#define IN_LIBEXSLT #include "libexslt/libexslt.h" #if defined(WIN32) && !defined (__CYGWIN__) && (!__MINGW32__) #include #else #include "config.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include #include "exslt.h" typedef struct _exsltFuncFunctionData exsltFuncFunctionData; struct _exsltFuncFunctionData { int nargs; /* number of arguments to the function */ xmlNodePtr content; /* the func:fuction template content */ }; typedef struct _exsltFuncData exsltFuncData; struct _exsltFuncData { xmlHashTablePtr funcs; /* pointer to the stylesheet module data */ xmlXPathObjectPtr result; /* returned by func:result */ int error; /* did an error occur? */ xmlDocPtr RVT; /* result tree fragment */ }; typedef struct _exsltFuncResultPreComp exsltFuncResultPreComp; struct _exsltFuncResultPreComp { xsltElemPreComp comp; xmlXPathCompExprPtr select; xmlNsPtr *nsList; int nsNr; }; /* Used for callback function in exsltInitFunc */ typedef struct _exsltFuncImportRegData exsltFuncImportRegData; struct _exsltFuncImportRegData { xsltTransformContextPtr ctxt; xmlHashTablePtr hash; }; static void exsltFuncFunctionFunction (xmlXPathParserContextPtr ctxt, int nargs); static exsltFuncFunctionData *exsltFuncNewFunctionData(void); #define MAX_FUNC_RECURSION 1000 /*static const xmlChar *exsltResultDataID = (const xmlChar *) "EXSLT Result";*/ /** * exsltFuncRegisterFunc: * @func: the #exsltFuncFunctionData for the function * @ctxt: an XSLT transformation context * @URI: the function namespace URI * @name: the function name * * Registers a function declared by a func:function element */ static void exsltFuncRegisterFunc (exsltFuncFunctionData *data, xsltTransformContextPtr ctxt, const xmlChar *URI, const xmlChar *name, ATTRIBUTE_UNUSED const xmlChar *ignored) { if ((data == NULL) || (ctxt == NULL) || (URI == NULL) || (name == NULL)) return; xsltGenericDebug(xsltGenericDebugContext, "exsltFuncRegisterFunc: register {%s}%s\n", URI, name); xsltRegisterExtFunction(ctxt, name, URI, exsltFuncFunctionFunction); } /* * exsltFuncRegisterImportFunc * @data: the exsltFuncFunctionData for the function * @ch: structure containing context and hash table * @URI: the function namespace URI * @name: the function name * * Checks if imported function is already registered in top-level * stylesheet. If not, copies function data and registers function */ static void exsltFuncRegisterImportFunc (exsltFuncFunctionData *data, exsltFuncImportRegData *ch, const xmlChar *URI, const xmlChar *name, ATTRIBUTE_UNUSED const xmlChar *ignored) { exsltFuncFunctionData *func=NULL; if ((data == NULL) || (ch == NULL) || (URI == NULL) || (name == NULL)) return; if (ch->ctxt == NULL || ch->hash == NULL) return; /* Check if already present */ func = (exsltFuncFunctionData*)xmlHashLookup2(ch->hash, URI, name); if (func == NULL) { /* Not yet present - copy it in */ func = exsltFuncNewFunctionData(); memcpy(func, data, sizeof(exsltFuncFunctionData)); if (xmlHashAddEntry2(ch->hash, URI, name, func) < 0) { xsltGenericError(xsltGenericErrorContext, "Failed to register function {%s}%s\n", URI, name); } else { /* Do the registration */ xsltGenericDebug(xsltGenericDebugContext, "exsltFuncRegisterImportFunc: register {%s}%s\n", URI, name); xsltRegisterExtFunction(ch->ctxt, name, URI, exsltFuncFunctionFunction); } } } /** * exsltFuncInit: * @ctxt: an XSLT transformation context * @URI: the namespace URI for the extension * * Initializes the EXSLT - Functions module. * Called at transformation-time; merges all * functions declared in the import tree taking * import precedence into account, i.e. overriding * functions with lower import precedence. * * Returns the data for this transformation */ static exsltFuncData * exsltFuncInit (xsltTransformContextPtr ctxt, const xmlChar *URI) { exsltFuncData *ret; xsltStylesheetPtr tmp; exsltFuncImportRegData ch; xmlHashTablePtr hash; ret = (exsltFuncData *) xmlMalloc (sizeof(exsltFuncData)); if (ret == NULL) { xsltGenericError(xsltGenericErrorContext, "exsltFuncInit: not enough memory\n"); return(NULL); } memset(ret, 0, sizeof(exsltFuncData)); ret->result = NULL; ret->error = 0; ch.hash = (xmlHashTablePtr) xsltStyleGetExtData(ctxt->style, URI); ret->funcs = ch.hash; xmlHashScanFull(ch.hash, (xmlHashScannerFull) exsltFuncRegisterFunc, ctxt); tmp = ctxt->style; ch.ctxt = ctxt; while ((tmp=xsltNextImport(tmp))!=NULL) { hash = xsltGetExtInfo(tmp, URI); if (hash != NULL) { xmlHashScanFull(hash, (xmlHashScannerFull) exsltFuncRegisterImportFunc, &ch); } } return(ret); } /** * exsltFuncShutdown: * @ctxt: an XSLT transformation context * @URI: the namespace URI for the extension * @data: the module data to free up * * Shutdown the EXSLT - Functions module * Called at transformation-time. */ static void exsltFuncShutdown (xsltTransformContextPtr ctxt ATTRIBUTE_UNUSED, const xmlChar *URI ATTRIBUTE_UNUSED, exsltFuncData *data) { if (data->result != NULL) xmlXPathFreeObject(data->result); xmlFree(data); } /** * exsltFuncStyleInit: * @style: an XSLT stylesheet * @URI: the namespace URI for the extension * * Allocates the stylesheet data for EXSLT - Function * Called at compile-time. * * Returns the allocated data */ static xmlHashTablePtr exsltFuncStyleInit (xsltStylesheetPtr style ATTRIBUTE_UNUSED, const xmlChar *URI ATTRIBUTE_UNUSED) { return xmlHashCreate(1); } /** * exsltFuncStyleShutdown: * @style: an XSLT stylesheet * @URI: the namespace URI for the extension * @data: the stylesheet data to free up * * Shutdown the EXSLT - Function module * Called at compile-time. */ static void exsltFuncStyleShutdown (xsltStylesheetPtr style ATTRIBUTE_UNUSED, const xmlChar *URI ATTRIBUTE_UNUSED, xmlHashTablePtr data) { xmlHashFree(data, (xmlHashDeallocator) xmlFree); } /** * exsltFuncNewFunctionData: * * Allocates an #exslFuncFunctionData object * * Returns the new structure */ static exsltFuncFunctionData * exsltFuncNewFunctionData (void) { exsltFuncFunctionData *ret; ret = (exsltFuncFunctionData *) xmlMalloc (sizeof(exsltFuncFunctionData)); if (ret == NULL) { xsltGenericError(xsltGenericErrorContext, "exsltFuncNewFunctionData: not enough memory\n"); return (NULL); } memset(ret, 0, sizeof(exsltFuncFunctionData)); ret->nargs = 0; ret->content = NULL; return(ret); } /** * exsltFreeFuncResultPreComp: * @comp: the #exsltFuncResultPreComp to free up * * Deallocates an #exsltFuncResultPreComp */ static void exsltFreeFuncResultPreComp (exsltFuncResultPreComp *comp) { if (comp == NULL) return; if (comp->select != NULL) xmlXPathFreeCompExpr (comp->select); if (comp->nsList != NULL) xmlFree(comp->nsList); xmlFree(comp); } /** * exsltFuncFunctionFunction: * @ctxt: an XPath parser context * @nargs: the number of arguments * * Evaluates the func:function element that defines the called function. */ static void exsltFuncFunctionFunction (xmlXPathParserContextPtr ctxt, int nargs) { xmlXPathObjectPtr oldResult, ret; exsltFuncData *data; exsltFuncFunctionData *func; xmlNodePtr paramNode, oldInsert, fake; int oldBase; xsltStackElemPtr params = NULL, param; xsltTransformContextPtr tctxt = xsltXPathGetTransformContext(ctxt); int i, notSet; struct objChain { struct objChain *next; xmlXPathObjectPtr obj; }; struct objChain *savedObjChain = NULL, *savedObj; /* * retrieve func:function template */ data = (exsltFuncData *) xsltGetExtData (tctxt, EXSLT_FUNCTIONS_NAMESPACE); oldResult = data->result; data->result = NULL; func = (exsltFuncFunctionData*) xmlHashLookup2 (data->funcs, ctxt->context->functionURI, ctxt->context->function); /* * params handling */ if (nargs > func->nargs) { xsltGenericError(xsltGenericErrorContext, "{%s}%s: called with too many arguments\n", ctxt->context->functionURI, ctxt->context->function); ctxt->error = XPATH_INVALID_ARITY; return; } if (func->content != NULL) { paramNode = func->content->prev; } else paramNode = NULL; if ((paramNode == NULL) && (func->nargs != 0)) { xsltGenericError(xsltGenericErrorContext, "exsltFuncFunctionFunction: nargs != 0 and " "param == NULL\n"); return; } if (tctxt->funcLevel > MAX_FUNC_RECURSION) { xsltGenericError(xsltGenericErrorContext, "{%s}%s: detected a recursion\n", ctxt->context->functionURI, ctxt->context->function); ctxt->error = XPATH_MEMORY_ERROR; return; } tctxt->funcLevel++; /* * We have a problem with the evaluation of function parameters. * The original library code did not evaluate XPath expressions until * the last moment. After version 1.1.17 of the libxslt, the logic * of other parts of the library was changed, and the evaluation of * XPath expressions within parameters now takes place as soon as the * parameter is parsed/evaluated (xsltParseStylesheetCallerParam). * This means that the parameters need to be evaluated in lexical * order (since a variable is "in scope" as soon as it is declared). * However, on entry to this routine, the values (from the caller) are * in reverse order (held on the XPath context variable stack). To * accomplish what is required, I have added code to pop the XPath * objects off of the stack at the beginning and save them, then use * them (in the reverse order) as the params are evaluated. This * requires an xmlMalloc/xmlFree for each param set by the caller, * which is not very nice. There is probably a much better solution * (like change other code to delay the evaluation). */ /* * In order to give the function params and variables a new 'scope' * we change varsBase in the context. */ oldBase = tctxt->varsBase; tctxt->varsBase = tctxt->varsNr; /* If there are any parameters */ if (paramNode != NULL) { /* Fetch the stored argument values from the caller */ for (i = 0; i < nargs; i++) { savedObj = xmlMalloc(sizeof(struct objChain)); savedObj->next = savedObjChain; savedObj->obj = valuePop(ctxt); savedObjChain = savedObj; } /* * Prepare to process params in reverse order. First, go to * the beginning of the param chain. */ for (i = 1; i <= func->nargs; i++) { if (paramNode->prev == NULL) break; paramNode = paramNode->prev; } /* * i has total # params found, nargs is number which are present * as arguments from the caller * Calculate the number of un-set parameters */ notSet = func->nargs - nargs; for (; i > 0; i--) { param = xsltParseStylesheetCallerParam (tctxt, paramNode); if (i > notSet) { /* if parameter value set */ param->computed = 1; if (param->value != NULL) xmlXPathFreeObject(param->value); savedObj = savedObjChain; /* get next val from chain */ param->value = savedObj->obj; savedObjChain = savedObjChain->next; xmlFree(savedObj); } xsltLocalVariablePush(tctxt, param, -1); param->next = params; params = param; paramNode = paramNode->next; } } /* * actual processing */ fake = xmlNewDocNode(tctxt->output, NULL, (const xmlChar *)"fake", NULL); oldInsert = tctxt->insert; tctxt->insert = fake; xsltApplyOneTemplate (tctxt, xmlXPathGetContextNode(ctxt), func->content, NULL, NULL); xsltLocalVariablePop(tctxt, tctxt->varsBase, -2); tctxt->insert = oldInsert; tctxt->varsBase = oldBase; /* restore original scope */ if (params != NULL) xsltFreeStackElemList(params); if (data->error != 0) goto error; if (data->result != NULL) { ret = data->result; } else ret = xmlXPathNewCString(""); data->result = oldResult; /* * It is an error if the instantiation of the template results in * the generation of result nodes. */ if (fake->children != NULL) { #ifdef LIBXML_DEBUG_ENABLED xmlDebugDumpNode (stderr, fake, 1); #endif xsltGenericError(xsltGenericErrorContext, "{%s}%s: cannot write to result tree while " "executing a function\n", ctxt->context->functionURI, ctxt->context->function); xmlFreeNode(fake); goto error; } xmlFreeNode(fake); valuePush(ctxt, ret); error: /* * IMPORTANT: This enables previously tree fragments marked as * being results of a function, to be garbage-collected after * the calling process exits. */ xsltExtensionInstructionResultFinalize(tctxt); tctxt->funcLevel--; } static void exsltFuncFunctionComp (xsltStylesheetPtr style, xmlNodePtr inst) { xmlChar *name, *prefix; xmlNsPtr ns; xmlHashTablePtr data; exsltFuncFunctionData *func; if ((style == NULL) || (inst == NULL) || (inst->type != XML_ELEMENT_NODE)) return; { xmlChar *qname; qname = xmlGetProp(inst, (const xmlChar *) "name"); name = xmlSplitQName2 (qname, &prefix); xmlFree(qname); } if ((name == NULL) || (prefix == NULL)) { xsltGenericError(xsltGenericErrorContext, "func:function: not a QName\n"); if (name != NULL) xmlFree(name); return; } /* namespace lookup */ ns = xmlSearchNs (inst->doc, inst, prefix); if (ns == NULL) { xsltGenericError(xsltGenericErrorContext, "func:function: undeclared prefix %s\n", prefix); xmlFree(name); xmlFree(prefix); return; } xmlFree(prefix); xsltParseTemplateContent(style, inst); /* * Create function data */ func = exsltFuncNewFunctionData(); func->content = inst->children; while (IS_XSLT_ELEM(func->content) && IS_XSLT_NAME(func->content, "param")) { func->content = func->content->next; func->nargs++; } /* * Register the function data such that it can be retrieved * by exslFuncFunctionFunction */ #ifdef XSLT_REFACTORED /* * Ensure that the hash table will be stored in the *current* * stylesheet level in order to correctly evaluate the * import precedence. */ data = (xmlHashTablePtr) xsltStyleStylesheetLevelGetExtData(style, EXSLT_FUNCTIONS_NAMESPACE); #else data = (xmlHashTablePtr) xsltStyleGetExtData (style, EXSLT_FUNCTIONS_NAMESPACE); #endif if (data == NULL) { xsltGenericError(xsltGenericErrorContext, "exsltFuncFunctionComp: no stylesheet data\n"); xmlFree(name); return; } if (xmlHashAddEntry2 (data, ns->href, name, func) < 0) { xsltTransformError(NULL, style, inst, "Failed to register function {%s}%s\n", ns->href, name); style->errors++; } else { xsltGenericDebug(xsltGenericDebugContext, "exsltFuncFunctionComp: register {%s}%s\n", ns->href, name); } xmlFree(name); } static xsltElemPreCompPtr exsltFuncResultComp (xsltStylesheetPtr style, xmlNodePtr inst, xsltTransformFunction function) { xmlNodePtr test; xmlChar *sel; exsltFuncResultPreComp *ret; if ((style == NULL) || (inst == NULL) || (inst->type != XML_ELEMENT_NODE)) return (NULL); /* * "Validity" checking */ /* it is an error to have any following sibling elements aside * from the xsl:fallback element. */ for (test = inst->next; test != NULL; test = test->next) { if (test->type != XML_ELEMENT_NODE) continue; if (IS_XSLT_ELEM(test) && IS_XSLT_NAME(test, "fallback")) continue; xsltGenericError(xsltGenericErrorContext, "exsltFuncResultElem: only xsl:fallback is " "allowed to follow func:result\n"); style->errors++; return (NULL); } /* it is an error for a func:result element to not be a descendant * of func:function. * it is an error if a func:result occurs within a func:result * element. * it is an error if instanciating the content of a variable * binding element (i.e. xsl:variable, xsl:param) results in the * instanciation of a func:result element. */ for (test = inst->parent; test != NULL; test = test->parent) { if (IS_XSLT_ELEM(test) && IS_XSLT_NAME(test, "stylesheet")) { xsltGenericError(xsltGenericErrorContext, "func:result element not a descendant " "of a func:function\n"); style->errors++; return (NULL); } if ((test->ns != NULL) && (xmlStrEqual(test->ns->href, EXSLT_FUNCTIONS_NAMESPACE))) { if (xmlStrEqual(test->name, (const xmlChar *) "function")) { break; } if (xmlStrEqual(test->name, (const xmlChar *) "result")) { xsltGenericError(xsltGenericErrorContext, "func:result element not allowed within" " another func:result element\n"); style->errors++; return (NULL); } } if (IS_XSLT_ELEM(test) && (IS_XSLT_NAME(test, "variable") || IS_XSLT_NAME(test, "param"))) { xsltGenericError(xsltGenericErrorContext, "func:result element not allowed within" " a variable binding element\n"); style->errors++; return (NULL); } } /* * Precomputation */ ret = (exsltFuncResultPreComp *) xmlMalloc (sizeof(exsltFuncResultPreComp)); if (ret == NULL) { xsltPrintErrorContext(NULL, NULL, NULL); xsltGenericError(xsltGenericErrorContext, "exsltFuncResultComp : malloc failed\n"); style->errors++; return (NULL); } memset(ret, 0, sizeof(exsltFuncResultPreComp)); xsltInitElemPreComp ((xsltElemPreCompPtr) ret, style, inst, function, (xsltElemPreCompDeallocator) exsltFreeFuncResultPreComp); ret->select = NULL; /* * Precompute the select attribute */ sel = xmlGetNsProp(inst, (const xmlChar *) "select", NULL); if (sel != NULL) { ret->select = xmlXPathCompile (sel); xmlFree(sel); } /* * Precompute the namespace list */ ret->nsList = xmlGetNsList(inst->doc, inst); if (ret->nsList != NULL) { int i = 0; while (ret->nsList[i] != NULL) i++; ret->nsNr = i; } return ((xsltElemPreCompPtr) ret); } static void exsltFuncResultElem (xsltTransformContextPtr ctxt, xmlNodePtr node ATTRIBUTE_UNUSED, xmlNodePtr inst, exsltFuncResultPreComp *comp) { exsltFuncData *data; xmlXPathObjectPtr ret; /* It is an error if instantiating the content of the * func:function element results in the instantiation of more than * one func:result elements. */ data = (exsltFuncData *) xsltGetExtData (ctxt, EXSLT_FUNCTIONS_NAMESPACE); if (data == NULL) { xsltGenericError(xsltGenericErrorContext, "exsltFuncReturnElem: data == NULL\n"); return; } if (data->result != NULL) { xsltGenericError(xsltGenericErrorContext, "func:result already instanciated\n"); data->error = 1; return; } /* * Processing */ if (comp->select != NULL) { xmlNsPtr *oldXPNsList; int oldXPNsNr; xmlNodePtr oldXPContextNode; /* If the func:result element has a select attribute, then the * value of the attribute must be an expression and the * returned value is the object that results from evaluating * the expression. In this case, the content must be empty. */ if (inst->children != NULL) { xsltGenericError(xsltGenericErrorContext, "func:result content must be empty if" " the function has a select attribute\n"); data->error = 1; return; } oldXPNsList = ctxt->xpathCtxt->namespaces; oldXPNsNr = ctxt->xpathCtxt->nsNr; oldXPContextNode = ctxt->xpathCtxt->node; ctxt->xpathCtxt->namespaces = comp->nsList; ctxt->xpathCtxt->nsNr = comp->nsNr; ret = xmlXPathCompiledEval(comp->select, ctxt->xpathCtxt); ctxt->xpathCtxt->node = oldXPContextNode; ctxt->xpathCtxt->nsNr = oldXPNsNr; ctxt->xpathCtxt->namespaces = oldXPNsList; if (ret == NULL) { xsltGenericError(xsltGenericErrorContext, "exsltFuncResultElem: ret == NULL\n"); return; } /* * Mark it as a function result in order to avoid garbage * collecting of tree fragments before the function exits. */ xsltExtensionInstructionResultRegister(ctxt, ret); } else if (inst->children != NULL) { /* If the func:result element does not have a select attribute * and has non-empty content (i.e. the func:result element has * one or more child nodes), then the content of the * func:result element specifies the value. */ xmlNodePtr oldInsert; xmlDocPtr container; container = xsltCreateRVT(ctxt); if (container == NULL) { xsltGenericError(xsltGenericErrorContext, "exsltFuncResultElem: out of memory\n"); data->error = 1; return; } xsltRegisterLocalRVT(ctxt, container); oldInsert = ctxt->insert; ctxt->insert = (xmlNodePtr) container; xsltApplyOneTemplate (ctxt, ctxt->xpathCtxt->node, inst->children, NULL, NULL); ctxt->insert = oldInsert; ret = xmlXPathNewValueTree((xmlNodePtr) container); if (ret == NULL) { xsltGenericError(xsltGenericErrorContext, "exsltFuncResultElem: ret == NULL\n"); data->error = 1; } else { ret->boolval = 0; /* Freeing is not handled there anymore */ /* * Mark it as a function result in order to avoid garbage * collecting of tree fragments before the function exits. */ xsltExtensionInstructionResultRegister(ctxt, ret); } } else { /* If the func:result element has empty content and does not * have a select attribute, then the returned value is an * empty string. */ ret = xmlXPathNewCString(""); } data->result = ret; } /** * exsltFuncRegister: * * Registers the EXSLT - Functions module */ void exsltFuncRegister (void) { xsltRegisterExtModuleFull (EXSLT_FUNCTIONS_NAMESPACE, (xsltExtInitFunction) exsltFuncInit, (xsltExtShutdownFunction) exsltFuncShutdown, (xsltStyleExtInitFunction) exsltFuncStyleInit, (xsltStyleExtShutdownFunction) exsltFuncStyleShutdown); xsltRegisterExtModuleTopLevel ((const xmlChar *) "function", EXSLT_FUNCTIONS_NAMESPACE, exsltFuncFunctionComp); xsltRegisterExtModuleElement ((const xmlChar *) "result", EXSLT_FUNCTIONS_NAMESPACE, (xsltPreComputeFunction)exsltFuncResultComp, (xsltTransformFunction) exsltFuncResultElem); }