mirrors/monado
1
0
Fork 0
mirror of https://gitlab.freedesktop.org/monado/monado.git synced 2025-01-27 17:08:36 +00:00
Code Issues Actions Packages Projects Releases Wiki Activity

external: Add NanoPB

Browse source
This commit is contained in:
Jakob Bornecrantz 2022-09-20 00:16:30 +01:00 committed by Moses Turner
parent d0c6cfae1d
commit 58186cc63a
12 changed files with 4604 additions and 1 deletions
Show stats Download patch file Download diff file Expand all files Collapse all files

5
.reuse/dep5
View file

@ -109,6 +109,11 @@ Copyright: 2013-2022, David Herberth
License: MIT
Comment: SPDX-License-Identifier missing.
Files: src/external/nanopb/*
Copyright: 2011-2022, Petteri Aimonen
License: Zlib
Comment: License information global from repository.
Files: src/external/tracy/*
Copyright: 2017-2022, Bartosz Taudul
License: BSD-3-Clause

15
src/external/CMakeLists.txt vendored
View file

@ -1,4 +1,4 @@
# Copyright 2020, Collabora, Ltd.
# Copyright 2020-2022, Collabora, Ltd.
# SPDX-License-Identifier: BSL-1.0
# Catch2
@ -51,6 +51,19 @@ if(ANDROID)
target_link_libraries(xrt-external-jni-wrap PUBLIC xrt-external-jnipp)
endif()
# Nano Protobuf
add_library(
xrt-external-nanopb STATIC
nanopb/pb.h
nanopb/pb_common.c
nanopb/pb_common.h
nanopb/pb_decode.c
nanopb/pb_decode.h
nanopb/pb_encode.c
nanopb/pb_encode.h
)
target_include_directories(xrt-external-nanopb PUBLIC ${CMAKE_CURRENT_SOURCE_DIR}/nanopb)
# OpenXR
add_library(xrt-external-openxr INTERFACE)
target_include_directories(

116
src/external/nanopb/AUTHORS.txt vendored Normal file
View file

@ -0,0 +1,116 @@
Petteri Aimonen <jpa@npb.mail.kapsi.fi>
Michael Poole <mdpoole@troilus.org>
Daniel Kan <extremeblue99@gmail.com>
Stan Hu <stanhu@aclimalabs.com>
David Hotham <david.hotham@blueyonder.co.uk>
Steffen Siering <steffen siering gmail com>
Jens Steinhauser <jens.steinhauser@gmail.com>
Pavel Ilin <ilin.pa@gmail.com>
Kent Ryhorchuk <kryhorchuk@xeralux.com>
Martin Donath <scifish@gmail.com>
Oliver Lee <oliverzlee@gmail.com>
Michael Haberler <git@mah.priv.at>
Nicolas Colomer <ncolomer@viadeoteam.com>
Ivan Kravets <me@ikravets.com>
Kyle Manna <kyle@kylemanna.com>
Benjamin Kamath <ben.kamath@synapse.com>
Andrew Ruder <andrew.ruder@elecsyscorp.com>
Kenshi Kawaguchi <kenshi@recurse.ca>
isotes <isotes@gmail.com>
Maxim Khitrov <max@mxcrypt.com>
Yaniv Mordekhay <yanivmo@users.noreply.github.com>
Ming Zhao <mzhao@luminatewireless.com>
Google, Inc.
Tom Roeder <tmroeder@google.com>
Piotr Sikora <piotrsikora@google.com>
Bernhard Krämer <bdkrae@gmail.com>
Konstantin Podsvirov <konstantin@podsvirov.pro>
William A. Kennington III <wak@google.com>
Guillaume Lager <g.lager@innoseis.com>
Tobias Haegermarck <tobias.haegermarck@gmail.com>
Justin DeMartino <jdemarti@gmail.com>
Constantine Grantcharov <cgrantcharov@trustpointinnovation.com>
Nick Ewalt <nicholasewalt@google.com>
Harald Fernengel <harryf@gmx.com>
Alice Wang <aw@squareup.com>
Kevin Fitch <kfitch42@gmail.com>
Kamal Marhubi <kamal@marhubi.com>
Elco Jacobs <elco@brewpi.com>
Sébastien Morin <sebastien.morin@primerogames.com>
Dave Flogeras <dflogeras2@gmail.com>
Edward Z. Yang <ezyang@mit.edu>
Robbie Shade <rjshade@google.com>
Andrew Ballinger <andrewballinger@stratisopt.com>
Hamina, Juha-Pekka <Juha-Pekka.Hamina@nordicsemi.no>
Jason Bishop <jason.bishop@bigassfans.com>
matejcik <ja@matejcik.cz>
Tobias Müller <Tobias_Mueller@twam.info>
Jari Vetoniemi <mailroxas@gmail.com>
Gabriel Staples <ercaguy@gmail.com>
Amarnath <amarnath.h.96@gmail.com>
Michal Rostecki <mrostecki@suse.de>
Pei Wang <wangpei10@baidu.com>
Noah Pendleton <2538614+noahp@users.noreply.github.com>
Pavol Rusnak <pavol@rusnak.io>
der-imp <falkjan@msn.com>
Mark Hill <markleehill@gmail.com>
Torfinn Berset <torfinn@bloom-life.com>
Bo Langgaard Lind <bo.langgaard.lind@gmail.com>
Stephane Dorre <stephane.dorre@cobi.bike>
Phillip Cao <Phillip.Cao@fphcare.co.nz>
Melvin Wang <melvin.mc.wang@gmail.com>
Joshua Salzedo <thHunkn0WNd@gmail.com>
Adam Klama <klama.adam@gmail.com>
Anton Matosov <amatosov@roblox.com>
berni155 <bdkrae@gmail.com>
bolind <bolind@users.noreply.github.com>
David Lin <dtwlin@google.com>
dch <david.hotham@blueyonder.co.uk>
devjoa <devjoa@gmail.com>
Evan Fisher <schleb@gmail.com>
Fay <fay2003hiend@gmail.com>
Florian Märkl <info@florianmaerkl.de>
Franck <franck.sehedic@ledger.fr>
Ilya Averyanov <i.averyanov@geoscan.aero>
John Ullman <jrullman@google.com>
Ket3r <peter.kempter@gmail.com>
maciej <maciej.matuszak@gmail.com>
Marek Zukal <marek.zukal@gmail.com>
Paul Beusterien <paulbeusterien@google.com>
Rogers Guedes <rogers.guedes@smdautomacao.com>
Stefan R. Filipek <srfilipek@gmail.com>
T. Carl Beery <beeryt@users.noreply.github.com>
Vitali Lovich <vlovich@google.com>
Vojtěch Boček <vbocek@gmail.com>
Wael Nasreddine <wael.nasreddine@gmail.com>
wangli28 <wangli28@beyondsoft.com>
Zukaitis <gediminas.zukaitis@office.auriga.msk>
Alex Pacini <alexpacini90@gmail.com>
Cong <congusbongus@gmail.com>
kurddt <kurddt@users.noreply.github.com>
otopetrik <oto.petrik@gmail.com>
Psy-Kai <psykai1993@googlemail.com>
a1lu <a1lu@users.noreply.github.com>
L <46594312+WakandaO2@users.noreply.github.com>
Melvin Wang <mwang@sibros.tech>
Tim Gates <tim.gates@iress.com>
leabut <leabut@users.noreply.github.com>
Angel ILIEV <a.v.iliev13@gmail.com>
Jakub Tymejczyk <jakub@tymejczyk.pl>
Matthew Simmons <simmonmt@acm.org>
Anthony Pesch <inolen@gmail.com>
Avik De <avikde@gmail.com>
ConradWood <github@conradwood.net>
David Sabatie <david.sabatie@notrenet.com>
Sebastian Stockhammer <sebastian.stockhammer@rosenberger.de>
Gil Shapira <gil.shapira@intusurg.com>
Ian Frosst <ianjfrosst@gmail.com>
Ingo Kresse <ingo.kresse@kuka.com>
Ivan Zrno <ivan.zrno2@gmail.com>
Jonathan Seilkopf <j.seilkopf@isatech.de>
Karl Ljungkvist <k.ljungkvist@gmail.com>
Mathis Logemann <mathisloge@gmail.com>
Oleg Dolgy <60554929+odolgy@users.noreply.github.com>
Pavel Sokolov <pavel@sokolov.me>
Slavey Karadzhov <slav@attachix.com>
Tobias Nießen <tniessen@tnie.de>

1
src/external/nanopb/COMMIT.txt vendored Normal file
View file

@ -0,0 +1 @@
nanopb-0.4.6-20-g23993cf

20
src/external/nanopb/LICENSE.txt vendored Normal file
View file

@ -0,0 +1,20 @@
Copyright (c) 2011 Petteri Aimonen <jpa at nanopb.mail.kapsi.fi>
This software is provided 'as-is', without any express or
implied warranty. In no event will the authors be held liable
for any damages arising from the use of this software.
Permission is granted to anyone to use this software for any
purpose, including commercial applications, and to alter it and
redistribute it freely, subject to the following restrictions:
1. The origin of this software must not be misrepresented; you
must not claim that you wrote the original software. If you use
this software in a product, an acknowledgment in the product
documentation would be appreciated but is not required.
2. Altered source versions must be plainly marked as such, and
must not be misrepresented as being the original software.
3. This notice may not be removed or altered from any source
distribution.

911
src/external/nanopb/pb.h vendored Normal file
View file

@ -0,0 +1,911 @@
/* 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 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-0.4.7-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
/* Detect endianness */
#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)) \
&& 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(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
/* 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 uint_least8_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)
/* 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.
*/
typedef uint_least8_t pb_byte_t;
/* 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 | (((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 | (((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 | (((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 | (((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
namespace nanopb {
// Each type will be partially specialized by the generator.
template <typename GenMessageT> struct MessageDescriptor;
} // namespace nanopb
#endif /* __cplusplus */
#endif

388
src/external/nanopb/pb_common.c vendored Normal file
View file

@ -0,0 +1,388 @@
/* 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

49
src/external/nanopb/pb_common.h vendored Normal file
View file

@ -0,0 +1,49 @@
/* 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

1716
src/external/nanopb/pb_decode.c vendored Normal file
View file

File diff suppressed because it is too large Load diff

199
src/external/nanopb/pb_decode.h vendored Normal file
View file

@ -0,0 +1,199 @@
/* 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
void *state; /* Free field for use by callback implementation */
size_t bytes_left;
#ifndef PB_NO_ERRMSG
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)
#ifdef PB_ENABLE_MALLOC
/* 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);
#else
/* Allocation is not supported, so release is no-op */
#define pb_release(fields, dest_struct) PB_UNUSED(fields); PB_UNUSED(dest_struct);
#endif
/**************************************
* 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

1000
src/external/nanopb/pb_encode.c vendored Normal file
View file

File diff suppressed because it is too large Load diff

185
src/external/nanopb/pb_encode.h vendored Normal file
View file

@ -0,0 +1,185 @@
/* 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
void *state; /* Free field for use by callback implementation. */
size_t max_size; /* Limit number of output bytes written (or use SIZE_MAX). */
size_t bytes_written; /* Number of bytes written so far. */
#ifndef PB_NO_ERRMSG
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