1=====================
2Nanopb: API reference
3=====================
4
5.. include :: menu.rst
6
7.. contents ::
8
9
10
11
12Compilation options
13===================
14The following options can be specified in one of two ways:
15
161. Using the -D switch on the C compiler command line.
172. By #defining them at the top of pb.h.
18
19You must have the same settings for the nanopb library and all code that
20includes pb.h.
21
22============================  ================================================
23__BIG_ENDIAN__                 Set this if your platform stores integers and
24                               floats in big-endian format. Mixed-endian
25                               systems (different layout for ints and floats)
26                               are currently not supported.
27PB_ENABLE_MALLOC               Set this to enable dynamic allocation support
28                               in the decoder.
29PB_MAX_REQUIRED_FIELDS         Maximum number of required fields to check for
30                               presence. Default value is 64. Increases stack
31                               usage 1 byte per every 8 fields. Compiler
32                               warning will tell if you need this.
33PB_FIELD_16BIT                 Add support for tag numbers > 255 and fields
34                               larger than 255 bytes or 255 array entries.
35                               Increases code size 3 bytes per each field.
36                               Compiler error will tell if you need this.
37PB_FIELD_32BIT                 Add support for tag numbers > 65535 and fields
38                               larger than 65535 bytes or 65535 array entries.
39                               Increases code size 9 bytes per each field.
40                               Compiler error will tell if you need this.
41PB_NO_ERRMSG                   Disables the support for error messages; only
42                               error information is the true/false return
43                               value. Decreases the code size by a few hundred
44                               bytes.
45PB_BUFFER_ONLY                 Disables the support for custom streams. Only
46                               supports encoding and decoding with memory
47                               buffers. Speeds up execution and decreases code
48                               size slightly.
49PB_OLD_CALLBACK_STYLE          Use the old function signature (void\* instead
50                               of void\*\*) for callback fields. This was the
51                               default until nanopb-0.2.1.
52PB_SYSTEM_HEADER               Replace the standard header files with a single
53                               header file. It should define all the required
54                               functions and typedefs listed on the
55                               `overview page`_. Value must include quotes,
56                               for example *#define PB_SYSTEM_HEADER "foo.h"*.
57============================  ================================================
58
59The PB_MAX_REQUIRED_FIELDS, PB_FIELD_16BIT and PB_FIELD_32BIT settings allow
60raising some datatype limits to suit larger messages. Their need is recognized
61automatically by C-preprocessor #if-directives in the generated .pb.h files.
62The default setting is to use the smallest datatypes (least resources used).
63
64.. _`overview page`: index.html#compiler-requirements
65
66
67Proto file options
68==================
69The generator behaviour can be adjusted using these options, defined in the
70'nanopb.proto' file in the generator folder:
71
72============================  ================================================
73max_size                       Allocated size for *bytes* and *string* fields.
74max_count                      Allocated number of entries in arrays
75                               (*repeated* fields).
76type                           Type of the generated field. Default value
77                               is *FT_DEFAULT*, which selects automatically.
78                               You can use *FT_CALLBACK*, *FT_POINTER*,
79                               *FT_STATIC* or *FT_IGNORE* to force a callback
80                               field, a dynamically allocated field, a static
81                               field or to completely ignore the field.
82long_names                     Prefix the enum name to the enum value in
83                               definitions, i.e. *EnumName_EnumValue*. Enabled
84                               by default.
85packed_struct                  Make the generated structures packed.
86                               NOTE: This cannot be used on CPUs that break
87                               on unaligned accesses to variables.
88============================  ================================================
89
90These options can be defined for the .proto files before they are converted
91using the nanopb-generatory.py. There are three ways to define the options:
92
931. Using a separate .options file.
94   This is the preferred way as of nanopb-0.2.1, because it has the best
95   compatibility with other protobuf libraries.
962. Defining the options on the command line of nanopb_generator.py.
97   This only makes sense for settings that apply to a whole file.
983. Defining the options in the .proto file using the nanopb extensions.
99   This is the way used in nanopb-0.1, and will remain supported in the
100   future. It however sometimes causes trouble when using the .proto file
101   with other protobuf libraries.
102
103The effect of the options is the same no matter how they are given. The most
104common purpose is to define maximum size for string fields in order to
105statically allocate them.
106
107Defining the options in a .options file
108---------------------------------------
109The preferred way to define options is to have a separate file
110'myproto.options' in the same directory as the 'myproto.proto'. ::
111
112    # myproto.proto
113    message MyMessage {
114        required string name = 1;
115        repeated int32 ids = 4;
116    }
117
118::
119
120    # myproto.options
121    MyMessage.name         max_size:40
122    MyMessage.ids          max_count:5
123
124The generator will automatically search for this file and read the
125options from it. The file format is as follows:
126
127* Lines starting with '#' or '//' are regarded as comments.
128* Blank lines are ignored.
129* All other lines should start with a field name pattern, followed by one or
130  more options. For example: *"MyMessage.myfield max_size:5 max_count:10"*.
131* The field name pattern is matched against a string of form *'Message.field'*.
132  For nested messages, the string is *'Message.SubMessage.field'*.
133* The field name pattern may use the notation recognized by Python fnmatch():
134
135  - *\** matches any part of string, like 'Message.\*' for all fields
136  - *\?* matches any single character
137  - *[seq]* matches any of characters 's', 'e' and 'q'
138  - *[!seq]* matches any other character
139
140* The options are written as *'option_name:option_value'* and several options
141  can be defined on same line, separated by whitespace.
142* Options defined later in the file override the ones specified earlier, so
143  it makes sense to define wildcard options first in the file and more specific
144  ones later.
145
146If preferred, the name of the options file can be set using the command line
147switch *-f* to nanopb_generator.py.
148
149Defining the options on command line
150------------------------------------
151The nanopb_generator.py has a simple command line option *-s OPTION:VALUE*.
152The setting applies to the whole file that is being processed.
153
154Defining the options in the .proto file
155---------------------------------------
156The .proto file format allows defining custom options for the fields.
157The nanopb library comes with *nanopb.proto* which does exactly that, allowing
158you do define the options directly in the .proto file::
159
160    import "nanopb.proto";
161
162    message MyMessage {
163        required string name = 1 [(nanopb).max_size = 40];
164        repeated int32 ids = 4   [(nanopb).max_count = 5];
165    }
166
167A small complication is that you have to set the include path of protoc so that
168nanopb.proto can be found. This file, in turn, requires the file
169*google/protobuf/descriptor.proto*. This is usually installed under
170*/usr/include*. Therefore, to compile a .proto file which uses options, use a
171protoc command similar to::
172
173    protoc -I/usr/include -Inanopb/generator -I. -omessage.pb message.proto
174
175The options can be defined in file, message and field scopes::
176
177    option (nanopb_fileopt).max_size = 20; // File scope
178    message Message
179    {
180        option (nanopb_msgopt).max_size = 30; // Message scope
181        required string fieldsize = 1 [(nanopb).max_size = 40]; // Field scope
182    }
183
184
185
186
187
188
189
190
191
192pb.h
193====
194
195pb_type_t
196---------
197Defines the encoder/decoder behaviour that should be used for a field. ::
198
199    typedef uint8_t pb_type_t;
200
201The low-order nibble of the enumeration values defines the function that can be used for encoding and decoding the field data:
202
203==================== ===== ================================================
204LTYPE identifier     Value Storage format
205==================== ===== ================================================
206PB_LTYPE_VARINT      0x00  Integer.
207PB_LTYPE_SVARINT     0x01  Integer, zigzag encoded.
208PB_LTYPE_FIXED32     0x02  32-bit integer or floating point.
209PB_LTYPE_FIXED64     0x03  64-bit integer or floating point.
210PB_LTYPE_BYTES       0x04  Structure with *size_t* field and byte array.
211PB_LTYPE_STRING      0x05  Null-terminated string.
212PB_LTYPE_SUBMESSAGE  0x06  Submessage structure.
213==================== ===== ================================================
214
215The bits 4-5 define whether the field is required, optional or repeated:
216
217==================== ===== ================================================
218HTYPE identifier     Value Field handling
219==================== ===== ================================================
220PB_HTYPE_REQUIRED    0x00  Verify that field exists in decoded message.
221PB_HTYPE_OPTIONAL    0x10  Use separate *has_<field>* boolean to specify
222                           whether the field is present.
223                           (Unless it is a callback)
224PB_HTYPE_REPEATED    0x20  A repeated field with preallocated array.
225                           Separate *<field>_count* for number of items.
226                           (Unless it is a callback)
227==================== ===== ================================================
228
229The bits 6-7 define the how the storage for the field is allocated:
230
231==================== ===== ================================================
232ATYPE identifier     Value Allocation method
233==================== ===== ================================================
234PB_ATYPE_STATIC      0x00  Statically allocated storage in the structure.
235PB_ATYPE_CALLBACK    0x40  A field with dynamic storage size. Struct field
236                           actually contains a pointer to a callback
237                           function.
238==================== ===== ================================================
239
240
241pb_field_t
242----------
243Describes a single structure field with memory position in relation to others. The descriptions are usually autogenerated. ::
244
245    typedef struct _pb_field_t pb_field_t;
246    struct _pb_field_t {
247        uint8_t tag;
248        pb_type_t type;
249        uint8_t data_offset;
250        int8_t size_offset;
251        uint8_t data_size;
252        uint8_t array_size;
253        const void *ptr;
254    } pb_packed;
255
256:tag:           Tag number of the field or 0 to terminate a list of fields.
257:type:          LTYPE, HTYPE and ATYPE of the field.
258:data_offset:   Offset of field data, relative to the end of the previous field.
259:size_offset:   Offset of *bool* flag for optional fields or *size_t* count for arrays, relative to field data.
260:data_size:     Size of a single data entry, in bytes. For PB_LTYPE_BYTES, the size of the byte array inside the containing structure. For PB_HTYPE_CALLBACK, size of the C data type if known.
261:array_size:    Maximum number of entries in an array, if it is an array type.
262:ptr:           Pointer to default value for optional fields, or to submessage description for PB_LTYPE_SUBMESSAGE.
263
264The *uint8_t* datatypes limit the maximum size of a single item to 255 bytes and arrays to 255 items. Compiler will give error if the values are too large. The types can be changed to larger ones by defining *PB_FIELD_16BIT*.
265
266pb_bytes_array_t
267----------------
268An byte array with a field for storing the length::
269
270    typedef struct {
271        size_t size;
272        uint8_t bytes[1];
273    } pb_bytes_array_t;
274
275In an actual array, the length of *bytes* may be different.
276
277pb_callback_t
278-------------
279Part of a message structure, for fields with type PB_HTYPE_CALLBACK::
280
281    typedef struct _pb_callback_t pb_callback_t;
282    struct _pb_callback_t {
283        union {
284            bool (*decode)(pb_istream_t *stream, const pb_field_t *field, void **arg);
285            bool (*encode)(pb_ostream_t *stream, const pb_field_t *field, void * const *arg);
286        } funcs;
287
288        void *arg;
289    };
290
291A pointer to the *arg* is passed to the callback when calling. It can be used to store any information that the callback might need.
292
293Previously the function received just the value of *arg* instead of a pointer to it. This old behaviour can be enabled by defining *PB_OLD_CALLBACK_STYLE*.
294
295When calling `pb_encode`_, *funcs.encode* is used, and similarly when calling `pb_decode`_, *funcs.decode* is used. The function pointers are stored in the same memory location but are of incompatible types. You can set the function pointer to NULL to skip the field.
296
297pb_wire_type_t
298--------------
299Protocol Buffers wire types. These are used with `pb_encode_tag`_. ::
300
301    typedef enum {
302        PB_WT_VARINT = 0,
303        PB_WT_64BIT  = 1,
304        PB_WT_STRING = 2,
305        PB_WT_32BIT  = 5
306    } pb_wire_type_t;
307
308pb_extension_type_t
309-------------------
310Defines the handler functions and auxiliary data for a field that extends
311another message. Usually autogenerated by *nanopb_generator.py*::
312
313    typedef struct {
314        bool (*decode)(pb_istream_t *stream, pb_extension_t *extension,
315                   uint32_t tag, pb_wire_type_t wire_type);
316        bool (*encode)(pb_ostream_t *stream, const pb_extension_t *extension);
317        const void *arg;
318    } pb_extension_type_t;
319
320In the normal case, the function pointers are *NULL* and the decoder and
321encoder use their internal implementations. The internal implementations
322assume that *arg* points to a *pb_field_t* that describes the field in question.
323
324To implement custom processing of unknown fields, you can provide pointers
325to your own functions. Their functionality is mostly the same as for normal
326callback fields, except that they get called for any unknown field when decoding.
327
328pb_extension_t
329--------------
330Ties together the extension field type and the storage for the field value::
331
332    typedef struct {
333        const pb_extension_type_t *type;
334        void *dest;
335        pb_extension_t *next;
336    } pb_extension_t;
337
338:type:      Pointer to the structure that defines the callback functions.
339:dest:      Pointer to the variable that stores the field value
340            (as used by the default extension callback functions.)
341:next:      Pointer to the next extension handler, or *NULL*.
342
343PB_GET_ERROR
344------------
345Get the current error message from a stream, or a placeholder string if
346there is no error message::
347
348    #define PB_GET_ERROR(stream) (string expression)
349
350This should be used for printing errors, for example::
351
352    if (!pb_decode(...))
353    {
354        printf("Decode failed: %s\n", PB_GET_ERROR(stream));
355    }
356
357The macro only returns pointers to constant strings (in code memory),
358so that there is no need to release the returned pointer.
359
360PB_RETURN_ERROR
361---------------
362Set the error message and return false::
363
364    #define PB_RETURN_ERROR(stream,msg) (sets error and returns false)
365
366This should be used to handle error conditions inside nanopb functions
367and user callback functions::
368
369    if (error_condition)
370    {
371        PB_RETURN_ERROR(stream, "something went wrong");
372    }
373
374The *msg* parameter must be a constant string.
375
376
377
378pb_encode.h
379===========
380
381pb_ostream_from_buffer
382----------------------
383Constructs an output stream for writing into a memory buffer. This is just a helper function, it doesn't do anything you couldn't do yourself in a callback function. It uses an internal callback that stores the pointer in stream *state* field. ::
384
385    pb_ostream_t pb_ostream_from_buffer(uint8_t *buf, size_t bufsize);
386
387:buf:           Memory buffer to write into.
388:bufsize:       Maximum number of bytes to write.
389:returns:       An output stream.
390
391After writing, you can check *stream.bytes_written* to find out how much valid data there is in the buffer.
392
393pb_write
394--------
395Writes data to an output stream. Always use this function, instead of trying to call stream callback manually. ::
396
397    bool pb_write(pb_ostream_t *stream, const uint8_t *buf, size_t count);
398
399:stream:        Output stream to write to.
400:buf:           Pointer to buffer with the data to be written.
401:count:         Number of bytes to write.
402:returns:       True on success, false if maximum length is exceeded or an IO error happens.
403
404If an error happens, *bytes_written* is not incremented. Depending on the callback used, calling pb_write again after it has failed once may be dangerous. Nanopb itself never does this, instead it returns the error to user application. The builtin pb_ostream_from_buffer is safe to call again after failed write.
405
406pb_encode
407---------
408Encodes the contents of a structure as a protocol buffers message and writes it to output stream. ::
409
410    bool pb_encode(pb_ostream_t *stream, const pb_field_t fields[], const void *src_struct);
411
412:stream:        Output stream to write to.
413:fields:        A field description array, usually autogenerated.
414:src_struct:    Pointer to the data that will be serialized.
415:returns:       True on success, false on IO error, on detectable errors in field description, or if a field encoder returns false.
416
417Normally pb_encode simply walks through the fields description array and serializes each field in turn. However, submessages must be serialized twice: first to calculate their size and then to actually write them to output. This causes some constraints for callback fields, which must return the same data on every call.
418
419pb_encode_delimited
420-------------------
421Calculates the length of the message, encodes it as varint and then encodes the message. ::
422
423    bool pb_encode_delimited(pb_ostream_t *stream, const pb_field_t fields[], const void *src_struct);
424
425(parameters are the same as for `pb_encode`_.)
426
427A common way to indicate the message length in Protocol Buffers is to prefix it with a varint.
428This function does this, and it is compatible with *parseDelimitedFrom* in Google's protobuf library.
429
430.. sidebar:: Encoding fields manually
431
432    The functions with names *pb_encode_\** are used when dealing with callback fields. The typical reason for using callbacks is to have an array of unlimited size. In that case, `pb_encode`_ will call your callback function, which in turn will call *pb_encode_\** functions repeatedly to write out values.
433
434    The tag of a field must be encoded separately with `pb_encode_tag_for_field`_. After that, you can call exactly one of the content-writing functions to encode the payload of the field. For repeated fields, you can repeat this process multiple times.
435
436    Writing packed arrays is a little bit more involved: you need to use `pb_encode_tag` and specify `PB_WT_STRING` as the wire type. Then you need to know exactly how much data you are going to write, and use `pb_encode_varint`_ to write out the number of bytes before writing the actual data. Substreams can be used to determine the number of bytes beforehand; see `pb_encode_submessage`_ source code for an example.
437
438pb_encode_tag
439-------------
440Starts a field in the Protocol Buffers binary format: encodes the field number and the wire type of the data. ::
441
442    bool pb_encode_tag(pb_ostream_t *stream, pb_wire_type_t wiretype, int field_number);
443
444:stream:        Output stream to write to. 1-5 bytes will be written.
445:wiretype:      PB_WT_VARINT, PB_WT_64BIT, PB_WT_STRING or PB_WT_32BIT
446:field_number:  Identifier for the field, defined in the .proto file. You can get it from field->tag.
447:returns:       True on success, false on IO error.
448
449pb_encode_tag_for_field
450-----------------------
451Same as `pb_encode_tag`_, except takes the parameters from a *pb_field_t* structure. ::
452
453    bool pb_encode_tag_for_field(pb_ostream_t *stream, const pb_field_t *field);
454
455:stream:        Output stream to write to. 1-5 bytes will be written.
456:field:         Field description structure. Usually autogenerated.
457:returns:       True on success, false on IO error or unknown field type.
458
459This function only considers the LTYPE of the field. You can use it from your field callbacks, because the source generator writes correct LTYPE also for callback type fields.
460
461Wire type mapping is as follows:
462
463========================= ============
464LTYPEs                    Wire type
465========================= ============
466VARINT, SVARINT           PB_WT_VARINT
467FIXED64                   PB_WT_64BIT
468STRING, BYTES, SUBMESSAGE PB_WT_STRING
469FIXED32                   PB_WT_32BIT
470========================= ============
471
472pb_encode_varint
473----------------
474Encodes a signed or unsigned integer in the varint_ format. Works for fields of type `bool`, `enum`, `int32`, `int64`, `uint32` and `uint64`::
475
476    bool pb_encode_varint(pb_ostream_t *stream, uint64_t value);
477
478:stream:        Output stream to write to. 1-10 bytes will be written.
479:value:         Value to encode. Just cast e.g. int32_t directly to uint64_t.
480:returns:       True on success, false on IO error.
481
482.. _varint: http://code.google.com/apis/protocolbuffers/docs/encoding.html#varints
483
484pb_encode_svarint
485-----------------
486Encodes a signed integer in the 'zig-zagged' format. Works for fields of type `sint32` and `sint64`::
487
488    bool pb_encode_svarint(pb_ostream_t *stream, int64_t value);
489
490(parameters are the same as for `pb_encode_varint`_
491
492pb_encode_string
493----------------
494Writes the length of a string as varint and then contents of the string. Works for fields of type `bytes` and `string`::
495
496    bool pb_encode_string(pb_ostream_t *stream, const uint8_t *buffer, size_t size);
497
498:stream:        Output stream to write to.
499:buffer:        Pointer to string data.
500:size:          Number of bytes in the string. Pass `strlen(s)` for strings.
501:returns:       True on success, false on IO error.
502
503pb_encode_fixed32
504-----------------
505Writes 4 bytes to stream and swaps bytes on big-endian architectures. Works for fields of type `fixed32`, `sfixed32` and `float`::
506
507    bool pb_encode_fixed32(pb_ostream_t *stream, const void *value);
508
509:stream:    Output stream to write to.
510:value:     Pointer to a 4-bytes large C variable, for example `uint32_t foo;`.
511:returns:   True on success, false on IO error.
512
513pb_encode_fixed64
514-----------------
515Writes 8 bytes to stream and swaps bytes on big-endian architecture. Works for fields of type `fixed64`, `sfixed64` and `double`::
516
517    bool pb_encode_fixed64(pb_ostream_t *stream, const void *value);
518
519:stream:    Output stream to write to.
520:value:     Pointer to a 8-bytes large C variable, for example `uint64_t foo;`.
521:returns:   True on success, false on IO error.
522
523pb_encode_submessage
524--------------------
525Encodes a submessage field, including the size header for it. Works for fields of any message type::
526
527    bool pb_encode_submessage(pb_ostream_t *stream, const pb_field_t fields[], const void *src_struct);
528
529:stream:        Output stream to write to.
530:fields:        Pointer to the autogenerated field description array for the submessage type, e.g. `MyMessage_fields`.
531:src:           Pointer to the structure where submessage data is.
532:returns:       True on success, false on IO errors, pb_encode errors or if submessage size changes between calls.
533
534In Protocol Buffers format, the submessage size must be written before the submessage contents. Therefore, this function has to encode the submessage twice in order to know the size beforehand.
535
536If the submessage contains callback fields, the callback function might misbehave and write out a different amount of data on the second call. This situation is recognized and *false* is returned, but garbage will be written to the output before the problem is detected.
537
538
539
540
541
542
543
544
545
546
547
548
549pb_decode.h
550===========
551
552pb_istream_from_buffer
553----------------------
554Helper function for creating an input stream that reads data from a memory buffer. ::
555
556    pb_istream_t pb_istream_from_buffer(uint8_t *buf, size_t bufsize);
557
558:buf:           Pointer to byte array to read from.
559:bufsize:       Size of the byte array.
560:returns:       An input stream ready to use.
561
562pb_read
563-------
564Read data from input stream. Always use this function, don't try to call the stream callback directly. ::
565
566    bool pb_read(pb_istream_t *stream, uint8_t *buf, size_t count);
567
568:stream:        Input stream to read from.
569:buf:           Buffer to store the data to, or NULL to just read data without storing it anywhere.
570:count:         Number of bytes to read.
571:returns:       True on success, false if *stream->bytes_left* is less than *count* or if an IO error occurs.
572
573End of file is signalled by *stream->bytes_left* being zero after pb_read returns false.
574
575pb_decode
576---------
577Read and decode all fields of a structure. Reads until EOF on input stream. ::
578
579    bool pb_decode(pb_istream_t *stream, const pb_field_t fields[], void *dest_struct);
580
581:stream:        Input stream to read from.
582:fields:        A field description array. Usually autogenerated.
583:dest_struct:   Pointer to structure where data will be stored.
584:returns:       True on success, false on IO error, on detectable errors in field description, if a field encoder returns false or if a required field is missing.
585
586In Protocol Buffers binary format, EOF is only allowed between fields. If it happens anywhere else, pb_decode will return *false*. If pb_decode returns false, you cannot trust any of the data in the structure.
587
588In addition to EOF, the pb_decode implementation supports terminating a message with a 0 byte. This is compatible with the official Protocol Buffers because 0 is never a valid field tag.
589
590For optional fields, this function applies the default value and sets *has_<field>* to false if the field is not present.
591
592If *PB_ENABLE_MALLOC* is defined, this function may allocate storage for any pointer type fields.
593In this case, you have to call `pb_release`_ to release the memory after you are done with the message.
594On error return `pb_decode` will release the memory itself.
595
596pb_decode_noinit
597----------------
598Same as `pb_decode`_, except does not apply the default values to fields. ::
599
600    bool pb_decode_noinit(pb_istream_t *stream, const pb_field_t fields[], void *dest_struct);
601
602(parameters are the same as for `pb_decode`_.)
603
604The destination structure should be filled with zeros before calling this function. Doing a *memset* manually can be slightly faster than using `pb_decode`_ if you don't need any default values.
605
606In addition to decoding a single message, this function can be used to merge two messages, so that
607values from previous message will remain if the new message does not contain a field.
608
609This function *will not* release the message even on error return. If you use *PB_ENABLE_MALLOC*,
610you will need to call `pb_release`_ yourself.
611
612pb_decode_delimited
613-------------------
614Same as `pb_decode`_, except that it first reads a varint with the length of the message. ::
615
616    bool pb_decode_delimited(pb_istream_t *stream, const pb_field_t fields[], void *dest_struct);
617
618(parameters are the same as for `pb_decode`_.)
619
620A common method to indicate message size in Protocol Buffers is to prefix it with a varint.
621This function is compatible with *writeDelimitedTo* in the Google's Protocol Buffers library.
622
623pb_release
624----------
625Releases any dynamically allocated fields.
626
627    void pb_release(const pb_field_t fields[], void *dest_struct);
628
629:fields:        A field description array. Usually autogenerated.
630:dest_struct:   Pointer to structure where data will be stored.
631
632This function is only available if *PB_ENABLE_MALLOC* is defined. It will release any
633pointer type fields in the structure and set the pointers to NULL.
634
635pb_skip_varint
636--------------
637Skip a varint_ encoded integer without decoding it. ::
638
639    bool pb_skip_varint(pb_istream_t *stream);
640
641:stream:        Input stream to read from. Will read 1 byte at a time until the MSB is clear.
642:returns:       True on success, false on IO error.
643
644pb_skip_string
645--------------
646Skip a varint-length-prefixed string. This means skipping a value with wire type PB_WT_STRING. ::
647
648    bool pb_skip_string(pb_istream_t *stream);
649
650:stream:        Input stream to read from.
651:returns:       True on success, false on IO error or length exceeding uint32_t.
652
653pb_decode_tag
654-------------
655Decode the tag that comes before field in the protobuf encoding::
656
657    bool pb_decode_tag(pb_istream_t *stream, pb_wire_type_t *wire_type, int *tag, bool *eof);
658
659:stream:        Input stream to read from.
660:wire_type:     Pointer to variable where to store the wire type of the field.
661:tag:           Pointer to variable where to store the tag of the field.
662:eof:           Pointer to variable where to store end-of-file status.
663:returns:       True on success, false on error or EOF.
664
665When the message (stream) ends, this function will return false and set *eof* to true. On other
666errors, *eof* will be set to false.
667
668pb_skip_field
669-------------
670Remove the data for a field from the stream, without actually decoding it::
671
672    bool pb_skip_field(pb_istream_t *stream, pb_wire_type_t wire_type);
673
674:stream:        Input stream to read from.
675:wire_type:     Type of field to skip.
676:returns:       True on success, false on IO error.
677
678.. sidebar:: Decoding fields manually
679
680    The functions with names beginning with *pb_decode_* are used when dealing with callback fields. The typical reason for using callbacks is to have an array of unlimited size. In that case, `pb_decode`_ will call your callback function repeatedly, which can then store the values into e.g. filesystem in the order received in.
681
682    For decoding numeric (including enumerated and boolean) values, use `pb_decode_varint`_, `pb_decode_svarint`_, `pb_decode_fixed32`_ and `pb_decode_fixed64`_. They take a pointer to a 32- or 64-bit C variable, which you may then cast to smaller datatype for storage.
683
684    For decoding strings and bytes fields, the length has already been decoded. You can therefore check the total length in *stream->bytes_left* and read the data using `pb_read`_.
685
686    Finally, for decoding submessages in a callback, simply use `pb_decode`_ and pass it the *SubMessage_fields* descriptor array.
687
688pb_decode_varint
689----------------
690Read and decode a varint_ encoded integer. ::
691
692    bool pb_decode_varint(pb_istream_t *stream, uint64_t *dest);
693
694:stream:        Input stream to read from. 1-10 bytes will be read.
695:dest:          Storage for the decoded integer. Value is undefined on error.
696:returns:       True on success, false if value exceeds uint64_t range or an IO error happens.
697
698pb_decode_svarint
699-----------------
700Similar to `pb_decode_varint`_, except that it performs zigzag-decoding on the value. This corresponds to the Protocol Buffers *sint32* and *sint64* datatypes. ::
701
702    bool pb_decode_svarint(pb_istream_t *stream, int64_t *dest);
703
704(parameters are the same as `pb_decode_varint`_)
705
706pb_decode_fixed32
707-----------------
708Decode a *fixed32*, *sfixed32* or *float* value. ::
709
710    bool pb_decode_fixed32(pb_istream_t *stream, void *dest);
711
712:stream:        Input stream to read from. 4 bytes will be read.
713:dest:          Pointer to destination *int32_t*, *uint32_t* or *float*.
714:returns:       True on success, false on IO errors.
715
716This function reads 4 bytes from the input stream.
717On big endian architectures, it then reverses the order of the bytes.
718Finally, it writes the bytes to *dest*.
719
720pb_decode_fixed64
721-----------------
722Decode a *fixed64*, *sfixed64* or *double* value. ::
723
724    bool pb_dec_fixed(pb_istream_t *stream, const pb_field_t *field, void *dest);
725
726:stream:        Input stream to read from. 8 bytes will be read.
727:field:         Not used.
728:dest:          Pointer to destination *int64_t*, *uint64_t* or *double*.
729:returns:       True on success, false on IO errors.
730
731Same as `pb_decode_fixed32`_, except this reads 8 bytes.
732
733pb_make_string_substream
734------------------------
735Decode the length for a field with wire type *PB_WT_STRING* and create a substream for reading the data. ::
736
737    bool pb_make_string_substream(pb_istream_t *stream, pb_istream_t *substream);
738
739:stream:        Original input stream to read the length and data from.
740:substream:     New substream that has limited length. Filled in by the function.
741:returns:       True on success, false if reading the length fails.
742
743This function uses `pb_decode_varint`_ to read an integer from the stream. This is interpreted as a number of bytes, and the substream is set up so that its `bytes_left` is initially the same as the length, and its callback function and state the same as the parent stream.
744
745pb_close_string_substream
746-------------------------
747Close the substream created with `pb_make_string_substream`_. ::
748
749    void pb_close_string_substream(pb_istream_t *stream, pb_istream_t *substream);
750
751:stream:        Original input stream to read the length and data from.
752:substream:     Substream to close
753
754This function copies back the state from the substream to the parent stream.
755It must be called after done with the substream.
756