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Include minimal example of running protobuf with C

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This commit is contained in:
Niklas Jensen
2025-12-28 23:41:32 +01:00
committed by nikguin04
parent 1f0b416231
commit 356ccda4ae
12 changed files with 4747 additions and 1 deletions
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compile_proto_TEMP
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@@ -1,3 +1,13 @@
This file is temporary, just to show how ot compile the proto files
protoc --plugin="protoc-gen-ts_proto=$(Resolve-Path app\node_modules\.bin\protoc-gen-ts_proto.CMD)" --ts_proto_out="./app/src/lib" "platform_shared\example.proto"
Make sure to actually create the output directories before executing the commands
TS:
protoc --plugin="protoc-gen-ts_proto=$(Resolve-Path app\node_modules\.bin\protoc-gen-ts_proto.CMD)" --ts_proto_out="./app/src/lib" "platform_shared\example.proto"
C++:
protoc -I=platform_shared --cpp_out=esp32/src/platform_shared platform_shared/example.proto
C++ (nanopb):
pip install protobuf grpcio-tools
python .\submodules\nanopb\generator\nanopb_generator.py -D esp32/src .\platform_shared\example.proto
platform_shared/TEMP_C_EXAMPLE/CMakeLists.txt
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cmake_minimum_required(VERSION 3.10)
# Force GCC compiler
set(CMAKE_C_COMPILER gcc)
# Project name
project(protobuftest C)
# Set C standard
set(CMAKE_C_STANDARD 99)
set(CMAKE_C_STANDARD_REQUIRED ON)
# Compiler flags
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Wall -Wextra")
# Include directories
include_directories(
${CMAKE_SOURCE_DIR}
${CMAKE_SOURCE_DIR}/pb
${CMAKE_SOURCE_DIR}/platform_shared
)
# Nanopb library sources
set(NANOPB_SRCS
pb/pb_common.c
pb/pb_decode.c
pb/pb_encode.c
)
# Generated protobuf sources
set(PROTO_SRCS
platform_shared/example.pb.c
)
# Main application sources
set(APP_SRCS
main.c
)
# Create executable
add_executable(${PROJECT_NAME}
${APP_SRCS}
${NANOPB_SRCS}
${PROTO_SRCS}
)
# Optional: Create a nanopb library (alternative approach)
# add_library(nanopb STATIC ${NANOPB_SRCS})
# target_link_libraries(${PROJECT_NAME} nanopb)
platform_shared/TEMP_C_EXAMPLE/main.c
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#include <stdio.h>
#include <stdint.h>
#include <pb_encode.h>
#include "platform_shared/example.pb.h"
int main(int argc, char const *argv[])
{
// Create an IMUReport message
IMUReport report = IMUReport_init_zero;
// Set the IMU type to GYRO
report.type = IMUType_IMU_ACCEL;
// Set the x_val to some example value
report.x_val = 4;
// Buffer to hold the encoded message
uint8_t buffer[IMUReport_size];
// Create a stream that writes to the buffer
pb_ostream_t stream = pb_ostream_from_buffer(buffer, sizeof(buffer));
// Encode the message
bool status = pb_encode(&stream, &IMUReport_msg, &report);
if (!status) {
printf("Encoding failed: %s\n", PB_GET_ERROR(&stream));
return 1;
}
// Print the encoded message in hexadecimal
printf("Encoded IMUReport:\n");
printf("Type: %d (IMU_GYRO)\n", report.type);
printf("X Value: %f\n", report.x_val);
printf("\nEncoded bytes (%zu bytes):\n", stream.bytes_written);
for (size_t i = 0; i < stream.bytes_written; i++) {
printf("%02X ", buffer[i]);
if ((i + 1) % 16 == 0) {
printf("\n");
}
}
printf("\n");
return 0;
}
platform_shared/TEMP_C_EXAMPLE/pb/pb.h
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/* Common parts of the nanopb library. Most of these are quite low-level
* stuff. For the high-level interface, see pb_encode.h and pb_decode.h.
*/
#ifndef PB_H_INCLUDED
#define PB_H_INCLUDED
/*****************************************************************
* Nanopb compilation time options. You can change these here by *
* uncommenting the lines, or on the compiler command line. *
*****************************************************************/
/* Enable support for dynamically allocated fields */
/* #define PB_ENABLE_MALLOC 1 */
/* Define this if your CPU / compiler combination does not support
* unaligned memory access to packed structures. Note that packed
* structures are only used when requested in .proto options. */
/* #define PB_NO_PACKED_STRUCTS 1 */
/* Increase the number of required fields that are tracked.
* A compiler warning will tell if you need this. */
/* #define PB_MAX_REQUIRED_FIELDS 256 */
/* Add support for tag numbers > 65536 and fields larger than 65536 bytes. */
/* #define PB_FIELD_32BIT 1 */
/* Disable support for error messages in order to save some code space. */
/* #define PB_NO_ERRMSG 1 */
/* Disable checks to ensure sub-message encoded size is consistent when re-run. */
/* #define PB_NO_ENCODE_SIZE_CHECK 1 */
/* Disable support for custom streams (support only memory buffers). */
/* #define PB_BUFFER_ONLY 1 */
/* Disable support for 64-bit datatypes, for compilers without int64_t
or to save some code space. */
/* #define PB_WITHOUT_64BIT 1 */
/* Don't encode scalar arrays as packed. This is only to be used when
* the decoder on the receiving side cannot process packed scalar arrays.
* Such example is older protobuf.js. */
/* #define PB_ENCODE_ARRAYS_UNPACKED 1 */
/* Enable conversion of doubles to floats for platforms that do not
* support 64-bit doubles. Most commonly AVR. */
/* #define PB_CONVERT_DOUBLE_FLOAT 1 */
/* Check whether incoming strings are valid UTF-8 sequences. Slows down
* the string processing slightly and slightly increases code size. */
/* #define PB_VALIDATE_UTF8 1 */
/* This can be defined if the platform is little-endian and has 8-bit bytes.
* Normally it is automatically detected based on __BYTE_ORDER__ macro. */
/* #define PB_LITTLE_ENDIAN_8BIT 1 */
/* Configure static assert mechanism. Instead of changing these, set your
* compiler to C11 standard mode if possible. */
/* #define PB_C99_STATIC_ASSERT 1 */
/* #define PB_NO_STATIC_ASSERT 1 */
/******************************************************************
* You usually don't need to change anything below this line. *
* Feel free to look around and use the defined macros, though. *
******************************************************************/
/* Version of the nanopb library. Just in case you want to check it in
* your own program. */
#define NANOPB_VERSION "nanopb-1.0.0-dev"
/* Include all the system headers needed by nanopb. You will need the
* definitions of the following:
* - strlen, memcpy, memset functions
* - [u]int_least8_t, uint_fast8_t, [u]int_least16_t, [u]int32_t, [u]int64_t
* - size_t
* - bool
*
* If you don't have the standard header files, you can instead provide
* a custom header that defines or includes all this. In that case,
* define PB_SYSTEM_HEADER to the path of this file.
*/
#ifdef PB_SYSTEM_HEADER
#include PB_SYSTEM_HEADER
#else
#include <stdint.h>
#include <stddef.h>
#include <stdbool.h>
#include <string.h>
#include <limits.h>
#ifdef PB_ENABLE_MALLOC
#include <stdlib.h>
#endif
#endif
#ifdef __cplusplus
extern "C" {
#endif
/* Macro for defining packed structures (compiler dependent).
* This just reduces memory requirements, but is not required.
*/
#if defined(PB_NO_PACKED_STRUCTS)
/* Disable struct packing */
# define PB_PACKED_STRUCT_START
# define PB_PACKED_STRUCT_END
# define pb_packed
#elif defined(__GNUC__) || defined(__clang__)
/* For GCC and clang */
# define PB_PACKED_STRUCT_START
# define PB_PACKED_STRUCT_END
# define pb_packed __attribute__((packed))
#elif defined(__ICCARM__) || defined(__CC_ARM)
/* For IAR ARM and Keil MDK-ARM compilers */
# define PB_PACKED_STRUCT_START _Pragma("pack(push, 1)")
# define PB_PACKED_STRUCT_END _Pragma("pack(pop)")
# define pb_packed
#elif defined(_MSC_VER) && (_MSC_VER >= 1500)
/* For Microsoft Visual C++ */
# define PB_PACKED_STRUCT_START __pragma(pack(push, 1))
# define PB_PACKED_STRUCT_END __pragma(pack(pop))
# define pb_packed
#else
/* Unknown compiler */
# define PB_PACKED_STRUCT_START
# define PB_PACKED_STRUCT_END
# define pb_packed
#endif
/* Define for explicitly not inlining a given function */
#ifndef pb_noinline
#if defined(__GNUC__) || defined(__clang__)
/* For GCC and clang */
# if defined(noinline)
# define pb_noinline noinline
# else
# define pb_noinline __attribute__((noinline))
# endif
#elif defined(__ICCARM__) || defined(__CC_ARM)
/* For IAR ARM and Keil MDK-ARM compilers */
# define pb_noinline
#elif defined(_MSC_VER) && (_MSC_VER >= 1500)
# define pb_noinline __declspec(noinline)
#else
# define pb_noinline
#endif
#endif
/* Detect endianness */
#if !defined(CHAR_BIT) && defined(__CHAR_BIT__)
#define CHAR_BIT __CHAR_BIT__
#endif
#ifndef PB_LITTLE_ENDIAN_8BIT
#if ((defined(__BYTE_ORDER) && __BYTE_ORDER == __LITTLE_ENDIAN) || \
(defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__) || \
defined(__LITTLE_ENDIAN__) || defined(__ARMEL__) || \
defined(__THUMBEL__) || defined(__AARCH64EL__) || defined(_MIPSEL) || \
defined(_M_IX86) || defined(_M_X64) || defined(_M_ARM)) \
&& defined(CHAR_BIT) && CHAR_BIT == 8
#define PB_LITTLE_ENDIAN_8BIT 1
#endif
#endif
/* Handly macro for suppressing unreferenced-parameter compiler warnings. */
#ifndef PB_UNUSED
#define PB_UNUSED(x) (void)(x)
#endif
/* Harvard-architecture processors may need special attributes for storing
* field information in program memory. */
#ifndef PB_PROGMEM
#ifdef __AVR__
#include <avr/pgmspace.h>
#define PB_PROGMEM PROGMEM
#define PB_PROGMEM_READU32(x) pgm_read_dword(&x)
#else
#define PB_PROGMEM
#define PB_PROGMEM_READU32(x) (x)
#endif
#endif
/* Compile-time assertion, used for checking compatible compilation options.
* If this does not work properly on your compiler, use
* #define PB_NO_STATIC_ASSERT to disable it.
*
* But before doing that, check carefully the error message / place where it
* comes from to see if the error has a real cause. Unfortunately the error
* message is not always very clear to read, but you can see the reason better
* in the place where the PB_STATIC_ASSERT macro was called.
*/
#ifndef PB_NO_STATIC_ASSERT
# ifndef PB_STATIC_ASSERT
# if defined(__ICCARM__)
/* IAR has static_assert keyword but no _Static_assert */
# define PB_STATIC_ASSERT(COND,MSG) static_assert(COND,#MSG);
# elif defined(_MSC_VER) && (!defined(__STDC_VERSION__) || __STDC_VERSION__ < 201112)
/* MSVC in C89 mode supports static_assert() keyword anyway */
# define PB_STATIC_ASSERT(COND,MSG) static_assert(COND,#MSG);
# elif defined(PB_C99_STATIC_ASSERT)
/* Classic negative-size-array static assert mechanism */
# define PB_STATIC_ASSERT(COND,MSG) typedef char PB_STATIC_ASSERT_MSG(MSG, __LINE__, __COUNTER__)[(COND)?1:-1];
# define PB_STATIC_ASSERT_MSG(MSG, LINE, COUNTER) PB_STATIC_ASSERT_MSG_(MSG, LINE, COUNTER)
# define PB_STATIC_ASSERT_MSG_(MSG, LINE, COUNTER) pb_static_assertion_##MSG##_##LINE##_##COUNTER
# elif defined(__cplusplus)
/* C++11 standard static_assert mechanism */
# define PB_STATIC_ASSERT(COND,MSG) static_assert(COND,#MSG);
# else
/* C11 standard _Static_assert mechanism */
# define PB_STATIC_ASSERT(COND,MSG) _Static_assert(COND,#MSG);
# endif
# endif
#else
/* Static asserts disabled by PB_NO_STATIC_ASSERT */
# define PB_STATIC_ASSERT(COND,MSG)
#endif
/* Test that PB_STATIC_ASSERT works
* If you get errors here, you may need to do one of these:
* - Enable C11 standard support in your compiler
* - Define PB_C99_STATIC_ASSERT to enable C99 standard support
* - Define PB_NO_STATIC_ASSERT to disable static asserts altogether
*/
PB_STATIC_ASSERT(1, STATIC_ASSERT_IS_NOT_WORKING)
/* Number of required fields to keep track of. */
#ifndef PB_MAX_REQUIRED_FIELDS
#define PB_MAX_REQUIRED_FIELDS 64
#endif
#if PB_MAX_REQUIRED_FIELDS < 64
#error You should not lower PB_MAX_REQUIRED_FIELDS from the default value (64).
#endif
#ifdef PB_WITHOUT_64BIT
#ifdef PB_CONVERT_DOUBLE_FLOAT
/* Cannot use doubles without 64-bit types */
#undef PB_CONVERT_DOUBLE_FLOAT
#endif
#endif
/* Data type for storing encoded data and other byte streams.
* This typedef exists to support platforms where uint8_t does not exist.
* You can regard it as equivalent on uint8_t on other platforms.
*/
#if defined(PB_BYTE_T_OVERRIDE)
typedef PB_BYTE_T_OVERRIDE pb_byte_t;
#elif defined(UINT8_MAX)
typedef uint8_t pb_byte_t;
#else
typedef uint_least8_t pb_byte_t;
#endif
/* List of possible field types. These are used in the autogenerated code.
* Least-significant 4 bits tell the scalar type
* Most-significant 4 bits specify repeated/required/packed etc.
*/
typedef pb_byte_t pb_type_t;
/**** Field data types ****/
/* Numeric types */
#define PB_LTYPE_BOOL 0x00U /* bool */
#define PB_LTYPE_VARINT 0x01U /* int32, int64, enum, bool */
#define PB_LTYPE_UVARINT 0x02U /* uint32, uint64 */
#define PB_LTYPE_SVARINT 0x03U /* sint32, sint64 */
#define PB_LTYPE_FIXED32 0x04U /* fixed32, sfixed32, float */
#define PB_LTYPE_FIXED64 0x05U /* fixed64, sfixed64, double */
/* Marker for last packable field type. */
#define PB_LTYPE_LAST_PACKABLE 0x05U
/* Byte array with pre-allocated buffer.
* data_size is the length of the allocated PB_BYTES_ARRAY structure. */
#define PB_LTYPE_BYTES 0x06U
/* String with pre-allocated buffer.
* data_size is the maximum length. */
#define PB_LTYPE_STRING 0x07U
/* Submessage
* submsg_fields is pointer to field descriptions */
#define PB_LTYPE_SUBMESSAGE 0x08U
/* Submessage with pre-decoding callback
* The pre-decoding callback is stored as pb_callback_t right before pSize.
* submsg_fields is pointer to field descriptions */
#define PB_LTYPE_SUBMSG_W_CB 0x09U
/* Extension pseudo-field
* The field contains a pointer to pb_extension_t */
#define PB_LTYPE_EXTENSION 0x0AU
/* Byte array with inline, pre-allocated byffer.
* data_size is the length of the inline, allocated buffer.
* This differs from PB_LTYPE_BYTES by defining the element as
* pb_byte_t[data_size] rather than pb_bytes_array_t. */
#define PB_LTYPE_FIXED_LENGTH_BYTES 0x0BU
/* Number of declared LTYPES */
#define PB_LTYPES_COUNT 0x0CU
#define PB_LTYPE_MASK 0x0FU
/**** Field repetition rules ****/
#define PB_HTYPE_REQUIRED 0x00U
#define PB_HTYPE_OPTIONAL 0x10U
#define PB_HTYPE_SINGULAR 0x10U
#define PB_HTYPE_REPEATED 0x20U
#define PB_HTYPE_FIXARRAY 0x20U
#define PB_HTYPE_ONEOF 0x30U
#define PB_HTYPE_MASK 0x30U
/**** Field allocation types ****/
#define PB_ATYPE_STATIC 0x00U
#define PB_ATYPE_POINTER 0x80U
#define PB_ATYPE_CALLBACK 0x40U
#define PB_ATYPE_MASK 0xC0U
#define PB_ATYPE(x) ((x) & PB_ATYPE_MASK)
#define PB_HTYPE(x) ((x) & PB_HTYPE_MASK)
#define PB_LTYPE(x) ((x) & PB_LTYPE_MASK)
#define PB_LTYPE_IS_SUBMSG(x) (PB_LTYPE(x) == PB_LTYPE_SUBMESSAGE || \
PB_LTYPE(x) == PB_LTYPE_SUBMSG_W_CB)
/* Data type used for storing sizes of struct fields
* and array counts.
*/
#if defined(PB_FIELD_32BIT)
typedef uint32_t pb_size_t;
typedef int32_t pb_ssize_t;
#else
typedef uint_least16_t pb_size_t;
typedef int_least16_t pb_ssize_t;
#endif
#define PB_SIZE_MAX ((pb_size_t)-1)
/* Forward declaration of struct types */
typedef struct pb_istream_s pb_istream_t;
typedef struct pb_ostream_s pb_ostream_t;
typedef struct pb_field_iter_s pb_field_iter_t;
/* This structure is used in auto-generated constants
* to specify struct fields.
*/
typedef struct pb_msgdesc_s pb_msgdesc_t;
struct pb_msgdesc_s {
const uint32_t *field_info;
const pb_msgdesc_t * const * submsg_info;
const pb_byte_t *default_value;
bool (*field_callback)(pb_istream_t *istream, pb_ostream_t *ostream, const pb_field_iter_t *field);
pb_size_t field_count;
pb_size_t required_field_count;
pb_size_t largest_tag;
};
/* Iterator for message descriptor */
struct pb_field_iter_s {
const pb_msgdesc_t *descriptor; /* Pointer to message descriptor constant */
void *message; /* Pointer to start of the structure */
pb_size_t index; /* Index of the field */
pb_size_t field_info_index; /* Index to descriptor->field_info array */
pb_size_t required_field_index; /* Index that counts only the required fields */
pb_size_t submessage_index; /* Index that counts only submessages */
pb_size_t tag; /* Tag of current field */
pb_size_t data_size; /* sizeof() of a single item */
pb_size_t array_size; /* Number of array entries */
pb_type_t type; /* Type of current field */
void *pField; /* Pointer to current field in struct */
void *pData; /* Pointer to current data contents. Different than pField for arrays and pointers. */
void *pSize; /* Pointer to count/has field */
const pb_msgdesc_t *submsg_desc; /* For submessage fields, pointer to field descriptor for the submessage. */
};
/* For compatibility with legacy code */
typedef pb_field_iter_t pb_field_t;
/* Make sure that the standard integer types are of the expected sizes.
* Otherwise fixed32/fixed64 fields can break.
*
* If you get errors here, it probably means that your stdint.h is not
* correct for your platform.
*/
#ifndef PB_WITHOUT_64BIT
PB_STATIC_ASSERT(sizeof(int64_t) == 2 * sizeof(int32_t), INT64_T_WRONG_SIZE)
PB_STATIC_ASSERT(sizeof(uint64_t) == 2 * sizeof(uint32_t), UINT64_T_WRONG_SIZE)
#endif
/* This structure is used for 'bytes' arrays.
* It has the number of bytes in the beginning, and after that an array.
* Note that actual structs used will have a different length of bytes array.
*/
#define PB_BYTES_ARRAY_T(n) struct { pb_size_t size; pb_byte_t bytes[n]; }
#define PB_BYTES_ARRAY_T_ALLOCSIZE(n) ((size_t)n + offsetof(pb_bytes_array_t, bytes))
struct pb_bytes_array_s {
pb_size_t size;
pb_byte_t bytes[1];
};
typedef struct pb_bytes_array_s pb_bytes_array_t;
/* This structure is used for giving the callback function.
* It is stored in the message structure and filled in by the method that
* calls pb_decode.
*
* The decoding callback will be given a limited-length stream
* If the wire type was string, the length is the length of the string.
* If the wire type was a varint/fixed32/fixed64, the length is the length
* of the actual value.
* The function may be called multiple times (especially for repeated types,
* but also otherwise if the message happens to contain the field multiple
* times.)
*
* The encoding callback will receive the actual output stream.
* It should write all the data in one call, including the field tag and
* wire type. It can write multiple fields.
*
* The callback can be null if you want to skip a field.
*/
typedef struct pb_callback_s pb_callback_t;
struct pb_callback_s {
/* Callback functions receive a pointer to the arg field.
* You can access the value of the field as *arg, and modify it if needed.
*/
union {
bool (*decode)(pb_istream_t *stream, const pb_field_t *field, void **arg);
bool (*encode)(pb_ostream_t *stream, const pb_field_t *field, void * const *arg);
} funcs;
/* Free arg for use by callback */
void *arg;
};
extern bool pb_default_field_callback(pb_istream_t *istream, pb_ostream_t *ostream, const pb_field_t *field);
/* Wire types. Library user needs these only in encoder callbacks. */
typedef enum {
PB_WT_VARINT = 0,
PB_WT_64BIT = 1,
PB_WT_STRING = 2,
PB_WT_32BIT = 5,
PB_WT_PACKED = 255 /* PB_WT_PACKED is internal marker for packed arrays. */
} pb_wire_type_t;
/* Structure for defining the handling of unknown/extension fields.
* Usually the pb_extension_type_t structure is automatically generated,
* while the pb_extension_t structure is created by the user. However,
* if you want to catch all unknown fields, you can also create a custom
* pb_extension_type_t with your own callback.
*/
typedef struct pb_extension_type_s pb_extension_type_t;
typedef struct pb_extension_s pb_extension_t;
struct pb_extension_type_s {
/* Called for each unknown field in the message.
* If you handle the field, read off all of its data and return true.
* If you do not handle the field, do not read anything and return true.
* If you run into an error, return false.
* Set to NULL for default handler.
*/
bool (*decode)(pb_istream_t *stream, pb_extension_t *extension,
uint32_t tag, pb_wire_type_t wire_type);
/* Called once after all regular fields have been encoded.
* If you have something to write, do so and return true.
* If you do not have anything to write, just return true.
* If you run into an error, return false.
* Set to NULL for default handler.
*/
bool (*encode)(pb_ostream_t *stream, const pb_extension_t *extension);
/* Free field for use by the callback. */
const void *arg;
};
struct pb_extension_s {
/* Type describing the extension field. Usually you'll initialize
* this to a pointer to the automatically generated structure. */
const pb_extension_type_t *type;
/* Destination for the decoded data. This must match the datatype
* of the extension field. */
void *dest;
/* Pointer to the next extension handler, or NULL.
* If this extension does not match a field, the next handler is
* automatically called. */
pb_extension_t *next;
/* The decoder sets this to true if the extension was found.
* Ignored for encoding. */
bool found;
};
#define pb_extension_init_zero {NULL,NULL,NULL,false}
/* Memory allocation functions to use. You can define pb_realloc and
* pb_free to custom functions if you want. */
#ifdef PB_ENABLE_MALLOC
# ifndef pb_realloc
# define pb_realloc(ptr, size) realloc(ptr, size)
# endif
# ifndef pb_free
# define pb_free(ptr) free(ptr)
# endif
#endif
/* This is used to inform about need to regenerate .pb.h/.pb.c files. */
#define PB_PROTO_HEADER_VERSION 40
/* These macros are used to declare pb_field_t's in the constant array. */
/* Size of a structure member, in bytes. */
#define pb_membersize(st, m) (sizeof ((st*)0)->m)
/* Number of entries in an array. */
#define pb_arraysize(st, m) (pb_membersize(st, m) / pb_membersize(st, m[0]))
/* Delta from start of one member to the start of another member. */
#define pb_delta(st, m1, m2) ((int)offsetof(st, m1) - (int)offsetof(st, m2))
/* Force expansion of macro value */
#define PB_EXPAND(x) x
/* Binding of a message field set into a specific structure */
#define PB_BIND(msgname, structname, width) \
const uint32_t structname ## _field_info[] PB_PROGMEM = \
{ \
msgname ## _FIELDLIST(PB_GEN_FIELD_INFO_ ## width, structname) \
0 \
}; \
const pb_msgdesc_t* const structname ## _submsg_info[] = \
{ \
msgname ## _FIELDLIST(PB_GEN_SUBMSG_INFO, structname) \
NULL \
}; \
const pb_msgdesc_t structname ## _msg = \
{ \
structname ## _field_info, \
structname ## _submsg_info, \
msgname ## _DEFAULT, \
msgname ## _CALLBACK, \
0 msgname ## _FIELDLIST(PB_GEN_FIELD_COUNT, structname), \
0 msgname ## _FIELDLIST(PB_GEN_REQ_FIELD_COUNT, structname), \
0 msgname ## _FIELDLIST(PB_GEN_LARGEST_TAG, structname), \
}; \
msgname ## _FIELDLIST(PB_GEN_FIELD_INFO_ASSERT_ ## width, structname)
#define PB_GEN_FIELD_COUNT(structname, atype, htype, ltype, fieldname, tag) +1
#define PB_GEN_REQ_FIELD_COUNT(structname, atype, htype, ltype, fieldname, tag) \
+ (PB_HTYPE_ ## htype == PB_HTYPE_REQUIRED)
#define PB_GEN_LARGEST_TAG(structname, atype, htype, ltype, fieldname, tag) \
* 0 + tag
/* X-macro for generating the entries in struct_field_info[] array. */
#define PB_GEN_FIELD_INFO_1(structname, atype, htype, ltype, fieldname, tag) \
PB_FIELDINFO_1(tag, PB_ATYPE_ ## atype | PB_HTYPE_ ## htype | PB_LTYPE_MAP_ ## ltype, \
PB_DATA_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_DATA_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_SIZE_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_ARRAY_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname))
#define PB_GEN_FIELD_INFO_2(structname, atype, htype, ltype, fieldname, tag) \
PB_FIELDINFO_2(tag, PB_ATYPE_ ## atype | PB_HTYPE_ ## htype | PB_LTYPE_MAP_ ## ltype, \
PB_DATA_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_DATA_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_SIZE_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_ARRAY_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname))
#define PB_GEN_FIELD_INFO_4(structname, atype, htype, ltype, fieldname, tag) \
PB_FIELDINFO_4(tag, PB_ATYPE_ ## atype | PB_HTYPE_ ## htype | PB_LTYPE_MAP_ ## ltype, \
PB_DATA_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_DATA_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_SIZE_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_ARRAY_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname))
#define PB_GEN_FIELD_INFO_8(structname, atype, htype, ltype, fieldname, tag) \
PB_FIELDINFO_8(tag, PB_ATYPE_ ## atype | PB_HTYPE_ ## htype | PB_LTYPE_MAP_ ## ltype, \
PB_DATA_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_DATA_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_SIZE_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_ARRAY_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname))
#define PB_GEN_FIELD_INFO_AUTO(structname, atype, htype, ltype, fieldname, tag) \
PB_FIELDINFO_AUTO2(PB_FIELDINFO_WIDTH_AUTO(_PB_ATYPE_ ## atype, _PB_HTYPE_ ## htype, _PB_LTYPE_ ## ltype), \
tag, PB_ATYPE_ ## atype | PB_HTYPE_ ## htype | PB_LTYPE_MAP_ ## ltype, \
PB_DATA_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_DATA_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_SIZE_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_ARRAY_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname))
#define PB_FIELDINFO_AUTO2(width, tag, type, data_offset, data_size, size_offset, array_size) \
PB_FIELDINFO_AUTO3(width, tag, type, data_offset, data_size, size_offset, array_size)
#define PB_FIELDINFO_AUTO3(width, tag, type, data_offset, data_size, size_offset, array_size) \
PB_FIELDINFO_ ## width(tag, type, data_offset, data_size, size_offset, array_size)
/* X-macro for generating asserts that entries fit in struct_field_info[] array.
* The structure of macros here must match the structure above in PB_GEN_FIELD_INFO_x(),
* but it is not easily reused because of how macro substitutions work. */
#define PB_GEN_FIELD_INFO_ASSERT_1(structname, atype, htype, ltype, fieldname, tag) \
PB_FIELDINFO_ASSERT_1(tag, PB_ATYPE_ ## atype | PB_HTYPE_ ## htype | PB_LTYPE_MAP_ ## ltype, \
PB_DATA_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_DATA_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_SIZE_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_ARRAY_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname))
#define PB_GEN_FIELD_INFO_ASSERT_2(structname, atype, htype, ltype, fieldname, tag) \
PB_FIELDINFO_ASSERT_2(tag, PB_ATYPE_ ## atype | PB_HTYPE_ ## htype | PB_LTYPE_MAP_ ## ltype, \
PB_DATA_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_DATA_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_SIZE_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_ARRAY_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname))
#define PB_GEN_FIELD_INFO_ASSERT_4(structname, atype, htype, ltype, fieldname, tag) \
PB_FIELDINFO_ASSERT_4(tag, PB_ATYPE_ ## atype | PB_HTYPE_ ## htype | PB_LTYPE_MAP_ ## ltype, \
PB_DATA_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_DATA_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_SIZE_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_ARRAY_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname))
#define PB_GEN_FIELD_INFO_ASSERT_8(structname, atype, htype, ltype, fieldname, tag) \
PB_FIELDINFO_ASSERT_8(tag, PB_ATYPE_ ## atype | PB_HTYPE_ ## htype | PB_LTYPE_MAP_ ## ltype, \
PB_DATA_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_DATA_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_SIZE_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_ARRAY_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname))
#define PB_GEN_FIELD_INFO_ASSERT_AUTO(structname, atype, htype, ltype, fieldname, tag) \
PB_FIELDINFO_ASSERT_AUTO2(PB_FIELDINFO_WIDTH_AUTO(_PB_ATYPE_ ## atype, _PB_HTYPE_ ## htype, _PB_LTYPE_ ## ltype), \
tag, PB_ATYPE_ ## atype | PB_HTYPE_ ## htype | PB_LTYPE_MAP_ ## ltype, \
PB_DATA_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_DATA_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_SIZE_OFFSET_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname), \
PB_ARRAY_SIZE_ ## atype(_PB_HTYPE_ ## htype, structname, fieldname))
#define PB_FIELDINFO_ASSERT_AUTO2(width, tag, type, data_offset, data_size, size_offset, array_size) \
PB_FIELDINFO_ASSERT_AUTO3(width, tag, type, data_offset, data_size, size_offset, array_size)
#define PB_FIELDINFO_ASSERT_AUTO3(width, tag, type, data_offset, data_size, size_offset, array_size) \
PB_FIELDINFO_ASSERT_ ## width(tag, type, data_offset, data_size, size_offset, array_size)
#define PB_DATA_OFFSET_STATIC(htype, structname, fieldname) PB_DO ## htype(structname, fieldname)
#define PB_DATA_OFFSET_POINTER(htype, structname, fieldname) PB_DO ## htype(structname, fieldname)
#define PB_DATA_OFFSET_CALLBACK(htype, structname, fieldname) PB_DO ## htype(structname, fieldname)
#define PB_DO_PB_HTYPE_REQUIRED(structname, fieldname) offsetof(structname, fieldname)
#define PB_DO_PB_HTYPE_SINGULAR(structname, fieldname) offsetof(structname, fieldname)
#define PB_DO_PB_HTYPE_ONEOF(structname, fieldname) offsetof(structname, PB_ONEOF_NAME(FULL, fieldname))
#define PB_DO_PB_HTYPE_OPTIONAL(structname, fieldname) offsetof(structname, fieldname)
#define PB_DO_PB_HTYPE_REPEATED(structname, fieldname) offsetof(structname, fieldname)
#define PB_DO_PB_HTYPE_FIXARRAY(structname, fieldname) offsetof(structname, fieldname)
#define PB_SIZE_OFFSET_STATIC(htype, structname, fieldname) PB_SO ## htype(structname, fieldname)
#define PB_SIZE_OFFSET_POINTER(htype, structname, fieldname) PB_SO_PTR ## htype(structname, fieldname)
#define PB_SIZE_OFFSET_CALLBACK(htype, structname, fieldname) PB_SO_CB ## htype(structname, fieldname)
#define PB_SO_PB_HTYPE_REQUIRED(structname, fieldname) 0
#define PB_SO_PB_HTYPE_SINGULAR(structname, fieldname) 0
#define PB_SO_PB_HTYPE_ONEOF(structname, fieldname) PB_SO_PB_HTYPE_ONEOF2(structname, PB_ONEOF_NAME(FULL, fieldname), PB_ONEOF_NAME(UNION, fieldname))
#define PB_SO_PB_HTYPE_ONEOF2(structname, fullname, unionname) PB_SO_PB_HTYPE_ONEOF3(structname, fullname, unionname)
#define PB_SO_PB_HTYPE_ONEOF3(structname, fullname, unionname) pb_delta(structname, fullname, which_ ## unionname)
#define PB_SO_PB_HTYPE_OPTIONAL(structname, fieldname) pb_delta(structname, fieldname, has_ ## fieldname)
#define PB_SO_PB_HTYPE_REPEATED(structname, fieldname) pb_delta(structname, fieldname, fieldname ## _count)
#define PB_SO_PB_HTYPE_FIXARRAY(structname, fieldname) 0
#define PB_SO_PTR_PB_HTYPE_REQUIRED(structname, fieldname) 0
#define PB_SO_PTR_PB_HTYPE_SINGULAR(structname, fieldname) 0
#define PB_SO_PTR_PB_HTYPE_ONEOF(structname, fieldname) PB_SO_PB_HTYPE_ONEOF(structname, fieldname)
#define PB_SO_PTR_PB_HTYPE_OPTIONAL(structname, fieldname) 0
#define PB_SO_PTR_PB_HTYPE_REPEATED(structname, fieldname) PB_SO_PB_HTYPE_REPEATED(structname, fieldname)
#define PB_SO_PTR_PB_HTYPE_FIXARRAY(structname, fieldname) 0
#define PB_SO_CB_PB_HTYPE_REQUIRED(structname, fieldname) 0
#define PB_SO_CB_PB_HTYPE_SINGULAR(structname, fieldname) 0
#define PB_SO_CB_PB_HTYPE_ONEOF(structname, fieldname) PB_SO_PB_HTYPE_ONEOF(structname, fieldname)
#define PB_SO_CB_PB_HTYPE_OPTIONAL(structname, fieldname) 0
#define PB_SO_CB_PB_HTYPE_REPEATED(structname, fieldname) 0
#define PB_SO_CB_PB_HTYPE_FIXARRAY(structname, fieldname) 0
#define PB_ARRAY_SIZE_STATIC(htype, structname, fieldname) PB_AS ## htype(structname, fieldname)
#define PB_ARRAY_SIZE_POINTER(htype, structname, fieldname) PB_AS_PTR ## htype(structname, fieldname)
#define PB_ARRAY_SIZE_CALLBACK(htype, structname, fieldname) 1
#define PB_AS_PB_HTYPE_REQUIRED(structname, fieldname) 1
#define PB_AS_PB_HTYPE_SINGULAR(structname, fieldname) 1
#define PB_AS_PB_HTYPE_OPTIONAL(structname, fieldname) 1
#define PB_AS_PB_HTYPE_ONEOF(structname, fieldname) 1
#define PB_AS_PB_HTYPE_REPEATED(structname, fieldname) pb_arraysize(structname, fieldname)
#define PB_AS_PB_HTYPE_FIXARRAY(structname, fieldname) pb_arraysize(structname, fieldname)
#define PB_AS_PTR_PB_HTYPE_REQUIRED(structname, fieldname) 1
#define PB_AS_PTR_PB_HTYPE_SINGULAR(structname, fieldname) 1
#define PB_AS_PTR_PB_HTYPE_OPTIONAL(structname, fieldname) 1
#define PB_AS_PTR_PB_HTYPE_ONEOF(structname, fieldname) 1
#define PB_AS_PTR_PB_HTYPE_REPEATED(structname, fieldname) 1
#define PB_AS_PTR_PB_HTYPE_FIXARRAY(structname, fieldname) pb_arraysize(structname, fieldname[0])
#define PB_DATA_SIZE_STATIC(htype, structname, fieldname) PB_DS ## htype(structname, fieldname)
#define PB_DATA_SIZE_POINTER(htype, structname, fieldname) PB_DS_PTR ## htype(structname, fieldname)
#define PB_DATA_SIZE_CALLBACK(htype, structname, fieldname) PB_DS_CB ## htype(structname, fieldname)
#define PB_DS_PB_HTYPE_REQUIRED(structname, fieldname) pb_membersize(structname, fieldname)
#define PB_DS_PB_HTYPE_SINGULAR(structname, fieldname) pb_membersize(structname, fieldname)
#define PB_DS_PB_HTYPE_OPTIONAL(structname, fieldname) pb_membersize(structname, fieldname)
#define PB_DS_PB_HTYPE_ONEOF(structname, fieldname) pb_membersize(structname, PB_ONEOF_NAME(FULL, fieldname))
#define PB_DS_PB_HTYPE_REPEATED(structname, fieldname) pb_membersize(structname, fieldname[0])
#define PB_DS_PB_HTYPE_FIXARRAY(structname, fieldname) pb_membersize(structname, fieldname[0])
#define PB_DS_PTR_PB_HTYPE_REQUIRED(structname, fieldname) pb_membersize(structname, fieldname[0])
#define PB_DS_PTR_PB_HTYPE_SINGULAR(structname, fieldname) pb_membersize(structname, fieldname[0])
#define PB_DS_PTR_PB_HTYPE_OPTIONAL(structname, fieldname) pb_membersize(structname, fieldname[0])
#define PB_DS_PTR_PB_HTYPE_ONEOF(structname, fieldname) pb_membersize(structname, PB_ONEOF_NAME(FULL, fieldname)[0])
#define PB_DS_PTR_PB_HTYPE_REPEATED(structname, fieldname) pb_membersize(structname, fieldname[0])
#define PB_DS_PTR_PB_HTYPE_FIXARRAY(structname, fieldname) pb_membersize(structname, fieldname[0][0])
#define PB_DS_CB_PB_HTYPE_REQUIRED(structname, fieldname) pb_membersize(structname, fieldname)
#define PB_DS_CB_PB_HTYPE_SINGULAR(structname, fieldname) pb_membersize(structname, fieldname)
#define PB_DS_CB_PB_HTYPE_OPTIONAL(structname, fieldname) pb_membersize(structname, fieldname)
#define PB_DS_CB_PB_HTYPE_ONEOF(structname, fieldname) pb_membersize(structname, PB_ONEOF_NAME(FULL, fieldname))
#define PB_DS_CB_PB_HTYPE_REPEATED(structname, fieldname) pb_membersize(structname, fieldname)
#define PB_DS_CB_PB_HTYPE_FIXARRAY(structname, fieldname) pb_membersize(structname, fieldname)
#define PB_ONEOF_NAME(type, tuple) PB_EXPAND(PB_ONEOF_NAME_ ## type tuple)
#define PB_ONEOF_NAME_UNION(unionname,membername,fullname) unionname
#define PB_ONEOF_NAME_MEMBER(unionname,membername,fullname) membername
#define PB_ONEOF_NAME_FULL(unionname,membername,fullname) fullname
#define PB_GEN_SUBMSG_INFO(structname, atype, htype, ltype, fieldname, tag) \
PB_SUBMSG_INFO_ ## htype(_PB_LTYPE_ ## ltype, structname, fieldname)
#define PB_SUBMSG_INFO_REQUIRED(ltype, structname, fieldname) PB_SI ## ltype(structname ## _ ## fieldname ## _MSGTYPE)
#define PB_SUBMSG_INFO_SINGULAR(ltype, structname, fieldname) PB_SI ## ltype(structname ## _ ## fieldname ## _MSGTYPE)
#define PB_SUBMSG_INFO_OPTIONAL(ltype, structname, fieldname) PB_SI ## ltype(structname ## _ ## fieldname ## _MSGTYPE)
#define PB_SUBMSG_INFO_ONEOF(ltype, structname, fieldname) PB_SUBMSG_INFO_ONEOF2(ltype, structname, PB_ONEOF_NAME(UNION, fieldname), PB_ONEOF_NAME(MEMBER, fieldname))
#define PB_SUBMSG_INFO_ONEOF2(ltype, structname, unionname, membername) PB_SUBMSG_INFO_ONEOF3(ltype, structname, unionname, membername)
#define PB_SUBMSG_INFO_ONEOF3(ltype, structname, unionname, membername) PB_SI ## ltype(structname ## _ ## unionname ## _ ## membername ## _MSGTYPE)
#define PB_SUBMSG_INFO_REPEATED(ltype, structname, fieldname) PB_SI ## ltype(structname ## _ ## fieldname ## _MSGTYPE)
#define PB_SUBMSG_INFO_FIXARRAY(ltype, structname, fieldname) PB_SI ## ltype(structname ## _ ## fieldname ## _MSGTYPE)
#define PB_SI_PB_LTYPE_BOOL(t)
#define PB_SI_PB_LTYPE_BYTES(t)
#define PB_SI_PB_LTYPE_DOUBLE(t)
#define PB_SI_PB_LTYPE_ENUM(t)
#define PB_SI_PB_LTYPE_UENUM(t)
#define PB_SI_PB_LTYPE_FIXED32(t)
#define PB_SI_PB_LTYPE_FIXED64(t)
#define PB_SI_PB_LTYPE_FLOAT(t)
#define PB_SI_PB_LTYPE_INT32(t)
#define PB_SI_PB_LTYPE_INT64(t)
#define PB_SI_PB_LTYPE_MESSAGE(t) PB_SUBMSG_DESCRIPTOR(t)
#define PB_SI_PB_LTYPE_MSG_W_CB(t) PB_SUBMSG_DESCRIPTOR(t)
#define PB_SI_PB_LTYPE_SFIXED32(t)
#define PB_SI_PB_LTYPE_SFIXED64(t)
#define PB_SI_PB_LTYPE_SINT32(t)
#define PB_SI_PB_LTYPE_SINT64(t)
#define PB_SI_PB_LTYPE_STRING(t)
#define PB_SI_PB_LTYPE_UINT32(t)
#define PB_SI_PB_LTYPE_UINT64(t)
#define PB_SI_PB_LTYPE_EXTENSION(t)
#define PB_SI_PB_LTYPE_FIXED_LENGTH_BYTES(t)
#define PB_SUBMSG_DESCRIPTOR(t) &(t ## _msg),
/* The field descriptors use a variable width format, with width of either
* 1, 2, 4 or 8 of 32-bit words. The two lowest bytes of the first byte always
* encode the descriptor size, 6 lowest bits of field tag number, and 8 bits
* of the field type.
*
* Descriptor size is encoded as 0 = 1 word, 1 = 2 words, 2 = 4 words, 3 = 8 words.
*
* Formats, listed starting with the least significant bit of the first word.
* 1 word: [2-bit len] [6-bit tag] [8-bit type] [8-bit data_offset] [4-bit size_offset] [4-bit data_size]
*
* 2 words: [2-bit len] [6-bit tag] [8-bit type] [12-bit array_size] [4-bit size_offset]
* [16-bit data_offset] [12-bit data_size] [4-bit tag>>6]
*
* 4 words: [2-bit len] [6-bit tag] [8-bit type] [16-bit array_size]
* [8-bit size_offset] [24-bit tag>>6]
* [32-bit data_offset]
* [32-bit data_size]
*
* 8 words: [2-bit len] [6-bit tag] [8-bit type] [16-bit reserved]
* [8-bit size_offset] [24-bit tag>>6]
* [32-bit data_offset]
* [32-bit data_size]
* [32-bit array_size]
* [32-bit reserved]
* [32-bit reserved]
* [32-bit reserved]
*/
#define PB_FIELDINFO_1(tag, type, data_offset, data_size, size_offset, array_size) \
(0 | (((uint32_t)(tag) << 2) & 0xFF) | ((type) << 8) | (((uint32_t)(data_offset) & 0xFF) << 16) | \
(((uint32_t)(size_offset) & 0x0F) << 24) | (((uint32_t)(data_size) & 0x0F) << 28)),
#define PB_FIELDINFO_2(tag, type, data_offset, data_size, size_offset, array_size) \
(1 | (((uint32_t)(tag) << 2) & 0xFF) | ((type) << 8) | (((uint32_t)(array_size) & 0xFFF) << 16) | (((uint32_t)(size_offset) & 0x0F) << 28)), \
(((uint32_t)(data_offset) & 0xFFFF) | (((uint32_t)(data_size) & 0xFFF) << 16) | (((uint32_t)(tag) & 0x3c0) << 22)),
#define PB_FIELDINFO_4(tag, type, data_offset, data_size, size_offset, array_size) \
(2 | (((uint32_t)(tag) << 2) & 0xFF) | ((type) << 8) | (((uint32_t)(array_size) & 0xFFFF) << 16)), \
((uint32_t)(int_least8_t)(size_offset) | (((uint32_t)(tag) << 2) & 0xFFFFFF00)), \
(data_offset), (data_size),
#define PB_FIELDINFO_8(tag, type, data_offset, data_size, size_offset, array_size) \
(3 | (((uint32_t)(tag) << 2) & 0xFF) | ((type) << 8)), \
((uint32_t)(int_least8_t)(size_offset) | (((uint32_t)(tag) << 2) & 0xFFFFFF00)), \
(data_offset), (data_size), (array_size), 0, 0, 0,
/* These assertions verify that the field information fits in the allocated space.
* The generator tries to automatically determine the correct width that can fit all
* data associated with a message. These asserts will fail only if there has been a
* problem in the automatic logic - this may be worth reporting as a bug. As a workaround,
* you can increase the descriptor width by defining PB_FIELDINFO_WIDTH or by setting
* descriptorsize option in .options file.
*/
#define PB_FITS(value,bits) ((uint32_t)(value) < ((uint32_t)1<<bits))
#define PB_FIELDINFO_ASSERT_1(tag, type, data_offset, data_size, size_offset, array_size) \
PB_STATIC_ASSERT(PB_FITS(tag,6) && PB_FITS(data_offset,8) && PB_FITS(size_offset,4) && PB_FITS(data_size,4) && PB_FITS(array_size,1), FIELDINFO_DOES_NOT_FIT_width1_field ## tag)
#define PB_FIELDINFO_ASSERT_2(tag, type, data_offset, data_size, size_offset, array_size) \
PB_STATIC_ASSERT(PB_FITS(tag,10) && PB_FITS(data_offset,16) && PB_FITS(size_offset,4) && PB_FITS(data_size,12) && PB_FITS(array_size,12), FIELDINFO_DOES_NOT_FIT_width2_field ## tag)
#ifndef PB_FIELD_32BIT
/* Maximum field sizes are still 16-bit if pb_size_t is 16-bit */
#define PB_FIELDINFO_ASSERT_4(tag, type, data_offset, data_size, size_offset, array_size) \
PB_STATIC_ASSERT(PB_FITS(tag,16) && PB_FITS(data_offset,16) && PB_FITS((int_least8_t)size_offset,8) && PB_FITS(data_size,16) && PB_FITS(array_size,16), FIELDINFO_DOES_NOT_FIT_width4_field ## tag)
#define PB_FIELDINFO_ASSERT_8(tag, type, data_offset, data_size, size_offset, array_size) \
PB_STATIC_ASSERT(PB_FITS(tag,16) && PB_FITS(data_offset,16) && PB_FITS((int_least8_t)size_offset,8) && PB_FITS(data_size,16) && PB_FITS(array_size,16), FIELDINFO_DOES_NOT_FIT_width8_field ## tag)
#else
/* Up to 32-bit fields supported.
* Note that the checks are against 31 bits to avoid compiler warnings about shift wider than type in the test.
* I expect that there is no reasonable use for >2GB messages with nanopb anyway.
*/
#define PB_FIELDINFO_ASSERT_4(tag, type, data_offset, data_size, size_offset, array_size) \
PB_STATIC_ASSERT(PB_FITS(tag,30) && PB_FITS(data_offset,31) && PB_FITS(size_offset,8) && PB_FITS(data_size,31) && PB_FITS(array_size,16), FIELDINFO_DOES_NOT_FIT_width4_field ## tag)
#define PB_FIELDINFO_ASSERT_8(tag, type, data_offset, data_size, size_offset, array_size) \
PB_STATIC_ASSERT(PB_FITS(tag,30) && PB_FITS(data_offset,31) && PB_FITS(size_offset,8) && PB_FITS(data_size,31) && PB_FITS(array_size,31), FIELDINFO_DOES_NOT_FIT_width8_field ## tag)
#endif
/* Automatic picking of FIELDINFO width:
* Uses width 1 when possible, otherwise resorts to width 2.
* This is used when PB_BIND() is called with "AUTO" as the argument.
* The generator will give explicit size argument when it knows that a message
* structure grows beyond 1-word format limits.
*/
#define PB_FIELDINFO_WIDTH_AUTO(atype, htype, ltype) PB_FI_WIDTH ## atype(htype, ltype)
#define PB_FI_WIDTH_PB_ATYPE_STATIC(htype, ltype) PB_FI_WIDTH ## htype(ltype)
#define PB_FI_WIDTH_PB_ATYPE_POINTER(htype, ltype) PB_FI_WIDTH ## htype(ltype)
#define PB_FI_WIDTH_PB_ATYPE_CALLBACK(htype, ltype) 2
#define PB_FI_WIDTH_PB_HTYPE_REQUIRED(ltype) PB_FI_WIDTH ## ltype
#define PB_FI_WIDTH_PB_HTYPE_SINGULAR(ltype) PB_FI_WIDTH ## ltype
#define PB_FI_WIDTH_PB_HTYPE_OPTIONAL(ltype) PB_FI_WIDTH ## ltype
#define PB_FI_WIDTH_PB_HTYPE_ONEOF(ltype) PB_FI_WIDTH ## ltype
#define PB_FI_WIDTH_PB_HTYPE_REPEATED(ltype) 2
#define PB_FI_WIDTH_PB_HTYPE_FIXARRAY(ltype) 2
#define PB_FI_WIDTH_PB_LTYPE_BOOL 1
#define PB_FI_WIDTH_PB_LTYPE_BYTES 2
#define PB_FI_WIDTH_PB_LTYPE_DOUBLE 1
#define PB_FI_WIDTH_PB_LTYPE_ENUM 1
#define PB_FI_WIDTH_PB_LTYPE_UENUM 1
#define PB_FI_WIDTH_PB_LTYPE_FIXED32 1
#define PB_FI_WIDTH_PB_LTYPE_FIXED64 1
#define PB_FI_WIDTH_PB_LTYPE_FLOAT 1
#define PB_FI_WIDTH_PB_LTYPE_INT32 1
#define PB_FI_WIDTH_PB_LTYPE_INT64 1
#define PB_FI_WIDTH_PB_LTYPE_MESSAGE 2
#define PB_FI_WIDTH_PB_LTYPE_MSG_W_CB 2
#define PB_FI_WIDTH_PB_LTYPE_SFIXED32 1
#define PB_FI_WIDTH_PB_LTYPE_SFIXED64 1
#define PB_FI_WIDTH_PB_LTYPE_SINT32 1
#define PB_FI_WIDTH_PB_LTYPE_SINT64 1
#define PB_FI_WIDTH_PB_LTYPE_STRING 2
#define PB_FI_WIDTH_PB_LTYPE_UINT32 1
#define PB_FI_WIDTH_PB_LTYPE_UINT64 1
#define PB_FI_WIDTH_PB_LTYPE_EXTENSION 1
#define PB_FI_WIDTH_PB_LTYPE_FIXED_LENGTH_BYTES 2
/* The mapping from protobuf types to LTYPEs is done using these macros. */
#define PB_LTYPE_MAP_BOOL PB_LTYPE_BOOL
#define PB_LTYPE_MAP_BYTES PB_LTYPE_BYTES
#define PB_LTYPE_MAP_DOUBLE PB_LTYPE_FIXED64
#define PB_LTYPE_MAP_ENUM PB_LTYPE_VARINT
#define PB_LTYPE_MAP_UENUM PB_LTYPE_UVARINT
#define PB_LTYPE_MAP_FIXED32 PB_LTYPE_FIXED32
#define PB_LTYPE_MAP_FIXED64 PB_LTYPE_FIXED64
#define PB_LTYPE_MAP_FLOAT PB_LTYPE_FIXED32
#define PB_LTYPE_MAP_INT32 PB_LTYPE_VARINT
#define PB_LTYPE_MAP_INT64 PB_LTYPE_VARINT
#define PB_LTYPE_MAP_MESSAGE PB_LTYPE_SUBMESSAGE
#define PB_LTYPE_MAP_MSG_W_CB PB_LTYPE_SUBMSG_W_CB
#define PB_LTYPE_MAP_SFIXED32 PB_LTYPE_FIXED32
#define PB_LTYPE_MAP_SFIXED64 PB_LTYPE_FIXED64
#define PB_LTYPE_MAP_SINT32 PB_LTYPE_SVARINT
#define PB_LTYPE_MAP_SINT64 PB_LTYPE_SVARINT
#define PB_LTYPE_MAP_STRING PB_LTYPE_STRING
#define PB_LTYPE_MAP_UINT32 PB_LTYPE_UVARINT
#define PB_LTYPE_MAP_UINT64 PB_LTYPE_UVARINT
#define PB_LTYPE_MAP_EXTENSION PB_LTYPE_EXTENSION
#define PB_LTYPE_MAP_FIXED_LENGTH_BYTES PB_LTYPE_FIXED_LENGTH_BYTES
/* These macros are used for giving out error messages.
* They are mostly a debugging aid; the main error information
* is the true/false return value from functions.
* Some code space can be saved by disabling the error
* messages if not used.
*
* PB_SET_ERROR() sets the error message if none has been set yet.
* msg must be a constant string literal.
* PB_GET_ERROR() always returns a pointer to a string.
* PB_RETURN_ERROR() sets the error and returns false from current
* function.
*/
#ifdef PB_NO_ERRMSG
#define PB_SET_ERROR(stream, msg) PB_UNUSED(stream)
#define PB_GET_ERROR(stream) "(errmsg disabled)"
#else
#define PB_SET_ERROR(stream, msg) (stream->errmsg = (stream)->errmsg ? (stream)->errmsg : (msg))
#define PB_GET_ERROR(stream) ((stream)->errmsg ? (stream)->errmsg : "(none)")
#endif
#define PB_RETURN_ERROR(stream, msg) return PB_SET_ERROR(stream, msg), false
#ifdef __cplusplus
} /* extern "C" */
#endif
#ifdef __cplusplus
#if __cplusplus >= 201103L
#define PB_CONSTEXPR constexpr
#else // __cplusplus >= 201103L
#define PB_CONSTEXPR
#endif // __cplusplus >= 201103L
#if __cplusplus >= 201703L
#define PB_INLINE_CONSTEXPR inline constexpr
#else // __cplusplus >= 201703L
#define PB_INLINE_CONSTEXPR PB_CONSTEXPR
#endif // __cplusplus >= 201703L
extern "C++"
{
namespace nanopb {
// Each type will be partially specialized by the generator.
template <typename GenMessageT> struct MessageDescriptor;
} // namespace nanopb
}
#endif /* __cplusplus */
#endif
platform_shared/TEMP_C_EXAMPLE/pb/pb_common.c
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/* pb_common.c: Common support functions for pb_encode.c and pb_decode.c.
*
* 2014 Petteri Aimonen <jpa@kapsi.fi>
*/
#include "pb_common.h"
static bool load_descriptor_values(pb_field_iter_t *iter)
{
uint32_t word0;
uint32_t data_offset;
int_least8_t size_offset;
if (iter->index >= iter->descriptor->field_count)
return false;
word0 = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index]);
iter->type = (pb_type_t)((word0 >> 8) & 0xFF);
switch(word0 & 3)
{
case 0: {
/* 1-word format */
iter->array_size = 1;
iter->tag = (pb_size_t)((word0 >> 2) & 0x3F);
size_offset = (int_least8_t)((word0 >> 24) & 0x0F);
data_offset = (word0 >> 16) & 0xFF;
iter->data_size = (pb_size_t)((word0 >> 28) & 0x0F);
break;
}
case 1: {
/* 2-word format */
uint32_t word1 = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index + 1]);
iter->array_size = (pb_size_t)((word0 >> 16) & 0x0FFF);
iter->tag = (pb_size_t)(((word0 >> 2) & 0x3F) | ((word1 >> 28) << 6));
size_offset = (int_least8_t)((word0 >> 28) & 0x0F);
data_offset = word1 & 0xFFFF;
iter->data_size = (pb_size_t)((word1 >> 16) & 0x0FFF);
break;
}
case 2: {
/* 4-word format */
uint32_t word1 = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index + 1]);
uint32_t word2 = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index + 2]);
uint32_t word3 = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index + 3]);
iter->array_size = (pb_size_t)(word0 >> 16);
iter->tag = (pb_size_t)(((word0 >> 2) & 0x3F) | ((word1 >> 8) << 6));
size_offset = (int_least8_t)(word1 & 0xFF);
data_offset = word2;
iter->data_size = (pb_size_t)word3;
break;
}
default: {
/* 8-word format */
uint32_t word1 = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index + 1]);
uint32_t word2 = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index + 2]);
uint32_t word3 = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index + 3]);
uint32_t word4 = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index + 4]);
iter->array_size = (pb_size_t)word4;
iter->tag = (pb_size_t)(((word0 >> 2) & 0x3F) | ((word1 >> 8) << 6));
size_offset = (int_least8_t)(word1 & 0xFF);
data_offset = word2;
iter->data_size = (pb_size_t)word3;
break;
}
}
if (!iter->message)
{
/* Avoid doing arithmetic on null pointers, it is undefined */
iter->pField = NULL;
iter->pSize = NULL;
}
else
{
iter->pField = (char*)iter->message + data_offset;
if (size_offset)
{
iter->pSize = (char*)iter->pField - size_offset;
}
else if (PB_HTYPE(iter->type) == PB_HTYPE_REPEATED &&
(PB_ATYPE(iter->type) == PB_ATYPE_STATIC ||
PB_ATYPE(iter->type) == PB_ATYPE_POINTER))
{
/* Fixed count array */
iter->pSize = &iter->array_size;
}
else
{
iter->pSize = NULL;
}
if (PB_ATYPE(iter->type) == PB_ATYPE_POINTER && iter->pField != NULL)
{
iter->pData = *(void**)iter->pField;
}
else
{
iter->pData = iter->pField;
}
}
if (PB_LTYPE_IS_SUBMSG(iter->type))
{
iter->submsg_desc = iter->descriptor->submsg_info[iter->submessage_index];
}
else
{
iter->submsg_desc = NULL;
}
return true;
}
static void advance_iterator(pb_field_iter_t *iter)
{
iter->index++;
if (iter->index >= iter->descriptor->field_count)
{
/* Restart */
iter->index = 0;
iter->field_info_index = 0;
iter->submessage_index = 0;
iter->required_field_index = 0;
}
else
{
/* Increment indexes based on previous field type.
* All field info formats have the following fields:
* - lowest 2 bits tell the amount of words in the descriptor (2^n words)
* - bits 2..7 give the lowest bits of tag number.
* - bits 8..15 give the field type.
*/
uint32_t prev_descriptor = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index]);
pb_type_t prev_type = (prev_descriptor >> 8) & 0xFF;
pb_size_t descriptor_len = (pb_size_t)(1 << (prev_descriptor & 3));
/* Add to fields.
* The cast to pb_size_t is needed to avoid -Wconversion warning.
* Because the data is is constants from generator, there is no danger of overflow.
*/
iter->field_info_index = (pb_size_t)(iter->field_info_index + descriptor_len);
iter->required_field_index = (pb_size_t)(iter->required_field_index + (PB_HTYPE(prev_type) == PB_HTYPE_REQUIRED));
iter->submessage_index = (pb_size_t)(iter->submessage_index + PB_LTYPE_IS_SUBMSG(prev_type));
}
}
bool pb_field_iter_begin(pb_field_iter_t *iter, const pb_msgdesc_t *desc, void *message)
{
memset(iter, 0, sizeof(*iter));
iter->descriptor = desc;
iter->message = message;
return load_descriptor_values(iter);
}
bool pb_field_iter_begin_extension(pb_field_iter_t *iter, pb_extension_t *extension)
{
const pb_msgdesc_t *msg = (const pb_msgdesc_t*)extension->type->arg;
bool status;
uint32_t word0 = PB_PROGMEM_READU32(msg->field_info[0]);
if (PB_ATYPE(word0 >> 8) == PB_ATYPE_POINTER)
{
/* For pointer extensions, the pointer is stored directly
* in the extension structure. This avoids having an extra
* indirection. */
status = pb_field_iter_begin(iter, msg, &extension->dest);
}
else
{
status = pb_field_iter_begin(iter, msg, extension->dest);
}
iter->pSize = &extension->found;
return status;
}
bool pb_field_iter_next(pb_field_iter_t *iter)
{
advance_iterator(iter);
(void)load_descriptor_values(iter);
return iter->index != 0;
}
bool pb_field_iter_find(pb_field_iter_t *iter, uint32_t tag)
{
if (iter->tag == tag)
{
return true; /* Nothing to do, correct field already. */
}
else if (tag > iter->descriptor->largest_tag)
{
return false;
}
else
{
pb_size_t start = iter->index;
uint32_t fieldinfo;
if (tag < iter->tag)
{
/* Fields are in tag number order, so we know that tag is between
* 0 and our start position. Setting index to end forces
* advance_iterator() call below to restart from beginning. */
iter->index = iter->descriptor->field_count;
}
do
{
/* Advance iterator but don't load values yet */
advance_iterator(iter);
/* Do fast check for tag number match */
fieldinfo = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index]);
if (((fieldinfo >> 2) & 0x3F) == (tag & 0x3F))
{
/* Good candidate, check further */
(void)load_descriptor_values(iter);
if (iter->tag == tag &&
PB_LTYPE(iter->type) != PB_LTYPE_EXTENSION)
{
/* Found it */
return true;
}
}
} while (iter->index != start);
/* Searched all the way back to start, and found nothing. */
(void)load_descriptor_values(iter);
return false;
}
}
bool pb_field_iter_find_extension(pb_field_iter_t *iter)
{
if (PB_LTYPE(iter->type) == PB_LTYPE_EXTENSION)
{
return true;
}
else
{
pb_size_t start = iter->index;
uint32_t fieldinfo;
do
{
/* Advance iterator but don't load values yet */
advance_iterator(iter);
/* Do fast check for field type */
fieldinfo = PB_PROGMEM_READU32(iter->descriptor->field_info[iter->field_info_index]);
if (PB_LTYPE((fieldinfo >> 8) & 0xFF) == PB_LTYPE_EXTENSION)
{
return load_descriptor_values(iter);
}
} while (iter->index != start);
/* Searched all the way back to start, and found nothing. */
(void)load_descriptor_values(iter);
return false;
}
}
static void *pb_const_cast(const void *p)
{
/* Note: this casts away const, in order to use the common field iterator
* logic for both encoding and decoding. The cast is done using union
* to avoid spurious compiler warnings. */
union {
void *p1;
const void *p2;
} t;
t.p2 = p;
return t.p1;
}
bool pb_field_iter_begin_const(pb_field_iter_t *iter, const pb_msgdesc_t *desc, const void *message)
{
return pb_field_iter_begin(iter, desc, pb_const_cast(message));
}
bool pb_field_iter_begin_extension_const(pb_field_iter_t *iter, const pb_extension_t *extension)
{
return pb_field_iter_begin_extension(iter, (pb_extension_t*)pb_const_cast(extension));
}
bool pb_default_field_callback(pb_istream_t *istream, pb_ostream_t *ostream, const pb_field_t *field)
{
if (field->data_size == sizeof(pb_callback_t))
{
pb_callback_t *pCallback = (pb_callback_t*)field->pData;
if (pCallback != NULL)
{
if (istream != NULL && pCallback->funcs.decode != NULL)
{
return pCallback->funcs.decode(istream, field, &pCallback->arg);
}
if (ostream != NULL && pCallback->funcs.encode != NULL)
{
return pCallback->funcs.encode(ostream, field, &pCallback->arg);
}
}
}
return true; /* Success, but didn't do anything */
}
#ifdef PB_VALIDATE_UTF8
/* This function checks whether a string is valid UTF-8 text.
*
* Algorithm is adapted from https://www.cl.cam.ac.uk/~mgk25/ucs/utf8_check.c
* Original copyright: Markus Kuhn <http://www.cl.cam.ac.uk/~mgk25/> 2005-03-30
* Licensed under "Short code license", which allows use under MIT license or
* any compatible with it.
*/
bool pb_validate_utf8(const char *str)
{
const pb_byte_t *s = (const pb_byte_t*)str;
while (*s)
{
if (*s < 0x80)
{
/* 0xxxxxxx */
s++;
}
else if ((s[0] & 0xe0) == 0xc0)
{
/* 110XXXXx 10xxxxxx */
if ((s[1] & 0xc0) != 0x80 ||
(s[0] & 0xfe) == 0xc0) /* overlong? */
return false;
else
s += 2;
}
else if ((s[0] & 0xf0) == 0xe0)
{
/* 1110XXXX 10Xxxxxx 10xxxxxx */
if ((s[1] & 0xc0) != 0x80 ||
(s[2] & 0xc0) != 0x80 ||
(s[0] == 0xe0 && (s[1] & 0xe0) == 0x80) || /* overlong? */
(s[0] == 0xed && (s[1] & 0xe0) == 0xa0) || /* surrogate? */
(s[0] == 0xef && s[1] == 0xbf &&
(s[2] & 0xfe) == 0xbe)) /* U+FFFE or U+FFFF? */
return false;
else
s += 3;
}
else if ((s[0] & 0xf8) == 0xf0)
{
/* 11110XXX 10XXxxxx 10xxxxxx 10xxxxxx */
if ((s[1] & 0xc0) != 0x80 ||
(s[2] & 0xc0) != 0x80 ||
(s[3] & 0xc0) != 0x80 ||
(s[0] == 0xf0 && (s[1] & 0xf0) == 0x80) || /* overlong? */
(s[0] == 0xf4 && s[1] > 0x8f) || s[0] > 0xf4) /* > U+10FFFF? */
return false;
else
s += 4;
}
else
{
return false;
}
}
return true;
}
#endif
platform_shared/TEMP_C_EXAMPLE/pb/pb_common.h
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/* pb_common.h: Common support functions for pb_encode.c and pb_decode.c.
* These functions are rarely needed by applications directly.
*/
#ifndef PB_COMMON_H_INCLUDED
#define PB_COMMON_H_INCLUDED
#include "pb.h"
#ifdef __cplusplus
extern "C" {
#endif
/* Initialize the field iterator structure to beginning.
* Returns false if the message type is empty. */
bool pb_field_iter_begin(pb_field_iter_t *iter, const pb_msgdesc_t *desc, void *message);
/* Get a field iterator for extension field. */
bool pb_field_iter_begin_extension(pb_field_iter_t *iter, pb_extension_t *extension);
/* Same as pb_field_iter_begin(), but for const message pointer.
* Note that the pointers in pb_field_iter_t will be non-const but shouldn't
* be written to when using these functions. */
bool pb_field_iter_begin_const(pb_field_iter_t *iter, const pb_msgdesc_t *desc, const void *message);
bool pb_field_iter_begin_extension_const(pb_field_iter_t *iter, const pb_extension_t *extension);
/* Advance the iterator to the next field.
* Returns false when the iterator wraps back to the first field. */
bool pb_field_iter_next(pb_field_iter_t *iter);
/* Advance the iterator until it points at a field with the given tag.
* Returns false if no such field exists. */
bool pb_field_iter_find(pb_field_iter_t *iter, uint32_t tag);
/* Find a field with type PB_LTYPE_EXTENSION, or return false if not found.
* There can be only one extension range field per message. */
bool pb_field_iter_find_extension(pb_field_iter_t *iter);
#ifdef PB_VALIDATE_UTF8
/* Validate UTF-8 text string */
bool pb_validate_utf8(const char *s);
#endif
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif
platform_shared/TEMP_C_EXAMPLE/pb/pb_decode.c
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platform_shared/TEMP_C_EXAMPLE/pb/pb_decode.h
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/* pb_decode.h: Functions to decode protocol buffers. Depends on pb_decode.c.
* The main function is pb_decode. You also need an input stream, and the
* field descriptions created by nanopb_generator.py.
*/
#ifndef PB_DECODE_H_INCLUDED
#define PB_DECODE_H_INCLUDED
#include "pb.h"
#ifdef __cplusplus
extern "C" {
#endif
/* Structure for defining custom input streams. You will need to provide
* a callback function to read the bytes from your storage, which can be
* for example a file or a network socket.
*
* The callback must conform to these rules:
*
* 1) Return false on IO errors. This will cause decoding to abort.
* 2) You can use state to store your own data (e.g. buffer pointer),
* and rely on pb_read to verify that no-body reads past bytes_left.
* 3) Your callback may be used with substreams, in which case bytes_left
* is different than from the main stream. Don't use bytes_left to compute
* any pointers.
*/
struct pb_istream_s
{
#ifdef PB_BUFFER_ONLY
/* Callback pointer is not used in buffer-only configuration.
* Having an int pointer here allows binary compatibility but
* gives an error if someone tries to assign callback function.
*/
int *callback;
#else
bool (*callback)(pb_istream_t *stream, pb_byte_t *buf, size_t count);
#endif
/* state is a free field for use of the callback function defined above.
* Note that when pb_istream_from_buffer() is used, it reserves this field
* for its own use.
*/
void *state;
/* Maximum number of bytes left in this stream. Callback can report
* EOF before this limit is reached. Setting a limit is recommended
* when decoding directly from file or network streams to avoid
* denial-of-service by excessively long messages.
*/
size_t bytes_left;
#ifndef PB_NO_ERRMSG
/* Pointer to constant (ROM) string when decoding function returns error */
const char *errmsg;
#endif
};
#ifndef PB_NO_ERRMSG
#define PB_ISTREAM_EMPTY {0,0,0,0}
#else
#define PB_ISTREAM_EMPTY {0,0,0}
#endif
/***************************
* Main decoding functions *
***************************/
/* Decode a single protocol buffers message from input stream into a C structure.
* Returns true on success, false on any failure.
* The actual struct pointed to by dest must match the description in fields.
* Callback fields of the destination structure must be initialized by caller.
* All other fields will be initialized by this function.
*
* Example usage:
* MyMessage msg = {};
* uint8_t buffer[64];
* pb_istream_t stream;
*
* // ... read some data into buffer ...
*
* stream = pb_istream_from_buffer(buffer, count);
* pb_decode(&stream, MyMessage_fields, &msg);
*/
bool pb_decode(pb_istream_t *stream, const pb_msgdesc_t *fields, void *dest_struct);
/* Extended version of pb_decode, with several options to control
* the decoding process:
*
* PB_DECODE_NOINIT: Do not initialize the fields to default values.
* This is slightly faster if you do not need the default
* values and instead initialize the structure to 0 using
* e.g. memset(). This can also be used for merging two
* messages, i.e. combine already existing data with new
* values.
*
* PB_DECODE_DELIMITED: Input message starts with the message size as varint.
* Corresponds to parseDelimitedFrom() in Google's
* protobuf API.
*
* PB_DECODE_NULLTERMINATED: Stop reading when field tag is read as 0. This allows
* reading null terminated messages.
* NOTE: Until nanopb-0.4.0, pb_decode() also allows
* null-termination. This behaviour is not supported in
* most other protobuf implementations, so PB_DECODE_DELIMITED
* is a better option for compatibility.
*
* Multiple flags can be combined with bitwise or (| operator)
*/
#define PB_DECODE_NOINIT 0x01U
#define PB_DECODE_DELIMITED 0x02U
#define PB_DECODE_NULLTERMINATED 0x04U
bool pb_decode_ex(pb_istream_t *stream, const pb_msgdesc_t *fields, void *dest_struct, unsigned int flags);
/* Defines for backwards compatibility with code written before nanopb-0.4.0 */
#define pb_decode_noinit(s,f,d) pb_decode_ex(s,f,d, PB_DECODE_NOINIT)
#define pb_decode_delimited(s,f,d) pb_decode_ex(s,f,d, PB_DECODE_DELIMITED)
#define pb_decode_delimited_noinit(s,f,d) pb_decode_ex(s,f,d, PB_DECODE_DELIMITED | PB_DECODE_NOINIT)
#define pb_decode_nullterminated(s,f,d) pb_decode_ex(s,f,d, PB_DECODE_NULLTERMINATED)
/* Release any allocated pointer fields. If you use dynamic allocation, you should
* call this for any successfully decoded message when you are done with it. If
* pb_decode() returns with an error, the message is already released.
*/
void pb_release(const pb_msgdesc_t *fields, void *dest_struct);
/**************************************
* Functions for manipulating streams *
**************************************/
/* Create an input stream for reading from a memory buffer.
*
* msglen should be the actual length of the message, not the full size of
* allocated buffer.
*
* Alternatively, you can use a custom stream that reads directly from e.g.
* a file or a network socket.
*/
pb_istream_t pb_istream_from_buffer(const pb_byte_t *buf, size_t msglen);
/* Function to read from a pb_istream_t. You can use this if you need to
* read some custom header data, or to read data in field callbacks.
*/
bool pb_read(pb_istream_t *stream, pb_byte_t *buf, size_t count);
/************************************************
* Helper functions for writing field callbacks *
************************************************/
/* Decode the tag for the next field in the stream. Gives the wire type and
* field tag. At end of the message, returns false and sets eof to true. */
bool pb_decode_tag(pb_istream_t *stream, pb_wire_type_t *wire_type, uint32_t *tag, bool *eof);
/* Skip the field payload data, given the wire type. */
bool pb_skip_field(pb_istream_t *stream, pb_wire_type_t wire_type);
/* Decode an integer in the varint format. This works for enum, int32,
* int64, uint32 and uint64 field types. */
#ifndef PB_WITHOUT_64BIT
bool pb_decode_varint(pb_istream_t *stream, uint64_t *dest);
#else
#define pb_decode_varint pb_decode_varint32
#endif
/* Decode an integer in the varint format. This works for enum, int32,
* and uint32 field types. */
bool pb_decode_varint32(pb_istream_t *stream, uint32_t *dest);
/* Decode a bool value in varint format. */
bool pb_decode_bool(pb_istream_t *stream, bool *dest);
/* Decode an integer in the zig-zagged svarint format. This works for sint32
* and sint64. */
#ifndef PB_WITHOUT_64BIT
bool pb_decode_svarint(pb_istream_t *stream, int64_t *dest);
#else
bool pb_decode_svarint(pb_istream_t *stream, int32_t *dest);
#endif
/* Decode a fixed32, sfixed32 or float value. You need to pass a pointer to
* a 4-byte wide C variable. */
bool pb_decode_fixed32(pb_istream_t *stream, void *dest);
#ifndef PB_WITHOUT_64BIT
/* Decode a fixed64, sfixed64 or double value. You need to pass a pointer to
* a 8-byte wide C variable. */
bool pb_decode_fixed64(pb_istream_t *stream, void *dest);
#endif
#ifdef PB_CONVERT_DOUBLE_FLOAT
/* Decode a double value into float variable. */
bool pb_decode_double_as_float(pb_istream_t *stream, float *dest);
#endif
/* Make a limited-length substream for reading a PB_WT_STRING field. */
bool pb_make_string_substream(pb_istream_t *stream, pb_istream_t *substream);
bool pb_close_string_substream(pb_istream_t *stream, pb_istream_t *substream);
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif
platform_shared/TEMP_C_EXAMPLE/pb/pb_encode.c
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platform_shared/TEMP_C_EXAMPLE/pb/pb_encode.h
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/* pb_encode.h: Functions to encode protocol buffers. Depends on pb_encode.c.
* The main function is pb_encode. You also need an output stream, and the
* field descriptions created by nanopb_generator.py.
*/
#ifndef PB_ENCODE_H_INCLUDED
#define PB_ENCODE_H_INCLUDED
#include "pb.h"
#ifdef __cplusplus
extern "C" {
#endif
/* Structure for defining custom output streams. You will need to provide
* a callback function to write the bytes to your storage, which can be
* for example a file or a network socket.
*
* The callback must conform to these rules:
*
* 1) Return false on IO errors. This will cause encoding to abort.
* 2) You can use state to store your own data (e.g. buffer pointer).
* 3) pb_write will update bytes_written after your callback runs.
* 4) Substreams will modify max_size and bytes_written. Don't use them
* to calculate any pointers.
*/
struct pb_ostream_s
{
#ifdef PB_BUFFER_ONLY
/* Callback pointer is not used in buffer-only configuration.
* Having an int pointer here allows binary compatibility but
* gives an error if someone tries to assign callback function.
* Also, NULL pointer marks a 'sizing stream' that does not
* write anything.
*/
const int *callback;
#else
bool (*callback)(pb_ostream_t *stream, const pb_byte_t *buf, size_t count);
#endif
/* state is a free field for use of the callback function defined above.
* Note that when pb_ostream_from_buffer() is used, it reserves this field
* for its own use.
*/
void *state;
/* Limit number of output bytes written. Can be set to SIZE_MAX. */
size_t max_size;
/* Number of bytes written so far. */
size_t bytes_written;
#ifndef PB_NO_ERRMSG
/* Pointer to constant (ROM) string when decoding function returns error */
const char *errmsg;
#endif
};
/***************************
* Main encoding functions *
***************************/
/* Encode a single protocol buffers message from C structure into a stream.
* Returns true on success, false on any failure.
* The actual struct pointed to by src_struct must match the description in fields.
* All required fields in the struct are assumed to have been filled in.
*
* Example usage:
* MyMessage msg = {};
* uint8_t buffer[64];
* pb_ostream_t stream;
*
* msg.field1 = 42;
* stream = pb_ostream_from_buffer(buffer, sizeof(buffer));
* pb_encode(&stream, MyMessage_fields, &msg);
*/
bool pb_encode(pb_ostream_t *stream, const pb_msgdesc_t *fields, const void *src_struct);
/* Extended version of pb_encode, with several options to control the
* encoding process:
*
* PB_ENCODE_DELIMITED: Prepend the length of message as a varint.
* Corresponds to writeDelimitedTo() in Google's
* protobuf API.
*
* PB_ENCODE_NULLTERMINATED: Append a null byte to the message for termination.
* NOTE: This behaviour is not supported in most other
* protobuf implementations, so PB_ENCODE_DELIMITED
* is a better option for compatibility.
*/
#define PB_ENCODE_DELIMITED 0x02U
#define PB_ENCODE_NULLTERMINATED 0x04U
bool pb_encode_ex(pb_ostream_t *stream, const pb_msgdesc_t *fields, const void *src_struct, unsigned int flags);
/* Defines for backwards compatibility with code written before nanopb-0.4.0 */
#define pb_encode_delimited(s,f,d) pb_encode_ex(s,f,d, PB_ENCODE_DELIMITED)
#define pb_encode_nullterminated(s,f,d) pb_encode_ex(s,f,d, PB_ENCODE_NULLTERMINATED)
/* Encode the message to get the size of the encoded data, but do not store
* the data. */
bool pb_get_encoded_size(size_t *size, const pb_msgdesc_t *fields, const void *src_struct);
/**************************************
* Functions for manipulating streams *
**************************************/
/* Create an output stream for writing into a memory buffer.
* The number of bytes written can be found in stream.bytes_written after
* encoding the message.
*
* Alternatively, you can use a custom stream that writes directly to e.g.
* a file or a network socket.
*/
pb_ostream_t pb_ostream_from_buffer(pb_byte_t *buf, size_t bufsize);
/* Pseudo-stream for measuring the size of a message without actually storing
* the encoded data.
*
* Example usage:
* MyMessage msg = {};
* pb_ostream_t stream = PB_OSTREAM_SIZING;
* pb_encode(&stream, MyMessage_fields, &msg);
* printf("Message size is %d\n", stream.bytes_written);
*/
#ifndef PB_NO_ERRMSG
#define PB_OSTREAM_SIZING {0,0,0,0,0}
#else
#define PB_OSTREAM_SIZING {0,0,0,0}
#endif
/* Function to write into a pb_ostream_t stream. You can use this if you need
* to append or prepend some custom headers to the message.
*/
bool pb_write(pb_ostream_t *stream, const pb_byte_t *buf, size_t count);
/************************************************
* Helper functions for writing field callbacks *
************************************************/
/* Encode field header based on type and field number defined in the field
* structure. Call this from the callback before writing out field contents. */
bool pb_encode_tag_for_field(pb_ostream_t *stream, const pb_field_iter_t *field);
/* Encode field header by manually specifying wire type. You need to use this
* if you want to write out packed arrays from a callback field. */
bool pb_encode_tag(pb_ostream_t *stream, pb_wire_type_t wiretype, uint32_t field_number);
/* Encode an integer in the varint format.
* This works for bool, enum, int32, int64, uint32 and uint64 field types. */
#ifndef PB_WITHOUT_64BIT
bool pb_encode_varint(pb_ostream_t *stream, uint64_t value);
#else
bool pb_encode_varint(pb_ostream_t *stream, uint32_t value);
#endif
/* Encode an integer in the zig-zagged svarint format.
* This works for sint32 and sint64. */
#ifndef PB_WITHOUT_64BIT
bool pb_encode_svarint(pb_ostream_t *stream, int64_t value);
#else
bool pb_encode_svarint(pb_ostream_t *stream, int32_t value);
#endif
/* Encode a string or bytes type field. For strings, pass strlen(s) as size. */
bool pb_encode_string(pb_ostream_t *stream, const pb_byte_t *buffer, size_t size);
/* Encode a fixed32, sfixed32 or float value.
* You need to pass a pointer to a 4-byte wide C variable. */
bool pb_encode_fixed32(pb_ostream_t *stream, const void *value);
#ifndef PB_WITHOUT_64BIT
/* Encode a fixed64, sfixed64 or double value.
* You need to pass a pointer to a 8-byte wide C variable. */
bool pb_encode_fixed64(pb_ostream_t *stream, const void *value);
#endif
#ifdef PB_CONVERT_DOUBLE_FLOAT
/* Encode a float value so that it appears like a double in the encoded
* message. */
bool pb_encode_float_as_double(pb_ostream_t *stream, float value);
#endif
/* Encode a submessage field.
* You need to pass the pb_field_t array and pointer to struct, just like
* with pb_encode(). This internally encodes the submessage twice, first to
* calculate message size and then to actually write it out.
*/
bool pb_encode_submessage(pb_ostream_t *stream, const pb_msgdesc_t *fields, const void *src_struct);
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif
platform_shared/TEMP_C_EXAMPLE/platform_shared/example.pb.c
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/* Automatically generated nanopb constant definitions */
/* Generated by nanopb-1.0.0-dev */
#include "platform_shared/example.pb.h"
#if PB_PROTO_HEADER_VERSION != 40
#error Regenerate this file with the current version of nanopb generator.
#endif
PB_BIND(IMUReport, IMUReport, AUTO)
#ifndef PB_CONVERT_DOUBLE_FLOAT
/* On some platforms (such as AVR), double is really float.
* To be able to encode/decode double on these platforms, you need.
* to define PB_CONVERT_DOUBLE_FLOAT in pb.h or compiler command line.
*/
PB_STATIC_ASSERT(sizeof(double) == 8, DOUBLE_MUST_BE_8_BYTES)
#endif
platform_shared/TEMP_C_EXAMPLE/platform_shared/example.pb.h
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/* Automatically generated nanopb header */
/* Generated by nanopb-1.0.0-dev */
#ifndef PB_PLATFORM_SHARED_EXAMPLE_PB_H_INCLUDED
#define PB_PLATFORM_SHARED_EXAMPLE_PB_H_INCLUDED
#include <pb.h>
#if PB_PROTO_HEADER_VERSION != 40
#error Regenerate this file with the current version of nanopb generator.
#endif
/* Enum definitions */
typedef enum _IMUType {
IMUType_IMU_NONE = 0,
IMUType_IMU_ACCEL = 1,
IMUType_IMU_GYRO = 2
} IMUType;
/* Struct definitions */
typedef struct _IMUReport {
IMUType type;
double x_val;
} IMUReport;
#ifdef __cplusplus
extern "C" {
#endif
/* Helper constants for enums */
#define _IMUType_MIN IMUType_IMU_NONE
#define _IMUType_MAX IMUType_IMU_GYRO
#define _IMUType_ARRAYSIZE ((IMUType)(IMUType_IMU_GYRO+1))
#define IMUReport_type_ENUMTYPE IMUType
/* Initializer values for message structs */
#define IMUReport_init_default {_IMUType_MIN, 0}
#define IMUReport_init_zero {_IMUType_MIN, 0}
/* Field tags (for use in manual encoding/decoding) */
#define IMUReport_type_tag 1
#define IMUReport_x_val_tag 2
/* Struct field encoding specification for nanopb */
#define IMUReport_FIELDLIST(X, a) \
X(a, STATIC, SINGULAR, UENUM, type, 1) \
X(a, STATIC, SINGULAR, DOUBLE, x_val, 2)
#define IMUReport_CALLBACK NULL
#define IMUReport_DEFAULT NULL
extern const pb_msgdesc_t IMUReport_msg;
/* Defines for backwards compatibility with code written before nanopb-0.4.0 */
#define IMUReport_fields &IMUReport_msg
/* Maximum encoded size of messages (where known) */
#define IMUReport_size 11
#define PLATFORM_SHARED_EXAMPLE_PB_H_MAX_SIZE IMUReport_size
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif