2 * Copyright 2015, 2016 Hans Leidekker for CodeWeavers
4 * This library is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU Lesser General Public
6 * License as published by the Free Software Foundation; either
7 * version 2.1 of the License, or (at your option) any later version.
9 * This library is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 * Lesser General Public License for more details.
14 * You should have received a copy of the GNU Lesser General Public
15 * License along with this library; if not, write to the Free Software
16 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
25 #include "webservices.h"
27 #include "wine/debug.h"
28 #include "wine/list.h"
29 #include "webservices_private.h"
31 WINE_DEFAULT_DEBUG_CHANNEL(webservices
);
33 ULONG
prop_size( const struct prop_desc
*desc
, ULONG count
)
35 ULONG i
, ret
= count
* sizeof(struct prop
);
36 for (i
= 0; i
< count
; i
++) ret
+= desc
[i
].size
;
40 void prop_init( const struct prop_desc
*desc
, ULONG count
, struct prop
*prop
, void *data
)
44 for (i
= 0; i
< count
; i
++)
47 prop
[i
].size
= desc
[i
].size
;
48 prop
[i
].readonly
= desc
[i
].readonly
;
49 prop
[i
].writeonly
= desc
[i
].writeonly
;
54 HRESULT
prop_set( const struct prop
*prop
, ULONG count
, ULONG id
, const void *value
, ULONG size
)
56 if (id
>= count
|| size
!= prop
[id
].size
|| prop
[id
].readonly
) return E_INVALIDARG
;
57 memcpy( prop
[id
].value
, value
, size
);
61 HRESULT
prop_get( const struct prop
*prop
, ULONG count
, ULONG id
, void *buf
, ULONG size
)
63 if (id
>= count
|| size
!= prop
[id
].size
|| prop
[id
].writeonly
) return E_INVALIDARG
;
64 memcpy( buf
, prop
[id
].value
, prop
[id
].size
);
68 struct node
*alloc_node( WS_XML_NODE_TYPE type
)
72 if (!(ret
= heap_alloc_zero( sizeof(*ret
) ))) return NULL
;
73 ret
->hdr
.node
.nodeType
= type
;
74 list_init( &ret
->entry
);
75 list_init( &ret
->children
);
79 void free_attribute( WS_XML_ATTRIBUTE
*attr
)
82 free_xml_string( attr
->prefix
);
83 free_xml_string( attr
->localName
);
84 free_xml_string( attr
->ns
);
85 heap_free( attr
->value
);
89 void free_node( struct node
*node
)
92 switch (node_type( node
))
94 case WS_XML_NODE_TYPE_ELEMENT
:
96 WS_XML_ELEMENT_NODE
*elem
= &node
->hdr
;
99 for (i
= 0; i
< elem
->attributeCount
; i
++) free_attribute( elem
->attributes
[i
] );
100 heap_free( elem
->attributes
);
101 free_xml_string( elem
->prefix
);
102 free_xml_string( elem
->localName
);
103 free_xml_string( elem
->ns
);
106 case WS_XML_NODE_TYPE_TEXT
:
108 WS_XML_TEXT_NODE
*text
= (WS_XML_TEXT_NODE
*)node
;
109 heap_free( text
->text
);
112 case WS_XML_NODE_TYPE_COMMENT
:
114 WS_XML_COMMENT_NODE
*comment
= (WS_XML_COMMENT_NODE
*)node
;
115 heap_free( comment
->value
.bytes
);
118 case WS_XML_NODE_TYPE_CDATA
:
119 case WS_XML_NODE_TYPE_END_CDATA
:
120 case WS_XML_NODE_TYPE_END_ELEMENT
:
121 case WS_XML_NODE_TYPE_EOF
:
122 case WS_XML_NODE_TYPE_BOF
:
126 ERR( "unhandled type %u\n", node_type( node
) );
132 void destroy_nodes( struct node
*node
)
137 while ((ptr
= list_head( &node
->children
)))
139 struct node
*child
= LIST_ENTRY( ptr
, struct node
, entry
);
140 list_remove( &child
->entry
);
141 destroy_nodes( child
);
146 static WS_XML_ATTRIBUTE
*dup_attribute( const WS_XML_ATTRIBUTE
*src
)
148 WS_XML_ATTRIBUTE
*dst
;
149 const WS_XML_STRING
*prefix
= src
->prefix
;
150 const WS_XML_STRING
*localname
= src
->localName
;
151 const WS_XML_STRING
*ns
= src
->localName
;
152 const WS_XML_TEXT
*text
= src
->value
;
154 if (!(dst
= heap_alloc( sizeof(*dst
) ))) return NULL
;
155 dst
->singleQuote
= src
->singleQuote
;
156 dst
->isXmlNs
= src
->isXmlNs
;
158 if (!prefix
) dst
->prefix
= NULL
;
159 else if (!(dst
->prefix
= dup_xml_string( prefix
, FALSE
))) goto error
;
160 if (!(dst
->localName
= dup_xml_string( localname
, FALSE
))) goto error
;
161 if (!(dst
->ns
= dup_xml_string( ns
, FALSE
))) goto error
;
165 WS_XML_UTF8_TEXT
*utf8
;
166 const WS_XML_UTF8_TEXT
*utf8_src
= (const WS_XML_UTF8_TEXT
*)text
;
167 if (!(utf8
= alloc_utf8_text( utf8_src
->value
.bytes
, utf8_src
->value
.length
))) goto error
;
168 dst
->value
= &utf8
->text
;
174 free_attribute( dst
);
178 static WS_XML_ATTRIBUTE
**dup_attributes( WS_XML_ATTRIBUTE
* const *src
, ULONG count
)
180 WS_XML_ATTRIBUTE
**dst
;
183 if (!(dst
= heap_alloc( sizeof(*dst
) * count
))) return NULL
;
184 for (i
= 0; i
< count
; i
++)
186 if (!(dst
[i
] = dup_attribute( src
[i
] )))
188 for (; i
> 0; i
--) free_attribute( dst
[i
- 1] );
196 static struct node
*dup_element_node( const WS_XML_ELEMENT_NODE
*src
)
199 WS_XML_ELEMENT_NODE
*dst
;
200 ULONG count
= src
->attributeCount
;
201 WS_XML_ATTRIBUTE
**attrs
= src
->attributes
;
202 const WS_XML_STRING
*prefix
= (src
->prefix
&& src
->prefix
->length
) ? src
->prefix
: NULL
;
203 const WS_XML_STRING
*localname
= src
->localName
;
204 const WS_XML_STRING
*ns
= src
->ns
;
206 if (!(node
= alloc_node( WS_XML_NODE_TYPE_ELEMENT
))) return NULL
;
209 if (count
&& !(dst
->attributes
= dup_attributes( attrs
, count
))) goto error
;
210 dst
->attributeCount
= count
;
212 if (prefix
&& !(dst
->prefix
= dup_xml_string( prefix
, FALSE
))) goto error
;
213 if (localname
&& !(dst
->localName
= dup_xml_string( localname
, FALSE
))) goto error
;
214 if (ns
&& !(dst
->ns
= dup_xml_string( ns
, FALSE
))) goto error
;
222 static struct node
*dup_text_node( const WS_XML_TEXT_NODE
*src
)
225 WS_XML_TEXT_NODE
*dst
;
227 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
228 dst
= (WS_XML_TEXT_NODE
*)node
;
232 WS_XML_UTF8_TEXT
*utf8
;
233 const WS_XML_UTF8_TEXT
*utf8_src
= (const WS_XML_UTF8_TEXT
*)src
->text
;
234 if (!(utf8
= alloc_utf8_text( utf8_src
->value
.bytes
, utf8_src
->value
.length
)))
239 dst
->text
= &utf8
->text
;
244 static struct node
*dup_comment_node( const WS_XML_COMMENT_NODE
*src
)
247 WS_XML_COMMENT_NODE
*dst
;
249 if (!(node
= alloc_node( WS_XML_NODE_TYPE_COMMENT
))) return NULL
;
250 dst
= (WS_XML_COMMENT_NODE
*)node
;
252 if (src
->value
.length
&& !(dst
->value
.bytes
= heap_alloc( src
->value
.length
)))
257 memcpy( dst
->value
.bytes
, src
->value
.bytes
, src
->value
.length
);
258 dst
->value
.length
= src
->value
.length
;
262 static struct node
*dup_node( const struct node
*src
)
264 switch (node_type( src
))
266 case WS_XML_NODE_TYPE_ELEMENT
:
267 return dup_element_node( &src
->hdr
);
269 case WS_XML_NODE_TYPE_TEXT
:
270 return dup_text_node( (const WS_XML_TEXT_NODE
*)src
);
272 case WS_XML_NODE_TYPE_COMMENT
:
273 return dup_comment_node( (const WS_XML_COMMENT_NODE
*)src
);
275 case WS_XML_NODE_TYPE_CDATA
:
276 case WS_XML_NODE_TYPE_END_CDATA
:
277 case WS_XML_NODE_TYPE_END_ELEMENT
:
278 case WS_XML_NODE_TYPE_EOF
:
279 case WS_XML_NODE_TYPE_BOF
:
280 return alloc_node( node_type( src
) );
283 ERR( "unhandled type %u\n", node_type( src
) );
289 static HRESULT
dup_tree( struct node
**dst
, const struct node
*src
)
292 const struct node
*child
;
294 if (!*dst
&& !(*dst
= dup_node( src
))) return E_OUTOFMEMORY
;
297 LIST_FOR_EACH_ENTRY( child
, &src
->children
, struct node
, entry
)
299 HRESULT hr
= E_OUTOFMEMORY
;
300 struct node
*new_child
;
302 if (!(new_child
= dup_node( child
)) || (hr
= dup_tree( &new_child
, child
)) != S_OK
)
304 destroy_nodes( *dst
);
307 new_child
->parent
= parent
;
308 list_add_tail( &parent
->children
, &new_child
->entry
);
313 static const struct prop_desc reader_props
[] =
315 { sizeof(ULONG
), FALSE
}, /* WS_XML_READER_PROPERTY_MAX_DEPTH */
316 { sizeof(BOOL
), FALSE
}, /* WS_XML_READER_PROPERTY_ALLOW_FRAGMENT */
317 { sizeof(ULONG
), FALSE
}, /* WS_XML_READER_PROPERTY_MAX_ATTRIBUTES */
318 { sizeof(BOOL
), FALSE
}, /* WS_XML_READER_PROPERTY_READ_DECLARATION */
319 { sizeof(WS_CHARSET
), FALSE
}, /* WS_XML_READER_PROPERTY_CHARSET */
320 { sizeof(ULONGLONG
), TRUE
}, /* WS_XML_READER_PROPERTY_ROW */
321 { sizeof(ULONGLONG
), TRUE
}, /* WS_XML_READER_PROPERTY_COLUMN */
322 { sizeof(ULONG
), FALSE
}, /* WS_XML_READER_PROPERTY_UTF8_TRIM_SIZE */
323 { sizeof(ULONG
), FALSE
}, /* WS_XML_READER_PROPERTY_STREAM_BUFFER_SIZE */
324 { sizeof(BOOL
), TRUE
}, /* WS_XML_READER_PROPERTY_IN_ATTRIBUTE */
325 { sizeof(ULONG
), FALSE
}, /* WS_XML_READER_PROPERTY_STREAM_MAX_ROOT_MIME_PART_SIZE */
326 { sizeof(ULONG
), FALSE
}, /* WS_XML_READER_PROPERTY_STREAM_MAX_MIME_HEADERS_SIZE */
327 { sizeof(ULONG
), FALSE
}, /* WS_XML_READER_PROPERTY_MAX_MIME_PARTS */
328 { sizeof(BOOL
), FALSE
}, /* WS_XML_READER_PROPERTY_ALLOW_INVALID_CHARACTER_REFERENCES */
329 { sizeof(ULONG
), FALSE
}, /* WS_XML_READER_PROPERTY_MAX_NAMESPACES */
334 READER_STATE_INITIAL
,
336 READER_STATE_STARTELEMENT
,
337 READER_STATE_STARTATTRIBUTE
,
338 READER_STATE_STARTCDATA
,
341 READER_STATE_ENDELEMENT
,
342 READER_STATE_ENDCDATA
,
343 READER_STATE_COMMENT
,
359 const unsigned char *read_bufptr
;
360 enum reader_state state
;
362 struct node
*current
;
365 struct prefix
*prefixes
;
367 ULONG nb_prefixes_allocated
;
368 WS_XML_READER_ENCODING_TYPE input_enc
;
369 WS_CHARSET input_charset
;
370 WS_XML_READER_INPUT_TYPE input_type
;
371 struct xmlbuf
*input_buf
;
372 const unsigned char *input_data
;
374 ULONG text_conv_offset
;
375 const WS_XML_DICTIONARY
*dict_static
;
376 WS_XML_DICTIONARY
*dict
;
378 struct prop prop
[sizeof(reader_props
)/sizeof(reader_props
[0])];
381 #define READER_MAGIC (('R' << 24) | ('E' << 16) | ('A' << 8) | 'D')
383 static struct reader
*alloc_reader(void)
385 static const ULONG count
= sizeof(reader_props
)/sizeof(reader_props
[0]);
387 ULONG size
= sizeof(*ret
) + prop_size( reader_props
, count
);
389 if (!(ret
= heap_alloc_zero( size
))) return NULL
;
390 if (!(ret
->prefixes
= heap_alloc_zero( sizeof(*ret
->prefixes
) )))
395 ret
->nb_prefixes
= ret
->nb_prefixes_allocated
= 1;
397 ret
->magic
= READER_MAGIC
;
398 InitializeCriticalSection( &ret
->cs
);
399 ret
->cs
.DebugInfo
->Spare
[0] = (DWORD_PTR
)(__FILE__
": reader.cs");
401 prop_init( reader_props
, count
, ret
->prop
, &ret
[1] );
402 ret
->prop_count
= count
;
406 static void clear_prefixes( struct prefix
*prefixes
, ULONG count
)
409 for (i
= 0; i
< count
; i
++)
411 free_xml_string( prefixes
[i
].str
);
412 prefixes
[i
].str
= NULL
;
413 free_xml_string( prefixes
[i
].ns
);
414 prefixes
[i
].ns
= NULL
;
418 static HRESULT
set_prefix( struct prefix
*prefix
, const WS_XML_STRING
*str
, const WS_XML_STRING
*ns
)
422 free_xml_string( prefix
->str
);
423 if (!(prefix
->str
= dup_xml_string( str
, FALSE
))) return E_OUTOFMEMORY
;
425 if (prefix
->ns
) free_xml_string( prefix
->ns
);
426 if (!(prefix
->ns
= dup_xml_string( ns
, FALSE
))) return E_OUTOFMEMORY
;
430 static HRESULT
bind_prefix( struct reader
*reader
, const WS_XML_STRING
*prefix
, const WS_XML_STRING
*ns
)
435 for (i
= 0; i
< reader
->nb_prefixes
; i
++)
437 if (WsXmlStringEquals( prefix
, reader
->prefixes
[i
].str
, NULL
) == S_OK
)
438 return set_prefix( &reader
->prefixes
[i
], NULL
, ns
);
440 if (i
>= reader
->nb_prefixes_allocated
)
442 ULONG new_size
= reader
->nb_prefixes_allocated
* sizeof(*reader
->prefixes
) * 2;
443 struct prefix
*tmp
= heap_realloc_zero( reader
->prefixes
, new_size
);
444 if (!tmp
) return E_OUTOFMEMORY
;
445 reader
->prefixes
= tmp
;
446 reader
->nb_prefixes_allocated
*= 2;
448 if ((hr
= set_prefix( &reader
->prefixes
[i
], prefix
, ns
)) != S_OK
) return hr
;
449 reader
->nb_prefixes
++;
453 static const WS_XML_STRING
*get_namespace( struct reader
*reader
, const WS_XML_STRING
*prefix
)
456 for (i
= 0; i
< reader
->nb_prefixes
; i
++)
458 if (WsXmlStringEquals( prefix
, reader
->prefixes
[i
].str
, NULL
) == S_OK
)
459 return reader
->prefixes
[i
].ns
;
464 static void read_insert_eof( struct reader
*reader
, struct node
*eof
)
466 if (!reader
->root
) reader
->root
= eof
;
469 eof
->parent
= reader
->root
;
470 list_add_tail( &reader
->root
->children
, &eof
->entry
);
472 reader
->current
= reader
->last
= eof
;
475 static void read_insert_bof( struct reader
*reader
, struct node
*bof
)
477 reader
->root
->parent
= bof
;
478 list_add_tail( &bof
->children
, &reader
->root
->entry
);
479 reader
->current
= reader
->last
= reader
->root
= bof
;
482 static void read_insert_node( struct reader
*reader
, struct node
*parent
, struct node
*node
)
484 node
->parent
= parent
;
485 list_add_before( list_tail( &parent
->children
), &node
->entry
);
486 reader
->current
= reader
->last
= node
;
489 static void free_reader( struct reader
*reader
)
491 destroy_nodes( reader
->root
);
492 clear_prefixes( reader
->prefixes
, reader
->nb_prefixes
);
493 heap_free( reader
->prefixes
);
494 reader
->cs
.DebugInfo
->Spare
[0] = 0;
495 DeleteCriticalSection( &reader
->cs
);
499 static HRESULT
init_reader( struct reader
*reader
)
501 static const WS_XML_STRING empty
= {0, NULL
};
505 reader
->state
= READER_STATE_INITIAL
;
506 destroy_nodes( reader
->root
);
507 reader
->root
= reader
->current
= NULL
;
508 reader
->current_attr
= 0;
509 clear_prefixes( reader
->prefixes
, reader
->nb_prefixes
);
510 reader
->nb_prefixes
= 1;
511 if ((hr
= bind_prefix( reader
, &empty
, &empty
)) != S_OK
) return hr
;
513 if (!(node
= alloc_node( WS_XML_NODE_TYPE_EOF
))) return E_OUTOFMEMORY
;
514 read_insert_eof( reader
, node
);
515 reader
->input_enc
= WS_XML_READER_ENCODING_TYPE_TEXT
;
516 reader
->input_charset
= WS_CHARSET_UTF8
;
517 reader
->dict_static
= NULL
;
522 /**************************************************************************
523 * WsCreateReader [webservices.@]
525 HRESULT WINAPI
WsCreateReader( const WS_XML_READER_PROPERTY
*properties
, ULONG count
,
526 WS_XML_READER
**handle
, WS_ERROR
*error
)
528 struct reader
*reader
;
529 ULONG i
, max_depth
= 32, max_attrs
= 128, max_ns
= 32;
530 BOOL read_decl
= TRUE
;
533 TRACE( "%p %u %p %p\n", properties
, count
, handle
, error
);
534 if (error
) FIXME( "ignoring error parameter\n" );
536 if (!handle
) return E_INVALIDARG
;
537 if (!(reader
= alloc_reader())) return E_OUTOFMEMORY
;
539 prop_set( reader
->prop
, reader
->prop_count
, WS_XML_READER_PROPERTY_MAX_DEPTH
, &max_depth
, sizeof(max_depth
) );
540 prop_set( reader
->prop
, reader
->prop_count
, WS_XML_READER_PROPERTY_MAX_ATTRIBUTES
, &max_attrs
, sizeof(max_attrs
) );
541 prop_set( reader
->prop
, reader
->prop_count
, WS_XML_READER_PROPERTY_READ_DECLARATION
, &read_decl
, sizeof(read_decl
) );
542 prop_set( reader
->prop
, reader
->prop_count
, WS_XML_READER_PROPERTY_MAX_NAMESPACES
, &max_ns
, sizeof(max_ns
) );
544 for (i
= 0; i
< count
; i
++)
546 hr
= prop_set( reader
->prop
, reader
->prop_count
, properties
[i
].id
, properties
[i
].value
,
547 properties
[i
].valueSize
);
550 free_reader( reader
);
555 if ((hr
= init_reader( reader
)) != S_OK
)
557 free_reader( reader
);
561 TRACE( "created %p\n", reader
);
562 *handle
= (WS_XML_READER
*)reader
;
566 /**************************************************************************
567 * WsFreeReader [webservices.@]
569 void WINAPI
WsFreeReader( WS_XML_READER
*handle
)
571 struct reader
*reader
= (struct reader
*)handle
;
573 TRACE( "%p\n", handle
);
577 EnterCriticalSection( &reader
->cs
);
579 if (reader
->magic
!= READER_MAGIC
)
581 LeaveCriticalSection( &reader
->cs
);
587 LeaveCriticalSection( &reader
->cs
);
588 free_reader( reader
);
591 /**************************************************************************
592 * WsFillReader [webservices.@]
594 HRESULT WINAPI
WsFillReader( WS_XML_READER
*handle
, ULONG min_size
, const WS_ASYNC_CONTEXT
*ctx
,
597 struct reader
*reader
= (struct reader
*)handle
;
599 TRACE( "%p %u %p %p\n", handle
, min_size
, ctx
, error
);
600 if (error
) FIXME( "ignoring error parameter\n" );
602 if (!reader
) return E_INVALIDARG
;
604 EnterCriticalSection( &reader
->cs
);
606 if (reader
->magic
!= READER_MAGIC
)
608 LeaveCriticalSection( &reader
->cs
);
612 /* FIXME: add support for stream input */
613 reader
->read_size
= min( min_size
, reader
->input_size
);
614 reader
->read_pos
= 0;
616 LeaveCriticalSection( &reader
->cs
);
620 /**************************************************************************
621 * WsGetNamespaceFromPrefix [webservices.@]
623 HRESULT WINAPI
WsGetNamespaceFromPrefix( WS_XML_READER
*handle
, const WS_XML_STRING
*prefix
,
624 BOOL required
, const WS_XML_STRING
**ns
, WS_ERROR
*error
)
626 static const WS_XML_STRING xml
= {3, (BYTE
*)"xml"};
627 static const WS_XML_STRING xmlns
= {5, (BYTE
*)"xmlns"};
628 static const WS_XML_STRING empty_ns
= {0, NULL
};
629 static const WS_XML_STRING xml_ns
= {36, (BYTE
*)"http://www.w3.org/XML/1998/namespace"};
630 static const WS_XML_STRING xmlns_ns
= {29, (BYTE
*)"http://www.w3.org/2000/xmlns/"};
631 struct reader
*reader
= (struct reader
*)handle
;
634 TRACE( "%p %s %d %p %p\n", handle
, debugstr_xmlstr(prefix
), required
, ns
, error
);
635 if (error
) FIXME( "ignoring error parameter\n" );
637 if (!reader
|| !prefix
|| !ns
) return E_INVALIDARG
;
639 EnterCriticalSection( &reader
->cs
);
641 if (reader
->magic
!= READER_MAGIC
)
643 LeaveCriticalSection( &reader
->cs
);
647 if (reader
->state
!= READER_STATE_STARTELEMENT
)
649 LeaveCriticalSection( &reader
->cs
);
650 return WS_E_INVALID_OPERATION
;
658 else if (WsXmlStringEquals( prefix
, &xml
, NULL
) == S_OK
)
663 else if (WsXmlStringEquals( prefix
, &xmlns
, NULL
) == S_OK
)
670 WS_XML_ELEMENT_NODE
*elem
= &reader
->current
->hdr
;
673 for (i
= 0; i
< elem
->attributeCount
; i
++)
675 if (!elem
->attributes
[i
]->isXmlNs
) continue;
676 if (WsXmlStringEquals( prefix
, elem
->attributes
[i
]->prefix
, NULL
) == S_OK
)
678 *ns
= elem
->attributes
[i
]->ns
;
685 LeaveCriticalSection( &reader
->cs
);
689 if (required
) return WS_E_INVALID_FORMAT
;
697 /**************************************************************************
698 * WsGetReaderNode [webservices.@]
700 HRESULT WINAPI
WsGetReaderNode( WS_XML_READER
*handle
, const WS_XML_NODE
**node
,
703 struct reader
*reader
= (struct reader
*)handle
;
705 TRACE( "%p %p %p\n", handle
, node
, error
);
706 if (error
) FIXME( "ignoring error parameter\n" );
708 if (!reader
|| !node
) return E_INVALIDARG
;
710 EnterCriticalSection( &reader
->cs
);
712 if (reader
->magic
!= READER_MAGIC
)
714 LeaveCriticalSection( &reader
->cs
);
718 *node
= &reader
->current
->hdr
.node
;
720 LeaveCriticalSection( &reader
->cs
);
724 static HRESULT
get_charset( struct reader
*reader
, void *buf
, ULONG size
)
726 if (!buf
|| size
!= sizeof(reader
->input_charset
)) return E_INVALIDARG
;
727 if (!reader
->input_charset
) return WS_E_INVALID_FORMAT
;
728 *(WS_CHARSET
*)buf
= reader
->input_charset
;
732 /**************************************************************************
733 * WsGetReaderProperty [webservices.@]
735 HRESULT WINAPI
WsGetReaderProperty( WS_XML_READER
*handle
, WS_XML_READER_PROPERTY_ID id
,
736 void *buf
, ULONG size
, WS_ERROR
*error
)
738 struct reader
*reader
= (struct reader
*)handle
;
741 TRACE( "%p %u %p %u %p\n", handle
, id
, buf
, size
, error
);
742 if (error
) FIXME( "ignoring error parameter\n" );
744 if (!reader
) return E_INVALIDARG
;
746 EnterCriticalSection( &reader
->cs
);
748 if (reader
->magic
!= READER_MAGIC
)
750 LeaveCriticalSection( &reader
->cs
);
754 if (!reader
->input_type
)
756 LeaveCriticalSection( &reader
->cs
);
757 return WS_E_INVALID_OPERATION
;
760 if (id
== WS_XML_READER_PROPERTY_CHARSET
) hr
= get_charset( reader
, buf
, size
);
761 else hr
= prop_get( reader
->prop
, reader
->prop_count
, id
, buf
, size
);
763 LeaveCriticalSection( &reader
->cs
);
767 /**************************************************************************
768 * WsGetXmlAttribute [webservices.@]
770 HRESULT WINAPI
WsGetXmlAttribute( WS_XML_READER
*handle
, const WS_XML_STRING
*attr
,
771 WS_HEAP
*heap
, WCHAR
**str
, ULONG
*len
, WS_ERROR
*error
)
773 FIXME( "%p %s %p %p %p %p: stub\n", handle
, debugstr_xmlstr(attr
), heap
, str
, len
, error
);
777 WS_XML_UTF8_TEXT
*alloc_utf8_text( const BYTE
*data
, ULONG len
)
779 WS_XML_UTF8_TEXT
*ret
;
781 if (!(ret
= heap_alloc( sizeof(*ret
) + len
))) return NULL
;
782 ret
->text
.textType
= WS_XML_TEXT_TYPE_UTF8
;
783 ret
->value
.length
= len
;
784 ret
->value
.bytes
= len
? (BYTE
*)(ret
+ 1) : NULL
;
785 ret
->value
.dictionary
= NULL
;
787 if (data
) memcpy( ret
->value
.bytes
, data
, len
);
791 WS_XML_BASE64_TEXT
*alloc_base64_text( const BYTE
*data
, ULONG len
)
793 WS_XML_BASE64_TEXT
*ret
;
795 if (!(ret
= heap_alloc( sizeof(*ret
) + len
))) return NULL
;
796 ret
->text
.textType
= WS_XML_TEXT_TYPE_BASE64
;
798 ret
->bytes
= len
? (BYTE
*)(ret
+ 1) : NULL
;
799 if (data
) memcpy( ret
->bytes
, data
, len
);
803 WS_XML_BOOL_TEXT
*alloc_bool_text( BOOL value
)
805 WS_XML_BOOL_TEXT
*ret
;
807 if (!(ret
= heap_alloc( sizeof(*ret
) ))) return NULL
;
808 ret
->text
.textType
= WS_XML_TEXT_TYPE_BOOL
;
813 WS_XML_INT32_TEXT
*alloc_int32_text( INT32 value
)
815 WS_XML_INT32_TEXT
*ret
;
817 if (!(ret
= heap_alloc( sizeof(*ret
) ))) return NULL
;
818 ret
->text
.textType
= WS_XML_TEXT_TYPE_INT32
;
823 WS_XML_INT64_TEXT
*alloc_int64_text( INT64 value
)
825 WS_XML_INT64_TEXT
*ret
;
827 if (!(ret
= heap_alloc( sizeof(*ret
) ))) return NULL
;
828 ret
->text
.textType
= WS_XML_TEXT_TYPE_INT64
;
833 WS_XML_UINT64_TEXT
*alloc_uint64_text( UINT64 value
)
835 WS_XML_UINT64_TEXT
*ret
;
837 if (!(ret
= heap_alloc( sizeof(*ret
) ))) return NULL
;
838 ret
->text
.textType
= WS_XML_TEXT_TYPE_UINT64
;
843 WS_XML_FLOAT_TEXT
*alloc_float_text( float value
)
845 WS_XML_FLOAT_TEXT
*ret
;
847 if (!(ret
= heap_alloc( sizeof(*ret
) ))) return NULL
;
848 ret
->text
.textType
= WS_XML_TEXT_TYPE_FLOAT
;
853 WS_XML_DOUBLE_TEXT
*alloc_double_text( double value
)
855 WS_XML_DOUBLE_TEXT
*ret
;
857 if (!(ret
= heap_alloc( sizeof(*ret
) ))) return NULL
;
858 ret
->text
.textType
= WS_XML_TEXT_TYPE_DOUBLE
;
863 WS_XML_GUID_TEXT
*alloc_guid_text( const GUID
*value
)
865 WS_XML_GUID_TEXT
*ret
;
867 if (!(ret
= heap_alloc( sizeof(*ret
) ))) return NULL
;
868 ret
->text
.textType
= WS_XML_TEXT_TYPE_GUID
;
873 WS_XML_UNIQUE_ID_TEXT
*alloc_unique_id_text( const GUID
*value
)
875 WS_XML_UNIQUE_ID_TEXT
*ret
;
877 if (!(ret
= heap_alloc( sizeof(*ret
) ))) return NULL
;
878 ret
->text
.textType
= WS_XML_TEXT_TYPE_UNIQUE_ID
;
883 WS_XML_DATETIME_TEXT
*alloc_datetime_text( const WS_DATETIME
*value
)
885 WS_XML_DATETIME_TEXT
*ret
;
887 if (!(ret
= heap_alloc( sizeof(*ret
) ))) return NULL
;
888 ret
->text
.textType
= WS_XML_TEXT_TYPE_DATETIME
;
893 static inline BOOL
read_end_of_data( struct reader
*reader
)
895 return reader
->read_pos
>= reader
->read_size
;
898 static inline const unsigned char *read_current_ptr( struct reader
*reader
)
900 return &reader
->read_bufptr
[reader
->read_pos
];
903 static inline HRESULT
read_peek( struct reader
*reader
, unsigned char *byte
)
905 if (reader
->read_pos
>= reader
->read_size
) return WS_E_INVALID_FORMAT
;
906 *byte
= reader
->read_bufptr
[reader
->read_pos
];
910 static inline HRESULT
read_byte( struct reader
*reader
, unsigned char *byte
)
912 if (reader
->read_pos
>= reader
->read_size
) return WS_E_INVALID_FORMAT
;
913 *byte
= reader
->read_bufptr
[reader
->read_pos
++];
917 static inline HRESULT
read_bytes( struct reader
*reader
, unsigned char *bytes
, unsigned int len
)
919 if (reader
->read_pos
+ len
> reader
->read_size
) return WS_E_INVALID_FORMAT
;
920 memcpy( bytes
, reader
->read_bufptr
+ reader
->read_pos
, len
);
921 reader
->read_pos
+= len
;
925 /* UTF-8 support based on libs/wine/utf8.c */
927 /* number of following bytes in sequence based on first byte value (for bytes above 0x7f) */
928 static const char utf8_length
[128] =
930 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x80-0x8f */
931 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x90-0x9f */
932 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0xa0-0xaf */
933 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0xb0-0xbf */
934 0,0,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* 0xc0-0xcf */
935 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, /* 0xd0-0xdf */
936 2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2, /* 0xe0-0xef */
937 3,3,3,3,3,0,0,0,0,0,0,0,0,0,0,0 /* 0xf0-0xff */
940 /* first byte mask depending on UTF-8 sequence length */
941 static const unsigned char utf8_mask
[4] = { 0x7f, 0x1f, 0x0f, 0x07 };
943 /* minimum Unicode value depending on UTF-8 sequence length */
944 static const unsigned int utf8_minval
[4] = { 0x0, 0x80, 0x800, 0x10000 };
946 static inline unsigned int read_utf8_char( struct reader
*reader
, unsigned int *skip
)
948 unsigned int len
, res
;
949 unsigned char ch
= reader
->read_bufptr
[reader
->read_pos
];
950 const unsigned char *end
;
952 if (reader
->read_pos
>= reader
->read_size
) return 0;
959 len
= utf8_length
[ch
- 0x80];
960 if (reader
->read_pos
+ len
>= reader
->read_size
) return 0;
961 end
= reader
->read_bufptr
+ reader
->read_pos
+ len
+ 1;
962 res
= ch
& utf8_mask
[len
];
967 if ((ch
= end
[-3] ^ 0x80) >= 0x40) break;
968 res
= (res
<< 6) | ch
;
970 if ((ch
= end
[-2] ^ 0x80) >= 0x40) break;
971 res
= (res
<< 6) | ch
;
973 if ((ch
= end
[-1] ^ 0x80) >= 0x40) break;
974 res
= (res
<< 6) | ch
;
975 if (res
< utf8_minval
[len
]) break;
983 static inline void read_skip( struct reader
*reader
, unsigned int count
)
985 if (reader
->read_pos
+ count
> reader
->read_size
) return;
986 reader
->read_pos
+= count
;
989 static inline void read_rewind( struct reader
*reader
, unsigned int count
)
991 reader
->read_pos
-= count
;
994 static inline BOOL
read_isnamechar( unsigned int ch
)
996 /* FIXME: incomplete */
997 return (ch
>= 'A' && ch
<= 'Z') ||
998 (ch
>= 'a' && ch
<= 'z') ||
999 (ch
>= '0' && ch
<= '9') ||
1000 ch
== '_' || ch
== '-' || ch
== '.' || ch
== ':';
1003 static inline BOOL
read_isspace( unsigned int ch
)
1005 return ch
== ' ' || ch
== '\t' || ch
== '\r' || ch
== '\n';
1008 static inline void read_skip_whitespace( struct reader
*reader
)
1010 while (reader
->read_pos
< reader
->read_size
&& read_isspace( reader
->read_bufptr
[reader
->read_pos
] ))
1014 static inline int read_cmp( struct reader
*reader
, const char *str
, int len
)
1016 const unsigned char *ptr
= read_current_ptr( reader
);
1018 if (len
< 0) len
= strlen( str
);
1019 if (reader
->read_pos
+ len
> reader
->read_size
) return -1;
1022 if (*str
!= *ptr
) return *ptr
- *str
;
1028 static HRESULT
read_xmldecl( struct reader
*reader
)
1030 if (!reader
->read_size
) return WS_E_INVALID_FORMAT
;
1032 if (read_cmp( reader
, "<", 1 ) || read_cmp( reader
, "<?", 2 ))
1034 reader
->state
= READER_STATE_BOF
;
1037 if (read_cmp( reader
, "<?xml ", 6 )) return WS_E_INVALID_FORMAT
;
1038 read_skip( reader
, 6 );
1040 /* FIXME: parse attributes */
1041 while (reader
->read_pos
< reader
->read_size
&& reader
->read_bufptr
[reader
->read_pos
] != '?')
1044 if (read_cmp( reader
, "?>", 2 )) return WS_E_INVALID_FORMAT
;
1045 read_skip( reader
, 2 );
1047 reader
->state
= READER_STATE_BOF
;
1051 HRESULT
append_attribute( WS_XML_ELEMENT_NODE
*elem
, WS_XML_ATTRIBUTE
*attr
)
1053 if (elem
->attributeCount
)
1055 WS_XML_ATTRIBUTE
**tmp
;
1056 if (!(tmp
= heap_realloc( elem
->attributes
, (elem
->attributeCount
+ 1) * sizeof(attr
) )))
1057 return E_OUTOFMEMORY
;
1058 elem
->attributes
= tmp
;
1060 else if (!(elem
->attributes
= heap_alloc( sizeof(attr
) ))) return E_OUTOFMEMORY
;
1061 elem
->attributes
[elem
->attributeCount
++] = attr
;
1065 static inline void init_xml_string( BYTE
*bytes
, ULONG len
, WS_XML_STRING
*str
)
1069 str
->dictionary
= NULL
;
1073 static HRESULT
split_qname( const BYTE
*str
, ULONG len
, WS_XML_STRING
*prefix
, WS_XML_STRING
*localname
)
1075 BYTE
*prefix_bytes
= NULL
, *localname_bytes
= (BYTE
*)str
, *ptr
= (BYTE
*)str
;
1076 ULONG prefix_len
= 0, localname_len
= len
;
1082 if (ptr
== str
) return WS_E_INVALID_FORMAT
;
1083 prefix_bytes
= (BYTE
*)str
;
1084 prefix_len
= ptr
- str
;
1085 localname_bytes
= ptr
+ 1;
1086 localname_len
= len
;
1091 if (!localname_len
) return WS_E_INVALID_FORMAT
;
1093 init_xml_string( prefix_bytes
, prefix_len
, prefix
);
1094 init_xml_string( localname_bytes
, localname_len
, localname
);
1098 static HRESULT
parse_qname( const BYTE
*str
, ULONG len
, WS_XML_STRING
**prefix_ret
, WS_XML_STRING
**localname_ret
)
1100 WS_XML_STRING prefix
, localname
;
1103 if ((hr
= split_qname( str
, len
, &prefix
, &localname
)) != S_OK
) return hr
;
1104 if (!(*prefix_ret
= alloc_xml_string( NULL
, prefix
.length
))) return E_OUTOFMEMORY
;
1105 if (!(*localname_ret
= dup_xml_string( &localname
, FALSE
)))
1107 free_xml_string( *prefix_ret
);
1108 return E_OUTOFMEMORY
;
1110 memcpy( (*prefix_ret
)->bytes
, prefix
.bytes
, prefix
.length
);
1111 if (prefix
.length
&& add_xml_string( *prefix_ret
) != S_OK
) WARN( "prefix not added to dictionary\n" );
1115 static int codepoint_to_utf8( int cp
, unsigned char *dst
)
1125 dst
[1] = 0x80 | (cp
& 0x3f);
1130 if ((cp
>= 0xd800 && cp
<= 0xdfff) || cp
== 0xfffe || cp
== 0xffff) return -1;
1133 dst
[2] = 0x80 | (cp
& 0x3f);
1135 dst
[1] = 0x80 | (cp
& 0x3f);
1140 if (cp
>= 0x110000) return -1;
1141 dst
[3] = 0x80 | (cp
& 0x3f);
1143 dst
[2] = 0x80 | (cp
& 0x3f);
1145 dst
[1] = 0x80 | (cp
& 0x3f);
1151 static HRESULT
decode_text( const unsigned char *str
, ULONG len
, unsigned char *ret
, ULONG
*ret_len
)
1153 const unsigned char *p
= str
;
1154 unsigned char *q
= ret
;
1162 if (!len
) return WS_E_INVALID_FORMAT
;
1164 if (len
>= 3 && !memcmp( p
, "lt;", 3 ))
1170 else if (len
>= 3 && !memcmp( p
, "gt;", 3 ))
1176 else if (len
>= 5 && !memcmp( p
, "quot;", 5 ))
1182 else if (len
>= 4 && !memcmp( p
, "amp;", 4 ))
1188 else if (len
>= 5 && !memcmp( p
, "apos;", 5 ))
1196 ULONG start
, nb_digits
, i
;
1197 int len_utf8
, cp
= 0;
1200 if (!len
) return WS_E_INVALID_FORMAT
;
1206 while (len
&& isxdigit( *p
)) { p
++; len
--; };
1207 if (!len
) return WS_E_INVALID_FORMAT
;
1209 p
-= nb_digits
= start
- len
;
1210 if (!nb_digits
|| nb_digits
> 6 || p
[nb_digits
] != ';') return WS_E_INVALID_FORMAT
;
1211 for (i
= 0; i
< nb_digits
; i
++)
1214 if (*p
>= '0' && *p
<= '9') cp
+= *p
- '0';
1215 else if (*p
>= 'a' && *p
<= 'f') cp
+= *p
- 'a' + 10;
1216 else cp
+= *p
- 'A' + 10;
1220 else if (isdigit( *p
))
1222 while (len
&& *p
== '0') { p
++; len
--; };
1223 if (!len
) return WS_E_INVALID_FORMAT
;
1226 while (len
&& isdigit( *p
)) { p
++; len
--; };
1227 if (!len
) return WS_E_INVALID_FORMAT
;
1229 p
-= nb_digits
= start
- len
;
1230 if (!nb_digits
|| nb_digits
> 7 || p
[nb_digits
] != ';') return WS_E_INVALID_FORMAT
;
1231 for (i
= 0; i
< nb_digits
; i
++)
1238 else return WS_E_INVALID_FORMAT
;
1240 if ((len_utf8
= codepoint_to_utf8( cp
, q
)) < 0) return WS_E_INVALID_FORMAT
;
1241 *ret_len
+= len_utf8
;
1245 else return WS_E_INVALID_FORMAT
;
1257 static HRESULT
read_attribute_value_text( struct reader
*reader
, WS_XML_ATTRIBUTE
*attr
)
1259 WS_XML_UTF8_TEXT
*utf8
= NULL
;
1260 unsigned int len
, ch
, skip
, quote
;
1261 const unsigned char *start
;
1262 HRESULT hr
= E_OUTOFMEMORY
;
1264 read_skip_whitespace( reader
);
1265 if (read_cmp( reader
, "=", 1 )) return WS_E_INVALID_FORMAT
;
1266 read_skip( reader
, 1 );
1268 read_skip_whitespace( reader
);
1269 if (read_cmp( reader
, "\"", 1 ) && read_cmp( reader
, "'", 1 )) return WS_E_INVALID_FORMAT
;
1270 quote
= read_utf8_char( reader
, &skip
);
1271 read_skip( reader
, 1 );
1274 start
= read_current_ptr( reader
);
1277 if (!(ch
= read_utf8_char( reader
, &skip
))) return WS_E_INVALID_FORMAT
;
1278 if (ch
== quote
) break;
1279 read_skip( reader
, skip
);
1282 read_skip( reader
, 1 );
1286 if (!(attr
->ns
= alloc_xml_string( start
, len
))) goto error
;
1287 if ((hr
= bind_prefix( reader
, attr
->prefix
, attr
->ns
)) != S_OK
) goto error
;
1288 if (!(utf8
= alloc_utf8_text( NULL
, 0 )))
1296 if (!(utf8
= alloc_utf8_text( NULL
, len
))) goto error
;
1297 if ((hr
= decode_text( start
, len
, utf8
->value
.bytes
, &utf8
->value
.length
)) != S_OK
) goto error
;
1300 attr
->value
= &utf8
->text
;
1301 attr
->singleQuote
= (quote
== '\'');
1309 static inline BOOL
is_text_type( unsigned char type
)
1311 return (type
>= RECORD_ZERO_TEXT
&& type
<= RECORD_QNAME_DICTIONARY_TEXT_WITH_ENDELEMENT
);
1314 static HRESULT
read_int31( struct reader
*reader
, ULONG
*len
)
1319 if ((hr
= read_byte( reader
, &byte
)) != S_OK
) return hr
;
1321 if (!(byte
& 0x80)) return S_OK
;
1323 if ((hr
= read_byte( reader
, &byte
)) != S_OK
) return hr
;
1324 *len
+= (byte
& 0x7f) << 7;
1325 if (!(byte
& 0x80)) return S_OK
;
1327 if ((hr
= read_byte( reader
, &byte
)) != S_OK
) return hr
;
1328 *len
+= (byte
& 0x7f) << 14;
1329 if (!(byte
& 0x80)) return S_OK
;
1331 if ((hr
= read_byte( reader
, &byte
)) != S_OK
) return hr
;
1332 *len
+= (byte
& 0x7f) << 21;
1333 if (!(byte
& 0x80)) return S_OK
;
1335 if ((hr
= read_byte( reader
, &byte
)) != S_OK
) return hr
;
1336 *len
+= (byte
& 0x07) << 28;
1340 static HRESULT
read_string( struct reader
*reader
, WS_XML_STRING
**str
)
1344 if ((hr
= read_int31( reader
, &len
)) != S_OK
) return hr
;
1345 if (!(*str
= alloc_xml_string( NULL
, len
))) return E_OUTOFMEMORY
;
1346 if ((hr
= read_bytes( reader
, (*str
)->bytes
, len
)) == S_OK
)
1348 if (add_xml_string( *str
) != S_OK
) WARN( "string not added to dictionary\n" );
1351 free_xml_string( *str
);
1355 static HRESULT
read_dict_string( struct reader
*reader
, WS_XML_STRING
**str
)
1357 const WS_XML_DICTIONARY
*dict
;
1361 if ((hr
= read_int31( reader
, &id
)) != S_OK
) return hr
;
1362 dict
= (id
& 1) ? reader
->dict
: reader
->dict_static
;
1363 if (!dict
|| (id
>>= 1) >= dict
->stringCount
) return WS_E_INVALID_FORMAT
;
1364 if (!(*str
= alloc_xml_string( NULL
, 0 ))) return E_OUTOFMEMORY
;
1365 *(*str
) = dict
->strings
[id
];
1369 static HRESULT
read_datetime( struct reader
*reader
, WS_DATETIME
*ret
)
1374 if ((hr
= read_bytes( reader
, (unsigned char *)&val
, sizeof(val
) )) != S_OK
) return hr
;
1376 if ((val
& 0x03) == 1) ret
->format
= WS_DATETIME_FORMAT_UTC
;
1377 else if ((val
& 0x03) == 2) ret
->format
= WS_DATETIME_FORMAT_LOCAL
;
1378 else ret
->format
= WS_DATETIME_FORMAT_NONE
;
1380 if ((ret
->ticks
= val
>> 2) > TICKS_MAX
) return WS_E_INVALID_FORMAT
;
1384 static HRESULT
lookup_string( struct reader
*reader
, ULONG id
, const WS_XML_STRING
**ret
)
1386 const WS_XML_DICTIONARY
*dict
= (id
& 1) ? reader
->dict
: reader
->dict_static
;
1387 if (!dict
|| (id
>>= 1) >= dict
->stringCount
) return WS_E_INVALID_FORMAT
;
1388 *ret
= &dict
->strings
[id
];
1392 static HRESULT
read_attribute_value_bin( struct reader
*reader
, WS_XML_ATTRIBUTE
*attr
)
1394 WS_XML_UTF8_TEXT
*text_utf8
= NULL
;
1395 WS_XML_BASE64_TEXT
*text_base64
= NULL
;
1396 WS_XML_INT32_TEXT
*text_int32
;
1397 WS_XML_INT64_TEXT
*text_int64
;
1398 WS_XML_BOOL_TEXT
*text_bool
;
1399 const WS_XML_STRING
*str
;
1408 if ((hr
= read_byte( reader
, &type
)) != S_OK
) return hr
;
1409 if (!is_text_type( type
)) return WS_E_INVALID_FORMAT
;
1413 case RECORD_ZERO_TEXT
:
1415 if (!(text_int32
= alloc_int32_text( 0 ))) return E_OUTOFMEMORY
;
1416 attr
->value
= &text_int32
->text
;
1419 case RECORD_ONE_TEXT
:
1421 if (!(text_int32
= alloc_int32_text( 1 ))) return E_OUTOFMEMORY
;
1422 attr
->value
= &text_int32
->text
;
1425 case RECORD_FALSE_TEXT
:
1427 if (!(text_bool
= alloc_bool_text( FALSE
))) return E_OUTOFMEMORY
;
1428 attr
->value
= &text_bool
->text
;
1431 case RECORD_TRUE_TEXT
:
1433 if (!(text_bool
= alloc_bool_text( TRUE
))) return E_OUTOFMEMORY
;
1434 attr
->value
= &text_bool
->text
;
1437 case RECORD_INT8_TEXT
:
1440 if ((hr
= read_byte( reader
, (unsigned char *)&val_int8
)) != S_OK
) return hr
;
1441 if (!(text_int64
= alloc_int64_text( val_int8
))) return E_OUTOFMEMORY
;
1442 attr
->value
= &text_int64
->text
;
1445 case RECORD_INT16_TEXT
:
1448 if ((hr
= read_bytes( reader
, (unsigned char *)&val_int16
, sizeof(val_int16
) )) != S_OK
) return hr
;
1449 if (!(text_int64
= alloc_int64_text( val_int16
))) return E_OUTOFMEMORY
;
1450 attr
->value
= &text_int64
->text
;
1453 case RECORD_INT32_TEXT
:
1454 if ((hr
= read_bytes( reader
, (unsigned char *)&val_int32
, sizeof(val_int32
) )) != S_OK
) return hr
;
1455 if (!(text_int64
= alloc_int64_text( val_int32
))) return E_OUTOFMEMORY
;
1456 attr
->value
= &text_int64
->text
;
1459 case RECORD_INT64_TEXT
:
1462 if ((hr
= read_bytes( reader
, (unsigned char *)&val_int64
, sizeof(val_int64
) )) != S_OK
) return hr
;
1463 if (!(text_int64
= alloc_int64_text( val_int64
))) return E_OUTOFMEMORY
;
1464 attr
->value
= &text_int64
->text
;
1467 case RECORD_FLOAT_TEXT
:
1469 WS_XML_FLOAT_TEXT
*text_float
;
1472 if ((hr
= read_bytes( reader
, (unsigned char *)&val_float
, sizeof(val_float
) )) != S_OK
) return hr
;
1473 if (!(text_float
= alloc_float_text( val_float
))) return E_OUTOFMEMORY
;
1474 attr
->value
= &text_float
->text
;
1477 case RECORD_DOUBLE_TEXT
:
1479 WS_XML_DOUBLE_TEXT
*text_double
;
1482 if ((hr
= read_bytes( reader
, (unsigned char *)&val_double
, sizeof(val_double
) )) != S_OK
) return hr
;
1483 if (!(text_double
= alloc_double_text( val_double
))) return E_OUTOFMEMORY
;
1484 attr
->value
= &text_double
->text
;
1487 case RECORD_DATETIME_TEXT
:
1489 WS_XML_DATETIME_TEXT
*text_datetime
;
1490 WS_DATETIME datetime
;
1492 if ((hr
= read_datetime( reader
, &datetime
)) != S_OK
) return hr
;
1493 if (!(text_datetime
= alloc_datetime_text( &datetime
))) return E_OUTOFMEMORY
;
1494 attr
->value
= &text_datetime
->text
;
1497 case RECORD_CHARS8_TEXT
:
1498 if ((hr
= read_byte( reader
, (unsigned char *)&val_uint8
)) != S_OK
) return hr
;
1502 case RECORD_CHARS16_TEXT
:
1503 if ((hr
= read_bytes( reader
, (unsigned char *)&val_uint16
, sizeof(val_uint16
) )) != S_OK
) return hr
;
1507 case RECORD_CHARS32_TEXT
:
1508 if ((hr
= read_bytes( reader
, (unsigned char *)&val_int32
, sizeof(val_int32
) )) != S_OK
) return hr
;
1509 if (val_int32
< 0) return WS_E_INVALID_FORMAT
;
1513 case RECORD_BYTES8_TEXT
:
1514 if ((hr
= read_byte( reader
, (unsigned char *)&val_uint8
)) != S_OK
) return hr
;
1515 if (!(text_base64
= alloc_base64_text( NULL
, val_uint8
))) return E_OUTOFMEMORY
;
1516 if ((hr
= read_bytes( reader
, text_base64
->bytes
, val_uint8
)) != S_OK
)
1518 heap_free( text_base64
);
1523 case RECORD_BYTES16_TEXT
:
1524 if ((hr
= read_bytes( reader
, (unsigned char *)&val_uint16
, sizeof(val_uint16
) )) != S_OK
) return hr
;
1525 if (!(text_base64
= alloc_base64_text( NULL
, val_uint16
))) return E_OUTOFMEMORY
;
1526 if ((hr
= read_bytes( reader
, text_base64
->bytes
, val_uint16
)) != S_OK
)
1528 heap_free( text_base64
);
1533 case RECORD_BYTES32_TEXT
:
1534 if ((hr
= read_bytes( reader
, (unsigned char *)&val_int32
, sizeof(val_int32
) )) != S_OK
) return hr
;
1535 if (val_int32
< 0) return WS_E_INVALID_FORMAT
;
1536 if (!(text_base64
= alloc_base64_text( NULL
, val_int32
))) return E_OUTOFMEMORY
;
1537 if ((hr
= read_bytes( reader
, text_base64
->bytes
, val_int32
)) != S_OK
)
1539 heap_free( text_base64
);
1544 case RECORD_EMPTY_TEXT
:
1547 case RECORD_DICTIONARY_TEXT
:
1548 if ((hr
= read_int31( reader
, &id
)) != S_OK
) return hr
;
1549 if ((hr
= lookup_string( reader
, id
, &str
)) != S_OK
) return hr
;
1550 if (!(text_utf8
= alloc_utf8_text( str
->bytes
, str
->length
))) return E_OUTOFMEMORY
;
1553 case RECORD_UNIQUE_ID_TEXT
:
1555 WS_XML_UNIQUE_ID_TEXT
*text_unique_id
;
1556 if ((hr
= read_bytes( reader
, (unsigned char *)&guid
, sizeof(guid
) )) != S_OK
) return hr
;
1557 if (!(text_unique_id
= alloc_unique_id_text( &guid
))) return E_OUTOFMEMORY
;
1558 attr
->value
= &text_unique_id
->text
;
1561 case RECORD_GUID_TEXT
:
1563 WS_XML_GUID_TEXT
*guid_text
;
1564 if ((hr
= read_bytes( reader
, (unsigned char *)&guid
, sizeof(guid
) )) != S_OK
) return hr
;
1565 if (!(guid_text
= alloc_guid_text( &guid
))) return E_OUTOFMEMORY
;
1566 attr
->value
= &guid_text
->text
;
1569 case RECORD_UINT64_TEXT
:
1571 WS_XML_UINT64_TEXT
*text_uint64
;
1574 if ((hr
= read_bytes( reader
, (unsigned char *)&val_uint64
, sizeof(val_uint64
) )) != S_OK
) return hr
;
1575 if (!(text_uint64
= alloc_uint64_text( val_uint64
))) return E_OUTOFMEMORY
;
1576 attr
->value
= &text_uint64
->text
;
1579 case RECORD_BOOL_TEXT
:
1581 WS_XML_BOOL_TEXT
*text_bool
;
1584 if ((hr
= read_bytes( reader
, (unsigned char *)&val_bool
, sizeof(val_bool
) )) != S_OK
) return hr
;
1585 if (!(text_bool
= alloc_bool_text( !!val_bool
))) return E_OUTOFMEMORY
;
1586 attr
->value
= &text_bool
->text
;
1590 ERR( "unhandled record type %02x\n", type
);
1591 return WS_E_NOT_SUPPORTED
;
1594 if (type
>= RECORD_BYTES8_TEXT
&& type
<= RECORD_BYTES32_TEXT
)
1596 attr
->value
= &text_base64
->text
;
1602 if (!(text_utf8
= alloc_utf8_text( NULL
, len
))) return E_OUTOFMEMORY
;
1603 if (!len
) text_utf8
->value
.bytes
= (BYTE
*)(text_utf8
+ 1); /* quirk */
1604 if ((hr
= read_bytes( reader
, text_utf8
->value
.bytes
, len
)) != S_OK
)
1606 heap_free( text_utf8
);
1611 attr
->value
= &text_utf8
->text
;
1615 static HRESULT
read_attribute_text( struct reader
*reader
, WS_XML_ATTRIBUTE
**ret
)
1617 static const WS_XML_STRING xmlns
= {5, (BYTE
*)"xmlns"};
1618 WS_XML_ATTRIBUTE
*attr
;
1619 unsigned int len
= 0, ch
, skip
;
1620 const unsigned char *start
;
1621 WS_XML_STRING
*prefix
, *localname
;
1622 HRESULT hr
= WS_E_INVALID_FORMAT
;
1624 if (!(attr
= heap_alloc_zero( sizeof(*attr
) ))) return E_OUTOFMEMORY
;
1626 start
= read_current_ptr( reader
);
1629 if (!(ch
= read_utf8_char( reader
, &skip
))) goto error
;
1630 if (!read_isnamechar( ch
)) break;
1631 read_skip( reader
, skip
);
1634 if (!len
) goto error
;
1636 if ((hr
= parse_qname( start
, len
, &prefix
, &localname
)) != S_OK
) goto error
;
1637 if (WsXmlStringEquals( prefix
, &xmlns
, NULL
) == S_OK
)
1639 free_xml_string( prefix
);
1641 if (!(attr
->prefix
= alloc_xml_string( localname
->bytes
, localname
->length
)))
1643 free_xml_string( localname
);
1647 attr
->localName
= localname
;
1649 else if (!prefix
->length
&& WsXmlStringEquals( localname
, &xmlns
, NULL
) == S_OK
)
1652 attr
->prefix
= prefix
;
1653 attr
->localName
= localname
;
1657 attr
->prefix
= prefix
;
1658 attr
->localName
= localname
;
1661 if ((hr
= read_attribute_value_text( reader
, attr
)) != S_OK
) goto error
;
1667 free_attribute( attr
);
1671 static inline BOOL
is_attribute_type( unsigned char type
)
1673 return (type
>= RECORD_SHORT_ATTRIBUTE
&& type
<= RECORD_PREFIX_ATTRIBUTE_Z
);
1676 static HRESULT
read_attribute_bin( struct reader
*reader
, WS_XML_ATTRIBUTE
**ret
)
1678 WS_XML_ATTRIBUTE
*attr
;
1679 unsigned char type
= 0;
1682 if ((hr
= read_byte( reader
, &type
)) != S_OK
) return hr
;
1683 if (!is_attribute_type( type
)) return WS_E_INVALID_FORMAT
;
1684 if (!(attr
= heap_alloc_zero( sizeof(*attr
) ))) return E_OUTOFMEMORY
;
1686 if (type
>= RECORD_PREFIX_ATTRIBUTE_A
&& type
<= RECORD_PREFIX_ATTRIBUTE_Z
)
1688 unsigned char ch
= type
- RECORD_PREFIX_ATTRIBUTE_A
+ 'a';
1689 if (!(attr
->prefix
= alloc_xml_string( &ch
, 1 )))
1694 if ((hr
= read_string( reader
, &attr
->localName
)) != S_OK
) goto error
;
1695 if ((hr
= read_attribute_value_bin( reader
, attr
)) != S_OK
) goto error
;
1697 else if (type
>= RECORD_PREFIX_DICTIONARY_ATTRIBUTE_A
&& type
<= RECORD_PREFIX_DICTIONARY_ATTRIBUTE_Z
)
1699 unsigned char ch
= type
- RECORD_PREFIX_DICTIONARY_ATTRIBUTE_A
+ 'a';
1700 if (!(attr
->prefix
= alloc_xml_string( &ch
, 1 )))
1705 if ((hr
= read_dict_string( reader
, &attr
->localName
)) != S_OK
) goto error
;
1706 if ((hr
= read_attribute_value_bin( reader
, attr
)) != S_OK
) goto error
;
1712 case RECORD_SHORT_ATTRIBUTE
:
1713 if (!(attr
->prefix
= alloc_xml_string( NULL
, 0 )))
1718 if ((hr
= read_string( reader
, &attr
->localName
)) != S_OK
) goto error
;
1719 if ((hr
= read_attribute_value_bin( reader
, attr
)) != S_OK
) goto error
;
1722 case RECORD_ATTRIBUTE
:
1723 if ((hr
= read_string( reader
, &attr
->prefix
)) != S_OK
) goto error
;
1724 if ((hr
= read_string( reader
, &attr
->localName
)) != S_OK
) goto error
;
1725 if ((hr
= read_attribute_value_bin( reader
, attr
)) != S_OK
) goto error
;
1728 case RECORD_SHORT_DICTIONARY_ATTRIBUTE
:
1729 if (!(attr
->prefix
= alloc_xml_string( NULL
, 0 )))
1734 if ((hr
= read_dict_string( reader
, &attr
->localName
)) != S_OK
) goto error
;
1735 if ((hr
= read_attribute_value_bin( reader
, attr
)) != S_OK
) goto error
;
1738 case RECORD_DICTIONARY_ATTRIBUTE
:
1739 if ((hr
= read_string( reader
, &attr
->prefix
)) != S_OK
) goto error
;
1740 if ((hr
= read_dict_string( reader
, &attr
->localName
)) != S_OK
) goto error
;
1741 if ((hr
= read_attribute_value_bin( reader
, attr
)) != S_OK
) goto error
;
1744 case RECORD_SHORT_XMLNS_ATTRIBUTE
:
1745 if (!(attr
->prefix
= alloc_xml_string( NULL
, 0 )))
1750 if ((hr
= read_string( reader
, &attr
->ns
)) != S_OK
) goto error
;
1751 if ((hr
= bind_prefix( reader
, attr
->prefix
, attr
->ns
)) != S_OK
) goto error
;
1755 case RECORD_XMLNS_ATTRIBUTE
:
1756 if ((hr
= read_string( reader
, &attr
->prefix
)) != S_OK
) goto error
;
1757 if ((hr
= read_string( reader
, &attr
->ns
)) != S_OK
) goto error
;
1758 if ((hr
= bind_prefix( reader
, attr
->prefix
, attr
->ns
)) != S_OK
) goto error
;
1762 case RECORD_SHORT_DICTIONARY_XMLNS_ATTRIBUTE
:
1763 if (!(attr
->prefix
= alloc_xml_string( NULL
, 0 )))
1768 if ((hr
= read_dict_string( reader
, &attr
->ns
)) != S_OK
) goto error
;
1769 if ((hr
= bind_prefix( reader
, attr
->prefix
, attr
->ns
)) != S_OK
) goto error
;
1773 case RECORD_DICTIONARY_XMLNS_ATTRIBUTE
:
1774 if ((hr
= read_string( reader
, &attr
->prefix
)) != S_OK
) goto error
;
1775 if ((hr
= read_dict_string( reader
, &attr
->ns
)) != S_OK
) goto error
;
1776 if ((hr
= bind_prefix( reader
, attr
->prefix
, attr
->ns
)) != S_OK
) goto error
;
1781 ERR( "unhandled record type %02x\n", type
);
1782 return WS_E_NOT_SUPPORTED
;
1790 free_attribute( attr
);
1794 static inline struct node
*find_parent( struct reader
*reader
)
1796 if (node_type( reader
->current
) == WS_XML_NODE_TYPE_END_ELEMENT
)
1798 if (is_valid_parent( reader
->current
->parent
->parent
)) return reader
->current
->parent
->parent
;
1801 if (is_valid_parent( reader
->current
)) return reader
->current
;
1802 if (is_valid_parent( reader
->current
->parent
)) return reader
->current
->parent
;
1806 static HRESULT
set_namespaces( struct reader
*reader
, WS_XML_ELEMENT_NODE
*elem
)
1808 static const WS_XML_STRING xml
= {3, (BYTE
*)"xml"};
1809 const WS_XML_STRING
*ns
;
1812 if (!(ns
= get_namespace( reader
, elem
->prefix
))) return WS_E_INVALID_FORMAT
;
1813 if (!(elem
->ns
= dup_xml_string( ns
, FALSE
))) return E_OUTOFMEMORY
;
1815 for (i
= 0; i
< elem
->attributeCount
; i
++)
1817 WS_XML_ATTRIBUTE
*attr
= elem
->attributes
[i
];
1818 if (attr
->isXmlNs
|| WsXmlStringEquals( attr
->prefix
, &xml
, NULL
) == S_OK
) continue;
1819 if (!(ns
= get_namespace( reader
, attr
->prefix
))) return WS_E_INVALID_FORMAT
;
1820 if (!(attr
->ns
= alloc_xml_string( NULL
, ns
->length
))) return E_OUTOFMEMORY
;
1821 if (attr
->ns
->length
) memcpy( attr
->ns
->bytes
, ns
->bytes
, ns
->length
);
1826 static WS_XML_ELEMENT_NODE
*alloc_element_pair(void)
1828 struct node
*node
, *end
;
1829 if (!(node
= alloc_node( WS_XML_NODE_TYPE_ELEMENT
))) return NULL
;
1830 if (!(end
= alloc_node( WS_XML_NODE_TYPE_END_ELEMENT
)))
1835 list_add_tail( &node
->children
, &end
->entry
);
1840 static HRESULT
read_attributes_text( struct reader
*reader
, WS_XML_ELEMENT_NODE
*elem
)
1842 WS_XML_ATTRIBUTE
*attr
;
1845 reader
->current_attr
= 0;
1848 read_skip_whitespace( reader
);
1849 if (!read_cmp( reader
, ">", 1 ) || !read_cmp( reader
, "/>", 2 )) break;
1850 if ((hr
= read_attribute_text( reader
, &attr
)) != S_OK
) return hr
;
1851 if ((hr
= append_attribute( elem
, attr
)) != S_OK
)
1853 free_attribute( attr
);
1856 reader
->current_attr
++;
1861 static HRESULT
read_element_text( struct reader
*reader
)
1863 unsigned int len
= 0, ch
, skip
;
1864 const unsigned char *start
;
1865 struct node
*node
= NULL
, *parent
;
1866 WS_XML_ELEMENT_NODE
*elem
;
1867 HRESULT hr
= WS_E_INVALID_FORMAT
;
1869 if (read_end_of_data( reader
))
1871 reader
->current
= LIST_ENTRY( list_tail( &reader
->root
->children
), struct node
, entry
);
1872 reader
->last
= reader
->current
;
1873 reader
->state
= READER_STATE_EOF
;
1877 if (read_cmp( reader
, "<", 1 )) return WS_E_INVALID_FORMAT
;
1878 read_skip( reader
, 1 );
1879 if (!read_isnamechar( read_utf8_char( reader
, &skip
)))
1881 read_rewind( reader
, 1 );
1882 return WS_E_INVALID_FORMAT
;
1885 if (!(elem
= alloc_element_pair())) return E_OUTOFMEMORY
;
1886 node
= (struct node
*)elem
;
1888 start
= read_current_ptr( reader
);
1891 if (!(ch
= read_utf8_char( reader
, &skip
))) goto error
;
1892 if (!read_isnamechar( ch
)) break;
1893 read_skip( reader
, skip
);
1896 if (!len
) goto error
;
1898 if (!(parent
= find_parent( reader
))) goto error
;
1899 if ((hr
= parse_qname( start
, len
, &elem
->prefix
, &elem
->localName
)) != S_OK
) goto error
;
1900 if ((hr
= read_attributes_text( reader
, elem
)) != S_OK
) goto error
;
1901 if ((hr
= set_namespaces( reader
, elem
)) != S_OK
) goto error
;
1903 read_insert_node( reader
, parent
, node
);
1904 reader
->state
= READER_STATE_STARTELEMENT
;
1908 destroy_nodes( node
);
1912 static inline BOOL
is_element_type( unsigned char type
)
1914 return (type
>= RECORD_SHORT_ELEMENT
&& type
<= RECORD_PREFIX_ELEMENT_Z
);
1917 static HRESULT
read_attributes_bin( struct reader
*reader
, WS_XML_ELEMENT_NODE
*elem
)
1919 WS_XML_ATTRIBUTE
*attr
;
1923 reader
->current_attr
= 0;
1926 if ((hr
= read_peek( reader
, &type
)) != S_OK
) return hr
;
1927 if (!is_attribute_type( type
)) break;
1928 if ((hr
= read_attribute_bin( reader
, &attr
)) != S_OK
) return hr
;
1929 if ((hr
= append_attribute( elem
, attr
)) != S_OK
)
1931 free_attribute( attr
);
1934 reader
->current_attr
++;
1939 static HRESULT
read_element_bin( struct reader
*reader
)
1941 struct node
*node
= NULL
, *parent
;
1942 WS_XML_ELEMENT_NODE
*elem
;
1946 if ((hr
= read_byte( reader
, &type
)) != S_OK
) return hr
;
1947 if (!is_element_type( type
)) return WS_E_INVALID_FORMAT
;
1949 if (!(elem
= alloc_element_pair())) return E_OUTOFMEMORY
;
1950 node
= (struct node
*)elem
;
1952 if (type
>= RECORD_PREFIX_ELEMENT_A
&& type
<= RECORD_PREFIX_ELEMENT_Z
)
1954 unsigned char ch
= type
- RECORD_PREFIX_ELEMENT_A
+ 'a';
1955 if (!(elem
->prefix
= alloc_xml_string( &ch
, 1 )))
1960 if ((hr
= read_string( reader
, &elem
->localName
)) != S_OK
) goto error
;
1962 else if (type
>= RECORD_PREFIX_DICTIONARY_ELEMENT_A
&& type
<= RECORD_PREFIX_DICTIONARY_ELEMENT_Z
)
1964 unsigned char ch
= type
- RECORD_PREFIX_DICTIONARY_ELEMENT_A
+ 'a';
1965 if (!(elem
->prefix
= alloc_xml_string( &ch
, 1 )))
1970 if ((hr
= read_dict_string( reader
, &elem
->localName
)) != S_OK
) goto error
;
1976 case RECORD_SHORT_ELEMENT
:
1977 if (!(elem
->prefix
= alloc_xml_string( NULL
, 0 )))
1982 if ((hr
= read_string( reader
, &elem
->localName
)) != S_OK
) goto error
;
1985 case RECORD_ELEMENT
:
1986 if ((hr
= read_string( reader
, &elem
->prefix
)) != S_OK
) goto error
;
1987 if ((hr
= read_string( reader
, &elem
->localName
)) != S_OK
) goto error
;
1990 case RECORD_SHORT_DICTIONARY_ELEMENT
:
1991 if (!(elem
->prefix
= alloc_xml_string( NULL
, 0 )))
1996 if ((hr
= read_dict_string( reader
, &elem
->localName
)) != S_OK
) goto error
;
1999 case RECORD_DICTIONARY_ELEMENT
:
2000 if ((hr
= read_string( reader
, &elem
->prefix
)) != S_OK
) goto error
;
2001 if ((hr
= read_dict_string( reader
, &elem
->localName
)) != S_OK
) goto error
;
2005 ERR( "unhandled record type %02x\n", type
);
2006 return WS_E_NOT_SUPPORTED
;
2010 if (!(parent
= find_parent( reader
)))
2012 hr
= WS_E_INVALID_FORMAT
;
2016 if ((hr
= read_attributes_bin( reader
, elem
)) != S_OK
) goto error
;
2017 if ((hr
= set_namespaces( reader
, elem
)) != S_OK
) goto error
;
2019 read_insert_node( reader
, parent
, node
);
2020 reader
->state
= READER_STATE_STARTELEMENT
;
2024 destroy_nodes( node
);
2028 static HRESULT
read_text_text( struct reader
*reader
)
2030 unsigned int len
= 0, ch
, skip
;
2031 const unsigned char *start
;
2032 struct node
*node
, *parent
;
2033 WS_XML_TEXT_NODE
*text
;
2034 WS_XML_UTF8_TEXT
*utf8
;
2037 start
= read_current_ptr( reader
);
2040 if (read_end_of_data( reader
)) break;
2041 if (!(ch
= read_utf8_char( reader
, &skip
))) return WS_E_INVALID_FORMAT
;
2042 if (ch
== '<') break;
2043 read_skip( reader
, skip
);
2047 if (!(parent
= find_parent( reader
))) return WS_E_INVALID_FORMAT
;
2049 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return E_OUTOFMEMORY
;
2050 text
= (WS_XML_TEXT_NODE
*)node
;
2051 if (!(utf8
= alloc_utf8_text( NULL
, len
)))
2054 return E_OUTOFMEMORY
;
2056 if ((hr
= decode_text( start
, len
, utf8
->value
.bytes
, &utf8
->value
.length
)) != S_OK
)
2062 text
->text
= &utf8
->text
;
2064 read_insert_node( reader
, parent
, node
);
2065 reader
->state
= READER_STATE_TEXT
;
2066 reader
->text_conv_offset
= 0;
2070 static struct node
*alloc_utf8_text_node( const BYTE
*data
, ULONG len
, WS_XML_UTF8_TEXT
**ret
)
2073 WS_XML_UTF8_TEXT
*utf8
;
2074 WS_XML_TEXT_NODE
*text
;
2076 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2077 if (!(utf8
= alloc_utf8_text( data
, len
)))
2082 text
= (WS_XML_TEXT_NODE
*)node
;
2083 text
->text
= &utf8
->text
;
2084 if (ret
) *ret
= utf8
;
2088 static struct node
*alloc_base64_text_node( const BYTE
*data
, ULONG len
, WS_XML_BASE64_TEXT
**ret
)
2091 WS_XML_BASE64_TEXT
*base64
;
2092 WS_XML_TEXT_NODE
*text
;
2094 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2095 if (!(base64
= alloc_base64_text( data
, len
)))
2100 text
= (WS_XML_TEXT_NODE
*)node
;
2101 text
->text
= &base64
->text
;
2102 if (ret
) *ret
= base64
;
2106 static struct node
*alloc_bool_text_node( BOOL value
)
2109 WS_XML_BOOL_TEXT
*text_bool
;
2110 WS_XML_TEXT_NODE
*text
;
2112 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2113 if (!(text_bool
= alloc_bool_text( value
)))
2118 text
= (WS_XML_TEXT_NODE
*)node
;
2119 text
->text
= &text_bool
->text
;
2123 static struct node
*alloc_int32_text_node( INT32 value
)
2126 WS_XML_INT32_TEXT
*text_int32
;
2127 WS_XML_TEXT_NODE
*text
;
2129 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2130 if (!(text_int32
= alloc_int32_text( value
)))
2135 text
= (WS_XML_TEXT_NODE
*)node
;
2136 text
->text
= &text_int32
->text
;
2140 static struct node
*alloc_int64_text_node( INT64 value
)
2143 WS_XML_INT64_TEXT
*text_int64
;
2144 WS_XML_TEXT_NODE
*text
;
2146 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2147 if (!(text_int64
= alloc_int64_text( value
)))
2152 text
= (WS_XML_TEXT_NODE
*)node
;
2153 text
->text
= &text_int64
->text
;
2157 static struct node
*alloc_float_text_node( float value
)
2160 WS_XML_FLOAT_TEXT
*text_float
;
2161 WS_XML_TEXT_NODE
*text
;
2163 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2164 if (!(text_float
= alloc_float_text( value
)))
2169 text
= (WS_XML_TEXT_NODE
*)node
;
2170 text
->text
= &text_float
->text
;
2174 static struct node
*alloc_double_text_node( double value
)
2177 WS_XML_DOUBLE_TEXT
*text_double
;
2178 WS_XML_TEXT_NODE
*text
;
2180 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2181 if (!(text_double
= alloc_double_text( value
)))
2186 text
= (WS_XML_TEXT_NODE
*)node
;
2187 text
->text
= &text_double
->text
;
2191 static struct node
*alloc_datetime_text_node( const WS_DATETIME
*value
)
2194 WS_XML_DATETIME_TEXT
*text_datetime
;
2195 WS_XML_TEXT_NODE
*text
;
2197 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2198 if (!(text_datetime
= alloc_datetime_text( value
)))
2203 text
= (WS_XML_TEXT_NODE
*)node
;
2204 text
->text
= &text_datetime
->text
;
2208 static struct node
*alloc_unique_id_text_node( const GUID
*value
)
2211 WS_XML_UNIQUE_ID_TEXT
*text_unique_id
;
2212 WS_XML_TEXT_NODE
*text
;
2214 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2215 if (!(text_unique_id
= alloc_unique_id_text( value
)))
2220 text
= (WS_XML_TEXT_NODE
*)node
;
2221 text
->text
= &text_unique_id
->text
;
2225 static struct node
*alloc_guid_text_node( const GUID
*value
)
2228 WS_XML_GUID_TEXT
*text_guid
;
2229 WS_XML_TEXT_NODE
*text
;
2231 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2232 if (!(text_guid
= alloc_guid_text( value
)))
2237 text
= (WS_XML_TEXT_NODE
*)node
;
2238 text
->text
= &text_guid
->text
;
2242 static struct node
*alloc_uint64_text_node( UINT64 value
)
2245 WS_XML_UINT64_TEXT
*text_uint64
;
2246 WS_XML_TEXT_NODE
*text
;
2248 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return NULL
;
2249 if (!(text_uint64
= alloc_uint64_text( value
)))
2254 text
= (WS_XML_TEXT_NODE
*)node
;
2255 text
->text
= &text_uint64
->text
;
2259 static HRESULT
append_text_bytes( struct reader
*reader
, WS_XML_TEXT_NODE
*node
, ULONG len
)
2261 WS_XML_BASE64_TEXT
*new, *old
= (WS_XML_BASE64_TEXT
*)node
->text
;
2264 if (!(new = alloc_base64_text( NULL
, old
->length
+ len
))) return E_OUTOFMEMORY
;
2265 memcpy( new->bytes
, old
->bytes
, old
->length
);
2266 if ((hr
= read_bytes( reader
, new->bytes
+ old
->length
, len
)) != S_OK
) return hr
;
2268 node
->text
= &new->text
;
2272 static HRESULT
read_text_bytes( struct reader
*reader
, unsigned char type
)
2274 struct node
*node
= NULL
, *parent
;
2275 WS_XML_BASE64_TEXT
*base64
;
2279 if (!(parent
= find_parent( reader
))) return WS_E_INVALID_FORMAT
;
2284 case RECORD_BYTES8_TEXT
:
2285 case RECORD_BYTES8_TEXT_WITH_ENDELEMENT
:
2288 if ((hr
= read_byte( reader
, (unsigned char *)&len_uint8
)) != S_OK
) goto error
;
2292 case RECORD_BYTES16_TEXT
:
2293 case RECORD_BYTES16_TEXT_WITH_ENDELEMENT
:
2296 if ((hr
= read_bytes( reader
, (unsigned char *)&len_uint16
, sizeof(len_uint16
) )) != S_OK
) goto error
;
2300 case RECORD_BYTES32_TEXT
:
2301 case RECORD_BYTES32_TEXT_WITH_ENDELEMENT
:
2304 if ((hr
= read_bytes( reader
, (unsigned char *)&len_int32
, sizeof(len_int32
) )) != S_OK
) goto error
;
2307 hr
= WS_E_INVALID_FORMAT
;
2314 ERR( "unexpected type %u\n", type
);
2321 if (!(node
= alloc_base64_text_node( NULL
, len
, &base64
))) return E_OUTOFMEMORY
;
2322 if ((hr
= read_bytes( reader
, base64
->bytes
, len
)) != S_OK
) goto error
;
2324 else if ((hr
= append_text_bytes( reader
, (WS_XML_TEXT_NODE
*)node
, len
)) != S_OK
) goto error
;
2328 node
->flags
|= NODE_FLAG_TEXT_WITH_IMPLICIT_END_ELEMENT
;
2331 if ((hr
= read_peek( reader
, &type
)) != S_OK
) goto error
;
2332 if (type
< RECORD_BYTES8_TEXT
|| type
> RECORD_BYTES32_TEXT_WITH_ENDELEMENT
) break;
2333 read_skip( reader
, 1 );
2336 read_insert_node( reader
, parent
, node
);
2337 reader
->state
= READER_STATE_TEXT
;
2338 reader
->text_conv_offset
= 0;
2346 static HRESULT
read_text_bin( struct reader
*reader
)
2348 struct node
*node
= NULL
, *parent
;
2350 WS_XML_UTF8_TEXT
*utf8
;
2358 if ((hr
= read_byte( reader
, &type
)) != S_OK
) return hr
;
2359 if (!is_text_type( type
) || !(parent
= find_parent( reader
))) return WS_E_INVALID_FORMAT
;
2363 case RECORD_ZERO_TEXT
:
2364 case RECORD_ZERO_TEXT_WITH_ENDELEMENT
:
2365 if (!(node
= alloc_int32_text_node( 0 ))) return E_OUTOFMEMORY
;
2368 case RECORD_ONE_TEXT
:
2369 case RECORD_ONE_TEXT_WITH_ENDELEMENT
:
2370 if (!(node
= alloc_int32_text_node( 1 ))) return E_OUTOFMEMORY
;
2373 case RECORD_FALSE_TEXT
:
2374 case RECORD_FALSE_TEXT_WITH_ENDELEMENT
:
2375 if (!(node
= alloc_bool_text_node( FALSE
))) return E_OUTOFMEMORY
;
2378 case RECORD_TRUE_TEXT
:
2379 case RECORD_TRUE_TEXT_WITH_ENDELEMENT
:
2380 if (!(node
= alloc_bool_text_node( TRUE
))) return E_OUTOFMEMORY
;
2383 case RECORD_INT8_TEXT
:
2384 case RECORD_INT8_TEXT_WITH_ENDELEMENT
:
2387 if ((hr
= read_byte( reader
, (unsigned char *)&val_int8
)) != S_OK
) return hr
;
2388 if (!(node
= alloc_int32_text_node( val_int8
))) return E_OUTOFMEMORY
;
2391 case RECORD_INT16_TEXT
:
2392 case RECORD_INT16_TEXT_WITH_ENDELEMENT
:
2395 if ((hr
= read_bytes( reader
, (unsigned char *)&val_int16
, sizeof(val_int16
) )) != S_OK
) return hr
;
2396 if (!(node
= alloc_int32_text_node( val_int16
))) return E_OUTOFMEMORY
;
2399 case RECORD_INT32_TEXT
:
2400 case RECORD_INT32_TEXT_WITH_ENDELEMENT
:
2401 if ((hr
= read_bytes( reader
, (unsigned char *)&val_int32
, sizeof(val_int32
) )) != S_OK
) return hr
;
2402 if (!(node
= alloc_int32_text_node( val_int32
))) return E_OUTOFMEMORY
;
2405 case RECORD_INT64_TEXT
:
2406 case RECORD_INT64_TEXT_WITH_ENDELEMENT
:
2409 if ((hr
= read_bytes( reader
, (unsigned char *)&val_int64
, sizeof(val_int64
) )) != S_OK
) return hr
;
2410 if (!(node
= alloc_int64_text_node( val_int64
))) return E_OUTOFMEMORY
;
2413 case RECORD_FLOAT_TEXT
:
2414 case RECORD_FLOAT_TEXT_WITH_ENDELEMENT
:
2417 if ((hr
= read_bytes( reader
, (unsigned char *)&val_float
, sizeof(val_float
) )) != S_OK
) return hr
;
2418 if (!(node
= alloc_float_text_node( val_float
))) return E_OUTOFMEMORY
;
2421 case RECORD_DOUBLE_TEXT
:
2422 case RECORD_DOUBLE_TEXT_WITH_ENDELEMENT
:
2425 if ((hr
= read_bytes( reader
, (unsigned char *)&val_double
, sizeof(val_double
) )) != S_OK
) return hr
;
2426 if (!(node
= alloc_double_text_node( val_double
))) return E_OUTOFMEMORY
;
2429 case RECORD_DATETIME_TEXT
:
2430 case RECORD_DATETIME_TEXT_WITH_ENDELEMENT
:
2432 WS_DATETIME datetime
;
2433 if ((hr
= read_datetime( reader
, &datetime
)) != S_OK
) return hr
;
2434 if (!(node
= alloc_datetime_text_node( &datetime
))) return E_OUTOFMEMORY
;
2437 case RECORD_CHARS8_TEXT
:
2438 case RECORD_CHARS8_TEXT_WITH_ENDELEMENT
:
2439 if ((hr
= read_byte( reader
, (unsigned char *)&val_uint8
)) != S_OK
) return hr
;
2443 case RECORD_CHARS16_TEXT
:
2444 case RECORD_CHARS16_TEXT_WITH_ENDELEMENT
:
2445 if ((hr
= read_bytes( reader
, (unsigned char *)&val_uint16
, sizeof(val_uint16
) )) != S_OK
) return hr
;
2449 case RECORD_CHARS32_TEXT
:
2450 case RECORD_CHARS32_TEXT_WITH_ENDELEMENT
:
2451 if ((hr
= read_bytes( reader
, (unsigned char *)&val_int32
, sizeof(val_int32
) )) != S_OK
) return hr
;
2452 if (val_int32
< 0) return WS_E_INVALID_FORMAT
;
2456 case RECORD_BYTES8_TEXT
:
2457 case RECORD_BYTES8_TEXT_WITH_ENDELEMENT
:
2458 case RECORD_BYTES16_TEXT
:
2459 case RECORD_BYTES16_TEXT_WITH_ENDELEMENT
:
2460 case RECORD_BYTES32_TEXT
:
2461 case RECORD_BYTES32_TEXT_WITH_ENDELEMENT
:
2462 return read_text_bytes( reader
, type
);
2464 case RECORD_EMPTY_TEXT
:
2465 case RECORD_EMPTY_TEXT_WITH_ENDELEMENT
:
2469 case RECORD_DICTIONARY_TEXT
:
2470 case RECORD_DICTIONARY_TEXT_WITH_ENDELEMENT
:
2472 const WS_XML_STRING
*str
;
2473 if ((hr
= read_int31( reader
, &id
)) != S_OK
) return hr
;
2474 if ((hr
= lookup_string( reader
, id
, &str
)) != S_OK
) return hr
;
2475 if (!(node
= alloc_utf8_text_node( str
->bytes
, str
->length
, NULL
))) return E_OUTOFMEMORY
;
2478 case RECORD_UNIQUE_ID_TEXT
:
2479 case RECORD_UNIQUE_ID_TEXT_WITH_ENDELEMENT
:
2480 if ((hr
= read_bytes( reader
, (unsigned char *)&uuid
, sizeof(uuid
) )) != S_OK
) return hr
;
2481 if (!(node
= alloc_unique_id_text_node( &uuid
))) return E_OUTOFMEMORY
;
2484 case RECORD_GUID_TEXT
:
2485 case RECORD_GUID_TEXT_WITH_ENDELEMENT
:
2486 if ((hr
= read_bytes( reader
, (unsigned char *)&uuid
, sizeof(uuid
) )) != S_OK
) return hr
;
2487 if (!(node
= alloc_guid_text_node( &uuid
))) return E_OUTOFMEMORY
;
2490 case RECORD_UINT64_TEXT
:
2491 case RECORD_UINT64_TEXT_WITH_ENDELEMENT
:
2494 if ((hr
= read_bytes( reader
, (unsigned char *)&val_uint64
, sizeof(val_uint64
) )) != S_OK
) return hr
;
2495 if (!(node
= alloc_uint64_text_node( val_uint64
))) return E_OUTOFMEMORY
;
2498 case RECORD_BOOL_TEXT
:
2499 case RECORD_BOOL_TEXT_WITH_ENDELEMENT
:
2502 if ((hr
= read_bytes( reader
, (unsigned char *)&val_bool
, sizeof(val_bool
) )) != S_OK
) return hr
;
2503 if (!(node
= alloc_bool_text_node( !!val_bool
))) return E_OUTOFMEMORY
;
2507 ERR( "unhandled record type %02x\n", type
);
2508 return WS_E_NOT_SUPPORTED
;
2513 if (!(node
= alloc_utf8_text_node( NULL
, len
, &utf8
))) return E_OUTOFMEMORY
;
2514 if (!len
) utf8
->value
.bytes
= (BYTE
*)(utf8
+ 1); /* quirk */
2515 if ((hr
= read_bytes( reader
, utf8
->value
.bytes
, len
)) != S_OK
)
2522 if (type
& 1) node
->flags
|= NODE_FLAG_TEXT_WITH_IMPLICIT_END_ELEMENT
;
2523 read_insert_node( reader
, parent
, node
);
2524 reader
->state
= READER_STATE_TEXT
;
2525 reader
->text_conv_offset
= 0;
2529 static HRESULT
read_node_text( struct reader
* );
2531 static HRESULT
read_startelement_text( struct reader
*reader
)
2533 read_skip_whitespace( reader
);
2534 if (!read_cmp( reader
, "/>", 2 ))
2536 read_skip( reader
, 2 );
2537 reader
->current
= LIST_ENTRY( list_tail( &reader
->current
->children
), struct node
, entry
);
2538 reader
->last
= reader
->current
;
2539 reader
->state
= READER_STATE_ENDELEMENT
;
2542 else if (!read_cmp( reader
, ">", 1 ))
2544 read_skip( reader
, 1 );
2545 return read_node_text( reader
);
2547 return WS_E_INVALID_FORMAT
;
2550 static HRESULT
read_node_bin( struct reader
* );
2552 static HRESULT
read_startelement_bin( struct reader
*reader
)
2554 if (node_type( reader
->current
) != WS_XML_NODE_TYPE_ELEMENT
) return WS_E_INVALID_FORMAT
;
2555 return read_node_bin( reader
);
2558 static HRESULT
read_startelement( struct reader
*reader
)
2560 switch (reader
->input_enc
)
2562 case WS_XML_READER_ENCODING_TYPE_TEXT
: return read_startelement_text( reader
);
2563 case WS_XML_READER_ENCODING_TYPE_BINARY
: return read_startelement_bin( reader
);
2565 ERR( "unhandled encoding %u\n", reader
->input_enc
);
2566 return WS_E_NOT_SUPPORTED
;
2570 static HRESULT
read_to_startelement_text( struct reader
*reader
, BOOL
*found
)
2574 switch (reader
->state
)
2576 case READER_STATE_INITIAL
:
2577 if ((hr
= read_xmldecl( reader
)) != S_OK
) return hr
;
2580 case READER_STATE_STARTELEMENT
:
2581 if (found
) *found
= TRUE
;
2588 read_skip_whitespace( reader
);
2589 if ((hr
= read_element_text( reader
)) == S_OK
&& found
)
2591 if (reader
->state
== READER_STATE_STARTELEMENT
)
2600 static HRESULT
read_to_startelement_bin( struct reader
*reader
, BOOL
*found
)
2604 if (reader
->state
== READER_STATE_STARTELEMENT
)
2606 if (found
) *found
= TRUE
;
2610 if ((hr
= read_element_bin( reader
)) == S_OK
&& found
)
2612 if (reader
->state
== READER_STATE_STARTELEMENT
)
2621 static HRESULT
read_to_startelement( struct reader
*reader
, BOOL
*found
)
2623 switch (reader
->input_enc
)
2625 case WS_XML_READER_ENCODING_TYPE_TEXT
: return read_to_startelement_text( reader
, found
);
2626 case WS_XML_READER_ENCODING_TYPE_BINARY
: return read_to_startelement_bin( reader
, found
);
2628 ERR( "unhandled encoding %u\n", reader
->input_enc
);
2629 return WS_E_NOT_SUPPORTED
;
2633 static int cmp_name( const unsigned char *name1
, ULONG len1
, const unsigned char *name2
, ULONG len2
)
2636 if (len1
!= len2
) return 1;
2637 for (i
= 0; i
< len1
; i
++) { if (toupper( name1
[i
] ) != toupper( name2
[i
] )) return 1; }
2641 static struct node
*find_startelement( struct reader
*reader
, const WS_XML_STRING
*prefix
,
2642 const WS_XML_STRING
*localname
)
2644 struct node
*parent
;
2645 const WS_XML_STRING
*str
;
2647 for (parent
= reader
->current
; parent
; parent
= parent
->parent
)
2649 if (node_type( parent
) == WS_XML_NODE_TYPE_ELEMENT
)
2651 str
= parent
->hdr
.prefix
;
2652 if (cmp_name( str
->bytes
, str
->length
, prefix
->bytes
, prefix
->length
)) continue;
2653 str
= parent
->hdr
.localName
;
2654 if (cmp_name( str
->bytes
, str
->length
, localname
->bytes
, localname
->length
)) continue;
2661 static HRESULT
read_endelement_text( struct reader
*reader
)
2663 struct node
*parent
;
2664 unsigned int len
= 0, ch
, skip
;
2665 const unsigned char *start
;
2666 WS_XML_STRING prefix
, localname
;
2669 if (read_cmp( reader
, "</", 2 )) return WS_E_INVALID_FORMAT
;
2670 read_skip( reader
, 2 );
2672 start
= read_current_ptr( reader
);
2675 if (!(ch
= read_utf8_char( reader
, &skip
))) return WS_E_INVALID_FORMAT
;
2678 read_skip( reader
, 1 );
2681 if (!read_isnamechar( ch
)) return WS_E_INVALID_FORMAT
;
2682 read_skip( reader
, skip
);
2686 if ((hr
= split_qname( start
, len
, &prefix
, &localname
)) != S_OK
) return hr
;
2687 if (!(parent
= find_startelement( reader
, &prefix
, &localname
))) return WS_E_INVALID_FORMAT
;
2689 reader
->current
= LIST_ENTRY( list_tail( &parent
->children
), struct node
, entry
);
2690 reader
->last
= reader
->current
;
2691 reader
->state
= READER_STATE_ENDELEMENT
;
2695 static HRESULT
read_endelement_bin( struct reader
*reader
)
2697 struct node
*parent
;
2701 if (!(reader
->current
->flags
& NODE_FLAG_TEXT_WITH_IMPLICIT_END_ELEMENT
))
2703 if ((hr
= read_byte( reader
, &type
)) != S_OK
) return hr
;
2704 if (type
!= RECORD_ENDELEMENT
) return WS_E_INVALID_FORMAT
;
2706 if (!(parent
= find_parent( reader
))) return WS_E_INVALID_FORMAT
;
2708 reader
->current
= LIST_ENTRY( list_tail( &parent
->children
), struct node
, entry
);
2709 reader
->last
= reader
->current
;
2710 reader
->state
= READER_STATE_ENDELEMENT
;
2714 static HRESULT
read_endelement( struct reader
*reader
)
2716 if (reader
->state
== READER_STATE_EOF
) return WS_E_INVALID_FORMAT
;
2718 if (read_end_of_data( reader
))
2720 reader
->current
= LIST_ENTRY( list_tail( &reader
->root
->children
), struct node
, entry
);
2721 reader
->last
= reader
->current
;
2722 reader
->state
= READER_STATE_EOF
;
2726 switch (reader
->input_enc
)
2728 case WS_XML_READER_ENCODING_TYPE_TEXT
: return read_endelement_text( reader
);
2729 case WS_XML_READER_ENCODING_TYPE_BINARY
: return read_endelement_bin( reader
);
2731 ERR( "unhandled encoding %u\n", reader
->input_enc
);
2732 return WS_E_NOT_SUPPORTED
;
2736 static HRESULT
read_comment_text( struct reader
*reader
)
2738 unsigned int len
= 0, ch
, skip
;
2739 const unsigned char *start
;
2740 struct node
*node
, *parent
;
2741 WS_XML_COMMENT_NODE
*comment
;
2743 if (read_cmp( reader
, "<!--", 4 )) return WS_E_INVALID_FORMAT
;
2744 read_skip( reader
, 4 );
2746 start
= read_current_ptr( reader
);
2749 if (!read_cmp( reader
, "-->", 3 ))
2751 read_skip( reader
, 3 );
2754 if (!(ch
= read_utf8_char( reader
, &skip
))) return WS_E_INVALID_FORMAT
;
2755 read_skip( reader
, skip
);
2759 if (!(parent
= find_parent( reader
))) return WS_E_INVALID_FORMAT
;
2761 if (!(node
= alloc_node( WS_XML_NODE_TYPE_COMMENT
))) return E_OUTOFMEMORY
;
2762 comment
= (WS_XML_COMMENT_NODE
*)node
;
2763 if (!(comment
->value
.bytes
= heap_alloc( len
)))
2766 return E_OUTOFMEMORY
;
2768 memcpy( comment
->value
.bytes
, start
, len
);
2769 comment
->value
.length
= len
;
2771 read_insert_node( reader
, parent
, node
);
2772 reader
->state
= READER_STATE_COMMENT
;
2776 static HRESULT
read_comment_bin( struct reader
*reader
)
2778 struct node
*node
, *parent
;
2779 WS_XML_COMMENT_NODE
*comment
;
2784 if ((hr
= read_byte( reader
, &type
)) != S_OK
) return hr
;
2785 if (type
!= RECORD_COMMENT
) return WS_E_INVALID_FORMAT
;
2786 if ((hr
= read_int31( reader
, &len
)) != S_OK
) return hr
;
2788 if (!(parent
= find_parent( reader
))) return WS_E_INVALID_FORMAT
;
2790 if (!(node
= alloc_node( WS_XML_NODE_TYPE_COMMENT
))) return E_OUTOFMEMORY
;
2791 comment
= (WS_XML_COMMENT_NODE
*)node
;
2792 if (!(comment
->value
.bytes
= heap_alloc( len
)))
2795 return E_OUTOFMEMORY
;
2797 if ((hr
= read_bytes( reader
, comment
->value
.bytes
, len
)) != S_OK
)
2800 return E_OUTOFMEMORY
;
2802 comment
->value
.length
= len
;
2804 read_insert_node( reader
, parent
, node
);
2805 reader
->state
= READER_STATE_COMMENT
;
2809 static HRESULT
read_startcdata( struct reader
*reader
)
2811 struct node
*node
, *endnode
, *parent
;
2813 if (read_cmp( reader
, "<![CDATA[", 9 )) return WS_E_INVALID_FORMAT
;
2814 read_skip( reader
, 9 );
2816 if (!(parent
= find_parent( reader
))) return WS_E_INVALID_FORMAT
;
2818 if (!(node
= alloc_node( WS_XML_NODE_TYPE_CDATA
))) return E_OUTOFMEMORY
;
2819 if (!(endnode
= alloc_node( WS_XML_NODE_TYPE_END_CDATA
)))
2822 return E_OUTOFMEMORY
;
2824 list_add_tail( &node
->children
, &endnode
->entry
);
2825 endnode
->parent
= node
;
2827 read_insert_node( reader
, parent
, node
);
2828 reader
->state
= READER_STATE_STARTCDATA
;
2832 static HRESULT
read_cdata( struct reader
*reader
)
2834 unsigned int len
= 0, ch
, skip
;
2835 const unsigned char *start
;
2837 WS_XML_TEXT_NODE
*text
;
2838 WS_XML_UTF8_TEXT
*utf8
;
2840 start
= read_current_ptr( reader
);
2843 if (!read_cmp( reader
, "]]>", 3 )) break;
2844 if (!(ch
= read_utf8_char( reader
, &skip
))) return WS_E_INVALID_FORMAT
;
2845 read_skip( reader
, skip
);
2849 if (!(node
= alloc_node( WS_XML_NODE_TYPE_TEXT
))) return E_OUTOFMEMORY
;
2850 text
= (WS_XML_TEXT_NODE
*)node
;
2851 if (!(utf8
= alloc_utf8_text( start
, len
)))
2854 return E_OUTOFMEMORY
;
2856 text
->text
= &utf8
->text
;
2858 read_insert_node( reader
, reader
->current
, node
);
2859 reader
->state
= READER_STATE_CDATA
;
2863 static HRESULT
read_endcdata( struct reader
*reader
)
2865 struct node
*parent
;
2867 if (read_cmp( reader
, "]]>", 3 )) return WS_E_INVALID_FORMAT
;
2868 read_skip( reader
, 3 );
2870 if (node_type( reader
->current
) == WS_XML_NODE_TYPE_TEXT
) parent
= reader
->current
->parent
;
2871 else parent
= reader
->current
;
2873 reader
->current
= LIST_ENTRY( list_tail( &parent
->children
), struct node
, entry
);
2874 reader
->last
= reader
->current
;
2875 reader
->state
= READER_STATE_ENDCDATA
;
2879 static HRESULT
read_node_text( struct reader
*reader
)
2885 if (read_end_of_data( reader
))
2887 reader
->current
= LIST_ENTRY( list_tail( &reader
->root
->children
), struct node
, entry
);
2888 reader
->last
= reader
->current
;
2889 reader
->state
= READER_STATE_EOF
;
2892 if (reader
->state
== READER_STATE_STARTCDATA
) return read_cdata( reader
);
2893 else if (reader
->state
== READER_STATE_CDATA
) return read_endcdata( reader
);
2894 else if (!read_cmp( reader
, "<?", 2 ))
2896 hr
= read_xmldecl( reader
);
2897 if (FAILED( hr
)) return hr
;
2899 else if (!read_cmp( reader
, "</", 2 )) return read_endelement_text( reader
);
2900 else if (!read_cmp( reader
, "<![CDATA[", 9 )) return read_startcdata( reader
);
2901 else if (!read_cmp( reader
, "<!--", 4 )) return read_comment_text( reader
);
2902 else if (!read_cmp( reader
, "<", 1 )) return read_element_text( reader
);
2903 else if (!read_cmp( reader
, "/>", 2 ) || !read_cmp( reader
, ">", 1 )) return read_startelement_text( reader
);
2904 else return read_text_text( reader
);
2908 static HRESULT
read_node_bin( struct reader
*reader
)
2913 if (reader
->current
->flags
& NODE_FLAG_TEXT_WITH_IMPLICIT_END_ELEMENT
)
2915 reader
->current
= LIST_ENTRY( list_tail( &reader
->current
->parent
->children
), struct node
, entry
);
2916 reader
->last
= reader
->current
;
2917 reader
->state
= READER_STATE_ENDELEMENT
;
2920 if (read_end_of_data( reader
))
2922 reader
->current
= LIST_ENTRY( list_tail( &reader
->root
->children
), struct node
, entry
);
2923 reader
->last
= reader
->current
;
2924 reader
->state
= READER_STATE_EOF
;
2928 if ((hr
= read_peek( reader
, &type
)) != S_OK
) return hr
;
2929 if (type
== RECORD_ENDELEMENT
)
2931 return read_endelement_bin( reader
);
2933 else if (type
== RECORD_COMMENT
)
2935 return read_comment_bin( reader
);
2937 else if (type
>= RECORD_SHORT_ELEMENT
&& type
<= RECORD_PREFIX_ELEMENT_Z
)
2939 return read_element_bin( reader
);
2941 else if (type
>= RECORD_ZERO_TEXT
&& type
<= RECORD_QNAME_DICTIONARY_TEXT_WITH_ENDELEMENT
)
2943 return read_text_bin( reader
);
2945 FIXME( "unhandled record type %02x\n", type
);
2946 return WS_E_NOT_SUPPORTED
;
2949 static HRESULT
read_node( struct reader
*reader
)
2951 switch (reader
->input_enc
)
2953 case WS_XML_READER_ENCODING_TYPE_TEXT
: return read_node_text( reader
);
2954 case WS_XML_READER_ENCODING_TYPE_BINARY
: return read_node_bin( reader
);
2956 ERR( "unhandled encoding %u\n", reader
->input_enc
);
2957 return WS_E_NOT_SUPPORTED
;
2961 HRESULT
copy_node( WS_XML_READER
*handle
, struct node
**node
)
2963 struct reader
*reader
= (struct reader
*)handle
;
2964 const struct list
*ptr
;
2965 const struct node
*start
;
2968 EnterCriticalSection( &reader
->cs
);
2970 if (reader
->magic
!= READER_MAGIC
)
2972 LeaveCriticalSection( &reader
->cs
);
2973 return E_INVALIDARG
;
2976 if (reader
->current
!= reader
->root
) ptr
= &reader
->current
->entry
;
2977 else /* copy whole tree */
2979 if (!read_end_of_data( reader
))
2983 if ((hr
= read_node( reader
)) != S_OK
) goto done
;
2984 if (node_type( reader
->current
) == WS_XML_NODE_TYPE_EOF
) break;
2987 ptr
= list_head( &reader
->root
->children
);
2990 start
= LIST_ENTRY( ptr
, struct node
, entry
);
2991 if (node_type( start
) == WS_XML_NODE_TYPE_EOF
) hr
= WS_E_INVALID_OPERATION
;
2992 else hr
= dup_tree( node
, start
);
2995 LeaveCriticalSection( &reader
->cs
);
2999 /**************************************************************************
3000 * WsReadEndElement [webservices.@]
3002 HRESULT WINAPI
WsReadEndElement( WS_XML_READER
*handle
, WS_ERROR
*error
)
3004 struct reader
*reader
= (struct reader
*)handle
;
3007 TRACE( "%p %p\n", handle
, error
);
3008 if (error
) FIXME( "ignoring error parameter\n" );
3010 if (!reader
) return E_INVALIDARG
;
3012 EnterCriticalSection( &reader
->cs
);
3014 if (reader
->magic
!= READER_MAGIC
)
3016 LeaveCriticalSection( &reader
->cs
);
3017 return E_INVALIDARG
;
3020 hr
= read_endelement( reader
);
3022 LeaveCriticalSection( &reader
->cs
);
3026 /**************************************************************************
3027 * WsReadNode [webservices.@]
3029 HRESULT WINAPI
WsReadNode( WS_XML_READER
*handle
, WS_ERROR
*error
)
3031 struct reader
*reader
= (struct reader
*)handle
;
3034 TRACE( "%p %p\n", handle
, error
);
3035 if (error
) FIXME( "ignoring error parameter\n" );
3037 if (!reader
) return E_INVALIDARG
;
3039 EnterCriticalSection( &reader
->cs
);
3041 if (reader
->magic
!= READER_MAGIC
)
3043 LeaveCriticalSection( &reader
->cs
);
3044 return E_INVALIDARG
;
3047 hr
= read_node( reader
);
3049 LeaveCriticalSection( &reader
->cs
);
3053 static HRESULT
skip_node( struct reader
*reader
)
3055 const struct node
*parent
;
3058 if (node_type( reader
->current
) == WS_XML_NODE_TYPE_EOF
) return WS_E_INVALID_OPERATION
;
3059 if (node_type( reader
->current
) == WS_XML_NODE_TYPE_ELEMENT
) parent
= reader
->current
;
3064 if ((hr
= read_node( reader
)) != S_OK
|| !parent
) break;
3065 if (node_type( reader
->current
) != WS_XML_NODE_TYPE_END_ELEMENT
) continue;
3066 if (reader
->current
->parent
== parent
) return read_node( reader
);
3072 /**************************************************************************
3073 * WsSkipNode [webservices.@]
3075 HRESULT WINAPI
WsSkipNode( WS_XML_READER
*handle
, WS_ERROR
*error
)
3077 struct reader
*reader
= (struct reader
*)handle
;
3080 TRACE( "%p %p\n", handle
, error
);
3081 if (error
) FIXME( "ignoring error parameter\n" );
3083 if (!reader
) return E_INVALIDARG
;
3085 EnterCriticalSection( &reader
->cs
);
3087 if (reader
->magic
!= READER_MAGIC
)
3089 LeaveCriticalSection( &reader
->cs
);
3090 return E_INVALIDARG
;
3093 hr
= skip_node( reader
);
3095 LeaveCriticalSection( &reader
->cs
);
3099 /**************************************************************************
3100 * WsReadStartElement [webservices.@]
3102 HRESULT WINAPI
WsReadStartElement( WS_XML_READER
*handle
, WS_ERROR
*error
)
3104 struct reader
*reader
= (struct reader
*)handle
;
3107 TRACE( "%p %p\n", handle
, error
);
3108 if (error
) FIXME( "ignoring error parameter\n" );
3110 if (!reader
) return E_INVALIDARG
;
3112 EnterCriticalSection( &reader
->cs
);
3114 if (reader
->magic
!= READER_MAGIC
)
3116 LeaveCriticalSection( &reader
->cs
);
3117 return E_INVALIDARG
;
3120 hr
= read_startelement( reader
);
3122 LeaveCriticalSection( &reader
->cs
);
3126 /**************************************************************************
3127 * WsReadToStartElement [webservices.@]
3129 HRESULT WINAPI
WsReadToStartElement( WS_XML_READER
*handle
, const WS_XML_STRING
*localname
,
3130 const WS_XML_STRING
*ns
, BOOL
*found
, WS_ERROR
*error
)
3132 struct reader
*reader
= (struct reader
*)handle
;
3135 TRACE( "%p %s %s %p %p\n", handle
, debugstr_xmlstr(localname
), debugstr_xmlstr(ns
), found
, error
);
3136 if (error
) FIXME( "ignoring error parameter\n" );
3138 if (!reader
) return E_INVALIDARG
;
3139 if (localname
|| ns
) FIXME( "name and/or namespace not verified\n" );
3141 EnterCriticalSection( &reader
->cs
);
3143 if (reader
->magic
!= READER_MAGIC
)
3145 LeaveCriticalSection( &reader
->cs
);
3146 return E_INVALIDARG
;
3149 hr
= read_to_startelement( reader
, found
);
3151 LeaveCriticalSection( &reader
->cs
);
3155 BOOL
move_to_root_element( struct node
*root
, struct node
**current
)
3160 if (!(ptr
= list_head( &root
->children
))) return FALSE
;
3161 node
= LIST_ENTRY( ptr
, struct node
, entry
);
3162 if (node_type( node
) == WS_XML_NODE_TYPE_ELEMENT
)
3167 while ((ptr
= list_next( &root
->children
, &node
->entry
)))
3169 struct node
*next
= LIST_ENTRY( ptr
, struct node
, entry
);
3170 if (node_type( next
) == WS_XML_NODE_TYPE_ELEMENT
)
3180 BOOL
move_to_next_element( struct node
**current
)
3183 struct node
*node
= *current
, *parent
= (*current
)->parent
;
3185 if (!parent
) return FALSE
;
3186 while ((ptr
= list_next( &parent
->children
, &node
->entry
)))
3188 struct node
*next
= LIST_ENTRY( ptr
, struct node
, entry
);
3189 if (node_type( next
) == WS_XML_NODE_TYPE_ELEMENT
)
3199 BOOL
move_to_prev_element( struct node
**current
)
3202 struct node
*node
= *current
, *parent
= (*current
)->parent
;
3204 if (!parent
) return FALSE
;
3205 while ((ptr
= list_prev( &parent
->children
, &node
->entry
)))
3207 struct node
*prev
= LIST_ENTRY( ptr
, struct node
, entry
);
3208 if (node_type( prev
) == WS_XML_NODE_TYPE_ELEMENT
)
3218 BOOL
move_to_child_element( struct node
**current
)
3221 struct node
*child
, *node
= *current
;
3223 if (!(ptr
= list_head( &node
->children
))) return FALSE
;
3224 child
= LIST_ENTRY( ptr
, struct node
, entry
);
3225 if (node_type( child
) == WS_XML_NODE_TYPE_ELEMENT
)
3230 while ((ptr
= list_next( &node
->children
, &child
->entry
)))
3232 struct node
*next
= LIST_ENTRY( ptr
, struct node
, entry
);
3233 if (node_type( next
) == WS_XML_NODE_TYPE_ELEMENT
)
3243 BOOL
move_to_end_element( struct node
**current
)
3246 struct node
*node
= *current
;
3248 if (node_type( node
) != WS_XML_NODE_TYPE_ELEMENT
) return FALSE
;
3250 if ((ptr
= list_tail( &node
->children
)))
3252 struct node
*tail
= LIST_ENTRY( ptr
, struct node
, entry
);
3253 if (node_type( tail
) == WS_XML_NODE_TYPE_END_ELEMENT
)
3262 BOOL
move_to_parent_element( struct node
**current
)
3264 struct node
*parent
= (*current
)->parent
;
3266 if (parent
&& (node_type( parent
) == WS_XML_NODE_TYPE_ELEMENT
||
3267 node_type( parent
) == WS_XML_NODE_TYPE_BOF
))
3275 BOOL
move_to_first_node( struct node
**current
)
3278 struct node
*node
= *current
;
3280 if ((ptr
= list_head( &node
->parent
->children
)))
3282 *current
= LIST_ENTRY( ptr
, struct node
, entry
);
3288 BOOL
move_to_next_node( struct node
**current
)
3291 struct node
*node
= *current
;
3293 if ((ptr
= list_next( &node
->parent
->children
, &node
->entry
)))
3295 *current
= LIST_ENTRY( ptr
, struct node
, entry
);
3301 BOOL
move_to_prev_node( struct node
**current
)
3304 struct node
*node
= *current
;
3306 if ((ptr
= list_prev( &node
->parent
->children
, &node
->entry
)))
3308 *current
= LIST_ENTRY( ptr
, struct node
, entry
);
3314 BOOL
move_to_bof( struct node
*root
, struct node
**current
)
3320 BOOL
move_to_eof( struct node
*root
, struct node
**current
)
3323 if ((ptr
= list_tail( &root
->children
)))
3325 *current
= LIST_ENTRY( ptr
, struct node
, entry
);
3331 BOOL
move_to_child_node( struct node
**current
)
3334 struct node
*node
= *current
;
3336 if ((ptr
= list_head( &node
->children
)))
3338 *current
= LIST_ENTRY( ptr
, struct node
, entry
);
3344 BOOL
move_to_parent_node( struct node
**current
)
3346 struct node
*parent
= (*current
)->parent
;
3347 if (!parent
) return FALSE
;
3352 static HRESULT
read_move_to( struct reader
*reader
, WS_MOVE_TO move
, BOOL
*found
)
3354 BOOL success
= FALSE
;
3357 if (!read_end_of_data( reader
))
3359 struct node
*saved_current
= reader
->current
;
3360 while (reader
->state
!= READER_STATE_EOF
&& (hr
= read_node( reader
)) == S_OK
) { /* nothing */ };
3361 if (hr
!= S_OK
) return hr
;
3362 reader
->current
= saved_current
;
3366 case WS_MOVE_TO_ROOT_ELEMENT
:
3367 success
= move_to_root_element( reader
->root
, &reader
->current
);
3370 case WS_MOVE_TO_NEXT_ELEMENT
:
3371 success
= move_to_next_element( &reader
->current
);
3374 case WS_MOVE_TO_PREVIOUS_ELEMENT
:
3375 success
= move_to_prev_element( &reader
->current
);
3378 case WS_MOVE_TO_CHILD_ELEMENT
:
3379 success
= move_to_child_element( &reader
->current
);
3382 case WS_MOVE_TO_END_ELEMENT
:
3383 success
= move_to_end_element( &reader
->current
);
3386 case WS_MOVE_TO_PARENT_ELEMENT
:
3387 success
= move_to_parent_element( &reader
->current
);
3390 case WS_MOVE_TO_FIRST_NODE
:
3391 success
= move_to_first_node( &reader
->current
);
3394 case WS_MOVE_TO_NEXT_NODE
:
3395 success
= move_to_next_node( &reader
->current
);
3398 case WS_MOVE_TO_PREVIOUS_NODE
:
3399 success
= move_to_prev_node( &reader
->current
);
3402 case WS_MOVE_TO_CHILD_NODE
:
3403 success
= move_to_child_node( &reader
->current
);
3406 case WS_MOVE_TO_BOF
:
3407 success
= move_to_bof( reader
->root
, &reader
->current
);
3410 case WS_MOVE_TO_EOF
:
3411 success
= move_to_eof( reader
->root
, &reader
->current
);
3415 FIXME( "unhandled move %u\n", move
);
3424 return success
? S_OK
: WS_E_INVALID_FORMAT
;
3427 /**************************************************************************
3428 * WsMoveReader [webservices.@]
3430 HRESULT WINAPI
WsMoveReader( WS_XML_READER
*handle
, WS_MOVE_TO move
, BOOL
*found
, WS_ERROR
*error
)
3432 struct reader
*reader
= (struct reader
*)handle
;
3435 TRACE( "%p %u %p %p\n", handle
, move
, found
, error
);
3436 if (error
) FIXME( "ignoring error parameter\n" );
3438 if (!reader
) return E_INVALIDARG
;
3440 EnterCriticalSection( &reader
->cs
);
3442 if (reader
->magic
!= READER_MAGIC
)
3444 LeaveCriticalSection( &reader
->cs
);
3445 return E_INVALIDARG
;
3448 if (!reader
->input_type
)
3450 LeaveCriticalSection( &reader
->cs
);
3451 return WS_E_INVALID_OPERATION
;
3454 hr
= read_move_to( reader
, move
, found
);
3456 LeaveCriticalSection( &reader
->cs
);
3460 /**************************************************************************
3461 * WsReadStartAttribute [webservices.@]
3463 HRESULT WINAPI
WsReadStartAttribute( WS_XML_READER
*handle
, ULONG index
, WS_ERROR
*error
)
3465 struct reader
*reader
= (struct reader
*)handle
;
3466 const WS_XML_ELEMENT_NODE
*elem
;
3468 TRACE( "%p %u %p\n", handle
, index
, error
);
3469 if (error
) FIXME( "ignoring error parameter\n" );
3471 if (!reader
) return E_INVALIDARG
;
3473 EnterCriticalSection( &reader
->cs
);
3475 if (reader
->magic
!= READER_MAGIC
)
3477 LeaveCriticalSection( &reader
->cs
);
3478 return E_INVALIDARG
;
3481 elem
= &reader
->current
->hdr
;
3482 if (reader
->state
!= READER_STATE_STARTELEMENT
|| index
>= elem
->attributeCount
)
3484 LeaveCriticalSection( &reader
->cs
);
3485 return WS_E_INVALID_FORMAT
;
3488 reader
->current_attr
= index
;
3489 reader
->state
= READER_STATE_STARTATTRIBUTE
;
3491 LeaveCriticalSection( &reader
->cs
);
3495 /**************************************************************************
3496 * WsReadEndAttribute [webservices.@]
3498 HRESULT WINAPI
WsReadEndAttribute( WS_XML_READER
*handle
, WS_ERROR
*error
)
3500 struct reader
*reader
= (struct reader
*)handle
;
3502 TRACE( "%p %p\n", handle
, error
);
3503 if (error
) FIXME( "ignoring error parameter\n" );
3505 if (!reader
) return E_INVALIDARG
;
3507 EnterCriticalSection( &reader
->cs
);
3509 if (reader
->magic
!= READER_MAGIC
)
3511 LeaveCriticalSection( &reader
->cs
);
3512 return E_INVALIDARG
;
3515 if (reader
->state
!= READER_STATE_STARTATTRIBUTE
)
3517 LeaveCriticalSection( &reader
->cs
);
3518 return WS_E_INVALID_FORMAT
;
3521 reader
->state
= READER_STATE_STARTELEMENT
;
3523 LeaveCriticalSection( &reader
->cs
);
3527 static HRESULT
str_to_bool( const unsigned char *str
, ULONG len
, BOOL
*ret
)
3529 if (len
== 4 && !memcmp( str
, "true", 4 )) *ret
= TRUE
;
3530 else if (len
== 1 && !memcmp( str
, "1", 1 )) *ret
= TRUE
;
3531 else if (len
== 5 && !memcmp( str
, "false", 5 )) *ret
= FALSE
;
3532 else if (len
== 1 && !memcmp( str
, "0", 1 )) *ret
= FALSE
;
3533 else return WS_E_INVALID_FORMAT
;
3537 static HRESULT
str_to_int64( const unsigned char *str
, ULONG len
, INT64 min
, INT64 max
, INT64
*ret
)
3539 BOOL negative
= FALSE
;
3540 const unsigned char *ptr
= str
;
3543 while (len
&& read_isspace( *ptr
)) { ptr
++; len
--; }
3544 while (len
&& read_isspace( ptr
[len
- 1] )) { len
--; }
3545 if (!len
) return WS_E_INVALID_FORMAT
;
3553 if (!len
) return WS_E_INVALID_FORMAT
;
3559 if (!isdigit( *ptr
)) return WS_E_INVALID_FORMAT
;
3561 if (negative
) val
= -val
;
3563 if ((!negative
&& (*ret
> max
/ 10 || *ret
* 10 > max
- val
)) ||
3564 (negative
&& (*ret
< min
/ 10 || *ret
* 10 < min
- val
)))
3566 return WS_E_NUMERIC_OVERFLOW
;
3568 *ret
= *ret
* 10 + val
;
3575 static HRESULT
str_to_uint64( const unsigned char *str
, ULONG len
, UINT64 max
, UINT64
*ret
)
3577 const unsigned char *ptr
= str
;
3580 while (len
&& read_isspace( *ptr
)) { ptr
++; len
--; }
3581 while (len
&& read_isspace( ptr
[len
- 1] )) { len
--; }
3582 if (!len
) return WS_E_INVALID_FORMAT
;
3588 if (!isdigit( *ptr
)) return WS_E_INVALID_FORMAT
;
3591 if ((*ret
> max
/ 10 || *ret
* 10 > max
- val
)) return WS_E_NUMERIC_OVERFLOW
;
3592 *ret
= *ret
* 10 + val
;
3599 BOOL
set_fpword( unsigned short new, unsigned short *old
)
3601 #if defined(__GNUC__) && (defined(__i386__) || defined(__x86_64__))
3602 unsigned short fpword
;
3604 __asm__
__volatile__( "fstcw %0" : "=m" (fpword
) );
3607 __asm__
__volatile__( "fldcw %0" : : "m" (fpword
) );
3610 FIXME( "not implemented\n" );
3615 void restore_fpword( unsigned short fpword
)
3617 #if defined(__GNUC__) && (defined(__i386__) || defined(__x86_64__))
3618 __asm__
__volatile__( "fldcw %0" : : "m" (fpword
) );
3620 FIXME( "not implemented\n" );
3624 static HRESULT
str_to_double( const unsigned char *str
, ULONG len
, double *ret
)
3626 static const unsigned __int64 nan
= 0xfff8000000000000;
3627 static const unsigned __int64 inf
= 0x7ff0000000000000;
3628 static const unsigned __int64 inf_min
= 0xfff0000000000000;
3629 HRESULT hr
= WS_E_INVALID_FORMAT
;
3630 const unsigned char *p
= str
, *q
;
3631 int sign
= 1, exp_sign
= 1, exp
= 0, exp_tmp
= 0, neg_exp
, i
, nb_digits
, have_digits
;
3632 unsigned __int64 val
= 0, tmp
;
3633 long double exp_val
= 1.0, exp_mul
= 10.0;
3634 unsigned short fpword
;
3636 while (len
&& read_isspace( *p
)) { p
++; len
--; }
3637 while (len
&& read_isspace( p
[len
- 1] )) { len
--; }
3638 if (!len
) return WS_E_INVALID_FORMAT
;
3640 if (len
== 3 && !memcmp( p
, "NaN", 3 ))
3642 *(unsigned __int64
*)ret
= nan
;
3645 if (len
== 3 && !memcmp( p
, "INF", 3 ))
3647 *(unsigned __int64
*)ret
= inf
;
3650 if (len
== 4 && !memcmp( p
, "-INF", 4 ))
3652 *(unsigned __int64
*)ret
= inf_min
;
3662 else if (*p
== '+') { p
++; len
--; };
3663 if (!len
) return S_OK
;
3665 if (!set_fpword( 0x37f, &fpword
)) return E_NOTIMPL
;
3668 while (len
&& isdigit( *q
)) { q
++; len
--; }
3669 have_digits
= nb_digits
= q
- p
;
3670 for (i
= 0; i
< nb_digits
; i
++)
3672 tmp
= val
* 10 + p
[i
] - '0';
3673 if (val
> MAX_UINT64
/ 10 || tmp
< val
)
3675 for (; i
< nb_digits
; i
++) exp
++;
3686 while (len
&& isdigit( *q
)) { q
++; len
--; };
3687 have_digits
|= nb_digits
= q
- p
;
3688 for (i
= 0; i
< nb_digits
; i
++)
3690 tmp
= val
* 10 + p
[i
] - '0';
3691 if (val
> MAX_UINT64
/ 10 || tmp
< val
) break;
3696 if (len
> 1 && tolower(*q
) == 'e')
3698 if (!have_digits
) goto done
;
3705 else if (*p
== '+') { p
++; len
--; };
3708 while (len
&& isdigit( *q
)) { q
++; len
--; };
3710 if (!nb_digits
|| len
) goto done
;
3711 for (i
= 0; i
< nb_digits
; i
++)
3713 if (exp_tmp
> MAX_INT32
/ 10 || (exp_tmp
= exp_tmp
* 10 + p
[i
] - '0') < 0)
3714 exp_tmp
= MAX_INT32
;
3716 exp_tmp
*= exp_sign
;
3718 if (exp
< 0 && exp_tmp
< 0 && exp
+ exp_tmp
>= 0) exp
= MIN_INT32
;
3719 else if (exp
> 0 && exp_tmp
> 0 && exp
+ exp_tmp
< 0) exp
= MAX_INT32
;
3720 else exp
+= exp_tmp
;
3723 if (!have_digits
|| len
) goto done
;
3725 if ((neg_exp
= exp
< 0)) exp
= -exp
;
3726 for (; exp
; exp
>>= 1)
3728 if (exp
& 1) exp_val
*= exp_mul
;
3732 *ret
= sign
* (neg_exp
? val
/ exp_val
: val
* exp_val
);
3736 restore_fpword( fpword
);
3740 static HRESULT
str_to_float( const unsigned char *str
, ULONG len
, float *ret
)
3742 static const unsigned int inf
= 0x7f800000;
3743 static const unsigned int inf_min
= 0xff800000;
3744 const unsigned char *p
= str
;
3748 while (len
&& read_isspace( *p
)) { p
++; len
--; }
3749 while (len
&& read_isspace( p
[len
- 1] )) { len
--; }
3750 if (!len
) return WS_E_INVALID_FORMAT
;
3752 if (len
== 3 && !memcmp( p
, "INF", 3 ))
3754 *(unsigned int *)ret
= inf
;
3757 if (len
== 4 && !memcmp( p
, "-INF", 4 ))
3759 *(unsigned int *)ret
= inf_min
;
3763 if ((hr
= str_to_double( p
, len
, &val
)) != S_OK
) return hr
;
3768 static HRESULT
str_to_guid( const unsigned char *str
, ULONG len
, GUID
*ret
)
3770 static const unsigned char hex
[] =
3772 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x00 */
3773 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x10 */
3774 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x20 */
3775 0,1,2,3,4,5,6,7,8,9,0,0,0,0,0,0, /* 0x30 */
3776 0,10,11,12,13,14,15,0,0,0,0,0,0,0,0,0, /* 0x40 */
3777 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x50 */
3778 0,10,11,12,13,14,15 /* 0x60 */
3780 const unsigned char *p
= str
;
3783 while (len
&& read_isspace( *p
)) { p
++; len
--; }
3784 while (len
&& read_isspace( p
[len
- 1] )) { len
--; }
3785 if (len
!= 36) return WS_E_INVALID_FORMAT
;
3787 if (p
[8] != '-' || p
[13] != '-' || p
[18] != '-' || p
[23] != '-')
3788 return WS_E_INVALID_FORMAT
;
3790 for (i
= 0; i
< 36; i
++)
3792 if (i
== 8 || i
== 13 || i
== 18 || i
== 23) continue;
3793 if (p
[i
] > 'f' || (!hex
[p
[i
]] && p
[i
] != '0')) return WS_E_INVALID_FORMAT
;
3796 ret
->Data1
= hex
[p
[0]] << 28 | hex
[p
[1]] << 24 | hex
[p
[2]] << 20 | hex
[p
[3]] << 16 |
3797 hex
[p
[4]] << 12 | hex
[p
[5]] << 8 | hex
[p
[6]] << 4 | hex
[p
[7]];
3799 ret
->Data2
= hex
[p
[9]] << 12 | hex
[p
[10]] << 8 | hex
[p
[11]] << 4 | hex
[p
[12]];
3800 ret
->Data3
= hex
[p
[14]] << 12 | hex
[p
[15]] << 8 | hex
[p
[16]] << 4 | hex
[p
[17]];
3802 ret
->Data4
[0] = hex
[p
[19]] << 4 | hex
[p
[20]];
3803 ret
->Data4
[1] = hex
[p
[21]] << 4 | hex
[p
[22]];
3804 ret
->Data4
[2] = hex
[p
[24]] << 4 | hex
[p
[25]];
3805 ret
->Data4
[3] = hex
[p
[26]] << 4 | hex
[p
[27]];
3806 ret
->Data4
[4] = hex
[p
[28]] << 4 | hex
[p
[29]];
3807 ret
->Data4
[5] = hex
[p
[30]] << 4 | hex
[p
[31]];
3808 ret
->Data4
[6] = hex
[p
[32]] << 4 | hex
[p
[33]];
3809 ret
->Data4
[7] = hex
[p
[34]] << 4 | hex
[p
[35]];
3814 static HRESULT
str_to_string( const unsigned char *str
, ULONG len
, WS_HEAP
*heap
, WS_STRING
*ret
)
3816 int len_utf16
= MultiByteToWideChar( CP_UTF8
, 0, (const char *)str
, len
, NULL
, 0 );
3817 if (!(ret
->chars
= ws_alloc( heap
, len_utf16
* sizeof(WCHAR
) ))) return WS_E_QUOTA_EXCEEDED
;
3818 MultiByteToWideChar( CP_UTF8
, 0, (const char *)str
, len
, ret
->chars
, len_utf16
);
3819 ret
->length
= len_utf16
;
3823 static HRESULT
str_to_unique_id( const unsigned char *str
, ULONG len
, WS_HEAP
*heap
, WS_UNIQUE_ID
*ret
)
3825 if (len
== 45 && !memcmp( str
, "urn:uuid:", 9 ))
3827 ret
->uri
.length
= 0;
3828 ret
->uri
.chars
= NULL
;
3829 return str_to_guid( str
+ 9, len
- 9, &ret
->guid
);
3832 memset( &ret
->guid
, 0, sizeof(ret
->guid
) );
3833 return str_to_string( str
, len
, heap
, &ret
->uri
);
3836 static inline unsigned char decode_char( unsigned char c
)
3838 if (c
>= 'A' && c
<= 'Z') return c
- 'A';
3839 if (c
>= 'a' && c
<= 'z') return c
- 'a' + 26;
3840 if (c
>= '0' && c
<= '9') return c
- '0' + 52;
3841 if (c
== '+') return 62;
3842 if (c
== '/') return 63;
3846 static ULONG
decode_base64( const unsigned char *base64
, ULONG len
, unsigned char *buf
)
3849 unsigned char c0
, c1
, c2
, c3
;
3850 const unsigned char *p
= base64
;
3854 if ((c0
= decode_char( p
[0] )) > 63) return 0;
3855 if ((c1
= decode_char( p
[1] )) > 63) return 0;
3856 if ((c2
= decode_char( p
[2] )) > 63) return 0;
3857 if ((c3
= decode_char( p
[3] )) > 63) return 0;
3858 buf
[i
+ 0] = (c0
<< 2) | (c1
>> 4);
3859 buf
[i
+ 1] = (c1
<< 4) | (c2
>> 2);
3860 buf
[i
+ 2] = (c2
<< 6) | c3
;
3867 if ((c0
= decode_char( p
[0] )) > 63) return 0;
3868 if ((c1
= decode_char( p
[1] )) > 63) return 0;
3869 buf
[i
] = (c0
<< 2) | (c1
>> 4);
3872 else if (p
[3] == '=')
3874 if ((c0
= decode_char( p
[0] )) > 63) return 0;
3875 if ((c1
= decode_char( p
[1] )) > 63) return 0;
3876 if ((c2
= decode_char( p
[2] )) > 63) return 0;
3877 buf
[i
+ 0] = (c0
<< 2) | (c1
>> 4);
3878 buf
[i
+ 1] = (c1
<< 4) | (c2
>> 2);
3883 if ((c0
= decode_char( p
[0] )) > 63) return 0;
3884 if ((c1
= decode_char( p
[1] )) > 63) return 0;
3885 if ((c2
= decode_char( p
[2] )) > 63) return 0;
3886 if ((c3
= decode_char( p
[3] )) > 63) return 0;
3887 buf
[i
+ 0] = (c0
<< 2) | (c1
>> 4);
3888 buf
[i
+ 1] = (c1
<< 4) | (c2
>> 2);
3889 buf
[i
+ 2] = (c2
<< 6) | c3
;
3895 static HRESULT
str_to_bytes( const unsigned char *str
, ULONG len
, WS_HEAP
*heap
, WS_BYTES
*ret
)
3897 const unsigned char *p
= str
;
3899 while (len
&& read_isspace( *p
)) { p
++; len
--; }
3900 while (len
&& read_isspace( p
[len
- 1] )) { len
--; }
3902 if (len
% 4) return WS_E_INVALID_FORMAT
;
3903 if (!(ret
->bytes
= ws_alloc( heap
, len
* 3 / 4 ))) return WS_E_QUOTA_EXCEEDED
;
3904 ret
->length
= decode_base64( p
, len
, ret
->bytes
);
3908 static HRESULT
str_to_xml_string( const unsigned char *str
, ULONG len
, WS_HEAP
*heap
, WS_XML_STRING
*ret
)
3910 if (!(ret
->bytes
= ws_alloc( heap
, len
))) return WS_E_QUOTA_EXCEEDED
;
3911 memcpy( ret
->bytes
, str
, len
);
3913 ret
->dictionary
= NULL
;
3918 static HRESULT
copy_xml_string( WS_HEAP
*heap
, const WS_XML_STRING
*src
, WS_XML_STRING
*dst
)
3920 if (!(dst
->bytes
= ws_alloc( heap
, src
->length
))) return WS_E_QUOTA_EXCEEDED
;
3921 memcpy( dst
->bytes
, src
->bytes
, src
->length
);
3922 dst
->length
= src
->length
;
3926 static HRESULT
str_to_qname( struct reader
*reader
, const unsigned char *str
, ULONG len
, WS_HEAP
*heap
,
3927 WS_XML_STRING
*prefix_ret
, WS_XML_STRING
*localname_ret
, WS_XML_STRING
*ns_ret
)
3929 const unsigned char *p
= str
;
3930 WS_XML_STRING prefix
, localname
;
3931 const WS_XML_STRING
*ns
;
3934 while (len
&& read_isspace( *p
)) { p
++; len
--; }
3935 while (len
&& read_isspace( p
[len
- 1] )) { len
--; }
3937 if ((hr
= split_qname( p
, len
, &prefix
, &localname
)) != S_OK
) return hr
;
3938 if (!(ns
= get_namespace( reader
, &prefix
))) return WS_E_INVALID_FORMAT
;
3940 if (prefix_ret
&& (hr
= copy_xml_string( heap
, &prefix
, prefix_ret
)) != S_OK
) return hr
;
3941 if ((hr
= copy_xml_string( heap
, &localname
, localname_ret
)) != S_OK
)
3943 ws_free( heap
, prefix_ret
->bytes
, prefix_ret
->length
);
3946 if ((hr
= copy_xml_string( heap
, ns
, ns_ret
)) != S_OK
)
3948 ws_free( heap
, prefix_ret
->bytes
, prefix_ret
->length
);
3949 ws_free( heap
, localname_ret
->bytes
, localname_ret
->length
);
3955 static HRESULT
read_qualified_name( struct reader
*reader
, WS_HEAP
*heap
, WS_XML_STRING
*prefix
,
3956 WS_XML_STRING
*localname
, WS_XML_STRING
*ns
)
3958 const WS_XML_TEXT_NODE
*node
= (const WS_XML_TEXT_NODE
*)reader
->current
;
3959 const WS_XML_UTF8_TEXT
*utf8
= (const WS_XML_UTF8_TEXT
*)node
->text
;
3960 return str_to_qname( reader
, utf8
->value
.bytes
, utf8
->value
.length
, heap
, prefix
, localname
, ns
);
3963 /**************************************************************************
3964 * WsReadQualifiedName [webservices.@]
3966 HRESULT WINAPI
WsReadQualifiedName( WS_XML_READER
*handle
, WS_HEAP
*heap
, WS_XML_STRING
*prefix
,
3967 WS_XML_STRING
*localname
, WS_XML_STRING
*ns
,
3970 struct reader
*reader
= (struct reader
*)handle
;
3973 TRACE( "%p %p %p %p %p %p\n", handle
, heap
, prefix
, localname
, ns
, error
);
3974 if (error
) FIXME( "ignoring error parameter\n" );
3976 if (!reader
|| !heap
) return E_INVALIDARG
;
3978 EnterCriticalSection( &reader
->cs
);
3980 if (reader
->magic
!= READER_MAGIC
)
3982 LeaveCriticalSection( &reader
->cs
);
3983 return E_INVALIDARG
;
3986 if (!reader
->input_type
)
3988 LeaveCriticalSection( &reader
->cs
);
3989 return WS_E_INVALID_OPERATION
;
3994 LeaveCriticalSection( &reader
->cs
);
3995 return E_INVALIDARG
;
3998 if (reader
->state
!= READER_STATE_TEXT
)
4000 LeaveCriticalSection( &reader
->cs
);
4001 return WS_E_INVALID_FORMAT
;
4004 hr
= read_qualified_name( reader
, heap
, prefix
, localname
, ns
);
4006 LeaveCriticalSection( &reader
->cs
);
4010 static const int month_offsets
[2][12] =
4012 {0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334},
4013 {0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335}
4016 static inline int valid_day( int year
, int month
, int day
)
4018 return day
> 0 && day
<= month_days
[leap_year( year
)][month
- 1];
4021 static inline int leap_days_before( int year
)
4023 return (year
- 1) / 4 - (year
- 1) / 100 + (year
- 1) / 400;
4026 static HRESULT
str_to_datetime( const unsigned char *bytes
, ULONG len
, WS_DATETIME
*ret
)
4028 const unsigned char *p
= bytes
, *q
;
4029 int year
, month
, day
, hour
, min
, sec
, sec_frac
= 0, tz_hour
, tz_min
, tz_neg
;
4031 while (len
&& read_isspace( *p
)) { p
++; len
--; }
4032 while (len
&& read_isspace( p
[len
- 1] )) { len
--; }
4035 while (len
&& isdigit( *q
)) { q
++; len
--; };
4036 if (q
- p
!= 4 || !len
|| *q
!= '-') return WS_E_INVALID_FORMAT
;
4037 year
= (p
[0] - '0') * 1000 + (p
[1] - '0') * 100 + (p
[2] - '0') * 10 + p
[3] - '0';
4038 if (year
< 1) return WS_E_INVALID_FORMAT
;
4041 while (len
&& isdigit( *q
)) { q
++; len
--; };
4042 if (q
- p
!= 2 || !len
|| *q
!= '-') return WS_E_INVALID_FORMAT
;
4043 month
= (p
[0] - '0') * 10 + p
[1] - '0';
4044 if (month
< 1 || month
> 12) return WS_E_INVALID_FORMAT
;
4047 while (len
&& isdigit( *q
)) { q
++; len
--; };
4048 if (q
- p
!= 2 || !len
|| *q
!= 'T') return WS_E_INVALID_FORMAT
;
4049 day
= (p
[0] - '0') * 10 + p
[1] - '0';
4050 if (!valid_day( year
, month
, day
)) return WS_E_INVALID_FORMAT
;
4053 while (len
&& isdigit( *q
)) { q
++; len
--; };
4054 if (q
- p
!= 2 || !len
|| *q
!= ':') return WS_E_INVALID_FORMAT
;
4055 hour
= (p
[0] - '0') * 10 + p
[1] - '0';
4056 if (hour
> 24) return WS_E_INVALID_FORMAT
;
4059 while (len
&& isdigit( *q
)) { q
++; len
--; };
4060 if (q
- p
!= 2 || !len
|| *q
!= ':') return WS_E_INVALID_FORMAT
;
4061 min
= (p
[0] - '0') * 10 + p
[1] - '0';
4062 if (min
> 59 || (min
> 0 && hour
== 24)) return WS_E_INVALID_FORMAT
;
4065 while (len
&& isdigit( *q
)) { q
++; len
--; };
4066 if (q
- p
!= 2 || !len
) return WS_E_INVALID_FORMAT
;
4067 sec
= (p
[0] - '0') * 10 + p
[1] - '0';
4068 if (sec
> 59 || (sec
> 0 && hour
== 24)) return WS_E_INVALID_FORMAT
;
4072 unsigned int i
, nb_digits
, mul
= TICKS_PER_SEC
/ 10;
4074 while (len
&& isdigit( *q
)) { q
++; len
--; };
4076 if (nb_digits
< 1 || nb_digits
> 7) return WS_E_INVALID_FORMAT
;
4077 for (i
= 0; i
< nb_digits
; i
++)
4079 sec_frac
+= (p
[i
] - '0') * mul
;
4085 if (--len
) return WS_E_INVALID_FORMAT
;
4086 tz_hour
= tz_min
= tz_neg
= 0;
4087 ret
->format
= WS_DATETIME_FORMAT_UTC
;
4089 else if (*q
== '+' || *q
== '-')
4091 tz_neg
= (*q
== '-') ? 1 : 0;
4094 while (len
&& isdigit( *q
)) { q
++; len
--; };
4095 if (q
- p
!= 2 || !len
|| *q
!= ':') return WS_E_INVALID_FORMAT
;
4096 tz_hour
= (p
[0] - '0') * 10 + p
[1] - '0';
4097 if (tz_hour
> 14) return WS_E_INVALID_FORMAT
;
4100 while (len
&& isdigit( *q
)) { q
++; len
--; };
4101 if (q
- p
!= 2 || len
) return WS_E_INVALID_FORMAT
;
4102 tz_min
= (p
[0] - '0') * 10 + p
[1] - '0';
4103 if (tz_min
> 59 || (tz_min
> 0 && tz_hour
== 14)) return WS_E_INVALID_FORMAT
;
4105 ret
->format
= WS_DATETIME_FORMAT_LOCAL
;
4107 else return WS_E_INVALID_FORMAT
;
4109 ret
->ticks
= ((year
- 1) * 365 + leap_days_before( year
)) * TICKS_PER_DAY
;
4110 ret
->ticks
+= month_offsets
[leap_year( year
)][month
- 1] * TICKS_PER_DAY
;
4111 ret
->ticks
+= (day
- 1) * TICKS_PER_DAY
;
4112 ret
->ticks
+= hour
* TICKS_PER_HOUR
;
4113 ret
->ticks
+= min
* TICKS_PER_MIN
;
4114 ret
->ticks
+= sec
* TICKS_PER_SEC
;
4115 ret
->ticks
+= sec_frac
;
4119 if (tz_hour
* TICKS_PER_HOUR
+ tz_min
* TICKS_PER_MIN
+ ret
->ticks
> TICKS_MAX
)
4120 return WS_E_INVALID_FORMAT
;
4121 ret
->ticks
+= tz_hour
* TICKS_PER_HOUR
;
4122 ret
->ticks
+= tz_min
* TICKS_PER_MIN
;
4126 if (tz_hour
* TICKS_PER_HOUR
+ tz_min
* TICKS_PER_MIN
> ret
->ticks
)
4127 return WS_E_INVALID_FORMAT
;
4128 ret
->ticks
-= tz_hour
* TICKS_PER_HOUR
;
4129 ret
->ticks
-= tz_min
* TICKS_PER_MIN
;
4135 /**************************************************************************
4136 * WsDateTimeToFileTime [webservices.@]
4138 HRESULT WINAPI
WsDateTimeToFileTime( const WS_DATETIME
*dt
, FILETIME
*ft
, WS_ERROR
*error
)
4140 unsigned __int64 ticks
;
4142 TRACE( "%p %p %p\n", dt
, ft
, error
);
4143 if (error
) FIXME( "ignoring error parameter\n" );
4145 if (!dt
|| !ft
) return E_INVALIDARG
;
4147 if (dt
->ticks
< TICKS_1601_01_01
) return WS_E_INVALID_FORMAT
;
4148 ticks
= dt
->ticks
- TICKS_1601_01_01
;
4149 ft
->dwHighDateTime
= ticks
>> 32;
4150 ft
->dwLowDateTime
= (DWORD
)ticks
;
4154 /**************************************************************************
4155 * WsFileTimeToDateTime [webservices.@]
4157 HRESULT WINAPI
WsFileTimeToDateTime( const FILETIME
*ft
, WS_DATETIME
*dt
, WS_ERROR
*error
)
4159 unsigned __int64 ticks
;
4161 TRACE( "%p %p %p\n", ft
, dt
, error
);
4162 if (error
) FIXME( "ignoring error parameter\n" );
4164 if (!dt
|| !ft
) return E_INVALIDARG
;
4166 ticks
= ((unsigned __int64
)ft
->dwHighDateTime
<< 32) | ft
->dwLowDateTime
;
4167 if (ticks
> MAX_UINT64
- TICKS_1601_01_01
) return WS_E_NUMERIC_OVERFLOW
;
4168 if (ticks
+ TICKS_1601_01_01
> TICKS_MAX
) return WS_E_INVALID_FORMAT
;
4169 dt
->ticks
= ticks
+ TICKS_1601_01_01
;
4170 dt
->format
= WS_DATETIME_FORMAT_UTC
;
4174 static BOOL
find_attribute( struct reader
*reader
, const WS_XML_STRING
*localname
,
4175 const WS_XML_STRING
*ns
, ULONG
*index
)
4178 WS_XML_ELEMENT_NODE
*elem
= &reader
->current
->hdr
;
4182 *index
= reader
->current_attr
;
4185 for (i
= 0; i
< elem
->attributeCount
; i
++)
4187 const WS_XML_STRING
*localname2
= elem
->attributes
[i
]->localName
;
4188 const WS_XML_STRING
*ns2
= elem
->attributes
[i
]->ns
;
4190 if (!cmp_name( localname
->bytes
, localname
->length
, localname2
->bytes
, localname2
->length
) &&
4191 !cmp_name( ns
->bytes
, ns
->length
, ns2
->bytes
, ns2
->length
))
4200 /**************************************************************************
4201 * WsFindAttribute [webservices.@]
4203 HRESULT WINAPI
WsFindAttribute( WS_XML_READER
*handle
, const WS_XML_STRING
*localname
,
4204 const WS_XML_STRING
*ns
, BOOL required
, ULONG
*index
,
4207 struct reader
*reader
= (struct reader
*)handle
;
4210 TRACE( "%p %s %s %d %p %p\n", handle
, debugstr_xmlstr(localname
), debugstr_xmlstr(ns
),
4211 required
, index
, error
);
4212 if (error
) FIXME( "ignoring error parameter\n" );
4214 if (!reader
|| !localname
|| !ns
|| !index
) return E_INVALIDARG
;
4216 EnterCriticalSection( &reader
->cs
);
4218 if (reader
->magic
!= READER_MAGIC
)
4220 LeaveCriticalSection( &reader
->cs
);
4221 return E_INVALIDARG
;
4224 if (node_type( reader
->current
) != WS_XML_NODE_TYPE_ELEMENT
)
4226 LeaveCriticalSection( &reader
->cs
);
4227 return WS_E_INVALID_OPERATION
;
4230 if (!find_attribute( reader
, localname
, ns
, index
))
4232 if (required
) hr
= WS_E_INVALID_FORMAT
;
4240 LeaveCriticalSection( &reader
->cs
);
4244 static HRESULT
get_node_text( struct reader
*reader
, const WS_XML_TEXT
**ret
)
4246 WS_XML_TEXT_NODE
*node
= (WS_XML_TEXT_NODE
*)&reader
->current
->hdr
.node
;
4251 static HRESULT
get_attribute_text( struct reader
*reader
, ULONG index
, const WS_XML_TEXT
**ret
)
4253 WS_XML_ELEMENT_NODE
*elem
= &reader
->current
->hdr
;
4254 *ret
= elem
->attributes
[index
]->value
;
4258 static BOOL
match_element( const struct node
*node
, const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
)
4260 const WS_XML_ELEMENT_NODE
*elem
= (const WS_XML_ELEMENT_NODE
*)node
;
4261 if (node_type( node
) != WS_XML_NODE_TYPE_ELEMENT
) return FALSE
;
4262 return WsXmlStringEquals( localname
, elem
->localName
, NULL
) == S_OK
&&
4263 WsXmlStringEquals( ns
, elem
->ns
, NULL
) == S_OK
;
4266 static HRESULT
read_next_node( struct reader
*reader
)
4268 if (reader
->current
== reader
->last
) return read_node( reader
);
4269 if (move_to_child_node( &reader
->current
)) return S_OK
;
4270 if (move_to_next_node( &reader
->current
)) return S_OK
;
4271 if (!move_to_parent_node( &reader
->current
)) return WS_E_INVALID_FORMAT
;
4272 if (move_to_next_node( &reader
->current
)) return S_OK
;
4273 return WS_E_INVALID_FORMAT
;
4276 static HRESULT
get_text( struct reader
*reader
, WS_TYPE_MAPPING mapping
, const WS_XML_STRING
*localname
,
4277 const WS_XML_STRING
*ns
, const WS_XML_TEXT
**ret
, BOOL
*found
)
4281 case WS_ATTRIBUTE_TYPE_MAPPING
:
4284 if (!(*found
= find_attribute( reader
, localname
, ns
, &index
))) return S_OK
;
4285 return get_attribute_text( reader
, index
, ret
);
4287 case WS_ELEMENT_TYPE_MAPPING
:
4288 case WS_ELEMENT_CONTENT_TYPE_MAPPING
:
4289 case WS_ANY_ELEMENT_TYPE_MAPPING
:
4295 if (!match_element( reader
->current
, localname
, ns
))
4300 if ((hr
= read_next_node( reader
)) != S_OK
) return hr
;
4301 if (node_type( reader
->current
) != WS_XML_NODE_TYPE_TEXT
)
4303 if (!move_to_parent_element( &reader
->current
)) return WS_E_INVALID_FORMAT
;
4308 if (node_type( reader
->current
) != WS_XML_NODE_TYPE_TEXT
)
4313 return get_node_text( reader
, ret
);
4316 FIXME( "mapping %u not supported\n", mapping
);
4321 static HRESULT
text_to_bool( const WS_XML_TEXT
*text
, BOOL
*val
)
4325 switch (text
->textType
)
4327 case WS_XML_TEXT_TYPE_UTF8
:
4329 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
4330 hr
= str_to_bool( text_utf8
->value
.bytes
, text_utf8
->value
.length
, val
);
4333 case WS_XML_TEXT_TYPE_BOOL
:
4335 const WS_XML_BOOL_TEXT
*text_bool
= (const WS_XML_BOOL_TEXT
*)text
;
4336 *val
= text_bool
->value
;
4341 FIXME( "unhandled text type %u\n", text
->textType
);
4348 static HRESULT
read_type_bool( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
4349 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
4350 const WS_BOOL_DESCRIPTION
*desc
, WS_READ_OPTION option
,
4351 WS_HEAP
*heap
, void *ret
, ULONG size
)
4353 const WS_XML_TEXT
*text
;
4355 BOOL found
, val
= FALSE
;
4359 FIXME( "description not supported\n" );
4362 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
4363 if (found
&& (hr
= text_to_bool( text
, &val
)) != S_OK
) return hr
;
4367 case WS_READ_REQUIRED_VALUE
:
4368 if (!found
) return WS_E_INVALID_FORMAT
;
4371 case WS_READ_NILLABLE_VALUE
:
4372 if (size
!= sizeof(val
)) return E_INVALIDARG
;
4376 case WS_READ_REQUIRED_POINTER
:
4377 if (!found
) return WS_E_INVALID_FORMAT
;
4380 case WS_READ_OPTIONAL_POINTER
:
4381 case WS_READ_NILLABLE_POINTER
:
4383 BOOL
*heap_val
= NULL
;
4384 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
4387 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
4390 *(BOOL
**)ret
= heap_val
;
4394 FIXME( "read option %u not supported\n", option
);
4401 static HRESULT
text_to_int8( const WS_XML_TEXT
*text
, INT64
*val
)
4405 switch (text
->textType
)
4407 case WS_XML_TEXT_TYPE_UTF8
:
4409 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
4410 hr
= str_to_int64( text_utf8
->value
.bytes
, text_utf8
->value
.length
, MIN_INT8
, MAX_INT8
, val
);
4413 case WS_XML_TEXT_TYPE_INT32
:
4415 const WS_XML_INT32_TEXT
*text_int32
= (const WS_XML_INT32_TEXT
*)text
;
4416 assert( text_int32
->value
>= MIN_INT8
);
4417 assert( text_int32
->value
<= MAX_INT8
);
4418 *val
= text_int32
->value
;
4423 FIXME( "unhandled text type %u\n", text
->textType
);
4430 static HRESULT
read_type_int8( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
4431 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
4432 const WS_INT8_DESCRIPTION
*desc
, WS_READ_OPTION option
,
4433 WS_HEAP
*heap
, void *ret
, ULONG size
)
4435 const WS_XML_TEXT
*text
;
4442 FIXME( "description not supported\n" );
4445 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
4446 if (found
&& (hr
= text_to_int8( text
, &val
)) != S_OK
) return hr
;
4450 case WS_READ_REQUIRED_VALUE
:
4451 if (!found
) return WS_E_INVALID_FORMAT
;
4454 case WS_READ_NILLABLE_VALUE
:
4455 if (size
!= sizeof(INT8
)) return E_INVALIDARG
;
4459 case WS_READ_REQUIRED_POINTER
:
4460 if (!found
) return WS_E_INVALID_FORMAT
;
4463 case WS_READ_OPTIONAL_POINTER
:
4464 case WS_READ_NILLABLE_POINTER
:
4466 INT8
*heap_val
= NULL
;
4467 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
4470 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
4473 *(INT8
**)ret
= heap_val
;
4477 FIXME( "read option %u not supported\n", option
);
4484 static HRESULT
text_to_int16( const WS_XML_TEXT
*text
, INT64
*val
)
4488 switch (text
->textType
)
4490 case WS_XML_TEXT_TYPE_UTF8
:
4492 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
4493 hr
= str_to_int64( text_utf8
->value
.bytes
, text_utf8
->value
.length
, MIN_INT16
, MAX_INT16
, val
);
4496 case WS_XML_TEXT_TYPE_INT32
:
4498 const WS_XML_INT32_TEXT
*text_int32
= (const WS_XML_INT32_TEXT
*)text
;
4499 assert( text_int32
->value
>= MIN_INT16
);
4500 assert( text_int32
->value
<= MAX_INT16
);
4501 *val
= text_int32
->value
;
4506 FIXME( "unhandled text type %u\n", text
->textType
);
4513 static HRESULT
read_type_int16( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
4514 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
4515 const WS_INT16_DESCRIPTION
*desc
, WS_READ_OPTION option
,
4516 WS_HEAP
*heap
, void *ret
, ULONG size
)
4518 const WS_XML_TEXT
*text
;
4525 FIXME( "description not supported\n" );
4528 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
4529 if (found
&& (hr
= text_to_int16( text
, &val
)) != S_OK
) return hr
;
4533 case WS_READ_REQUIRED_VALUE
:
4534 if (!found
) return WS_E_INVALID_FORMAT
;
4537 case WS_READ_NILLABLE_VALUE
:
4538 if (size
!= sizeof(INT16
)) return E_INVALIDARG
;
4539 *(INT16
*)ret
= val
;
4542 case WS_READ_REQUIRED_POINTER
:
4543 if (!found
) return WS_E_INVALID_FORMAT
;
4546 case WS_READ_OPTIONAL_POINTER
:
4547 case WS_READ_NILLABLE_POINTER
:
4549 INT16
*heap_val
= NULL
;
4550 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
4553 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
4556 *(INT16
**)ret
= heap_val
;
4560 FIXME( "read option %u not supported\n", option
);
4567 static HRESULT
text_to_int32( const WS_XML_TEXT
*text
, INT64
*val
)
4571 switch (text
->textType
)
4573 case WS_XML_TEXT_TYPE_UTF8
:
4575 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
4576 hr
= str_to_int64( text_utf8
->value
.bytes
, text_utf8
->value
.length
, MIN_INT32
, MAX_INT32
, val
);
4579 case WS_XML_TEXT_TYPE_INT32
:
4581 const WS_XML_INT32_TEXT
*text_int32
= (const WS_XML_INT32_TEXT
*)text
;
4582 *val
= text_int32
->value
;
4587 FIXME( "unhandled text type %u\n", text
->textType
);
4594 static HRESULT
read_type_int32( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
4595 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
4596 const WS_INT32_DESCRIPTION
*desc
, WS_READ_OPTION option
,
4597 WS_HEAP
*heap
, void *ret
, ULONG size
)
4599 const WS_XML_TEXT
*text
;
4606 FIXME( "description not supported\n" );
4609 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
4610 if (found
&& (hr
= text_to_int32( text
, &val
)) != S_OK
) return hr
;
4614 case WS_READ_REQUIRED_VALUE
:
4615 if (!found
) return WS_E_INVALID_FORMAT
;
4618 case WS_READ_NILLABLE_VALUE
:
4619 if (size
!= sizeof(INT32
)) return E_INVALIDARG
;
4620 *(INT32
*)ret
= val
;
4623 case WS_READ_REQUIRED_POINTER
:
4624 if (!found
) return WS_E_INVALID_FORMAT
;
4627 case WS_READ_OPTIONAL_POINTER
:
4628 case WS_READ_NILLABLE_POINTER
:
4630 INT32
*heap_val
= NULL
;
4631 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
4634 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
4637 *(INT32
**)ret
= heap_val
;
4641 FIXME( "read option %u not supported\n", option
);
4648 static HRESULT
text_to_int64( const WS_XML_TEXT
*text
, INT64
*val
)
4652 switch (text
->textType
)
4654 case WS_XML_TEXT_TYPE_UTF8
:
4656 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
4657 hr
= str_to_int64( text_utf8
->value
.bytes
, text_utf8
->value
.length
, MIN_INT64
, MAX_INT64
, val
);
4660 case WS_XML_TEXT_TYPE_INT64
:
4662 const WS_XML_INT64_TEXT
*text_int64
= (const WS_XML_INT64_TEXT
*)text
;
4663 *val
= text_int64
->value
;
4668 FIXME( "unhandled text type %u\n", text
->textType
);
4675 static HRESULT
read_type_int64( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
4676 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
4677 const WS_INT64_DESCRIPTION
*desc
, WS_READ_OPTION option
,
4678 WS_HEAP
*heap
, void *ret
, ULONG size
)
4680 const WS_XML_TEXT
*text
;
4687 FIXME( "description not supported\n" );
4690 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
4691 if (found
&& (hr
= text_to_int64( text
, &val
)) != S_OK
) return hr
;
4695 case WS_READ_REQUIRED_VALUE
:
4696 if (!found
) return WS_E_INVALID_FORMAT
;
4699 case WS_READ_NILLABLE_VALUE
:
4700 if (size
!= sizeof(val
)) return E_INVALIDARG
;
4701 *(INT64
*)ret
= val
;
4704 case WS_READ_REQUIRED_POINTER
:
4705 if (!found
) return WS_E_INVALID_FORMAT
;
4708 case WS_READ_OPTIONAL_POINTER
:
4709 case WS_READ_NILLABLE_POINTER
:
4711 INT64
*heap_val
= NULL
;
4712 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
4715 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
4718 *(INT64
**)ret
= heap_val
;
4722 FIXME( "read option %u not supported\n", option
);
4729 static HRESULT
text_to_uint8( const WS_XML_TEXT
*text
, UINT64
*val
)
4733 switch (text
->textType
)
4735 case WS_XML_TEXT_TYPE_UTF8
:
4737 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
4738 hr
= str_to_uint64( text_utf8
->value
.bytes
, text_utf8
->value
.length
, MAX_UINT8
, val
);
4741 case WS_XML_TEXT_TYPE_UINT64
:
4743 const WS_XML_UINT64_TEXT
*text_uint64
= (const WS_XML_UINT64_TEXT
*)text
;
4744 assert( text_uint64
->value
<= MAX_UINT8
);
4745 *val
= text_uint64
->value
;
4750 FIXME( "unhandled text type %u\n", text
->textType
);
4757 static HRESULT
read_type_uint8( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
4758 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
4759 const WS_UINT8_DESCRIPTION
*desc
, WS_READ_OPTION option
,
4760 WS_HEAP
*heap
, void *ret
, ULONG size
)
4762 const WS_XML_TEXT
*text
;
4769 FIXME( "description not supported\n" );
4772 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
4773 if (found
&& (hr
= text_to_uint8( text
, &val
)) != S_OK
) return hr
;
4777 case WS_READ_REQUIRED_VALUE
:
4778 if (!found
) return WS_E_INVALID_FORMAT
;
4781 case WS_READ_NILLABLE_VALUE
:
4782 if (size
!= sizeof(UINT8
)) return E_INVALIDARG
;
4783 *(UINT8
*)ret
= val
;
4786 case WS_READ_REQUIRED_POINTER
:
4787 if (!found
) return WS_E_INVALID_FORMAT
;
4790 case WS_READ_OPTIONAL_POINTER
:
4791 case WS_READ_NILLABLE_POINTER
:
4793 UINT8
*heap_val
= NULL
;
4794 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
4797 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
4800 *(UINT8
**)ret
= heap_val
;
4804 FIXME( "read option %u not supported\n", option
);
4811 static HRESULT
text_to_uint16( const WS_XML_TEXT
*text
, UINT64
*val
)
4815 switch (text
->textType
)
4817 case WS_XML_TEXT_TYPE_UTF8
:
4819 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
4820 hr
= str_to_uint64( text_utf8
->value
.bytes
, text_utf8
->value
.length
, MAX_UINT16
, val
);
4823 case WS_XML_TEXT_TYPE_INT32
:
4825 const WS_XML_INT32_TEXT
*text_int32
= (const WS_XML_INT32_TEXT
*)text
;
4826 assert( text_int32
->value
>= 0 );
4827 assert( text_int32
->value
<= MAX_UINT16
);
4828 *val
= text_int32
->value
;
4832 case WS_XML_TEXT_TYPE_UINT64
:
4834 const WS_XML_UINT64_TEXT
*text_uint64
= (const WS_XML_UINT64_TEXT
*)text
;
4835 assert( text_uint64
->value
<= MAX_UINT16
);
4836 *val
= text_uint64
->value
;
4841 FIXME( "unhandled text type %u\n", text
->textType
);
4848 static HRESULT
read_type_uint16( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
4849 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
4850 const WS_UINT16_DESCRIPTION
*desc
, WS_READ_OPTION option
,
4851 WS_HEAP
*heap
, void *ret
, ULONG size
)
4853 const WS_XML_TEXT
*text
;
4860 FIXME( "description not supported\n" );
4863 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
4864 if (found
&& (hr
= text_to_uint16( text
, &val
)) != S_OK
) return hr
;
4868 case WS_READ_REQUIRED_VALUE
:
4869 if (!found
) return WS_E_INVALID_FORMAT
;
4872 case WS_READ_NILLABLE_VALUE
:
4873 if (size
!= sizeof(UINT16
)) return E_INVALIDARG
;
4874 *(UINT16
*)ret
= val
;
4877 case WS_READ_REQUIRED_POINTER
:
4878 if (!found
) return WS_E_INVALID_FORMAT
;
4881 case WS_READ_OPTIONAL_POINTER
:
4882 case WS_READ_NILLABLE_POINTER
:
4884 UINT16
*heap_val
= NULL
;
4885 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
4888 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
4891 *(UINT16
**)ret
= heap_val
;
4895 FIXME( "read option %u not supported\n", option
);
4902 static HRESULT
text_to_uint32( const WS_XML_TEXT
*text
, UINT64
*val
)
4906 switch (text
->textType
)
4908 case WS_XML_TEXT_TYPE_UTF8
:
4910 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
4911 hr
= str_to_uint64( text_utf8
->value
.bytes
, text_utf8
->value
.length
, MAX_UINT32
, val
);
4914 case WS_XML_TEXT_TYPE_INT32
:
4916 const WS_XML_INT32_TEXT
*text_int32
= (const WS_XML_INT32_TEXT
*)text
;
4917 assert( text_int32
->value
>= 0 );
4918 *val
= text_int32
->value
;
4922 case WS_XML_TEXT_TYPE_UINT64
:
4924 const WS_XML_UINT64_TEXT
*text_uint64
= (const WS_XML_UINT64_TEXT
*)text
;
4925 assert( text_uint64
->value
<= MAX_UINT32
);
4926 *val
= text_uint64
->value
;
4931 FIXME( "unhandled text type %u\n", text
->textType
);
4938 static HRESULT
read_type_uint32( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
4939 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
4940 const WS_UINT32_DESCRIPTION
*desc
, WS_READ_OPTION option
,
4941 WS_HEAP
*heap
, void *ret
, ULONG size
)
4943 const WS_XML_TEXT
*text
;
4950 FIXME( "description not supported\n" );
4953 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
4954 if (found
&& (hr
= text_to_uint32( text
, &val
)) != S_OK
) return hr
;
4958 case WS_READ_REQUIRED_VALUE
:
4959 if (!found
) return WS_E_INVALID_FORMAT
;
4962 case WS_READ_NILLABLE_VALUE
:
4963 if (size
!= sizeof(UINT32
)) return E_INVALIDARG
;
4964 *(UINT32
*)ret
= val
;
4967 case WS_READ_REQUIRED_POINTER
:
4968 if (!found
) return WS_E_INVALID_FORMAT
;
4971 case WS_READ_OPTIONAL_POINTER
:
4972 case WS_READ_NILLABLE_POINTER
:
4974 UINT32
*heap_val
= NULL
;
4975 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
4978 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
4981 *(UINT32
**)ret
= heap_val
;
4985 FIXME( "read option %u not supported\n", option
);
4992 static HRESULT
text_to_uint64( const WS_XML_TEXT
*text
, UINT64
*val
)
4996 switch (text
->textType
)
4998 case WS_XML_TEXT_TYPE_UTF8
:
5000 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5001 hr
= str_to_uint64( text_utf8
->value
.bytes
, text_utf8
->value
.length
, MAX_UINT64
, val
);
5004 case WS_XML_TEXT_TYPE_UINT64
:
5006 const WS_XML_UINT64_TEXT
*text_uint64
= (const WS_XML_UINT64_TEXT
*)text
;
5007 *val
= text_uint64
->value
;
5012 FIXME( "unhandled text type %u\n", text
->textType
);
5019 static HRESULT
read_type_uint64( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5020 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5021 const WS_UINT64_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5022 WS_HEAP
*heap
, void *ret
, ULONG size
)
5024 const WS_XML_TEXT
*text
;
5031 FIXME( "description not supported\n" );
5034 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5035 if (found
&& (hr
= text_to_uint64( text
, &val
)) != S_OK
) return hr
;
5039 case WS_READ_REQUIRED_VALUE
:
5040 if (!found
) return WS_E_INVALID_FORMAT
;
5043 case WS_READ_NILLABLE_VALUE
:
5044 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5045 *(UINT64
*)ret
= val
;
5048 case WS_READ_REQUIRED_POINTER
:
5049 if (!found
) return WS_E_INVALID_FORMAT
;
5052 case WS_READ_OPTIONAL_POINTER
:
5053 case WS_READ_NILLABLE_POINTER
:
5055 UINT64
*heap_val
= NULL
;
5056 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5059 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5062 *(UINT64
**)ret
= heap_val
;
5066 FIXME( "read option %u not supported\n", option
);
5073 static HRESULT
text_to_float( const WS_XML_TEXT
*text
, float *val
)
5077 switch (text
->textType
)
5079 case WS_XML_TEXT_TYPE_UTF8
:
5081 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5082 hr
= str_to_float( text_utf8
->value
.bytes
, text_utf8
->value
.length
, val
);
5085 case WS_XML_TEXT_TYPE_FLOAT
:
5087 const WS_XML_FLOAT_TEXT
*text_float
= (const WS_XML_FLOAT_TEXT
*)text
;
5088 *val
= text_float
->value
;
5093 FIXME( "unhandled text type %u\n", text
->textType
);
5100 static HRESULT
read_type_float( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5101 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5102 const WS_FLOAT_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5103 WS_HEAP
*heap
, void *ret
, ULONG size
)
5105 const WS_XML_TEXT
*text
;
5110 if (desc
) FIXME( "ignoring description\n" );
5112 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5113 if (found
&& (hr
= text_to_float( text
, &val
)) != S_OK
) return hr
;
5117 case WS_READ_REQUIRED_VALUE
:
5118 if (!found
) return WS_E_INVALID_FORMAT
;
5121 case WS_READ_NILLABLE_VALUE
:
5122 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5123 *(float *)ret
= val
;
5126 case WS_READ_REQUIRED_POINTER
:
5127 if (!found
) return WS_E_INVALID_FORMAT
;
5130 case WS_READ_OPTIONAL_POINTER
:
5131 case WS_READ_NILLABLE_POINTER
:
5133 float *heap_val
= NULL
;
5134 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5137 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5140 *(float **)ret
= heap_val
;
5144 FIXME( "read option %u not supported\n", option
);
5151 static HRESULT
text_to_double( const WS_XML_TEXT
*text
, double *val
)
5155 switch (text
->textType
)
5157 case WS_XML_TEXT_TYPE_UTF8
:
5159 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5160 hr
= str_to_double( text_utf8
->value
.bytes
, text_utf8
->value
.length
, val
);
5163 case WS_XML_TEXT_TYPE_DOUBLE
:
5165 const WS_XML_DOUBLE_TEXT
*text_double
= (const WS_XML_DOUBLE_TEXT
*)text
;
5166 *val
= text_double
->value
;
5171 FIXME( "unhandled text type %u\n", text
->textType
);
5178 static HRESULT
read_type_double( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5179 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5180 const WS_DOUBLE_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5181 WS_HEAP
*heap
, void *ret
, ULONG size
)
5183 const WS_XML_TEXT
*text
;
5188 if (desc
) FIXME( "ignoring description\n" );
5190 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5191 if (found
&& (hr
= text_to_double( text
, &val
)) != S_OK
) return hr
;
5195 case WS_READ_REQUIRED_VALUE
:
5196 if (!found
) return WS_E_INVALID_FORMAT
;
5199 case WS_READ_NILLABLE_VALUE
:
5200 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5201 *(double *)ret
= val
;
5204 case WS_READ_REQUIRED_POINTER
:
5205 if (!found
) return WS_E_INVALID_FORMAT
;
5208 case WS_READ_OPTIONAL_POINTER
:
5209 case WS_READ_NILLABLE_POINTER
:
5211 double *heap_val
= NULL
;
5212 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5215 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5218 *(double **)ret
= heap_val
;
5222 FIXME( "read option %u not supported\n", option
);
5229 static HRESULT
text_to_wsz( const WS_XML_TEXT
*text
, WS_HEAP
*heap
, WCHAR
**ret
)
5231 const WS_XML_UTF8_TEXT
*utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5234 assert( text
->textType
== WS_XML_TEXT_TYPE_UTF8
);
5235 len
= MultiByteToWideChar( CP_UTF8
, 0, (char *)utf8
->value
.bytes
, utf8
->value
.length
, NULL
, 0 );
5236 if (!(*ret
= ws_alloc( heap
, (len
+ 1) * sizeof(WCHAR
) ))) return E_OUTOFMEMORY
;
5237 MultiByteToWideChar( CP_UTF8
, 0, (char *)utf8
->value
.bytes
, utf8
->value
.length
, *ret
, len
);
5242 static HRESULT
read_type_wsz( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5243 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5244 const WS_WSZ_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5245 WS_HEAP
*heap
, WCHAR
**ret
, ULONG size
)
5247 const WS_XML_TEXT
*text
;
5254 FIXME( "description not supported\n" );
5257 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5258 if (found
&& (hr
= text_to_wsz( text
, heap
, &str
)) != S_OK
) return hr
;
5262 case WS_READ_REQUIRED_POINTER
:
5263 if (!str
&& !(str
= ws_alloc_zero( heap
, sizeof(*str
) ))) return WS_E_QUOTA_EXCEEDED
;
5266 case WS_READ_OPTIONAL_POINTER
:
5267 case WS_READ_NILLABLE_POINTER
:
5268 if (size
!= sizeof(str
)) return E_INVALIDARG
;
5273 FIXME( "read option %u not supported\n", option
);
5280 static HRESULT
get_enum_value( const WS_XML_TEXT
*text
, const WS_ENUM_DESCRIPTION
*desc
, int *ret
)
5282 const WS_XML_UTF8_TEXT
*utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5285 assert( text
->textType
== WS_XML_TEXT_TYPE_UTF8
);
5286 for (i
= 0; i
< desc
->valueCount
; i
++)
5288 if (WsXmlStringEquals( &utf8
->value
, desc
->values
[i
].name
, NULL
) == S_OK
)
5290 *ret
= desc
->values
[i
].value
;
5294 return WS_E_INVALID_FORMAT
;
5297 static HRESULT
read_type_enum( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5298 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5299 const WS_ENUM_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5300 WS_HEAP
*heap
, void *ret
, ULONG size
)
5302 const WS_XML_TEXT
*text
;
5307 if (!desc
) return E_INVALIDARG
;
5309 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5310 if (found
&& (hr
= get_enum_value( text
, desc
, &val
)) != S_OK
) return hr
;
5314 case WS_READ_REQUIRED_VALUE
:
5315 if (!found
) return WS_E_INVALID_FORMAT
;
5318 case WS_READ_NILLABLE_VALUE
:
5319 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5323 case WS_READ_REQUIRED_POINTER
:
5324 if (!found
) return WS_E_INVALID_FORMAT
;
5327 case WS_READ_OPTIONAL_POINTER
:
5328 case WS_READ_NILLABLE_POINTER
:
5330 int *heap_val
= NULL
;
5331 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5334 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5337 *(int **)ret
= heap_val
;
5341 FIXME( "read option %u not supported\n", option
);
5348 static HRESULT
text_to_datetime( const WS_XML_TEXT
*text
, WS_DATETIME
*val
)
5352 switch (text
->textType
)
5354 case WS_XML_TEXT_TYPE_UTF8
:
5356 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5357 hr
= str_to_datetime( text_utf8
->value
.bytes
, text_utf8
->value
.length
, val
);
5360 case WS_XML_TEXT_TYPE_DATETIME
:
5362 const WS_XML_DATETIME_TEXT
*text_datetime
= (const WS_XML_DATETIME_TEXT
*)text
;
5363 *val
= text_datetime
->value
;
5368 FIXME( "unhandled text type %u\n", text
->textType
);
5375 static HRESULT
read_type_datetime( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5376 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5377 const WS_DATETIME_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5378 WS_HEAP
*heap
, void *ret
, ULONG size
)
5380 const WS_XML_TEXT
*text
;
5382 WS_DATETIME val
= {0, WS_DATETIME_FORMAT_UTC
};
5385 if (desc
) FIXME( "ignoring description\n" );
5387 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5388 if (found
&& (hr
= text_to_datetime( text
, &val
)) != S_OK
) return hr
;
5392 case WS_READ_REQUIRED_VALUE
:
5393 if (!found
) return WS_E_INVALID_FORMAT
;
5396 case WS_READ_NILLABLE_VALUE
:
5397 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5398 *(WS_DATETIME
*)ret
= val
;
5401 case WS_READ_REQUIRED_POINTER
:
5402 if (!found
) return WS_E_INVALID_FORMAT
;
5405 case WS_READ_OPTIONAL_POINTER
:
5406 case WS_READ_NILLABLE_POINTER
:
5408 WS_DATETIME
*heap_val
= NULL
;
5409 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5412 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5415 *(WS_DATETIME
**)ret
= heap_val
;
5419 FIXME( "read option %u not supported\n", option
);
5426 static HRESULT
text_to_guid( const WS_XML_TEXT
*text
, GUID
*val
)
5430 switch (text
->textType
)
5432 case WS_XML_TEXT_TYPE_UTF8
:
5434 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5435 hr
= str_to_guid( text_utf8
->value
.bytes
, text_utf8
->value
.length
, val
);
5438 case WS_XML_TEXT_TYPE_GUID
:
5440 const WS_XML_GUID_TEXT
*text_guid
= (const WS_XML_GUID_TEXT
*)text
;
5441 *val
= text_guid
->value
;
5446 FIXME( "unhandled text type %u\n", text
->textType
);
5453 static HRESULT
read_type_guid( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5454 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5455 const WS_GUID_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5456 WS_HEAP
*heap
, void *ret
, ULONG size
)
5458 const WS_XML_TEXT
*text
;
5463 if (desc
) FIXME( "ignoring description\n" );
5465 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5466 if (found
&& (hr
= text_to_guid( text
, &val
)) != S_OK
) return hr
;
5470 case WS_READ_REQUIRED_VALUE
:
5471 if (!found
) return WS_E_INVALID_FORMAT
;
5474 case WS_READ_NILLABLE_VALUE
:
5475 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5479 case WS_READ_REQUIRED_POINTER
:
5480 if (!found
) return WS_E_INVALID_FORMAT
;
5483 case WS_READ_OPTIONAL_POINTER
:
5484 case WS_READ_NILLABLE_POINTER
:
5486 GUID
*heap_val
= NULL
;
5487 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5490 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5493 *(GUID
**)ret
= heap_val
;
5497 FIXME( "read option %u not supported\n", option
);
5504 static HRESULT
text_to_unique_id( const WS_XML_TEXT
*text
, WS_HEAP
*heap
, WS_UNIQUE_ID
*val
)
5508 switch (text
->textType
)
5510 case WS_XML_TEXT_TYPE_UTF8
:
5512 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5513 hr
= str_to_unique_id( text_utf8
->value
.bytes
, text_utf8
->value
.length
, heap
, val
);
5516 case WS_XML_TEXT_TYPE_UNIQUE_ID
:
5518 const WS_XML_UNIQUE_ID_TEXT
*text_unique_id
= (const WS_XML_UNIQUE_ID_TEXT
*)text
;
5519 val
->guid
= text_unique_id
->value
;
5520 val
->uri
.length
= 0;
5521 val
->uri
.chars
= NULL
;
5526 FIXME( "unhandled text type %u\n", text
->textType
);
5533 static HRESULT
read_type_unique_id( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5534 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5535 const WS_UNIQUE_ID_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5536 WS_HEAP
*heap
, void *ret
, ULONG size
)
5538 const WS_XML_TEXT
*text
;
5539 WS_UNIQUE_ID val
= {{0}};
5543 if (desc
) FIXME( "ignoring description\n" );
5545 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5546 if (found
&& (hr
= text_to_unique_id( text
, heap
, &val
)) != S_OK
) return hr
;
5550 case WS_READ_REQUIRED_VALUE
:
5551 if (!found
) return WS_E_INVALID_FORMAT
;
5554 case WS_READ_NILLABLE_VALUE
:
5555 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5556 *(WS_UNIQUE_ID
*)ret
= val
;
5559 case WS_READ_REQUIRED_POINTER
:
5560 if (!found
) return WS_E_INVALID_FORMAT
;
5563 case WS_READ_OPTIONAL_POINTER
:
5564 case WS_READ_NILLABLE_POINTER
:
5566 WS_UNIQUE_ID
*heap_val
= NULL
;
5567 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5570 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5573 *(WS_UNIQUE_ID
**)ret
= heap_val
;
5577 FIXME( "read option %u not supported\n", option
);
5584 static HRESULT
text_to_string( const WS_XML_TEXT
*text
, WS_HEAP
*heap
, WS_STRING
*val
)
5588 switch (text
->textType
)
5590 case WS_XML_TEXT_TYPE_UTF8
:
5592 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5593 hr
= str_to_string( text_utf8
->value
.bytes
, text_utf8
->value
.length
, heap
, val
);
5596 case WS_XML_TEXT_TYPE_UTF16
:
5598 const WS_XML_UTF16_TEXT
*text_utf16
= (const WS_XML_UTF16_TEXT
*)text
;
5599 if (!(val
->chars
= ws_alloc( heap
, text_utf16
->byteCount
))) return WS_E_QUOTA_EXCEEDED
;
5600 memcpy( val
->chars
, text_utf16
->bytes
, text_utf16
->byteCount
);
5601 val
->length
= text_utf16
->byteCount
/ sizeof(WCHAR
);
5606 FIXME( "unhandled text type %u\n", text
->textType
);
5613 static HRESULT
read_type_string( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5614 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5615 const WS_STRING_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5616 WS_HEAP
*heap
, void *ret
, ULONG size
)
5618 const WS_XML_TEXT
*text
;
5619 WS_STRING val
= {0};
5623 if (desc
) FIXME( "ignoring description\n" );
5625 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5626 if (found
&& (hr
= text_to_string( text
, heap
, &val
)) != S_OK
) return hr
;
5630 case WS_READ_REQUIRED_VALUE
:
5631 case WS_READ_NILLABLE_VALUE
:
5632 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5633 *(WS_STRING
*)ret
= val
;
5636 case WS_READ_REQUIRED_POINTER
:
5638 WS_STRING
*heap_val
;
5639 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5640 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5642 *(WS_STRING
**)ret
= heap_val
;
5645 case WS_READ_OPTIONAL_POINTER
:
5646 case WS_READ_NILLABLE_POINTER
:
5648 WS_STRING
*heap_val
= NULL
;
5649 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5652 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5655 *(WS_STRING
**)ret
= heap_val
;
5659 FIXME( "read option %u not supported\n", option
);
5666 static HRESULT
text_to_bytes( const WS_XML_TEXT
*text
, WS_HEAP
*heap
, WS_BYTES
*val
)
5670 switch (text
->textType
)
5672 case WS_XML_TEXT_TYPE_UTF8
:
5674 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5675 hr
= str_to_bytes( text_utf8
->value
.bytes
, text_utf8
->value
.length
, heap
, val
);
5678 case WS_XML_TEXT_TYPE_BASE64
:
5680 const WS_XML_BASE64_TEXT
*text_base64
= (const WS_XML_BASE64_TEXT
*)text
;
5681 if (!(val
->bytes
= ws_alloc( heap
, text_base64
->length
))) return WS_E_QUOTA_EXCEEDED
;
5682 memcpy( val
->bytes
, text_base64
->bytes
, text_base64
->length
);
5683 val
->length
= text_base64
->length
;
5688 FIXME( "unhandled text type %u\n", text
->textType
);
5695 static HRESULT
read_type_bytes( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5696 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5697 const WS_BYTES_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5698 WS_HEAP
*heap
, void *ret
, ULONG size
)
5700 const WS_XML_TEXT
*text
;
5705 if (desc
) FIXME( "ignoring description\n" );
5707 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5708 if (found
&& (hr
= text_to_bytes( text
, heap
, &val
)) != S_OK
) return hr
;
5712 case WS_READ_REQUIRED_VALUE
:
5713 case WS_READ_NILLABLE_VALUE
:
5714 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5715 *(WS_BYTES
*)ret
= val
;
5718 case WS_READ_REQUIRED_POINTER
:
5721 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5722 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5724 *(WS_BYTES
**)ret
= heap_val
;
5727 case WS_READ_OPTIONAL_POINTER
:
5728 case WS_READ_NILLABLE_POINTER
:
5730 WS_BYTES
*heap_val
= NULL
;
5731 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5734 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5737 *(WS_BYTES
**)ret
= heap_val
;
5741 FIXME( "read option %u not supported\n", option
);
5748 static HRESULT
text_to_xml_string( const WS_XML_TEXT
*text
, WS_HEAP
*heap
, WS_XML_STRING
*val
)
5750 const WS_XML_UTF8_TEXT
*utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5751 assert( text
->textType
== WS_XML_TEXT_TYPE_UTF8
);
5752 return str_to_xml_string( utf8
->value
.bytes
, utf8
->value
.length
, heap
, val
);
5755 static HRESULT
read_type_xml_string( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5756 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5757 const WS_XML_STRING_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5758 WS_HEAP
*heap
, void *ret
, ULONG size
)
5760 const WS_XML_TEXT
*text
;
5761 WS_XML_STRING val
= {0};
5765 if (desc
) FIXME( "ignoring description\n" );
5767 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5768 if (found
&& (hr
= text_to_xml_string( text
, heap
, &val
)) != S_OK
) return hr
;
5772 case WS_READ_REQUIRED_VALUE
:
5773 case WS_READ_NILLABLE_VALUE
:
5774 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5775 *(WS_XML_STRING
*)ret
= val
;
5778 case WS_READ_REQUIRED_POINTER
:
5780 WS_XML_STRING
*heap_val
;
5781 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5782 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5784 *(WS_XML_STRING
**)ret
= heap_val
;
5787 case WS_READ_OPTIONAL_POINTER
:
5788 case WS_READ_NILLABLE_POINTER
:
5790 WS_XML_STRING
*heap_val
= NULL
;
5791 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5794 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5797 *(WS_XML_STRING
**)ret
= heap_val
;
5801 FIXME( "read option %u not supported\n", option
);
5808 static HRESULT
text_to_qname( struct reader
*reader
, const WS_XML_TEXT
*text
, WS_HEAP
*heap
, WS_XML_QNAME
*val
)
5812 switch (text
->textType
)
5814 case WS_XML_TEXT_TYPE_UTF8
:
5816 const WS_XML_UTF8_TEXT
*text_utf8
= (const WS_XML_UTF8_TEXT
*)text
;
5817 hr
= str_to_qname( reader
, text_utf8
->value
.bytes
, text_utf8
->value
.length
, heap
, NULL
,
5818 &val
->localName
, &val
->ns
);
5821 case WS_XML_TEXT_TYPE_QNAME
:
5823 const WS_XML_QNAME_TEXT
*text_qname
= (const WS_XML_QNAME_TEXT
*)text
;
5824 if ((hr
= copy_xml_string( heap
, text_qname
->localName
, &val
->localName
)) != S_OK
) return hr
;
5825 if ((hr
= copy_xml_string( heap
, text_qname
->ns
, &val
->ns
)) != S_OK
)
5827 ws_free( heap
, val
->localName
.bytes
, val
->localName
.length
);
5833 FIXME( "unhandled text type %u\n", text
->textType
);
5840 static HRESULT
read_type_qname( struct reader
*reader
, WS_TYPE_MAPPING mapping
,
5841 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
5842 const WS_XML_QNAME_DESCRIPTION
*desc
, WS_READ_OPTION option
,
5843 WS_HEAP
*heap
, void *ret
, ULONG size
)
5845 const WS_XML_TEXT
*text
;
5846 WS_XML_QNAME val
= {{0}};
5850 if (desc
) FIXME( "ignoring description\n" );
5852 if (node_type( reader
->current
) != WS_XML_NODE_TYPE_ELEMENT
) return WS_E_INVALID_FORMAT
;
5853 if ((hr
= read_startelement( reader
)) != S_OK
) return hr
;
5854 if (node_type( reader
->current
) != WS_XML_NODE_TYPE_TEXT
) return WS_E_INVALID_FORMAT
;
5856 if ((hr
= get_text( reader
, mapping
, localname
, ns
, &text
, &found
)) != S_OK
) return hr
;
5857 if (found
&& (hr
= text_to_qname( reader
, text
, heap
, &val
)) != S_OK
) return hr
;
5861 case WS_READ_REQUIRED_VALUE
:
5862 if (!found
) return WS_E_INVALID_FORMAT
;
5865 case WS_READ_NILLABLE_VALUE
:
5866 if (size
!= sizeof(val
)) return E_INVALIDARG
;
5867 *(WS_XML_QNAME
*)ret
= val
;
5870 case WS_READ_REQUIRED_POINTER
:
5871 if (!found
) return WS_E_INVALID_FORMAT
;
5874 case WS_READ_OPTIONAL_POINTER
:
5875 case WS_READ_NILLABLE_POINTER
:
5877 WS_XML_QNAME
*heap_val
= NULL
;
5878 if (size
!= sizeof(heap_val
)) return E_INVALIDARG
;
5881 if (!(heap_val
= ws_alloc( heap
, sizeof(*heap_val
) ))) return WS_E_QUOTA_EXCEEDED
;
5884 *(WS_XML_QNAME
**)ret
= heap_val
;
5888 FIXME( "read option %u not supported\n", option
);
5895 static BOOL
is_empty_text_node( const struct node
*node
)
5897 const WS_XML_TEXT_NODE
*text
= (const WS_XML_TEXT_NODE
*)node
;
5899 if (node_type( node
) != WS_XML_NODE_TYPE_TEXT
) return FALSE
;
5900 switch (text
->text
->textType
)
5902 case WS_XML_TEXT_TYPE_UTF8
:
5905 const WS_XML_UTF8_TEXT
*utf8
= (const WS_XML_UTF8_TEXT
*)text
->text
;
5906 for (i
= 0; i
< utf8
->value
.length
; i
++) if (!read_isspace( utf8
->value
.bytes
[i
] )) return FALSE
;
5909 case WS_XML_TEXT_TYPE_BASE64
:
5911 const WS_XML_BASE64_TEXT
*base64
= (const WS_XML_BASE64_TEXT
*)text
->text
;
5912 return !base64
->length
;
5914 case WS_XML_TEXT_TYPE_BOOL
:
5915 case WS_XML_TEXT_TYPE_INT32
:
5916 case WS_XML_TEXT_TYPE_INT64
:
5917 case WS_XML_TEXT_TYPE_UINT64
:
5918 case WS_XML_TEXT_TYPE_FLOAT
:
5919 case WS_XML_TEXT_TYPE_DOUBLE
:
5920 case WS_XML_TEXT_TYPE_DECIMAL
:
5921 case WS_XML_TEXT_TYPE_GUID
:
5922 case WS_XML_TEXT_TYPE_UNIQUE_ID
:
5923 case WS_XML_TEXT_TYPE_DATETIME
:
5927 ERR( "unhandled text type %u\n", text
->text
->textType
);
5932 /* skips comment and empty text nodes */
5933 static HRESULT
read_type_next_node( struct reader
*reader
)
5938 WS_XML_NODE_TYPE type
;
5940 if ((hr
= read_next_node( reader
)) != S_OK
) return hr
;
5941 type
= node_type( reader
->current
);
5942 if (type
== WS_XML_NODE_TYPE_COMMENT
||
5943 (type
== WS_XML_NODE_TYPE_TEXT
&& is_empty_text_node( reader
->current
))) continue;
5948 static HRESULT
read_type_next_element_node( struct reader
*reader
, const WS_XML_STRING
*localname
,
5949 const WS_XML_STRING
*ns
)
5955 if (!localname
) return S_OK
; /* assume reader is already correctly positioned */
5956 if (reader
->current
== reader
->last
)
5959 if ((hr
= read_to_startelement( reader
, &found
)) != S_OK
) return hr
;
5960 if (!found
) return WS_E_INVALID_FORMAT
;
5962 if (match_element( reader
->current
, localname
, ns
)) return S_OK
;
5964 node
= reader
->current
;
5965 attr
= reader
->current_attr
;
5967 if ((hr
= read_type_next_node( reader
)) != S_OK
) return hr
;
5968 if (match_element( reader
->current
, localname
, ns
)) return S_OK
;
5970 reader
->current
= node
;
5971 reader
->current_attr
= attr
;
5973 return WS_E_INVALID_FORMAT
;
5976 ULONG
get_type_size( WS_TYPE type
, const void *desc
)
5982 return sizeof(INT8
);
5985 case WS_UINT16_TYPE
:
5986 return sizeof(INT16
);
5990 case WS_UINT32_TYPE
:
5992 return sizeof(INT32
);
5995 case WS_UINT64_TYPE
:
5996 return sizeof(INT64
);
5999 return sizeof(float);
6001 case WS_DOUBLE_TYPE
:
6002 return sizeof(double);
6004 case WS_DATETIME_TYPE
:
6005 return sizeof(WS_DATETIME
);
6008 return sizeof(GUID
);
6010 case WS_UNIQUE_ID_TYPE
:
6011 return sizeof(WS_UNIQUE_ID
);
6013 case WS_STRING_TYPE
:
6014 return sizeof(WS_STRING
);
6017 return sizeof(WCHAR
*);
6020 return sizeof(WS_BYTES
);
6022 case WS_XML_STRING_TYPE
:
6023 return sizeof(WS_XML_STRING
);
6025 case WS_XML_QNAME_TYPE
:
6026 return sizeof(WS_XML_QNAME
);
6028 case WS_DESCRIPTION_TYPE
:
6029 return sizeof(WS_STRUCT_DESCRIPTION
*);
6031 case WS_STRUCT_TYPE
:
6033 const WS_STRUCT_DESCRIPTION
*desc_struct
= desc
;
6034 return desc_struct
->size
;
6038 const WS_UNION_DESCRIPTION
*desc_union
= desc
;
6039 return desc_union
->size
;
6042 ERR( "unhandled type %u\n", type
);
6047 static WS_READ_OPTION
get_field_read_option( WS_TYPE type
, ULONG options
)
6049 if (options
& WS_FIELD_POINTER
)
6051 if (options
& WS_FIELD_NILLABLE
) return WS_READ_NILLABLE_POINTER
;
6052 if (options
& WS_FIELD_OPTIONAL
) return WS_READ_OPTIONAL_POINTER
;
6053 return WS_READ_REQUIRED_POINTER
;
6064 case WS_UINT16_TYPE
:
6065 case WS_UINT32_TYPE
:
6066 case WS_UINT64_TYPE
:
6068 case WS_DOUBLE_TYPE
:
6069 case WS_DATETIME_TYPE
:
6071 case WS_UNIQUE_ID_TYPE
:
6072 case WS_STRING_TYPE
:
6074 case WS_XML_STRING_TYPE
:
6075 case WS_XML_QNAME_TYPE
:
6076 case WS_STRUCT_TYPE
:
6079 if (options
& (WS_FIELD_OPTIONAL
|WS_FIELD_NILLABLE
)) return WS_READ_NILLABLE_VALUE
;
6080 return WS_READ_REQUIRED_VALUE
;
6083 case WS_DESCRIPTION_TYPE
:
6084 if (options
& WS_FIELD_NILLABLE
) return WS_READ_NILLABLE_POINTER
;
6085 if (options
& WS_FIELD_OPTIONAL
) return WS_READ_OPTIONAL_POINTER
;
6086 return WS_READ_REQUIRED_POINTER
;
6089 FIXME( "unhandled type %u\n", type
);
6094 static HRESULT
read_type_field( struct reader
*, const WS_FIELD_DESCRIPTION
*, WS_HEAP
*, char *, ULONG
);
6096 static HRESULT
read_type_union( struct reader
*reader
, const WS_UNION_DESCRIPTION
*desc
, WS_READ_OPTION option
,
6097 WS_HEAP
*heap
, void *ret
, ULONG size
)
6105 case WS_READ_REQUIRED_VALUE
:
6106 case WS_READ_NILLABLE_VALUE
:
6107 if (size
!= desc
->size
) return E_INVALIDARG
;
6111 return E_INVALIDARG
;
6114 if ((hr
= read_type_next_node( reader
)) != S_OK
) return hr
;
6115 if (node_type( reader
->current
) != WS_XML_NODE_TYPE_ELEMENT
) return WS_E_INVALID_FORMAT
;
6116 for (i
= 0; i
< desc
->fieldCount
; i
++)
6118 if ((found
= match_element( reader
->current
, desc
->fields
[i
]->field
.localName
, desc
->fields
[i
]->field
.ns
)))
6122 if (!found
) *(int *)((char *)ret
+ desc
->enumOffset
) = desc
->noneEnumValue
;
6125 ULONG offset
= desc
->fields
[i
]->field
.offset
;
6126 if ((hr
= read_type_field( reader
, &desc
->fields
[i
]->field
, heap
, ret
, offset
)) == S_OK
)
6127 *(int *)((char *)ret
+ desc
->enumOffset
) = desc
->fields
[i
]->value
;
6132 case WS_READ_NILLABLE_VALUE
:
6133 if (!found
) move_to_parent_element( &reader
->current
);
6136 case WS_READ_REQUIRED_VALUE
:
6137 if (!found
) hr
= WS_E_INVALID_FORMAT
;
6141 return E_INVALIDARG
;
6147 static HRESULT
read_type( struct reader
*, WS_TYPE_MAPPING
, WS_TYPE
, const WS_XML_STRING
*,
6148 const WS_XML_STRING
*, const void *, WS_READ_OPTION
, WS_HEAP
*,
6151 static HRESULT
read_type_array( struct reader
*reader
, const WS_FIELD_DESCRIPTION
*desc
, WS_HEAP
*heap
,
6152 void **ret
, ULONG
*count
)
6155 ULONG item_size
, nb_items
= 0, nb_allocated
= 1, offset
= 0;
6156 WS_READ_OPTION option
;
6159 if (!(option
= get_field_read_option( desc
->type
, desc
->options
))) return E_INVALIDARG
;
6161 /* wrapper element */
6162 if (desc
->localName
&& ((hr
= read_type_next_element_node( reader
, desc
->localName
, desc
->ns
)) != S_OK
))
6165 if (option
== WS_READ_REQUIRED_VALUE
|| option
== WS_READ_NILLABLE_VALUE
)
6166 item_size
= get_type_size( desc
->type
, desc
->typeDescription
);
6168 item_size
= sizeof(void *);
6170 if (!(buf
= ws_alloc_zero( heap
, item_size
))) return WS_E_QUOTA_EXCEEDED
;
6173 if (nb_items
>= nb_allocated
)
6175 SIZE_T old_size
= nb_allocated
* item_size
, new_size
= old_size
* 2;
6176 if (!(buf
= ws_realloc_zero( heap
, buf
, old_size
, new_size
))) return WS_E_QUOTA_EXCEEDED
;
6180 if (desc
->type
== WS_UNION_TYPE
)
6181 hr
= read_type_union( reader
, desc
->typeDescription
, option
, heap
, buf
+ offset
, item_size
);
6183 hr
= read_type( reader
, WS_ELEMENT_TYPE_MAPPING
, desc
->type
, desc
->itemLocalName
, desc
->itemNs
,
6184 desc
->typeDescription
, option
, heap
, buf
+ offset
, item_size
);
6186 if (hr
== WS_E_INVALID_FORMAT
) break;
6189 ws_free( heap
, buf
, nb_allocated
* item_size
);
6192 offset
+= item_size
;
6196 if (desc
->localName
&& ((hr
= read_type_next_node( reader
)) != S_OK
)) return hr
;
6198 if (desc
->itemRange
&& (nb_items
< desc
->itemRange
->minItemCount
|| nb_items
> desc
->itemRange
->maxItemCount
))
6200 TRACE( "number of items %u out of range (%u-%u)\n", nb_items
, desc
->itemRange
->minItemCount
,
6201 desc
->itemRange
->maxItemCount
);
6202 ws_free( heap
, buf
, nb_allocated
* item_size
);
6203 return WS_E_INVALID_FORMAT
;
6212 static HRESULT
read_type_text( struct reader
*reader
, const WS_FIELD_DESCRIPTION
*desc
,
6213 WS_READ_OPTION option
, WS_HEAP
*heap
, void *ret
, ULONG size
)
6216 if (reader
->current
== reader
->last
)
6219 if ((hr
= read_to_startelement( reader
, &found
)) != S_OK
) return hr
;
6220 if (!found
) return WS_E_INVALID_FORMAT
;
6222 if ((hr
= read_next_node( reader
)) != S_OK
) return hr
;
6223 if (node_type( reader
->current
) != WS_XML_NODE_TYPE_TEXT
) return WS_E_INVALID_FORMAT
;
6225 return read_type( reader
, WS_ANY_ELEMENT_TYPE_MAPPING
, desc
->type
, NULL
, NULL
,
6226 desc
->typeDescription
, option
, heap
, ret
, size
);
6229 static HRESULT
read_type_field( struct reader
*reader
, const WS_FIELD_DESCRIPTION
*desc
, WS_HEAP
*heap
, char *buf
,
6233 WS_READ_OPTION option
;
6237 if (!desc
) return E_INVALIDARG
;
6238 if (desc
->options
& ~(WS_FIELD_POINTER
|WS_FIELD_OPTIONAL
|WS_FIELD_NILLABLE
|WS_FIELD_NILLABLE_ITEM
))
6240 FIXME( "options %08x not supported\n", desc
->options
);
6243 if (!(option
= get_field_read_option( desc
->type
, desc
->options
))) return E_INVALIDARG
;
6245 if (option
== WS_READ_REQUIRED_VALUE
|| option
== WS_READ_NILLABLE_VALUE
)
6246 size
= get_type_size( desc
->type
, desc
->typeDescription
);
6248 size
= sizeof(void *);
6251 switch (desc
->mapping
)
6253 case WS_TYPE_ATTRIBUTE_FIELD_MAPPING
:
6254 FIXME( "WS_TYPE_ATTRIBUTE_FIELD_MAPPING not supported\n" );
6257 case WS_ATTRIBUTE_FIELD_MAPPING
:
6258 hr
= read_type( reader
, WS_ATTRIBUTE_TYPE_MAPPING
, desc
->type
, desc
->localName
, desc
->ns
,
6259 desc
->typeDescription
, option
, heap
, ptr
, size
);
6262 case WS_ELEMENT_FIELD_MAPPING
:
6263 hr
= read_type( reader
, WS_ELEMENT_TYPE_MAPPING
, desc
->type
, desc
->localName
, desc
->ns
,
6264 desc
->typeDescription
, option
, heap
, ptr
, size
);
6267 case WS_ELEMENT_CHOICE_FIELD_MAPPING
:
6268 if (desc
->type
!= WS_UNION_TYPE
|| !desc
->typeDescription
||
6269 (desc
->options
& (WS_FIELD_POINTER
|WS_FIELD_NILLABLE
))) return E_INVALIDARG
;
6270 hr
= read_type_union( reader
, desc
->typeDescription
, option
, heap
, ptr
, size
);
6273 case WS_REPEATING_ELEMENT_FIELD_MAPPING
:
6274 case WS_REPEATING_ELEMENT_CHOICE_FIELD_MAPPING
:
6277 hr
= read_type_array( reader
, desc
, heap
, (void **)ptr
, &count
);
6278 if (hr
== S_OK
) *(ULONG
*)(buf
+ desc
->countOffset
) = count
;
6281 case WS_TEXT_FIELD_MAPPING
:
6282 hr
= read_type_text( reader
, desc
, option
, heap
, ptr
, size
);
6286 FIXME( "unhandled field mapping %u\n", desc
->mapping
);
6290 if (hr
== WS_E_INVALID_FORMAT
)
6294 case WS_READ_REQUIRED_VALUE
:
6295 case WS_READ_REQUIRED_POINTER
:
6296 return WS_E_INVALID_FORMAT
;
6298 case WS_READ_NILLABLE_VALUE
:
6299 if (desc
->defaultValue
) memcpy( ptr
, desc
->defaultValue
->value
, desc
->defaultValue
->valueSize
);
6302 case WS_READ_OPTIONAL_POINTER
:
6303 case WS_READ_NILLABLE_POINTER
:
6304 *(void **)ptr
= NULL
;
6308 ERR( "unhandled option %u\n", option
);
6316 static HRESULT
read_type_struct( struct reader
*reader
, WS_TYPE_MAPPING mapping
, const WS_XML_STRING
*localname
,
6317 const WS_XML_STRING
*ns
, const WS_STRUCT_DESCRIPTION
*desc
, WS_READ_OPTION option
,
6318 WS_HEAP
*heap
, void *ret
, ULONG size
)
6324 if (!desc
) return E_INVALIDARG
;
6325 if (desc
->structOptions
& ~WS_STRUCT_IGNORE_TRAILING_ELEMENT_CONTENT
)
6327 FIXME( "struct options %08x not supported\n",
6328 desc
->structOptions
& ~WS_STRUCT_IGNORE_TRAILING_ELEMENT_CONTENT
);
6333 case WS_READ_REQUIRED_POINTER
:
6334 case WS_READ_OPTIONAL_POINTER
:
6335 case WS_READ_NILLABLE_POINTER
:
6336 if (size
!= sizeof(void *)) return E_INVALIDARG
;
6337 if (!(buf
= ws_alloc_zero( heap
, desc
->size
))) return WS_E_QUOTA_EXCEEDED
;
6340 case WS_READ_REQUIRED_VALUE
:
6341 case WS_READ_NILLABLE_VALUE
:
6342 if (size
!= desc
->size
) return E_INVALIDARG
;
6347 FIXME( "unhandled read option %u\n", option
);
6351 for (i
= 0; i
< desc
->fieldCount
; i
++)
6353 offset
= desc
->fields
[i
]->offset
;
6354 if ((hr
= read_type_field( reader
, desc
->fields
[i
], heap
, buf
, offset
)) != S_OK
) break;
6359 case WS_READ_REQUIRED_POINTER
:
6362 ws_free( heap
, buf
, desc
->size
);
6365 *(char **)ret
= buf
;
6368 case WS_READ_OPTIONAL_POINTER
:
6369 case WS_READ_NILLABLE_POINTER
:
6370 if (is_nil_value( buf
, desc
->size
))
6372 ws_free( heap
, buf
, desc
->size
);
6375 *(char **)ret
= buf
;
6378 case WS_READ_REQUIRED_VALUE
:
6379 case WS_READ_NILLABLE_VALUE
:
6380 if (hr
!= S_OK
) return hr
;
6384 ERR( "unhandled read option %u\n", option
);
6388 if (desc
->structOptions
& WS_STRUCT_IGNORE_TRAILING_ELEMENT_CONTENT
)
6390 struct node
*parent
= find_parent( reader
);
6391 parent
->flags
|= NODE_FLAG_IGNORE_TRAILING_ELEMENT_CONTENT
;
6396 static HRESULT
start_mapping( struct reader
*reader
, WS_TYPE_MAPPING mapping
, const WS_XML_STRING
*localname
,
6397 const WS_XML_STRING
*ns
)
6401 case WS_ELEMENT_TYPE_MAPPING
:
6402 case WS_ELEMENT_CONTENT_TYPE_MAPPING
:
6403 return read_type_next_element_node( reader
, localname
, ns
);
6405 case WS_ANY_ELEMENT_TYPE_MAPPING
:
6406 case WS_ATTRIBUTE_TYPE_MAPPING
:
6410 FIXME( "unhandled mapping %u\n", mapping
);
6415 static HRESULT
read_type_endelement_node( struct reader
*reader
)
6417 const struct node
*parent
= find_parent( reader
);
6422 if ((hr
= read_type_next_node( reader
)) != S_OK
) return hr
;
6423 if (node_type( reader
->current
) == WS_XML_NODE_TYPE_END_ELEMENT
&& reader
->current
->parent
== parent
)
6427 if (read_end_of_data( reader
) || !(parent
->flags
& NODE_FLAG_IGNORE_TRAILING_ELEMENT_CONTENT
)) break;
6430 return WS_E_INVALID_FORMAT
;
6433 static HRESULT
end_mapping( struct reader
*reader
, WS_TYPE_MAPPING mapping
)
6437 case WS_ELEMENT_TYPE_MAPPING
:
6438 return read_type_endelement_node( reader
);
6440 case WS_ELEMENT_CONTENT_TYPE_MAPPING
:
6441 return read_type_next_node( reader
);
6443 case WS_ATTRIBUTE_TYPE_MAPPING
:
6449 static HRESULT
is_nil_element( const WS_XML_ELEMENT_NODE
*elem
)
6451 static const WS_XML_STRING localname
= {3, (BYTE
*)"nil"};
6452 static const WS_XML_STRING ns
= {41, (BYTE
*)"http://www.w3.org/2001/XMLSchema-instance"};
6455 for (i
= 0; i
< elem
->attributeCount
; i
++)
6457 const WS_XML_UTF8_TEXT
*text
= (WS_XML_UTF8_TEXT
*)elem
->attributes
[i
]->value
;
6459 if (elem
->attributes
[i
]->isXmlNs
) continue;
6460 if (WsXmlStringEquals( elem
->attributes
[i
]->localName
, &localname
, NULL
) == S_OK
&&
6461 WsXmlStringEquals( elem
->attributes
[i
]->ns
, &ns
, NULL
) == S_OK
&&
6462 text
->value
.length
== 4 && !memcmp( text
->value
.bytes
, "true", 4 )) return TRUE
;
6467 static HRESULT
read_type( struct reader
*reader
, WS_TYPE_MAPPING mapping
, WS_TYPE type
,
6468 const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
, const void *desc
,
6469 WS_READ_OPTION option
, WS_HEAP
*heap
, void *value
, ULONG size
)
6473 if ((hr
= start_mapping( reader
, mapping
, localname
, ns
)) != S_OK
) return hr
;
6475 if (mapping
== WS_ELEMENT_TYPE_MAPPING
&& is_nil_element( &reader
->current
->hdr
))
6477 if (option
!= WS_READ_NILLABLE_POINTER
&& option
!= WS_READ_NILLABLE_VALUE
) return WS_E_INVALID_FORMAT
;
6478 return end_mapping( reader
, mapping
);
6484 if ((hr
= read_type_bool( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6489 if ((hr
= read_type_int8( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6494 if ((hr
= read_type_int16( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6499 if ((hr
= read_type_int32( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6504 if ((hr
= read_type_int64( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6509 if ((hr
= read_type_uint8( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6513 case WS_UINT16_TYPE
:
6514 if ((hr
= read_type_uint16( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6518 case WS_UINT32_TYPE
:
6519 if ((hr
= read_type_uint32( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6523 case WS_UINT64_TYPE
:
6524 if ((hr
= read_type_uint64( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6529 if ((hr
= read_type_float( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6533 case WS_DOUBLE_TYPE
:
6534 if ((hr
= read_type_double( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6538 case WS_DATETIME_TYPE
:
6539 if ((hr
= read_type_datetime( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6544 if ((hr
= read_type_guid( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6548 case WS_UNIQUE_ID_TYPE
:
6549 if ((hr
= read_type_unique_id( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6553 case WS_STRING_TYPE
:
6554 if ((hr
= read_type_string( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6559 if ((hr
= read_type_wsz( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6564 if ((hr
= read_type_bytes( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6568 case WS_XML_STRING_TYPE
:
6569 if ((hr
= read_type_xml_string( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6573 case WS_XML_QNAME_TYPE
:
6574 if ((hr
= read_type_qname( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6578 case WS_STRUCT_TYPE
:
6579 if ((hr
= read_type_struct( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6584 if ((hr
= read_type_enum( reader
, mapping
, localname
, ns
, desc
, option
, heap
, value
, size
)) != S_OK
)
6589 FIXME( "type %u not supported\n", type
);
6593 return end_mapping( reader
, mapping
);
6596 /**************************************************************************
6597 * WsReadType [webservices.@]
6599 HRESULT WINAPI
WsReadType( WS_XML_READER
*handle
, WS_TYPE_MAPPING mapping
, WS_TYPE type
,
6600 const void *desc
, WS_READ_OPTION option
, WS_HEAP
*heap
, void *value
,
6601 ULONG size
, WS_ERROR
*error
)
6603 struct reader
*reader
= (struct reader
*)handle
;
6606 TRACE( "%p %u %u %p %u %p %p %u %p\n", handle
, mapping
, type
, desc
, option
, heap
, value
,
6608 if (error
) FIXME( "ignoring error parameter\n" );
6610 if (!reader
|| !value
) return E_INVALIDARG
;
6612 EnterCriticalSection( &reader
->cs
);
6614 if (reader
->magic
!= READER_MAGIC
)
6616 LeaveCriticalSection( &reader
->cs
);
6617 return E_INVALIDARG
;
6620 if ((hr
= read_type( reader
, mapping
, type
, NULL
, NULL
, desc
, option
, heap
, value
, size
)) != S_OK
)
6622 LeaveCriticalSection( &reader
->cs
);
6628 case WS_ELEMENT_TYPE_MAPPING
:
6629 hr
= read_node( reader
);
6636 if (hr
== S_OK
&& !read_end_of_data( reader
)) hr
= WS_E_INVALID_FORMAT
;
6638 LeaveCriticalSection( &reader
->cs
);
6642 HRESULT
read_header( WS_XML_READER
*handle
, const WS_XML_STRING
*localname
, const WS_XML_STRING
*ns
,
6643 WS_TYPE type
, const void *desc
, WS_READ_OPTION option
, WS_HEAP
*heap
, void *value
,
6646 struct reader
*reader
= (struct reader
*)handle
;
6649 EnterCriticalSection( &reader
->cs
);
6651 if (reader
->magic
!= READER_MAGIC
)
6653 LeaveCriticalSection( &reader
->cs
);
6654 return E_INVALIDARG
;
6657 hr
= read_type( reader
, WS_ELEMENT_CONTENT_TYPE_MAPPING
, type
, localname
, ns
, desc
, option
, heap
,
6660 LeaveCriticalSection( &reader
->cs
);
6664 /**************************************************************************
6665 * WsReadElement [webservices.@]
6667 HRESULT WINAPI
WsReadElement( WS_XML_READER
*handle
, const WS_ELEMENT_DESCRIPTION
*desc
,
6668 WS_READ_OPTION option
, WS_HEAP
*heap
, void *value
, ULONG size
,
6671 struct reader
*reader
= (struct reader
*)handle
;
6674 TRACE( "%p %p %u %p %p %u %p\n", handle
, desc
, option
, heap
, value
, size
, error
);
6675 if (error
) FIXME( "ignoring error parameter\n" );
6677 if (!reader
|| !desc
|| !value
) return E_INVALIDARG
;
6679 EnterCriticalSection( &reader
->cs
);
6681 if (reader
->magic
!= READER_MAGIC
)
6683 LeaveCriticalSection( &reader
->cs
);
6684 return E_INVALIDARG
;
6687 hr
= read_type( reader
, WS_ELEMENT_TYPE_MAPPING
, desc
->type
, desc
->elementLocalName
,
6688 desc
->elementNs
, desc
->typeDescription
, option
, heap
, value
, size
);
6690 LeaveCriticalSection( &reader
->cs
);
6694 /**************************************************************************
6695 * WsReadValue [webservices.@]
6697 HRESULT WINAPI
WsReadValue( WS_XML_READER
*handle
, WS_VALUE_TYPE value_type
, void *value
, ULONG size
,
6700 struct reader
*reader
= (struct reader
*)handle
;
6701 WS_TYPE type
= map_value_type( value_type
);
6704 TRACE( "%p %u %p %u %p\n", handle
, type
, value
, size
, error
);
6705 if (error
) FIXME( "ignoring error parameter\n" );
6707 if (!reader
|| !value
|| type
== ~0u) return E_INVALIDARG
;
6709 EnterCriticalSection( &reader
->cs
);
6711 if (reader
->magic
!= READER_MAGIC
)
6713 LeaveCriticalSection( &reader
->cs
);
6714 return E_INVALIDARG
;
6717 hr
= read_type( reader
, WS_ELEMENT_TYPE_MAPPING
, type
, NULL
, NULL
, NULL
, WS_READ_REQUIRED_VALUE
,
6718 NULL
, value
, size
);
6720 LeaveCriticalSection( &reader
->cs
);
6724 /**************************************************************************
6725 * WsReadAttribute [webservices.@]
6727 HRESULT WINAPI
WsReadAttribute( WS_XML_READER
*handle
, const WS_ATTRIBUTE_DESCRIPTION
*desc
,
6728 WS_READ_OPTION option
, WS_HEAP
*heap
, void *value
, ULONG size
,
6731 struct reader
*reader
= (struct reader
*)handle
;
6734 TRACE( "%p %p %u %p %p %u %p\n", handle
, desc
, option
, heap
, value
, size
, error
);
6735 if (error
) FIXME( "ignoring error parameter\n" );
6737 if (!reader
|| !desc
|| !value
) return E_INVALIDARG
;
6739 EnterCriticalSection( &reader
->cs
);
6741 if (reader
->magic
!= READER_MAGIC
)
6743 LeaveCriticalSection( &reader
->cs
);
6744 return E_INVALIDARG
;
6747 if (!reader
->input_type
)
6749 LeaveCriticalSection( &reader
->cs
);
6750 return WS_E_INVALID_OPERATION
;
6753 hr
= read_type( reader
, WS_ATTRIBUTE_TYPE_MAPPING
, desc
->type
, desc
->attributeLocalName
,
6754 desc
->attributeNs
, desc
->typeDescription
, option
, heap
, value
, size
);
6756 LeaveCriticalSection( &reader
->cs
);
6760 static inline BOOL
is_utf8( const unsigned char *data
, ULONG size
, ULONG
*offset
)
6762 static const char bom
[] = {0xef,0xbb,0xbf};
6763 const unsigned char *p
= data
;
6765 return (size
>= sizeof(bom
) && !memcmp( p
, bom
, sizeof(bom
) ) && (*offset
= sizeof(bom
))) ||
6766 (size
> 2 && !(*offset
= 0));
6769 static inline BOOL
is_utf16le( const unsigned char *data
, ULONG size
, ULONG
*offset
)
6771 static const char bom
[] = {0xff,0xfe};
6772 const unsigned char *p
= data
;
6774 return (size
>= sizeof(bom
) && !memcmp( p
, bom
, sizeof(bom
) ) && (*offset
= sizeof(bom
))) ||
6775 (size
>= 4 && p
[0] == '<' && !p
[1] && !(*offset
= 0));
6778 static WS_CHARSET
detect_charset( const unsigned char *data
, ULONG size
, ULONG
*offset
)
6782 /* FIXME: parse xml declaration */
6784 if (is_utf16le( data
, size
, offset
)) ret
= WS_CHARSET_UTF16LE
;
6785 else if (is_utf8( data
, size
, offset
)) ret
= WS_CHARSET_UTF8
;
6788 FIXME( "charset not recognized\n" );
6792 TRACE( "detected charset %u\n", ret
);
6796 static void set_input_buffer( struct reader
*reader
, struct xmlbuf
*buf
, const unsigned char *data
, ULONG size
)
6798 reader
->input_type
= WS_XML_READER_INPUT_TYPE_BUFFER
;
6799 reader
->input_buf
= buf
;
6800 reader
->input_data
= data
;
6801 reader
->input_size
= size
;
6803 reader
->read_size
= reader
->input_size
;
6804 reader
->read_pos
= 0;
6805 reader
->read_bufptr
= reader
->input_data
;
6807 reader
->text_conv_offset
= 0;
6810 /**************************************************************************
6811 * WsSetInput [webservices.@]
6813 HRESULT WINAPI
WsSetInput( WS_XML_READER
*handle
, const WS_XML_READER_ENCODING
*encoding
,
6814 const WS_XML_READER_INPUT
*input
, const WS_XML_READER_PROPERTY
*properties
,
6815 ULONG count
, WS_ERROR
*error
)
6817 struct reader
*reader
= (struct reader
*)handle
;
6819 ULONG i
, offset
= 0;
6822 TRACE( "%p %p %p %p %u %p\n", handle
, encoding
, input
, properties
, count
, error
);
6823 if (error
) FIXME( "ignoring error parameter\n" );
6825 if (!reader
) return E_INVALIDARG
;
6827 EnterCriticalSection( &reader
->cs
);
6829 if (reader
->magic
!= READER_MAGIC
)
6831 LeaveCriticalSection( &reader
->cs
);
6832 return E_INVALIDARG
;
6835 for (i
= 0; i
< count
; i
++)
6837 hr
= prop_set( reader
->prop
, reader
->prop_count
, properties
[i
].id
, properties
[i
].value
,
6838 properties
[i
].valueSize
);
6839 if (hr
!= S_OK
) goto done
;
6842 if ((hr
= init_reader( reader
)) != S_OK
) goto done
;
6844 switch (encoding
->encodingType
)
6846 case WS_XML_READER_ENCODING_TYPE_TEXT
:
6848 WS_XML_READER_TEXT_ENCODING
*text
= (WS_XML_READER_TEXT_ENCODING
*)encoding
;
6849 WS_XML_READER_BUFFER_INPUT
*buf
= (WS_XML_READER_BUFFER_INPUT
*)input
;
6851 if (input
->inputType
!= WS_XML_READER_INPUT_TYPE_BUFFER
)
6853 FIXME( "charset detection on input type %u not supported\n", input
->inputType
);
6858 if (text
->charSet
!= WS_CHARSET_AUTO
) reader
->input_charset
= text
->charSet
;
6859 else reader
->input_charset
= detect_charset( buf
->encodedData
, buf
->encodedDataSize
, &offset
);
6861 reader
->input_enc
= WS_XML_READER_ENCODING_TYPE_TEXT
;
6864 case WS_XML_READER_ENCODING_TYPE_BINARY
:
6866 WS_XML_READER_BINARY_ENCODING
*bin
= (WS_XML_READER_BINARY_ENCODING
*)encoding
;
6867 reader
->input_enc
= WS_XML_READER_ENCODING_TYPE_BINARY
;
6868 reader
->input_charset
= 0;
6869 reader
->dict_static
= bin
->staticDictionary
? bin
->staticDictionary
: &dict_builtin_static
.dict
;
6870 reader
->dict
= bin
->dynamicDictionary
? bin
->dynamicDictionary
: &dict_builtin
.dict
;
6874 FIXME( "encoding type %u not supported\n", encoding
->encodingType
);
6879 switch (input
->inputType
)
6881 case WS_XML_READER_INPUT_TYPE_BUFFER
:
6883 WS_XML_READER_BUFFER_INPUT
*buf
= (WS_XML_READER_BUFFER_INPUT
*)input
;
6884 set_input_buffer( reader
, NULL
, (const unsigned char *)buf
->encodedData
+ offset
,
6885 buf
->encodedDataSize
- offset
);
6889 FIXME( "input type %u not supported\n", input
->inputType
);
6894 if (!(node
= alloc_node( WS_XML_NODE_TYPE_BOF
))) hr
= E_OUTOFMEMORY
;
6895 else read_insert_bof( reader
, node
);
6898 LeaveCriticalSection( &reader
->cs
);
6902 /**************************************************************************
6903 * WsSetInputToBuffer [webservices.@]
6905 HRESULT WINAPI
WsSetInputToBuffer( WS_XML_READER
*handle
, WS_XML_BUFFER
*buffer
,
6906 const WS_XML_READER_PROPERTY
*properties
, ULONG count
,
6909 struct reader
*reader
= (struct reader
*)handle
;
6910 struct xmlbuf
*xmlbuf
= (struct xmlbuf
*)buffer
;
6915 TRACE( "%p %p %p %u %p\n", handle
, buffer
, properties
, count
, error
);
6916 if (error
) FIXME( "ignoring error parameter\n" );
6918 if (!reader
|| !xmlbuf
) return E_INVALIDARG
;
6920 EnterCriticalSection( &reader
->cs
);
6922 if (reader
->magic
!= READER_MAGIC
)
6924 LeaveCriticalSection( &reader
->cs
);
6925 return E_INVALIDARG
;
6928 for (i
= 0; i
< count
; i
++)
6930 hr
= prop_set( reader
->prop
, reader
->prop_count
, properties
[i
].id
, properties
[i
].value
,
6931 properties
[i
].valueSize
);
6932 if (hr
!= S_OK
) goto done
;
6935 if ((hr
= init_reader( reader
)) != S_OK
) goto done
;
6937 reader
->input_enc
= xmlbuf
->encoding
;
6938 reader
->input_charset
= xmlbuf
->charset
;
6939 reader
->dict_static
= xmlbuf
->dict_static
;
6940 reader
->dict
= xmlbuf
->dict
;
6941 set_input_buffer( reader
, xmlbuf
, xmlbuf
->bytes
.bytes
, xmlbuf
->bytes
.length
);
6943 if (!(node
= alloc_node( WS_XML_NODE_TYPE_BOF
))) hr
= E_OUTOFMEMORY
;
6944 else read_insert_bof( reader
, node
);
6947 LeaveCriticalSection( &reader
->cs
);
6951 /**************************************************************************
6952 * WsGetReaderPosition [webservices.@]
6954 HRESULT WINAPI
WsGetReaderPosition( WS_XML_READER
*handle
, WS_XML_NODE_POSITION
*pos
, WS_ERROR
*error
)
6956 struct reader
*reader
= (struct reader
*)handle
;
6958 TRACE( "%p %p %p\n", handle
, pos
, error
);
6959 if (error
) FIXME( "ignoring error parameter\n" );
6961 if (!reader
|| !pos
) return E_INVALIDARG
;
6963 EnterCriticalSection( &reader
->cs
);
6965 if (reader
->magic
!= READER_MAGIC
)
6967 LeaveCriticalSection( &reader
->cs
);
6968 return E_INVALIDARG
;
6971 if (!reader
->input_buf
)
6973 LeaveCriticalSection( &reader
->cs
);
6974 return WS_E_INVALID_OPERATION
;
6977 pos
->buffer
= (WS_XML_BUFFER
*)reader
->input_buf
;
6978 pos
->node
= reader
->current
;
6980 LeaveCriticalSection( &reader
->cs
);
6984 /**************************************************************************
6985 * WsSetReaderPosition [webservices.@]
6987 HRESULT WINAPI
WsSetReaderPosition( WS_XML_READER
*handle
, const WS_XML_NODE_POSITION
*pos
, WS_ERROR
*error
)
6989 struct reader
*reader
= (struct reader
*)handle
;
6991 TRACE( "%p %p %p\n", handle
, pos
, error
);
6992 if (error
) FIXME( "ignoring error parameter\n" );
6994 if (!reader
|| !pos
) return E_INVALIDARG
;
6996 EnterCriticalSection( &reader
->cs
);
6998 if (reader
->magic
!= READER_MAGIC
|| (struct xmlbuf
*)pos
->buffer
!= reader
->input_buf
)
7000 LeaveCriticalSection( &reader
->cs
);
7001 return E_INVALIDARG
;
7004 if (!reader
->input_buf
)
7006 LeaveCriticalSection( &reader
->cs
);
7007 return WS_E_INVALID_OPERATION
;
7010 reader
->current
= pos
->node
;
7012 LeaveCriticalSection( &reader
->cs
);
7016 static HRESULT
utf8_to_base64( const WS_XML_UTF8_TEXT
*utf8
, WS_XML_BASE64_TEXT
*base64
)
7018 if (utf8
->value
.length
% 4) return WS_E_INVALID_FORMAT
;
7019 if (!(base64
->bytes
= heap_alloc( utf8
->value
.length
* 3 / 4 ))) return E_OUTOFMEMORY
;
7020 base64
->length
= decode_base64( utf8
->value
.bytes
, utf8
->value
.length
, base64
->bytes
);
7024 /**************************************************************************
7025 * WsReadBytes [webservices.@]
7027 HRESULT WINAPI
WsReadBytes( WS_XML_READER
*handle
, void *bytes
, ULONG max_count
, ULONG
*count
, WS_ERROR
*error
)
7029 struct reader
*reader
= (struct reader
*)handle
;
7032 TRACE( "%p %p %u %p %p\n", handle
, bytes
, max_count
, count
, error
);
7033 if (error
) FIXME( "ignoring error parameter\n" );
7035 if (!reader
) return E_INVALIDARG
;
7037 EnterCriticalSection( &reader
->cs
);
7039 if (reader
->magic
!= READER_MAGIC
)
7041 LeaveCriticalSection( &reader
->cs
);
7042 return E_INVALIDARG
;
7045 if (!reader
->input_type
)
7047 LeaveCriticalSection( &reader
->cs
);
7048 return WS_E_INVALID_OPERATION
;
7053 LeaveCriticalSection( &reader
->cs
);
7054 return E_INVALIDARG
;
7058 if (node_type( reader
->current
) == WS_XML_NODE_TYPE_TEXT
&& bytes
)
7060 const WS_XML_TEXT_NODE
*text
= (const WS_XML_TEXT_NODE
*)reader
->current
;
7061 WS_XML_BASE64_TEXT base64
;
7063 if ((hr
= utf8_to_base64( (const WS_XML_UTF8_TEXT
*)text
->text
, &base64
)) != S_OK
)
7065 LeaveCriticalSection( &reader
->cs
);
7068 if (reader
->text_conv_offset
== base64
.length
)
7070 heap_free( base64
.bytes
);
7071 hr
= read_node( reader
);
7072 LeaveCriticalSection( &reader
->cs
);
7075 *count
= min( base64
.length
- reader
->text_conv_offset
, max_count
);
7076 memcpy( bytes
, base64
.bytes
+ reader
->text_conv_offset
, *count
);
7077 reader
->text_conv_offset
+= *count
;
7078 heap_free( base64
.bytes
);
7081 LeaveCriticalSection( &reader
->cs
);
7085 static HRESULT
utf8_to_utf16( const WS_XML_UTF8_TEXT
*utf8
, WS_XML_UTF16_TEXT
*utf16
)
7087 int len
= MultiByteToWideChar( CP_UTF8
, 0, (char *)utf8
->value
.bytes
, utf8
->value
.length
, NULL
, 0 );
7088 if (!(utf16
->bytes
= heap_alloc( len
* sizeof(WCHAR
) ))) return E_OUTOFMEMORY
;
7089 MultiByteToWideChar( CP_UTF8
, 0, (char *)utf8
->value
.bytes
, utf8
->value
.length
, (WCHAR
*)utf16
->bytes
, len
);
7090 utf16
->byteCount
= len
* sizeof(WCHAR
);
7094 /**************************************************************************
7095 * WsReadChars [webservices.@]
7097 HRESULT WINAPI
WsReadChars( WS_XML_READER
*handle
, WCHAR
*chars
, ULONG max_count
, ULONG
*count
, WS_ERROR
*error
)
7099 struct reader
*reader
= (struct reader
*)handle
;
7101 TRACE( "%p %p %u %p %p\n", handle
, chars
, max_count
, count
, error
);
7102 if (error
) FIXME( "ignoring error parameter\n" );
7104 if (!reader
) return E_INVALIDARG
;
7106 EnterCriticalSection( &reader
->cs
);
7108 if (reader
->magic
!= READER_MAGIC
)
7110 LeaveCriticalSection( &reader
->cs
);
7111 return E_INVALIDARG
;
7114 if (!reader
->input_type
)
7116 LeaveCriticalSection( &reader
->cs
);
7117 return WS_E_INVALID_OPERATION
;
7122 LeaveCriticalSection( &reader
->cs
);
7123 return E_INVALIDARG
;
7127 if (node_type( reader
->current
) == WS_XML_NODE_TYPE_TEXT
&& chars
)
7129 const WS_XML_TEXT_NODE
*text
= (const WS_XML_TEXT_NODE
*)reader
->current
;
7130 WS_XML_UTF16_TEXT utf16
;
7133 if ((hr
= utf8_to_utf16( (const WS_XML_UTF8_TEXT
*)text
->text
, &utf16
)) != S_OK
)
7135 LeaveCriticalSection( &reader
->cs
);
7138 if (reader
->text_conv_offset
== utf16
.byteCount
/ sizeof(WCHAR
))
7140 heap_free( utf16
.bytes
);
7141 hr
= read_node( reader
);
7142 LeaveCriticalSection( &reader
->cs
);
7145 *count
= min( utf16
.byteCount
/ sizeof(WCHAR
) - reader
->text_conv_offset
, max_count
);
7146 memcpy( chars
, utf16
.bytes
+ reader
->text_conv_offset
* sizeof(WCHAR
), *count
* sizeof(WCHAR
) );
7147 reader
->text_conv_offset
+= *count
;
7148 heap_free( utf16
.bytes
);
7151 LeaveCriticalSection( &reader
->cs
);
7155 /**************************************************************************
7156 * WsReadCharsUtf8 [webservices.@]
7158 HRESULT WINAPI
WsReadCharsUtf8( WS_XML_READER
*handle
, BYTE
*bytes
, ULONG max_count
, ULONG
*count
, WS_ERROR
*error
)
7160 struct reader
*reader
= (struct reader
*)handle
;
7163 TRACE( "%p %p %u %p %p\n", handle
, bytes
, max_count
, count
, error
);
7164 if (error
) FIXME( "ignoring error parameter\n" );
7166 if (!reader
) return E_INVALIDARG
;
7168 EnterCriticalSection( &reader
->cs
);
7170 if (reader
->magic
!= READER_MAGIC
)
7172 LeaveCriticalSection( &reader
->cs
);
7173 return E_INVALIDARG
;
7176 if (!reader
->input_type
)
7178 LeaveCriticalSection( &reader
->cs
);
7179 return WS_E_INVALID_OPERATION
;
7184 LeaveCriticalSection( &reader
->cs
);
7185 return E_INVALIDARG
;
7189 if (node_type( reader
->current
) == WS_XML_NODE_TYPE_TEXT
&& bytes
)
7191 const WS_XML_TEXT_NODE
*text
= (const WS_XML_TEXT_NODE
*)reader
->current
;
7192 const WS_XML_UTF8_TEXT
*utf8
= (const WS_XML_UTF8_TEXT
*)text
->text
;
7194 if (reader
->text_conv_offset
== utf8
->value
.length
)
7196 hr
= read_node( reader
);
7197 LeaveCriticalSection( &reader
->cs
);
7200 *count
= min( utf8
->value
.length
- reader
->text_conv_offset
, max_count
);
7201 memcpy( bytes
, utf8
->value
.bytes
+ reader
->text_conv_offset
, *count
);
7202 reader
->text_conv_offset
+= *count
;
7205 LeaveCriticalSection( &reader
->cs
);
7209 static HRESULT
move_to_element( struct reader
*reader
)
7212 if (node_type( reader
->current
) == WS_XML_NODE_TYPE_BOF
&&
7213 (hr
= read_move_to( reader
, WS_MOVE_TO_CHILD_NODE
, NULL
)) != S_OK
) return hr
;
7214 if (node_type( reader
->current
) != WS_XML_NODE_TYPE_ELEMENT
) return E_FAIL
;
7218 static HRESULT
copy_tree( struct reader
*reader
, WS_XML_WRITER
*writer
)
7220 const struct node
*node
, *parent
;
7224 if ((hr
= move_to_element( reader
)) != S_OK
) return hr
;
7225 parent
= reader
->current
;
7228 node
= reader
->current
;
7229 if ((hr
= WsWriteNode( writer
, (const WS_XML_NODE
*)node
, NULL
)) != S_OK
) break;
7230 if (node_type( node
) == WS_XML_NODE_TYPE_END_ELEMENT
&& node
->parent
== parent
) done
= TRUE
;
7231 if ((hr
= read_next_node( reader
)) != S_OK
|| done
) break;
7236 /**************************************************************************
7237 * WsReadXmlBuffer [webservices.@]
7239 HRESULT WINAPI
WsReadXmlBuffer( WS_XML_READER
*handle
, WS_HEAP
*heap
, WS_XML_BUFFER
**ret
, WS_ERROR
*error
)
7241 struct reader
*reader
= (struct reader
*)handle
;
7242 WS_XML_WRITER
*writer
= NULL
;
7243 WS_XML_BUFFER
*buffer
;
7246 TRACE( "%p %p %p %p\n", handle
, heap
, ret
, error
);
7247 if (error
) FIXME( "ignoring error parameter\n" );
7249 if (!reader
|| !heap
) return E_INVALIDARG
;
7250 if (!ret
) return E_FAIL
;
7252 EnterCriticalSection( &reader
->cs
);
7254 if (reader
->magic
!= READER_MAGIC
)
7256 LeaveCriticalSection( &reader
->cs
);
7257 return E_INVALIDARG
;
7260 if (!reader
->input_type
)
7262 LeaveCriticalSection( &reader
->cs
);
7263 return WS_E_INVALID_OPERATION
;
7266 if ((hr
= WsCreateWriter( NULL
, 0, &writer
, NULL
)) != S_OK
) goto done
;
7267 if ((hr
= WsCreateXmlBuffer( heap
, NULL
, 0, &buffer
, NULL
)) != S_OK
) goto done
;
7268 if ((hr
= WsSetOutputToBuffer( writer
, buffer
, NULL
, 0, NULL
)) != S_OK
) goto done
;
7269 if ((hr
= copy_tree( reader
, writer
)) == S_OK
) *ret
= buffer
;
7272 if (hr
!= S_OK
) free_xmlbuf( (struct xmlbuf
*)buffer
);
7273 WsFreeWriter( writer
);
7274 LeaveCriticalSection( &reader
->cs
);
7278 HRESULT
create_header_buffer( WS_XML_READER
*handle
, WS_HEAP
*heap
, WS_XML_BUFFER
**ret
)
7280 struct reader
*reader
= (struct reader
*)handle
;
7281 HRESULT hr
= WS_E_QUOTA_EXCEEDED
;
7282 struct xmlbuf
*xmlbuf
;
7284 EnterCriticalSection( &reader
->cs
);
7286 if (reader
->magic
!= READER_MAGIC
)
7288 LeaveCriticalSection( &reader
->cs
);
7289 return E_INVALIDARG
;
7292 if ((xmlbuf
= alloc_xmlbuf( heap
, reader
->read_pos
, reader
->input_enc
, reader
->input_charset
,
7293 reader
->dict_static
, reader
->dict
)))
7295 memcpy( xmlbuf
->bytes
.bytes
, reader
->read_bufptr
, reader
->read_pos
);
7296 xmlbuf
->bytes
.length
= reader
->read_pos
;
7297 *ret
= (WS_XML_BUFFER
*)xmlbuf
;
7301 LeaveCriticalSection( &reader
->cs
);
7305 HRESULT
get_param_desc( const WS_STRUCT_DESCRIPTION
*desc
, USHORT index
, const WS_FIELD_DESCRIPTION
**ret
)
7307 if (index
>= desc
->fieldCount
) return E_INVALIDARG
;
7308 *ret
= desc
->fields
[index
];
7312 static ULONG
get_field_size( const WS_FIELD_DESCRIPTION
*desc
)
7314 if (desc
->options
& WS_FIELD_POINTER
) return sizeof(void *);
7315 return get_type_size( desc
->type
, desc
->typeDescription
);
7318 static HRESULT
read_param( struct reader
*reader
, const WS_FIELD_DESCRIPTION
*desc
, WS_HEAP
*heap
, void *ret
)
7320 if (!ret
&& !(ret
= ws_alloc_zero( heap
, get_field_size(desc
) ))) return WS_E_QUOTA_EXCEEDED
;
7321 return read_type_field( reader
, desc
, heap
, ret
, 0 );
7324 static HRESULT
read_param_array( struct reader
*reader
, const WS_FIELD_DESCRIPTION
*desc
, WS_HEAP
*heap
,
7325 void **ret
, ULONG
*count
)
7327 if (!ret
&& !(ret
= ws_alloc_zero( heap
, sizeof(void **) ))) return WS_E_QUOTA_EXCEEDED
;
7328 return read_type_array( reader
, desc
, heap
, ret
, count
);
7331 static void set_array_len( const WS_PARAMETER_DESCRIPTION
*params
, ULONG count
, ULONG index
, ULONG len
,
7335 for (i
= 0; i
< count
; i
++)
7337 if (params
[i
].outputMessageIndex
!= index
|| params
[i
].parameterType
!= WS_PARAMETER_TYPE_ARRAY_COUNT
)
7339 if ((ptr
= *(ULONG
**)args
[i
])) *ptr
= len
;
7344 HRESULT
read_output_params( WS_XML_READER
*handle
, WS_HEAP
*heap
, const WS_ELEMENT_DESCRIPTION
*desc
,
7345 const WS_PARAMETER_DESCRIPTION
*params
, ULONG count
, const void **args
)
7347 struct reader
*reader
= (struct reader
*)handle
;
7348 const WS_STRUCT_DESCRIPTION
*desc_struct
;
7349 const WS_FIELD_DESCRIPTION
*desc_field
;
7353 if (desc
->type
!= WS_STRUCT_TYPE
|| !(desc_struct
= desc
->typeDescription
)) return E_INVALIDARG
;
7355 EnterCriticalSection( &reader
->cs
);
7357 if (reader
->magic
!= READER_MAGIC
)
7359 LeaveCriticalSection( &reader
->cs
);
7360 return E_INVALIDARG
;
7363 if ((hr
= start_mapping( reader
, WS_ELEMENT_TYPE_MAPPING
, desc
->elementLocalName
, desc
->elementNs
)) != S_OK
)
7366 for (i
= 0; i
< count
; i
++)
7368 if (params
[i
].outputMessageIndex
== INVALID_PARAMETER_INDEX
) continue;
7369 if (params
[i
].parameterType
== WS_PARAMETER_TYPE_MESSAGES
)
7371 FIXME( "messages type not supported\n" );
7375 if ((hr
= get_param_desc( desc_struct
, params
[i
].outputMessageIndex
, &desc_field
)) != S_OK
) goto done
;
7376 if (params
[i
].parameterType
== WS_PARAMETER_TYPE_NORMAL
)
7378 void *ptr
= *(void **)args
[i
];
7379 if ((hr
= read_param( reader
, desc_field
, heap
, ptr
)) != S_OK
) goto done
;
7381 else if (params
[i
].parameterType
== WS_PARAMETER_TYPE_ARRAY
)
7383 void **ptr
= *(void ***)args
[i
];
7384 if ((hr
= read_param_array( reader
, desc_field
, heap
, ptr
, &len
)) != S_OK
) goto done
;
7385 set_array_len( params
, count
, params
[i
].outputMessageIndex
, len
, args
);
7389 if (desc_struct
->structOptions
& WS_STRUCT_IGNORE_TRAILING_ELEMENT_CONTENT
)
7391 struct node
*parent
= find_parent( reader
);
7392 parent
->flags
|= NODE_FLAG_IGNORE_TRAILING_ELEMENT_CONTENT
;
7395 hr
= end_mapping( reader
, WS_ELEMENT_TYPE_MAPPING
);
7398 LeaveCriticalSection( &reader
->cs
);