+++ /dev/null
-From 60bea96ccef5589bd8d35a438fdb9b3759852f36 Mon Sep 17 00:00:00 2001
-From: Nikos Mavrogiannopoulos <nmav@gnutls.org>
-Date: Sun, 24 Aug 2014 08:14:11 +0200
-Subject: [PATCH] corrected included protobuf's path, to align with protobuf
- 1.0.0
-
----
- configure.ac | 2 +-
- src/Makefile.am | 2 +-
- src/protobuf/google/protobuf-c/protobuf-c.c | 3272 ---------------------------
- src/protobuf/google/protobuf-c/protobuf-c.h | 1079 ---------
- src/protobuf/protobuf-c/protobuf-c.c | 3272 +++++++++++++++++++++++++++
- src/protobuf/protobuf-c/protobuf-c.h | 1079 +++++++++
- 6 files changed, 4353 insertions(+), 4353 deletions(-)
- delete mode 100644 src/protobuf/google/protobuf-c/protobuf-c.c
- delete mode 100644 src/protobuf/google/protobuf-c/protobuf-c.h
- create mode 100644 src/protobuf/protobuf-c/protobuf-c.c
- create mode 100644 src/protobuf/protobuf-c/protobuf-c.h
-
-diff --git a/configure.ac b/configure.ac
-index 0515053..403fc45 100644
---- a/configure.ac
-+++ b/configure.ac
-@@ -78,7 +78,7 @@ if test "$test_for_protobuf" = yes;then
- PKG_CHECK_MODULES([LIBPROTOBUF_C], [libprotobuf-c],
- with_local_protobuf_c=no
- ,
--[AC_LIB_HAVE_LINKFLAGS(protobuf-c,, [#include <google/protobuf-c/protobuf-c.h>], [protobuf_c_message_pack(0,0);])
-+[AC_LIB_HAVE_LINKFLAGS(protobuf-c,, [#include <protobuf-c/protobuf-c.h>], [protobuf_c_message_pack(0,0);])
- if test x$ac_cv_libprotobuf_c = xyes; then
- AC_SUBST([LIBPROTOBUF_C_LIBS], [$LIBPROTOBUF_C])
- with_local_protobuf_c=no
-diff --git a/src/Makefile.am b/src/Makefile.am
-index 74acda4..69d3185 100644
---- a/src/Makefile.am
-+++ b/src/Makefile.am
-@@ -55,7 +55,7 @@ ocserv-args.h: ocserv-args.c
-
- PROTOBUF_SOURCES =
- if LOCAL_PROTOBUF_C
--PROTOBUF_SOURCES += protobuf/google/protobuf-c/protobuf-c.h protobuf/google/protobuf-c/protobuf-c.c
-+PROTOBUF_SOURCES += protobuf/protobuf-c/protobuf-c.h protobuf/protobuf-c/protobuf-c.c
- endif
-
- # Files common to ocserv and occtl.
-diff --git a/src/protobuf/google/protobuf-c/protobuf-c.c b/src/protobuf/google/protobuf-c/protobuf-c.c
-deleted file mode 100644
-index c7fb21d..0000000
---- a/src/protobuf/google/protobuf-c/protobuf-c.c
-+++ /dev/null
-@@ -1,3272 +0,0 @@
--/*
-- * Copyright (c) 2008-2014, Dave Benson and the protobuf-c authors.
-- * All rights reserved.
-- *
-- * Redistribution and use in source and binary forms, with or without
-- * modification, are permitted provided that the following conditions are
-- * met:
-- *
-- * * Redistributions of source code must retain the above copyright
-- * notice, this list of conditions and the following disclaimer.
-- *
-- * * Redistributions in binary form must reproduce the above
-- * copyright notice, this list of conditions and the following disclaimer
-- * in the documentation and/or other materials provided with the
-- * distribution.
-- *
-- * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
-- * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
-- * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
-- * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
-- * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
-- * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
-- * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
-- * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
-- * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-- * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
-- * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-- */
--
--/*! \file
-- * Support library for `protoc-c` generated code.
-- *
-- * This file implements the public API used by the code generated
-- * by `protoc-c`.
-- *
-- * \authors Dave Benson and the protobuf-c authors
-- *
-- * \copyright 2008-2014. Licensed under the terms of the [BSD-2-Clause] license.
-- */
--
--/**
-- * \todo 64-BIT OPTIMIZATION: certain implementations use 32-bit math
-- * even on 64-bit platforms (uint64_size, uint64_pack, parse_uint64).
-- *
-- * \todo Use size_t consistently.
-- */
--
--#include <stdlib.h> /* for malloc, free */
--#include <string.h> /* for strcmp, strlen, memcpy, memmove, memset */
--
--#include "protobuf-c.h"
--
--#define TRUE 1
--#define FALSE 0
--
--#define PROTOBUF_C__ASSERT_NOT_REACHED() assert(0)
--
--/**
-- * \defgroup internal Internal functions and macros
-- *
-- * These are not exported by the library but are useful to developers working
-- * on `libprotobuf-c` itself.
-- */
--
--/**
-- * \defgroup macros Utility macros for manipulating structures
-- *
-- * Macros and constants used to manipulate the base "classes" generated by
-- * `protobuf-c`. They also define limits and check correctness.
-- *
-- * \ingroup internal
-- * @{
-- */
--
--/** The maximum length of a 64-bit integer in varint encoding. */
--#define MAX_UINT64_ENCODED_SIZE 10
--
--#ifndef PROTOBUF_C_UNPACK_ERROR
--# define PROTOBUF_C_UNPACK_ERROR(...)
--#endif
--
--/**
-- * Internal `ProtobufCMessage` manipulation macro.
-- *
-- * Base macro for manipulating a `ProtobufCMessage`. Used by STRUCT_MEMBER() and
-- * STRUCT_MEMBER_PTR().
-- */
--#define STRUCT_MEMBER_P(struct_p, struct_offset) \
-- ((void *) ((uint8_t *) (struct_p) + (struct_offset)))
--
--/**
-- * Return field in a `ProtobufCMessage` based on offset.
-- *
-- * Take a pointer to a `ProtobufCMessage` and find the field at the offset.
-- * Cast it to the passed type.
-- */
--#define STRUCT_MEMBER(member_type, struct_p, struct_offset) \
-- (*(member_type *) STRUCT_MEMBER_P((struct_p), (struct_offset)))
--
--/**
-- * Return field in a `ProtobufCMessage` based on offset.
-- *
-- * Take a pointer to a `ProtobufCMessage` and find the field at the offset. Cast
-- * it to a pointer to the passed type.
-- */
--#define STRUCT_MEMBER_PTR(member_type, struct_p, struct_offset) \
-- ((member_type *) STRUCT_MEMBER_P((struct_p), (struct_offset)))
--
--/* Assertions for magic numbers. */
--
--#define ASSERT_IS_ENUM_DESCRIPTOR(desc) \
-- assert((desc)->magic == PROTOBUF_C__ENUM_DESCRIPTOR_MAGIC)
--
--#define ASSERT_IS_MESSAGE_DESCRIPTOR(desc) \
-- assert((desc)->magic == PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC)
--
--#define ASSERT_IS_MESSAGE(message) \
-- ASSERT_IS_MESSAGE_DESCRIPTOR((message)->descriptor)
--
--#define ASSERT_IS_SERVICE_DESCRIPTOR(desc) \
-- assert((desc)->magic == PROTOBUF_C__SERVICE_DESCRIPTOR_MAGIC)
--
--/**@}*/
--
--/* --- version --- */
--
--const char *
--protobuf_c_version(void)
--{
-- return PROTOBUF_C_VERSION;
--}
--
--uint32_t
--protobuf_c_version_number(void)
--{
-- return PROTOBUF_C_VERSION_NUMBER;
--}
--
--/* --- allocator --- */
--
--static void *
--system_alloc(void *allocator_data, size_t size)
--{
-- return malloc(size);
--}
--
--static void
--system_free(void *allocator_data, void *data)
--{
-- free(data);
--}
--
--static inline void *
--do_alloc(ProtobufCAllocator *allocator, size_t size)
--{
-- return allocator->alloc(allocator->allocator_data, size);
--}
--
--static inline void
--do_free(ProtobufCAllocator *allocator, void *data)
--{
-- if (data != NULL)
-- allocator->free(allocator->allocator_data, data);
--}
--
--/*
-- * This allocator uses the system's malloc() and free(). It is the default
-- * allocator used if NULL is passed as the ProtobufCAllocator to an exported
-- * function.
-- */
--static ProtobufCAllocator protobuf_c__allocator = {
-- .alloc = &system_alloc,
-- .free = &system_free,
-- .allocator_data = NULL,
--};
--
--/* === buffer-simple === */
--
--void
--protobuf_c_buffer_simple_append(ProtobufCBuffer *buffer,
-- size_t len, const uint8_t *data)
--{
-- ProtobufCBufferSimple *simp = (ProtobufCBufferSimple *) buffer;
-- size_t new_len = simp->len + len;
--
-- if (new_len > simp->alloced) {
-- ProtobufCAllocator *allocator = simp->allocator;
-- size_t new_alloced = simp->alloced * 2;
-- uint8_t *new_data;
--
-- if (allocator == NULL)
-- allocator = &protobuf_c__allocator;
-- while (new_alloced < new_len)
-- new_alloced += new_alloced;
-- new_data = do_alloc(allocator, new_alloced);
-- if (!new_data)
-- return;
-- memcpy(new_data, simp->data, simp->len);
-- if (simp->must_free_data)
-- do_free(allocator, simp->data);
-- else
-- simp->must_free_data = TRUE;
-- simp->data = new_data;
-- simp->alloced = new_alloced;
-- }
-- memcpy(simp->data + simp->len, data, len);
-- simp->len = new_len;
--}
--
--/**
-- * \defgroup packedsz protobuf_c_message_get_packed_size() implementation
-- *
-- * Routines mainly used by protobuf_c_message_get_packed_size().
-- *
-- * \ingroup internal
-- * @{
-- */
--
--/**
-- * Return the number of bytes required to store the tag for the field. Includes
-- * 3 bits for the wire-type, and a single bit that denotes the end-of-tag.
-- *
-- * \param number
-- * Field tag to encode.
-- * \return
-- * Number of bytes required.
-- */
--static inline size_t
--get_tag_size(unsigned number)
--{
-- if (number < (1 << 4)) {
-- return 1;
-- } else if (number < (1 << 11)) {
-- return 2;
-- } else if (number < (1 << 18)) {
-- return 3;
-- } else if (number < (1 << 25)) {
-- return 4;
-- } else {
-- return 5;
-- }
--}
--
--/**
-- * Return the number of bytes required to store a variable-length unsigned
-- * 32-bit integer in base-128 varint encoding.
-- *
-- * \param v
-- * Value to encode.
-- * \return
-- * Number of bytes required.
-- */
--static inline size_t
--uint32_size(uint32_t v)
--{
-- if (v < (1 << 7)) {
-- return 1;
-- } else if (v < (1 << 14)) {
-- return 2;
-- } else if (v < (1 << 21)) {
-- return 3;
-- } else if (v < (1 << 28)) {
-- return 4;
-- } else {
-- return 5;
-- }
--}
--
--/**
-- * Return the number of bytes required to store a variable-length signed 32-bit
-- * integer in base-128 varint encoding.
-- *
-- * \param v
-- * Value to encode.
-- * \return
-- * Number of bytes required.
-- */
--static inline size_t
--int32_size(int32_t v)
--{
-- if (v < 0) {
-- return 10;
-- } else if (v < (1 << 7)) {
-- return 1;
-- } else if (v < (1 << 14)) {
-- return 2;
-- } else if (v < (1 << 21)) {
-- return 3;
-- } else if (v < (1 << 28)) {
-- return 4;
-- } else {
-- return 5;
-- }
--}
--
--/**
-- * Return the ZigZag-encoded 32-bit unsigned integer form of a 32-bit signed
-- * integer.
-- *
-- * \param v
-- * Value to encode.
-- * \return
-- * ZigZag encoded integer.
-- */
--static inline uint32_t
--zigzag32(int32_t v)
--{
-- if (v < 0)
-- return ((uint32_t) (-v)) * 2 - 1;
-- else
-- return v * 2;
--}
--
--/**
-- * Return the number of bytes required to store a signed 32-bit integer,
-- * converted to an unsigned 32-bit integer with ZigZag encoding, using base-128
-- * varint encoding.
-- *
-- * \param v
-- * Value to encode.
-- * \return
-- * Number of bytes required.
-- */
--static inline size_t
--sint32_size(int32_t v)
--{
-- return uint32_size(zigzag32(v));
--}
--
--/**
-- * Return the number of bytes required to store a 64-bit unsigned integer in
-- * base-128 varint encoding.
-- *
-- * \param v
-- * Value to encode.
-- * \return
-- * Number of bytes required.
-- */
--static inline size_t
--uint64_size(uint64_t v)
--{
-- uint32_t upper_v = (uint32_t) (v >> 32);
--
-- if (upper_v == 0) {
-- return uint32_size((uint32_t) v);
-- } else if (upper_v < (1 << 3)) {
-- return 5;
-- } else if (upper_v < (1 << 10)) {
-- return 6;
-- } else if (upper_v < (1 << 17)) {
-- return 7;
-- } else if (upper_v < (1 << 24)) {
-- return 8;
-- } else if (upper_v < (1U << 31)) {
-- return 9;
-- } else {
-- return 10;
-- }
--}
--
--/**
-- * Return the ZigZag-encoded 64-bit unsigned integer form of a 64-bit signed
-- * integer.
-- *
-- * \param v
-- * Value to encode.
-- * \return
-- * ZigZag encoded integer.
-- */
--static inline uint64_t
--zigzag64(int64_t v)
--{
-- if (v < 0)
-- return ((uint64_t) (-v)) * 2 - 1;
-- else
-- return v * 2;
--}
--
--/**
-- * Return the number of bytes required to store a signed 64-bit integer,
-- * converted to an unsigned 64-bit integer with ZigZag encoding, using base-128
-- * varint encoding.
-- *
-- * \param v
-- * Value to encode.
-- * \return
-- * Number of bytes required.
-- */
--static inline size_t
--sint64_size(int64_t v)
--{
-- return uint64_size(zigzag64(v));
--}
--
--/**
-- * Calculate the serialized size of a single required message field, including
-- * the space needed by the preceding tag.
-- *
-- * \param field
-- * Field descriptor for member.
-- * \param member
-- * Field to encode.
-- * \return
-- * Number of bytes required.
-- */
--static size_t
--required_field_get_packed_size(const ProtobufCFieldDescriptor *field,
-- const void *member)
--{
-- size_t rv = get_tag_size(field->id);
--
-- switch (field->type) {
-- case PROTOBUF_C_TYPE_SINT32:
-- return rv + sint32_size(*(const int32_t *) member);
-- case PROTOBUF_C_TYPE_INT32:
-- return rv + int32_size(*(const uint32_t *) member);
-- case PROTOBUF_C_TYPE_UINT32:
-- return rv + uint32_size(*(const uint32_t *) member);
-- case PROTOBUF_C_TYPE_SINT64:
-- return rv + sint64_size(*(const int64_t *) member);
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_UINT64:
-- return rv + uint64_size(*(const uint64_t *) member);
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- return rv + 4;
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- return rv + 8;
-- case PROTOBUF_C_TYPE_BOOL:
-- return rv + 1;
-- case PROTOBUF_C_TYPE_FLOAT:
-- return rv + 4;
-- case PROTOBUF_C_TYPE_DOUBLE:
-- return rv + 8;
-- case PROTOBUF_C_TYPE_ENUM:
-- /* \todo Is this correct for negative-valued enums? */
-- return rv + uint32_size(*(const uint32_t *) member);
-- case PROTOBUF_C_TYPE_STRING: {
-- const char *str = *(char * const *) member;
-- size_t len = str ? strlen(str) : 0;
-- return rv + uint32_size(len) + len;
-- }
-- case PROTOBUF_C_TYPE_BYTES: {
-- size_t len = ((const ProtobufCBinaryData *) member)->len;
-- return rv + uint32_size(len) + len;
-- }
-- case PROTOBUF_C_TYPE_MESSAGE: {
-- const ProtobufCMessage *msg = *(ProtobufCMessage * const *) member;
-- size_t subrv = msg ? protobuf_c_message_get_packed_size(msg) : 0;
-- return rv + uint32_size(subrv) + subrv;
-- }
-- }
-- PROTOBUF_C__ASSERT_NOT_REACHED();
-- return 0;
--}
--
--/**
-- * Calculate the serialized size of a single optional message field, including
-- * the space needed by the preceding tag. Returns 0 if the optional field isn't
-- * set.
-- *
-- * \param field
-- * Field descriptor for member.
-- * \param has
-- * True if the field exists, false if not.
-- * \param member
-- * Field to encode.
-- * \return
-- * Number of bytes required.
-- */
--static size_t
--optional_field_get_packed_size(const ProtobufCFieldDescriptor *field,
-- const protobuf_c_boolean *has,
-- const void *member)
--{
-- if (field->type == PROTOBUF_C_TYPE_MESSAGE ||
-- field->type == PROTOBUF_C_TYPE_STRING)
-- {
-- const void *ptr = *(const void * const *) member;
-- if (ptr == NULL || ptr == field->default_value)
-- return 0;
-- } else {
-- if (!*has)
-- return 0;
-- }
-- return required_field_get_packed_size(field, member);
--}
--
--/**
-- * Calculate the serialized size of repeated message fields, which may consist
-- * of any number of values (including 0). Includes the space needed by the
-- * preceding tags (as needed).
-- *
-- * \param field
-- * Field descriptor for member.
-- * \param count
-- * Number of repeated field members.
-- * \param member
-- * Field to encode.
-- * \return
-- * Number of bytes required.
-- */
--static size_t
--repeated_field_get_packed_size(const ProtobufCFieldDescriptor *field,
-- size_t count, const void *member)
--{
-- size_t header_size;
-- size_t rv = 0;
-- unsigned i;
-- void *array = *(void * const *) member;
--
-- if (count == 0)
-- return 0;
-- header_size = get_tag_size(field->id);
-- if (0 == (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED))
-- header_size *= count;
--
-- switch (field->type) {
-- case PROTOBUF_C_TYPE_SINT32:
-- for (i = 0; i < count; i++)
-- rv += sint32_size(((int32_t *) array)[i]);
-- break;
-- case PROTOBUF_C_TYPE_INT32:
-- for (i = 0; i < count; i++)
-- rv += int32_size(((uint32_t *) array)[i]);
-- break;
-- case PROTOBUF_C_TYPE_UINT32:
-- case PROTOBUF_C_TYPE_ENUM:
-- for (i = 0; i < count; i++)
-- rv += uint32_size(((uint32_t *) array)[i]);
-- break;
-- case PROTOBUF_C_TYPE_SINT64:
-- for (i = 0; i < count; i++)
-- rv += sint64_size(((int64_t *) array)[i]);
-- break;
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_UINT64:
-- for (i = 0; i < count; i++)
-- rv += uint64_size(((uint64_t *) array)[i]);
-- break;
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
-- rv += 4 * count;
-- break;
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
-- rv += 8 * count;
-- break;
-- case PROTOBUF_C_TYPE_BOOL:
-- rv += count;
-- break;
-- case PROTOBUF_C_TYPE_STRING:
-- for (i = 0; i < count; i++) {
-- size_t len = strlen(((char **) array)[i]);
-- rv += uint32_size(len) + len;
-- }
-- break;
-- case PROTOBUF_C_TYPE_BYTES:
-- for (i = 0; i < count; i++) {
-- size_t len = ((ProtobufCBinaryData *) array)[i].len;
-- rv += uint32_size(len) + len;
-- }
-- break;
-- case PROTOBUF_C_TYPE_MESSAGE:
-- for (i = 0; i < count; i++) {
-- size_t len = protobuf_c_message_get_packed_size(
-- ((ProtobufCMessage **) array)[i]);
-- rv += uint32_size(len) + len;
-- }
-- break;
-- }
--
-- if (0 != (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED))
-- header_size += uint32_size(rv);
-- return header_size + rv;
--}
--
--/**
-- * Calculate the serialized size of an unknown field, i.e. one that is passed
-- * through mostly uninterpreted. This is required for forward compatibility if
-- * new fields are added to the message descriptor.
-- *
-- * \param field
-- * Unknown field type.
-- * \return
-- * Number of bytes required.
-- */
--static inline size_t
--unknown_field_get_packed_size(const ProtobufCMessageUnknownField *field)
--{
-- return get_tag_size(field->tag) + field->len;
--}
--
--/**@}*/
--
--/*
-- * Calculate the serialized size of the message.
-- */
--size_t protobuf_c_message_get_packed_size(const ProtobufCMessage *message)
--{
-- unsigned i;
-- size_t rv = 0;
--
-- ASSERT_IS_MESSAGE(message);
-- for (i = 0; i < message->descriptor->n_fields; i++) {
-- const ProtobufCFieldDescriptor *field =
-- message->descriptor->fields + i;
-- const void *member =
-- ((const char *) message) + field->offset;
-- const void *qmember =
-- ((const char *) message) + field->quantifier_offset;
--
-- if (field->label == PROTOBUF_C_LABEL_REQUIRED) {
-- rv += required_field_get_packed_size(field, member);
-- } else if (field->label == PROTOBUF_C_LABEL_OPTIONAL) {
-- rv += optional_field_get_packed_size(field, qmember, member);
-- } else {
-- rv += repeated_field_get_packed_size(
-- field,
-- *(const size_t *) qmember,
-- member
-- );
-- }
-- }
-- for (i = 0; i < message->n_unknown_fields; i++)
-- rv += unknown_field_get_packed_size(&message->unknown_fields[i]);
-- return rv;
--}
--
--/**
-- * \defgroup pack protobuf_c_message_pack() implementation
-- *
-- * Routines mainly used by protobuf_c_message_pack().
-- *
-- * \ingroup internal
-- * @{
-- */
--
--/**
-- * Pack an unsigned 32-bit integer in base-128 varint encoding and return the
-- * number of bytes written, which must be 5 or less.
-- *
-- * \param value
-- * Value to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static inline size_t
--uint32_pack(uint32_t value, uint8_t *out)
--{
-- unsigned rv = 0;
--
-- if (value >= 0x80) {
-- out[rv++] = value | 0x80;
-- value >>= 7;
-- if (value >= 0x80) {
-- out[rv++] = value | 0x80;
-- value >>= 7;
-- if (value >= 0x80) {
-- out[rv++] = value | 0x80;
-- value >>= 7;
-- if (value >= 0x80) {
-- out[rv++] = value | 0x80;
-- value >>= 7;
-- }
-- }
-- }
-- }
-- /* assert: value<128 */
-- out[rv++] = value;
-- return rv;
--}
--
--/**
-- * Pack a signed 32-bit integer and return the number of bytes written.
-- * Negative numbers are encoded as two's complement 64-bit integers.
-- *
-- * \param value
-- * Value to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static inline size_t
--int32_pack(int32_t value, uint8_t *out)
--{
-- if (value < 0) {
-- out[0] = value | 0x80;
-- out[1] = (value >> 7) | 0x80;
-- out[2] = (value >> 14) | 0x80;
-- out[3] = (value >> 21) | 0x80;
-- out[4] = (value >> 28) | 0x80;
-- out[5] = out[6] = out[7] = out[8] = 0xff;
-- out[9] = 0x01;
-- return 10;
-- } else {
-- return uint32_pack(value, out);
-- }
--}
--
--/**
-- * Pack a signed 32-bit integer using ZigZag encoding and return the number of
-- * bytes written.
-- *
-- * \param value
-- * Value to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static inline size_t
--sint32_pack(int32_t value, uint8_t *out)
--{
-- return uint32_pack(zigzag32(value), out);
--}
--
--/**
-- * Pack a 64-bit unsigned integer using base-128 varint encoding and return the
-- * number of bytes written.
-- *
-- * \param value
-- * Value to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static size_t
--uint64_pack(uint64_t value, uint8_t *out)
--{
-- uint32_t hi = (uint32_t) (value >> 32);
-- uint32_t lo = (uint32_t) value;
-- unsigned rv;
--
-- if (hi == 0)
-- return uint32_pack((uint32_t) lo, out);
-- out[0] = (lo) | 0x80;
-- out[1] = (lo >> 7) | 0x80;
-- out[2] = (lo >> 14) | 0x80;
-- out[3] = (lo >> 21) | 0x80;
-- if (hi < 8) {
-- out[4] = (hi << 4) | (lo >> 28);
-- return 5;
-- } else {
-- out[4] = ((hi & 7) << 4) | (lo >> 28) | 0x80;
-- hi >>= 3;
-- }
-- rv = 5;
-- while (hi >= 128) {
-- out[rv++] = hi | 0x80;
-- hi >>= 7;
-- }
-- out[rv++] = hi;
-- return rv;
--}
--
--/**
-- * Pack a 64-bit signed integer in ZigZag encoding and return the number of
-- * bytes written.
-- *
-- * \param value
-- * Value to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static inline size_t
--sint64_pack(int64_t value, uint8_t *out)
--{
-- return uint64_pack(zigzag64(value), out);
--}
--
--/**
-- * Pack a 32-bit quantity in little-endian byte order. Used for protobuf wire
-- * types fixed32, sfixed32, float. Similar to "htole32".
-- *
-- * \param value
-- * Value to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static inline size_t
--fixed32_pack(uint32_t value, void *out)
--{
--#if !defined(WORDS_BIGENDIAN)
-- memcpy(out, &value, 4);
--#else
-- uint8_t *buf = out;
--
-- buf[0] = value;
-- buf[1] = value >> 8;
-- buf[2] = value >> 16;
-- buf[3] = value >> 24;
--#endif
-- return 4;
--}
--
--/**
-- * Pack a 64-bit quantity in little-endian byte order. Used for protobuf wire
-- * types fixed64, sfixed64, double. Similar to "htole64".
-- *
-- * \todo The big-endian impl is really only good for 32-bit machines, a 64-bit
-- * version would be appreciated, plus a way to decide to use 64-bit math where
-- * convenient.
-- *
-- * \param value
-- * Value to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static inline size_t
--fixed64_pack(uint64_t value, void *out)
--{
--#if !defined(WORDS_BIGENDIAN)
-- memcpy(out, &value, 8);
--#else
-- fixed32_pack(value, out);
-- fixed32_pack(value >> 32, ((char *) out) + 4);
--#endif
-- return 8;
--}
--
--/**
-- * Pack a boolean value as an integer and return the number of bytes written.
-- *
-- * \todo Perhaps on some platforms *out = !!value would be a better impl, b/c
-- * that is idiomatic C++ in some STL implementations.
-- *
-- * \param value
-- * Value to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static inline size_t
--boolean_pack(protobuf_c_boolean value, uint8_t *out)
--{
-- *out = value ? TRUE : FALSE;
-- return 1;
--}
--
--/**
-- * Pack a NUL-terminated C string and return the number of bytes written. The
-- * output includes a length delimiter.
-- *
-- * The NULL pointer is treated as an empty string. This isn't really necessary,
-- * but it allows people to leave required strings blank. (See Issue #13 in the
-- * bug tracker for a little more explanation).
-- *
-- * \param str
-- * String to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static inline size_t
--string_pack(const char *str, uint8_t *out)
--{
-- if (str == NULL) {
-- out[0] = 0;
-- return 1;
-- } else {
-- size_t len = strlen(str);
-- size_t rv = uint32_pack(len, out);
-- memcpy(out + rv, str, len);
-- return rv + len;
-- }
--}
--
--/**
-- * Pack a ProtobufCBinaryData and return the number of bytes written. The output
-- * includes a length delimiter.
-- *
-- * \param bd
-- * ProtobufCBinaryData to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static inline size_t
--binary_data_pack(const ProtobufCBinaryData *bd, uint8_t *out)
--{
-- size_t len = bd->len;
-- size_t rv = uint32_pack(len, out);
-- memcpy(out + rv, bd->data, len);
-- return rv + len;
--}
--
--/**
-- * Pack a ProtobufCMessage and return the number of bytes written. The output
-- * includes a length delimiter.
-- *
-- * \param message
-- * ProtobufCMessage object to pack.
-- * \param[out] out
-- * Packed message.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static inline size_t
--prefixed_message_pack(const ProtobufCMessage *message, uint8_t *out)
--{
-- if (message == NULL) {
-- out[0] = 0;
-- return 1;
-- } else {
-- size_t rv = protobuf_c_message_pack(message, out + 1);
-- uint32_t rv_packed_size = uint32_size(rv);
-- if (rv_packed_size != 1)
-- memmove(out + rv_packed_size, out + 1, rv);
-- return uint32_pack(rv, out) + rv;
-- }
--}
--
--/**
-- * Pack a field tag.
-- *
-- * Wire-type will be added in required_field_pack().
-- *
-- * \todo Just call uint64_pack on 64-bit platforms.
-- *
-- * \param id
-- * Tag value to encode.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static size_t
--tag_pack(uint32_t id, uint8_t *out)
--{
-- if (id < (1 << (32 - 3)))
-- return uint32_pack(id << 3, out);
-- else
-- return uint64_pack(((uint64_t) id) << 3, out);
--}
--
--/**
-- * Pack a required field and return the number of bytes written.
-- *
-- * \param field
-- * Field descriptor.
-- * \param member
-- * The field member.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static size_t
--required_field_pack(const ProtobufCFieldDescriptor *field,
-- const void *member, uint8_t *out)
--{
-- size_t rv = tag_pack(field->id, out);
--
-- switch (field->type) {
-- case PROTOBUF_C_TYPE_SINT32:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- return rv + sint32_pack(*(const int32_t *) member, out + rv);
-- case PROTOBUF_C_TYPE_INT32:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- return rv + int32_pack(*(const uint32_t *) member, out + rv);
-- case PROTOBUF_C_TYPE_UINT32:
-- case PROTOBUF_C_TYPE_ENUM:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- return rv + uint32_pack(*(const uint32_t *) member, out + rv);
-- case PROTOBUF_C_TYPE_SINT64:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- return rv + sint64_pack(*(const int64_t *) member, out + rv);
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_UINT64:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- return rv + uint64_pack(*(const uint64_t *) member, out + rv);
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_32BIT;
-- return rv + fixed32_pack(*(const uint32_t *) member, out + rv);
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_64BIT;
-- return rv + fixed64_pack(*(const uint64_t *) member, out + rv);
-- case PROTOBUF_C_TYPE_BOOL:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- return rv + boolean_pack(*(const protobuf_c_boolean *) member, out + rv);
-- case PROTOBUF_C_TYPE_STRING:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-- return rv + string_pack(*(char *const *) member, out + rv);
-- case PROTOBUF_C_TYPE_BYTES:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-- return rv + binary_data_pack((const ProtobufCBinaryData *) member, out + rv);
-- case PROTOBUF_C_TYPE_MESSAGE:
-- out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-- return rv + prefixed_message_pack(*(ProtobufCMessage * const *) member, out + rv);
-- }
-- PROTOBUF_C__ASSERT_NOT_REACHED();
-- return 0;
--}
--
--/**
-- * Pack an optional field and return the number of bytes written.
-- *
-- * \param field
-- * Field descriptor.
-- * \param has
-- * Whether the field is set.
-- * \param member
-- * The field member.
-- * \param[out] out
-- * Packed value.
-- * \return
-- * Number of bytes written to `out`.
-- */
--static size_t
--optional_field_pack(const ProtobufCFieldDescriptor *field,
-- const protobuf_c_boolean *has,
-- const void *member, uint8_t *out)
--{
-- if (field->type == PROTOBUF_C_TYPE_MESSAGE ||
-- field->type == PROTOBUF_C_TYPE_STRING)
-- {
-- const void *ptr = *(const void * const *) member;
-- if (ptr == NULL || ptr == field->default_value)
-- return 0;
-- } else {
-- if (!*has)
-- return 0;
-- }
-- return required_field_pack(field, member, out);
--}
--
--/**
-- * Given a field type, return the in-memory size.
-- *
-- * \todo Implement as a table lookup.
-- *
-- * \param type
-- * Field type.
-- * \return
-- * Size of the field.
-- */
--static inline size_t
--sizeof_elt_in_repeated_array(ProtobufCType type)
--{
-- switch (type) {
-- case PROTOBUF_C_TYPE_SINT32:
-- case PROTOBUF_C_TYPE_INT32:
-- case PROTOBUF_C_TYPE_UINT32:
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
-- case PROTOBUF_C_TYPE_ENUM:
-- return 4;
-- case PROTOBUF_C_TYPE_SINT64:
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_UINT64:
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
-- return 8;
-- case PROTOBUF_C_TYPE_BOOL:
-- return sizeof(protobuf_c_boolean);
-- case PROTOBUF_C_TYPE_STRING:
-- case PROTOBUF_C_TYPE_MESSAGE:
-- return sizeof(void *);
-- case PROTOBUF_C_TYPE_BYTES:
-- return sizeof(ProtobufCBinaryData);
-- }
-- PROTOBUF_C__ASSERT_NOT_REACHED();
-- return 0;
--}
--
--/**
-- * Pack an array of 32-bit quantities.
-- *
-- * \param[out] out
-- * Destination.
-- * \param[in] in
-- * Source.
-- * \param[in] n
-- * Number of elements in the source array.
-- */
--static void
--copy_to_little_endian_32(void *out, const void *in, const unsigned n)
--{
--#if !defined(WORDS_BIGENDIAN)
-- memcpy(out, in, n * 4);
--#else
-- unsigned i;
-- const uint32_t *ini = in;
-- for (i = 0; i < n; i++)
-- fixed32_pack(ini[i], (uint32_t *) out + i);
--#endif
--}
--
--/**
-- * Pack an array of 64-bit quantities.
-- *
-- * \param[out] out
-- * Destination.
-- * \param[in] in
-- * Source.
-- * \param[in] n
-- * Number of elements in the source array.
-- */
--static void
--copy_to_little_endian_64(void *out, const void *in, const unsigned n)
--{
--#if !defined(WORDS_BIGENDIAN)
-- memcpy(out, in, n * 8);
--#else
-- unsigned i;
-- const uint64_t *ini = in;
-- for (i = 0; i < n; i++)
-- fixed64_pack(ini[i], (uint64_t *) out + i);
--#endif
--}
--
--/**
-- * Get the minimum number of bytes required to pack a field value of a
-- * particular type.
-- *
-- * \param type
-- * Field type.
-- * \return
-- * Number of bytes.
-- */
--static unsigned
--get_type_min_size(ProtobufCType type)
--{
-- if (type == PROTOBUF_C_TYPE_SFIXED32 ||
-- type == PROTOBUF_C_TYPE_FIXED32 ||
-- type == PROTOBUF_C_TYPE_FLOAT)
-- {
-- return 4;
-- }
-- if (type == PROTOBUF_C_TYPE_SFIXED64 ||
-- type == PROTOBUF_C_TYPE_FIXED64 ||
-- type == PROTOBUF_C_TYPE_DOUBLE)
-- {
-- return 8;
-- }
-- return 1;
--}
--
--/**
-- * Packs the elements of a repeated field and returns the serialised field and
-- * its length.
-- *
-- * \param field
-- * Field descriptor.
-- * \param count
-- * Number of elements in the repeated field array.
-- * \param member
-- * Pointer to the elements for this repeated field.
-- * \param[out] out
-- * Serialised representation of the repeated field.
-- * \return
-- * Number of bytes serialised to `out`.
-- */
--static size_t
--repeated_field_pack(const ProtobufCFieldDescriptor *field,
-- size_t count, const void *member, uint8_t *out)
--{
-- void *array = *(void * const *) member;
-- unsigned i;
--
-- if (0 != (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED)) {
-- unsigned header_len;
-- unsigned len_start;
-- unsigned min_length;
-- unsigned payload_len;
-- unsigned length_size_min;
-- unsigned actual_length_size;
-- uint8_t *payload_at;
--
-- if (count == 0)
-- return 0;
-- header_len = tag_pack(field->id, out);
-- out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-- len_start = header_len;
-- min_length = get_type_min_size(field->type) * count;
-- length_size_min = uint32_size(min_length);
-- header_len += length_size_min;
-- payload_at = out + header_len;
--
-- switch (field->type) {
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
-- copy_to_little_endian_32(payload_at, array, count);
-- payload_at += count * 4;
-- break;
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
-- copy_to_little_endian_64(payload_at, array, count);
-- payload_at += count * 8;
-- break;
-- case PROTOBUF_C_TYPE_INT32: {
-- const int32_t *arr = (const int32_t *) array;
-- for (i = 0; i < count; i++)
-- payload_at += int32_pack(arr[i], payload_at);
-- break;
-- }
-- case PROTOBUF_C_TYPE_SINT32: {
-- const int32_t *arr = (const int32_t *) array;
-- for (i = 0; i < count; i++)
-- payload_at += sint32_pack(arr[i], payload_at);
-- break;
-- }
-- case PROTOBUF_C_TYPE_SINT64: {
-- const int64_t *arr = (const int64_t *) array;
-- for (i = 0; i < count; i++)
-- payload_at += sint64_pack(arr[i], payload_at);
-- break;
-- }
-- case PROTOBUF_C_TYPE_ENUM:
-- case PROTOBUF_C_TYPE_UINT32: {
-- const uint32_t *arr = (const uint32_t *) array;
-- for (i = 0; i < count; i++)
-- payload_at += uint32_pack(arr[i], payload_at);
-- break;
-- }
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_UINT64: {
-- const uint64_t *arr = (const uint64_t *) array;
-- for (i = 0; i < count; i++)
-- payload_at += uint64_pack(arr[i], payload_at);
-- break;
-- }
-- case PROTOBUF_C_TYPE_BOOL: {
-- const protobuf_c_boolean *arr = (const protobuf_c_boolean *) array;
-- for (i = 0; i < count; i++)
-- payload_at += boolean_pack(arr[i], payload_at);
-- break;
-- }
-- default:
-- PROTOBUF_C__ASSERT_NOT_REACHED();
-- }
--
-- payload_len = payload_at - (out + header_len);
-- actual_length_size = uint32_size(payload_len);
-- if (length_size_min != actual_length_size) {
-- assert(actual_length_size == length_size_min + 1);
-- memmove(out + header_len + 1, out + header_len,
-- payload_len);
-- header_len++;
-- }
-- uint32_pack(payload_len, out + len_start);
-- return header_len + payload_len;
-- } else {
-- /* not "packed" cased */
-- /* CONSIDER: optimize this case a bit (by putting the loop inside the switch) */
-- size_t rv = 0;
-- unsigned siz = sizeof_elt_in_repeated_array(field->type);
--
-- for (i = 0; i < count; i++) {
-- rv += required_field_pack(field, array, out + rv);
-- array = (char *)array + siz;
-- }
-- return rv;
-- }
--}
--
--static size_t
--unknown_field_pack(const ProtobufCMessageUnknownField *field, uint8_t *out)
--{
-- size_t rv = tag_pack(field->tag, out);
-- out[0] |= field->wire_type;
-- memcpy(out + rv, field->data, field->len);
-- return rv + field->len;
--}
--
--/**@}*/
--
--size_t
--protobuf_c_message_pack(const ProtobufCMessage *message, uint8_t *out)
--{
-- unsigned i;
-- size_t rv = 0;
--
-- ASSERT_IS_MESSAGE(message);
-- for (i = 0; i < message->descriptor->n_fields; i++) {
-- const ProtobufCFieldDescriptor *field =
-- message->descriptor->fields + i;
-- const void *member = ((const char *) message) + field->offset;
--
-- /*
-- * It doesn't hurt to compute qmember (a pointer to the
-- * quantifier field of the structure), but the pointer is only
-- * valid if the field is:
-- * - a repeated field, or
-- * - an optional field that isn't a pointer type
-- * (Meaning: not a message or a string).
-- */
-- const void *qmember =
-- ((const char *) message) + field->quantifier_offset;
--
-- if (field->label == PROTOBUF_C_LABEL_REQUIRED) {
-- rv += required_field_pack(field, member, out + rv);
-- } else if (field->label == PROTOBUF_C_LABEL_OPTIONAL) {
-- /*
-- * Note that qmember is bogus for strings and messages,
-- * but it isn't used.
-- */
-- rv += optional_field_pack(field, qmember, member, out + rv);
-- } else {
-- rv += repeated_field_pack(field, *(const size_t *) qmember,
-- member, out + rv);
-- }
-- }
-- for (i = 0; i < message->n_unknown_fields; i++)
-- rv += unknown_field_pack(&message->unknown_fields[i], out + rv);
-- return rv;
--}
--
--/**
-- * \defgroup packbuf protobuf_c_message_pack_to_buffer() implementation
-- *
-- * Routines mainly used by protobuf_c_message_pack_to_buffer().
-- *
-- * \ingroup internal
-- * @{
-- */
--
--/**
-- * Pack a required field to a virtual buffer.
-- *
-- * \param field
-- * Field descriptor.
-- * \param member
-- * The element to be packed.
-- * \param[out] buffer
-- * Virtual buffer to append data to.
-- * \return
-- * Number of bytes packed.
-- */
--static size_t
--required_field_pack_to_buffer(const ProtobufCFieldDescriptor *field,
-- const void *member, ProtobufCBuffer *buffer)
--{
-- size_t rv;
-- uint8_t scratch[MAX_UINT64_ENCODED_SIZE * 2];
--
-- rv = tag_pack(field->id, scratch);
-- switch (field->type) {
-- case PROTOBUF_C_TYPE_SINT32:
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- rv += sint32_pack(*(const int32_t *) member, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- break;
-- case PROTOBUF_C_TYPE_INT32:
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- rv += int32_pack(*(const uint32_t *) member, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- break;
-- case PROTOBUF_C_TYPE_UINT32:
-- case PROTOBUF_C_TYPE_ENUM:
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- rv += uint32_pack(*(const uint32_t *) member, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- break;
-- case PROTOBUF_C_TYPE_SINT64:
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- rv += sint64_pack(*(const int64_t *) member, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- break;
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_UINT64:
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- rv += uint64_pack(*(const uint64_t *) member, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- break;
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_32BIT;
-- rv += fixed32_pack(*(const uint32_t *) member, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- break;
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_64BIT;
-- rv += fixed64_pack(*(const uint64_t *) member, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- break;
-- case PROTOBUF_C_TYPE_BOOL:
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-- rv += boolean_pack(*(const protobuf_c_boolean *) member, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- break;
-- case PROTOBUF_C_TYPE_STRING: {
-- const char *str = *(char *const *) member;
-- size_t sublen = str ? strlen(str) : 0;
--
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-- rv += uint32_pack(sublen, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- buffer->append(buffer, sublen, (const uint8_t *) str);
-- rv += sublen;
-- break;
-- }
-- case PROTOBUF_C_TYPE_BYTES: {
-- const ProtobufCBinaryData *bd = ((const ProtobufCBinaryData *) member);
-- size_t sublen = bd->len;
--
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-- rv += uint32_pack(sublen, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- buffer->append(buffer, sublen, bd->data);
-- rv += sublen;
-- break;
-- }
-- case PROTOBUF_C_TYPE_MESSAGE: {
-- uint8_t simple_buffer_scratch[256];
-- size_t sublen;
-- const ProtobufCMessage *msg = *(ProtobufCMessage * const *) member;
-- ProtobufCBufferSimple simple_buffer =
-- PROTOBUF_C_BUFFER_SIMPLE_INIT(simple_buffer_scratch);
--
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-- if (msg == NULL)
-- sublen = 0;
-- else
-- sublen = protobuf_c_message_pack_to_buffer(msg, &simple_buffer.base);
-- rv += uint32_pack(sublen, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- buffer->append(buffer, sublen, simple_buffer.data);
-- rv += sublen;
-- PROTOBUF_C_BUFFER_SIMPLE_CLEAR(&simple_buffer);
-- break;
-- }
-- default:
-- PROTOBUF_C__ASSERT_NOT_REACHED();
-- }
-- return rv;
--}
--
--/**
-- * Pack an optional field to a buffer.
-- *
-- * \param field
-- * Field descriptor.
-- * \param has
-- * Whether the field is set.
-- * \param member
-- * The element to be packed.
-- * \param[out] buffer
-- * Virtual buffer to append data to.
-- * \return
-- * Number of bytes serialised to `buffer`.
-- */
--static size_t
--optional_field_pack_to_buffer(const ProtobufCFieldDescriptor *field,
-- const protobuf_c_boolean *has,
-- const void *member, ProtobufCBuffer *buffer)
--{
-- if (field->type == PROTOBUF_C_TYPE_MESSAGE ||
-- field->type == PROTOBUF_C_TYPE_STRING)
-- {
-- const void *ptr = *(const void *const *) member;
-- if (ptr == NULL || ptr == field->default_value)
-- return 0;
-- } else {
-- if (!*has)
-- return 0;
-- }
-- return required_field_pack_to_buffer(field, member, buffer);
--}
--
--/**
-- * Get the packed size of an array of same field type.
-- *
-- * \param field
-- * Field descriptor.
-- * \param count
-- * Number of elements of this type.
-- * \param array
-- * The elements to get the size of.
-- * \return
-- * Number of bytes required.
-- */
--static size_t
--get_packed_payload_length(const ProtobufCFieldDescriptor *field,
-- unsigned count, const void *array)
--{
-- unsigned rv = 0;
-- unsigned i;
--
-- switch (field->type) {
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
-- return count * 4;
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
-- return count * 8;
-- case PROTOBUF_C_TYPE_INT32: {
-- const int32_t *arr = (const int32_t *) array;
-- for (i = 0; i < count; i++)
-- rv += int32_size(arr[i]);
-- break;
-- }
-- case PROTOBUF_C_TYPE_SINT32: {
-- const int32_t *arr = (const int32_t *) array;
-- for (i = 0; i < count; i++)
-- rv += sint32_size(arr[i]);
-- break;
-- }
-- case PROTOBUF_C_TYPE_ENUM:
-- case PROTOBUF_C_TYPE_UINT32: {
-- const uint32_t *arr = (const uint32_t *) array;
-- for (i = 0; i < count; i++)
-- rv += uint32_size(arr[i]);
-- break;
-- }
-- case PROTOBUF_C_TYPE_SINT64: {
-- const int64_t *arr = (const int64_t *) array;
-- for (i = 0; i < count; i++)
-- rv += sint64_size(arr[i]);
-- break;
-- }
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_UINT64: {
-- const uint64_t *arr = (const uint64_t *) array;
-- for (i = 0; i < count; i++)
-- rv += uint64_size(arr[i]);
-- break;
-- }
-- case PROTOBUF_C_TYPE_BOOL:
-- return count;
-- default:
-- PROTOBUF_C__ASSERT_NOT_REACHED();
-- }
-- return rv;
--}
--
--/**
-- * Pack an array of same field type to a virtual buffer.
-- *
-- * \param field
-- * Field descriptor.
-- * \param count
-- * Number of elements of this type.
-- * \param array
-- * The elements to get the size of.
-- * \param[out] buffer
-- * Virtual buffer to append data to.
-- * \return
-- * Number of bytes packed.
-- */
--static size_t
--pack_buffer_packed_payload(const ProtobufCFieldDescriptor *field,
-- unsigned count, const void *array,
-- ProtobufCBuffer *buffer)
--{
-- uint8_t scratch[16];
-- size_t rv = 0;
-- unsigned i;
--
-- switch (field->type) {
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
--#if !defined(WORDS_BIGENDIAN)
-- rv = count * 4;
-- goto no_packing_needed;
--#else
-- for (i = 0; i < count; i++) {
-- unsigned len = fixed32_pack(((uint32_t *) array)[i], scratch);
-- buffer->append(buffer, len, scratch);
-- rv += len;
-- }
-- break;
--#endif
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
--#if !defined(WORDS_BIGENDIAN)
-- rv = count * 8;
-- goto no_packing_needed;
--#else
-- for (i = 0; i < count; i++) {
-- unsigned len = fixed64_pack(((uint64_t *) array)[i], scratch);
-- buffer->append(buffer, len, scratch);
-- rv += len;
-- }
-- break;
--#endif
-- case PROTOBUF_C_TYPE_INT32:
-- for (i = 0; i < count; i++) {
-- unsigned len = int32_pack(((int32_t *) array)[i], scratch);
-- buffer->append(buffer, len, scratch);
-- rv += len;
-- }
-- break;
-- case PROTOBUF_C_TYPE_SINT32:
-- for (i = 0; i < count; i++) {
-- unsigned len = sint32_pack(((int32_t *) array)[i], scratch);
-- buffer->append(buffer, len, scratch);
-- rv += len;
-- }
-- break;
-- case PROTOBUF_C_TYPE_ENUM:
-- case PROTOBUF_C_TYPE_UINT32:
-- for (i = 0; i < count; i++) {
-- unsigned len = uint32_pack(((uint32_t *) array)[i], scratch);
-- buffer->append(buffer, len, scratch);
-- rv += len;
-- }
-- break;
-- case PROTOBUF_C_TYPE_SINT64:
-- for (i = 0; i < count; i++) {
-- unsigned len = sint64_pack(((int64_t *) array)[i], scratch);
-- buffer->append(buffer, len, scratch);
-- rv += len;
-- }
-- break;
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_UINT64:
-- for (i = 0; i < count; i++) {
-- unsigned len = uint64_pack(((uint64_t *) array)[i], scratch);
-- buffer->append(buffer, len, scratch);
-- rv += len;
-- }
-- break;
-- case PROTOBUF_C_TYPE_BOOL:
-- for (i = 0; i < count; i++) {
-- unsigned len = boolean_pack(((protobuf_c_boolean *) array)[i], scratch);
-- buffer->append(buffer, len, scratch);
-- rv += len;
-- }
-- return count;
-- default:
-- PROTOBUF_C__ASSERT_NOT_REACHED();
-- }
-- return rv;
--
--no_packing_needed:
-- buffer->append(buffer, rv, array);
-- return rv;
--}
--
--static size_t
--repeated_field_pack_to_buffer(const ProtobufCFieldDescriptor *field,
-- unsigned count, const void *member,
-- ProtobufCBuffer *buffer)
--{
-- char *array = *(char * const *) member;
--
-- if (count == 0)
-- return 0;
-- if (0 != (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED)) {
-- uint8_t scratch[MAX_UINT64_ENCODED_SIZE * 2];
-- size_t rv = tag_pack(field->id, scratch);
-- size_t payload_len = get_packed_payload_length(field, count, array);
-- size_t tmp;
--
-- scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-- rv += uint32_pack(payload_len, scratch + rv);
-- buffer->append(buffer, rv, scratch);
-- tmp = pack_buffer_packed_payload(field, count, array, buffer);
-- assert(tmp == payload_len);
-- return rv + payload_len;
-- } else {
-- size_t siz;
-- unsigned i;
-- /* CONSIDER: optimize this case a bit (by putting the loop inside the switch) */
-- unsigned rv = 0;
--
-- siz = sizeof_elt_in_repeated_array(field->type);
-- for (i = 0; i < count; i++) {
-- rv += required_field_pack_to_buffer(field, array, buffer);
-- array += siz;
-- }
-- return rv;
-- }
--}
--
--static size_t
--unknown_field_pack_to_buffer(const ProtobufCMessageUnknownField *field,
-- ProtobufCBuffer *buffer)
--{
-- uint8_t header[MAX_UINT64_ENCODED_SIZE];
-- size_t rv = tag_pack(field->tag, header);
--
-- header[0] |= field->wire_type;
-- buffer->append(buffer, rv, header);
-- buffer->append(buffer, field->len, field->data);
-- return rv + field->len;
--}
--
--/**@}*/
--
--size_t
--protobuf_c_message_pack_to_buffer(const ProtobufCMessage *message,
-- ProtobufCBuffer *buffer)
--{
-- unsigned i;
-- size_t rv = 0;
--
-- ASSERT_IS_MESSAGE(message);
-- for (i = 0; i < message->descriptor->n_fields; i++) {
-- const ProtobufCFieldDescriptor *field =
-- message->descriptor->fields + i;
-- const void *member =
-- ((const char *) message) + field->offset;
-- const void *qmember =
-- ((const char *) message) + field->quantifier_offset;
--
-- if (field->label == PROTOBUF_C_LABEL_REQUIRED) {
-- rv += required_field_pack_to_buffer(field, member, buffer);
-- } else if (field->label == PROTOBUF_C_LABEL_OPTIONAL) {
-- rv += optional_field_pack_to_buffer(
-- field,
-- qmember,
-- member,
-- buffer
-- );
-- } else {
-- rv += repeated_field_pack_to_buffer(
-- field,
-- *(const size_t *) qmember,
-- member,
-- buffer
-- );
-- }
-- }
-- for (i = 0; i < message->n_unknown_fields; i++)
-- rv += unknown_field_pack_to_buffer(&message->unknown_fields[i], buffer);
--
-- return rv;
--}
--
--/**
-- * \defgroup unpack unpacking implementation
-- *
-- * Routines mainly used by the unpacking functions.
-- *
-- * \ingroup internal
-- * @{
-- */
--
--static inline int
--int_range_lookup(unsigned n_ranges, const ProtobufCIntRange *ranges, int value)
--{
-- unsigned n;
-- unsigned start;
--
-- if (n_ranges == 0)
-- return -1;
-- start = 0;
-- n = n_ranges;
-- while (n > 1) {
-- unsigned mid = start + n / 2;
--
-- if (value < ranges[mid].start_value) {
-- n = mid - start;
-- } else if (value >= ranges[mid].start_value +
-- (int) (ranges[mid + 1].orig_index -
-- ranges[mid].orig_index))
-- {
-- unsigned new_start = mid + 1;
-- n = start + n - new_start;
-- start = new_start;
-- } else
-- return (value - ranges[mid].start_value) +
-- ranges[mid].orig_index;
-- }
-- if (n > 0) {
-- unsigned start_orig_index = ranges[start].orig_index;
-- unsigned range_size =
-- ranges[start + 1].orig_index - start_orig_index;
--
-- if (ranges[start].start_value <= value &&
-- value < (int) (ranges[start].start_value + range_size))
-- {
-- return (value - ranges[start].start_value) +
-- start_orig_index;
-- }
-- }
-- return -1;
--}
--
--static size_t
--parse_tag_and_wiretype(size_t len,
-- const uint8_t *data,
-- uint32_t *tag_out,
-- ProtobufCWireType *wiretype_out)
--{
-- unsigned max_rv = len > 5 ? 5 : len;
-- uint32_t tag = (data[0] & 0x7f) >> 3;
-- unsigned shift = 4;
-- unsigned rv;
--
-- *wiretype_out = data[0] & 7;
-- if ((data[0] & 0x80) == 0) {
-- *tag_out = tag;
-- return 1;
-- }
-- for (rv = 1; rv < max_rv; rv++) {
-- if (data[rv] & 0x80) {
-- tag |= (data[rv] & 0x7f) << shift;
-- shift += 7;
-- } else {
-- tag |= data[rv] << shift;
-- *tag_out = tag;
-- return rv + 1;
-- }
-- }
-- return 0; /* error: bad header */
--}
--
--/* sizeof(ScannedMember) must be <= (1<<BOUND_SIZEOF_SCANNED_MEMBER_LOG2) */
--#define BOUND_SIZEOF_SCANNED_MEMBER_LOG2 5
--typedef struct _ScannedMember ScannedMember;
--/** Field as it's being read. */
--struct _ScannedMember {
-- uint32_t tag; /**< Field tag. */
-- uint8_t wire_type; /**< Field type. */
-- uint8_t length_prefix_len; /**< Prefix length. */
-- const ProtobufCFieldDescriptor *field; /**< Field descriptor. */
-- size_t len; /**< Field length. */
-- const uint8_t *data; /**< Pointer to field data. */
--};
--
--static inline uint32_t
--scan_length_prefixed_data(size_t len, const uint8_t *data,
-- size_t *prefix_len_out)
--{
-- unsigned hdr_max = len < 5 ? len : 5;
-- unsigned hdr_len;
-- uint32_t val = 0;
-- unsigned i;
-- unsigned shift = 0;
--
-- for (i = 0; i < hdr_max; i++) {
-- val |= (data[i] & 0x7f) << shift;
-- shift += 7;
-- if ((data[i] & 0x80) == 0)
-- break;
-- }
-- if (i == hdr_max) {
-- PROTOBUF_C_UNPACK_ERROR("error parsing length for length-prefixed data");
-- return 0;
-- }
-- hdr_len = i + 1;
-- *prefix_len_out = hdr_len;
-- if (hdr_len + val > len) {
-- PROTOBUF_C_UNPACK_ERROR("data too short after length-prefix of %u", val);
-- return 0;
-- }
-- return hdr_len + val;
--}
--
--static size_t
--max_b128_numbers(size_t len, const uint8_t *data)
--{
-- size_t rv = 0;
-- while (len--)
-- if ((*data++ & 0x80) == 0)
-- ++rv;
-- return rv;
--}
--
--/**@}*/
--
--/**
-- * Merge earlier message into a latter message.
-- *
-- * For numeric types and strings, if the same value appears multiple
-- * times, the parser accepts the last value it sees. For embedded
-- * message fields, the parser merges multiple instances of the same
-- * field. That is, all singular scalar fields in the latter instance
-- * replace those in the former, singular embedded messages are merged,
-- * and repeated fields are concatenated.
-- *
-- * The earlier message should be freed after calling this function, as
-- * some of its fields may have been reused and changed to their default
-- * values during the merge.
-- */
--static protobuf_c_boolean
--merge_messages(ProtobufCMessage *earlier_msg,
-- ProtobufCMessage *latter_msg,
-- ProtobufCAllocator *allocator)
--{
-- unsigned i;
-- const ProtobufCFieldDescriptor *fields =
-- earlier_msg->descriptor->fields;
-- for (i = 0; i < latter_msg->descriptor->n_fields; i++) {
-- if (fields[i].label == PROTOBUF_C_LABEL_REPEATED) {
-- size_t *n_earlier =
-- STRUCT_MEMBER_PTR(size_t, earlier_msg,
-- fields[i].quantifier_offset);
-- uint8_t **p_earlier =
-- STRUCT_MEMBER_PTR(uint8_t *, earlier_msg,
-- fields[i].offset);
-- size_t *n_latter =
-- STRUCT_MEMBER_PTR(size_t, latter_msg,
-- fields[i].quantifier_offset);
-- uint8_t **p_latter =
-- STRUCT_MEMBER_PTR(uint8_t *, latter_msg,
-- fields[i].offset);
--
-- if (*n_earlier > 0) {
-- if (*n_latter > 0) {
-- /* Concatenate the repeated field */
-- size_t el_size =
-- sizeof_elt_in_repeated_array(fields[i].type);
-- uint8_t *new_field;
--
-- new_field = do_alloc(allocator,
-- (*n_earlier + *n_latter) * el_size);
-- if (!new_field)
-- return FALSE;
--
-- memcpy(new_field, *p_earlier,
-- *n_earlier * el_size);
-- memcpy(new_field +
-- *n_earlier * el_size,
-- *p_latter,
-- *n_latter * el_size);
--
-- do_free(allocator, *p_latter);
-- do_free(allocator, *p_earlier);
-- *p_latter = new_field;
-- *n_latter = *n_earlier + *n_latter;
-- } else {
-- /* Zero copy the repeated field from the earlier message */
-- *n_latter = *n_earlier;
-- *p_latter = *p_earlier;
-- }
-- /* Make sure the field does not get double freed */
-- *n_earlier = 0;
-- *p_earlier = 0;
-- }
-- } else if (fields[i].type == PROTOBUF_C_TYPE_MESSAGE) {
-- ProtobufCMessage **em =
-- STRUCT_MEMBER_PTR(ProtobufCMessage *,
-- earlier_msg,
-- fields[i].offset);
-- ProtobufCMessage **lm =
-- STRUCT_MEMBER_PTR(ProtobufCMessage *,
-- latter_msg,
-- fields[i].offset);
-- if (*em != NULL) {
-- if (*lm != NULL) {
-- if (!merge_messages
-- (*em, *lm, allocator))
-- return FALSE;
-- } else {
-- /* Zero copy the optional message */
-- assert(fields[i].label ==
-- PROTOBUF_C_LABEL_OPTIONAL);
-- *lm = *em;
-- *em = NULL;
-- }
-- }
-- } else if (fields[i].label == PROTOBUF_C_LABEL_OPTIONAL) {
-- size_t el_size = 0;
-- protobuf_c_boolean need_to_merge = FALSE;
-- void *earlier_elem =
-- STRUCT_MEMBER_P(earlier_msg, fields[i].offset);
-- void *latter_elem =
-- STRUCT_MEMBER_P(latter_msg, fields[i].offset);
-- const void *def_val = fields[i].default_value;
--
-- switch (fields[i].type) {
-- case PROTOBUF_C_TYPE_BYTES: {
-- el_size = sizeof(ProtobufCBinaryData);
-- uint8_t *e_data =
-- ((ProtobufCBinaryData *) earlier_elem)->data;
-- uint8_t *l_data =
-- ((ProtobufCBinaryData *) latter_elem)->data;
-- const ProtobufCBinaryData *d_bd =
-- (ProtobufCBinaryData *) def_val;
--
-- need_to_merge =
-- (e_data != NULL &&
-- (d_bd != NULL &&
-- e_data != d_bd->data)) &&
-- (l_data == NULL ||
-- (d_bd != NULL &&
-- l_data == d_bd->data));
-- break;
-- }
-- case PROTOBUF_C_TYPE_STRING: {
-- el_size = sizeof(char *);
-- char *e_str = *(char **) earlier_elem;
-- char *l_str = *(char **) latter_elem;
-- const char *d_str = def_val;
--
-- need_to_merge = e_str != d_str && l_str == d_str;
-- break;
-- }
-- default: {
-- el_size = sizeof_elt_in_repeated_array(fields[i].type);
--
-- need_to_merge =
-- STRUCT_MEMBER(protobuf_c_boolean,
-- earlier_msg,
-- fields[i].quantifier_offset) &&
-- !STRUCT_MEMBER(protobuf_c_boolean,
-- latter_msg,
-- fields[i].quantifier_offset);
-- break;
-- }
-- }
--
-- if (need_to_merge) {
-- memcpy(latter_elem, earlier_elem, el_size);
-- /*
-- * Reset the element from the old message to 0
-- * to make sure earlier message deallocation
-- * doesn't corrupt zero-copied data in the new
-- * message, earlier message will be freed after
-- * this function is called anyway
-- */
-- memset(earlier_elem, 0, el_size);
--
-- if (fields[i].quantifier_offset != 0) {
-- /* Set the has field, if applicable */
-- STRUCT_MEMBER(protobuf_c_boolean,
-- latter_msg,
-- fields[i].
-- quantifier_offset) = TRUE;
-- STRUCT_MEMBER(protobuf_c_boolean,
-- earlier_msg,
-- fields[i].
-- quantifier_offset) = FALSE;
-- }
-- }
-- }
-- }
-- return TRUE;
--}
--
--/**
-- * Count packed elements.
-- *
-- * Given a raw slab of packed-repeated values, determine the number of
-- * elements. This function detects certain kinds of errors but not
-- * others; the remaining error checking is done by
-- * parse_packed_repeated_member().
-- */
--static protobuf_c_boolean
--count_packed_elements(ProtobufCType type,
-- size_t len, const uint8_t *data, size_t *count_out)
--{
-- switch (type) {
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
-- if (len % 4 != 0) {
-- PROTOBUF_C_UNPACK_ERROR("length must be a multiple of 4 for fixed-length 32-bit types");
-- return FALSE;
-- }
-- *count_out = len / 4;
-- return TRUE;
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
-- if (len % 8 != 0) {
-- PROTOBUF_C_UNPACK_ERROR("length must be a multiple of 8 for fixed-length 64-bit types");
-- return FALSE;
-- }
-- *count_out = len / 8;
-- return TRUE;
-- case PROTOBUF_C_TYPE_INT32:
-- case PROTOBUF_C_TYPE_SINT32:
-- case PROTOBUF_C_TYPE_ENUM:
-- case PROTOBUF_C_TYPE_UINT32:
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_SINT64:
-- case PROTOBUF_C_TYPE_UINT64:
-- *count_out = max_b128_numbers(len, data);
-- return TRUE;
-- case PROTOBUF_C_TYPE_BOOL:
-- *count_out = len;
-- return TRUE;
-- case PROTOBUF_C_TYPE_STRING:
-- case PROTOBUF_C_TYPE_BYTES:
-- case PROTOBUF_C_TYPE_MESSAGE:
-- default:
-- PROTOBUF_C_UNPACK_ERROR("bad protobuf-c type %u for packed-repeated", type);
-- return FALSE;
-- }
--}
--
--static inline uint32_t
--parse_uint32(unsigned len, const uint8_t *data)
--{
-- uint32_t rv = data[0] & 0x7f;
-- if (len > 1) {
-- rv |= ((uint32_t) (data[1] & 0x7f) << 7);
-- if (len > 2) {
-- rv |= ((uint32_t) (data[2] & 0x7f) << 14);
-- if (len > 3) {
-- rv |= ((uint32_t) (data[3] & 0x7f) << 21);
-- if (len > 4)
-- rv |= ((uint32_t) (data[4]) << 28);
-- }
-- }
-- }
-- return rv;
--}
--
--static inline uint32_t
--parse_int32(unsigned len, const uint8_t *data)
--{
-- return parse_uint32(len, data);
--}
--
--static inline int32_t
--unzigzag32(uint32_t v)
--{
-- if (v & 1)
-- return -(v >> 1) - 1;
-- else
-- return v >> 1;
--}
--
--static inline uint32_t
--parse_fixed_uint32(const uint8_t *data)
--{
--#if !defined(WORDS_BIGENDIAN)
-- uint32_t t;
-- memcpy(&t, data, 4);
-- return t;
--#else
-- return data[0] |
-- ((uint32_t) (data[1]) << 8) |
-- ((uint32_t) (data[2]) << 16) |
-- ((uint32_t) (data[3]) << 24);
--#endif
--}
--
--static uint64_t
--parse_uint64(unsigned len, const uint8_t *data)
--{
-- unsigned shift, i;
-- uint64_t rv;
--
-- if (len < 5)
-- return parse_uint32(len, data);
-- rv = ((uint64_t) (data[0] & 0x7f)) |
-- ((uint64_t) (data[1] & 0x7f) << 7) |
-- ((uint64_t) (data[2] & 0x7f) << 14) |
-- ((uint64_t) (data[3] & 0x7f) << 21);
-- shift = 28;
-- for (i = 4; i < len; i++) {
-- rv |= (((uint64_t) (data[i] & 0x7f)) << shift);
-- shift += 7;
-- }
-- return rv;
--}
--
--static inline int64_t
--unzigzag64(uint64_t v)
--{
-- if (v & 1)
-- return -(v >> 1) - 1;
-- else
-- return v >> 1;
--}
--
--static inline uint64_t
--parse_fixed_uint64(const uint8_t *data)
--{
--#if !defined(WORDS_BIGENDIAN)
-- uint64_t t;
-- memcpy(&t, data, 8);
-- return t;
--#else
-- return (uint64_t) parse_fixed_uint32(data) |
-- (((uint64_t) parse_fixed_uint32(data + 4)) << 32);
--#endif
--}
--
--static protobuf_c_boolean
--parse_boolean(unsigned len, const uint8_t *data)
--{
-- unsigned i;
-- for (i = 0; i < len; i++)
-- if (data[i] & 0x7f)
-- return TRUE;
-- return FALSE;
--}
--
--static protobuf_c_boolean
--parse_required_member(ScannedMember *scanned_member,
-- void *member,
-- ProtobufCAllocator *allocator,
-- protobuf_c_boolean maybe_clear)
--{
-- unsigned len = scanned_member->len;
-- const uint8_t *data = scanned_member->data;
-- ProtobufCWireType wire_type = scanned_member->wire_type;
--
-- switch (scanned_member->field->type) {
-- case PROTOBUF_C_TYPE_INT32:
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-- return FALSE;
-- *(uint32_t *) member = parse_int32(len, data);
-- return TRUE;
-- case PROTOBUF_C_TYPE_UINT32:
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-- return FALSE;
-- *(uint32_t *) member = parse_uint32(len, data);
-- return TRUE;
-- case PROTOBUF_C_TYPE_SINT32:
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-- return FALSE;
-- *(int32_t *) member = unzigzag32(parse_uint32(len, data));
-- return TRUE;
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_32BIT)
-- return FALSE;
-- *(uint32_t *) member = parse_fixed_uint32(data);
-- return TRUE;
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_UINT64:
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-- return FALSE;
-- *(uint64_t *) member = parse_uint64(len, data);
-- return TRUE;
-- case PROTOBUF_C_TYPE_SINT64:
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-- return FALSE;
-- *(int64_t *) member = unzigzag64(parse_uint64(len, data));
-- return TRUE;
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_64BIT)
-- return FALSE;
-- *(uint64_t *) member = parse_fixed_uint64(data);
-- return TRUE;
-- case PROTOBUF_C_TYPE_BOOL:
-- *(protobuf_c_boolean *) member = parse_boolean(len, data);
-- return TRUE;
-- case PROTOBUF_C_TYPE_ENUM:
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-- return FALSE;
-- *(uint32_t *) member = parse_uint32(len, data);
-- return TRUE;
-- case PROTOBUF_C_TYPE_STRING: {
-- char **pstr = member;
-- unsigned pref_len = scanned_member->length_prefix_len;
--
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED)
-- return FALSE;
--
-- if (maybe_clear && *pstr != NULL) {
-- const char *def = scanned_member->field->default_value;
-- if (*pstr != NULL && *pstr != def)
-- do_free(allocator, *pstr);
-- }
-- *pstr = do_alloc(allocator, len - pref_len + 1);
-- if (*pstr == NULL)
-- return FALSE;
-- memcpy(*pstr, data + pref_len, len - pref_len);
-- (*pstr)[len - pref_len] = 0;
-- return TRUE;
-- }
-- case PROTOBUF_C_TYPE_BYTES: {
-- ProtobufCBinaryData *bd = member;
-- const ProtobufCBinaryData *def_bd;
-- unsigned pref_len = scanned_member->length_prefix_len;
--
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED)
-- return FALSE;
--
-- def_bd = scanned_member->field->default_value;
-- if (maybe_clear &&
-- bd->data != NULL &&
-- (def_bd == NULL || bd->data != def_bd->data))
-- {
-- do_free(allocator, bd->data);
-- }
-- if (len - pref_len > 0) {
-- bd->data = do_alloc(allocator, len - pref_len);
-- if (bd->data == NULL)
-- return FALSE;
-- memcpy(bd->data, data + pref_len, len - pref_len);
-- }
-- bd->len = len - pref_len;
-- return TRUE;
-- }
-- case PROTOBUF_C_TYPE_MESSAGE: {
-- ProtobufCMessage **pmessage = member;
-- ProtobufCMessage *subm;
-- const ProtobufCMessage *def_mess;
-- protobuf_c_boolean merge_successful = TRUE;
-- unsigned pref_len = scanned_member->length_prefix_len;
--
-- if (wire_type != PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED)
-- return FALSE;
--
-- def_mess = scanned_member->field->default_value;
-- subm = protobuf_c_message_unpack(scanned_member->field->descriptor,
-- allocator,
-- len - pref_len,
-- data + pref_len);
--
-- if (maybe_clear &&
-- *pmessage != NULL &&
-- *pmessage != def_mess)
-- {
-- if (subm != NULL)
-- merge_successful = merge_messages(*pmessage, subm, allocator);
-- /* Delete the previous message */
-- protobuf_c_message_free_unpacked(*pmessage, allocator);
-- }
-- *pmessage = subm;
-- if (subm == NULL || !merge_successful)
-- return FALSE;
-- return TRUE;
-- }
-- }
-- return FALSE;
--}
--
--static protobuf_c_boolean
--parse_optional_member(ScannedMember *scanned_member,
-- void *member,
-- ProtobufCMessage *message,
-- ProtobufCAllocator *allocator)
--{
-- if (!parse_required_member(scanned_member, member, allocator, TRUE))
-- return FALSE;
-- if (scanned_member->field->quantifier_offset != 0)
-- STRUCT_MEMBER(protobuf_c_boolean,
-- message,
-- scanned_member->field->quantifier_offset) = TRUE;
-- return TRUE;
--}
--
--static protobuf_c_boolean
--parse_repeated_member(ScannedMember *scanned_member,
-- void *member,
-- ProtobufCMessage *message,
-- ProtobufCAllocator *allocator)
--{
-- const ProtobufCFieldDescriptor *field = scanned_member->field;
-- size_t *p_n = STRUCT_MEMBER_PTR(size_t, message, field->quantifier_offset);
-- size_t siz = sizeof_elt_in_repeated_array(field->type);
-- char *array = *(char **) member;
--
-- if (!parse_required_member(scanned_member, array + siz * (*p_n),
-- allocator, FALSE))
-- {
-- return FALSE;
-- }
-- *p_n += 1;
-- return TRUE;
--}
--
--static unsigned
--scan_varint(unsigned len, const uint8_t *data)
--{
-- unsigned i;
-- if (len > 10)
-- len = 10;
-- for (i = 0; i < len; i++)
-- if ((data[i] & 0x80) == 0)
-- break;
-- if (i == len)
-- return 0;
-- return i + 1;
--}
--
--static protobuf_c_boolean
--parse_packed_repeated_member(ScannedMember *scanned_member,
-- void *member,
-- ProtobufCMessage *message)
--{
-- const ProtobufCFieldDescriptor *field = scanned_member->field;
-- size_t *p_n = STRUCT_MEMBER_PTR(size_t, message, field->quantifier_offset);
-- size_t siz = sizeof_elt_in_repeated_array(field->type);
-- void *array = *(void **) member + siz * (*p_n);
-- const uint8_t *at = scanned_member->data + scanned_member->length_prefix_len;
-- size_t rem = scanned_member->len - scanned_member->length_prefix_len;
-- size_t count = 0;
-- unsigned i;
--
-- switch (field->type) {
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
-- count = (scanned_member->len - scanned_member->length_prefix_len) / 4;
--#if !defined(WORDS_BIGENDIAN)
-- goto no_unpacking_needed;
--#else
-- for (i = 0; i < count; i++) {
-- ((uint32_t *) array)[i] = parse_fixed_uint32(at);
-- at += 4;
-- }
-- break;
--#endif
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
-- count = (scanned_member->len - scanned_member->length_prefix_len) / 8;
--#if !defined(WORDS_BIGENDIAN)
-- goto no_unpacking_needed;
--#else
-- for (i = 0; i < count; i++) {
-- ((uint64_t *) array)[i] = parse_fixed_uint64(at);
-- at += 8;
-- }
-- break;
--#endif
-- case PROTOBUF_C_TYPE_INT32:
-- while (rem > 0) {
-- unsigned s = scan_varint(rem, at);
-- if (s == 0) {
-- PROTOBUF_C_UNPACK_ERROR("bad packed-repeated int32 value");
-- return FALSE;
-- }
-- ((int32_t *) array)[count++] = parse_int32(s, at);
-- at += s;
-- rem -= s;
-- }
-- break;
-- case PROTOBUF_C_TYPE_SINT32:
-- while (rem > 0) {
-- unsigned s = scan_varint(rem, at);
-- if (s == 0) {
-- PROTOBUF_C_UNPACK_ERROR("bad packed-repeated sint32 value");
-- return FALSE;
-- }
-- ((int32_t *) array)[count++] = unzigzag32(parse_uint32(s, at));
-- at += s;
-- rem -= s;
-- }
-- break;
-- case PROTOBUF_C_TYPE_ENUM:
-- case PROTOBUF_C_TYPE_UINT32:
-- while (rem > 0) {
-- unsigned s = scan_varint(rem, at);
-- if (s == 0) {
-- PROTOBUF_C_UNPACK_ERROR("bad packed-repeated enum or uint32 value");
-- return FALSE;
-- }
-- ((uint32_t *) array)[count++] = parse_uint32(s, at);
-- at += s;
-- rem -= s;
-- }
-- break;
--
-- case PROTOBUF_C_TYPE_SINT64:
-- while (rem > 0) {
-- unsigned s = scan_varint(rem, at);
-- if (s == 0) {
-- PROTOBUF_C_UNPACK_ERROR("bad packed-repeated sint64 value");
-- return FALSE;
-- }
-- ((int64_t *) array)[count++] = unzigzag64(parse_uint64(s, at));
-- at += s;
-- rem -= s;
-- }
-- break;
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_UINT64:
-- while (rem > 0) {
-- unsigned s = scan_varint(rem, at);
-- if (s == 0) {
-- PROTOBUF_C_UNPACK_ERROR("bad packed-repeated int64/uint64 value");
-- return FALSE;
-- }
-- ((int64_t *) array)[count++] = parse_uint64(s, at);
-- at += s;
-- rem -= s;
-- }
-- break;
-- case PROTOBUF_C_TYPE_BOOL:
-- count = rem;
-- for (i = 0; i < count; i++) {
-- if (at[i] > 1) {
-- PROTOBUF_C_UNPACK_ERROR("bad packed-repeated boolean value");
-- return FALSE;
-- }
-- ((protobuf_c_boolean *) array)[i] = at[i];
-- }
-- break;
-- default:
-- PROTOBUF_C__ASSERT_NOT_REACHED();
-- }
-- *p_n += count;
-- return TRUE;
--
--#if !defined(WORDS_BIGENDIAN)
--no_unpacking_needed:
-- memcpy(array, at, count * siz);
-- *p_n += count;
-- return TRUE;
--#endif
--}
--
--static protobuf_c_boolean
--is_packable_type(ProtobufCType type)
--{
-- return
-- type != PROTOBUF_C_TYPE_STRING &&
-- type != PROTOBUF_C_TYPE_BYTES &&
-- type != PROTOBUF_C_TYPE_MESSAGE;
--}
--
--static protobuf_c_boolean
--parse_member(ScannedMember *scanned_member,
-- ProtobufCMessage *message,
-- ProtobufCAllocator *allocator)
--{
-- const ProtobufCFieldDescriptor *field = scanned_member->field;
-- void *member;
--
-- if (field == NULL) {
-- ProtobufCMessageUnknownField *ufield =
-- message->unknown_fields +
-- (message->n_unknown_fields++);
-- ufield->tag = scanned_member->tag;
-- ufield->wire_type = scanned_member->wire_type;
-- ufield->len = scanned_member->len;
-- ufield->data = do_alloc(allocator, scanned_member->len);
-- if (ufield->data == NULL)
-- return FALSE;
-- memcpy(ufield->data, scanned_member->data, ufield->len);
-- return TRUE;
-- }
-- member = (char *) message + field->offset;
-- switch (field->label) {
-- case PROTOBUF_C_LABEL_REQUIRED:
-- return parse_required_member(scanned_member, member,
-- allocator, TRUE);
-- case PROTOBUF_C_LABEL_OPTIONAL:
-- return parse_optional_member(scanned_member, member,
-- message, allocator);
-- case PROTOBUF_C_LABEL_REPEATED:
-- if (scanned_member->wire_type ==
-- PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED &&
-- (0 != (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED) ||
-- is_packable_type(field->type)))
-- {
-- return parse_packed_repeated_member(scanned_member,
-- member, message);
-- } else {
-- return parse_repeated_member(scanned_member,
-- member, message,
-- allocator);
-- }
-- }
-- PROTOBUF_C__ASSERT_NOT_REACHED();
-- return 0;
--}
--
--/**
-- * Initialise messages generated by old code.
-- *
-- * This function is used if desc->message_init == NULL (which occurs
-- * for old code, and which would be useful to support allocating
-- * descriptors dynamically).
-- */
--static void
--message_init_generic(const ProtobufCMessageDescriptor *desc,
-- ProtobufCMessage *message)
--{
-- unsigned i;
--
-- memset(message, 0, desc->sizeof_message);
-- message->descriptor = desc;
-- for (i = 0; i < desc->n_fields; i++) {
-- if (desc->fields[i].default_value != NULL &&
-- desc->fields[i].label != PROTOBUF_C_LABEL_REPEATED)
-- {
-- void *field =
-- STRUCT_MEMBER_P(message, desc->fields[i].offset);
-- const void *dv = desc->fields[i].default_value;
--
-- switch (desc->fields[i].type) {
-- case PROTOBUF_C_TYPE_INT32:
-- case PROTOBUF_C_TYPE_SINT32:
-- case PROTOBUF_C_TYPE_SFIXED32:
-- case PROTOBUF_C_TYPE_UINT32:
-- case PROTOBUF_C_TYPE_FIXED32:
-- case PROTOBUF_C_TYPE_FLOAT:
-- case PROTOBUF_C_TYPE_ENUM:
-- memcpy(field, dv, 4);
-- break;
-- case PROTOBUF_C_TYPE_INT64:
-- case PROTOBUF_C_TYPE_SINT64:
-- case PROTOBUF_C_TYPE_SFIXED64:
-- case PROTOBUF_C_TYPE_UINT64:
-- case PROTOBUF_C_TYPE_FIXED64:
-- case PROTOBUF_C_TYPE_DOUBLE:
-- memcpy(field, dv, 8);
-- break;
-- case PROTOBUF_C_TYPE_BOOL:
-- memcpy(field, dv, sizeof(protobuf_c_boolean));
-- break;
-- case PROTOBUF_C_TYPE_BYTES:
-- memcpy(field, dv, sizeof(ProtobufCBinaryData));
-- break;
--
-- case PROTOBUF_C_TYPE_STRING:
-- case PROTOBUF_C_TYPE_MESSAGE:
-- /*
-- * The next line essentially implements a cast
-- * from const, which is totally unavoidable.
-- */
-- *(const void **) field = dv;
-- break;
-- }
-- }
-- }
--}
--
--/**@}*/
--
--/*
-- * ScannedMember slabs (an unpacking implementation detail). Before doing real
-- * unpacking, we first scan through the elements to see how many there are (for
-- * repeated fields), and which field to use (for non-repeated fields given
-- * twice).
-- *
-- * In order to avoid allocations for small messages, we keep a stack-allocated
-- * slab of ScannedMembers of size FIRST_SCANNED_MEMBER_SLAB_SIZE (16). After we
-- * fill that up, we allocate each slab twice as large as the previous one.
-- */
--#define FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2 4
--
--/*
-- * The number of slabs, including the stack-allocated ones; choose the number so
-- * that we would overflow if we needed a slab larger than provided.
-- */
--#define MAX_SCANNED_MEMBER_SLAB \
-- (sizeof(unsigned int)*8 - 1 \
-- - BOUND_SIZEOF_SCANNED_MEMBER_LOG2 \
-- - FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2)
--
--#define REQUIRED_FIELD_BITMAP_SET(index) \
-- (required_fields_bitmap[(index)/8] |= (1<<((index)%8)))
--
--#define REQUIRED_FIELD_BITMAP_IS_SET(index) \
-- (required_fields_bitmap[(index)/8] & (1<<((index)%8)))
--
--ProtobufCMessage *
--protobuf_c_message_unpack(const ProtobufCMessageDescriptor *desc,
-- ProtobufCAllocator *allocator,
-- size_t len, const uint8_t *data)
--{
-- ProtobufCMessage *rv;
-- size_t rem = len;
-- const uint8_t *at = data;
-- const ProtobufCFieldDescriptor *last_field = desc->fields + 0;
-- ScannedMember first_member_slab[1 <<
-- FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2];
--
-- /*
-- * scanned_member_slabs[i] is an array of arrays of ScannedMember.
-- * The first slab (scanned_member_slabs[0] is just a pointer to
-- * first_member_slab), above. All subsequent slabs will be allocated
-- * using the allocator.
-- */
-- ScannedMember *scanned_member_slabs[MAX_SCANNED_MEMBER_SLAB + 1];
-- unsigned which_slab = 0; /* the slab we are currently populating */
-- unsigned in_slab_index = 0; /* number of members in the slab */
-- size_t n_unknown = 0;
-- unsigned f;
-- unsigned j;
-- unsigned i_slab;
-- unsigned last_field_index = 0;
-- unsigned required_fields_bitmap_len;
-- unsigned char required_fields_bitmap_stack[16];
-- unsigned char *required_fields_bitmap = required_fields_bitmap_stack;
-- protobuf_c_boolean required_fields_bitmap_alloced = FALSE;
--
-- ASSERT_IS_MESSAGE_DESCRIPTOR(desc);
--
-- if (allocator == NULL)
-- allocator = &protobuf_c__allocator;
--
-- rv = do_alloc(allocator, desc->sizeof_message);
-- if (!rv)
-- return (NULL);
-- scanned_member_slabs[0] = first_member_slab;
--
-- required_fields_bitmap_len = (desc->n_fields + 7) / 8;
-- if (required_fields_bitmap_len > sizeof(required_fields_bitmap_stack)) {
-- required_fields_bitmap = do_alloc(allocator, required_fields_bitmap_len);
-- if (!required_fields_bitmap) {
-- do_free(allocator, rv);
-- return (NULL);
-- }
-- required_fields_bitmap_alloced = TRUE;
-- }
-- memset(required_fields_bitmap, 0, required_fields_bitmap_len);
--
-- /*
-- * Generated code always defines "message_init". However, we provide a
-- * fallback for (1) users of old protobuf-c generated-code that do not
-- * provide the function, and (2) descriptors constructed from some other
-- * source (most likely, direct construction from the .proto file).
-- */
-- if (desc->message_init != NULL)
-- protobuf_c_message_init(desc, rv);
-- else
-- message_init_generic(desc, rv);
--
-- while (rem > 0) {
-- uint32_t tag;
-- ProtobufCWireType wire_type;
-- size_t used = parse_tag_and_wiretype(rem, at, &tag, &wire_type);
-- const ProtobufCFieldDescriptor *field;
-- ScannedMember tmp;
--
-- if (used == 0) {
-- PROTOBUF_C_UNPACK_ERROR("error parsing tag/wiretype at offset %u",
-- (unsigned) (at - data));
-- goto error_cleanup_during_scan;
-- }
-- /*
-- * \todo Consider optimizing for field[1].id == tag, if field[1]
-- * exists!
-- */
-- if (last_field == NULL || last_field->id != tag) {
-- /* lookup field */
-- int field_index =
-- int_range_lookup(desc->n_field_ranges,
-- desc->field_ranges,
-- tag);
-- if (field_index < 0) {
-- field = NULL;
-- n_unknown++;
-- } else {
-- field = desc->fields + field_index;
-- last_field = field;
-- last_field_index = field_index;
-- }
-- } else {
-- field = last_field;
-- }
--
-- if (field != NULL && field->label == PROTOBUF_C_LABEL_REQUIRED)
-- REQUIRED_FIELD_BITMAP_SET(last_field_index);
--
-- at += used;
-- rem -= used;
-- tmp.tag = tag;
-- tmp.wire_type = wire_type;
-- tmp.field = field;
-- tmp.data = at;
-- tmp.length_prefix_len = 0;
--
-- switch (wire_type) {
-- case PROTOBUF_C_WIRE_TYPE_VARINT: {
-- unsigned max_len = rem < 10 ? rem : 10;
-- unsigned i;
--
-- for (i = 0; i < max_len; i++)
-- if ((at[i] & 0x80) == 0)
-- break;
-- if (i == max_len) {
-- PROTOBUF_C_UNPACK_ERROR("unterminated varint at offset %u",
-- (unsigned) (at - data));
-- goto error_cleanup_during_scan;
-- }
-- tmp.len = i + 1;
-- break;
-- }
-- case PROTOBUF_C_WIRE_TYPE_64BIT:
-- if (rem < 8) {
-- PROTOBUF_C_UNPACK_ERROR("too short after 64bit wiretype at offset %u",
-- (unsigned) (at - data));
-- goto error_cleanup_during_scan;
-- }
-- tmp.len = 8;
-- break;
-- case PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED: {
-- size_t pref_len;
--
-- tmp.len = scan_length_prefixed_data(rem, at, &pref_len);
-- if (tmp.len == 0) {
-- /* NOTE: scan_length_prefixed_data calls UNPACK_ERROR */
-- goto error_cleanup_during_scan;
-- }
-- tmp.length_prefix_len = pref_len;
-- break;
-- }
-- case PROTOBUF_C_WIRE_TYPE_32BIT:
-- if (rem < 4) {
-- PROTOBUF_C_UNPACK_ERROR("too short after 32bit wiretype at offset %u",
-- (unsigned) (at - data));
-- goto error_cleanup_during_scan;
-- }
-- tmp.len = 4;
-- break;
-- default:
-- PROTOBUF_C_UNPACK_ERROR("unsupported tag %u at offset %u",
-- wire_type, (unsigned) (at - data));
-- goto error_cleanup_during_scan;
-- }
--
-- if (in_slab_index == (1U <<
-- (which_slab + FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2)))
-- {
-- size_t size;
--
-- in_slab_index = 0;
-- if (which_slab == MAX_SCANNED_MEMBER_SLAB) {
-- PROTOBUF_C_UNPACK_ERROR("too many fields");
-- goto error_cleanup_during_scan;
-- }
-- which_slab++;
-- size = sizeof(ScannedMember)
-- << (which_slab + FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2);
-- scanned_member_slabs[which_slab] = do_alloc(allocator, size);
-- if (scanned_member_slabs[which_slab] == NULL)
-- goto error_cleanup_during_scan;
-- }
-- scanned_member_slabs[which_slab][in_slab_index++] = tmp;
--
-- if (field != NULL && field->label == PROTOBUF_C_LABEL_REPEATED) {
-- size_t *n = STRUCT_MEMBER_PTR(size_t, rv,
-- field->quantifier_offset);
-- if (wire_type == PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED &&
-- (0 != (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED) ||
-- is_packable_type(field->type)))
-- {
-- size_t count;
-- if (!count_packed_elements(field->type,
-- tmp.len -
-- tmp.length_prefix_len,
-- tmp.data +
-- tmp.length_prefix_len,
-- &count))
-- {
-- PROTOBUF_C_UNPACK_ERROR("counting packed elements");
-- goto error_cleanup_during_scan;
-- }
-- *n += count;
-- } else {
-- *n += 1;
-- }
-- }
--
-- at += tmp.len;
-- rem -= tmp.len;
-- }
--
-- /* allocate space for repeated fields, also check that all required fields have been set */
-- for (f = 0; f < desc->n_fields; f++) {
-- const ProtobufCFieldDescriptor *field = desc->fields + f;
-- if (field->label == PROTOBUF_C_LABEL_REPEATED) {
-- size_t siz =
-- sizeof_elt_in_repeated_array(field->type);
-- size_t *n_ptr =
-- STRUCT_MEMBER_PTR(size_t, rv,
-- field->quantifier_offset);
-- if (*n_ptr != 0) {
-- unsigned n = *n_ptr;
-- *n_ptr = 0;
-- assert(rv->descriptor != NULL);
--#define CLEAR_REMAINING_N_PTRS() \
-- for(f++;f < desc->n_fields; f++) \
-- { \
-- field = desc->fields + f; \
-- if (field->label == PROTOBUF_C_LABEL_REPEATED) \
-- STRUCT_MEMBER (size_t, rv, field->quantifier_offset) = 0; \
-- }
-- void *a = do_alloc(allocator, siz * n);
-- if (!a) {
-- CLEAR_REMAINING_N_PTRS();
-- goto error_cleanup;
-- }
-- STRUCT_MEMBER(void *, rv, field->offset) = a;
-- }
-- } else if (field->label == PROTOBUF_C_LABEL_REQUIRED) {
-- if (field->default_value == NULL &&
-- !REQUIRED_FIELD_BITMAP_IS_SET(f))
-- {
-- CLEAR_REMAINING_N_PTRS();
-- PROTOBUF_C_UNPACK_ERROR("message '%s': missing required field '%s'",
-- desc->name, field->name);
-- goto error_cleanup;
-- }
-- }
-- }
--#undef CLEAR_REMAINING_N_PTRS
--
-- /* allocate space for unknown fields */
-- if (n_unknown) {
-- rv->unknown_fields = do_alloc(allocator,
-- n_unknown * sizeof(ProtobufCMessageUnknownField));
-- if (rv->unknown_fields == NULL)
-- goto error_cleanup;
-- }
--
-- /* do real parsing */
-- for (i_slab = 0; i_slab <= which_slab; i_slab++) {
-- unsigned max = (i_slab == which_slab) ?
-- in_slab_index : (1U << (i_slab + 4));
-- ScannedMember *slab = scanned_member_slabs[i_slab];
-- unsigned j;
--
-- for (j = 0; j < max; j++) {
-- if (!parse_member(slab + j, rv, allocator)) {
-- PROTOBUF_C_UNPACK_ERROR("error parsing member %s of %s",
-- slab->field ? slab->field->name : "*unknown-field*",
-- desc->name);
-- goto error_cleanup;
-- }
-- }
-- }
--
-- /* cleanup */
-- for (j = 1; j <= which_slab; j++)
-- do_free(allocator, scanned_member_slabs[j]);
-- if (required_fields_bitmap_alloced)
-- do_free(allocator, required_fields_bitmap);
-- return rv;
--
--error_cleanup:
-- protobuf_c_message_free_unpacked(rv, allocator);
-- for (j = 1; j <= which_slab; j++)
-- do_free(allocator, scanned_member_slabs[j]);
-- if (required_fields_bitmap_alloced)
-- do_free(allocator, required_fields_bitmap);
-- return NULL;
--
--error_cleanup_during_scan:
-- do_free(allocator, rv);
-- for (j = 1; j <= which_slab; j++)
-- do_free(allocator, scanned_member_slabs[j]);
-- if (required_fields_bitmap_alloced)
-- do_free(allocator, required_fields_bitmap);
-- return NULL;
--}
--
--void
--protobuf_c_message_free_unpacked(ProtobufCMessage *message,
-- ProtobufCAllocator *allocator)
--{
-- const ProtobufCMessageDescriptor *desc = message->descriptor;
-- unsigned f;
--
-- ASSERT_IS_MESSAGE(message);
-- if (allocator == NULL)
-- allocator = &protobuf_c__allocator;
-- message->descriptor = NULL;
-- for (f = 0; f < desc->n_fields; f++) {
-- if (desc->fields[f].label == PROTOBUF_C_LABEL_REPEATED) {
-- size_t n = STRUCT_MEMBER(size_t,
-- message,
-- desc->fields[f].quantifier_offset);
-- void *arr = STRUCT_MEMBER(void *,
-- message,
-- desc->fields[f].offset);
--
-- if (desc->fields[f].type == PROTOBUF_C_TYPE_STRING) {
-- unsigned i;
-- for (i = 0; i < n; i++)
-- do_free(allocator, ((char **) arr)[i]);
-- } else if (desc->fields[f].type == PROTOBUF_C_TYPE_BYTES) {
-- unsigned i;
-- for (i = 0; i < n; i++)
-- do_free(allocator, ((ProtobufCBinaryData *) arr)[i].data);
-- } else if (desc->fields[f].type == PROTOBUF_C_TYPE_MESSAGE) {
-- unsigned i;
-- for (i = 0; i < n; i++)
-- protobuf_c_message_free_unpacked(
-- ((ProtobufCMessage **) arr)[i],
-- allocator
-- );
-- }
-- if (arr != NULL)
-- do_free(allocator, arr);
-- } else if (desc->fields[f].type == PROTOBUF_C_TYPE_STRING) {
-- char *str = STRUCT_MEMBER(char *, message,
-- desc->fields[f].offset);
--
-- if (str && str != desc->fields[f].default_value)
-- do_free(allocator, str);
-- } else if (desc->fields[f].type == PROTOBUF_C_TYPE_BYTES) {
-- void *data = STRUCT_MEMBER(ProtobufCBinaryData, message,
-- desc->fields[f].offset).data;
-- const ProtobufCBinaryData *default_bd;
--
-- default_bd = desc->fields[f].default_value;
-- if (data != NULL &&
-- (default_bd == NULL ||
-- default_bd->data != data))
-- {
-- do_free(allocator, data);
-- }
-- } else if (desc->fields[f].type == PROTOBUF_C_TYPE_MESSAGE) {
-- ProtobufCMessage *sm;
--
-- sm = STRUCT_MEMBER(ProtobufCMessage *, message,
-- desc->fields[f].offset);
-- if (sm && sm != desc->fields[f].default_value)
-- protobuf_c_message_free_unpacked(sm, allocator);
-- }
-- }
--
-- for (f = 0; f < message->n_unknown_fields; f++)
-- do_free(allocator, message->unknown_fields[f].data);
-- if (message->unknown_fields != NULL)
-- do_free(allocator, message->unknown_fields);
--
-- do_free(allocator, message);
--}
--
--void
--protobuf_c_message_init(const ProtobufCMessageDescriptor * descriptor,
-- void *message)
--{
-- descriptor->message_init((ProtobufCMessage *) (message));
--}
--
--protobuf_c_boolean
--protobuf_c_message_check(const ProtobufCMessage *message)
--{
-- if (!message ||
-- !message->descriptor ||
-- message->descriptor->magic != PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC)
-- {
-- return FALSE;
-- }
--
-- unsigned i;
-- for (i = 0; i < message->descriptor->n_fields; i++) {
-- const ProtobufCFieldDescriptor *f = message->descriptor->fields + i;
-- ProtobufCType type = f->type;
-- ProtobufCLabel label = f->label;
-- void *field = STRUCT_MEMBER_P (message, f->offset);
--
-- if (label == PROTOBUF_C_LABEL_REPEATED) {
-- size_t *quantity = STRUCT_MEMBER_P (message, f->quantifier_offset);
--
-- if (*quantity > 0 && *(void **) field == NULL) {
-- return FALSE;
-- }
--
-- if (type == PROTOBUF_C_TYPE_MESSAGE) {
-- ProtobufCMessage **submessage = *(ProtobufCMessage ***) field;
-- unsigned j;
-- for (j = 0; j < *quantity; j++) {
-- if (!protobuf_c_message_check(submessage[j]))
-- return FALSE;
-- }
-- } else if (type == PROTOBUF_C_TYPE_STRING) {
-- char **string = *(char ***) field;
-- unsigned j;
-- for (j = 0; j < *quantity; j++) {
-- if (!string[j])
-- return FALSE;
-- }
-- } else if (type == PROTOBUF_C_TYPE_BYTES) {
-- ProtobufCBinaryData *bd = *(ProtobufCBinaryData **) field;
-- unsigned j;
-- for (j = 0; j < *quantity; j++) {
-- if (bd[j].len > 0 && bd[j].data == NULL)
-- return FALSE;
-- }
-- }
--
-- } else { /* PROTOBUF_C_LABEL_REQUIRED or PROTOBUF_C_LABEL_OPTIONAL */
--
-- if (type == PROTOBUF_C_TYPE_MESSAGE) {
-- ProtobufCMessage *submessage = *(ProtobufCMessage **) field;
-- if (label == PROTOBUF_C_LABEL_REQUIRED || submessage != NULL) {
-- if (!protobuf_c_message_check(submessage))
-- return FALSE;
-- }
-- } else if (type == PROTOBUF_C_TYPE_STRING) {
-- char *string = *(char **) field;
-- if (label == PROTOBUF_C_LABEL_REQUIRED && string == NULL)
-- return FALSE;
-- } else if (type == PROTOBUF_C_TYPE_BYTES) {
-- protobuf_c_boolean *has = STRUCT_MEMBER_P (message, f->quantifier_offset);
-- ProtobufCBinaryData *bd = field;
-- if (label == PROTOBUF_C_LABEL_REQUIRED || *has == TRUE) {
-- if (bd->len > 0 && bd->data == NULL)
-- return FALSE;
-- }
-- }
-- }
-- }
--
-- return TRUE;
--}
--
--/* === services === */
--
--typedef void (*GenericHandler) (void *service,
-- const ProtobufCMessage *input,
-- ProtobufCClosure closure,
-- void *closure_data);
--void
--protobuf_c_service_invoke_internal(ProtobufCService *service,
-- unsigned method_index,
-- const ProtobufCMessage *input,
-- ProtobufCClosure closure,
-- void *closure_data)
--{
-- GenericHandler *handlers;
-- GenericHandler handler;
--
-- /*
-- * Verify that method_index is within range. If this fails, you are
-- * likely invoking a newly added method on an old service. (Although
-- * other memory corruption bugs can cause this assertion too.)
-- */
-- assert(method_index < service->descriptor->n_methods);
--
-- /*
-- * Get the array of virtual methods (which are enumerated by the
-- * generated code).
-- */
-- handlers = (GenericHandler *) (service + 1);
--
-- /*
-- * Get our method and invoke it.
-- * \todo Seems like handler == NULL is a situation that needs handling.
-- */
-- handler = handlers[method_index];
-- (*handler)(service, input, closure, closure_data);
--}
--
--void
--protobuf_c_service_generated_init(ProtobufCService *service,
-- const ProtobufCServiceDescriptor *descriptor,
-- ProtobufCServiceDestroy destroy)
--{
-- ASSERT_IS_SERVICE_DESCRIPTOR(descriptor);
-- service->descriptor = descriptor;
-- service->destroy = destroy;
-- service->invoke = protobuf_c_service_invoke_internal;
-- memset(service + 1, 0, descriptor->n_methods * sizeof(GenericHandler));
--}
--
--void protobuf_c_service_destroy(ProtobufCService *service)
--{
-- service->destroy(service);
--}
--
--/* --- querying the descriptors --- */
--
--const ProtobufCEnumValue *
--protobuf_c_enum_descriptor_get_value_by_name(const ProtobufCEnumDescriptor *desc,
-- const char *name)
--{
-- unsigned start = 0;
-- unsigned count = desc->n_value_names;
--
-- while (count > 1) {
-- unsigned mid = start + count / 2;
-- int rv = strcmp(desc->values_by_name[mid].name, name);
-- if (rv == 0)
-- return desc->values + desc->values_by_name[mid].index;
-- else if (rv < 0) {
-- count = start + count - (mid + 1);
-- start = mid + 1;
-- } else
-- count = mid - start;
-- }
-- if (count == 0)
-- return NULL;
-- if (strcmp(desc->values_by_name[start].name, name) == 0)
-- return desc->values + desc->values_by_name[start].index;
-- return NULL;
--}
--
--const ProtobufCEnumValue *
--protobuf_c_enum_descriptor_get_value(const ProtobufCEnumDescriptor *desc,
-- int value)
--{
-- int rv = int_range_lookup(desc->n_value_ranges, desc->value_ranges, value);
-- if (rv < 0)
-- return NULL;
-- return desc->values + rv;
--}
--
--const ProtobufCFieldDescriptor *
--protobuf_c_message_descriptor_get_field_by_name(const ProtobufCMessageDescriptor *desc,
-- const char *name)
--{
-- unsigned start = 0;
-- unsigned count = desc->n_fields;
-- const ProtobufCFieldDescriptor *field;
--
-- while (count > 1) {
-- unsigned mid = start + count / 2;
-- int rv;
-- field = desc->fields + desc->fields_sorted_by_name[mid];
-- rv = strcmp(field->name, name);
-- if (rv == 0)
-- return field;
-- else if (rv < 0) {
-- count = start + count - (mid + 1);
-- start = mid + 1;
-- } else
-- count = mid - start;
-- }
-- if (count == 0)
-- return NULL;
-- field = desc->fields + desc->fields_sorted_by_name[start];
-- if (strcmp(field->name, name) == 0)
-- return field;
-- return NULL;
--}
--
--const ProtobufCFieldDescriptor *
--protobuf_c_message_descriptor_get_field(const ProtobufCMessageDescriptor *desc,
-- unsigned value)
--{
-- int rv = int_range_lookup(desc->n_field_ranges,desc->field_ranges, value);
-- if (rv < 0)
-- return NULL;
-- return desc->fields + rv;
--}
--
--const ProtobufCMethodDescriptor *
--protobuf_c_service_descriptor_get_method_by_name(const ProtobufCServiceDescriptor *desc,
-- const char *name)
--{
-- unsigned start = 0;
-- unsigned count = desc->n_methods;
--
-- while (count > 1) {
-- unsigned mid = start + count / 2;
-- unsigned mid_index = desc->method_indices_by_name[mid];
-- const char *mid_name = desc->methods[mid_index].name;
-- int rv = strcmp(mid_name, name);
--
-- if (rv == 0)
-- return desc->methods + desc->method_indices_by_name[mid];
-- if (rv < 0) {
-- count = start + count - (mid + 1);
-- start = mid + 1;
-- } else {
-- count = mid - start;
-- }
-- }
-- if (count == 0)
-- return NULL;
-- if (strcmp(desc->methods[desc->method_indices_by_name[start]].name, name) == 0)
-- return desc->methods + desc->method_indices_by_name[start];
-- return NULL;
--}
-diff --git a/src/protobuf/google/protobuf-c/protobuf-c.h b/src/protobuf/google/protobuf-c/protobuf-c.h
-deleted file mode 100644
-index 593df2d..0000000
---- a/src/protobuf/google/protobuf-c/protobuf-c.h
-+++ /dev/null
-@@ -1,1079 +0,0 @@
--/*
-- * Copyright (c) 2008-2014, Dave Benson and the protobuf-c authors.
-- * All rights reserved.
-- *
-- * Redistribution and use in source and binary forms, with or without
-- * modification, are permitted provided that the following conditions are
-- * met:
-- *
-- * * Redistributions of source code must retain the above copyright
-- * notice, this list of conditions and the following disclaimer.
-- *
-- * * Redistributions in binary form must reproduce the above
-- * copyright notice, this list of conditions and the following disclaimer
-- * in the documentation and/or other materials provided with the
-- * distribution.
-- *
-- * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
-- * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
-- * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
-- * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
-- * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
-- * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
-- * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
-- * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
-- * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-- * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
-- * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-- */
--
--/*! \file
-- * \mainpage Introduction
-- *
-- * This is [protobuf-c], a C implementation of [Protocol Buffers].
-- *
-- * This file defines the public API for the `libprotobuf-c` support library.
-- * This API includes interfaces that can be used directly by client code as well
-- * as the interfaces used by the code generated by the `protoc-c` compiler.
-- *
-- * The `libprotobuf-c` support library performs the actual serialization and
-- * deserialization of Protocol Buffers messages. It interacts with structures,
-- * definitions, and metadata generated by the `protoc-c` compiler from .proto
-- * files.
-- *
-- * \authors Dave Benson and the `protobuf-c` authors.
-- *
-- * \copyright 2008-2014. Licensed under the terms of the [BSD-2-Clause] license.
-- *
-- * [protobuf-c]: https://github.com/protobuf-c/protobuf-c
-- * [Protocol Buffers]: https://developers.google.com/protocol-buffers/
-- * [BSD-2-Clause]: http://opensource.org/licenses/BSD-2-Clause
-- *
-- * \page gencode Generated Code
-- *
-- * For each enum, we generate a C enum. For each message, we generate a C
-- * structure which can be cast to a `ProtobufCMessage`.
-- *
-- * For each enum and message, we generate a descriptor object that allows us to
-- * implement a kind of reflection on the structures.
-- *
-- * First, some naming conventions:
-- *
-- * - The name of the type for enums and messages and services is camel case
-- * (meaning WordsAreCrammedTogether) except that double underscores are used
-- * to delimit scopes. For example, the following `.proto` file:
-- *
--~~~{.proto}
-- package foo.bar;
-- message BazBah {
-- optional int32 val = 1;
-- }
--~~~
-- *
-- * would generate a C type `Foo__Bar__BazBah`.
-- *
-- * - Identifiers for functions and globals are all lowercase, with camel case
-- * words separated by single underscores. For example, one of the function
-- * prototypes generated by `protoc-c` for the above example:
-- *
--~~~{.c}
--Foo__Bar__BazBah *
-- foo__bar__baz_bah__unpack
-- (ProtobufCAllocator *allocator,
-- size_t len,
-- const uint8_t *data);
--~~~
-- *
-- * - Identifiers for enum values contain an uppercase prefix which embeds the
-- * package name and the enum type name.
-- *
-- * - A double underscore is used to separate further components of identifier
-- * names.
-- *
-- * For example, in the name of the unpack function above, the package name
-- * `foo.bar` has become `foo__bar`, the message name BazBah has become
-- * `baz_bah`, and the method name is `unpack`. These are all joined with double
-- * underscores to form the C identifier `foo__bar__baz_bah__unpack`.
-- *
-- * We also generate descriptor objects for messages and enums. These are
-- * declared in the `.pb-c.h` files:
-- *
--~~~{.c}
--extern const ProtobufCMessageDescriptor foo__bar__baz_bah__descriptor;
--~~~
-- *
-- * The message structures all begin with `ProtobufCMessageDescriptor *` which is
-- * sufficient to allow them to be cast to `ProtobufCMessage`.
-- *
-- * For each message defined in a `.proto` file, we generate a number of
-- * functions. Each function name contains a prefix based on the package name and
-- * message name in order to make it a unique C identifier.
-- *
-- * - `unpack()`. Unpacks data for a particular message format. Note that the
-- * `allocator` parameter is usually `NULL` to indicate that the system's
-- * `malloc()` and `free()` functions should be used for dynamically allocating
-- * memory.
-- *
--~~~{.c}
--Foo__Bar__BazBah *
-- foo__bar__baz_bah__unpack
-- (ProtobufCAllocator *allocator,
-- size_t len,
-- const uint8_t *data);
--~~~
-- *
-- * - `free_unpacked()`. Frees a message object obtained with the `unpack()`
-- * method.
-- *
--~~~{.c}
--void foo__bar__baz_bah__free_unpacked
-- (Foo__Bar__BazBah *message,
-- ProtobufCAllocator *allocator);
--~~~
-- *
-- * - `get_packed_size()`. Calculates the length in bytes of the serialized
-- * representation of the message object.
-- *
--~~~{.c}
--size_t foo__bar__baz_bah__get_packed_size
-- (const Foo__Bar__BazBah *message);
--~~~
-- *
-- * - `pack()`. Pack a message object into a preallocated buffer. Assumes that
-- * the buffer is large enough. (Use `get_packed_size()` first.)
-- *
--~~~{.c}
--size_t foo__bar__baz_bah__pack
-- (const Foo__Bar__BazBah *message,
-- uint8_t *out);
--~~~
-- *
-- * - `pack_to_buffer()`. Packs a message into a "virtual buffer". This is an
-- * object which defines an "append bytes" callback to consume data as it is
-- * serialized.
-- *
--~~~{.c}
--size_t foo__bar__baz_bah__pack_to_buffer
-- (const Foo__Bar__BazBah *message,
-- ProtobufCBuffer *buffer);
--~~~
-- *
-- * \page pack Packing and unpacking messages
-- *
-- * To pack a message, first compute the packed size of the message with
-- * protobuf_c_message_get_packed_size(), then allocate a buffer of at least
-- * that size, then call protobuf_c_message_pack().
-- *
-- * Alternatively, a message can be serialized without calculating the final size
-- * first. Use the protobuf_c_message_pack_to_buffer() function and provide a
-- * ProtobufCBuffer object which implements an "append" method that consumes
-- * data.
-- *
-- * To unpack a message, call the protobuf_c_message_unpack() function. The
-- * result can be cast to an object of the type that matches the descriptor for
-- * the message.
-- *
-- * The result of unpacking a message should be freed with
-- * protobuf_c_message_free_unpacked().
-- */
--
--#ifndef PROTOBUF_C_H
--#define PROTOBUF_C_H
--
--#include <assert.h>
--#include <limits.h>
--#include <stddef.h>
--#include <stdint.h>
--
--#ifdef __cplusplus
--# define PROTOBUF_C__BEGIN_DECLS extern "C" {
--# define PROTOBUF_C__END_DECLS }
--#else
--# define PROTOBUF_C__BEGIN_DECLS
--# define PROTOBUF_C__END_DECLS
--#endif
--
--PROTOBUF_C__BEGIN_DECLS
--
--#if defined(_WIN32) && defined(PROTOBUF_C_USE_SHARED_LIB)
--# ifdef PROTOBUF_C_EXPORT
--# define PROTOBUF_C__API __declspec(dllexport)
--# else
--# define PROTOBUF_C__API __declspec(dllimport)
--# endif
--#else
--# define PROTOBUF_C__API
--#endif
--
--#if !defined(PROTOBUF_C__NO_DEPRECATED)
--# if (__GNUC__ > 3) || (__GNUC__ == 3 && __GNUC_MINOR__ >= 1)
--# define PROTOBUF_C__DEPRECATED __attribute__((__deprecated__))
--# endif
--#else
--# define PROTOBUF_C__DEPRECATED
--#endif
--
--#ifndef PROTOBUF_C__FORCE_ENUM_TO_BE_INT_SIZE
-- #define PROTOBUF_C__FORCE_ENUM_TO_BE_INT_SIZE(enum_name) \
-- , _##enum_name##_IS_INT_SIZE = INT_MAX
--#endif
--
--#define PROTOBUF_C__SERVICE_DESCRIPTOR_MAGIC 0x14159bc3
--#define PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC 0x28aaeef9
--#define PROTOBUF_C__ENUM_DESCRIPTOR_MAGIC 0x114315af
--
--/**
-- * \defgroup api Public API
-- *
-- * This is the public API for `libprotobuf-c`. These interfaces are stable and
-- * subject to Semantic Versioning guarantees.
-- *
-- * @{
-- */
--
--/**
-- * Values for the `flags` word in `ProtobufCFieldDescriptor`.
-- */
--typedef enum {
-- /** Set if the field is repeated and marked with the `packed` option. */
-- PROTOBUF_C_FIELD_FLAG_PACKED = (1 << 0),
--
-- /** Set if the field is marked with the `deprecated` option. */
-- PROTOBUF_C_FIELD_FLAG_DEPRECATED = (1 << 1),
--} ProtobufCFieldFlag;
--
--/**
-- * Message field rules.
-- *
-- * \see [Defining A Message Type] in the Protocol Buffers documentation.
-- *
-- * [Defining A Message Type]:
-- * https://developers.google.com/protocol-buffers/docs/proto#simple
-- */
--typedef enum {
-- /** A well-formed message must have exactly one of this field. */
-- PROTOBUF_C_LABEL_REQUIRED,
--
-- /**
-- * A well-formed message can have zero or one of this field (but not
-- * more than one).
-- */
-- PROTOBUF_C_LABEL_OPTIONAL,
--
-- /**
-- * This field can be repeated any number of times (including zero) in a
-- * well-formed message. The order of the repeated values will be
-- * preserved.
-- */
-- PROTOBUF_C_LABEL_REPEATED,
--} ProtobufCLabel;
--
--/**
-- * Field value types.
-- *
-- * \see [Scalar Value Types] in the Protocol Buffers documentation.
-- *
-- * [Scalar Value Types]:
-- * https://developers.google.com/protocol-buffers/docs/proto#scalar
-- */
--typedef enum {
-- PROTOBUF_C_TYPE_INT32, /**< int32 */
-- PROTOBUF_C_TYPE_SINT32, /**< signed int32 */
-- PROTOBUF_C_TYPE_SFIXED32, /**< signed int32 (4 bytes) */
-- PROTOBUF_C_TYPE_INT64, /**< int64 */
-- PROTOBUF_C_TYPE_SINT64, /**< signed int64 */
-- PROTOBUF_C_TYPE_SFIXED64, /**< signed int64 (8 bytes) */
-- PROTOBUF_C_TYPE_UINT32, /**< unsigned int32 */
-- PROTOBUF_C_TYPE_FIXED32, /**< unsigned int32 (4 bytes) */
-- PROTOBUF_C_TYPE_UINT64, /**< unsigned int64 */
-- PROTOBUF_C_TYPE_FIXED64, /**< unsigned int64 (8 bytes) */
-- PROTOBUF_C_TYPE_FLOAT, /**< float */
-- PROTOBUF_C_TYPE_DOUBLE, /**< double */
-- PROTOBUF_C_TYPE_BOOL, /**< boolean */
-- PROTOBUF_C_TYPE_ENUM, /**< enumerated type */
-- PROTOBUF_C_TYPE_STRING, /**< UTF-8 or ASCII string */
-- PROTOBUF_C_TYPE_BYTES, /**< arbitrary byte sequence */
-- PROTOBUF_C_TYPE_MESSAGE, /**< nested message */
--} ProtobufCType;
--
--/**
-- * Field wire types.
-- *
-- * \see [Message Structure] in the Protocol Buffers documentation.
-- *
-- * [Message Structure]:
-- * https://developers.google.com/protocol-buffers/docs/encoding#structure
-- */
--typedef enum {
-- PROTOBUF_C_WIRE_TYPE_VARINT = 0,
-- PROTOBUF_C_WIRE_TYPE_64BIT = 1,
-- PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED = 2,
-- /* "Start group" and "end group" wire types are unsupported. */
-- PROTOBUF_C_WIRE_TYPE_32BIT = 5,
--} ProtobufCWireType;
--
--struct ProtobufCAllocator;
--struct ProtobufCBinaryData;
--struct ProtobufCBuffer;
--struct ProtobufCBufferSimple;
--struct ProtobufCEnumDescriptor;
--struct ProtobufCEnumValue;
--struct ProtobufCEnumValueIndex;
--struct ProtobufCFieldDescriptor;
--struct ProtobufCIntRange;
--struct ProtobufCMessage;
--struct ProtobufCMessageDescriptor;
--struct ProtobufCMessageUnknownField;
--struct ProtobufCMethodDescriptor;
--struct ProtobufCService;
--struct ProtobufCServiceDescriptor;
--
--typedef struct ProtobufCAllocator ProtobufCAllocator;
--typedef struct ProtobufCBinaryData ProtobufCBinaryData;
--typedef struct ProtobufCBuffer ProtobufCBuffer;
--typedef struct ProtobufCBufferSimple ProtobufCBufferSimple;
--typedef struct ProtobufCEnumDescriptor ProtobufCEnumDescriptor;
--typedef struct ProtobufCEnumValue ProtobufCEnumValue;
--typedef struct ProtobufCEnumValueIndex ProtobufCEnumValueIndex;
--typedef struct ProtobufCFieldDescriptor ProtobufCFieldDescriptor;
--typedef struct ProtobufCIntRange ProtobufCIntRange;
--typedef struct ProtobufCMessage ProtobufCMessage;
--typedef struct ProtobufCMessageDescriptor ProtobufCMessageDescriptor;
--typedef struct ProtobufCMessageUnknownField ProtobufCMessageUnknownField;
--typedef struct ProtobufCMethodDescriptor ProtobufCMethodDescriptor;
--typedef struct ProtobufCService ProtobufCService;
--typedef struct ProtobufCServiceDescriptor ProtobufCServiceDescriptor;
--
--/** Boolean type. */
--typedef int protobuf_c_boolean;
--
--typedef void (*ProtobufCClosure)(const ProtobufCMessage *, void *closure_data);
--typedef void (*ProtobufCMessageInit)(ProtobufCMessage *);
--typedef void (*ProtobufCServiceDestroy)(ProtobufCService *);
--
--/**
-- * Structure for defining a custom memory allocator.
-- */
--struct ProtobufCAllocator {
-- /** Function to allocate memory. */
-- void *(*alloc)(void *allocator_data, size_t size);
--
-- /** Function to free memory. */
-- void (*free)(void *allocator_data, void *pointer);
--
-- /** Opaque pointer passed to `alloc` and `free` functions. */
-- void *allocator_data;
--};
--
--/**
-- * Structure for the protobuf `bytes` scalar type.
-- *
-- * The data contained in a `ProtobufCBinaryData` is an arbitrary sequence of
-- * bytes. It may contain embedded `NUL` characters and is not required to be
-- * `NUL`-terminated.
-- */
--struct ProtobufCBinaryData {
-- size_t len; /**< Number of bytes in the `data` field. */
-- uint8_t *data; /**< Data bytes. */
--};
--
--/**
-- * Structure for defining a virtual append-only buffer. Used by
-- * protobuf_c_message_pack_to_buffer() to abstract the consumption of serialized
-- * bytes.
-- *
-- * `ProtobufCBuffer` "subclasses" may be defined on the stack. For example, to
-- * write to a `FILE` object:
-- *
--~~~{.c}
--typedef struct {
-- ProtobufCBuffer base;
-- FILE *fp;
--} BufferAppendToFile;
--
--static void
--my_buffer_file_append(ProtobufCBuffer *buffer,
-- size_t len,
-- const uint8_t *data)
--{
-- BufferAppendToFile *file_buf = (BufferAppendToFile *) buffer;
-- fwrite(data, len, 1, file_buf->fp); // XXX: No error handling!
--}
--~~~
-- *
-- * To use this new type of ProtobufCBuffer, it could be called as follows:
-- *
--~~~{.c}
--...
--BufferAppendToFile tmp = {0};
--tmp.base.append = my_buffer_file_append;
--tmp.fp = fp;
--protobuf_c_message_pack_to_buffer(&message, &tmp);
--...
--~~~
-- */
--struct ProtobufCBuffer {
-- /** Append function. Consumes the `len` bytes stored at `data`. */
-- void (*append)(ProtobufCBuffer *buffer,
-- size_t len,
-- const uint8_t *data);
--};
--
--/**
-- * Simple buffer "subclass" of `ProtobufCBuffer`.
-- *
-- * A `ProtobufCBufferSimple` object is declared on the stack and uses a
-- * scratch buffer provided by the user for the initial allocation. It performs
-- * exponential resizing, using dynamically allocated memory. A
-- * `ProtobufCBufferSimple` object can be created and used as follows:
-- *
--~~~{.c}
--uint8_t pad[128];
--ProtobufCBufferSimple simple = PROTOBUF_C_BUFFER_SIMPLE_INIT(pad);
--ProtobufCBuffer *buffer = (ProtobufCBuffer *) &simple;
--~~~
-- *
-- * `buffer` can now be used with `protobuf_c_message_pack_to_buffer()`. Once a
-- * message has been serialized to a `ProtobufCBufferSimple` object, the
-- * serialized data bytes can be accessed from the `.data` field.
-- *
-- * To free the memory allocated by a `ProtobufCBufferSimple` object, if any,
-- * call PROTOBUF_C_BUFFER_SIMPLE_CLEAR() on the object, for example:
-- *
--~~~{.c}
--PROTOBUF_C_BUFFER_SIMPLE_CLEAR(&simple);
--~~~
-- *
-- * \see PROTOBUF_C_BUFFER_SIMPLE_INIT
-- * \see PROTOBUF_C_BUFFER_SIMPLE_CLEAR
-- */
--struct ProtobufCBufferSimple {
-- /** "Base class". */
-- ProtobufCBuffer base;
-- /** Number of bytes allocated in `data`. */
-- size_t alloced;
-- /** Number of bytes currently stored in `data`. */
-- size_t len;
-- /** Data bytes. */
-- uint8_t *data;
-- /** Whether `data` must be freed. */
-- protobuf_c_boolean must_free_data;
-- /** Allocator to use. May be NULL to indicate the system allocator. */
-- ProtobufCAllocator *allocator;
--};
--
--/**
-- * Describes an enumeration as a whole, with all of its values.
-- */
--struct ProtobufCEnumDescriptor {
-- /** Magic value checked to ensure that the API is used correctly. */
-- uint32_t magic;
--
-- /** The qualified name (e.g., "namespace.Type"). */
-- const char *name;
-- /** The unqualified name as given in the .proto file (e.g., "Type"). */
-- const char *short_name;
-- /** Identifier used in generated C code. */
-- const char *c_name;
-- /** The dot-separated namespace. */
-- const char *package_name;
--
-- /** Number elements in `values`. */
-- unsigned n_values;
-- /** Array of distinct values, sorted by numeric value. */
-- const ProtobufCEnumValue *values;
--
-- /** Number of elements in `values_by_name`. */
-- unsigned n_value_names;
-- /** Array of named values, including aliases, sorted by name. */
-- const ProtobufCEnumValueIndex *values_by_name;
--
-- /** Number of elements in `value_ranges`. */
-- unsigned n_value_ranges;
-- /** Value ranges, for faster lookups by numeric value. */
-- const ProtobufCIntRange *value_ranges;
--
-- /** Reserved for future use. */
-- void *reserved1;
-- /** Reserved for future use. */
-- void *reserved2;
-- /** Reserved for future use. */
-- void *reserved3;
-- /** Reserved for future use. */
-- void *reserved4;
--};
--
--/**
-- * Represents a single value of an enumeration.
-- */
--struct ProtobufCEnumValue {
-- /** The string identifying this value in the .proto file. */
-- const char *name;
--
-- /** The string identifying this value in generated C code. */
-- const char *c_name;
--
-- /** The numeric value assigned in the .proto file. */
-- int value;
--};
--
--/**
-- * Used by `ProtobufCEnumDescriptor` to look up enum values.
-- */
--struct ProtobufCEnumValueIndex {
-- /** Name of the enum value. */
-- const char *name;
-- /** Index into values[] array. */
-- unsigned index;
--};
--
--/**
-- * Describes a single field in a message.
-- */
--struct ProtobufCFieldDescriptor {
-- /** Name of the field as given in the .proto file. */
-- const char *name;
--
-- /** Tag value of the field as given in the .proto file. */
-- uint32_t id;
--
-- /** Whether the field is `REQUIRED`, `OPTIONAL`, or `REPEATED`. */
-- ProtobufCLabel label;
--
-- /** The type of the field. */
-- ProtobufCType type;
--
-- /**
-- * The offset in bytes of the message's C structure's quantifier field
-- * (the `has_MEMBER` field for optional members or the `n_MEMBER` field
-- * for repeated members.
-- */
-- unsigned quantifier_offset;
--
-- /**
-- * The offset in bytes into the message's C structure for the member
-- * itself.
-- */
-- unsigned offset;
--
-- /**
-- * A type-specific descriptor.
-- *
-- * If `type` is `PROTOBUF_C_TYPE_ENUM`, then `descriptor` points to the
-- * corresponding `ProtobufCEnumDescriptor`.
-- *
-- * If `type` is `PROTOBUF_C_TYPE_MESSAGE`, then `descriptor` points to
-- * the corresponding `ProtobufCMessageDescriptor`.
-- *
-- * Otherwise this field is NULL.
-- */
-- const void *descriptor; /* for MESSAGE and ENUM types */
--
-- /** The default value for this field, if defined. May be NULL. */
-- const void *default_value;
--
-- /**
-- * A flag word. Zero or more of the bits defined in the
-- * `ProtobufCFieldFlag` enum may be set.
-- */
-- uint32_t flags;
--
-- /** Reserved for future use. */
-- unsigned reserved_flags;
-- /** Reserved for future use. */
-- void *reserved2;
-- /** Reserved for future use. */
-- void *reserved3;
--};
--
--/**
-- * Helper structure for optimizing int => index lookups in the case
-- * where the keys are mostly consecutive values, as they presumably are for
-- * enums and fields.
-- *
-- * The data structures requires that the values in the original array are
-- * sorted.
-- */
--struct ProtobufCIntRange {
-- int start_value;
-- unsigned orig_index;
-- /*
-- * NOTE: the number of values in the range can be inferred by looking
-- * at the next element's orig_index. A dummy element is added to make
-- * this simple.
-- */
--};
--
--/**
-- * An instance of a message.
-- *
-- * `ProtobufCMessage` is a light-weight "base class" for all messages.
-- *
-- * In particular, `ProtobufCMessage` doesn't have any allocation policy
-- * associated with it. That's because it's common to create `ProtobufCMessage`
-- * objects on the stack. In fact, that's what we recommend for sending messages.
-- * If the object is allocated from the stack, you can't really have a memory
-- * leak.
-- *
-- * This means that calls to functions like protobuf_c_message_unpack() which
-- * return a `ProtobufCMessage` must be paired with a call to a free function,
-- * like protobuf_c_message_free_unpacked().
-- */
--struct ProtobufCMessage {
-- /** The descriptor for this message type. */
-- const ProtobufCMessageDescriptor *descriptor;
-- /** The number of elements in `unknown_fields`. */
-- unsigned n_unknown_fields;
-- /** The fields that weren't recognized by the parser. */
-- ProtobufCMessageUnknownField *unknown_fields;
--};
--
--/**
-- * Describes a message.
-- */
--struct ProtobufCMessageDescriptor {
-- /** Magic value checked to ensure that the API is used correctly. */
-- uint32_t magic;
--
-- /** The qualified name (e.g., "namespace.Type"). */
-- const char *name;
-- /** The unqualified name as given in the .proto file (e.g., "Type"). */
-- const char *short_name;
-- /** Identifier used in generated C code. */
-- const char *c_name;
-- /** The dot-separated namespace. */
-- const char *package_name;
--
-- /**
-- * Size in bytes of the C structure representing an instance of this
-- * type of message.
-- */
-- size_t sizeof_message;
--
-- /** Number of elements in `fields`. */
-- unsigned n_fields;
-- /** Field descriptors, sorted by tag number. */
-- const ProtobufCFieldDescriptor *fields;
-- /** Used for looking up fields by name. */
-- const unsigned *fields_sorted_by_name;
--
-- /** Number of elements in `field_ranges`. */
-- unsigned n_field_ranges;
-- /** Used for looking up fields by id. */
-- const ProtobufCIntRange *field_ranges;
--
-- /** Message initialisation function. */
-- ProtobufCMessageInit message_init;
--
-- /** Reserved for future use. */
-- void *reserved1;
-- /** Reserved for future use. */
-- void *reserved2;
-- /** Reserved for future use. */
-- void *reserved3;
--};
--
--/**
-- * An unknown message field.
-- */
--struct ProtobufCMessageUnknownField {
-- /** The tag number. */
-- uint32_t tag;
-- /** The wire type of the field. */
-- ProtobufCWireType wire_type;
-- /** Number of bytes in `data`. */
-- size_t len;
-- /** Field data. */
-- uint8_t *data;
--};
--
--/**
-- * Method descriptor.
-- */
--struct ProtobufCMethodDescriptor {
-- /** Method name. */
-- const char *name;
-- /** Input message descriptor. */
-- const ProtobufCMessageDescriptor *input;
-- /** Output message descriptor. */
-- const ProtobufCMessageDescriptor *output;
--};
--
--/**
-- * Service.
-- */
--struct ProtobufCService {
-- /** Service descriptor. */
-- const ProtobufCServiceDescriptor *descriptor;
-- /** Function to invoke the service. */
-- void (*invoke)(ProtobufCService *service,
-- unsigned method_index,
-- const ProtobufCMessage *input,
-- ProtobufCClosure closure,
-- void *closure_data);
-- /** Function to destroy the service. */
-- void (*destroy)(ProtobufCService *service);
--};
--
--/**
-- * Service descriptor.
-- */
--struct ProtobufCServiceDescriptor {
-- /** Magic value checked to ensure that the API is used correctly. */
-- uint32_t magic;
--
-- /** Service name. */
-- const char *name;
-- /** Short version of service name. */
-- const char *short_name;
-- /** C identifier for the service name. */
-- const char *c_name;
-- /** Package name. */
-- const char *package;
-- /** Number of elements in `methods`. */
-- unsigned n_methods;
-- /** Method descriptors, in the order defined in the .proto file. */
-- const ProtobufCMethodDescriptor *methods;
-- /** Sort index of methods. */
-- const unsigned *method_indices_by_name;
--};
--
--/**
-- * Get the version of the protobuf-c library. Note that this is the version of
-- * the library linked against, not the version of the headers compiled against.
-- *
-- * \return A string containing the version number of protobuf-c.
-- */
--PROTOBUF_C__API
--const char *
--protobuf_c_version(void);
--
--/**
-- * Get the version of the protobuf-c library. Note that this is the version of
-- * the library linked against, not the version of the headers compiled against.
-- *
-- * \return A 32 bit unsigned integer containing the version number of
-- * protobuf-c, represented in base-10 as (MAJOR*1E6) + (MINOR*1E3) + PATCH.
-- */
--PROTOBUF_C__API
--uint32_t
--protobuf_c_version_number(void);
--
--/**
-- * The version of the protobuf-c headers, represented as a string using the same
-- * format as protobuf_c_version().
-- */
--#define PROTOBUF_C_VERSION "1.0.0"
--
--/**
-- * The version of the protobuf-c headers, represented as an integer using the
-- * same format as protobuf_c_version_number().
-- */
--#define PROTOBUF_C_VERSION_NUMBER 1000000
--
--/**
-- * The minimum protoc-c version which works with the current version of the
-- * protobuf-c headers.
-- */
--#define PROTOBUF_C_MIN_COMPILER_VERSION 1000000
--
--/**
-- * Look up a `ProtobufCEnumValue` from a `ProtobufCEnumDescriptor` by name.
-- *
-- * \param desc
-- * The `ProtobufCEnumDescriptor` object.
-- * \param name
-- * The `name` field from the corresponding `ProtobufCEnumValue` object to
-- * match.
-- * \return
-- * A `ProtobufCEnumValue` object.
-- * \retval NULL
-- * If not found.
-- */
--PROTOBUF_C__API
--const ProtobufCEnumValue *
--protobuf_c_enum_descriptor_get_value_by_name(
-- const ProtobufCEnumDescriptor *desc,
-- const char *name);
--
--/**
-- * Look up a `ProtobufCEnumValue` from a `ProtobufCEnumDescriptor` by numeric
-- * value.
-- *
-- * \param desc
-- * The `ProtobufCEnumDescriptor` object.
-- * \param value
-- * The `value` field from the corresponding `ProtobufCEnumValue` object to
-- * match.
-- *
-- * \return
-- * A `ProtobufCEnumValue` object.
-- * \retval NULL
-- * If not found.
-- */
--PROTOBUF_C__API
--const ProtobufCEnumValue *
--protobuf_c_enum_descriptor_get_value(
-- const ProtobufCEnumDescriptor *desc,
-- int value);
--
--/**
-- * Look up a `ProtobufCFieldDescriptor` from a `ProtobufCMessageDescriptor` by
-- * the name of the field.
-- *
-- * \param desc
-- * The `ProtobufCMessageDescriptor` object.
-- * \param name
-- * The name of the field.
-- * \return
-- * A `ProtobufCFieldDescriptor` object.
-- * \retval NULL
-- * If not found.
-- */
--PROTOBUF_C__API
--const ProtobufCFieldDescriptor *
--protobuf_c_message_descriptor_get_field_by_name(
-- const ProtobufCMessageDescriptor *desc,
-- const char *name);
--
--/**
-- * Look up a `ProtobufCFieldDescriptor` from a `ProtobufCMessageDescriptor` by
-- * the tag value of the field.
-- *
-- * \param desc
-- * The `ProtobufCMessageDescriptor` object.
-- * \param value
-- * The tag value of the field.
-- * \return
-- * A `ProtobufCFieldDescriptor` object.
-- * \retval NULL
-- * If not found.
-- */
--PROTOBUF_C__API
--const ProtobufCFieldDescriptor *
--protobuf_c_message_descriptor_get_field(
-- const ProtobufCMessageDescriptor *desc,
-- unsigned value);
--
--/**
-- * Determine the number of bytes required to store the serialised message.
-- *
-- * \param message
-- * The message object to serialise.
-- * \return
-- * Number of bytes.
-- */
--PROTOBUF_C__API
--size_t
--protobuf_c_message_get_packed_size(const ProtobufCMessage *message);
--
--/**
-- * Serialise a message from its in-memory representation.
-- *
-- * This function stores the serialised bytes of the message in a pre-allocated
-- * buffer.
-- *
-- * \param message
-- * The message object to serialise.
-- * \param[out] out
-- * Buffer to store the bytes of the serialised message. This buffer must
-- * have enough space to store the packed message. Use
-- * protobuf_c_message_get_packed_size() to determine the number of bytes
-- * required.
-- * \return
-- * Number of bytes stored in `out`.
-- */
--PROTOBUF_C__API
--size_t
--protobuf_c_message_pack(const ProtobufCMessage *message, uint8_t *out);
--
--/**
-- * Serialise a message from its in-memory representation to a virtual buffer.
-- *
-- * This function calls the `append` method of a `ProtobufCBuffer` object to
-- * consume the bytes generated by the serialiser.
-- *
-- * \param message
-- * The message object to serialise.
-- * \param buffer
-- * The virtual buffer object.
-- * \return
-- * Number of bytes passed to the virtual buffer.
-- */
--PROTOBUF_C__API
--size_t
--protobuf_c_message_pack_to_buffer(
-- const ProtobufCMessage *message,
-- ProtobufCBuffer *buffer);
--
--/**
-- * Unpack a serialised message into an in-memory representation.
-- *
-- * \param descriptor
-- * The message descriptor.
-- * \param allocator
-- * `ProtobufCAllocator` to use for memory allocation. May be NULL to
-- * specify the default allocator.
-- * \param len
-- * Length in bytes of the serialised message.
-- * \param data
-- * Pointer to the serialised message.
-- * \return
-- * An unpacked message object.
-- * \retval NULL
-- * If an error occurred during unpacking.
-- */
--PROTOBUF_C__API
--ProtobufCMessage *
--protobuf_c_message_unpack(
-- const ProtobufCMessageDescriptor *descriptor,
-- ProtobufCAllocator *allocator,
-- size_t len,
-- const uint8_t *data);
--
--/**
-- * Free an unpacked message object.
-- *
-- * This function should be used to deallocate the memory used by a call to
-- * protobuf_c_message_unpack().
-- *
-- * \param message
-- * The message object to free.
-- * \param allocator
-- * `ProtobufCAllocator` to use for memory deallocation. May be NULL to
-- * specify the default allocator.
-- */
--PROTOBUF_C__API
--void
--protobuf_c_message_free_unpacked(
-- ProtobufCMessage *message,
-- ProtobufCAllocator *allocator);
--
--/**
-- * Check the validity of a message object.
-- *
-- * Makes sure all required fields (`PROTOBUF_C_LABEL_REQUIRED`) are present.
-- * Recursively checks nested messages.
-- *
-- * \retval TRUE
-- * Message is valid.
-- * \retval FALSE
-- * Message is invalid.
-- */
--PROTOBUF_C__API
--protobuf_c_boolean
--protobuf_c_message_check(const ProtobufCMessage *);
--
--/** Message initialiser. */
--#define PROTOBUF_C_MESSAGE_INIT(descriptor) { descriptor, 0, NULL }
--
--/**
-- * Initialise a message object from a message descriptor.
-- *
-- * \param descriptor
-- * Message descriptor.
-- * \param message
-- * Allocated block of memory of size `descriptor->sizeof_message`.
-- */
--PROTOBUF_C__API
--void
--protobuf_c_message_init(
-- const ProtobufCMessageDescriptor *descriptor,
-- void *message);
--
--/**
-- * Free a service.
-- *
-- * \param service
-- * The service object to free.
-- */
--PROTOBUF_C__API
--void
--protobuf_c_service_destroy(ProtobufCService *service);
--
--/**
-- * Look up a `ProtobufCMethodDescriptor` by name.
-- *
-- * \param desc
-- * Service descriptor.
-- * \param name
-- * Name of the method.
-- *
-- * \return
-- * A `ProtobufCMethodDescriptor` object.
-- * \retval NULL
-- * If not found.
-- */
--PROTOBUF_C__API
--const ProtobufCMethodDescriptor *
--protobuf_c_service_descriptor_get_method_by_name(
-- const ProtobufCServiceDescriptor *desc,
-- const char *name);
--
--/**
-- * Initialise a `ProtobufCBufferSimple` object.
-- */
--#define PROTOBUF_C_BUFFER_SIMPLE_INIT(array_of_bytes) \
--{ \
-- { protobuf_c_buffer_simple_append }, \
-- sizeof(array_of_bytes), \
-- 0, \
-- (array_of_bytes), \
-- 0, \
-- NULL \
--}
--
--/**
-- * Clear a `ProtobufCBufferSimple` object, freeing any allocated memory.
-- */
--#define PROTOBUF_C_BUFFER_SIMPLE_CLEAR(simp_buf) \
--do { \
-- if ((simp_buf)->must_free_data) { \
-- if ((simp_buf)->allocator != NULL) \
-- (simp_buf)->allocator->free( \
-- (simp_buf)->allocator, \
-- (simp_buf)->data); \
-- else \
-- free((simp_buf)->data); \
-- } \
--} while (0)
--
--/**
-- * The `append` method for `ProtobufCBufferSimple`.
-- *
-- * \param buffer
-- * The buffer object to append to. Must actually be a
-- * `ProtobufCBufferSimple` object.
-- * \param len
-- * Number of bytes in `data`.
-- * \param data
-- * Data to append.
-- */
--PROTOBUF_C__API
--void
--protobuf_c_buffer_simple_append(
-- ProtobufCBuffer *buffer,
-- size_t len,
-- const unsigned char *data);
--
--PROTOBUF_C__API
--void
--protobuf_c_service_generated_init(
-- ProtobufCService *service,
-- const ProtobufCServiceDescriptor *descriptor,
-- ProtobufCServiceDestroy destroy);
--
--PROTOBUF_C__API
--void
--protobuf_c_service_invoke_internal(
-- ProtobufCService *service,
-- unsigned method_index,
-- const ProtobufCMessage *input,
-- ProtobufCClosure closure,
-- void *closure_data);
--
--/**@}*/
--
--PROTOBUF_C__END_DECLS
--
--#endif /* PROTOBUF_C_H */
-diff --git a/src/protobuf/protobuf-c/protobuf-c.c b/src/protobuf/protobuf-c/protobuf-c.c
-new file mode 100644
-index 0000000..c7fb21d
---- /dev/null
-+++ b/src/protobuf/protobuf-c/protobuf-c.c
-@@ -0,0 +1,3272 @@
-+/*
-+ * Copyright (c) 2008-2014, Dave Benson and the protobuf-c authors.
-+ * All rights reserved.
-+ *
-+ * Redistribution and use in source and binary forms, with or without
-+ * modification, are permitted provided that the following conditions are
-+ * met:
-+ *
-+ * * Redistributions of source code must retain the above copyright
-+ * notice, this list of conditions and the following disclaimer.
-+ *
-+ * * Redistributions in binary form must reproduce the above
-+ * copyright notice, this list of conditions and the following disclaimer
-+ * in the documentation and/or other materials provided with the
-+ * distribution.
-+ *
-+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
-+ * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
-+ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
-+ * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
-+ * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
-+ * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
-+ * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
-+ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
-+ * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
-+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-+ */
-+
-+/*! \file
-+ * Support library for `protoc-c` generated code.
-+ *
-+ * This file implements the public API used by the code generated
-+ * by `protoc-c`.
-+ *
-+ * \authors Dave Benson and the protobuf-c authors
-+ *
-+ * \copyright 2008-2014. Licensed under the terms of the [BSD-2-Clause] license.
-+ */
-+
-+/**
-+ * \todo 64-BIT OPTIMIZATION: certain implementations use 32-bit math
-+ * even on 64-bit platforms (uint64_size, uint64_pack, parse_uint64).
-+ *
-+ * \todo Use size_t consistently.
-+ */
-+
-+#include <stdlib.h> /* for malloc, free */
-+#include <string.h> /* for strcmp, strlen, memcpy, memmove, memset */
-+
-+#include "protobuf-c.h"
-+
-+#define TRUE 1
-+#define FALSE 0
-+
-+#define PROTOBUF_C__ASSERT_NOT_REACHED() assert(0)
-+
-+/**
-+ * \defgroup internal Internal functions and macros
-+ *
-+ * These are not exported by the library but are useful to developers working
-+ * on `libprotobuf-c` itself.
-+ */
-+
-+/**
-+ * \defgroup macros Utility macros for manipulating structures
-+ *
-+ * Macros and constants used to manipulate the base "classes" generated by
-+ * `protobuf-c`. They also define limits and check correctness.
-+ *
-+ * \ingroup internal
-+ * @{
-+ */
-+
-+/** The maximum length of a 64-bit integer in varint encoding. */
-+#define MAX_UINT64_ENCODED_SIZE 10
-+
-+#ifndef PROTOBUF_C_UNPACK_ERROR
-+# define PROTOBUF_C_UNPACK_ERROR(...)
-+#endif
-+
-+/**
-+ * Internal `ProtobufCMessage` manipulation macro.
-+ *
-+ * Base macro for manipulating a `ProtobufCMessage`. Used by STRUCT_MEMBER() and
-+ * STRUCT_MEMBER_PTR().
-+ */
-+#define STRUCT_MEMBER_P(struct_p, struct_offset) \
-+ ((void *) ((uint8_t *) (struct_p) + (struct_offset)))
-+
-+/**
-+ * Return field in a `ProtobufCMessage` based on offset.
-+ *
-+ * Take a pointer to a `ProtobufCMessage` and find the field at the offset.
-+ * Cast it to the passed type.
-+ */
-+#define STRUCT_MEMBER(member_type, struct_p, struct_offset) \
-+ (*(member_type *) STRUCT_MEMBER_P((struct_p), (struct_offset)))
-+
-+/**
-+ * Return field in a `ProtobufCMessage` based on offset.
-+ *
-+ * Take a pointer to a `ProtobufCMessage` and find the field at the offset. Cast
-+ * it to a pointer to the passed type.
-+ */
-+#define STRUCT_MEMBER_PTR(member_type, struct_p, struct_offset) \
-+ ((member_type *) STRUCT_MEMBER_P((struct_p), (struct_offset)))
-+
-+/* Assertions for magic numbers. */
-+
-+#define ASSERT_IS_ENUM_DESCRIPTOR(desc) \
-+ assert((desc)->magic == PROTOBUF_C__ENUM_DESCRIPTOR_MAGIC)
-+
-+#define ASSERT_IS_MESSAGE_DESCRIPTOR(desc) \
-+ assert((desc)->magic == PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC)
-+
-+#define ASSERT_IS_MESSAGE(message) \
-+ ASSERT_IS_MESSAGE_DESCRIPTOR((message)->descriptor)
-+
-+#define ASSERT_IS_SERVICE_DESCRIPTOR(desc) \
-+ assert((desc)->magic == PROTOBUF_C__SERVICE_DESCRIPTOR_MAGIC)
-+
-+/**@}*/
-+
-+/* --- version --- */
-+
-+const char *
-+protobuf_c_version(void)
-+{
-+ return PROTOBUF_C_VERSION;
-+}
-+
-+uint32_t
-+protobuf_c_version_number(void)
-+{
-+ return PROTOBUF_C_VERSION_NUMBER;
-+}
-+
-+/* --- allocator --- */
-+
-+static void *
-+system_alloc(void *allocator_data, size_t size)
-+{
-+ return malloc(size);
-+}
-+
-+static void
-+system_free(void *allocator_data, void *data)
-+{
-+ free(data);
-+}
-+
-+static inline void *
-+do_alloc(ProtobufCAllocator *allocator, size_t size)
-+{
-+ return allocator->alloc(allocator->allocator_data, size);
-+}
-+
-+static inline void
-+do_free(ProtobufCAllocator *allocator, void *data)
-+{
-+ if (data != NULL)
-+ allocator->free(allocator->allocator_data, data);
-+}
-+
-+/*
-+ * This allocator uses the system's malloc() and free(). It is the default
-+ * allocator used if NULL is passed as the ProtobufCAllocator to an exported
-+ * function.
-+ */
-+static ProtobufCAllocator protobuf_c__allocator = {
-+ .alloc = &system_alloc,
-+ .free = &system_free,
-+ .allocator_data = NULL,
-+};
-+
-+/* === buffer-simple === */
-+
-+void
-+protobuf_c_buffer_simple_append(ProtobufCBuffer *buffer,
-+ size_t len, const uint8_t *data)
-+{
-+ ProtobufCBufferSimple *simp = (ProtobufCBufferSimple *) buffer;
-+ size_t new_len = simp->len + len;
-+
-+ if (new_len > simp->alloced) {
-+ ProtobufCAllocator *allocator = simp->allocator;
-+ size_t new_alloced = simp->alloced * 2;
-+ uint8_t *new_data;
-+
-+ if (allocator == NULL)
-+ allocator = &protobuf_c__allocator;
-+ while (new_alloced < new_len)
-+ new_alloced += new_alloced;
-+ new_data = do_alloc(allocator, new_alloced);
-+ if (!new_data)
-+ return;
-+ memcpy(new_data, simp->data, simp->len);
-+ if (simp->must_free_data)
-+ do_free(allocator, simp->data);
-+ else
-+ simp->must_free_data = TRUE;
-+ simp->data = new_data;
-+ simp->alloced = new_alloced;
-+ }
-+ memcpy(simp->data + simp->len, data, len);
-+ simp->len = new_len;
-+}
-+
-+/**
-+ * \defgroup packedsz protobuf_c_message_get_packed_size() implementation
-+ *
-+ * Routines mainly used by protobuf_c_message_get_packed_size().
-+ *
-+ * \ingroup internal
-+ * @{
-+ */
-+
-+/**
-+ * Return the number of bytes required to store the tag for the field. Includes
-+ * 3 bits for the wire-type, and a single bit that denotes the end-of-tag.
-+ *
-+ * \param number
-+ * Field tag to encode.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static inline size_t
-+get_tag_size(unsigned number)
-+{
-+ if (number < (1 << 4)) {
-+ return 1;
-+ } else if (number < (1 << 11)) {
-+ return 2;
-+ } else if (number < (1 << 18)) {
-+ return 3;
-+ } else if (number < (1 << 25)) {
-+ return 4;
-+ } else {
-+ return 5;
-+ }
-+}
-+
-+/**
-+ * Return the number of bytes required to store a variable-length unsigned
-+ * 32-bit integer in base-128 varint encoding.
-+ *
-+ * \param v
-+ * Value to encode.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static inline size_t
-+uint32_size(uint32_t v)
-+{
-+ if (v < (1 << 7)) {
-+ return 1;
-+ } else if (v < (1 << 14)) {
-+ return 2;
-+ } else if (v < (1 << 21)) {
-+ return 3;
-+ } else if (v < (1 << 28)) {
-+ return 4;
-+ } else {
-+ return 5;
-+ }
-+}
-+
-+/**
-+ * Return the number of bytes required to store a variable-length signed 32-bit
-+ * integer in base-128 varint encoding.
-+ *
-+ * \param v
-+ * Value to encode.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static inline size_t
-+int32_size(int32_t v)
-+{
-+ if (v < 0) {
-+ return 10;
-+ } else if (v < (1 << 7)) {
-+ return 1;
-+ } else if (v < (1 << 14)) {
-+ return 2;
-+ } else if (v < (1 << 21)) {
-+ return 3;
-+ } else if (v < (1 << 28)) {
-+ return 4;
-+ } else {
-+ return 5;
-+ }
-+}
-+
-+/**
-+ * Return the ZigZag-encoded 32-bit unsigned integer form of a 32-bit signed
-+ * integer.
-+ *
-+ * \param v
-+ * Value to encode.
-+ * \return
-+ * ZigZag encoded integer.
-+ */
-+static inline uint32_t
-+zigzag32(int32_t v)
-+{
-+ if (v < 0)
-+ return ((uint32_t) (-v)) * 2 - 1;
-+ else
-+ return v * 2;
-+}
-+
-+/**
-+ * Return the number of bytes required to store a signed 32-bit integer,
-+ * converted to an unsigned 32-bit integer with ZigZag encoding, using base-128
-+ * varint encoding.
-+ *
-+ * \param v
-+ * Value to encode.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static inline size_t
-+sint32_size(int32_t v)
-+{
-+ return uint32_size(zigzag32(v));
-+}
-+
-+/**
-+ * Return the number of bytes required to store a 64-bit unsigned integer in
-+ * base-128 varint encoding.
-+ *
-+ * \param v
-+ * Value to encode.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static inline size_t
-+uint64_size(uint64_t v)
-+{
-+ uint32_t upper_v = (uint32_t) (v >> 32);
-+
-+ if (upper_v == 0) {
-+ return uint32_size((uint32_t) v);
-+ } else if (upper_v < (1 << 3)) {
-+ return 5;
-+ } else if (upper_v < (1 << 10)) {
-+ return 6;
-+ } else if (upper_v < (1 << 17)) {
-+ return 7;
-+ } else if (upper_v < (1 << 24)) {
-+ return 8;
-+ } else if (upper_v < (1U << 31)) {
-+ return 9;
-+ } else {
-+ return 10;
-+ }
-+}
-+
-+/**
-+ * Return the ZigZag-encoded 64-bit unsigned integer form of a 64-bit signed
-+ * integer.
-+ *
-+ * \param v
-+ * Value to encode.
-+ * \return
-+ * ZigZag encoded integer.
-+ */
-+static inline uint64_t
-+zigzag64(int64_t v)
-+{
-+ if (v < 0)
-+ return ((uint64_t) (-v)) * 2 - 1;
-+ else
-+ return v * 2;
-+}
-+
-+/**
-+ * Return the number of bytes required to store a signed 64-bit integer,
-+ * converted to an unsigned 64-bit integer with ZigZag encoding, using base-128
-+ * varint encoding.
-+ *
-+ * \param v
-+ * Value to encode.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static inline size_t
-+sint64_size(int64_t v)
-+{
-+ return uint64_size(zigzag64(v));
-+}
-+
-+/**
-+ * Calculate the serialized size of a single required message field, including
-+ * the space needed by the preceding tag.
-+ *
-+ * \param field
-+ * Field descriptor for member.
-+ * \param member
-+ * Field to encode.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static size_t
-+required_field_get_packed_size(const ProtobufCFieldDescriptor *field,
-+ const void *member)
-+{
-+ size_t rv = get_tag_size(field->id);
-+
-+ switch (field->type) {
-+ case PROTOBUF_C_TYPE_SINT32:
-+ return rv + sint32_size(*(const int32_t *) member);
-+ case PROTOBUF_C_TYPE_INT32:
-+ return rv + int32_size(*(const uint32_t *) member);
-+ case PROTOBUF_C_TYPE_UINT32:
-+ return rv + uint32_size(*(const uint32_t *) member);
-+ case PROTOBUF_C_TYPE_SINT64:
-+ return rv + sint64_size(*(const int64_t *) member);
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_UINT64:
-+ return rv + uint64_size(*(const uint64_t *) member);
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ return rv + 4;
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ return rv + 8;
-+ case PROTOBUF_C_TYPE_BOOL:
-+ return rv + 1;
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ return rv + 4;
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ return rv + 8;
-+ case PROTOBUF_C_TYPE_ENUM:
-+ /* \todo Is this correct for negative-valued enums? */
-+ return rv + uint32_size(*(const uint32_t *) member);
-+ case PROTOBUF_C_TYPE_STRING: {
-+ const char *str = *(char * const *) member;
-+ size_t len = str ? strlen(str) : 0;
-+ return rv + uint32_size(len) + len;
-+ }
-+ case PROTOBUF_C_TYPE_BYTES: {
-+ size_t len = ((const ProtobufCBinaryData *) member)->len;
-+ return rv + uint32_size(len) + len;
-+ }
-+ case PROTOBUF_C_TYPE_MESSAGE: {
-+ const ProtobufCMessage *msg = *(ProtobufCMessage * const *) member;
-+ size_t subrv = msg ? protobuf_c_message_get_packed_size(msg) : 0;
-+ return rv + uint32_size(subrv) + subrv;
-+ }
-+ }
-+ PROTOBUF_C__ASSERT_NOT_REACHED();
-+ return 0;
-+}
-+
-+/**
-+ * Calculate the serialized size of a single optional message field, including
-+ * the space needed by the preceding tag. Returns 0 if the optional field isn't
-+ * set.
-+ *
-+ * \param field
-+ * Field descriptor for member.
-+ * \param has
-+ * True if the field exists, false if not.
-+ * \param member
-+ * Field to encode.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static size_t
-+optional_field_get_packed_size(const ProtobufCFieldDescriptor *field,
-+ const protobuf_c_boolean *has,
-+ const void *member)
-+{
-+ if (field->type == PROTOBUF_C_TYPE_MESSAGE ||
-+ field->type == PROTOBUF_C_TYPE_STRING)
-+ {
-+ const void *ptr = *(const void * const *) member;
-+ if (ptr == NULL || ptr == field->default_value)
-+ return 0;
-+ } else {
-+ if (!*has)
-+ return 0;
-+ }
-+ return required_field_get_packed_size(field, member);
-+}
-+
-+/**
-+ * Calculate the serialized size of repeated message fields, which may consist
-+ * of any number of values (including 0). Includes the space needed by the
-+ * preceding tags (as needed).
-+ *
-+ * \param field
-+ * Field descriptor for member.
-+ * \param count
-+ * Number of repeated field members.
-+ * \param member
-+ * Field to encode.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static size_t
-+repeated_field_get_packed_size(const ProtobufCFieldDescriptor *field,
-+ size_t count, const void *member)
-+{
-+ size_t header_size;
-+ size_t rv = 0;
-+ unsigned i;
-+ void *array = *(void * const *) member;
-+
-+ if (count == 0)
-+ return 0;
-+ header_size = get_tag_size(field->id);
-+ if (0 == (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED))
-+ header_size *= count;
-+
-+ switch (field->type) {
-+ case PROTOBUF_C_TYPE_SINT32:
-+ for (i = 0; i < count; i++)
-+ rv += sint32_size(((int32_t *) array)[i]);
-+ break;
-+ case PROTOBUF_C_TYPE_INT32:
-+ for (i = 0; i < count; i++)
-+ rv += int32_size(((uint32_t *) array)[i]);
-+ break;
-+ case PROTOBUF_C_TYPE_UINT32:
-+ case PROTOBUF_C_TYPE_ENUM:
-+ for (i = 0; i < count; i++)
-+ rv += uint32_size(((uint32_t *) array)[i]);
-+ break;
-+ case PROTOBUF_C_TYPE_SINT64:
-+ for (i = 0; i < count; i++)
-+ rv += sint64_size(((int64_t *) array)[i]);
-+ break;
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_UINT64:
-+ for (i = 0; i < count; i++)
-+ rv += uint64_size(((uint64_t *) array)[i]);
-+ break;
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ rv += 4 * count;
-+ break;
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ rv += 8 * count;
-+ break;
-+ case PROTOBUF_C_TYPE_BOOL:
-+ rv += count;
-+ break;
-+ case PROTOBUF_C_TYPE_STRING:
-+ for (i = 0; i < count; i++) {
-+ size_t len = strlen(((char **) array)[i]);
-+ rv += uint32_size(len) + len;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_BYTES:
-+ for (i = 0; i < count; i++) {
-+ size_t len = ((ProtobufCBinaryData *) array)[i].len;
-+ rv += uint32_size(len) + len;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_MESSAGE:
-+ for (i = 0; i < count; i++) {
-+ size_t len = protobuf_c_message_get_packed_size(
-+ ((ProtobufCMessage **) array)[i]);
-+ rv += uint32_size(len) + len;
-+ }
-+ break;
-+ }
-+
-+ if (0 != (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED))
-+ header_size += uint32_size(rv);
-+ return header_size + rv;
-+}
-+
-+/**
-+ * Calculate the serialized size of an unknown field, i.e. one that is passed
-+ * through mostly uninterpreted. This is required for forward compatibility if
-+ * new fields are added to the message descriptor.
-+ *
-+ * \param field
-+ * Unknown field type.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static inline size_t
-+unknown_field_get_packed_size(const ProtobufCMessageUnknownField *field)
-+{
-+ return get_tag_size(field->tag) + field->len;
-+}
-+
-+/**@}*/
-+
-+/*
-+ * Calculate the serialized size of the message.
-+ */
-+size_t protobuf_c_message_get_packed_size(const ProtobufCMessage *message)
-+{
-+ unsigned i;
-+ size_t rv = 0;
-+
-+ ASSERT_IS_MESSAGE(message);
-+ for (i = 0; i < message->descriptor->n_fields; i++) {
-+ const ProtobufCFieldDescriptor *field =
-+ message->descriptor->fields + i;
-+ const void *member =
-+ ((const char *) message) + field->offset;
-+ const void *qmember =
-+ ((const char *) message) + field->quantifier_offset;
-+
-+ if (field->label == PROTOBUF_C_LABEL_REQUIRED) {
-+ rv += required_field_get_packed_size(field, member);
-+ } else if (field->label == PROTOBUF_C_LABEL_OPTIONAL) {
-+ rv += optional_field_get_packed_size(field, qmember, member);
-+ } else {
-+ rv += repeated_field_get_packed_size(
-+ field,
-+ *(const size_t *) qmember,
-+ member
-+ );
-+ }
-+ }
-+ for (i = 0; i < message->n_unknown_fields; i++)
-+ rv += unknown_field_get_packed_size(&message->unknown_fields[i]);
-+ return rv;
-+}
-+
-+/**
-+ * \defgroup pack protobuf_c_message_pack() implementation
-+ *
-+ * Routines mainly used by protobuf_c_message_pack().
-+ *
-+ * \ingroup internal
-+ * @{
-+ */
-+
-+/**
-+ * Pack an unsigned 32-bit integer in base-128 varint encoding and return the
-+ * number of bytes written, which must be 5 or less.
-+ *
-+ * \param value
-+ * Value to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static inline size_t
-+uint32_pack(uint32_t value, uint8_t *out)
-+{
-+ unsigned rv = 0;
-+
-+ if (value >= 0x80) {
-+ out[rv++] = value | 0x80;
-+ value >>= 7;
-+ if (value >= 0x80) {
-+ out[rv++] = value | 0x80;
-+ value >>= 7;
-+ if (value >= 0x80) {
-+ out[rv++] = value | 0x80;
-+ value >>= 7;
-+ if (value >= 0x80) {
-+ out[rv++] = value | 0x80;
-+ value >>= 7;
-+ }
-+ }
-+ }
-+ }
-+ /* assert: value<128 */
-+ out[rv++] = value;
-+ return rv;
-+}
-+
-+/**
-+ * Pack a signed 32-bit integer and return the number of bytes written.
-+ * Negative numbers are encoded as two's complement 64-bit integers.
-+ *
-+ * \param value
-+ * Value to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static inline size_t
-+int32_pack(int32_t value, uint8_t *out)
-+{
-+ if (value < 0) {
-+ out[0] = value | 0x80;
-+ out[1] = (value >> 7) | 0x80;
-+ out[2] = (value >> 14) | 0x80;
-+ out[3] = (value >> 21) | 0x80;
-+ out[4] = (value >> 28) | 0x80;
-+ out[5] = out[6] = out[7] = out[8] = 0xff;
-+ out[9] = 0x01;
-+ return 10;
-+ } else {
-+ return uint32_pack(value, out);
-+ }
-+}
-+
-+/**
-+ * Pack a signed 32-bit integer using ZigZag encoding and return the number of
-+ * bytes written.
-+ *
-+ * \param value
-+ * Value to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static inline size_t
-+sint32_pack(int32_t value, uint8_t *out)
-+{
-+ return uint32_pack(zigzag32(value), out);
-+}
-+
-+/**
-+ * Pack a 64-bit unsigned integer using base-128 varint encoding and return the
-+ * number of bytes written.
-+ *
-+ * \param value
-+ * Value to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static size_t
-+uint64_pack(uint64_t value, uint8_t *out)
-+{
-+ uint32_t hi = (uint32_t) (value >> 32);
-+ uint32_t lo = (uint32_t) value;
-+ unsigned rv;
-+
-+ if (hi == 0)
-+ return uint32_pack((uint32_t) lo, out);
-+ out[0] = (lo) | 0x80;
-+ out[1] = (lo >> 7) | 0x80;
-+ out[2] = (lo >> 14) | 0x80;
-+ out[3] = (lo >> 21) | 0x80;
-+ if (hi < 8) {
-+ out[4] = (hi << 4) | (lo >> 28);
-+ return 5;
-+ } else {
-+ out[4] = ((hi & 7) << 4) | (lo >> 28) | 0x80;
-+ hi >>= 3;
-+ }
-+ rv = 5;
-+ while (hi >= 128) {
-+ out[rv++] = hi | 0x80;
-+ hi >>= 7;
-+ }
-+ out[rv++] = hi;
-+ return rv;
-+}
-+
-+/**
-+ * Pack a 64-bit signed integer in ZigZag encoding and return the number of
-+ * bytes written.
-+ *
-+ * \param value
-+ * Value to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static inline size_t
-+sint64_pack(int64_t value, uint8_t *out)
-+{
-+ return uint64_pack(zigzag64(value), out);
-+}
-+
-+/**
-+ * Pack a 32-bit quantity in little-endian byte order. Used for protobuf wire
-+ * types fixed32, sfixed32, float. Similar to "htole32".
-+ *
-+ * \param value
-+ * Value to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static inline size_t
-+fixed32_pack(uint32_t value, void *out)
-+{
-+#if !defined(WORDS_BIGENDIAN)
-+ memcpy(out, &value, 4);
-+#else
-+ uint8_t *buf = out;
-+
-+ buf[0] = value;
-+ buf[1] = value >> 8;
-+ buf[2] = value >> 16;
-+ buf[3] = value >> 24;
-+#endif
-+ return 4;
-+}
-+
-+/**
-+ * Pack a 64-bit quantity in little-endian byte order. Used for protobuf wire
-+ * types fixed64, sfixed64, double. Similar to "htole64".
-+ *
-+ * \todo The big-endian impl is really only good for 32-bit machines, a 64-bit
-+ * version would be appreciated, plus a way to decide to use 64-bit math where
-+ * convenient.
-+ *
-+ * \param value
-+ * Value to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static inline size_t
-+fixed64_pack(uint64_t value, void *out)
-+{
-+#if !defined(WORDS_BIGENDIAN)
-+ memcpy(out, &value, 8);
-+#else
-+ fixed32_pack(value, out);
-+ fixed32_pack(value >> 32, ((char *) out) + 4);
-+#endif
-+ return 8;
-+}
-+
-+/**
-+ * Pack a boolean value as an integer and return the number of bytes written.
-+ *
-+ * \todo Perhaps on some platforms *out = !!value would be a better impl, b/c
-+ * that is idiomatic C++ in some STL implementations.
-+ *
-+ * \param value
-+ * Value to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static inline size_t
-+boolean_pack(protobuf_c_boolean value, uint8_t *out)
-+{
-+ *out = value ? TRUE : FALSE;
-+ return 1;
-+}
-+
-+/**
-+ * Pack a NUL-terminated C string and return the number of bytes written. The
-+ * output includes a length delimiter.
-+ *
-+ * The NULL pointer is treated as an empty string. This isn't really necessary,
-+ * but it allows people to leave required strings blank. (See Issue #13 in the
-+ * bug tracker for a little more explanation).
-+ *
-+ * \param str
-+ * String to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static inline size_t
-+string_pack(const char *str, uint8_t *out)
-+{
-+ if (str == NULL) {
-+ out[0] = 0;
-+ return 1;
-+ } else {
-+ size_t len = strlen(str);
-+ size_t rv = uint32_pack(len, out);
-+ memcpy(out + rv, str, len);
-+ return rv + len;
-+ }
-+}
-+
-+/**
-+ * Pack a ProtobufCBinaryData and return the number of bytes written. The output
-+ * includes a length delimiter.
-+ *
-+ * \param bd
-+ * ProtobufCBinaryData to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static inline size_t
-+binary_data_pack(const ProtobufCBinaryData *bd, uint8_t *out)
-+{
-+ size_t len = bd->len;
-+ size_t rv = uint32_pack(len, out);
-+ memcpy(out + rv, bd->data, len);
-+ return rv + len;
-+}
-+
-+/**
-+ * Pack a ProtobufCMessage and return the number of bytes written. The output
-+ * includes a length delimiter.
-+ *
-+ * \param message
-+ * ProtobufCMessage object to pack.
-+ * \param[out] out
-+ * Packed message.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static inline size_t
-+prefixed_message_pack(const ProtobufCMessage *message, uint8_t *out)
-+{
-+ if (message == NULL) {
-+ out[0] = 0;
-+ return 1;
-+ } else {
-+ size_t rv = protobuf_c_message_pack(message, out + 1);
-+ uint32_t rv_packed_size = uint32_size(rv);
-+ if (rv_packed_size != 1)
-+ memmove(out + rv_packed_size, out + 1, rv);
-+ return uint32_pack(rv, out) + rv;
-+ }
-+}
-+
-+/**
-+ * Pack a field tag.
-+ *
-+ * Wire-type will be added in required_field_pack().
-+ *
-+ * \todo Just call uint64_pack on 64-bit platforms.
-+ *
-+ * \param id
-+ * Tag value to encode.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static size_t
-+tag_pack(uint32_t id, uint8_t *out)
-+{
-+ if (id < (1 << (32 - 3)))
-+ return uint32_pack(id << 3, out);
-+ else
-+ return uint64_pack(((uint64_t) id) << 3, out);
-+}
-+
-+/**
-+ * Pack a required field and return the number of bytes written.
-+ *
-+ * \param field
-+ * Field descriptor.
-+ * \param member
-+ * The field member.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static size_t
-+required_field_pack(const ProtobufCFieldDescriptor *field,
-+ const void *member, uint8_t *out)
-+{
-+ size_t rv = tag_pack(field->id, out);
-+
-+ switch (field->type) {
-+ case PROTOBUF_C_TYPE_SINT32:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ return rv + sint32_pack(*(const int32_t *) member, out + rv);
-+ case PROTOBUF_C_TYPE_INT32:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ return rv + int32_pack(*(const uint32_t *) member, out + rv);
-+ case PROTOBUF_C_TYPE_UINT32:
-+ case PROTOBUF_C_TYPE_ENUM:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ return rv + uint32_pack(*(const uint32_t *) member, out + rv);
-+ case PROTOBUF_C_TYPE_SINT64:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ return rv + sint64_pack(*(const int64_t *) member, out + rv);
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_UINT64:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ return rv + uint64_pack(*(const uint64_t *) member, out + rv);
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_32BIT;
-+ return rv + fixed32_pack(*(const uint32_t *) member, out + rv);
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_64BIT;
-+ return rv + fixed64_pack(*(const uint64_t *) member, out + rv);
-+ case PROTOBUF_C_TYPE_BOOL:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ return rv + boolean_pack(*(const protobuf_c_boolean *) member, out + rv);
-+ case PROTOBUF_C_TYPE_STRING:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-+ return rv + string_pack(*(char *const *) member, out + rv);
-+ case PROTOBUF_C_TYPE_BYTES:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-+ return rv + binary_data_pack((const ProtobufCBinaryData *) member, out + rv);
-+ case PROTOBUF_C_TYPE_MESSAGE:
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-+ return rv + prefixed_message_pack(*(ProtobufCMessage * const *) member, out + rv);
-+ }
-+ PROTOBUF_C__ASSERT_NOT_REACHED();
-+ return 0;
-+}
-+
-+/**
-+ * Pack an optional field and return the number of bytes written.
-+ *
-+ * \param field
-+ * Field descriptor.
-+ * \param has
-+ * Whether the field is set.
-+ * \param member
-+ * The field member.
-+ * \param[out] out
-+ * Packed value.
-+ * \return
-+ * Number of bytes written to `out`.
-+ */
-+static size_t
-+optional_field_pack(const ProtobufCFieldDescriptor *field,
-+ const protobuf_c_boolean *has,
-+ const void *member, uint8_t *out)
-+{
-+ if (field->type == PROTOBUF_C_TYPE_MESSAGE ||
-+ field->type == PROTOBUF_C_TYPE_STRING)
-+ {
-+ const void *ptr = *(const void * const *) member;
-+ if (ptr == NULL || ptr == field->default_value)
-+ return 0;
-+ } else {
-+ if (!*has)
-+ return 0;
-+ }
-+ return required_field_pack(field, member, out);
-+}
-+
-+/**
-+ * Given a field type, return the in-memory size.
-+ *
-+ * \todo Implement as a table lookup.
-+ *
-+ * \param type
-+ * Field type.
-+ * \return
-+ * Size of the field.
-+ */
-+static inline size_t
-+sizeof_elt_in_repeated_array(ProtobufCType type)
-+{
-+ switch (type) {
-+ case PROTOBUF_C_TYPE_SINT32:
-+ case PROTOBUF_C_TYPE_INT32:
-+ case PROTOBUF_C_TYPE_UINT32:
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ case PROTOBUF_C_TYPE_ENUM:
-+ return 4;
-+ case PROTOBUF_C_TYPE_SINT64:
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_UINT64:
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ return 8;
-+ case PROTOBUF_C_TYPE_BOOL:
-+ return sizeof(protobuf_c_boolean);
-+ case PROTOBUF_C_TYPE_STRING:
-+ case PROTOBUF_C_TYPE_MESSAGE:
-+ return sizeof(void *);
-+ case PROTOBUF_C_TYPE_BYTES:
-+ return sizeof(ProtobufCBinaryData);
-+ }
-+ PROTOBUF_C__ASSERT_NOT_REACHED();
-+ return 0;
-+}
-+
-+/**
-+ * Pack an array of 32-bit quantities.
-+ *
-+ * \param[out] out
-+ * Destination.
-+ * \param[in] in
-+ * Source.
-+ * \param[in] n
-+ * Number of elements in the source array.
-+ */
-+static void
-+copy_to_little_endian_32(void *out, const void *in, const unsigned n)
-+{
-+#if !defined(WORDS_BIGENDIAN)
-+ memcpy(out, in, n * 4);
-+#else
-+ unsigned i;
-+ const uint32_t *ini = in;
-+ for (i = 0; i < n; i++)
-+ fixed32_pack(ini[i], (uint32_t *) out + i);
-+#endif
-+}
-+
-+/**
-+ * Pack an array of 64-bit quantities.
-+ *
-+ * \param[out] out
-+ * Destination.
-+ * \param[in] in
-+ * Source.
-+ * \param[in] n
-+ * Number of elements in the source array.
-+ */
-+static void
-+copy_to_little_endian_64(void *out, const void *in, const unsigned n)
-+{
-+#if !defined(WORDS_BIGENDIAN)
-+ memcpy(out, in, n * 8);
-+#else
-+ unsigned i;
-+ const uint64_t *ini = in;
-+ for (i = 0; i < n; i++)
-+ fixed64_pack(ini[i], (uint64_t *) out + i);
-+#endif
-+}
-+
-+/**
-+ * Get the minimum number of bytes required to pack a field value of a
-+ * particular type.
-+ *
-+ * \param type
-+ * Field type.
-+ * \return
-+ * Number of bytes.
-+ */
-+static unsigned
-+get_type_min_size(ProtobufCType type)
-+{
-+ if (type == PROTOBUF_C_TYPE_SFIXED32 ||
-+ type == PROTOBUF_C_TYPE_FIXED32 ||
-+ type == PROTOBUF_C_TYPE_FLOAT)
-+ {
-+ return 4;
-+ }
-+ if (type == PROTOBUF_C_TYPE_SFIXED64 ||
-+ type == PROTOBUF_C_TYPE_FIXED64 ||
-+ type == PROTOBUF_C_TYPE_DOUBLE)
-+ {
-+ return 8;
-+ }
-+ return 1;
-+}
-+
-+/**
-+ * Packs the elements of a repeated field and returns the serialised field and
-+ * its length.
-+ *
-+ * \param field
-+ * Field descriptor.
-+ * \param count
-+ * Number of elements in the repeated field array.
-+ * \param member
-+ * Pointer to the elements for this repeated field.
-+ * \param[out] out
-+ * Serialised representation of the repeated field.
-+ * \return
-+ * Number of bytes serialised to `out`.
-+ */
-+static size_t
-+repeated_field_pack(const ProtobufCFieldDescriptor *field,
-+ size_t count, const void *member, uint8_t *out)
-+{
-+ void *array = *(void * const *) member;
-+ unsigned i;
-+
-+ if (0 != (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED)) {
-+ unsigned header_len;
-+ unsigned len_start;
-+ unsigned min_length;
-+ unsigned payload_len;
-+ unsigned length_size_min;
-+ unsigned actual_length_size;
-+ uint8_t *payload_at;
-+
-+ if (count == 0)
-+ return 0;
-+ header_len = tag_pack(field->id, out);
-+ out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-+ len_start = header_len;
-+ min_length = get_type_min_size(field->type) * count;
-+ length_size_min = uint32_size(min_length);
-+ header_len += length_size_min;
-+ payload_at = out + header_len;
-+
-+ switch (field->type) {
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ copy_to_little_endian_32(payload_at, array, count);
-+ payload_at += count * 4;
-+ break;
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ copy_to_little_endian_64(payload_at, array, count);
-+ payload_at += count * 8;
-+ break;
-+ case PROTOBUF_C_TYPE_INT32: {
-+ const int32_t *arr = (const int32_t *) array;
-+ for (i = 0; i < count; i++)
-+ payload_at += int32_pack(arr[i], payload_at);
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_SINT32: {
-+ const int32_t *arr = (const int32_t *) array;
-+ for (i = 0; i < count; i++)
-+ payload_at += sint32_pack(arr[i], payload_at);
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_SINT64: {
-+ const int64_t *arr = (const int64_t *) array;
-+ for (i = 0; i < count; i++)
-+ payload_at += sint64_pack(arr[i], payload_at);
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_ENUM:
-+ case PROTOBUF_C_TYPE_UINT32: {
-+ const uint32_t *arr = (const uint32_t *) array;
-+ for (i = 0; i < count; i++)
-+ payload_at += uint32_pack(arr[i], payload_at);
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_UINT64: {
-+ const uint64_t *arr = (const uint64_t *) array;
-+ for (i = 0; i < count; i++)
-+ payload_at += uint64_pack(arr[i], payload_at);
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_BOOL: {
-+ const protobuf_c_boolean *arr = (const protobuf_c_boolean *) array;
-+ for (i = 0; i < count; i++)
-+ payload_at += boolean_pack(arr[i], payload_at);
-+ break;
-+ }
-+ default:
-+ PROTOBUF_C__ASSERT_NOT_REACHED();
-+ }
-+
-+ payload_len = payload_at - (out + header_len);
-+ actual_length_size = uint32_size(payload_len);
-+ if (length_size_min != actual_length_size) {
-+ assert(actual_length_size == length_size_min + 1);
-+ memmove(out + header_len + 1, out + header_len,
-+ payload_len);
-+ header_len++;
-+ }
-+ uint32_pack(payload_len, out + len_start);
-+ return header_len + payload_len;
-+ } else {
-+ /* not "packed" cased */
-+ /* CONSIDER: optimize this case a bit (by putting the loop inside the switch) */
-+ size_t rv = 0;
-+ unsigned siz = sizeof_elt_in_repeated_array(field->type);
-+
-+ for (i = 0; i < count; i++) {
-+ rv += required_field_pack(field, array, out + rv);
-+ array = (char *)array + siz;
-+ }
-+ return rv;
-+ }
-+}
-+
-+static size_t
-+unknown_field_pack(const ProtobufCMessageUnknownField *field, uint8_t *out)
-+{
-+ size_t rv = tag_pack(field->tag, out);
-+ out[0] |= field->wire_type;
-+ memcpy(out + rv, field->data, field->len);
-+ return rv + field->len;
-+}
-+
-+/**@}*/
-+
-+size_t
-+protobuf_c_message_pack(const ProtobufCMessage *message, uint8_t *out)
-+{
-+ unsigned i;
-+ size_t rv = 0;
-+
-+ ASSERT_IS_MESSAGE(message);
-+ for (i = 0; i < message->descriptor->n_fields; i++) {
-+ const ProtobufCFieldDescriptor *field =
-+ message->descriptor->fields + i;
-+ const void *member = ((const char *) message) + field->offset;
-+
-+ /*
-+ * It doesn't hurt to compute qmember (a pointer to the
-+ * quantifier field of the structure), but the pointer is only
-+ * valid if the field is:
-+ * - a repeated field, or
-+ * - an optional field that isn't a pointer type
-+ * (Meaning: not a message or a string).
-+ */
-+ const void *qmember =
-+ ((const char *) message) + field->quantifier_offset;
-+
-+ if (field->label == PROTOBUF_C_LABEL_REQUIRED) {
-+ rv += required_field_pack(field, member, out + rv);
-+ } else if (field->label == PROTOBUF_C_LABEL_OPTIONAL) {
-+ /*
-+ * Note that qmember is bogus for strings and messages,
-+ * but it isn't used.
-+ */
-+ rv += optional_field_pack(field, qmember, member, out + rv);
-+ } else {
-+ rv += repeated_field_pack(field, *(const size_t *) qmember,
-+ member, out + rv);
-+ }
-+ }
-+ for (i = 0; i < message->n_unknown_fields; i++)
-+ rv += unknown_field_pack(&message->unknown_fields[i], out + rv);
-+ return rv;
-+}
-+
-+/**
-+ * \defgroup packbuf protobuf_c_message_pack_to_buffer() implementation
-+ *
-+ * Routines mainly used by protobuf_c_message_pack_to_buffer().
-+ *
-+ * \ingroup internal
-+ * @{
-+ */
-+
-+/**
-+ * Pack a required field to a virtual buffer.
-+ *
-+ * \param field
-+ * Field descriptor.
-+ * \param member
-+ * The element to be packed.
-+ * \param[out] buffer
-+ * Virtual buffer to append data to.
-+ * \return
-+ * Number of bytes packed.
-+ */
-+static size_t
-+required_field_pack_to_buffer(const ProtobufCFieldDescriptor *field,
-+ const void *member, ProtobufCBuffer *buffer)
-+{
-+ size_t rv;
-+ uint8_t scratch[MAX_UINT64_ENCODED_SIZE * 2];
-+
-+ rv = tag_pack(field->id, scratch);
-+ switch (field->type) {
-+ case PROTOBUF_C_TYPE_SINT32:
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ rv += sint32_pack(*(const int32_t *) member, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ break;
-+ case PROTOBUF_C_TYPE_INT32:
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ rv += int32_pack(*(const uint32_t *) member, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ break;
-+ case PROTOBUF_C_TYPE_UINT32:
-+ case PROTOBUF_C_TYPE_ENUM:
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ rv += uint32_pack(*(const uint32_t *) member, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ break;
-+ case PROTOBUF_C_TYPE_SINT64:
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ rv += sint64_pack(*(const int64_t *) member, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ break;
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_UINT64:
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ rv += uint64_pack(*(const uint64_t *) member, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ break;
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_32BIT;
-+ rv += fixed32_pack(*(const uint32_t *) member, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ break;
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_64BIT;
-+ rv += fixed64_pack(*(const uint64_t *) member, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ break;
-+ case PROTOBUF_C_TYPE_BOOL:
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT;
-+ rv += boolean_pack(*(const protobuf_c_boolean *) member, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ break;
-+ case PROTOBUF_C_TYPE_STRING: {
-+ const char *str = *(char *const *) member;
-+ size_t sublen = str ? strlen(str) : 0;
-+
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-+ rv += uint32_pack(sublen, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ buffer->append(buffer, sublen, (const uint8_t *) str);
-+ rv += sublen;
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_BYTES: {
-+ const ProtobufCBinaryData *bd = ((const ProtobufCBinaryData *) member);
-+ size_t sublen = bd->len;
-+
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-+ rv += uint32_pack(sublen, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ buffer->append(buffer, sublen, bd->data);
-+ rv += sublen;
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_MESSAGE: {
-+ uint8_t simple_buffer_scratch[256];
-+ size_t sublen;
-+ const ProtobufCMessage *msg = *(ProtobufCMessage * const *) member;
-+ ProtobufCBufferSimple simple_buffer =
-+ PROTOBUF_C_BUFFER_SIMPLE_INIT(simple_buffer_scratch);
-+
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-+ if (msg == NULL)
-+ sublen = 0;
-+ else
-+ sublen = protobuf_c_message_pack_to_buffer(msg, &simple_buffer.base);
-+ rv += uint32_pack(sublen, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ buffer->append(buffer, sublen, simple_buffer.data);
-+ rv += sublen;
-+ PROTOBUF_C_BUFFER_SIMPLE_CLEAR(&simple_buffer);
-+ break;
-+ }
-+ default:
-+ PROTOBUF_C__ASSERT_NOT_REACHED();
-+ }
-+ return rv;
-+}
-+
-+/**
-+ * Pack an optional field to a buffer.
-+ *
-+ * \param field
-+ * Field descriptor.
-+ * \param has
-+ * Whether the field is set.
-+ * \param member
-+ * The element to be packed.
-+ * \param[out] buffer
-+ * Virtual buffer to append data to.
-+ * \return
-+ * Number of bytes serialised to `buffer`.
-+ */
-+static size_t
-+optional_field_pack_to_buffer(const ProtobufCFieldDescriptor *field,
-+ const protobuf_c_boolean *has,
-+ const void *member, ProtobufCBuffer *buffer)
-+{
-+ if (field->type == PROTOBUF_C_TYPE_MESSAGE ||
-+ field->type == PROTOBUF_C_TYPE_STRING)
-+ {
-+ const void *ptr = *(const void *const *) member;
-+ if (ptr == NULL || ptr == field->default_value)
-+ return 0;
-+ } else {
-+ if (!*has)
-+ return 0;
-+ }
-+ return required_field_pack_to_buffer(field, member, buffer);
-+}
-+
-+/**
-+ * Get the packed size of an array of same field type.
-+ *
-+ * \param field
-+ * Field descriptor.
-+ * \param count
-+ * Number of elements of this type.
-+ * \param array
-+ * The elements to get the size of.
-+ * \return
-+ * Number of bytes required.
-+ */
-+static size_t
-+get_packed_payload_length(const ProtobufCFieldDescriptor *field,
-+ unsigned count, const void *array)
-+{
-+ unsigned rv = 0;
-+ unsigned i;
-+
-+ switch (field->type) {
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ return count * 4;
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ return count * 8;
-+ case PROTOBUF_C_TYPE_INT32: {
-+ const int32_t *arr = (const int32_t *) array;
-+ for (i = 0; i < count; i++)
-+ rv += int32_size(arr[i]);
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_SINT32: {
-+ const int32_t *arr = (const int32_t *) array;
-+ for (i = 0; i < count; i++)
-+ rv += sint32_size(arr[i]);
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_ENUM:
-+ case PROTOBUF_C_TYPE_UINT32: {
-+ const uint32_t *arr = (const uint32_t *) array;
-+ for (i = 0; i < count; i++)
-+ rv += uint32_size(arr[i]);
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_SINT64: {
-+ const int64_t *arr = (const int64_t *) array;
-+ for (i = 0; i < count; i++)
-+ rv += sint64_size(arr[i]);
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_UINT64: {
-+ const uint64_t *arr = (const uint64_t *) array;
-+ for (i = 0; i < count; i++)
-+ rv += uint64_size(arr[i]);
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_BOOL:
-+ return count;
-+ default:
-+ PROTOBUF_C__ASSERT_NOT_REACHED();
-+ }
-+ return rv;
-+}
-+
-+/**
-+ * Pack an array of same field type to a virtual buffer.
-+ *
-+ * \param field
-+ * Field descriptor.
-+ * \param count
-+ * Number of elements of this type.
-+ * \param array
-+ * The elements to get the size of.
-+ * \param[out] buffer
-+ * Virtual buffer to append data to.
-+ * \return
-+ * Number of bytes packed.
-+ */
-+static size_t
-+pack_buffer_packed_payload(const ProtobufCFieldDescriptor *field,
-+ unsigned count, const void *array,
-+ ProtobufCBuffer *buffer)
-+{
-+ uint8_t scratch[16];
-+ size_t rv = 0;
-+ unsigned i;
-+
-+ switch (field->type) {
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+#if !defined(WORDS_BIGENDIAN)
-+ rv = count * 4;
-+ goto no_packing_needed;
-+#else
-+ for (i = 0; i < count; i++) {
-+ unsigned len = fixed32_pack(((uint32_t *) array)[i], scratch);
-+ buffer->append(buffer, len, scratch);
-+ rv += len;
-+ }
-+ break;
-+#endif
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+#if !defined(WORDS_BIGENDIAN)
-+ rv = count * 8;
-+ goto no_packing_needed;
-+#else
-+ for (i = 0; i < count; i++) {
-+ unsigned len = fixed64_pack(((uint64_t *) array)[i], scratch);
-+ buffer->append(buffer, len, scratch);
-+ rv += len;
-+ }
-+ break;
-+#endif
-+ case PROTOBUF_C_TYPE_INT32:
-+ for (i = 0; i < count; i++) {
-+ unsigned len = int32_pack(((int32_t *) array)[i], scratch);
-+ buffer->append(buffer, len, scratch);
-+ rv += len;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_SINT32:
-+ for (i = 0; i < count; i++) {
-+ unsigned len = sint32_pack(((int32_t *) array)[i], scratch);
-+ buffer->append(buffer, len, scratch);
-+ rv += len;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_ENUM:
-+ case PROTOBUF_C_TYPE_UINT32:
-+ for (i = 0; i < count; i++) {
-+ unsigned len = uint32_pack(((uint32_t *) array)[i], scratch);
-+ buffer->append(buffer, len, scratch);
-+ rv += len;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_SINT64:
-+ for (i = 0; i < count; i++) {
-+ unsigned len = sint64_pack(((int64_t *) array)[i], scratch);
-+ buffer->append(buffer, len, scratch);
-+ rv += len;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_UINT64:
-+ for (i = 0; i < count; i++) {
-+ unsigned len = uint64_pack(((uint64_t *) array)[i], scratch);
-+ buffer->append(buffer, len, scratch);
-+ rv += len;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_BOOL:
-+ for (i = 0; i < count; i++) {
-+ unsigned len = boolean_pack(((protobuf_c_boolean *) array)[i], scratch);
-+ buffer->append(buffer, len, scratch);
-+ rv += len;
-+ }
-+ return count;
-+ default:
-+ PROTOBUF_C__ASSERT_NOT_REACHED();
-+ }
-+ return rv;
-+
-+no_packing_needed:
-+ buffer->append(buffer, rv, array);
-+ return rv;
-+}
-+
-+static size_t
-+repeated_field_pack_to_buffer(const ProtobufCFieldDescriptor *field,
-+ unsigned count, const void *member,
-+ ProtobufCBuffer *buffer)
-+{
-+ char *array = *(char * const *) member;
-+
-+ if (count == 0)
-+ return 0;
-+ if (0 != (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED)) {
-+ uint8_t scratch[MAX_UINT64_ENCODED_SIZE * 2];
-+ size_t rv = tag_pack(field->id, scratch);
-+ size_t payload_len = get_packed_payload_length(field, count, array);
-+ size_t tmp;
-+
-+ scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED;
-+ rv += uint32_pack(payload_len, scratch + rv);
-+ buffer->append(buffer, rv, scratch);
-+ tmp = pack_buffer_packed_payload(field, count, array, buffer);
-+ assert(tmp == payload_len);
-+ return rv + payload_len;
-+ } else {
-+ size_t siz;
-+ unsigned i;
-+ /* CONSIDER: optimize this case a bit (by putting the loop inside the switch) */
-+ unsigned rv = 0;
-+
-+ siz = sizeof_elt_in_repeated_array(field->type);
-+ for (i = 0; i < count; i++) {
-+ rv += required_field_pack_to_buffer(field, array, buffer);
-+ array += siz;
-+ }
-+ return rv;
-+ }
-+}
-+
-+static size_t
-+unknown_field_pack_to_buffer(const ProtobufCMessageUnknownField *field,
-+ ProtobufCBuffer *buffer)
-+{
-+ uint8_t header[MAX_UINT64_ENCODED_SIZE];
-+ size_t rv = tag_pack(field->tag, header);
-+
-+ header[0] |= field->wire_type;
-+ buffer->append(buffer, rv, header);
-+ buffer->append(buffer, field->len, field->data);
-+ return rv + field->len;
-+}
-+
-+/**@}*/
-+
-+size_t
-+protobuf_c_message_pack_to_buffer(const ProtobufCMessage *message,
-+ ProtobufCBuffer *buffer)
-+{
-+ unsigned i;
-+ size_t rv = 0;
-+
-+ ASSERT_IS_MESSAGE(message);
-+ for (i = 0; i < message->descriptor->n_fields; i++) {
-+ const ProtobufCFieldDescriptor *field =
-+ message->descriptor->fields + i;
-+ const void *member =
-+ ((const char *) message) + field->offset;
-+ const void *qmember =
-+ ((const char *) message) + field->quantifier_offset;
-+
-+ if (field->label == PROTOBUF_C_LABEL_REQUIRED) {
-+ rv += required_field_pack_to_buffer(field, member, buffer);
-+ } else if (field->label == PROTOBUF_C_LABEL_OPTIONAL) {
-+ rv += optional_field_pack_to_buffer(
-+ field,
-+ qmember,
-+ member,
-+ buffer
-+ );
-+ } else {
-+ rv += repeated_field_pack_to_buffer(
-+ field,
-+ *(const size_t *) qmember,
-+ member,
-+ buffer
-+ );
-+ }
-+ }
-+ for (i = 0; i < message->n_unknown_fields; i++)
-+ rv += unknown_field_pack_to_buffer(&message->unknown_fields[i], buffer);
-+
-+ return rv;
-+}
-+
-+/**
-+ * \defgroup unpack unpacking implementation
-+ *
-+ * Routines mainly used by the unpacking functions.
-+ *
-+ * \ingroup internal
-+ * @{
-+ */
-+
-+static inline int
-+int_range_lookup(unsigned n_ranges, const ProtobufCIntRange *ranges, int value)
-+{
-+ unsigned n;
-+ unsigned start;
-+
-+ if (n_ranges == 0)
-+ return -1;
-+ start = 0;
-+ n = n_ranges;
-+ while (n > 1) {
-+ unsigned mid = start + n / 2;
-+
-+ if (value < ranges[mid].start_value) {
-+ n = mid - start;
-+ } else if (value >= ranges[mid].start_value +
-+ (int) (ranges[mid + 1].orig_index -
-+ ranges[mid].orig_index))
-+ {
-+ unsigned new_start = mid + 1;
-+ n = start + n - new_start;
-+ start = new_start;
-+ } else
-+ return (value - ranges[mid].start_value) +
-+ ranges[mid].orig_index;
-+ }
-+ if (n > 0) {
-+ unsigned start_orig_index = ranges[start].orig_index;
-+ unsigned range_size =
-+ ranges[start + 1].orig_index - start_orig_index;
-+
-+ if (ranges[start].start_value <= value &&
-+ value < (int) (ranges[start].start_value + range_size))
-+ {
-+ return (value - ranges[start].start_value) +
-+ start_orig_index;
-+ }
-+ }
-+ return -1;
-+}
-+
-+static size_t
-+parse_tag_and_wiretype(size_t len,
-+ const uint8_t *data,
-+ uint32_t *tag_out,
-+ ProtobufCWireType *wiretype_out)
-+{
-+ unsigned max_rv = len > 5 ? 5 : len;
-+ uint32_t tag = (data[0] & 0x7f) >> 3;
-+ unsigned shift = 4;
-+ unsigned rv;
-+
-+ *wiretype_out = data[0] & 7;
-+ if ((data[0] & 0x80) == 0) {
-+ *tag_out = tag;
-+ return 1;
-+ }
-+ for (rv = 1; rv < max_rv; rv++) {
-+ if (data[rv] & 0x80) {
-+ tag |= (data[rv] & 0x7f) << shift;
-+ shift += 7;
-+ } else {
-+ tag |= data[rv] << shift;
-+ *tag_out = tag;
-+ return rv + 1;
-+ }
-+ }
-+ return 0; /* error: bad header */
-+}
-+
-+/* sizeof(ScannedMember) must be <= (1<<BOUND_SIZEOF_SCANNED_MEMBER_LOG2) */
-+#define BOUND_SIZEOF_SCANNED_MEMBER_LOG2 5
-+typedef struct _ScannedMember ScannedMember;
-+/** Field as it's being read. */
-+struct _ScannedMember {
-+ uint32_t tag; /**< Field tag. */
-+ uint8_t wire_type; /**< Field type. */
-+ uint8_t length_prefix_len; /**< Prefix length. */
-+ const ProtobufCFieldDescriptor *field; /**< Field descriptor. */
-+ size_t len; /**< Field length. */
-+ const uint8_t *data; /**< Pointer to field data. */
-+};
-+
-+static inline uint32_t
-+scan_length_prefixed_data(size_t len, const uint8_t *data,
-+ size_t *prefix_len_out)
-+{
-+ unsigned hdr_max = len < 5 ? len : 5;
-+ unsigned hdr_len;
-+ uint32_t val = 0;
-+ unsigned i;
-+ unsigned shift = 0;
-+
-+ for (i = 0; i < hdr_max; i++) {
-+ val |= (data[i] & 0x7f) << shift;
-+ shift += 7;
-+ if ((data[i] & 0x80) == 0)
-+ break;
-+ }
-+ if (i == hdr_max) {
-+ PROTOBUF_C_UNPACK_ERROR("error parsing length for length-prefixed data");
-+ return 0;
-+ }
-+ hdr_len = i + 1;
-+ *prefix_len_out = hdr_len;
-+ if (hdr_len + val > len) {
-+ PROTOBUF_C_UNPACK_ERROR("data too short after length-prefix of %u", val);
-+ return 0;
-+ }
-+ return hdr_len + val;
-+}
-+
-+static size_t
-+max_b128_numbers(size_t len, const uint8_t *data)
-+{
-+ size_t rv = 0;
-+ while (len--)
-+ if ((*data++ & 0x80) == 0)
-+ ++rv;
-+ return rv;
-+}
-+
-+/**@}*/
-+
-+/**
-+ * Merge earlier message into a latter message.
-+ *
-+ * For numeric types and strings, if the same value appears multiple
-+ * times, the parser accepts the last value it sees. For embedded
-+ * message fields, the parser merges multiple instances of the same
-+ * field. That is, all singular scalar fields in the latter instance
-+ * replace those in the former, singular embedded messages are merged,
-+ * and repeated fields are concatenated.
-+ *
-+ * The earlier message should be freed after calling this function, as
-+ * some of its fields may have been reused and changed to their default
-+ * values during the merge.
-+ */
-+static protobuf_c_boolean
-+merge_messages(ProtobufCMessage *earlier_msg,
-+ ProtobufCMessage *latter_msg,
-+ ProtobufCAllocator *allocator)
-+{
-+ unsigned i;
-+ const ProtobufCFieldDescriptor *fields =
-+ earlier_msg->descriptor->fields;
-+ for (i = 0; i < latter_msg->descriptor->n_fields; i++) {
-+ if (fields[i].label == PROTOBUF_C_LABEL_REPEATED) {
-+ size_t *n_earlier =
-+ STRUCT_MEMBER_PTR(size_t, earlier_msg,
-+ fields[i].quantifier_offset);
-+ uint8_t **p_earlier =
-+ STRUCT_MEMBER_PTR(uint8_t *, earlier_msg,
-+ fields[i].offset);
-+ size_t *n_latter =
-+ STRUCT_MEMBER_PTR(size_t, latter_msg,
-+ fields[i].quantifier_offset);
-+ uint8_t **p_latter =
-+ STRUCT_MEMBER_PTR(uint8_t *, latter_msg,
-+ fields[i].offset);
-+
-+ if (*n_earlier > 0) {
-+ if (*n_latter > 0) {
-+ /* Concatenate the repeated field */
-+ size_t el_size =
-+ sizeof_elt_in_repeated_array(fields[i].type);
-+ uint8_t *new_field;
-+
-+ new_field = do_alloc(allocator,
-+ (*n_earlier + *n_latter) * el_size);
-+ if (!new_field)
-+ return FALSE;
-+
-+ memcpy(new_field, *p_earlier,
-+ *n_earlier * el_size);
-+ memcpy(new_field +
-+ *n_earlier * el_size,
-+ *p_latter,
-+ *n_latter * el_size);
-+
-+ do_free(allocator, *p_latter);
-+ do_free(allocator, *p_earlier);
-+ *p_latter = new_field;
-+ *n_latter = *n_earlier + *n_latter;
-+ } else {
-+ /* Zero copy the repeated field from the earlier message */
-+ *n_latter = *n_earlier;
-+ *p_latter = *p_earlier;
-+ }
-+ /* Make sure the field does not get double freed */
-+ *n_earlier = 0;
-+ *p_earlier = 0;
-+ }
-+ } else if (fields[i].type == PROTOBUF_C_TYPE_MESSAGE) {
-+ ProtobufCMessage **em =
-+ STRUCT_MEMBER_PTR(ProtobufCMessage *,
-+ earlier_msg,
-+ fields[i].offset);
-+ ProtobufCMessage **lm =
-+ STRUCT_MEMBER_PTR(ProtobufCMessage *,
-+ latter_msg,
-+ fields[i].offset);
-+ if (*em != NULL) {
-+ if (*lm != NULL) {
-+ if (!merge_messages
-+ (*em, *lm, allocator))
-+ return FALSE;
-+ } else {
-+ /* Zero copy the optional message */
-+ assert(fields[i].label ==
-+ PROTOBUF_C_LABEL_OPTIONAL);
-+ *lm = *em;
-+ *em = NULL;
-+ }
-+ }
-+ } else if (fields[i].label == PROTOBUF_C_LABEL_OPTIONAL) {
-+ size_t el_size = 0;
-+ protobuf_c_boolean need_to_merge = FALSE;
-+ void *earlier_elem =
-+ STRUCT_MEMBER_P(earlier_msg, fields[i].offset);
-+ void *latter_elem =
-+ STRUCT_MEMBER_P(latter_msg, fields[i].offset);
-+ const void *def_val = fields[i].default_value;
-+
-+ switch (fields[i].type) {
-+ case PROTOBUF_C_TYPE_BYTES: {
-+ el_size = sizeof(ProtobufCBinaryData);
-+ uint8_t *e_data =
-+ ((ProtobufCBinaryData *) earlier_elem)->data;
-+ uint8_t *l_data =
-+ ((ProtobufCBinaryData *) latter_elem)->data;
-+ const ProtobufCBinaryData *d_bd =
-+ (ProtobufCBinaryData *) def_val;
-+
-+ need_to_merge =
-+ (e_data != NULL &&
-+ (d_bd != NULL &&
-+ e_data != d_bd->data)) &&
-+ (l_data == NULL ||
-+ (d_bd != NULL &&
-+ l_data == d_bd->data));
-+ break;
-+ }
-+ case PROTOBUF_C_TYPE_STRING: {
-+ el_size = sizeof(char *);
-+ char *e_str = *(char **) earlier_elem;
-+ char *l_str = *(char **) latter_elem;
-+ const char *d_str = def_val;
-+
-+ need_to_merge = e_str != d_str && l_str == d_str;
-+ break;
-+ }
-+ default: {
-+ el_size = sizeof_elt_in_repeated_array(fields[i].type);
-+
-+ need_to_merge =
-+ STRUCT_MEMBER(protobuf_c_boolean,
-+ earlier_msg,
-+ fields[i].quantifier_offset) &&
-+ !STRUCT_MEMBER(protobuf_c_boolean,
-+ latter_msg,
-+ fields[i].quantifier_offset);
-+ break;
-+ }
-+ }
-+
-+ if (need_to_merge) {
-+ memcpy(latter_elem, earlier_elem, el_size);
-+ /*
-+ * Reset the element from the old message to 0
-+ * to make sure earlier message deallocation
-+ * doesn't corrupt zero-copied data in the new
-+ * message, earlier message will be freed after
-+ * this function is called anyway
-+ */
-+ memset(earlier_elem, 0, el_size);
-+
-+ if (fields[i].quantifier_offset != 0) {
-+ /* Set the has field, if applicable */
-+ STRUCT_MEMBER(protobuf_c_boolean,
-+ latter_msg,
-+ fields[i].
-+ quantifier_offset) = TRUE;
-+ STRUCT_MEMBER(protobuf_c_boolean,
-+ earlier_msg,
-+ fields[i].
-+ quantifier_offset) = FALSE;
-+ }
-+ }
-+ }
-+ }
-+ return TRUE;
-+}
-+
-+/**
-+ * Count packed elements.
-+ *
-+ * Given a raw slab of packed-repeated values, determine the number of
-+ * elements. This function detects certain kinds of errors but not
-+ * others; the remaining error checking is done by
-+ * parse_packed_repeated_member().
-+ */
-+static protobuf_c_boolean
-+count_packed_elements(ProtobufCType type,
-+ size_t len, const uint8_t *data, size_t *count_out)
-+{
-+ switch (type) {
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ if (len % 4 != 0) {
-+ PROTOBUF_C_UNPACK_ERROR("length must be a multiple of 4 for fixed-length 32-bit types");
-+ return FALSE;
-+ }
-+ *count_out = len / 4;
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ if (len % 8 != 0) {
-+ PROTOBUF_C_UNPACK_ERROR("length must be a multiple of 8 for fixed-length 64-bit types");
-+ return FALSE;
-+ }
-+ *count_out = len / 8;
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_INT32:
-+ case PROTOBUF_C_TYPE_SINT32:
-+ case PROTOBUF_C_TYPE_ENUM:
-+ case PROTOBUF_C_TYPE_UINT32:
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_SINT64:
-+ case PROTOBUF_C_TYPE_UINT64:
-+ *count_out = max_b128_numbers(len, data);
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_BOOL:
-+ *count_out = len;
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_STRING:
-+ case PROTOBUF_C_TYPE_BYTES:
-+ case PROTOBUF_C_TYPE_MESSAGE:
-+ default:
-+ PROTOBUF_C_UNPACK_ERROR("bad protobuf-c type %u for packed-repeated", type);
-+ return FALSE;
-+ }
-+}
-+
-+static inline uint32_t
-+parse_uint32(unsigned len, const uint8_t *data)
-+{
-+ uint32_t rv = data[0] & 0x7f;
-+ if (len > 1) {
-+ rv |= ((uint32_t) (data[1] & 0x7f) << 7);
-+ if (len > 2) {
-+ rv |= ((uint32_t) (data[2] & 0x7f) << 14);
-+ if (len > 3) {
-+ rv |= ((uint32_t) (data[3] & 0x7f) << 21);
-+ if (len > 4)
-+ rv |= ((uint32_t) (data[4]) << 28);
-+ }
-+ }
-+ }
-+ return rv;
-+}
-+
-+static inline uint32_t
-+parse_int32(unsigned len, const uint8_t *data)
-+{
-+ return parse_uint32(len, data);
-+}
-+
-+static inline int32_t
-+unzigzag32(uint32_t v)
-+{
-+ if (v & 1)
-+ return -(v >> 1) - 1;
-+ else
-+ return v >> 1;
-+}
-+
-+static inline uint32_t
-+parse_fixed_uint32(const uint8_t *data)
-+{
-+#if !defined(WORDS_BIGENDIAN)
-+ uint32_t t;
-+ memcpy(&t, data, 4);
-+ return t;
-+#else
-+ return data[0] |
-+ ((uint32_t) (data[1]) << 8) |
-+ ((uint32_t) (data[2]) << 16) |
-+ ((uint32_t) (data[3]) << 24);
-+#endif
-+}
-+
-+static uint64_t
-+parse_uint64(unsigned len, const uint8_t *data)
-+{
-+ unsigned shift, i;
-+ uint64_t rv;
-+
-+ if (len < 5)
-+ return parse_uint32(len, data);
-+ rv = ((uint64_t) (data[0] & 0x7f)) |
-+ ((uint64_t) (data[1] & 0x7f) << 7) |
-+ ((uint64_t) (data[2] & 0x7f) << 14) |
-+ ((uint64_t) (data[3] & 0x7f) << 21);
-+ shift = 28;
-+ for (i = 4; i < len; i++) {
-+ rv |= (((uint64_t) (data[i] & 0x7f)) << shift);
-+ shift += 7;
-+ }
-+ return rv;
-+}
-+
-+static inline int64_t
-+unzigzag64(uint64_t v)
-+{
-+ if (v & 1)
-+ return -(v >> 1) - 1;
-+ else
-+ return v >> 1;
-+}
-+
-+static inline uint64_t
-+parse_fixed_uint64(const uint8_t *data)
-+{
-+#if !defined(WORDS_BIGENDIAN)
-+ uint64_t t;
-+ memcpy(&t, data, 8);
-+ return t;
-+#else
-+ return (uint64_t) parse_fixed_uint32(data) |
-+ (((uint64_t) parse_fixed_uint32(data + 4)) << 32);
-+#endif
-+}
-+
-+static protobuf_c_boolean
-+parse_boolean(unsigned len, const uint8_t *data)
-+{
-+ unsigned i;
-+ for (i = 0; i < len; i++)
-+ if (data[i] & 0x7f)
-+ return TRUE;
-+ return FALSE;
-+}
-+
-+static protobuf_c_boolean
-+parse_required_member(ScannedMember *scanned_member,
-+ void *member,
-+ ProtobufCAllocator *allocator,
-+ protobuf_c_boolean maybe_clear)
-+{
-+ unsigned len = scanned_member->len;
-+ const uint8_t *data = scanned_member->data;
-+ ProtobufCWireType wire_type = scanned_member->wire_type;
-+
-+ switch (scanned_member->field->type) {
-+ case PROTOBUF_C_TYPE_INT32:
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-+ return FALSE;
-+ *(uint32_t *) member = parse_int32(len, data);
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_UINT32:
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-+ return FALSE;
-+ *(uint32_t *) member = parse_uint32(len, data);
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_SINT32:
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-+ return FALSE;
-+ *(int32_t *) member = unzigzag32(parse_uint32(len, data));
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_32BIT)
-+ return FALSE;
-+ *(uint32_t *) member = parse_fixed_uint32(data);
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_UINT64:
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-+ return FALSE;
-+ *(uint64_t *) member = parse_uint64(len, data);
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_SINT64:
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-+ return FALSE;
-+ *(int64_t *) member = unzigzag64(parse_uint64(len, data));
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_64BIT)
-+ return FALSE;
-+ *(uint64_t *) member = parse_fixed_uint64(data);
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_BOOL:
-+ *(protobuf_c_boolean *) member = parse_boolean(len, data);
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_ENUM:
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT)
-+ return FALSE;
-+ *(uint32_t *) member = parse_uint32(len, data);
-+ return TRUE;
-+ case PROTOBUF_C_TYPE_STRING: {
-+ char **pstr = member;
-+ unsigned pref_len = scanned_member->length_prefix_len;
-+
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED)
-+ return FALSE;
-+
-+ if (maybe_clear && *pstr != NULL) {
-+ const char *def = scanned_member->field->default_value;
-+ if (*pstr != NULL && *pstr != def)
-+ do_free(allocator, *pstr);
-+ }
-+ *pstr = do_alloc(allocator, len - pref_len + 1);
-+ if (*pstr == NULL)
-+ return FALSE;
-+ memcpy(*pstr, data + pref_len, len - pref_len);
-+ (*pstr)[len - pref_len] = 0;
-+ return TRUE;
-+ }
-+ case PROTOBUF_C_TYPE_BYTES: {
-+ ProtobufCBinaryData *bd = member;
-+ const ProtobufCBinaryData *def_bd;
-+ unsigned pref_len = scanned_member->length_prefix_len;
-+
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED)
-+ return FALSE;
-+
-+ def_bd = scanned_member->field->default_value;
-+ if (maybe_clear &&
-+ bd->data != NULL &&
-+ (def_bd == NULL || bd->data != def_bd->data))
-+ {
-+ do_free(allocator, bd->data);
-+ }
-+ if (len - pref_len > 0) {
-+ bd->data = do_alloc(allocator, len - pref_len);
-+ if (bd->data == NULL)
-+ return FALSE;
-+ memcpy(bd->data, data + pref_len, len - pref_len);
-+ }
-+ bd->len = len - pref_len;
-+ return TRUE;
-+ }
-+ case PROTOBUF_C_TYPE_MESSAGE: {
-+ ProtobufCMessage **pmessage = member;
-+ ProtobufCMessage *subm;
-+ const ProtobufCMessage *def_mess;
-+ protobuf_c_boolean merge_successful = TRUE;
-+ unsigned pref_len = scanned_member->length_prefix_len;
-+
-+ if (wire_type != PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED)
-+ return FALSE;
-+
-+ def_mess = scanned_member->field->default_value;
-+ subm = protobuf_c_message_unpack(scanned_member->field->descriptor,
-+ allocator,
-+ len - pref_len,
-+ data + pref_len);
-+
-+ if (maybe_clear &&
-+ *pmessage != NULL &&
-+ *pmessage != def_mess)
-+ {
-+ if (subm != NULL)
-+ merge_successful = merge_messages(*pmessage, subm, allocator);
-+ /* Delete the previous message */
-+ protobuf_c_message_free_unpacked(*pmessage, allocator);
-+ }
-+ *pmessage = subm;
-+ if (subm == NULL || !merge_successful)
-+ return FALSE;
-+ return TRUE;
-+ }
-+ }
-+ return FALSE;
-+}
-+
-+static protobuf_c_boolean
-+parse_optional_member(ScannedMember *scanned_member,
-+ void *member,
-+ ProtobufCMessage *message,
-+ ProtobufCAllocator *allocator)
-+{
-+ if (!parse_required_member(scanned_member, member, allocator, TRUE))
-+ return FALSE;
-+ if (scanned_member->field->quantifier_offset != 0)
-+ STRUCT_MEMBER(protobuf_c_boolean,
-+ message,
-+ scanned_member->field->quantifier_offset) = TRUE;
-+ return TRUE;
-+}
-+
-+static protobuf_c_boolean
-+parse_repeated_member(ScannedMember *scanned_member,
-+ void *member,
-+ ProtobufCMessage *message,
-+ ProtobufCAllocator *allocator)
-+{
-+ const ProtobufCFieldDescriptor *field = scanned_member->field;
-+ size_t *p_n = STRUCT_MEMBER_PTR(size_t, message, field->quantifier_offset);
-+ size_t siz = sizeof_elt_in_repeated_array(field->type);
-+ char *array = *(char **) member;
-+
-+ if (!parse_required_member(scanned_member, array + siz * (*p_n),
-+ allocator, FALSE))
-+ {
-+ return FALSE;
-+ }
-+ *p_n += 1;
-+ return TRUE;
-+}
-+
-+static unsigned
-+scan_varint(unsigned len, const uint8_t *data)
-+{
-+ unsigned i;
-+ if (len > 10)
-+ len = 10;
-+ for (i = 0; i < len; i++)
-+ if ((data[i] & 0x80) == 0)
-+ break;
-+ if (i == len)
-+ return 0;
-+ return i + 1;
-+}
-+
-+static protobuf_c_boolean
-+parse_packed_repeated_member(ScannedMember *scanned_member,
-+ void *member,
-+ ProtobufCMessage *message)
-+{
-+ const ProtobufCFieldDescriptor *field = scanned_member->field;
-+ size_t *p_n = STRUCT_MEMBER_PTR(size_t, message, field->quantifier_offset);
-+ size_t siz = sizeof_elt_in_repeated_array(field->type);
-+ void *array = *(void **) member + siz * (*p_n);
-+ const uint8_t *at = scanned_member->data + scanned_member->length_prefix_len;
-+ size_t rem = scanned_member->len - scanned_member->length_prefix_len;
-+ size_t count = 0;
-+ unsigned i;
-+
-+ switch (field->type) {
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ count = (scanned_member->len - scanned_member->length_prefix_len) / 4;
-+#if !defined(WORDS_BIGENDIAN)
-+ goto no_unpacking_needed;
-+#else
-+ for (i = 0; i < count; i++) {
-+ ((uint32_t *) array)[i] = parse_fixed_uint32(at);
-+ at += 4;
-+ }
-+ break;
-+#endif
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ count = (scanned_member->len - scanned_member->length_prefix_len) / 8;
-+#if !defined(WORDS_BIGENDIAN)
-+ goto no_unpacking_needed;
-+#else
-+ for (i = 0; i < count; i++) {
-+ ((uint64_t *) array)[i] = parse_fixed_uint64(at);
-+ at += 8;
-+ }
-+ break;
-+#endif
-+ case PROTOBUF_C_TYPE_INT32:
-+ while (rem > 0) {
-+ unsigned s = scan_varint(rem, at);
-+ if (s == 0) {
-+ PROTOBUF_C_UNPACK_ERROR("bad packed-repeated int32 value");
-+ return FALSE;
-+ }
-+ ((int32_t *) array)[count++] = parse_int32(s, at);
-+ at += s;
-+ rem -= s;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_SINT32:
-+ while (rem > 0) {
-+ unsigned s = scan_varint(rem, at);
-+ if (s == 0) {
-+ PROTOBUF_C_UNPACK_ERROR("bad packed-repeated sint32 value");
-+ return FALSE;
-+ }
-+ ((int32_t *) array)[count++] = unzigzag32(parse_uint32(s, at));
-+ at += s;
-+ rem -= s;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_ENUM:
-+ case PROTOBUF_C_TYPE_UINT32:
-+ while (rem > 0) {
-+ unsigned s = scan_varint(rem, at);
-+ if (s == 0) {
-+ PROTOBUF_C_UNPACK_ERROR("bad packed-repeated enum or uint32 value");
-+ return FALSE;
-+ }
-+ ((uint32_t *) array)[count++] = parse_uint32(s, at);
-+ at += s;
-+ rem -= s;
-+ }
-+ break;
-+
-+ case PROTOBUF_C_TYPE_SINT64:
-+ while (rem > 0) {
-+ unsigned s = scan_varint(rem, at);
-+ if (s == 0) {
-+ PROTOBUF_C_UNPACK_ERROR("bad packed-repeated sint64 value");
-+ return FALSE;
-+ }
-+ ((int64_t *) array)[count++] = unzigzag64(parse_uint64(s, at));
-+ at += s;
-+ rem -= s;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_UINT64:
-+ while (rem > 0) {
-+ unsigned s = scan_varint(rem, at);
-+ if (s == 0) {
-+ PROTOBUF_C_UNPACK_ERROR("bad packed-repeated int64/uint64 value");
-+ return FALSE;
-+ }
-+ ((int64_t *) array)[count++] = parse_uint64(s, at);
-+ at += s;
-+ rem -= s;
-+ }
-+ break;
-+ case PROTOBUF_C_TYPE_BOOL:
-+ count = rem;
-+ for (i = 0; i < count; i++) {
-+ if (at[i] > 1) {
-+ PROTOBUF_C_UNPACK_ERROR("bad packed-repeated boolean value");
-+ return FALSE;
-+ }
-+ ((protobuf_c_boolean *) array)[i] = at[i];
-+ }
-+ break;
-+ default:
-+ PROTOBUF_C__ASSERT_NOT_REACHED();
-+ }
-+ *p_n += count;
-+ return TRUE;
-+
-+#if !defined(WORDS_BIGENDIAN)
-+no_unpacking_needed:
-+ memcpy(array, at, count * siz);
-+ *p_n += count;
-+ return TRUE;
-+#endif
-+}
-+
-+static protobuf_c_boolean
-+is_packable_type(ProtobufCType type)
-+{
-+ return
-+ type != PROTOBUF_C_TYPE_STRING &&
-+ type != PROTOBUF_C_TYPE_BYTES &&
-+ type != PROTOBUF_C_TYPE_MESSAGE;
-+}
-+
-+static protobuf_c_boolean
-+parse_member(ScannedMember *scanned_member,
-+ ProtobufCMessage *message,
-+ ProtobufCAllocator *allocator)
-+{
-+ const ProtobufCFieldDescriptor *field = scanned_member->field;
-+ void *member;
-+
-+ if (field == NULL) {
-+ ProtobufCMessageUnknownField *ufield =
-+ message->unknown_fields +
-+ (message->n_unknown_fields++);
-+ ufield->tag = scanned_member->tag;
-+ ufield->wire_type = scanned_member->wire_type;
-+ ufield->len = scanned_member->len;
-+ ufield->data = do_alloc(allocator, scanned_member->len);
-+ if (ufield->data == NULL)
-+ return FALSE;
-+ memcpy(ufield->data, scanned_member->data, ufield->len);
-+ return TRUE;
-+ }
-+ member = (char *) message + field->offset;
-+ switch (field->label) {
-+ case PROTOBUF_C_LABEL_REQUIRED:
-+ return parse_required_member(scanned_member, member,
-+ allocator, TRUE);
-+ case PROTOBUF_C_LABEL_OPTIONAL:
-+ return parse_optional_member(scanned_member, member,
-+ message, allocator);
-+ case PROTOBUF_C_LABEL_REPEATED:
-+ if (scanned_member->wire_type ==
-+ PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED &&
-+ (0 != (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED) ||
-+ is_packable_type(field->type)))
-+ {
-+ return parse_packed_repeated_member(scanned_member,
-+ member, message);
-+ } else {
-+ return parse_repeated_member(scanned_member,
-+ member, message,
-+ allocator);
-+ }
-+ }
-+ PROTOBUF_C__ASSERT_NOT_REACHED();
-+ return 0;
-+}
-+
-+/**
-+ * Initialise messages generated by old code.
-+ *
-+ * This function is used if desc->message_init == NULL (which occurs
-+ * for old code, and which would be useful to support allocating
-+ * descriptors dynamically).
-+ */
-+static void
-+message_init_generic(const ProtobufCMessageDescriptor *desc,
-+ ProtobufCMessage *message)
-+{
-+ unsigned i;
-+
-+ memset(message, 0, desc->sizeof_message);
-+ message->descriptor = desc;
-+ for (i = 0; i < desc->n_fields; i++) {
-+ if (desc->fields[i].default_value != NULL &&
-+ desc->fields[i].label != PROTOBUF_C_LABEL_REPEATED)
-+ {
-+ void *field =
-+ STRUCT_MEMBER_P(message, desc->fields[i].offset);
-+ const void *dv = desc->fields[i].default_value;
-+
-+ switch (desc->fields[i].type) {
-+ case PROTOBUF_C_TYPE_INT32:
-+ case PROTOBUF_C_TYPE_SINT32:
-+ case PROTOBUF_C_TYPE_SFIXED32:
-+ case PROTOBUF_C_TYPE_UINT32:
-+ case PROTOBUF_C_TYPE_FIXED32:
-+ case PROTOBUF_C_TYPE_FLOAT:
-+ case PROTOBUF_C_TYPE_ENUM:
-+ memcpy(field, dv, 4);
-+ break;
-+ case PROTOBUF_C_TYPE_INT64:
-+ case PROTOBUF_C_TYPE_SINT64:
-+ case PROTOBUF_C_TYPE_SFIXED64:
-+ case PROTOBUF_C_TYPE_UINT64:
-+ case PROTOBUF_C_TYPE_FIXED64:
-+ case PROTOBUF_C_TYPE_DOUBLE:
-+ memcpy(field, dv, 8);
-+ break;
-+ case PROTOBUF_C_TYPE_BOOL:
-+ memcpy(field, dv, sizeof(protobuf_c_boolean));
-+ break;
-+ case PROTOBUF_C_TYPE_BYTES:
-+ memcpy(field, dv, sizeof(ProtobufCBinaryData));
-+ break;
-+
-+ case PROTOBUF_C_TYPE_STRING:
-+ case PROTOBUF_C_TYPE_MESSAGE:
-+ /*
-+ * The next line essentially implements a cast
-+ * from const, which is totally unavoidable.
-+ */
-+ *(const void **) field = dv;
-+ break;
-+ }
-+ }
-+ }
-+}
-+
-+/**@}*/
-+
-+/*
-+ * ScannedMember slabs (an unpacking implementation detail). Before doing real
-+ * unpacking, we first scan through the elements to see how many there are (for
-+ * repeated fields), and which field to use (for non-repeated fields given
-+ * twice).
-+ *
-+ * In order to avoid allocations for small messages, we keep a stack-allocated
-+ * slab of ScannedMembers of size FIRST_SCANNED_MEMBER_SLAB_SIZE (16). After we
-+ * fill that up, we allocate each slab twice as large as the previous one.
-+ */
-+#define FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2 4
-+
-+/*
-+ * The number of slabs, including the stack-allocated ones; choose the number so
-+ * that we would overflow if we needed a slab larger than provided.
-+ */
-+#define MAX_SCANNED_MEMBER_SLAB \
-+ (sizeof(unsigned int)*8 - 1 \
-+ - BOUND_SIZEOF_SCANNED_MEMBER_LOG2 \
-+ - FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2)
-+
-+#define REQUIRED_FIELD_BITMAP_SET(index) \
-+ (required_fields_bitmap[(index)/8] |= (1<<((index)%8)))
-+
-+#define REQUIRED_FIELD_BITMAP_IS_SET(index) \
-+ (required_fields_bitmap[(index)/8] & (1<<((index)%8)))
-+
-+ProtobufCMessage *
-+protobuf_c_message_unpack(const ProtobufCMessageDescriptor *desc,
-+ ProtobufCAllocator *allocator,
-+ size_t len, const uint8_t *data)
-+{
-+ ProtobufCMessage *rv;
-+ size_t rem = len;
-+ const uint8_t *at = data;
-+ const ProtobufCFieldDescriptor *last_field = desc->fields + 0;
-+ ScannedMember first_member_slab[1 <<
-+ FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2];
-+
-+ /*
-+ * scanned_member_slabs[i] is an array of arrays of ScannedMember.
-+ * The first slab (scanned_member_slabs[0] is just a pointer to
-+ * first_member_slab), above. All subsequent slabs will be allocated
-+ * using the allocator.
-+ */
-+ ScannedMember *scanned_member_slabs[MAX_SCANNED_MEMBER_SLAB + 1];
-+ unsigned which_slab = 0; /* the slab we are currently populating */
-+ unsigned in_slab_index = 0; /* number of members in the slab */
-+ size_t n_unknown = 0;
-+ unsigned f;
-+ unsigned j;
-+ unsigned i_slab;
-+ unsigned last_field_index = 0;
-+ unsigned required_fields_bitmap_len;
-+ unsigned char required_fields_bitmap_stack[16];
-+ unsigned char *required_fields_bitmap = required_fields_bitmap_stack;
-+ protobuf_c_boolean required_fields_bitmap_alloced = FALSE;
-+
-+ ASSERT_IS_MESSAGE_DESCRIPTOR(desc);
-+
-+ if (allocator == NULL)
-+ allocator = &protobuf_c__allocator;
-+
-+ rv = do_alloc(allocator, desc->sizeof_message);
-+ if (!rv)
-+ return (NULL);
-+ scanned_member_slabs[0] = first_member_slab;
-+
-+ required_fields_bitmap_len = (desc->n_fields + 7) / 8;
-+ if (required_fields_bitmap_len > sizeof(required_fields_bitmap_stack)) {
-+ required_fields_bitmap = do_alloc(allocator, required_fields_bitmap_len);
-+ if (!required_fields_bitmap) {
-+ do_free(allocator, rv);
-+ return (NULL);
-+ }
-+ required_fields_bitmap_alloced = TRUE;
-+ }
-+ memset(required_fields_bitmap, 0, required_fields_bitmap_len);
-+
-+ /*
-+ * Generated code always defines "message_init". However, we provide a
-+ * fallback for (1) users of old protobuf-c generated-code that do not
-+ * provide the function, and (2) descriptors constructed from some other
-+ * source (most likely, direct construction from the .proto file).
-+ */
-+ if (desc->message_init != NULL)
-+ protobuf_c_message_init(desc, rv);
-+ else
-+ message_init_generic(desc, rv);
-+
-+ while (rem > 0) {
-+ uint32_t tag;
-+ ProtobufCWireType wire_type;
-+ size_t used = parse_tag_and_wiretype(rem, at, &tag, &wire_type);
-+ const ProtobufCFieldDescriptor *field;
-+ ScannedMember tmp;
-+
-+ if (used == 0) {
-+ PROTOBUF_C_UNPACK_ERROR("error parsing tag/wiretype at offset %u",
-+ (unsigned) (at - data));
-+ goto error_cleanup_during_scan;
-+ }
-+ /*
-+ * \todo Consider optimizing for field[1].id == tag, if field[1]
-+ * exists!
-+ */
-+ if (last_field == NULL || last_field->id != tag) {
-+ /* lookup field */
-+ int field_index =
-+ int_range_lookup(desc->n_field_ranges,
-+ desc->field_ranges,
-+ tag);
-+ if (field_index < 0) {
-+ field = NULL;
-+ n_unknown++;
-+ } else {
-+ field = desc->fields + field_index;
-+ last_field = field;
-+ last_field_index = field_index;
-+ }
-+ } else {
-+ field = last_field;
-+ }
-+
-+ if (field != NULL && field->label == PROTOBUF_C_LABEL_REQUIRED)
-+ REQUIRED_FIELD_BITMAP_SET(last_field_index);
-+
-+ at += used;
-+ rem -= used;
-+ tmp.tag = tag;
-+ tmp.wire_type = wire_type;
-+ tmp.field = field;
-+ tmp.data = at;
-+ tmp.length_prefix_len = 0;
-+
-+ switch (wire_type) {
-+ case PROTOBUF_C_WIRE_TYPE_VARINT: {
-+ unsigned max_len = rem < 10 ? rem : 10;
-+ unsigned i;
-+
-+ for (i = 0; i < max_len; i++)
-+ if ((at[i] & 0x80) == 0)
-+ break;
-+ if (i == max_len) {
-+ PROTOBUF_C_UNPACK_ERROR("unterminated varint at offset %u",
-+ (unsigned) (at - data));
-+ goto error_cleanup_during_scan;
-+ }
-+ tmp.len = i + 1;
-+ break;
-+ }
-+ case PROTOBUF_C_WIRE_TYPE_64BIT:
-+ if (rem < 8) {
-+ PROTOBUF_C_UNPACK_ERROR("too short after 64bit wiretype at offset %u",
-+ (unsigned) (at - data));
-+ goto error_cleanup_during_scan;
-+ }
-+ tmp.len = 8;
-+ break;
-+ case PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED: {
-+ size_t pref_len;
-+
-+ tmp.len = scan_length_prefixed_data(rem, at, &pref_len);
-+ if (tmp.len == 0) {
-+ /* NOTE: scan_length_prefixed_data calls UNPACK_ERROR */
-+ goto error_cleanup_during_scan;
-+ }
-+ tmp.length_prefix_len = pref_len;
-+ break;
-+ }
-+ case PROTOBUF_C_WIRE_TYPE_32BIT:
-+ if (rem < 4) {
-+ PROTOBUF_C_UNPACK_ERROR("too short after 32bit wiretype at offset %u",
-+ (unsigned) (at - data));
-+ goto error_cleanup_during_scan;
-+ }
-+ tmp.len = 4;
-+ break;
-+ default:
-+ PROTOBUF_C_UNPACK_ERROR("unsupported tag %u at offset %u",
-+ wire_type, (unsigned) (at - data));
-+ goto error_cleanup_during_scan;
-+ }
-+
-+ if (in_slab_index == (1U <<
-+ (which_slab + FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2)))
-+ {
-+ size_t size;
-+
-+ in_slab_index = 0;
-+ if (which_slab == MAX_SCANNED_MEMBER_SLAB) {
-+ PROTOBUF_C_UNPACK_ERROR("too many fields");
-+ goto error_cleanup_during_scan;
-+ }
-+ which_slab++;
-+ size = sizeof(ScannedMember)
-+ << (which_slab + FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2);
-+ scanned_member_slabs[which_slab] = do_alloc(allocator, size);
-+ if (scanned_member_slabs[which_slab] == NULL)
-+ goto error_cleanup_during_scan;
-+ }
-+ scanned_member_slabs[which_slab][in_slab_index++] = tmp;
-+
-+ if (field != NULL && field->label == PROTOBUF_C_LABEL_REPEATED) {
-+ size_t *n = STRUCT_MEMBER_PTR(size_t, rv,
-+ field->quantifier_offset);
-+ if (wire_type == PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED &&
-+ (0 != (field->flags & PROTOBUF_C_FIELD_FLAG_PACKED) ||
-+ is_packable_type(field->type)))
-+ {
-+ size_t count;
-+ if (!count_packed_elements(field->type,
-+ tmp.len -
-+ tmp.length_prefix_len,
-+ tmp.data +
-+ tmp.length_prefix_len,
-+ &count))
-+ {
-+ PROTOBUF_C_UNPACK_ERROR("counting packed elements");
-+ goto error_cleanup_during_scan;
-+ }
-+ *n += count;
-+ } else {
-+ *n += 1;
-+ }
-+ }
-+
-+ at += tmp.len;
-+ rem -= tmp.len;
-+ }
-+
-+ /* allocate space for repeated fields, also check that all required fields have been set */
-+ for (f = 0; f < desc->n_fields; f++) {
-+ const ProtobufCFieldDescriptor *field = desc->fields + f;
-+ if (field->label == PROTOBUF_C_LABEL_REPEATED) {
-+ size_t siz =
-+ sizeof_elt_in_repeated_array(field->type);
-+ size_t *n_ptr =
-+ STRUCT_MEMBER_PTR(size_t, rv,
-+ field->quantifier_offset);
-+ if (*n_ptr != 0) {
-+ unsigned n = *n_ptr;
-+ *n_ptr = 0;
-+ assert(rv->descriptor != NULL);
-+#define CLEAR_REMAINING_N_PTRS() \
-+ for(f++;f < desc->n_fields; f++) \
-+ { \
-+ field = desc->fields + f; \
-+ if (field->label == PROTOBUF_C_LABEL_REPEATED) \
-+ STRUCT_MEMBER (size_t, rv, field->quantifier_offset) = 0; \
-+ }
-+ void *a = do_alloc(allocator, siz * n);
-+ if (!a) {
-+ CLEAR_REMAINING_N_PTRS();
-+ goto error_cleanup;
-+ }
-+ STRUCT_MEMBER(void *, rv, field->offset) = a;
-+ }
-+ } else if (field->label == PROTOBUF_C_LABEL_REQUIRED) {
-+ if (field->default_value == NULL &&
-+ !REQUIRED_FIELD_BITMAP_IS_SET(f))
-+ {
-+ CLEAR_REMAINING_N_PTRS();
-+ PROTOBUF_C_UNPACK_ERROR("message '%s': missing required field '%s'",
-+ desc->name, field->name);
-+ goto error_cleanup;
-+ }
-+ }
-+ }
-+#undef CLEAR_REMAINING_N_PTRS
-+
-+ /* allocate space for unknown fields */
-+ if (n_unknown) {
-+ rv->unknown_fields = do_alloc(allocator,
-+ n_unknown * sizeof(ProtobufCMessageUnknownField));
-+ if (rv->unknown_fields == NULL)
-+ goto error_cleanup;
-+ }
-+
-+ /* do real parsing */
-+ for (i_slab = 0; i_slab <= which_slab; i_slab++) {
-+ unsigned max = (i_slab == which_slab) ?
-+ in_slab_index : (1U << (i_slab + 4));
-+ ScannedMember *slab = scanned_member_slabs[i_slab];
-+ unsigned j;
-+
-+ for (j = 0; j < max; j++) {
-+ if (!parse_member(slab + j, rv, allocator)) {
-+ PROTOBUF_C_UNPACK_ERROR("error parsing member %s of %s",
-+ slab->field ? slab->field->name : "*unknown-field*",
-+ desc->name);
-+ goto error_cleanup;
-+ }
-+ }
-+ }
-+
-+ /* cleanup */
-+ for (j = 1; j <= which_slab; j++)
-+ do_free(allocator, scanned_member_slabs[j]);
-+ if (required_fields_bitmap_alloced)
-+ do_free(allocator, required_fields_bitmap);
-+ return rv;
-+
-+error_cleanup:
-+ protobuf_c_message_free_unpacked(rv, allocator);
-+ for (j = 1; j <= which_slab; j++)
-+ do_free(allocator, scanned_member_slabs[j]);
-+ if (required_fields_bitmap_alloced)
-+ do_free(allocator, required_fields_bitmap);
-+ return NULL;
-+
-+error_cleanup_during_scan:
-+ do_free(allocator, rv);
-+ for (j = 1; j <= which_slab; j++)
-+ do_free(allocator, scanned_member_slabs[j]);
-+ if (required_fields_bitmap_alloced)
-+ do_free(allocator, required_fields_bitmap);
-+ return NULL;
-+}
-+
-+void
-+protobuf_c_message_free_unpacked(ProtobufCMessage *message,
-+ ProtobufCAllocator *allocator)
-+{
-+ const ProtobufCMessageDescriptor *desc = message->descriptor;
-+ unsigned f;
-+
-+ ASSERT_IS_MESSAGE(message);
-+ if (allocator == NULL)
-+ allocator = &protobuf_c__allocator;
-+ message->descriptor = NULL;
-+ for (f = 0; f < desc->n_fields; f++) {
-+ if (desc->fields[f].label == PROTOBUF_C_LABEL_REPEATED) {
-+ size_t n = STRUCT_MEMBER(size_t,
-+ message,
-+ desc->fields[f].quantifier_offset);
-+ void *arr = STRUCT_MEMBER(void *,
-+ message,
-+ desc->fields[f].offset);
-+
-+ if (desc->fields[f].type == PROTOBUF_C_TYPE_STRING) {
-+ unsigned i;
-+ for (i = 0; i < n; i++)
-+ do_free(allocator, ((char **) arr)[i]);
-+ } else if (desc->fields[f].type == PROTOBUF_C_TYPE_BYTES) {
-+ unsigned i;
-+ for (i = 0; i < n; i++)
-+ do_free(allocator, ((ProtobufCBinaryData *) arr)[i].data);
-+ } else if (desc->fields[f].type == PROTOBUF_C_TYPE_MESSAGE) {
-+ unsigned i;
-+ for (i = 0; i < n; i++)
-+ protobuf_c_message_free_unpacked(
-+ ((ProtobufCMessage **) arr)[i],
-+ allocator
-+ );
-+ }
-+ if (arr != NULL)
-+ do_free(allocator, arr);
-+ } else if (desc->fields[f].type == PROTOBUF_C_TYPE_STRING) {
-+ char *str = STRUCT_MEMBER(char *, message,
-+ desc->fields[f].offset);
-+
-+ if (str && str != desc->fields[f].default_value)
-+ do_free(allocator, str);
-+ } else if (desc->fields[f].type == PROTOBUF_C_TYPE_BYTES) {
-+ void *data = STRUCT_MEMBER(ProtobufCBinaryData, message,
-+ desc->fields[f].offset).data;
-+ const ProtobufCBinaryData *default_bd;
-+
-+ default_bd = desc->fields[f].default_value;
-+ if (data != NULL &&
-+ (default_bd == NULL ||
-+ default_bd->data != data))
-+ {
-+ do_free(allocator, data);
-+ }
-+ } else if (desc->fields[f].type == PROTOBUF_C_TYPE_MESSAGE) {
-+ ProtobufCMessage *sm;
-+
-+ sm = STRUCT_MEMBER(ProtobufCMessage *, message,
-+ desc->fields[f].offset);
-+ if (sm && sm != desc->fields[f].default_value)
-+ protobuf_c_message_free_unpacked(sm, allocator);
-+ }
-+ }
-+
-+ for (f = 0; f < message->n_unknown_fields; f++)
-+ do_free(allocator, message->unknown_fields[f].data);
-+ if (message->unknown_fields != NULL)
-+ do_free(allocator, message->unknown_fields);
-+
-+ do_free(allocator, message);
-+}
-+
-+void
-+protobuf_c_message_init(const ProtobufCMessageDescriptor * descriptor,
-+ void *message)
-+{
-+ descriptor->message_init((ProtobufCMessage *) (message));
-+}
-+
-+protobuf_c_boolean
-+protobuf_c_message_check(const ProtobufCMessage *message)
-+{
-+ if (!message ||
-+ !message->descriptor ||
-+ message->descriptor->magic != PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC)
-+ {
-+ return FALSE;
-+ }
-+
-+ unsigned i;
-+ for (i = 0; i < message->descriptor->n_fields; i++) {
-+ const ProtobufCFieldDescriptor *f = message->descriptor->fields + i;
-+ ProtobufCType type = f->type;
-+ ProtobufCLabel label = f->label;
-+ void *field = STRUCT_MEMBER_P (message, f->offset);
-+
-+ if (label == PROTOBUF_C_LABEL_REPEATED) {
-+ size_t *quantity = STRUCT_MEMBER_P (message, f->quantifier_offset);
-+
-+ if (*quantity > 0 && *(void **) field == NULL) {
-+ return FALSE;
-+ }
-+
-+ if (type == PROTOBUF_C_TYPE_MESSAGE) {
-+ ProtobufCMessage **submessage = *(ProtobufCMessage ***) field;
-+ unsigned j;
-+ for (j = 0; j < *quantity; j++) {
-+ if (!protobuf_c_message_check(submessage[j]))
-+ return FALSE;
-+ }
-+ } else if (type == PROTOBUF_C_TYPE_STRING) {
-+ char **string = *(char ***) field;
-+ unsigned j;
-+ for (j = 0; j < *quantity; j++) {
-+ if (!string[j])
-+ return FALSE;
-+ }
-+ } else if (type == PROTOBUF_C_TYPE_BYTES) {
-+ ProtobufCBinaryData *bd = *(ProtobufCBinaryData **) field;
-+ unsigned j;
-+ for (j = 0; j < *quantity; j++) {
-+ if (bd[j].len > 0 && bd[j].data == NULL)
-+ return FALSE;
-+ }
-+ }
-+
-+ } else { /* PROTOBUF_C_LABEL_REQUIRED or PROTOBUF_C_LABEL_OPTIONAL */
-+
-+ if (type == PROTOBUF_C_TYPE_MESSAGE) {
-+ ProtobufCMessage *submessage = *(ProtobufCMessage **) field;
-+ if (label == PROTOBUF_C_LABEL_REQUIRED || submessage != NULL) {
-+ if (!protobuf_c_message_check(submessage))
-+ return FALSE;
-+ }
-+ } else if (type == PROTOBUF_C_TYPE_STRING) {
-+ char *string = *(char **) field;
-+ if (label == PROTOBUF_C_LABEL_REQUIRED && string == NULL)
-+ return FALSE;
-+ } else if (type == PROTOBUF_C_TYPE_BYTES) {
-+ protobuf_c_boolean *has = STRUCT_MEMBER_P (message, f->quantifier_offset);
-+ ProtobufCBinaryData *bd = field;
-+ if (label == PROTOBUF_C_LABEL_REQUIRED || *has == TRUE) {
-+ if (bd->len > 0 && bd->data == NULL)
-+ return FALSE;
-+ }
-+ }
-+ }
-+ }
-+
-+ return TRUE;
-+}
-+
-+/* === services === */
-+
-+typedef void (*GenericHandler) (void *service,
-+ const ProtobufCMessage *input,
-+ ProtobufCClosure closure,
-+ void *closure_data);
-+void
-+protobuf_c_service_invoke_internal(ProtobufCService *service,
-+ unsigned method_index,
-+ const ProtobufCMessage *input,
-+ ProtobufCClosure closure,
-+ void *closure_data)
-+{
-+ GenericHandler *handlers;
-+ GenericHandler handler;
-+
-+ /*
-+ * Verify that method_index is within range. If this fails, you are
-+ * likely invoking a newly added method on an old service. (Although
-+ * other memory corruption bugs can cause this assertion too.)
-+ */
-+ assert(method_index < service->descriptor->n_methods);
-+
-+ /*
-+ * Get the array of virtual methods (which are enumerated by the
-+ * generated code).
-+ */
-+ handlers = (GenericHandler *) (service + 1);
-+
-+ /*
-+ * Get our method and invoke it.
-+ * \todo Seems like handler == NULL is a situation that needs handling.
-+ */
-+ handler = handlers[method_index];
-+ (*handler)(service, input, closure, closure_data);
-+}
-+
-+void
-+protobuf_c_service_generated_init(ProtobufCService *service,
-+ const ProtobufCServiceDescriptor *descriptor,
-+ ProtobufCServiceDestroy destroy)
-+{
-+ ASSERT_IS_SERVICE_DESCRIPTOR(descriptor);
-+ service->descriptor = descriptor;
-+ service->destroy = destroy;
-+ service->invoke = protobuf_c_service_invoke_internal;
-+ memset(service + 1, 0, descriptor->n_methods * sizeof(GenericHandler));
-+}
-+
-+void protobuf_c_service_destroy(ProtobufCService *service)
-+{
-+ service->destroy(service);
-+}
-+
-+/* --- querying the descriptors --- */
-+
-+const ProtobufCEnumValue *
-+protobuf_c_enum_descriptor_get_value_by_name(const ProtobufCEnumDescriptor *desc,
-+ const char *name)
-+{
-+ unsigned start = 0;
-+ unsigned count = desc->n_value_names;
-+
-+ while (count > 1) {
-+ unsigned mid = start + count / 2;
-+ int rv = strcmp(desc->values_by_name[mid].name, name);
-+ if (rv == 0)
-+ return desc->values + desc->values_by_name[mid].index;
-+ else if (rv < 0) {
-+ count = start + count - (mid + 1);
-+ start = mid + 1;
-+ } else
-+ count = mid - start;
-+ }
-+ if (count == 0)
-+ return NULL;
-+ if (strcmp(desc->values_by_name[start].name, name) == 0)
-+ return desc->values + desc->values_by_name[start].index;
-+ return NULL;
-+}
-+
-+const ProtobufCEnumValue *
-+protobuf_c_enum_descriptor_get_value(const ProtobufCEnumDescriptor *desc,
-+ int value)
-+{
-+ int rv = int_range_lookup(desc->n_value_ranges, desc->value_ranges, value);
-+ if (rv < 0)
-+ return NULL;
-+ return desc->values + rv;
-+}
-+
-+const ProtobufCFieldDescriptor *
-+protobuf_c_message_descriptor_get_field_by_name(const ProtobufCMessageDescriptor *desc,
-+ const char *name)
-+{
-+ unsigned start = 0;
-+ unsigned count = desc->n_fields;
-+ const ProtobufCFieldDescriptor *field;
-+
-+ while (count > 1) {
-+ unsigned mid = start + count / 2;
-+ int rv;
-+ field = desc->fields + desc->fields_sorted_by_name[mid];
-+ rv = strcmp(field->name, name);
-+ if (rv == 0)
-+ return field;
-+ else if (rv < 0) {
-+ count = start + count - (mid + 1);
-+ start = mid + 1;
-+ } else
-+ count = mid - start;
-+ }
-+ if (count == 0)
-+ return NULL;
-+ field = desc->fields + desc->fields_sorted_by_name[start];
-+ if (strcmp(field->name, name) == 0)
-+ return field;
-+ return NULL;
-+}
-+
-+const ProtobufCFieldDescriptor *
-+protobuf_c_message_descriptor_get_field(const ProtobufCMessageDescriptor *desc,
-+ unsigned value)
-+{
-+ int rv = int_range_lookup(desc->n_field_ranges,desc->field_ranges, value);
-+ if (rv < 0)
-+ return NULL;
-+ return desc->fields + rv;
-+}
-+
-+const ProtobufCMethodDescriptor *
-+protobuf_c_service_descriptor_get_method_by_name(const ProtobufCServiceDescriptor *desc,
-+ const char *name)
-+{
-+ unsigned start = 0;
-+ unsigned count = desc->n_methods;
-+
-+ while (count > 1) {
-+ unsigned mid = start + count / 2;
-+ unsigned mid_index = desc->method_indices_by_name[mid];
-+ const char *mid_name = desc->methods[mid_index].name;
-+ int rv = strcmp(mid_name, name);
-+
-+ if (rv == 0)
-+ return desc->methods + desc->method_indices_by_name[mid];
-+ if (rv < 0) {
-+ count = start + count - (mid + 1);
-+ start = mid + 1;
-+ } else {
-+ count = mid - start;
-+ }
-+ }
-+ if (count == 0)
-+ return NULL;
-+ if (strcmp(desc->methods[desc->method_indices_by_name[start]].name, name) == 0)
-+ return desc->methods + desc->method_indices_by_name[start];
-+ return NULL;
-+}
-diff --git a/src/protobuf/protobuf-c/protobuf-c.h b/src/protobuf/protobuf-c/protobuf-c.h
-new file mode 100644
-index 0000000..593df2d
---- /dev/null
-+++ b/src/protobuf/protobuf-c/protobuf-c.h
-@@ -0,0 +1,1079 @@
-+/*
-+ * Copyright (c) 2008-2014, Dave Benson and the protobuf-c authors.
-+ * All rights reserved.
-+ *
-+ * Redistribution and use in source and binary forms, with or without
-+ * modification, are permitted provided that the following conditions are
-+ * met:
-+ *
-+ * * Redistributions of source code must retain the above copyright
-+ * notice, this list of conditions and the following disclaimer.
-+ *
-+ * * Redistributions in binary form must reproduce the above
-+ * copyright notice, this list of conditions and the following disclaimer
-+ * in the documentation and/or other materials provided with the
-+ * distribution.
-+ *
-+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
-+ * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
-+ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
-+ * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
-+ * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
-+ * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
-+ * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
-+ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
-+ * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
-+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-+ */
-+
-+/*! \file
-+ * \mainpage Introduction
-+ *
-+ * This is [protobuf-c], a C implementation of [Protocol Buffers].
-+ *
-+ * This file defines the public API for the `libprotobuf-c` support library.
-+ * This API includes interfaces that can be used directly by client code as well
-+ * as the interfaces used by the code generated by the `protoc-c` compiler.
-+ *
-+ * The `libprotobuf-c` support library performs the actual serialization and
-+ * deserialization of Protocol Buffers messages. It interacts with structures,
-+ * definitions, and metadata generated by the `protoc-c` compiler from .proto
-+ * files.
-+ *
-+ * \authors Dave Benson and the `protobuf-c` authors.
-+ *
-+ * \copyright 2008-2014. Licensed under the terms of the [BSD-2-Clause] license.
-+ *
-+ * [protobuf-c]: https://github.com/protobuf-c/protobuf-c
-+ * [Protocol Buffers]: https://developers.google.com/protocol-buffers/
-+ * [BSD-2-Clause]: http://opensource.org/licenses/BSD-2-Clause
-+ *
-+ * \page gencode Generated Code
-+ *
-+ * For each enum, we generate a C enum. For each message, we generate a C
-+ * structure which can be cast to a `ProtobufCMessage`.
-+ *
-+ * For each enum and message, we generate a descriptor object that allows us to
-+ * implement a kind of reflection on the structures.
-+ *
-+ * First, some naming conventions:
-+ *
-+ * - The name of the type for enums and messages and services is camel case
-+ * (meaning WordsAreCrammedTogether) except that double underscores are used
-+ * to delimit scopes. For example, the following `.proto` file:
-+ *
-+~~~{.proto}
-+ package foo.bar;
-+ message BazBah {
-+ optional int32 val = 1;
-+ }
-+~~~
-+ *
-+ * would generate a C type `Foo__Bar__BazBah`.
-+ *
-+ * - Identifiers for functions and globals are all lowercase, with camel case
-+ * words separated by single underscores. For example, one of the function
-+ * prototypes generated by `protoc-c` for the above example:
-+ *
-+~~~{.c}
-+Foo__Bar__BazBah *
-+ foo__bar__baz_bah__unpack
-+ (ProtobufCAllocator *allocator,
-+ size_t len,
-+ const uint8_t *data);
-+~~~
-+ *
-+ * - Identifiers for enum values contain an uppercase prefix which embeds the
-+ * package name and the enum type name.
-+ *
-+ * - A double underscore is used to separate further components of identifier
-+ * names.
-+ *
-+ * For example, in the name of the unpack function above, the package name
-+ * `foo.bar` has become `foo__bar`, the message name BazBah has become
-+ * `baz_bah`, and the method name is `unpack`. These are all joined with double
-+ * underscores to form the C identifier `foo__bar__baz_bah__unpack`.
-+ *
-+ * We also generate descriptor objects for messages and enums. These are
-+ * declared in the `.pb-c.h` files:
-+ *
-+~~~{.c}
-+extern const ProtobufCMessageDescriptor foo__bar__baz_bah__descriptor;
-+~~~
-+ *
-+ * The message structures all begin with `ProtobufCMessageDescriptor *` which is
-+ * sufficient to allow them to be cast to `ProtobufCMessage`.
-+ *
-+ * For each message defined in a `.proto` file, we generate a number of
-+ * functions. Each function name contains a prefix based on the package name and
-+ * message name in order to make it a unique C identifier.
-+ *
-+ * - `unpack()`. Unpacks data for a particular message format. Note that the
-+ * `allocator` parameter is usually `NULL` to indicate that the system's
-+ * `malloc()` and `free()` functions should be used for dynamically allocating
-+ * memory.
-+ *
-+~~~{.c}
-+Foo__Bar__BazBah *
-+ foo__bar__baz_bah__unpack
-+ (ProtobufCAllocator *allocator,
-+ size_t len,
-+ const uint8_t *data);
-+~~~
-+ *
-+ * - `free_unpacked()`. Frees a message object obtained with the `unpack()`
-+ * method.
-+ *
-+~~~{.c}
-+void foo__bar__baz_bah__free_unpacked
-+ (Foo__Bar__BazBah *message,
-+ ProtobufCAllocator *allocator);
-+~~~
-+ *
-+ * - `get_packed_size()`. Calculates the length in bytes of the serialized
-+ * representation of the message object.
-+ *
-+~~~{.c}
-+size_t foo__bar__baz_bah__get_packed_size
-+ (const Foo__Bar__BazBah *message);
-+~~~
-+ *
-+ * - `pack()`. Pack a message object into a preallocated buffer. Assumes that
-+ * the buffer is large enough. (Use `get_packed_size()` first.)
-+ *
-+~~~{.c}
-+size_t foo__bar__baz_bah__pack
-+ (const Foo__Bar__BazBah *message,
-+ uint8_t *out);
-+~~~
-+ *
-+ * - `pack_to_buffer()`. Packs a message into a "virtual buffer". This is an
-+ * object which defines an "append bytes" callback to consume data as it is
-+ * serialized.
-+ *
-+~~~{.c}
-+size_t foo__bar__baz_bah__pack_to_buffer
-+ (const Foo__Bar__BazBah *message,
-+ ProtobufCBuffer *buffer);
-+~~~
-+ *
-+ * \page pack Packing and unpacking messages
-+ *
-+ * To pack a message, first compute the packed size of the message with
-+ * protobuf_c_message_get_packed_size(), then allocate a buffer of at least
-+ * that size, then call protobuf_c_message_pack().
-+ *
-+ * Alternatively, a message can be serialized without calculating the final size
-+ * first. Use the protobuf_c_message_pack_to_buffer() function and provide a
-+ * ProtobufCBuffer object which implements an "append" method that consumes
-+ * data.
-+ *
-+ * To unpack a message, call the protobuf_c_message_unpack() function. The
-+ * result can be cast to an object of the type that matches the descriptor for
-+ * the message.
-+ *
-+ * The result of unpacking a message should be freed with
-+ * protobuf_c_message_free_unpacked().
-+ */
-+
-+#ifndef PROTOBUF_C_H
-+#define PROTOBUF_C_H
-+
-+#include <assert.h>
-+#include <limits.h>
-+#include <stddef.h>
-+#include <stdint.h>
-+
-+#ifdef __cplusplus
-+# define PROTOBUF_C__BEGIN_DECLS extern "C" {
-+# define PROTOBUF_C__END_DECLS }
-+#else
-+# define PROTOBUF_C__BEGIN_DECLS
-+# define PROTOBUF_C__END_DECLS
-+#endif
-+
-+PROTOBUF_C__BEGIN_DECLS
-+
-+#if defined(_WIN32) && defined(PROTOBUF_C_USE_SHARED_LIB)
-+# ifdef PROTOBUF_C_EXPORT
-+# define PROTOBUF_C__API __declspec(dllexport)
-+# else
-+# define PROTOBUF_C__API __declspec(dllimport)
-+# endif
-+#else
-+# define PROTOBUF_C__API
-+#endif
-+
-+#if !defined(PROTOBUF_C__NO_DEPRECATED)
-+# if (__GNUC__ > 3) || (__GNUC__ == 3 && __GNUC_MINOR__ >= 1)
-+# define PROTOBUF_C__DEPRECATED __attribute__((__deprecated__))
-+# endif
-+#else
-+# define PROTOBUF_C__DEPRECATED
-+#endif
-+
-+#ifndef PROTOBUF_C__FORCE_ENUM_TO_BE_INT_SIZE
-+ #define PROTOBUF_C__FORCE_ENUM_TO_BE_INT_SIZE(enum_name) \
-+ , _##enum_name##_IS_INT_SIZE = INT_MAX
-+#endif
-+
-+#define PROTOBUF_C__SERVICE_DESCRIPTOR_MAGIC 0x14159bc3
-+#define PROTOBUF_C__MESSAGE_DESCRIPTOR_MAGIC 0x28aaeef9
-+#define PROTOBUF_C__ENUM_DESCRIPTOR_MAGIC 0x114315af
-+
-+/**
-+ * \defgroup api Public API
-+ *
-+ * This is the public API for `libprotobuf-c`. These interfaces are stable and
-+ * subject to Semantic Versioning guarantees.
-+ *
-+ * @{
-+ */
-+
-+/**
-+ * Values for the `flags` word in `ProtobufCFieldDescriptor`.
-+ */
-+typedef enum {
-+ /** Set if the field is repeated and marked with the `packed` option. */
-+ PROTOBUF_C_FIELD_FLAG_PACKED = (1 << 0),
-+
-+ /** Set if the field is marked with the `deprecated` option. */
-+ PROTOBUF_C_FIELD_FLAG_DEPRECATED = (1 << 1),
-+} ProtobufCFieldFlag;
-+
-+/**
-+ * Message field rules.
-+ *
-+ * \see [Defining A Message Type] in the Protocol Buffers documentation.
-+ *
-+ * [Defining A Message Type]:
-+ * https://developers.google.com/protocol-buffers/docs/proto#simple
-+ */
-+typedef enum {
-+ /** A well-formed message must have exactly one of this field. */
-+ PROTOBUF_C_LABEL_REQUIRED,
-+
-+ /**
-+ * A well-formed message can have zero or one of this field (but not
-+ * more than one).
-+ */
-+ PROTOBUF_C_LABEL_OPTIONAL,
-+
-+ /**
-+ * This field can be repeated any number of times (including zero) in a
-+ * well-formed message. The order of the repeated values will be
-+ * preserved.
-+ */
-+ PROTOBUF_C_LABEL_REPEATED,
-+} ProtobufCLabel;
-+
-+/**
-+ * Field value types.
-+ *
-+ * \see [Scalar Value Types] in the Protocol Buffers documentation.
-+ *
-+ * [Scalar Value Types]:
-+ * https://developers.google.com/protocol-buffers/docs/proto#scalar
-+ */
-+typedef enum {
-+ PROTOBUF_C_TYPE_INT32, /**< int32 */
-+ PROTOBUF_C_TYPE_SINT32, /**< signed int32 */
-+ PROTOBUF_C_TYPE_SFIXED32, /**< signed int32 (4 bytes) */
-+ PROTOBUF_C_TYPE_INT64, /**< int64 */
-+ PROTOBUF_C_TYPE_SINT64, /**< signed int64 */
-+ PROTOBUF_C_TYPE_SFIXED64, /**< signed int64 (8 bytes) */
-+ PROTOBUF_C_TYPE_UINT32, /**< unsigned int32 */
-+ PROTOBUF_C_TYPE_FIXED32, /**< unsigned int32 (4 bytes) */
-+ PROTOBUF_C_TYPE_UINT64, /**< unsigned int64 */
-+ PROTOBUF_C_TYPE_FIXED64, /**< unsigned int64 (8 bytes) */
-+ PROTOBUF_C_TYPE_FLOAT, /**< float */
-+ PROTOBUF_C_TYPE_DOUBLE, /**< double */
-+ PROTOBUF_C_TYPE_BOOL, /**< boolean */
-+ PROTOBUF_C_TYPE_ENUM, /**< enumerated type */
-+ PROTOBUF_C_TYPE_STRING, /**< UTF-8 or ASCII string */
-+ PROTOBUF_C_TYPE_BYTES, /**< arbitrary byte sequence */
-+ PROTOBUF_C_TYPE_MESSAGE, /**< nested message */
-+} ProtobufCType;
-+
-+/**
-+ * Field wire types.
-+ *
-+ * \see [Message Structure] in the Protocol Buffers documentation.
-+ *
-+ * [Message Structure]:
-+ * https://developers.google.com/protocol-buffers/docs/encoding#structure
-+ */
-+typedef enum {
-+ PROTOBUF_C_WIRE_TYPE_VARINT = 0,
-+ PROTOBUF_C_WIRE_TYPE_64BIT = 1,
-+ PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED = 2,
-+ /* "Start group" and "end group" wire types are unsupported. */
-+ PROTOBUF_C_WIRE_TYPE_32BIT = 5,
-+} ProtobufCWireType;
-+
-+struct ProtobufCAllocator;
-+struct ProtobufCBinaryData;
-+struct ProtobufCBuffer;
-+struct ProtobufCBufferSimple;
-+struct ProtobufCEnumDescriptor;
-+struct ProtobufCEnumValue;
-+struct ProtobufCEnumValueIndex;
-+struct ProtobufCFieldDescriptor;
-+struct ProtobufCIntRange;
-+struct ProtobufCMessage;
-+struct ProtobufCMessageDescriptor;
-+struct ProtobufCMessageUnknownField;
-+struct ProtobufCMethodDescriptor;
-+struct ProtobufCService;
-+struct ProtobufCServiceDescriptor;
-+
-+typedef struct ProtobufCAllocator ProtobufCAllocator;
-+typedef struct ProtobufCBinaryData ProtobufCBinaryData;
-+typedef struct ProtobufCBuffer ProtobufCBuffer;
-+typedef struct ProtobufCBufferSimple ProtobufCBufferSimple;
-+typedef struct ProtobufCEnumDescriptor ProtobufCEnumDescriptor;
-+typedef struct ProtobufCEnumValue ProtobufCEnumValue;
-+typedef struct ProtobufCEnumValueIndex ProtobufCEnumValueIndex;
-+typedef struct ProtobufCFieldDescriptor ProtobufCFieldDescriptor;
-+typedef struct ProtobufCIntRange ProtobufCIntRange;
-+typedef struct ProtobufCMessage ProtobufCMessage;
-+typedef struct ProtobufCMessageDescriptor ProtobufCMessageDescriptor;
-+typedef struct ProtobufCMessageUnknownField ProtobufCMessageUnknownField;
-+typedef struct ProtobufCMethodDescriptor ProtobufCMethodDescriptor;
-+typedef struct ProtobufCService ProtobufCService;
-+typedef struct ProtobufCServiceDescriptor ProtobufCServiceDescriptor;
-+
-+/** Boolean type. */
-+typedef int protobuf_c_boolean;
-+
-+typedef void (*ProtobufCClosure)(const ProtobufCMessage *, void *closure_data);
-+typedef void (*ProtobufCMessageInit)(ProtobufCMessage *);
-+typedef void (*ProtobufCServiceDestroy)(ProtobufCService *);
-+
-+/**
-+ * Structure for defining a custom memory allocator.
-+ */
-+struct ProtobufCAllocator {
-+ /** Function to allocate memory. */
-+ void *(*alloc)(void *allocator_data, size_t size);
-+
-+ /** Function to free memory. */
-+ void (*free)(void *allocator_data, void *pointer);
-+
-+ /** Opaque pointer passed to `alloc` and `free` functions. */
-+ void *allocator_data;
-+};
-+
-+/**
-+ * Structure for the protobuf `bytes` scalar type.
-+ *
-+ * The data contained in a `ProtobufCBinaryData` is an arbitrary sequence of
-+ * bytes. It may contain embedded `NUL` characters and is not required to be
-+ * `NUL`-terminated.
-+ */
-+struct ProtobufCBinaryData {
-+ size_t len; /**< Number of bytes in the `data` field. */
-+ uint8_t *data; /**< Data bytes. */
-+};
-+
-+/**
-+ * Structure for defining a virtual append-only buffer. Used by
-+ * protobuf_c_message_pack_to_buffer() to abstract the consumption of serialized
-+ * bytes.
-+ *
-+ * `ProtobufCBuffer` "subclasses" may be defined on the stack. For example, to
-+ * write to a `FILE` object:
-+ *
-+~~~{.c}
-+typedef struct {
-+ ProtobufCBuffer base;
-+ FILE *fp;
-+} BufferAppendToFile;
-+
-+static void
-+my_buffer_file_append(ProtobufCBuffer *buffer,
-+ size_t len,
-+ const uint8_t *data)
-+{
-+ BufferAppendToFile *file_buf = (BufferAppendToFile *) buffer;
-+ fwrite(data, len, 1, file_buf->fp); // XXX: No error handling!
-+}
-+~~~
-+ *
-+ * To use this new type of ProtobufCBuffer, it could be called as follows:
-+ *
-+~~~{.c}
-+...
-+BufferAppendToFile tmp = {0};
-+tmp.base.append = my_buffer_file_append;
-+tmp.fp = fp;
-+protobuf_c_message_pack_to_buffer(&message, &tmp);
-+...
-+~~~
-+ */
-+struct ProtobufCBuffer {
-+ /** Append function. Consumes the `len` bytes stored at `data`. */
-+ void (*append)(ProtobufCBuffer *buffer,
-+ size_t len,
-+ const uint8_t *data);
-+};
-+
-+/**
-+ * Simple buffer "subclass" of `ProtobufCBuffer`.
-+ *
-+ * A `ProtobufCBufferSimple` object is declared on the stack and uses a
-+ * scratch buffer provided by the user for the initial allocation. It performs
-+ * exponential resizing, using dynamically allocated memory. A
-+ * `ProtobufCBufferSimple` object can be created and used as follows:
-+ *
-+~~~{.c}
-+uint8_t pad[128];
-+ProtobufCBufferSimple simple = PROTOBUF_C_BUFFER_SIMPLE_INIT(pad);
-+ProtobufCBuffer *buffer = (ProtobufCBuffer *) &simple;
-+~~~
-+ *
-+ * `buffer` can now be used with `protobuf_c_message_pack_to_buffer()`. Once a
-+ * message has been serialized to a `ProtobufCBufferSimple` object, the
-+ * serialized data bytes can be accessed from the `.data` field.
-+ *
-+ * To free the memory allocated by a `ProtobufCBufferSimple` object, if any,
-+ * call PROTOBUF_C_BUFFER_SIMPLE_CLEAR() on the object, for example:
-+ *
-+~~~{.c}
-+PROTOBUF_C_BUFFER_SIMPLE_CLEAR(&simple);
-+~~~
-+ *
-+ * \see PROTOBUF_C_BUFFER_SIMPLE_INIT
-+ * \see PROTOBUF_C_BUFFER_SIMPLE_CLEAR
-+ */
-+struct ProtobufCBufferSimple {
-+ /** "Base class". */
-+ ProtobufCBuffer base;
-+ /** Number of bytes allocated in `data`. */
-+ size_t alloced;
-+ /** Number of bytes currently stored in `data`. */
-+ size_t len;
-+ /** Data bytes. */
-+ uint8_t *data;
-+ /** Whether `data` must be freed. */
-+ protobuf_c_boolean must_free_data;
-+ /** Allocator to use. May be NULL to indicate the system allocator. */
-+ ProtobufCAllocator *allocator;
-+};
-+
-+/**
-+ * Describes an enumeration as a whole, with all of its values.
-+ */
-+struct ProtobufCEnumDescriptor {
-+ /** Magic value checked to ensure that the API is used correctly. */
-+ uint32_t magic;
-+
-+ /** The qualified name (e.g., "namespace.Type"). */
-+ const char *name;
-+ /** The unqualified name as given in the .proto file (e.g., "Type"). */
-+ const char *short_name;
-+ /** Identifier used in generated C code. */
-+ const char *c_name;
-+ /** The dot-separated namespace. */
-+ const char *package_name;
-+
-+ /** Number elements in `values`. */
-+ unsigned n_values;
-+ /** Array of distinct values, sorted by numeric value. */
-+ const ProtobufCEnumValue *values;
-+
-+ /** Number of elements in `values_by_name`. */
-+ unsigned n_value_names;
-+ /** Array of named values, including aliases, sorted by name. */
-+ const ProtobufCEnumValueIndex *values_by_name;
-+
-+ /** Number of elements in `value_ranges`. */
-+ unsigned n_value_ranges;
-+ /** Value ranges, for faster lookups by numeric value. */
-+ const ProtobufCIntRange *value_ranges;
-+
-+ /** Reserved for future use. */
-+ void *reserved1;
-+ /** Reserved for future use. */
-+ void *reserved2;
-+ /** Reserved for future use. */
-+ void *reserved3;
-+ /** Reserved for future use. */
-+ void *reserved4;
-+};
-+
-+/**
-+ * Represents a single value of an enumeration.
-+ */
-+struct ProtobufCEnumValue {
-+ /** The string identifying this value in the .proto file. */
-+ const char *name;
-+
-+ /** The string identifying this value in generated C code. */
-+ const char *c_name;
-+
-+ /** The numeric value assigned in the .proto file. */
-+ int value;
-+};
-+
-+/**
-+ * Used by `ProtobufCEnumDescriptor` to look up enum values.
-+ */
-+struct ProtobufCEnumValueIndex {
-+ /** Name of the enum value. */
-+ const char *name;
-+ /** Index into values[] array. */
-+ unsigned index;
-+};
-+
-+/**
-+ * Describes a single field in a message.
-+ */
-+struct ProtobufCFieldDescriptor {
-+ /** Name of the field as given in the .proto file. */
-+ const char *name;
-+
-+ /** Tag value of the field as given in the .proto file. */
-+ uint32_t id;
-+
-+ /** Whether the field is `REQUIRED`, `OPTIONAL`, or `REPEATED`. */
-+ ProtobufCLabel label;
-+
-+ /** The type of the field. */
-+ ProtobufCType type;
-+
-+ /**
-+ * The offset in bytes of the message's C structure's quantifier field
-+ * (the `has_MEMBER` field for optional members or the `n_MEMBER` field
-+ * for repeated members.
-+ */
-+ unsigned quantifier_offset;
-+
-+ /**
-+ * The offset in bytes into the message's C structure for the member
-+ * itself.
-+ */
-+ unsigned offset;
-+
-+ /**
-+ * A type-specific descriptor.
-+ *
-+ * If `type` is `PROTOBUF_C_TYPE_ENUM`, then `descriptor` points to the
-+ * corresponding `ProtobufCEnumDescriptor`.
-+ *
-+ * If `type` is `PROTOBUF_C_TYPE_MESSAGE`, then `descriptor` points to
-+ * the corresponding `ProtobufCMessageDescriptor`.
-+ *
-+ * Otherwise this field is NULL.
-+ */
-+ const void *descriptor; /* for MESSAGE and ENUM types */
-+
-+ /** The default value for this field, if defined. May be NULL. */
-+ const void *default_value;
-+
-+ /**
-+ * A flag word. Zero or more of the bits defined in the
-+ * `ProtobufCFieldFlag` enum may be set.
-+ */
-+ uint32_t flags;
-+
-+ /** Reserved for future use. */
-+ unsigned reserved_flags;
-+ /** Reserved for future use. */
-+ void *reserved2;
-+ /** Reserved for future use. */
-+ void *reserved3;
-+};
-+
-+/**
-+ * Helper structure for optimizing int => index lookups in the case
-+ * where the keys are mostly consecutive values, as they presumably are for
-+ * enums and fields.
-+ *
-+ * The data structures requires that the values in the original array are
-+ * sorted.
-+ */
-+struct ProtobufCIntRange {
-+ int start_value;
-+ unsigned orig_index;
-+ /*
-+ * NOTE: the number of values in the range can be inferred by looking
-+ * at the next element's orig_index. A dummy element is added to make
-+ * this simple.
-+ */
-+};
-+
-+/**
-+ * An instance of a message.
-+ *
-+ * `ProtobufCMessage` is a light-weight "base class" for all messages.
-+ *
-+ * In particular, `ProtobufCMessage` doesn't have any allocation policy
-+ * associated with it. That's because it's common to create `ProtobufCMessage`
-+ * objects on the stack. In fact, that's what we recommend for sending messages.
-+ * If the object is allocated from the stack, you can't really have a memory
-+ * leak.
-+ *
-+ * This means that calls to functions like protobuf_c_message_unpack() which
-+ * return a `ProtobufCMessage` must be paired with a call to a free function,
-+ * like protobuf_c_message_free_unpacked().
-+ */
-+struct ProtobufCMessage {
-+ /** The descriptor for this message type. */
-+ const ProtobufCMessageDescriptor *descriptor;
-+ /** The number of elements in `unknown_fields`. */
-+ unsigned n_unknown_fields;
-+ /** The fields that weren't recognized by the parser. */
-+ ProtobufCMessageUnknownField *unknown_fields;
-+};
-+
-+/**
-+ * Describes a message.
-+ */
-+struct ProtobufCMessageDescriptor {
-+ /** Magic value checked to ensure that the API is used correctly. */
-+ uint32_t magic;
-+
-+ /** The qualified name (e.g., "namespace.Type"). */
-+ const char *name;
-+ /** The unqualified name as given in the .proto file (e.g., "Type"). */
-+ const char *short_name;
-+ /** Identifier used in generated C code. */
-+ const char *c_name;
-+ /** The dot-separated namespace. */
-+ const char *package_name;
-+
-+ /**
-+ * Size in bytes of the C structure representing an instance of this
-+ * type of message.
-+ */
-+ size_t sizeof_message;
-+
-+ /** Number of elements in `fields`. */
-+ unsigned n_fields;
-+ /** Field descriptors, sorted by tag number. */
-+ const ProtobufCFieldDescriptor *fields;
-+ /** Used for looking up fields by name. */
-+ const unsigned *fields_sorted_by_name;
-+
-+ /** Number of elements in `field_ranges`. */
-+ unsigned n_field_ranges;
-+ /** Used for looking up fields by id. */
-+ const ProtobufCIntRange *field_ranges;
-+
-+ /** Message initialisation function. */
-+ ProtobufCMessageInit message_init;
-+
-+ /** Reserved for future use. */
-+ void *reserved1;
-+ /** Reserved for future use. */
-+ void *reserved2;
-+ /** Reserved for future use. */
-+ void *reserved3;
-+};
-+
-+/**
-+ * An unknown message field.
-+ */
-+struct ProtobufCMessageUnknownField {
-+ /** The tag number. */
-+ uint32_t tag;
-+ /** The wire type of the field. */
-+ ProtobufCWireType wire_type;
-+ /** Number of bytes in `data`. */
-+ size_t len;
-+ /** Field data. */
-+ uint8_t *data;
-+};
-+
-+/**
-+ * Method descriptor.
-+ */
-+struct ProtobufCMethodDescriptor {
-+ /** Method name. */
-+ const char *name;
-+ /** Input message descriptor. */
-+ const ProtobufCMessageDescriptor *input;
-+ /** Output message descriptor. */
-+ const ProtobufCMessageDescriptor *output;
-+};
-+
-+/**
-+ * Service.
-+ */
-+struct ProtobufCService {
-+ /** Service descriptor. */
-+ const ProtobufCServiceDescriptor *descriptor;
-+ /** Function to invoke the service. */
-+ void (*invoke)(ProtobufCService *service,
-+ unsigned method_index,
-+ const ProtobufCMessage *input,
-+ ProtobufCClosure closure,
-+ void *closure_data);
-+ /** Function to destroy the service. */
-+ void (*destroy)(ProtobufCService *service);
-+};
-+
-+/**
-+ * Service descriptor.
-+ */
-+struct ProtobufCServiceDescriptor {
-+ /** Magic value checked to ensure that the API is used correctly. */
-+ uint32_t magic;
-+
-+ /** Service name. */
-+ const char *name;
-+ /** Short version of service name. */
-+ const char *short_name;
-+ /** C identifier for the service name. */
-+ const char *c_name;
-+ /** Package name. */
-+ const char *package;
-+ /** Number of elements in `methods`. */
-+ unsigned n_methods;
-+ /** Method descriptors, in the order defined in the .proto file. */
-+ const ProtobufCMethodDescriptor *methods;
-+ /** Sort index of methods. */
-+ const unsigned *method_indices_by_name;
-+};
-+
-+/**
-+ * Get the version of the protobuf-c library. Note that this is the version of
-+ * the library linked against, not the version of the headers compiled against.
-+ *
-+ * \return A string containing the version number of protobuf-c.
-+ */
-+PROTOBUF_C__API
-+const char *
-+protobuf_c_version(void);
-+
-+/**
-+ * Get the version of the protobuf-c library. Note that this is the version of
-+ * the library linked against, not the version of the headers compiled against.
-+ *
-+ * \return A 32 bit unsigned integer containing the version number of
-+ * protobuf-c, represented in base-10 as (MAJOR*1E6) + (MINOR*1E3) + PATCH.
-+ */
-+PROTOBUF_C__API
-+uint32_t
-+protobuf_c_version_number(void);
-+
-+/**
-+ * The version of the protobuf-c headers, represented as a string using the same
-+ * format as protobuf_c_version().
-+ */
-+#define PROTOBUF_C_VERSION "1.0.0"
-+
-+/**
-+ * The version of the protobuf-c headers, represented as an integer using the
-+ * same format as protobuf_c_version_number().
-+ */
-+#define PROTOBUF_C_VERSION_NUMBER 1000000
-+
-+/**
-+ * The minimum protoc-c version which works with the current version of the
-+ * protobuf-c headers.
-+ */
-+#define PROTOBUF_C_MIN_COMPILER_VERSION 1000000
-+
-+/**
-+ * Look up a `ProtobufCEnumValue` from a `ProtobufCEnumDescriptor` by name.
-+ *
-+ * \param desc
-+ * The `ProtobufCEnumDescriptor` object.
-+ * \param name
-+ * The `name` field from the corresponding `ProtobufCEnumValue` object to
-+ * match.
-+ * \return
-+ * A `ProtobufCEnumValue` object.
-+ * \retval NULL
-+ * If not found.
-+ */
-+PROTOBUF_C__API
-+const ProtobufCEnumValue *
-+protobuf_c_enum_descriptor_get_value_by_name(
-+ const ProtobufCEnumDescriptor *desc,
-+ const char *name);
-+
-+/**
-+ * Look up a `ProtobufCEnumValue` from a `ProtobufCEnumDescriptor` by numeric
-+ * value.
-+ *
-+ * \param desc
-+ * The `ProtobufCEnumDescriptor` object.
-+ * \param value
-+ * The `value` field from the corresponding `ProtobufCEnumValue` object to
-+ * match.
-+ *
-+ * \return
-+ * A `ProtobufCEnumValue` object.
-+ * \retval NULL
-+ * If not found.
-+ */
-+PROTOBUF_C__API
-+const ProtobufCEnumValue *
-+protobuf_c_enum_descriptor_get_value(
-+ const ProtobufCEnumDescriptor *desc,
-+ int value);
-+
-+/**
-+ * Look up a `ProtobufCFieldDescriptor` from a `ProtobufCMessageDescriptor` by
-+ * the name of the field.
-+ *
-+ * \param desc
-+ * The `ProtobufCMessageDescriptor` object.
-+ * \param name
-+ * The name of the field.
-+ * \return
-+ * A `ProtobufCFieldDescriptor` object.
-+ * \retval NULL
-+ * If not found.
-+ */
-+PROTOBUF_C__API
-+const ProtobufCFieldDescriptor *
-+protobuf_c_message_descriptor_get_field_by_name(
-+ const ProtobufCMessageDescriptor *desc,
-+ const char *name);
-+
-+/**
-+ * Look up a `ProtobufCFieldDescriptor` from a `ProtobufCMessageDescriptor` by
-+ * the tag value of the field.
-+ *
-+ * \param desc
-+ * The `ProtobufCMessageDescriptor` object.
-+ * \param value
-+ * The tag value of the field.
-+ * \return
-+ * A `ProtobufCFieldDescriptor` object.
-+ * \retval NULL
-+ * If not found.
-+ */
-+PROTOBUF_C__API
-+const ProtobufCFieldDescriptor *
-+protobuf_c_message_descriptor_get_field(
-+ const ProtobufCMessageDescriptor *desc,
-+ unsigned value);
-+
-+/**
-+ * Determine the number of bytes required to store the serialised message.
-+ *
-+ * \param message
-+ * The message object to serialise.
-+ * \return
-+ * Number of bytes.
-+ */
-+PROTOBUF_C__API
-+size_t
-+protobuf_c_message_get_packed_size(const ProtobufCMessage *message);
-+
-+/**
-+ * Serialise a message from its in-memory representation.
-+ *
-+ * This function stores the serialised bytes of the message in a pre-allocated
-+ * buffer.
-+ *
-+ * \param message
-+ * The message object to serialise.
-+ * \param[out] out
-+ * Buffer to store the bytes of the serialised message. This buffer must
-+ * have enough space to store the packed message. Use
-+ * protobuf_c_message_get_packed_size() to determine the number of bytes
-+ * required.
-+ * \return
-+ * Number of bytes stored in `out`.
-+ */
-+PROTOBUF_C__API
-+size_t
-+protobuf_c_message_pack(const ProtobufCMessage *message, uint8_t *out);
-+
-+/**
-+ * Serialise a message from its in-memory representation to a virtual buffer.
-+ *
-+ * This function calls the `append` method of a `ProtobufCBuffer` object to
-+ * consume the bytes generated by the serialiser.
-+ *
-+ * \param message
-+ * The message object to serialise.
-+ * \param buffer
-+ * The virtual buffer object.
-+ * \return
-+ * Number of bytes passed to the virtual buffer.
-+ */
-+PROTOBUF_C__API
-+size_t
-+protobuf_c_message_pack_to_buffer(
-+ const ProtobufCMessage *message,
-+ ProtobufCBuffer *buffer);
-+
-+/**
-+ * Unpack a serialised message into an in-memory representation.
-+ *
-+ * \param descriptor
-+ * The message descriptor.
-+ * \param allocator
-+ * `ProtobufCAllocator` to use for memory allocation. May be NULL to
-+ * specify the default allocator.
-+ * \param len
-+ * Length in bytes of the serialised message.
-+ * \param data
-+ * Pointer to the serialised message.
-+ * \return
-+ * An unpacked message object.
-+ * \retval NULL
-+ * If an error occurred during unpacking.
-+ */
-+PROTOBUF_C__API
-+ProtobufCMessage *
-+protobuf_c_message_unpack(
-+ const ProtobufCMessageDescriptor *descriptor,
-+ ProtobufCAllocator *allocator,
-+ size_t len,
-+ const uint8_t *data);
-+
-+/**
-+ * Free an unpacked message object.
-+ *
-+ * This function should be used to deallocate the memory used by a call to
-+ * protobuf_c_message_unpack().
-+ *
-+ * \param message
-+ * The message object to free.
-+ * \param allocator
-+ * `ProtobufCAllocator` to use for memory deallocation. May be NULL to
-+ * specify the default allocator.
-+ */
-+PROTOBUF_C__API
-+void
-+protobuf_c_message_free_unpacked(
-+ ProtobufCMessage *message,
-+ ProtobufCAllocator *allocator);
-+
-+/**
-+ * Check the validity of a message object.
-+ *
-+ * Makes sure all required fields (`PROTOBUF_C_LABEL_REQUIRED`) are present.
-+ * Recursively checks nested messages.
-+ *
-+ * \retval TRUE
-+ * Message is valid.
-+ * \retval FALSE
-+ * Message is invalid.
-+ */
-+PROTOBUF_C__API
-+protobuf_c_boolean
-+protobuf_c_message_check(const ProtobufCMessage *);
-+
-+/** Message initialiser. */
-+#define PROTOBUF_C_MESSAGE_INIT(descriptor) { descriptor, 0, NULL }
-+
-+/**
-+ * Initialise a message object from a message descriptor.
-+ *
-+ * \param descriptor
-+ * Message descriptor.
-+ * \param message
-+ * Allocated block of memory of size `descriptor->sizeof_message`.
-+ */
-+PROTOBUF_C__API
-+void
-+protobuf_c_message_init(
-+ const ProtobufCMessageDescriptor *descriptor,
-+ void *message);
-+
-+/**
-+ * Free a service.
-+ *
-+ * \param service
-+ * The service object to free.
-+ */
-+PROTOBUF_C__API
-+void
-+protobuf_c_service_destroy(ProtobufCService *service);
-+
-+/**
-+ * Look up a `ProtobufCMethodDescriptor` by name.
-+ *
-+ * \param desc
-+ * Service descriptor.
-+ * \param name
-+ * Name of the method.
-+ *
-+ * \return
-+ * A `ProtobufCMethodDescriptor` object.
-+ * \retval NULL
-+ * If not found.
-+ */
-+PROTOBUF_C__API
-+const ProtobufCMethodDescriptor *
-+protobuf_c_service_descriptor_get_method_by_name(
-+ const ProtobufCServiceDescriptor *desc,
-+ const char *name);
-+
-+/**
-+ * Initialise a `ProtobufCBufferSimple` object.
-+ */
-+#define PROTOBUF_C_BUFFER_SIMPLE_INIT(array_of_bytes) \
-+{ \
-+ { protobuf_c_buffer_simple_append }, \
-+ sizeof(array_of_bytes), \
-+ 0, \
-+ (array_of_bytes), \
-+ 0, \
-+ NULL \
-+}
-+
-+/**
-+ * Clear a `ProtobufCBufferSimple` object, freeing any allocated memory.
-+ */
-+#define PROTOBUF_C_BUFFER_SIMPLE_CLEAR(simp_buf) \
-+do { \
-+ if ((simp_buf)->must_free_data) { \
-+ if ((simp_buf)->allocator != NULL) \
-+ (simp_buf)->allocator->free( \
-+ (simp_buf)->allocator, \
-+ (simp_buf)->data); \
-+ else \
-+ free((simp_buf)->data); \
-+ } \
-+} while (0)
-+
-+/**
-+ * The `append` method for `ProtobufCBufferSimple`.
-+ *
-+ * \param buffer
-+ * The buffer object to append to. Must actually be a
-+ * `ProtobufCBufferSimple` object.
-+ * \param len
-+ * Number of bytes in `data`.
-+ * \param data
-+ * Data to append.
-+ */
-+PROTOBUF_C__API
-+void
-+protobuf_c_buffer_simple_append(
-+ ProtobufCBuffer *buffer,
-+ size_t len,
-+ const unsigned char *data);
-+
-+PROTOBUF_C__API
-+void
-+protobuf_c_service_generated_init(
-+ ProtobufCService *service,
-+ const ProtobufCServiceDescriptor *descriptor,
-+ ProtobufCServiceDestroy destroy);
-+
-+PROTOBUF_C__API
-+void
-+protobuf_c_service_invoke_internal(
-+ ProtobufCService *service,
-+ unsigned method_index,
-+ const ProtobufCMessage *input,
-+ ProtobufCClosure closure,
-+ void *closure_data);
-+
-+/**@}*/
-+
-+PROTOBUF_C__END_DECLS
-+
-+#endif /* PROTOBUF_C_H */
---
-2.0.0
-
git.99rst.org / openwrt-packages.git / commitdiff