != NULL) { ctxt->state->seq = cur; for (i = 0;i < nbgroups;i++) { group = partitions->groups[i]; if (group == NULL) continue; if (xmlRelaxNGNodeMatchesList(cur, group->defs)) break; } /* * We break as soon as an element not matched is found */ if (i >= nbgroups) { break; } if (lasts[i] != NULL) { lasts[i]->next = cur; lasts[i] = cur; } else { list[i] = cur; lasts[i] = cur; } if (cur->next != NULL) lastchg = cur->next; else lastchg = cur; cur = xmlRelaxNGSkipIgnored(ctxt, cur->next); } if (ret != 0) { VALID_CTXT(); VALID_ERROR("Invalid sequence in interleave\n"); ret = -1; goto done; } lastelem = cur; for (i = 0;i < nbgroups;i++) { group = partitions->groups[i]; if (lasts[i] != NULL) { last = lasts[i]->next; lasts[i]->next = NULL; } ctxt->state->seq = list[i]; ret = xmlRelaxNGValidateDefinition(ctxt, group->rule); if (ret != 0) break; cur = ctxt->state->seq; cur = xmlRelaxNGSkipIgnored(ctxt, cur); if (cur != NULL) { VALID_CTXT(); VALID_ERROR2("Extra element %s in interleave\n", cur->name); ret = -1; goto done; } if (lasts[i] != NULL) { lasts[i]->next = last; } } ctxt->state->seq = lastelem; if (ret != 0) { VALID_CTXT(); VALID_ERROR("Invalid sequence in interleave\n"); ret = -1; goto done; } done: /* * builds the next links chain from the prev one */ cur = lastchg; while (cur != NULL) { if ((cur == start) || (cur->prev == NULL)) break; cur->prev->next = cur; cur = cur->prev; } xmlFree(list); xmlFree(lasts); return(ret); } /** * xmlRelaxNGValidateElementContent: * @ctxt: a Relax-NG validation context * @define: the list of definition to verify * * Validate the given node content against the (list) of definitions * * Returns 0 if the validation succeeded or an error code. */ static int xmlRelaxNGValidateElementContent(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr defines) { int ret = 0, res; if (ctxt->state == NULL) { VALID_CTXT(); VALID_ERROR("Internal: no state\n"); return(-1); } while (defines != NULL) { res = xmlRelaxNGValidateDefinition(ctxt, defines); if (res < 0) ret = -1; defines = defines->next; } return(ret); } /** * xmlRelaxNGElementMatch: * @ctxt: a Relax-NG validation context * @define: the definition to check * @elem: the element * * Check if the element matches the definition nameClass * * Returns 1 if the element matches, 0 if no, or -1 in case of error */ static int xmlRelaxNGElementMatch(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr define, xmlNodePtr elem) { int ret, oldflags; if (define->name != NULL) { if (!xmlStrEqual(elem->name, define->name)) { VALID_CTXT(); VALID_ERROR3("Expecting element %s, got %s\n", define->name, elem->name); return(0); } } if ((define->ns != NULL) && (define->ns[0] != 0)) { if (elem->ns == NULL) { VALID_CTXT(); VALID_ERROR2("Expecting a namespace for element %s\n", elem->name); return(0); } else if (!xmlStrEqual(elem->ns->href, define->ns)) { VALID_CTXT(); VALID_ERROR3("Expecting element %s has wrong namespace: expecting %s\n", elem->name, define->ns); return(0); } } else if ((elem->ns != NULL) && (define->ns != NULL) && (define->name == NULL)) { VALID_CTXT(); VALID_ERROR2("Expecting no namespace for element %s\n", define->name); return(0); } else if ((elem->ns != NULL) && (define->name != NULL)) { VALID_CTXT(); VALID_ERROR2("Expecting no namespace for element %s\n", define->name); return(0); } if (define->nameClass == NULL) return(1); define = define->nameClass; if (define->type == XML_RELAXNG_EXCEPT) { xmlRelaxNGDefinePtr list; oldflags = ctxt->flags; ctxt->flags |= FLAGS_IGNORABLE; list = define->content; while (list != NULL) { ret = xmlRelaxNGElementMatch(ctxt, list, elem); if (ret == 1) { ctxt->flags = oldflags; return(0); } if (ret < 0) { ctxt->flags = oldflags; return(ret); } list = list->next; } ret = 1; ctxt->flags = oldflags; } else if (define->type == XML_RELAXNG_CHOICE) { xmlRelaxNGDefinePtr list; oldflags = ctxt->flags; ctxt->flags |= FLAGS_IGNORABLE; list = define->nameClass; while (list != NULL) { ret = xmlRelaxNGElementMatch(ctxt, list, elem); if (ret == 1) { ctxt->flags = oldflags; return(1); } if (ret < 0) { ctxt->flags = oldflags; return(ret); } list = list->next; } ret = 0; ctxt->flags = oldflags; } else { TODO ret = -1; } return(ret); } /** * xmlRelaxNGValidateDefinition: * @ctxt: a Relax-NG validation context * @define: the definition to verify * * Validate the current node against the definition * * Returns 0 if the validation succeeded or an error code. */ static int xmlRelaxNGValidateDefinition(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGDefinePtr define) { xmlNodePtr node; int ret = 0, i, tmp, oldflags; xmlRelaxNGValidStatePtr oldstate, state; if (define == NULL) { VALID_CTXT(); VALID_ERROR("internal error: define == NULL\n"); return(-1); } if (ctxt->state != NULL) { node = ctxt->state->seq; } else { node = NULL; } #ifdef DEBUG for (i = 0;i < ctxt->depth;i++) xmlGenericError(xmlGenericErrorContext, " "); xmlGenericError(xmlGenericErrorContext, "Start validating %s ", xmlRelaxNGDefName(define)); if (define->name != NULL) xmlGenericError(xmlGenericErrorContext, "%s ", define->name); if ((node != NULL) && (node->name != NULL)) xmlGenericError(xmlGenericErrorContext, "on %s\n", node->name); else xmlGenericError(xmlGenericErrorContext, "\n"); #endif ctxt->depth++; switch (define->type) { case XML_RELAXNG_EMPTY: node = xmlRelaxNGSkipIgnored(ctxt, node); if (node != NULL) { VALID_CTXT(); VALID_ERROR("Expecting an empty element\n"); ret = -1; break; } ret = 0; break; case XML_RELAXNG_NOT_ALLOWED: ret = -1; break; case XML_RELAXNG_TEXT: #if 0 if (node == NULL) { ret = 0; break; } #endif while ((node != NULL) && ((node->type == XML_TEXT_NODE) || (node->type == XML_COMMENT_NODE) || (node->type == XML_PI_NODE) || (node->type == XML_CDATA_SECTION_NODE))) node = node->next; #if 0 if (node == ctxt->state->seq) { VALID_CTXT(); VALID_ERROR("Expecting text content\n"); ret = -1; } #endif ctxt->state->seq = node; break; case XML_RELAXNG_ELEMENT: node = xmlRelaxNGSkipIgnored(ctxt, node); if (node == NULL) { VALID_CTXT(); VALID_ERROR("Expecting an element, got empty\n"); ret = -1; break; } if (node->type != XML_ELEMENT_NODE) { VALID_CTXT(); VALID_ERROR2("Expecting an element got %d type\n", node->type); ret = -1; break; } /* * This node was already validated successfully against * this definition. */ if (node->_private == define) { ctxt->state->seq = xmlRelaxNGSkipIgnored(ctxt, node->next); break; } ret = xmlRelaxNGElementMatch(ctxt, define, node); if (ret <= 0) { ret = -1; break; } ret = 0; state = xmlRelaxNGNewValidState(ctxt, node); if (state == NULL) { ret = -1; break; } oldstate = ctxt->state; ctxt->state = state; if (define->attrs != NULL) { tmp = xmlRelaxNGValidateAttributeList(ctxt, define->attrs); if (tmp != 0) { ret = -1; #ifdef DEBUG xmlGenericError(xmlGenericErrorContext, "E: Element %s failed to validate attributes\n", node->name); #endif } } if (define->content != NULL) { tmp = xmlRelaxNGValidateElementContent(ctxt, define->content); if (tmp != 0) { ret = -1; #ifdef DEBUG xmlGenericError(xmlGenericErrorContext, "E: Element %s failed to validate element content\n", node->name); #endif } } state = ctxt->state; if (state->seq != NULL) { state->seq = xmlRelaxNGSkipIgnored(ctxt, state->seq); if (state->seq != NULL) { VALID_CTXT(); VALID_ERROR3("Extra content for element %s: %s\n", node->name, state->seq->name); ret = -1; #ifdef DEBUG xmlGenericError(xmlGenericErrorContext, "E: Element %s has extra content: %s\n", node->name, state->seq->name); #endif } } for (i = 0;i < state->nbAttrs;i++) { if (state->attrs[i] != NULL) { VALID_CTXT(); VALID_ERROR3("Invalid attribute %s for element %s\n", state->attrs[i]->name, node->name); ret = -1; } } ctxt->state = oldstate; xmlRelaxNGFreeValidState(state); if (oldstate != NULL) oldstate->seq = xmlRelaxNGSkipIgnored(ctxt, node->next); if (ret == 0) node->_private = define; #ifdef DEBUG xmlGenericError(xmlGenericErrorContext, "xmlRelaxNGValidateDefinition(): validated %s : %d", node->name, ret); if (oldstate == NULL) xmlGenericError(xmlGenericErrorContext, ": no state\n"); else if (oldstate->seq == NULL) xmlGenericError(xmlGenericErrorContext, ": done\n"); else if (oldstate->seq->type == XML_ELEMENT_NODE) xmlGenericError(xmlGenericErrorContext, ": next elem %s\n", oldstate->seq->name); else xmlGenericError(xmlGenericErrorContext, ": next %s %d\n", oldstate->seq->name, oldstate->seq->type); #endif break; case XML_RELAXNG_OPTIONAL: oldflags = ctxt->flags; ctxt->flags |= FLAGS_IGNORABLE; oldstate = xmlRelaxNGCopyValidState(ctxt, ctxt->state); ret = xmlRelaxNGValidateDefinition(ctxt, define->content); if (ret != 0) { xmlRelaxNGFreeValidState(ctxt->state); ctxt->state = oldstate; ret = 0; break; } xmlRelaxNGFreeValidState(oldstate); ctxt->flags = oldflags; ret = 0; break; case XML_RELAXNG_ONEORMORE: ret = xmlRelaxNGValidateDefinition(ctxt, define->content); if (ret != 0) { break; } /* no break on purpose */ case XML_RELAXNG_ZEROORMORE: { oldflags = ctxt->flags; ctxt->flags |= FLAGS_IGNORABLE; while (ctxt->state->nbAttrLeft != 0) { oldstate = xmlRelaxNGCopyValidState(ctxt, ctxt->state); ret = xmlRelaxNGValidateDefinition(ctxt, define->content); if (ret != 0) { xmlRelaxNGFreeValidState(ctxt->state); ctxt->state = oldstate; break; } xmlRelaxNGFreeValidState(oldstate); } if (ret == 0) { /* * There is no attribute left to be consumed, * we can check the closure by looking at ctxt->state->seq */ xmlNodePtr cur, temp; cur = ctxt->state->seq; temp = NULL; while ((cur != NULL) && (temp != cur)) { temp = cur; oldstate = xmlRelaxNGCopyValidState(ctxt, ctxt->state); ret = xmlRelaxNGValidateDefinition(ctxt, define->content); if (ret != 0) { xmlRelaxNGFreeValidState(ctxt->state); ctxt->state = oldstate; break; } xmlRelaxNGFreeValidState(oldstate); cur = ctxt->state->seq; } } ctxt->flags = oldflags; ret = 0; break; } case XML_RELAXNG_CHOICE: { xmlRelaxNGDefinePtr list = define->content; int success = 0; oldflags = ctxt->flags; ctxt->flags |= FLAGS_IGNORABLE; while (list != NULL) { oldstate = xmlRelaxNGCopyValidState(ctxt, ctxt->state); ret = xmlRelaxNGValidateDefinition(ctxt, list); if (ret == 0) { if (xmlRelaxNGEqualValidState(ctxt, ctxt->state, oldstate)){ /* * if that pattern was nullable flag it but try * to make more progresses */ success = 1; } else { xmlRelaxNGFreeValidState(oldstate); break; } } xmlRelaxNGFreeValidState(ctxt->state); ctxt->state = oldstate; list = list->next; } ctxt->flags = oldflags; if (success == 1) ret = 0; break; } case XML_RELAXNG_DEF: case XML_RELAXNG_GROUP: { xmlRelaxNGDefinePtr list = define->content; while (list != NULL) { ret = xmlRelaxNGValidateDefinition(ctxt, list); if (ret != 0) break; list = list->next; } break; } case XML_RELAXNG_INTERLEAVE: ret = xmlRelaxNGValidateInterleave(ctxt, define); break; case XML_RELAXNG_ATTRIBUTE: ret = xmlRelaxNGValidateAttribute(ctxt, define); break; case XML_RELAXNG_NOOP: case XML_RELAXNG_REF: case XML_RELAXNG_PARENTREF: case XML_RELAXNG_EXTERNALREF: ret = xmlRelaxNGValidateDefinition(ctxt, define->content); break; case XML_RELAXNG_DATATYPE: { xmlNodePtr child; xmlChar *content = NULL; child = node; while (child != NULL) { if (child->type == XML_ELEMENT_NODE) { VALID_CTXT(); VALID_ERROR2("Element %s has child elements\n", node->parent->name); ret = -1; break; } else if ((child->type == XML_TEXT_NODE) || (child->type == XML_CDATA_SECTION_NODE)) { content = xmlStrcat(content, child->content); } /* TODO: handle entities ... */ child = child->next; } if (ret == -1) { if (content != NULL) xmlFree(content); break; } if (content == NULL) { content = xmlStrdup(BAD_CAST ""); if (content == NULL) { VALID_CTXT(); VALID_ERROR("Allocation failure\n"); ret = -1; break; } } ret = xmlRelaxNGValidateDatatype(ctxt, content, define); if (ret == -1) { VALID_CTXT(); VALID_ERROR2("internal error validating %s\n", define->name); } else if (ret == 0) { ctxt->state->seq = NULL; } if (content != NULL) xmlFree(content); break; } case XML_RELAXNG_VALUE: { xmlChar *content = NULL; xmlChar *oldvalue; xmlNodePtr child; child = node; while (child != NULL) { if (child->type == XML_ELEMENT_NODE) { VALID_CTXT(); VALID_ERROR2("Element %s has child elements\n", node->parent->name); ret = -1; break; } else if ((child->type == XML_TEXT_NODE) || (child->type == XML_CDATA_SECTION_NODE)) { content = xmlStrcat(content, child->content); } /* TODO: handle entities ... */ child = child->next; } if (ret == -1) { if (content != NULL) xmlFree(content); break; } if (content == NULL) { content = xmlStrdup(BAD_CAST ""); if (content == NULL) { VALID_CTXT(); VALID_ERROR("Allocation failure\n"); ret = -1; break; } } oldvalue = ctxt->state->value; ctxt->state->value = content; ret = xmlRelaxNGValidateValue(ctxt, define); ctxt->state->value = oldvalue; if (ret == -1) { VALID_CTXT(); if (define->name != NULL) { VALID_ERROR2("error validating value %s\n", define->name); } else { VALID_ERROR("error validating value\n"); } } else if (ret == 0) { ctxt->state->seq = NULL; } if (content != NULL) xmlFree(content); break; } case XML_RELAXNG_LIST: { xmlChar *content; xmlNodePtr child; xmlChar *oldvalue, *oldendvalue; int len; /* * Make sure it's only text nodes */ content = NULL; child = node; while (child != NULL) { if (child->type == XML_ELEMENT_NODE) { VALID_CTXT(); VALID_ERROR2("Element %s has child elements\n", node->parent->name); ret = -1; break; } else if ((child->type == XML_TEXT_NODE) || (child->type == XML_CDATA_SECTION_NODE)) { content = xmlStrcat(content, child->content); } /* TODO: handle entities ... */ child = child->next; } if (ret == -1) { if (content != NULL) xmlFree(content); break; } if (content == NULL) { content = xmlStrdup(BAD_CAST ""); if (content == NULL) { VALID_CTXT(); VALID_ERROR("Allocation failure\n"); ret = -1; break; } } len = xmlStrlen(content); oldvalue = ctxt->state->value; oldendvalue = ctxt->state->endvalue; ctxt->state->value = content; ctxt->state->endvalue = content + len; ret = xmlRelaxNGValidateValue(ctxt, define); ctxt->state->value = oldvalue; ctxt->state->endvalue = oldendvalue; if (ret == -1) { VALID_CTXT(); VALID_ERROR("error validating list\n"); } else if ((ret == 0) && (node != NULL)) { ctxt->state->seq = node->next; } if (content != NULL) xmlFree(content); break; } case XML_RELAXNG_START: case XML_RELAXNG_EXCEPT: case XML_RELAXNG_PARAM: TODO ret = -1; break; } ctxt->depth--; #ifdef DEBUG for (i = 0;i < ctxt->depth;i++) xmlGenericError(xmlGenericErrorContext, " "); xmlGenericError(xmlGenericErrorContext, "Validating %s ", xmlRelaxNGDefName(define)); if (define->name != NULL) xmlGenericError(xmlGenericErrorContext, "%s ", define->name); if (ret == 0) xmlGenericError(xmlGenericErrorContext, "suceeded\n"); else xmlGenericError(xmlGenericErrorContext, "failed\n"); #endif return(ret); } /** * xmlRelaxNGValidateDocument: * @ctxt: a Relax-NG validation context * @doc: the document * * Validate the given document * * Returns 0 if the validation succeeded or an error code. */ static int xmlRelaxNGValidateDocument(xmlRelaxNGValidCtxtPtr ctxt, xmlDocPtr doc) { int ret; xmlRelaxNGPtr schema; xmlRelaxNGGrammarPtr grammar; xmlRelaxNGValidStatePtr state; if ((ctxt == NULL) || (ctxt->schema == NULL) || (doc == NULL)) return(-1); schema = ctxt->schema; grammar = schema->topgrammar; if (grammar == NULL) { VALID_CTXT(); VALID_ERROR("No top grammar defined\n"); return(-1); } state = xmlRelaxNGNewValidState(ctxt, NULL); ctxt->state = state; ret = xmlRelaxNGValidateDefinition(ctxt, grammar->start); state = ctxt->state; if ((state != NULL) && (state->seq != NULL)) { xmlNodePtr node; node = state->seq; node = xmlRelaxNGSkipIgnored(ctxt, node); if (node != NULL) { VALID_CTXT(); VALID_ERROR("extra data on the document\n"); ret = -1; } } xmlRelaxNGFreeValidState(state); return(ret); } /************************************************************************ * * * Validation interfaces * * * ************************************************************************/ /** * xmlRelaxNGNewValidCtxt: * @schema: a precompiled XML RelaxNGs * * Create an XML RelaxNGs validation context based on the given schema * * Returns the validation context or NULL in case of error */ xmlRelaxNGValidCtxtPtr xmlRelaxNGNewValidCtxt(xmlRelaxNGPtr schema) { xmlRelaxNGValidCtxtPtr ret; ret = (xmlRelaxNGValidCtxtPtr) xmlMalloc(sizeof(xmlRelaxNGValidCtxt)); if (ret == NULL) { xmlGenericError(xmlGenericErrorContext, "Failed to allocate new schama validation context\n"); return (NULL); } memset(ret, 0, sizeof(xmlRelaxNGValidCtxt)); ret->schema = schema; ret->error = xmlGenericError; ret->userData = xmlGenericErrorContext; return (ret); } /** * xmlRelaxNGFreeValidCtxt: * @ctxt: the schema validation context * * Free the resources associated to the schema validation context */ void xmlRelaxNGFreeValidCtxt(xmlRelaxNGValidCtxtPtr ctxt) { if (ctxt == NULL) return; xmlFree(ctxt); } /** * xmlRelaxNGSetValidErrors: * @ctxt: a Relax-NG validation context * @err: the error function * @warn: the warning function * @ctx: the functions context * * Set the error and warning callback informations */ void xmlRelaxNGSetValidErrors(xmlRelaxNGValidCtxtPtr ctxt, xmlRelaxNGValidityErrorFunc err, xmlRelaxNGValidityWarningFunc warn, void *ctx) { if (ctxt == NULL) return; ctxt->error = err; ctxt->warning = warn; ctxt->userData = ctx; } /** * xmlRelaxNGValidateDoc: * @ctxt: a Relax-NG validation context * @doc: a parsed document tree * * Validate a document tree in memory. * * Returns 0 if the document is valid, a positive error code * number otherwise and -1 in case of internal or API error. */ int xmlRelaxNGValidateDoc(xmlRelaxNGValidCtxtPtr ctxt, xmlDocPtr doc) { int ret; if ((ctxt == NULL) || (doc == NULL)) return(-1); ctxt->doc = doc; ret = xmlRelaxNGValidateDocument(ctxt, doc); /* * TODO: build error codes */ if (ret == -1) return(1); return(ret); } #endif /* LIBXML_SCHEMAS_ENABLED */