ua_types.h 27 KB

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  1. /*
  2. * Copyright (C) 2013-2015 the contributors as stated in the AUTHORS file
  3. *
  4. * This file is part of open62541. open62541 is free software: you can
  5. * redistribute it and/or modify it under the terms of the GNU Lesser General
  6. * Public License, version 3 (as published by the Free Software Foundation) with
  7. * a static linking exception as stated in the LICENSE file provided with
  8. * open62541.
  9. *
  10. * open62541 is distributed in the hope that it will be useful, but WITHOUT ANY
  11. * WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
  12. * A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
  13. * details.
  14. */
  15. #ifndef UA_TYPES_H_
  16. #define UA_TYPES_H_
  17. #ifdef __cplusplus
  18. extern "C" {
  19. #endif
  20. #include <inttypes.h>
  21. #include <stdbool.h>
  22. #include "ua_config.h"
  23. #include "ua_constants.h"
  24. /**
  25. * Data Types
  26. * ==========
  27. *
  28. * In open62541, all data types share the same basic API for creation, copying
  29. * and deletion. The header ua_types.h defines the builtin types. In addition,
  30. * we auto-generate ua_types_generated.h with additional types as well as the
  31. * following function definitions for all (builtin and generated) data types
  32. * ``T``.
  33. *
  34. * ``void T_init(T *ptr)``
  35. * Initialize the data type. This is synonymous with zeroing out the memory,
  36. * i.e. ``memset(dataptr, 0, sizeof(T))``.
  37. * ``T* T_new()``
  38. * Allocate and return the memory for the data type. The memory is already initialized.
  39. * ``UA_StatusCode T_copy(const T *src, T *dst)``
  40. * Copy the content of the data type. Returns ``UA_STATUSCODE_GOOD`` or
  41. * ``UA_STATUSCODE_BADOUTOFMEMORY``.
  42. * ``void T_deleteMembers(T *ptr)``
  43. * Delete the dynamically allocated content of the data type, but not the data type itself.
  44. * ``void T_delete(T *ptr)``
  45. * Delete the content of the data type and the memory for the data type itself.
  46. *
  47. * OPC UA defines 25 builtin data types. All other data types are combinations
  48. * of the 25 builtin data types. */
  49. #define UA_BUILTIN_TYPES_COUNT 25U
  50. /**
  51. * Builtin Types Part 1
  52. * --------------------
  53. *
  54. * Boolean
  55. * ^^^^^^^
  56. * A two-state logical value (true or false). */
  57. typedef bool UA_Boolean;
  58. #define UA_TRUE true
  59. #define UA_FALSE false
  60. /**
  61. * SByte
  62. * ^^^^^
  63. * An integer value between -128 and 127. */
  64. typedef int8_t UA_SByte;
  65. #define UA_SBYTE_MAX 127
  66. #define UA_SBYTE_MIN (-128)
  67. /**
  68. * Byte
  69. * ^^^^
  70. * An integer value between 0 and 256. */
  71. typedef uint8_t UA_Byte;
  72. #define UA_BYTE_MAX 256
  73. #define UA_BYTE_MIN 0
  74. /**
  75. * Int16
  76. * ^^^^^
  77. * An integer value between -32 768 and 32 767. */
  78. typedef int16_t UA_Int16;
  79. #define UA_INT16_MAX 32767
  80. #define UA_INT16_MIN (-32768)
  81. /**
  82. * UInt16
  83. * ^^^^^^
  84. * An integer value between 0 and 65 535. */
  85. typedef uint16_t UA_UInt16;
  86. #define UA_UINT16_MAX 65535
  87. #define UA_UINT16_MIN 0
  88. /**
  89. * Int32
  90. * ^^^^^
  91. * An integer value between -2 147 483 648 and 2 147 483 647. */
  92. typedef int32_t UA_Int32;
  93. #define UA_INT32_MAX 2147483647
  94. #define UA_INT32_MIN (-2147483648)
  95. /**
  96. * UInt32
  97. * ^^^^^^
  98. * An integer value between 0 and 4 294 967 295. */
  99. typedef uint32_t UA_UInt32;
  100. #define UA_UINT32_MAX 4294967295
  101. #define UA_UINT32_MIN 0
  102. /**
  103. * Int64
  104. * ^^^^^
  105. * An integer value between -10 223 372 036 854 775 808 and 9 223 372 036 854 775 807. */
  106. typedef int64_t UA_Int64;
  107. #define UA_INT64_MAX (int64_t)9223372036854775807
  108. #define UA_INT64_MIN ((int64_t)-9223372036854775808)
  109. /**
  110. * UInt64
  111. * ^^^^^^
  112. * An integer value between 0 and 18 446 744 073 709 551 615. */
  113. typedef uint64_t UA_UInt64;
  114. #define UA_UINT64_MAX (int64_t)18446744073709551615
  115. #define UA_UINT64_MIN (int64_t)0
  116. /**
  117. * Float
  118. * ^^^^^
  119. * An IEEE single precision (32 bit) floating point value. */
  120. typedef float UA_Float;
  121. /**
  122. * Double
  123. * ^^^^^^
  124. * An IEEE double precision (64 bit) floating point value. */
  125. typedef double UA_Double;
  126. /**
  127. * .. _statuscode:
  128. *
  129. * StatusCode
  130. * ^^^^^^^^^^
  131. * A numeric identifier for a error or condition that is associated with a value or an
  132. * operation. See the section :ref:`statuscodes` for the meaning of a specific code. */
  133. typedef uint32_t UA_StatusCode;
  134. /**
  135. * Array handling
  136. * --------------
  137. * In OPC UA, arrays can have a length of zero or more with the usual meaning.
  138. * In addition, arrays can be undefined. Then, they don't even have a length. In
  139. * the binary encoding, this is indicated by an array of length -1.
  140. *
  141. * In open62541 however, we use ``size_t`` for array lengths. An undefined array
  142. * has length 0 and the data pointer is NULL. An array of length 0 also has
  143. * length 0 but points to a sentinel memory address. */
  144. #define UA_EMPTY_ARRAY_SENTINEL ((void*)0x01)
  145. /** Forward Declaration of UA_DataType. See Section `Generic Type Handling`_
  146. for details. */
  147. struct UA_DataType;
  148. typedef struct UA_DataType UA_DataType;
  149. /** The following functions are used for handling arrays of any data type. */
  150. /* Allocates and initializes an array of variables of a specific type
  151. *
  152. * @param size The requested array length
  153. * @param type The datatype description
  154. * @return Returns the memory location of the variable or (void*)0 if no memory
  155. could be allocated */
  156. void UA_EXPORT * UA_Array_new(size_t size, const UA_DataType *type) UA_FUNC_ATTR_MALLOC;
  157. /* Allocates and copies an array
  158. *
  159. * @param src The memory location of the source array
  160. * @param size The size of the array
  161. * @param dst The location of the pointer to the new array
  162. * @param type The datatype of the array members
  163. * @return Returns UA_STATUSCODE_GOOD or UA_STATUSCODE_BADOUTOFMEMORY */
  164. UA_StatusCode UA_EXPORT UA_Array_copy(const void *src, size_t size, void **dst, const UA_DataType *type) UA_FUNC_ATTR_WARN_UNUSED_RESULT;
  165. /* Deletes an array.
  166. *
  167. * @param p The memory location of the array
  168. * @param size The size of the array
  169. * @param type The datatype of the array members */
  170. void UA_EXPORT UA_Array_delete(void *p, size_t size, const UA_DataType *type);
  171. /**
  172. * Builtin Types, Part 2
  173. * ---------------------
  174. *
  175. * String
  176. * ^^^^^^
  177. * A sequence of Unicode characters. Strings are just an array of UA_Byte. */
  178. typedef struct {
  179. size_t length; /* The length of the string */
  180. UA_Byte *data; /* The content (not null-terminated) */
  181. } UA_String;
  182. /* Copies the content on the heap. Returns a null-string when alloc fails */
  183. UA_String UA_EXPORT UA_String_fromChars(char const src[]) UA_FUNC_ATTR_WARN_UNUSED_RESULT;
  184. UA_Boolean UA_EXPORT UA_String_equal(const UA_String *s1, const UA_String *s2);
  185. UA_EXPORT extern const UA_String UA_STRING_NULL;
  186. /**
  187. * ``UA_STRING`` returns a string pointing to the preallocated char-array.
  188. * ``UA_STRING_ALLOC`` is shorthand for ``UA_String_fromChars`` and makes a copy
  189. * of the char-array. */
  190. static UA_INLINE UA_String
  191. UA_STRING(char *chars) {
  192. UA_String str; str.length = strlen(chars);
  193. str.data = (UA_Byte*)chars; return str;
  194. }
  195. #define UA_STRING_ALLOC(CHARS) UA_String_fromChars(CHARS)
  196. /**
  197. * DateTime
  198. * ^^^^^^^^
  199. * An instance in time. A DateTime value is encoded as a 64-bit signed integer
  200. * which represents the number of 100 nanosecond intervals since January 1, 1601
  201. * (UTC). */
  202. typedef int64_t UA_DateTime;
  203. /* Multiply to convert units for time difference computations */
  204. #define UA_USEC_TO_DATETIME 10LL
  205. #define UA_MSEC_TO_DATETIME (UA_USEC_TO_DATETIME * 1000LL)
  206. #define UA_SEC_TO_DATETIME (UA_MSEC_TO_DATETIME * 1000LL)
  207. /* Datetime of 1 Jan 1970 00:00 UTC */
  208. #define UA_DATETIME_UNIX_EPOCH (11644473600LL * UA_SEC_TO_DATETIME)
  209. /* The current time */
  210. UA_DateTime UA_EXPORT UA_DateTime_now(void);
  211. /* CPU clock invariant to system time changes. Use only for time diffs, not current time */
  212. UA_DateTime UA_EXPORT UA_DateTime_nowMonotonic(void);
  213. typedef struct UA_DateTimeStruct {
  214. UA_UInt16 nanoSec;
  215. UA_UInt16 microSec;
  216. UA_UInt16 milliSec;
  217. UA_UInt16 sec;
  218. UA_UInt16 min;
  219. UA_UInt16 hour;
  220. UA_UInt16 day;
  221. UA_UInt16 month;
  222. UA_UInt16 year;
  223. } UA_DateTimeStruct;
  224. UA_DateTimeStruct UA_EXPORT UA_DateTime_toStruct(UA_DateTime t);
  225. UA_String UA_EXPORT UA_DateTime_toString(UA_DateTime t);
  226. /**
  227. * Guid
  228. * ^^^^
  229. * A 16 byte value that can be used as a globally unique identifier. */
  230. typedef struct {
  231. UA_UInt32 data1;
  232. UA_UInt16 data2;
  233. UA_UInt16 data3;
  234. UA_Byte data4[8];
  235. } UA_Guid;
  236. UA_Boolean UA_EXPORT UA_Guid_equal(const UA_Guid *g1, const UA_Guid *g2);
  237. /**
  238. * ByteString
  239. * ^^^^^^^^^^
  240. * A sequence of octets. */
  241. typedef UA_String UA_ByteString;
  242. static UA_INLINE UA_Boolean
  243. UA_ByteString_equal(const UA_ByteString *string1, const UA_ByteString *string2) {
  244. return UA_String_equal((const UA_String*)string1, (const UA_String*)string2); }
  245. /* Allocates memory of size length for the bytestring. The content is not set to zero. */
  246. UA_StatusCode UA_EXPORT UA_ByteString_allocBuffer(UA_ByteString *bs, size_t length);
  247. UA_EXPORT extern const UA_ByteString UA_BYTESTRING_NULL;
  248. static UA_INLINE UA_ByteString
  249. UA_BYTESTRING(char *chars) {
  250. UA_ByteString str; str.length = strlen(chars);
  251. str.data = (UA_Byte*)chars; return str;
  252. }
  253. static UA_INLINE UA_ByteString
  254. UA_BYTESTRING_ALLOC(const char *chars) {
  255. UA_String str = UA_String_fromChars(chars); UA_ByteString bstr;
  256. bstr.length = str.length; bstr.data = str.data; return bstr;
  257. }
  258. /**
  259. * XmlElement
  260. * ^^^^^^^^^^
  261. * An XML element. */
  262. typedef UA_String UA_XmlElement;
  263. /**
  264. * NodeId
  265. * ^^^^^^
  266. * An identifier for a node in the address space of an OPC UA Server. */
  267. enum UA_NodeIdType {
  268. UA_NODEIDTYPE_NUMERIC = 0, /* In the binary encoding, this can also become 1 or 2
  269. (2byte and 4byte encoding of small numeric nodeids) */
  270. UA_NODEIDTYPE_STRING = 3,
  271. UA_NODEIDTYPE_GUID = 4,
  272. UA_NODEIDTYPE_BYTESTRING = 5
  273. };
  274. typedef struct {
  275. UA_UInt16 namespaceIndex;
  276. enum UA_NodeIdType identifierType;
  277. union {
  278. UA_UInt32 numeric;
  279. UA_String string;
  280. UA_Guid guid;
  281. UA_ByteString byteString;
  282. } identifier;
  283. } UA_NodeId;
  284. UA_EXPORT extern const UA_NodeId UA_NODEID_NULL;
  285. static UA_INLINE UA_Boolean
  286. UA_NodeId_isNull(const UA_NodeId *p) {
  287. return (p->namespaceIndex == 0 &&
  288. p->identifierType == UA_NODEIDTYPE_NUMERIC &&
  289. p->identifier.numeric == 0);
  290. }
  291. UA_Boolean UA_EXPORT UA_NodeId_equal(const UA_NodeId *n1, const UA_NodeId *n2);
  292. /** The following functions are shorthand for creating NodeIds. */
  293. static UA_INLINE UA_NodeId
  294. UA_NODEID_NUMERIC(UA_UInt16 nsIndex, UA_UInt32 identifier) {
  295. UA_NodeId id; id.namespaceIndex = nsIndex;
  296. id.identifierType = UA_NODEIDTYPE_NUMERIC;
  297. id.identifier.numeric = identifier; return id;
  298. }
  299. static UA_INLINE UA_NodeId
  300. UA_NODEID_STRING(UA_UInt16 nsIndex, char *chars) {
  301. UA_NodeId id; id.namespaceIndex = nsIndex;
  302. id.identifierType = UA_NODEIDTYPE_STRING;
  303. id.identifier.string = UA_STRING(chars); return id;
  304. }
  305. static UA_INLINE UA_NodeId
  306. UA_NODEID_STRING_ALLOC(UA_UInt16 nsIndex, const char *chars) {
  307. UA_NodeId id; id.namespaceIndex = nsIndex;
  308. id.identifierType = UA_NODEIDTYPE_STRING;
  309. id.identifier.string = UA_STRING_ALLOC(chars); return id;
  310. }
  311. static UA_INLINE UA_NodeId
  312. UA_NODEID_GUID(UA_UInt16 nsIndex, UA_Guid guid) {
  313. UA_NodeId id; id.namespaceIndex = nsIndex;
  314. id.identifierType = UA_NODEIDTYPE_GUID;
  315. id.identifier.guid = guid; return id;
  316. }
  317. static UA_INLINE UA_NodeId
  318. UA_NODEID_BYTESTRING(UA_UInt16 nsIndex, char *chars) {
  319. UA_NodeId id; id.namespaceIndex = nsIndex;
  320. id.identifierType = UA_NODEIDTYPE_BYTESTRING;
  321. id.identifier.byteString = UA_BYTESTRING(chars); return id;
  322. }
  323. static UA_INLINE UA_NodeId
  324. UA_NODEID_BYTESTRING_ALLOC(UA_UInt16 nsIndex, const char *chars) {
  325. UA_NodeId id; id.namespaceIndex = nsIndex;
  326. id.identifierType = UA_NODEIDTYPE_BYTESTRING;
  327. id.identifier.byteString = UA_BYTESTRING_ALLOC(chars); return id;
  328. }
  329. /**
  330. * ExpandedNodeId
  331. * ^^^^^^^^^^^^^^
  332. * A NodeId that allows the namespace URI to be specified instead of an index. */
  333. typedef struct {
  334. UA_NodeId nodeId;
  335. UA_String namespaceUri;
  336. UA_UInt32 serverIndex;
  337. } UA_ExpandedNodeId;
  338. /** The following functions are shorthand for creating ExpandedNodeIds. */
  339. static UA_INLINE UA_ExpandedNodeId
  340. UA_EXPANDEDNODEID_NUMERIC(UA_UInt16 nsIndex, UA_UInt32 identifier) {
  341. UA_ExpandedNodeId id; id.nodeId = UA_NODEID_NUMERIC(nsIndex, identifier);
  342. id.serverIndex = 0; id.namespaceUri = UA_STRING_NULL; return id;
  343. }
  344. static UA_INLINE UA_ExpandedNodeId
  345. UA_EXPANDEDNODEID_STRING(UA_UInt16 nsIndex, char *chars) {
  346. UA_ExpandedNodeId id; id.nodeId = UA_NODEID_STRING(nsIndex, chars);
  347. id.serverIndex = 0; id.namespaceUri = UA_STRING_NULL; return id;
  348. }
  349. static UA_INLINE UA_ExpandedNodeId
  350. UA_EXPANDEDNODEID_STRING_ALLOC(UA_UInt16 nsIndex, const char *chars) {
  351. UA_ExpandedNodeId id; id.nodeId = UA_NODEID_STRING_ALLOC(nsIndex, chars);
  352. id.serverIndex = 0; id.namespaceUri = UA_STRING_NULL; return id;
  353. }
  354. static UA_INLINE UA_ExpandedNodeId
  355. UA_EXPANDEDNODEID_STRING_GUID(UA_UInt16 nsIndex, UA_Guid guid) {
  356. UA_ExpandedNodeId id; id.nodeId = UA_NODEID_GUID(nsIndex, guid);
  357. id.serverIndex = 0; id.namespaceUri = UA_STRING_NULL; return id;
  358. }
  359. static UA_INLINE UA_ExpandedNodeId
  360. UA_EXPANDEDNODEID_BYTESTRING(UA_UInt16 nsIndex, char *chars) {
  361. UA_ExpandedNodeId id; id.nodeId = UA_NODEID_BYTESTRING(nsIndex, chars);
  362. id.serverIndex = 0; id.namespaceUri = UA_STRING_NULL; return id;
  363. }
  364. static UA_INLINE UA_ExpandedNodeId
  365. UA_EXPANDEDNODEID_BYTESTRING_ALLOC(UA_UInt16 nsIndex, const char *chars) {
  366. UA_ExpandedNodeId id; id.nodeId = UA_NODEID_BYTESTRING_ALLOC(nsIndex, chars);
  367. id.serverIndex = 0; id.namespaceUri = UA_STRING_NULL; return id;
  368. }
  369. /**
  370. * QualifiedName
  371. * ^^^^^^^^^^^^^
  372. * A name qualified by a namespace. */
  373. typedef struct {
  374. UA_UInt16 namespaceIndex;
  375. UA_String name;
  376. } UA_QualifiedName;
  377. static UA_INLINE UA_QualifiedName
  378. UA_QUALIFIEDNAME(UA_UInt16 nsIndex, char *chars) {
  379. UA_QualifiedName qn; qn.namespaceIndex = nsIndex;
  380. qn.name = UA_STRING(chars); return qn;
  381. }
  382. static UA_INLINE UA_QualifiedName
  383. UA_QUALIFIEDNAME_ALLOC(UA_UInt16 nsIndex, const char *chars) {
  384. UA_QualifiedName qn; qn.namespaceIndex = nsIndex;
  385. qn.name = UA_STRING_ALLOC(chars); return qn;
  386. }
  387. /**
  388. * LocalizedText
  389. * ^^^^^^^^^^^^^
  390. * Human readable text with an optional locale identifier. */
  391. typedef struct {
  392. UA_String locale;
  393. UA_String text;
  394. } UA_LocalizedText;
  395. static UA_INLINE UA_LocalizedText
  396. UA_LOCALIZEDTEXT(char *locale, char *text) {
  397. UA_LocalizedText lt; lt.locale = UA_STRING(locale);
  398. lt.text = UA_STRING(text); return lt;
  399. }
  400. static UA_INLINE UA_LocalizedText
  401. UA_LOCALIZEDTEXT_ALLOC(const char *locale, const char *text) {
  402. UA_LocalizedText lt; lt.locale = UA_STRING_ALLOC(locale);
  403. lt.text = UA_STRING_ALLOC(text); return lt;
  404. }
  405. /**
  406. * ExtensionObject
  407. * ^^^^^^^^^^^^^^^
  408. * ExtensionObjects may contain scalars of any data type. Even those that are
  409. * unknown to the receiver. See the Section `Generic Type Handling`_ on how
  410. * types are described. An ExtensionObject always contains the NodeId of the
  411. * Data Type. If the data cannot be decoded, we keep the encoded string and the
  412. * NodeId. */
  413. typedef struct {
  414. enum {
  415. UA_EXTENSIONOBJECT_ENCODED_NOBODY = 0,
  416. UA_EXTENSIONOBJECT_ENCODED_BYTESTRING = 1,
  417. UA_EXTENSIONOBJECT_ENCODED_XML = 2,
  418. UA_EXTENSIONOBJECT_DECODED = 3,
  419. UA_EXTENSIONOBJECT_DECODED_NODELETE = 4 /* Don't delete the decoded content
  420. at the lifecycle end */
  421. } encoding;
  422. union {
  423. struct {
  424. UA_NodeId typeId; /* The nodeid of the datatype */
  425. UA_ByteString body; /* The bytestring of the encoded data */
  426. } encoded;
  427. struct {
  428. const UA_DataType *type;
  429. void *data;
  430. } decoded;
  431. } content;
  432. } UA_ExtensionObject;
  433. /**
  434. * Variant
  435. * ^^^^^^^
  436. * Variants may contain data of any type. See the Section `Generic Type
  437. * Handling`_ on how types are described. If the data is not of one of the 25
  438. * builtin types, it will be encoded as an `ExtensionObject`_ on the wire. (The
  439. * standard says that a variant is a union of the built-in types. open62541
  440. * generalizes this to any data type by transparently de- and encoding
  441. * ExtensionObjects in the background. If the decoding fails, the variant
  442. * contains the original ExtensionObject.)
  443. *
  444. * Variants can contain a single scalar or an array. For details on the handling
  445. * of arrays, see the Section `Array Handling`_. Array variants can have an
  446. * additional dimensionality (matrix, 3-tensor, ...) defined in an array of
  447. * dimension sizes. Higher rank dimensions are serialized first.
  448. *
  449. * The differentiation between variants containing a scalar, an array or no data
  450. * is as follows:
  451. *
  452. * - arrayLength == 0 && data == NULL: no existing data
  453. * - arrayLength == 0 && data == UA_EMPTY_ARRAY_SENTINEL: array of length 0
  454. * - arrayLength == 0 && data > UA_EMPTY_ARRAY_SENTINEL: scalar value
  455. * - arrayLength > 0: array of the given length */
  456. typedef struct {
  457. const UA_DataType *type; /* The data type description */
  458. enum {
  459. UA_VARIANT_DATA, /* The data has the same lifecycle as the variant */
  460. UA_VARIANT_DATA_NODELETE, /* The data is "borrowed" by the variant and shall not be
  461. deleted at the end of the variant's lifecycle. */
  462. } storageType;
  463. size_t arrayLength; // The number of elements in the data array
  464. void *data; // Points to the scalar or array data
  465. size_t arrayDimensionsSize; // The number of dimensions the data-array has
  466. UA_Int32 *arrayDimensions; // The length of each dimension of the data-array
  467. } UA_Variant;
  468. /* Returns true if the variant contains a scalar value. Note that empty variants contain
  469. * an array of length -1 (undefined).
  470. *
  471. * @param v The variant
  472. * @return Does the variant contain a scalar value. */
  473. static UA_INLINE UA_Boolean
  474. UA_Variant_isScalar(const UA_Variant *v) {
  475. return (v->arrayLength == 0 && v->data > UA_EMPTY_ARRAY_SENTINEL);
  476. }
  477. /* Set the variant to a scalar value that already resides in memory. The value takes on
  478. * the lifecycle of the variant and is deleted with it.
  479. *
  480. * @param v The variant
  481. * @param p A pointer to the value data
  482. * @param type The datatype of the value in question */
  483. void UA_EXPORT UA_Variant_setScalar(UA_Variant *v, void * UA_RESTRICT p, const UA_DataType *type);
  484. /* Set the variant to a scalar value that is copied from an existing variable.
  485. * @param v The variant
  486. * @param p A pointer to the value data
  487. * @param type The datatype of the value
  488. * @return Indicates whether the operation succeeded or returns an error code */
  489. UA_StatusCode UA_EXPORT UA_Variant_setScalarCopy(UA_Variant *v, const void *p, const UA_DataType *type);
  490. /* Set the variant to an array that already resides in memory. The array takes on the
  491. * lifecycle of the variant and is deleted with it.
  492. *
  493. * @param v The variant
  494. * @param array A pointer to the array data
  495. * @param arraySize The size of the array
  496. * @param type The datatype of the array */
  497. void UA_EXPORT
  498. UA_Variant_setArray(UA_Variant *v, void * UA_RESTRICT array,
  499. size_t arraySize, const UA_DataType *type);
  500. /* Set the variant to an array that is copied from an existing array.
  501. *
  502. * @param v The variant
  503. * @param array A pointer to the array data
  504. * @param arraySize The size of the array
  505. * @param type The datatype of the array
  506. * @return Indicates whether the operation succeeded or returns an error code */
  507. UA_StatusCode UA_EXPORT
  508. UA_Variant_setArrayCopy(UA_Variant *v, const void *array,
  509. size_t arraySize, const UA_DataType *type);
  510. /**
  511. * NumericRanges are used to indicate subsets of a (multidimensional) variant
  512. * array. NumericRange has no official type structure in the standard. On the
  513. * wire, it only exists as an encoded string, such as "1:2,0:3,5". The colon
  514. * separates min/max index and the comma separates dimensions. A single value
  515. * indicates a range with a single element (min==max). */
  516. typedef struct {
  517. size_t dimensionsSize;
  518. struct UA_NumericRangeDimension {
  519. UA_UInt32 min;
  520. UA_UInt32 max;
  521. } *dimensions;
  522. } UA_NumericRange;
  523. /* Copy the variant, but use only a subset of the (multidimensional) array into a variant.
  524. * Returns an error code if the variant is not an array or if the indicated range does not
  525. * fit.
  526. *
  527. * @param src The source variant
  528. * @param dst The target variant
  529. * @param range The range of the copied data
  530. * @return Returns UA_STATUSCODE_GOOD or an error code */
  531. UA_StatusCode UA_EXPORT
  532. UA_Variant_copyRange(const UA_Variant *src, UA_Variant *dst, const UA_NumericRange range);
  533. /* Insert a range of data into an existing variant. The data array can't be reused afterwards if it
  534. * contains types without a fixed size (e.g. strings) since the members are moved into the variant
  535. * and take on its lifecycle.
  536. *
  537. * @param v The variant
  538. * @param dataArray The data array. The type must match the variant
  539. * @param dataArraySize The length of the data array. This is checked to match the range size.
  540. * @param range The range of where the new data is inserted
  541. * @return Returns UA_STATUSCODE_GOOD or an error code */
  542. UA_StatusCode UA_EXPORT
  543. UA_Variant_setRange(UA_Variant *v, void * UA_RESTRICT array,
  544. size_t arraySize, const UA_NumericRange range);
  545. /* Deep-copy a range of data into an existing variant.
  546. *
  547. * @param v The variant
  548. * @param dataArray The data array. The type must match the variant
  549. * @param dataArraySize The length of the data array. This is checked to match the range size.
  550. * @param range The range of where the new data is inserted
  551. * @return Returns UA_STATUSCODE_GOOD or an error code */
  552. UA_StatusCode UA_EXPORT
  553. UA_Variant_setRangeCopy(UA_Variant *v, const void *array,
  554. size_t arraySize, const UA_NumericRange range);
  555. /**
  556. * DataValue
  557. * ^^^^^^^^^
  558. * A data value with an associated status code and timestamps. */
  559. typedef struct {
  560. UA_Boolean hasValue : 1;
  561. UA_Boolean hasStatus : 1;
  562. UA_Boolean hasSourceTimestamp : 1;
  563. UA_Boolean hasServerTimestamp : 1;
  564. UA_Boolean hasSourcePicoseconds : 1;
  565. UA_Boolean hasServerPicoseconds : 1;
  566. UA_Variant value;
  567. UA_StatusCode status;
  568. UA_DateTime sourceTimestamp;
  569. UA_UInt16 sourcePicoseconds;
  570. UA_DateTime serverTimestamp;
  571. UA_UInt16 serverPicoseconds;
  572. } UA_DataValue;
  573. /**
  574. * DiagnosticInfo
  575. * ^^^^^^^^^^^^^^
  576. * A structure that contains detailed error and diagnostic information
  577. * associated with a StatusCode. */
  578. typedef struct UA_DiagnosticInfo {
  579. UA_Boolean hasSymbolicId : 1;
  580. UA_Boolean hasNamespaceUri : 1;
  581. UA_Boolean hasLocalizedText : 1;
  582. UA_Boolean hasLocale : 1;
  583. UA_Boolean hasAdditionalInfo : 1;
  584. UA_Boolean hasInnerStatusCode : 1;
  585. UA_Boolean hasInnerDiagnosticInfo : 1;
  586. UA_Int32 symbolicId;
  587. UA_Int32 namespaceUri;
  588. UA_Int32 localizedText;
  589. UA_Int32 locale;
  590. UA_String additionalInfo;
  591. UA_StatusCode innerStatusCode;
  592. struct UA_DiagnosticInfo *innerDiagnosticInfo;
  593. } UA_DiagnosticInfo;
  594. /**
  595. * Generic Type Handling
  596. * ---------------------
  597. * The builtin types can be combined to data structures. All information about a
  598. * (structured) data type is stored in a ``UA_DataType``. The array ``UA_TYPES``
  599. * contains the description of all standard-defined types and is used for
  600. * handling of generic types. */
  601. typedef struct {
  602. #ifdef UA_ENABLE_TYPENAMES
  603. const char *memberName;
  604. #endif
  605. UA_UInt16 memberTypeIndex; /* Index of the member in the array of data types */
  606. UA_Byte padding; /* How much padding is there before this member element?
  607. For arrays this is the padding before the size_t
  608. lenght member. (No padding between size_t and the
  609. following ptr.) */
  610. UA_Boolean namespaceZero : 1; /* The type of the member is defined in namespace zero.
  611. In this implementation, types from custom namespace
  612. may contain members from the same namespace or ns0
  613. only.*/
  614. UA_Boolean isArray : 1; /* The member is an array */
  615. } UA_DataTypeMember;
  616. struct UA_DataType {
  617. #ifdef UA_ENABLE_TYPENAMES
  618. const char *typeName;
  619. #endif
  620. UA_NodeId typeId; /* The nodeid of the type */
  621. UA_UInt16 memSize; /* Size of the struct in memory */
  622. UA_UInt16 typeIndex; /* Index of the type in the datatypetable */
  623. UA_Byte membersSize; /* How many members does the type have? */
  624. UA_Boolean builtin : 1; /* The type is "builtin" and has dedicated de- and
  625. encoding functions */
  626. UA_Boolean fixedSize : 1; /* The type (and its members) contains no pointers */
  627. UA_Boolean overlayable : 1; /* The type has the identical memory layout in
  628. memory and on the binary stream. */
  629. UA_DataTypeMember *members;
  630. };
  631. /** The following functions are used for generic handling of data types. */
  632. /* Allocates and initializes a variable of type dataType
  633. *
  634. * @param type The datatype description
  635. * @return Returns the memory location of the variable or (void*)0 if no memory is available */
  636. void UA_EXPORT * UA_new(const UA_DataType *type) UA_FUNC_ATTR_MALLOC;
  637. /* Initializes a variable to default values
  638. *
  639. * @param p The memory location of the variable
  640. * @param type The datatype description */
  641. static UA_INLINE void
  642. UA_init(void *p, const UA_DataType *type) {
  643. memset(p, 0, type->memSize);
  644. }
  645. /* Copies the content of two variables. If copying fails (e.g. because no memory was
  646. * available for an array), then dst is emptied and initialized to prevent memory leaks.
  647. *
  648. * @param src The memory location of the source variable
  649. * @param dst The memory location of the destination variable
  650. * @param type The datatype description
  651. * @return Indicates whether the operation succeeded or returns an error code */
  652. UA_StatusCode UA_EXPORT UA_copy(const void *src, void *dst, const UA_DataType *type);
  653. /* Deletes the dynamically allocated content of a variable (e.g. resets all arrays to
  654. * undefined arrays). Afterwards, the variable can be safely deleted without causing
  655. * memory leaks. But the variable is not initialized and may contain old data that is not
  656. * memory-relevant.
  657. *
  658. * @param p The memory location of the variable
  659. * @param type The datatype description of the variable */
  660. void UA_EXPORT UA_deleteMembers(void *p, const UA_DataType *type);
  661. /* Frees a variable and all of its content.
  662. *
  663. * @param p The memory location of the variable
  664. * @param type The datatype description of the variable */
  665. void UA_EXPORT UA_delete(void *p, const UA_DataType *type);
  666. /**
  667. * Random Number Generator
  668. * -----------------------
  669. * If UA_ENABLE_MULTITHREADING is defined, then the seed is stored in thread local
  670. * storage. The seed is initialized for every thread in the server/client. */
  671. void UA_EXPORT UA_random_seed(UA_UInt64 seed);
  672. UA_UInt32 UA_EXPORT UA_UInt32_random(void); /* do not use for cryptographic entropy */
  673. UA_Guid UA_EXPORT UA_Guid_random(void); /* do not use for cryptographic entropy */
  674. #ifdef __cplusplus
  675. } // extern "C"
  676. #endif
  677. #endif /* UA_TYPES_H_ */