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-rw-r--r--src/lib/mpack/mpack.cc6440
1 files changed, 0 insertions, 6440 deletions
diff --git a/src/lib/mpack/mpack.cc b/src/lib/mpack/mpack.cc
deleted file mode 100644
index 67e54e8..0000000
--- a/src/lib/mpack/mpack.cc
+++ /dev/null
@@ -1,6440 +0,0 @@
-/**
- * The MIT License (MIT)
- *
- * Copyright (c) 2015-2018 Nicholas Fraser
- *
- * Permission is hereby granted, free of charge, to any person obtaining a copy
- * of this software and associated documentation files (the "Software"), to deal
- * in the Software without restriction, including without limitation the rights
- * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
- * copies of the Software, and to permit persons to whom the Software is
- * furnished to do so, subject to the following conditions:
- *
- * The above copyright notice and this permission notice shall be included in all
- * copies or substantial portions of the Software.
- *
- * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
- * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
- * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
- * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
- * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
- * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
- * SOFTWARE.
- *
- */
-
-/*
- * This is the MPack 1.0 amalgamation package.
- *
- * http://github.com/ludocode/mpack
- */
-
-#define MPACK_INTERNAL 1
-#define MPACK_EMIT_INLINE_DEFS 1
-
-#include "mpack.h"
-
-
-/* mpack/mpack-platform.c.c */
-
-
-// We define MPACK_EMIT_INLINE_DEFS and include mpack.h to emit
-// standalone definitions of all (non-static) inline functions in MPack.
-
-#define MPACK_INTERNAL 1
-#define MPACK_EMIT_INLINE_DEFS 1
-
-/* #include "mpack-platform.h" */
-/* #include "mpack.h" */
-
-
-#if MPACK_DEBUG && MPACK_STDIO
-#include <stdarg.h>
-#endif
-
-
-
-#if MPACK_DEBUG
-
-#if MPACK_STDIO
-void mpack_assert_fail_format(const char* format, ...) {
- char buffer[512];
- va_list args;
- va_start(args, format);
- vsnprintf(buffer, sizeof(buffer), format, args);
- va_end(args);
- buffer[sizeof(buffer) - 1] = 0;
- mpack_assert_fail_wrapper(buffer);
-}
-
-void mpack_break_hit_format(const char* format, ...) {
- char buffer[512];
- va_list args;
- va_start(args, format);
- vsnprintf(buffer, sizeof(buffer), format, args);
- va_end(args);
- buffer[sizeof(buffer) - 1] = 0;
- mpack_break_hit(buffer);
-}
-#endif
-
-#if !MPACK_CUSTOM_ASSERT
-void mpack_assert_fail(const char* message) {
- MPACK_UNUSED(message);
-
- #if MPACK_STDIO
- fprintf(stderr, "%s\n", message);
- #endif
-}
-#endif
-
-// We split the assert failure from the wrapper so that a
-// custom assert function can return.
-void mpack_assert_fail_wrapper(const char* message) {
-
- #ifdef MPACK_GCOV
- // gcov marks even __builtin_unreachable() as an uncovered line. this
- // silences it.
- (mpack_assert_fail(message), __builtin_unreachable());
-
- #else
- mpack_assert_fail(message);
-
- // mpack_assert_fail() is not supposed to return. in case it does, we
- // abort.
-
- #if !MPACK_NO_BUILTINS
- #if defined(__GNUC__) || defined(__clang__)
- __builtin_trap();
- #elif defined(WIN32)
- __debugbreak();
- #endif
- #endif
-
- #if (defined(__GNUC__) || defined(__clang__)) && !MPACK_NO_BUILTINS
- __builtin_abort();
- #elif MPACK_STDLIB
- abort();
- #endif
-
- MPACK_UNREACHABLE;
- #endif
-}
-
-#if !MPACK_CUSTOM_BREAK
-
-// If we have a custom assert handler, break wraps it by default.
-// This allows users of MPack to only implement mpack_assert_fail() without
-// having to worry about the difference between assert and break.
-//
-// MPACK_CUSTOM_BREAK is available to define a separate break handler
-// (which is needed by the unit test suite), but this is not offered in
-// mpack-config.h for simplicity.
-
-#if MPACK_CUSTOM_ASSERT
-void mpack_break_hit(const char* message) {
- mpack_assert_fail_wrapper(message);
-}
-#else
-void mpack_break_hit(const char* message) {
- MPACK_UNUSED(message);
-
- #if MPACK_STDIO
- fprintf(stderr, "%s\n", message);
- #endif
-
- #if defined(__GNUC__) || defined(__clang__) && !MPACK_NO_BUILTINS
- __builtin_trap();
- #elif defined(WIN32) && !MPACK_NO_BUILTINS
- __debugbreak();
- #elif MPACK_STDLIB
- abort();
- #endif
-}
-#endif
-
-#endif
-
-#endif
-
-
-
-// The below are adapted from the C wikibook:
-// https://en.wikibooks.org/wiki/C_Programming/Strings
-
-#ifndef mpack_memcmp
-int mpack_memcmp(const void* s1, const void* s2, size_t n) {
- const unsigned char *us1 = (const unsigned char *) s1;
- const unsigned char *us2 = (const unsigned char *) s2;
- while (n-- != 0) {
- if (*us1 != *us2)
- return (*us1 < *us2) ? -1 : +1;
- us1++;
- us2++;
- }
- return 0;
-}
-#endif
-
-#ifndef mpack_memcpy
-void* mpack_memcpy(void* MPACK_RESTRICT s1, const void* MPACK_RESTRICT s2, size_t n) {
- char* MPACK_RESTRICT dst = (char *)s1;
- const char* MPACK_RESTRICT src = (const char *)s2;
- while (n-- != 0)
- *dst++ = *src++;
- return s1;
-}
-#endif
-
-#ifndef mpack_memmove
-void* mpack_memmove(void* s1, const void* s2, size_t n) {
- char *p1 = (char *)s1;
- const char *p2 = (const char *)s2;
- if (p2 < p1 && p1 < p2 + n) {
- p2 += n;
- p1 += n;
- while (n-- != 0)
- *--p1 = *--p2;
- } else
- while (n-- != 0)
- *p1++ = *p2++;
- return s1;
-}
-#endif
-
-#ifndef mpack_memset
-void* mpack_memset(void* s, int c, size_t n) {
- unsigned char *us = (unsigned char *)s;
- unsigned char uc = (unsigned char)c;
- while (n-- != 0)
- *us++ = uc;
- return s;
-}
-#endif
-
-#ifndef mpack_strlen
-size_t mpack_strlen(const char* s) {
- const char* p = s;
- while (*p != '\0')
- p++;
- return (size_t)(p - s);
-}
-#endif
-
-
-
-#if defined(MPACK_MALLOC) && !defined(MPACK_REALLOC)
-void* mpack_realloc(void* old_ptr, size_t used_size, size_t new_size) {
- if (new_size == 0) {
- if (old_ptr)
- MPACK_FREE(old_ptr);
- return NULL;
- }
-
- void* new_ptr = MPACK_MALLOC(new_size);
- if (new_ptr == NULL)
- return NULL;
-
- mpack_memcpy(new_ptr, old_ptr, used_size);
- MPACK_FREE(old_ptr);
- return new_ptr;
-}
-#endif
-
-/* mpack/mpack-common.c.c */
-
-#define MPACK_INTERNAL 1
-
-/* #include "mpack-common.h" */
-
-#if MPACK_DEBUG && MPACK_STDIO
-#include <stdarg.h>
-#endif
-
-const char* mpack_error_to_string(mpack_error_t error) {
- #if MPACK_STRINGS
- switch (error) {
- #define MPACK_ERROR_STRING_CASE(e) case e: return #e
- MPACK_ERROR_STRING_CASE(mpack_ok);
- MPACK_ERROR_STRING_CASE(mpack_error_io);
- MPACK_ERROR_STRING_CASE(mpack_error_invalid);
- MPACK_ERROR_STRING_CASE(mpack_error_unsupported);
- MPACK_ERROR_STRING_CASE(mpack_error_type);
- MPACK_ERROR_STRING_CASE(mpack_error_too_big);
- MPACK_ERROR_STRING_CASE(mpack_error_memory);
- MPACK_ERROR_STRING_CASE(mpack_error_bug);
- MPACK_ERROR_STRING_CASE(mpack_error_data);
- MPACK_ERROR_STRING_CASE(mpack_error_eof);
- #undef MPACK_ERROR_STRING_CASE
- }
- mpack_assert(0, "unrecognized error %i", (int)error);
- return "(unknown mpack_error_t)";
- #else
- MPACK_UNUSED(error);
- return "";
- #endif
-}
-
-const char* mpack_type_to_string(mpack_type_t type) {
- #if MPACK_STRINGS
- switch (type) {
- #define MPACK_TYPE_STRING_CASE(e) case e: return #e
- MPACK_TYPE_STRING_CASE(mpack_type_missing);
- MPACK_TYPE_STRING_CASE(mpack_type_nil);
- MPACK_TYPE_STRING_CASE(mpack_type_bool);
- MPACK_TYPE_STRING_CASE(mpack_type_float);
- MPACK_TYPE_STRING_CASE(mpack_type_double);
- MPACK_TYPE_STRING_CASE(mpack_type_int);
- MPACK_TYPE_STRING_CASE(mpack_type_uint);
- MPACK_TYPE_STRING_CASE(mpack_type_str);
- MPACK_TYPE_STRING_CASE(mpack_type_bin);
- MPACK_TYPE_STRING_CASE(mpack_type_array);
- MPACK_TYPE_STRING_CASE(mpack_type_map);
- #if MPACK_EXTENSIONS
- MPACK_TYPE_STRING_CASE(mpack_type_ext);
- #endif
- #undef MPACK_TYPE_STRING_CASE
- }
- mpack_assert(0, "unrecognized type %i", (int)type);
- return "(unknown mpack_type_t)";
- #else
- MPACK_UNUSED(type);
- return "";
- #endif
-}
-
-int mpack_tag_cmp(mpack_tag_t left, mpack_tag_t right) {
-
- // positive numbers may be stored as int; convert to uint
- if (left.type == mpack_type_int && left.v.i >= 0) {
- left.type = mpack_type_uint;
- left.v.u = (uint64_t)left.v.i;
- }
- if (right.type == mpack_type_int && right.v.i >= 0) {
- right.type = mpack_type_uint;
- right.v.u = (uint64_t)right.v.i;
- }
-
- if (left.type != right.type)
- return ((int)left.type < (int)right.type) ? -1 : 1;
-
- switch (left.type) {
- case mpack_type_missing: // fallthrough
- case mpack_type_nil:
- return 0;
-
- case mpack_type_bool:
- return (int)left.v.b - (int)right.v.b;
-
- case mpack_type_int:
- if (left.v.i == right.v.i)
- return 0;
- return (left.v.i < right.v.i) ? -1 : 1;
-
- case mpack_type_uint:
- if (left.v.u == right.v.u)
- return 0;
- return (left.v.u < right.v.u) ? -1 : 1;
-
- case mpack_type_array:
- case mpack_type_map:
- if (left.v.n == right.v.n)
- return 0;
- return (left.v.n < right.v.n) ? -1 : 1;
-
- case mpack_type_str:
- case mpack_type_bin:
- if (left.v.l == right.v.l)
- return 0;
- return (left.v.l < right.v.l) ? -1 : 1;
-
- #if MPACK_EXTENSIONS
- case mpack_type_ext:
- if (left.exttype == right.exttype) {
- if (left.v.l == right.v.l)
- return 0;
- return (left.v.l < right.v.l) ? -1 : 1;
- }
- return (int)left.exttype - (int)right.exttype;
- #endif
-
- // floats should not normally be compared for equality. we compare
- // with memcmp() to silence compiler warnings, but this will return
- // equal if both are NaNs with the same representation (though we may
- // want this, for instance if you are for some bizarre reason using
- // floats as map keys.) i'm not sure what the right thing to
- // do is here. check for NaN first? always return false if the type
- // is float? use operator== and pragmas to silence compiler warning?
- // please send me your suggestions.
- // note also that we don't convert floats to doubles, so when this is
- // used for ordering purposes, all floats are ordered before all
- // doubles.
- case mpack_type_float:
- return mpack_memcmp(&left.v.f, &right.v.f, sizeof(left.v.f));
- case mpack_type_double:
- return mpack_memcmp(&left.v.d, &right.v.d, sizeof(left.v.d));
- }
-
- mpack_assert(0, "unrecognized type %i", (int)left.type);
- return false;
-}
-
-#if MPACK_DEBUG && MPACK_STDIO
-static char mpack_hex_char(uint8_t hex_value) {
- return (hex_value < 10) ? (char)('0' + hex_value) : (char)('a' + (hex_value - 10));
-}
-
-static void mpack_tag_debug_complete_bin_ext(mpack_tag_t tag, size_t string_length, char* buffer, size_t buffer_size,
- const char* prefix, size_t prefix_size)
-{
- // If at any point in this function we run out of space in the buffer, we
- // bail out. The outer tag print wrapper will make sure we have a
- // null-terminator.
-
- if (string_length == 0 || string_length >= buffer_size)
- return;
- buffer += string_length;
- buffer_size -= string_length;
-
- size_t total = mpack_tag_bytes(&tag);
- if (total == 0) {
- strncpy(buffer, ">", buffer_size);
- return;
- }
-
- strncpy(buffer, ": ", buffer_size);
- if (buffer_size < 2)
- return;
- buffer += 2;
- buffer_size -= 2;
-
- size_t hex_bytes = 0;
- for (size_t i = 0; i < MPACK_PRINT_BYTE_COUNT && i < prefix_size && buffer_size > 2; ++i) {
- uint8_t byte = (uint8_t)prefix[i];
- buffer[0] = mpack_hex_char((uint8_t)(byte >> 4));
- buffer[1] = mpack_hex_char((uint8_t)(byte & 0xfu));
- buffer += 2;
- buffer_size -= 2;
- ++hex_bytes;
- }
-
- if (buffer_size != 0)
- mpack_snprintf(buffer, buffer_size, "%s>", (total > hex_bytes) ? "..." : "");
-}
-
-static void mpack_tag_debug_pseudo_json_bin(mpack_tag_t tag, char* buffer, size_t buffer_size,
- const char* prefix, size_t prefix_size)
-{
- mpack_assert(mpack_tag_type(&tag) == mpack_type_bin);
- size_t length = (size_t)mpack_snprintf(buffer, buffer_size, "<binary data of length %u", tag.v.l);
- mpack_tag_debug_complete_bin_ext(tag, length, buffer, buffer_size, prefix, prefix_size);
-}
-
-#if MPACK_EXTENSIONS
-static void mpack_tag_debug_pseudo_json_ext(mpack_tag_t tag, char* buffer, size_t buffer_size,
- const char* prefix, size_t prefix_size)
-{
- mpack_assert(mpack_tag_type(&tag) == mpack_type_ext);
- size_t length = (size_t)mpack_snprintf(buffer, buffer_size, "<ext data of type %i and length %u",
- mpack_tag_ext_exttype(&tag), mpack_tag_ext_length(&tag));
- mpack_tag_debug_complete_bin_ext(tag, length, buffer, buffer_size, prefix, prefix_size);
-}
-#endif
-
-static void mpack_tag_debug_pseudo_json_impl(mpack_tag_t tag, char* buffer, size_t buffer_size,
- const char* prefix, size_t prefix_size)
-{
- switch (tag.type) {
- case mpack_type_missing:
- mpack_snprintf(buffer, buffer_size, "<missing!>");
- return;
- case mpack_type_nil:
- mpack_snprintf(buffer, buffer_size, "null");
- return;
- case mpack_type_bool:
- mpack_snprintf(buffer, buffer_size, tag.v.b ? "true" : "false");
- return;
- case mpack_type_int:
- mpack_snprintf(buffer, buffer_size, "%" PRIi64, tag.v.i);
- return;
- case mpack_type_uint:
- mpack_snprintf(buffer, buffer_size, "%" PRIu64, tag.v.u);
- return;
- case mpack_type_float:
- mpack_snprintf(buffer, buffer_size, "%f", tag.v.f);
- return;
- case mpack_type_double:
- mpack_snprintf(buffer, buffer_size, "%f", tag.v.d);
- return;
-
- case mpack_type_str:
- mpack_snprintf(buffer, buffer_size, "<string of %u bytes>", tag.v.l);
- return;
- case mpack_type_bin:
- mpack_tag_debug_pseudo_json_bin(tag, buffer, buffer_size, prefix, prefix_size);
- return;
- #if MPACK_EXTENSIONS
- case mpack_type_ext:
- mpack_tag_debug_pseudo_json_ext(tag, buffer, buffer_size, prefix, prefix_size);
- return;
- #endif
-
- case mpack_type_array:
- mpack_snprintf(buffer, buffer_size, "<array of %u elements>", tag.v.n);
- return;
- case mpack_type_map:
- mpack_snprintf(buffer, buffer_size, "<map of %u key-value pairs>", tag.v.n);
- return;
- }
-
- mpack_snprintf(buffer, buffer_size, "<unknown!>");
-}
-
-void mpack_tag_debug_pseudo_json(mpack_tag_t tag, char* buffer, size_t buffer_size,
- const char* prefix, size_t prefix_size)
-{
- mpack_assert(buffer_size > 0, "buffer size cannot be zero!");
- buffer[0] = 0;
-
- mpack_tag_debug_pseudo_json_impl(tag, buffer, buffer_size, prefix, prefix_size);
-
- // We always null-terminate the buffer manually just in case the snprintf()
- // function doesn't null-terminate when the string doesn't fit.
- buffer[buffer_size - 1] = 0;
-}
-
-static void mpack_tag_debug_describe_impl(mpack_tag_t tag, char* buffer, size_t buffer_size) {
- switch (tag.type) {
- case mpack_type_missing:
- mpack_snprintf(buffer, buffer_size, "missing");
- return;
- case mpack_type_nil:
- mpack_snprintf(buffer, buffer_size, "nil");
- return;
- case mpack_type_bool:
- mpack_snprintf(buffer, buffer_size, tag.v.b ? "true" : "false");
- return;
- case mpack_type_int:
- mpack_snprintf(buffer, buffer_size, "int %" PRIi64, tag.v.i);
- return;
- case mpack_type_uint:
- mpack_snprintf(buffer, buffer_size, "uint %" PRIu64, tag.v.u);
- return;
- case mpack_type_float:
- mpack_snprintf(buffer, buffer_size, "float %f", tag.v.f);
- return;
- case mpack_type_double:
- mpack_snprintf(buffer, buffer_size, "double %f", tag.v.d);
- return;
- case mpack_type_str:
- mpack_snprintf(buffer, buffer_size, "str of %u bytes", tag.v.l);
- return;
- case mpack_type_bin:
- mpack_snprintf(buffer, buffer_size, "bin of %u bytes", tag.v.l);
- return;
- #if MPACK_EXTENSIONS
- case mpack_type_ext:
- mpack_snprintf(buffer, buffer_size, "ext of type %i, %u bytes",
- mpack_tag_ext_exttype(&tag), mpack_tag_ext_length(&tag));
- return;
- #endif
- case mpack_type_array:
- mpack_snprintf(buffer, buffer_size, "array of %u elements", tag.v.n);
- return;
- case mpack_type_map:
- mpack_snprintf(buffer, buffer_size, "map of %u key-value pairs", tag.v.n);
- return;
- }
-
- mpack_snprintf(buffer, buffer_size, "unknown!");
-}
-
-void mpack_tag_debug_describe(mpack_tag_t tag, char* buffer, size_t buffer_size) {
- mpack_assert(buffer_size > 0, "buffer size cannot be zero!");
- buffer[0] = 0;
-
- mpack_tag_debug_describe_impl(tag, buffer, buffer_size);
-
- // We always null-terminate the buffer manually just in case the snprintf()
- // function doesn't null-terminate when the string doesn't fit.
- buffer[buffer_size - 1] = 0;
-}
-#endif
-
-
-
-#if MPACK_READ_TRACKING || MPACK_WRITE_TRACKING
-
-#ifndef MPACK_TRACKING_INITIAL_CAPACITY
-// seems like a reasonable number. we grow by doubling, and it only
-// needs to be as long as the maximum depth of the message.
-#define MPACK_TRACKING_INITIAL_CAPACITY 8
-#endif
-
-mpack_error_t mpack_track_init(mpack_track_t* track) {
- track->count = 0;
- track->capacity = MPACK_TRACKING_INITIAL_CAPACITY;
- track->elements = (mpack_track_element_t*)MPACK_MALLOC(sizeof(mpack_track_element_t) * track->capacity);
- if (track->elements == NULL)
- return mpack_error_memory;
- return mpack_ok;
-}
-
-mpack_error_t mpack_track_grow(mpack_track_t* track) {
- mpack_assert(track->elements, "null track elements!");
- mpack_assert(track->count == track->capacity, "incorrect growing?");
-
- size_t new_capacity = track->capacity * 2;
-
- mpack_track_element_t* new_elements = (mpack_track_element_t*)mpack_realloc(track->elements,
- sizeof(mpack_track_element_t) * track->count, sizeof(mpack_track_element_t) * new_capacity);
- if (new_elements == NULL)
- return mpack_error_memory;
-
- track->elements = new_elements;
- track->capacity = new_capacity;
- return mpack_ok;
-}
-
-mpack_error_t mpack_track_push(mpack_track_t* track, mpack_type_t type, uint64_t count) {
- mpack_assert(track->elements, "null track elements!");
- mpack_log("track pushing %s count %i\n", mpack_type_to_string(type), (int)count);
-
- // maps have twice the number of elements (key/value pairs)
- if (type == mpack_type_map)
- count *= 2;
-
- // grow if needed
- if (track->count == track->capacity) {
- mpack_error_t error = mpack_track_grow(track);
- if (error != mpack_ok)
- return error;
- }
-
- // insert new track
- track->elements[track->count].type = type;
- track->elements[track->count].left = count;
- ++track->count;
- return mpack_ok;
-}
-
-mpack_error_t mpack_track_pop(mpack_track_t* track, mpack_type_t type) {
- mpack_assert(track->elements, "null track elements!");
- mpack_log("track popping %s\n", mpack_type_to_string(type));
-
- if (track->count == 0) {
- mpack_break("attempting to close a %s but nothing was opened!", mpack_type_to_string(type));
- return mpack_error_bug;
- }
-
- mpack_track_element_t* element = &track->elements[track->count - 1];
-
- if (element->type != type) {
- mpack_break("attempting to close a %s but the open element is a %s!",
- mpack_type_to_string(type), mpack_type_to_string(element->type));
- return mpack_error_bug;
- }
-
- if (element->left != 0) {
- mpack_break("attempting to close a %s but there are %" PRIu64 " %s left",
- mpack_type_to_string(type), element->left,
- (type == mpack_type_map || type == mpack_type_array) ? "elements" : "bytes");
- return mpack_error_bug;
- }
-
- --track->count;
- return mpack_ok;
-}
-
-mpack_error_t mpack_track_peek_element(mpack_track_t* track, bool read) {
- MPACK_UNUSED(read);
- mpack_assert(track->elements, "null track elements!");
-
- // if there are no open elements, that's fine, we can read/write elements at will
- if (track->count == 0)
- return mpack_ok;
-
- mpack_track_element_t* element = &track->elements[track->count - 1];
-
- if (element->type != mpack_type_map && element->type != mpack_type_array) {
- mpack_break("elements cannot be %s within an %s", read ? "read" : "written",
- mpack_type_to_string(element->type));
- return mpack_error_bug;
- }
-
- if (element->left == 0) {
- mpack_break("too many elements %s for %s", read ? "read" : "written",
- mpack_type_to_string(element->type));
- return mpack_error_bug;
- }
-
- return mpack_ok;
-}
-
-mpack_error_t mpack_track_element(mpack_track_t* track, bool read) {
- mpack_error_t error = mpack_track_peek_element(track, read);
- if (track->count > 0 && error == mpack_ok)
- --track->elements[track->count - 1].left;
- return error;
-}
-
-mpack_error_t mpack_track_bytes(mpack_track_t* track, bool read, uint64_t count) {
- MPACK_UNUSED(read);
- mpack_assert(track->elements, "null track elements!");
-
- if (track->count == 0) {
- mpack_break("bytes cannot be %s with no open bin, str or ext", read ? "read" : "written");
- return mpack_error_bug;
- }
-
- mpack_track_element_t* element = &track->elements[track->count - 1];
-
- if (element->type == mpack_type_map || element->type == mpack_type_array) {
- mpack_break("bytes cannot be %s within an %s", read ? "read" : "written",
- mpack_type_to_string(element->type));
- return mpack_error_bug;
- }
-
- if (element->left < count) {
- mpack_break("too many bytes %s for %s", read ? "read" : "written",
- mpack_type_to_string(element->type));
- return mpack_error_bug;
- }
-
- element->left -= count;
- return mpack_ok;
-}
-
-mpack_error_t mpack_track_str_bytes_all(mpack_track_t* track, bool read, uint64_t count) {
- mpack_error_t error = mpack_track_bytes(track, read, count);
- if (error != mpack_ok)
- return error;
-
- mpack_track_element_t* element = &track->elements[track->count - 1];
-
- if (element->type != mpack_type_str) {
- mpack_break("the open type must be a string, not a %s", mpack_type_to_string(element->type));
- return mpack_error_bug;
- }
-
- if (element->left != 0) {
- mpack_break("not all bytes were read; the wrong byte count was requested for a string read.");
- return mpack_error_bug;
- }
-
- return mpack_ok;
-}
-
-mpack_error_t mpack_track_check_empty(mpack_track_t* track) {
- if (track->count != 0) {
- mpack_break("unclosed %s", mpack_type_to_string(track->elements[0].type));
- return mpack_error_bug;
- }
- return mpack_ok;
-}
-
-mpack_error_t mpack_track_destroy(mpack_track_t* track, bool cancel) {
- mpack_error_t error = cancel ? mpack_ok : mpack_track_check_empty(track);
- if (track->elements) {
- MPACK_FREE(track->elements);
- track->elements = NULL;
- }
- return error;
-}
-#endif
-
-
-
-static bool mpack_utf8_check_impl(const uint8_t* str, size_t count, bool allow_null) {
- while (count > 0) {
- uint8_t lead = str[0];
-
- // NUL
- if (!allow_null && lead == '\0') // we don't allow NUL bytes in MPack C-strings
- return false;
-
- // ASCII
- if (lead <= 0x7F) {
- ++str;
- --count;
-
- // 2-byte sequence
- } else if ((lead & 0xE0) == 0xC0) {
- if (count < 2) // truncated sequence
- return false;
-
- uint8_t cont = str[1];
- if ((cont & 0xC0) != 0x80) // not a continuation byte
- return false;
-
- str += 2;
- count -= 2;
-
- uint32_t z = ((uint32_t)(lead & ~0xE0) << 6) |
- (uint32_t)(cont & ~0xC0);
-
- if (z < 0x80) // overlong sequence
- return false;
-
- // 3-byte sequence
- } else if ((lead & 0xF0) == 0xE0) {
- if (count < 3) // truncated sequence
- return false;
-
- uint8_t cont1 = str[1];
- if ((cont1 & 0xC0) != 0x80) // not a continuation byte
- return false;
- uint8_t cont2 = str[2];
- if ((cont2 & 0xC0) != 0x80) // not a continuation byte
- return false;
-
- str += 3;
- count -= 3;
-
- uint32_t z = ((uint32_t)(lead & ~0xF0) << 12) |
- ((uint32_t)(cont1 & ~0xC0) << 6) |
- (uint32_t)(cont2 & ~0xC0);
-
- if (z < 0x800) // overlong sequence
- return false;
- if (z >= 0xD800 && z <= 0xDFFF) // surrogate
- return false;
-
- // 4-byte sequence
- } else if ((lead & 0xF8) == 0xF0) {
- if (count < 4) // truncated sequence
- return false;
-
- uint8_t cont1 = str[1];
- if ((cont1 & 0xC0) != 0x80) // not a continuation byte
- return false;
- uint8_t cont2 = str[2];
- if ((cont2 & 0xC0) != 0x80) // not a continuation byte
- return false;
- uint8_t cont3 = str[3];
- if ((cont3 & 0xC0) != 0x80) // not a continuation byte
- return false;
-
- str += 4;
- count -= 4;
-
- uint32_t z = ((uint32_t)(lead & ~0xF8) << 18) |
- ((uint32_t)(cont1 & ~0xC0) << 12) |
- ((uint32_t)(cont2 & ~0xC0) << 6) |
- (uint32_t)(cont3 & ~0xC0);
-
- if (z < 0x10000) // overlong sequence
- return false;
- if (z > 0x10FFFF) // codepoint limit
- return false;
-
- } else {
- return false; // continuation byte without a lead, or lead for a 5-byte sequence or longer
- }
- }
- return true;
-}
-
-bool mpack_utf8_check(const char* str, size_t bytes) {
- return mpack_utf8_check_impl((const uint8_t*)str, bytes, true);
-}
-
-bool mpack_utf8_check_no_null(const char* str, size_t bytes) {
- return mpack_utf8_check_impl((const uint8_t*)str, bytes, false);
-}
-
-bool mpack_str_check_no_null(const char* str, size_t bytes) {
- for (size_t i = 0; i < bytes; ++i)
- if (str[i] == '\0')
- return false;
- return true;
-}
-
-#if MPACK_DEBUG && MPACK_STDIO
-void mpack_print_append(mpack_print_t* print, const char* data, size_t count) {
-
- // copy whatever fits into the buffer
- size_t copy = print->size - print->count;
- if (copy > count)
- copy = count;
- mpack_memcpy(print->buffer + print->count, data, copy);
- print->count += copy;
- data += copy;
- count -= copy;
-
- // if we don't need to flush or can't flush there's nothing else to do
- if (count == 0 || print->callback == NULL)
- return;
-
- // flush the buffer
- print->callback(print->context, print->buffer, print->count);
-
- if (count > print->size / 2) {
- // flush the rest of the data
- print->count = 0;
- print->callback(print->context, data, count);
- } else {
- // copy the rest of the data into the buffer
- mpack_memcpy(print->buffer, data, count);
- print->count = count;
- }
-
-}
-
-void mpack_print_flush(mpack_print_t* print) {
- if (print->count > 0 && print->callback != NULL) {
- print->callback(print->context, print->buffer, print->count);
- print->count = 0;
- }
-}
-
-void mpack_print_file_callback(void* context, const char* data, size_t count) {
- FILE* file = (FILE*)context;
- fwrite(data, 1, count, file);
-}
-#endif
-
-/* mpack/mpack-writer.c.c */
-
-#define MPACK_INTERNAL 1
-
-/* #include "mpack-writer.h" */
-
-#if MPACK_WRITER
-
-#if MPACK_WRITE_TRACKING
-static void mpack_writer_flag_if_error(mpack_writer_t* writer, mpack_error_t error) {
- if (error != mpack_ok)
- mpack_writer_flag_error(writer, error);
-}
-
-void mpack_writer_track_push(mpack_writer_t* writer, mpack_type_t type, uint64_t count) {
- if (writer->error == mpack_ok)
- mpack_writer_flag_if_error(writer, mpack_track_push(&writer->track, type, count));
-}
-
-void mpack_writer_track_pop(mpack_writer_t* writer, mpack_type_t type) {
- if (writer->error == mpack_ok)
- mpack_writer_flag_if_error(writer, mpack_track_pop(&writer->track, type));
-}
-
-void mpack_writer_track_element(mpack_writer_t* writer) {
- if (writer->error == mpack_ok)
- mpack_writer_flag_if_error(writer, mpack_track_element(&writer->track, false));
-}
-
-void mpack_writer_track_bytes(mpack_writer_t* writer, size_t count) {
- if (writer->error == mpack_ok)
- mpack_writer_flag_if_error(writer, mpack_track_bytes(&writer->track, false, count));
-}
-#endif
-
-static void mpack_writer_clear(mpack_writer_t* writer) {
- #if MPACK_COMPATIBILITY
- writer->version = mpack_version_current;
- #endif
- writer->flush = NULL;
- writer->error_fn = NULL;
- writer->teardown = NULL;
- writer->context = NULL;
-
- writer->buffer = NULL;
- writer->current = NULL;
- writer->end = NULL;
- writer->error = mpack_ok;
-
- #if MPACK_WRITE_TRACKING
- mpack_memset(&writer->track, 0, sizeof(writer->track));
- #endif
-}
-
-void mpack_writer_init(mpack_writer_t* writer, char* buffer, size_t size) {
- mpack_assert(buffer != NULL, "cannot initialize writer with empty buffer");
- mpack_writer_clear(writer);
- writer->buffer = buffer;
- writer->current = buffer;
- writer->end = writer->buffer + size;
-
- #if MPACK_WRITE_TRACKING
- mpack_writer_flag_if_error(writer, mpack_track_init(&writer->track));
- #endif
-
- mpack_log("===========================\n");
- mpack_log("initializing writer with buffer size %i\n", (int)size);
-}
-
-void mpack_writer_init_error(mpack_writer_t* writer, mpack_error_t error) {
- mpack_writer_clear(writer);
- writer->error = error;
-
- mpack_log("===========================\n");
- mpack_log("initializing writer in error state %i\n", (int)error);
-}
-
-void mpack_writer_set_flush(mpack_writer_t* writer, mpack_writer_flush_t flush) {
- MPACK_STATIC_ASSERT(MPACK_WRITER_MINIMUM_BUFFER_SIZE >= MPACK_MAXIMUM_TAG_SIZE,
- "minimum buffer size must fit any tag!");
- MPACK_STATIC_ASSERT(31 + MPACK_TAG_SIZE_FIXSTR >= MPACK_WRITER_MINIMUM_BUFFER_SIZE,
- "minimum buffer size must fit the largest possible fixstr!");
-
- if (mpack_writer_buffer_size(writer) < MPACK_WRITER_MINIMUM_BUFFER_SIZE) {
- mpack_break("buffer size is %i, but minimum buffer size for flush is %i",
- (int)mpack_writer_buffer_size(writer), MPACK_WRITER_MINIMUM_BUFFER_SIZE);
- mpack_writer_flag_error(writer, mpack_error_bug);
- return;
- }
-
- writer->flush = flush;
-}
-
-#ifdef MPACK_MALLOC
-typedef struct mpack_growable_writer_t {
- char** target_data;
- size_t* target_size;
-} mpack_growable_writer_t;
-
-static char* mpack_writer_get_reserved(mpack_writer_t* writer) {
- // This is in a separate function in order to avoid false strict aliasing
- // warnings. We aren't actually violating strict aliasing (the reserved
- // space is only ever dereferenced as an mpack_growable_writer_t.)
- return (char*)writer->reserved;
-}
-
-static void mpack_growable_writer_flush(mpack_writer_t* writer, const char* data, size_t count) {
-
- // This is an intrusive flush function which modifies the writer's buffer
- // in response to a flush instead of emptying it in order to add more
- // capacity for data. This removes the need to copy data from a fixed buffer
- // into a growable one, improving performance.
- //
- // There are three ways flush can be called:
- // - flushing the buffer during writing (used is zero, count is all data, data is buffer)
- // - flushing extra data during writing (used is all flushed data, count is extra data, data is not buffer)
- // - flushing during teardown (used and count are both all flushed data, data is buffer)
- //
- // In the first two cases, we grow the buffer by at least double, enough
- // to ensure that new data will fit. We ignore the teardown flush.
-
- if (data == writer->buffer) {
-
- // teardown, do nothing
- if (mpack_writer_buffer_used(writer) == count)
- return;
-
- // otherwise leave the data in the buffer and just grow
- writer->current = writer->buffer + count;
- count = 0;
- }
-
- size_t used = mpack_writer_buffer_used(writer);
- size_t size = mpack_writer_buffer_size(writer);
-
- mpack_log("flush size %i used %i data %p buffer %p\n",
- (int)count, (int)used, data, writer->buffer);
-
- mpack_assert(data == writer->buffer || used + count > size,
- "extra flush for %i but there is %i space left in the buffer! (%i/%i)",
- (int)count, (int)mpack_writer_buffer_left(writer), (int)used, (int)size);
-
- // grow to fit the data
- // TODO: this really needs to correctly test for overflow
- size_t new_size = size * 2;
- while (new_size < used + count)
- new_size *= 2;
-
- mpack_log("flush growing buffer size from %i to %i\n", (int)size, (int)new_size);
-
- // grow the buffer
- char* new_buffer = (char*)mpack_realloc(writer->buffer, used, new_size);
- if (new_buffer == NULL) {
- mpack_writer_flag_error(writer, mpack_error_memory);
- return;
- }
- writer->current = new_buffer + used;
- writer->buffer = new_buffer;
- writer->end = writer->buffer + new_size;
-
- // append the extra data
- if (count > 0) {
- mpack_memcpy(writer->current, data, count);
- writer->current += count;
- }
-
- mpack_log("new buffer %p, used %i\n", new_buffer, (int)mpack_writer_buffer_used(writer));
-}
-
-static void mpack_growable_writer_teardown(mpack_writer_t* writer) {
- mpack_growable_writer_t* growable_writer = (mpack_growable_writer_t*)mpack_writer_get_reserved(writer);
-
- if (mpack_writer_error(writer) == mpack_ok) {
-
- // shrink the buffer to an appropriate size if the data is
- // much smaller than the buffer
- if (mpack_writer_buffer_used(writer) < mpack_writer_buffer_size(writer) / 2) {
- size_t used = mpack_writer_buffer_used(writer);
-
- // We always return a non-null pointer that must be freed, even if
- // nothing was written. malloc() and realloc() do not necessarily
- // do this so we enforce it ourselves.
- size_t size = (used != 0) ? used : 1;
-
- char* buffer = (char*)mpack_realloc(writer->buffer, used, size);
- if (!buffer) {
- MPACK_FREE(writer->buffer);
- mpack_writer_flag_error(writer, mpack_error_memory);
- return;
- }
- writer->buffer = buffer;
- writer->end = (writer->current = writer->buffer + used);
- }
-
- *growable_writer->target_data = writer->buffer;
- *growable_writer->target_size = mpack_writer_buffer_used(writer);
- writer->buffer = NULL;
-
- } else if (writer->buffer) {
- MPACK_FREE(writer->buffer);
- writer->buffer = NULL;
- }
-
- writer->context = NULL;
-}
-
-void mpack_writer_init_growable(mpack_writer_t* writer, char** target_data, size_t* target_size) {
- mpack_assert(target_data != NULL, "cannot initialize writer without a destination for the data");
- mpack_assert(target_size != NULL, "cannot initialize writer without a destination for the size");
-
- *target_data = NULL;
- *target_size = 0;
-
- MPACK_STATIC_ASSERT(sizeof(mpack_growable_writer_t) <= sizeof(writer->reserved),
- "not enough reserved space for growable writer!");
- mpack_growable_writer_t* growable_writer = (mpack_growable_writer_t*)mpack_writer_get_reserved(writer);
-
- growable_writer->target_data = target_data;
- growable_writer->target_size = target_size;
-
- size_t capacity = MPACK_BUFFER_SIZE;
- char* buffer = (char*)MPACK_MALLOC(capacity);
- if (buffer == NULL) {
- mpack_writer_init_error(writer, mpack_error_memory);
- return;
- }
-
- mpack_writer_init(writer, buffer, capacity);
- mpack_writer_set_flush(writer, mpack_growable_writer_flush);
- mpack_writer_set_teardown(writer, mpack_growable_writer_teardown);
-}
-#endif
-
-#if MPACK_STDIO
-static void mpack_file_writer_flush(mpack_writer_t* writer, const char* buffer, size_t count) {
- FILE* file = (FILE*)writer->context;
- size_t written = fwrite((const void*)buffer, 1, count, file);
- if (written != count)
- mpack_writer_flag_error(writer, mpack_error_io);
-}
-
-static void mpack_file_writer_teardown(mpack_writer_t* writer) {
- MPACK_FREE(writer->buffer);
- writer->buffer = NULL;
- writer->context = NULL;
-}
-
-static void mpack_file_writer_teardown_close(mpack_writer_t* writer) {
- FILE* file = (FILE*)writer->context;
-
- if (file) {
- int ret = fclose(file);
- if (ret != 0)
- mpack_writer_flag_error(writer, mpack_error_io);
- }
-
- mpack_file_writer_teardown(writer);
-}
-
-void mpack_writer_init_stdfile(mpack_writer_t* writer, FILE* file, bool close_when_done) {
- mpack_assert(file != NULL, "file is NULL");
-
- size_t capacity = MPACK_BUFFER_SIZE;
- char* buffer = (char*)MPACK_MALLOC(capacity);
- if (buffer == NULL) {
- mpack_writer_init_error(writer, mpack_error_memory);
- if (close_when_done) {
- fclose(file);
- }
- return;
- }
-
- mpack_writer_init(writer, buffer, capacity);
- mpack_writer_set_context(writer, file);
- mpack_writer_set_flush(writer, mpack_file_writer_flush);
- mpack_writer_set_teardown(writer, close_when_done ?
- mpack_file_writer_teardown_close :
- mpack_file_writer_teardown);
-}
-
-void mpack_writer_init_filename(mpack_writer_t* writer, const char* filename) {
- mpack_assert(filename != NULL, "filename is NULL");
-
- FILE* file = fopen(filename, "wb");
- if (file == NULL) {
- mpack_writer_init_error(writer, mpack_error_io);
- return;
- }
-
- mpack_writer_init_stdfile(writer, file, true);
-}
-#endif
-
-void mpack_writer_flag_error(mpack_writer_t* writer, mpack_error_t error) {
- mpack_log("writer %p setting error %i: %s\n", writer, (int)error, mpack_error_to_string(error));
-
- if (writer->error == mpack_ok) {
- writer->error = error;
- if (writer->error_fn)
- writer->error_fn(writer, writer->error);
- }
-}
-
-MPACK_STATIC_INLINE void mpack_writer_flush_unchecked(mpack_writer_t* writer) {
- // This is a bit ugly; we reset used before calling flush so that
- // a flush function can distinguish between flushing the buffer
- // versus flushing external data. see mpack_growable_writer_flush()
- size_t used = mpack_writer_buffer_used(writer);
- writer->current = writer->buffer;
- writer->flush(writer, writer->buffer, used);
-}
-
-void mpack_writer_flush_message(mpack_writer_t* writer) {
- if (writer->error != mpack_ok)
- return;
-
- #if MPACK_WRITE_TRACKING
- mpack_writer_flag_if_error(writer, mpack_track_check_empty(&writer->track));
- if (writer->error != mpack_ok)
- return;
- #endif
-
- if (writer->flush == NULL) {
- mpack_break("cannot call mpack_writer_flush_message() without a flush function!");
- mpack_writer_flag_error(writer, mpack_error_bug);
- return;
- }
-
- if (mpack_writer_buffer_used(writer) > 0)
- mpack_writer_flush_unchecked(writer);
-}
-
-// Ensures there are at least count bytes free in the buffer. This
-// will flag an error if the flush function fails to make enough
-// room in the buffer.
-MPACK_NOINLINE static bool mpack_writer_ensure(mpack_writer_t* writer, size_t count) {
- mpack_assert(count != 0, "cannot ensure zero bytes!");
- mpack_assert(count <= MPACK_WRITER_MINIMUM_BUFFER_SIZE,
- "cannot ensure %i bytes, this is more than the minimum buffer size %i!",
- (int)count, (int)MPACK_WRITER_MINIMUM_BUFFER_SIZE);
- mpack_assert(count > mpack_writer_buffer_left(writer),
- "request to ensure %i bytes but there are already %i left in the buffer!",
- (int)count, (int)mpack_writer_buffer_left(writer));
-
- mpack_log("ensuring %i bytes, %i left\n", (int)count, (int)mpack_writer_buffer_left(writer));
-
- if (mpack_writer_error(writer) != mpack_ok)
- return false;
-
- if (writer->flush == NULL) {
- mpack_writer_flag_error(writer, mpack_error_too_big);
- return false;
- }
-
- mpack_writer_flush_unchecked(writer);
- if (mpack_writer_error(writer) != mpack_ok)
- return false;
-
- if (mpack_writer_buffer_left(writer) >= count)
- return true;
-
- mpack_writer_flag_error(writer, mpack_error_io);
- return false;
-}
-
-// Writes encoded bytes to the buffer when we already know the data
-// does not fit in the buffer (i.e. it straddles the edge of the
-// buffer.) If there is a flush function, it is guaranteed to be
-// called; otherwise mpack_error_too_big is raised.
-MPACK_NOINLINE static void mpack_write_native_straddle(mpack_writer_t* writer, const char* p, size_t count) {
- mpack_assert(count == 0 || p != NULL, "data pointer for %i bytes is NULL", (int)count);
-
- if (mpack_writer_error(writer) != mpack_ok)
- return;
- mpack_log("big write for %i bytes from %p, %i space left in buffer\n",
- (int)count, p, (int)mpack_writer_buffer_left(writer));
- mpack_assert(count > mpack_writer_buffer_left(writer),
- "big write requested for %i bytes, but there is %i available "
- "space in buffer. should have called mpack_write_native() instead",
- (int)count, (int)(mpack_writer_buffer_left(writer)));
-
- // we'll need a flush function
- if (!writer->flush) {
- mpack_writer_flag_error(writer, mpack_error_too_big);
- return;
- }
-
- // flush the buffer
- mpack_writer_flush_unchecked(writer);
- if (mpack_writer_error(writer) != mpack_ok)
- return;
-
- // note that an intrusive flush function (such as mpack_growable_writer_flush())
- // may have changed size and/or reset used to a non-zero value. we treat both as
- // though they may have changed, and there may still be data in the buffer.
-
- // flush the extra data directly if it doesn't fit in the buffer
- if (count > mpack_writer_buffer_left(writer)) {
- writer->flush(writer, p, count);
- if (mpack_writer_error(writer) != mpack_ok)
- return;
- } else {
- mpack_memcpy(writer->current, p, count);
- writer->current += count;
- }
-}
-
-// Writes encoded bytes to the buffer, flushing if necessary.
-MPACK_STATIC_INLINE void mpack_write_native(mpack_writer_t* writer, const char* p, size_t count) {
- mpack_assert(count == 0 || p != NULL, "data pointer for %i bytes is NULL", (int)count);
-
- if (mpack_writer_buffer_left(writer) < count) {
- mpack_write_native_straddle(writer, p, count);
- } else {
- mpack_memcpy(writer->current, p, count);
- writer->current += count;
- }
-}
-
-mpack_error_t mpack_writer_destroy(mpack_writer_t* writer) {
-
- // clean up tracking, asserting if we're not already in an error state
- #if MPACK_WRITE_TRACKING
- mpack_track_destroy(&writer->track, writer->error != mpack_ok);
- #endif
-
- // flush any outstanding data
- if (mpack_writer_error(writer) == mpack_ok && mpack_writer_buffer_used(writer) != 0 && writer->flush != NULL) {
- writer->flush(writer, writer->buffer, mpack_writer_buffer_used(writer));
- writer->flush = NULL;
- }
-
- if (writer->teardown) {
- writer->teardown(writer);
- writer->teardown = NULL;
- }
-
- return writer->error;
-}
-
-void mpack_write_tag(mpack_writer_t* writer, mpack_tag_t value) {
- switch (value.type) {
- case mpack_type_missing:
- mpack_break("cannot write a missing value!");
- mpack_writer_flag_error(writer, mpack_error_bug);
- return;
-
- case mpack_type_nil: mpack_write_nil (writer); return;
- case mpack_type_bool: mpack_write_bool (writer, value.v.b); return;
- case mpack_type_float: mpack_write_float (writer, value.v.f); return;
- case mpack_type_double: mpack_write_double(writer, value.v.d); return;
- case mpack_type_int: mpack_write_int (writer, value.v.i); return;
- case mpack_type_uint: mpack_write_uint (writer, value.v.u); return;
-
- case mpack_type_str: mpack_start_str(writer, value.v.l); return;
- case mpack_type_bin: mpack_start_bin(writer, value.v.l); return;
-
- #if MPACK_EXTENSIONS
- case mpack_type_ext:
- mpack_start_ext(writer, mpack_tag_ext_exttype(&value), mpack_tag_ext_length(&value));
- return;
- #endif
-
- case mpack_type_array: mpack_start_array(writer, value.v.n); return;
- case mpack_type_map: mpack_start_map(writer, value.v.n); return;
- }
-
- mpack_break("unrecognized type %i", (int)value.type);
- mpack_writer_flag_error(writer, mpack_error_bug);
-}
-
-MPACK_STATIC_INLINE void mpack_write_byte_element(mpack_writer_t* writer, char value) {
- mpack_writer_track_element(writer);
- if (MPACK_LIKELY(mpack_writer_buffer_left(writer) >= 1) || mpack_writer_ensure(writer, 1))
- *(writer->current++) = value;
-}
-
-void mpack_write_nil(mpack_writer_t* writer) {
- mpack_write_byte_element(writer, (char)0xc0);
-}
-
-void mpack_write_bool(mpack_writer_t* writer, bool value) {
- mpack_write_byte_element(writer, (char)(0xc2 | (value ? 1 : 0)));
-}
-
-void mpack_write_true(mpack_writer_t* writer) {
- mpack_write_byte_element(writer, (char)0xc3);
-}
-
-void mpack_write_false(mpack_writer_t* writer) {
- mpack_write_byte_element(writer, (char)0xc2);
-}
-
-void mpack_write_object_bytes(mpack_writer_t* writer, const char* data, size_t bytes) {
- mpack_writer_track_element(writer);
- mpack_write_native(writer, data, bytes);
-}
-
-/*
- * Encode functions
- */
-
-MPACK_STATIC_INLINE void mpack_encode_fixuint(char* p, uint8_t value) {
- mpack_assert(value <= 127);
- mpack_store_u8(p, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_u8(char* p, uint8_t value) {
- mpack_assert(value > 127);
- mpack_store_u8(p, 0xcc);
- mpack_store_u8(p + 1, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_u16(char* p, uint16_t value) {
- mpack_assert(value > UINT8_MAX);
- mpack_store_u8(p, 0xcd);
- mpack_store_u16(p + 1, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_u32(char* p, uint32_t value) {
- mpack_assert(value > UINT16_MAX);
- mpack_store_u8(p, 0xce);
- mpack_store_u32(p + 1, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_u64(char* p, uint64_t value) {
- mpack_assert(value > UINT32_MAX);
- mpack_store_u8(p, 0xcf);
- mpack_store_u64(p + 1, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_fixint(char* p, int8_t value) {
- // this can encode positive or negative fixints
- mpack_assert(value >= -32);
- mpack_store_i8(p, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_i8(char* p, int8_t value) {
- mpack_assert(value < -32);
- mpack_store_u8(p, 0xd0);
- mpack_store_i8(p + 1, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_i16(char* p, int16_t value) {
- mpack_assert(value < INT8_MIN);
- mpack_store_u8(p, 0xd1);
- mpack_store_i16(p + 1, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_i32(char* p, int32_t value) {
- mpack_assert(value < INT16_MIN);
- mpack_store_u8(p, 0xd2);
- mpack_store_i32(p + 1, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_i64(char* p, int64_t value) {
- mpack_assert(value < INT32_MIN);
- mpack_store_u8(p, 0xd3);
- mpack_store_i64(p + 1, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_float(char* p, float value) {
- mpack_store_u8(p, 0xca);
- mpack_store_float(p + 1, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_double(char* p, double value) {
- mpack_store_u8(p, 0xcb);
- mpack_store_double(p + 1, value);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_fixarray(char* p, uint8_t count) {
- mpack_assert(count <= 15);
- mpack_store_u8(p, (uint8_t)(0x90 | count));
-}
-
-MPACK_STATIC_INLINE void mpack_encode_array16(char* p, uint16_t count) {
- mpack_assert(count > 15);
- mpack_store_u8(p, 0xdc);
- mpack_store_u16(p + 1, count);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_array32(char* p, uint32_t count) {
- mpack_assert(count > UINT16_MAX);
- mpack_store_u8(p, 0xdd);
- mpack_store_u32(p + 1, count);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_fixmap(char* p, uint8_t count) {
- mpack_assert(count <= 15);
- mpack_store_u8(p, (uint8_t)(0x80 | count));
-}
-
-MPACK_STATIC_INLINE void mpack_encode_map16(char* p, uint16_t count) {
- mpack_assert(count > 15);
- mpack_store_u8(p, 0xde);
- mpack_store_u16(p + 1, count);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_map32(char* p, uint32_t count) {
- mpack_assert(count > UINT16_MAX);
- mpack_store_u8(p, 0xdf);
- mpack_store_u32(p + 1, count);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_fixstr(char* p, uint8_t count) {
- mpack_assert(count <= 31);
- mpack_store_u8(p, (uint8_t)(0xa0 | count));
-}
-
-MPACK_STATIC_INLINE void mpack_encode_str8(char* p, uint8_t count) {
- mpack_assert(count > 31);
- mpack_store_u8(p, 0xd9);
- mpack_store_u8(p + 1, count);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_str16(char* p, uint16_t count) {
- // we might be encoding a raw in compatibility mode, so we
- // allow count to be in the range [32, UINT8_MAX].
- mpack_assert(count > 31);
- mpack_store_u8(p, 0xda);
- mpack_store_u16(p + 1, count);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_str32(char* p, uint32_t count) {
- mpack_assert(count > UINT16_MAX);
- mpack_store_u8(p, 0xdb);
- mpack_store_u32(p + 1, count);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_bin8(char* p, uint8_t count) {
- mpack_store_u8(p, 0xc4);
- mpack_store_u8(p + 1, count);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_bin16(char* p, uint16_t count) {
- mpack_assert(count > UINT8_MAX);
- mpack_store_u8(p, 0xc5);
- mpack_store_u16(p + 1, count);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_bin32(char* p, uint32_t count) {
- mpack_assert(count > UINT16_MAX);
- mpack_store_u8(p, 0xc6);
- mpack_store_u32(p + 1, count);
-}
-
-#if MPACK_EXTENSIONS
-MPACK_STATIC_INLINE void mpack_encode_fixext1(char* p, int8_t exttype) {
- mpack_store_u8(p, 0xd4);
- mpack_store_i8(p + 1, exttype);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_fixext2(char* p, int8_t exttype) {
- mpack_store_u8(p, 0xd5);
- mpack_store_i8(p + 1, exttype);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_fixext4(char* p, int8_t exttype) {
- mpack_store_u8(p, 0xd6);
- mpack_store_i8(p + 1, exttype);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_fixext8(char* p, int8_t exttype) {
- mpack_store_u8(p, 0xd7);
- mpack_store_i8(p + 1, exttype);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_fixext16(char* p, int8_t exttype) {
- mpack_store_u8(p, 0xd8);
- mpack_store_i8(p + 1, exttype);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_ext8(char* p, int8_t exttype, uint8_t count) {
- mpack_assert(count != 1 && count != 2 && count != 4 && count != 8 && count != 16);
- mpack_store_u8(p, 0xc7);
- mpack_store_u8(p + 1, count);
- mpack_store_i8(p + 2, exttype);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_ext16(char* p, int8_t exttype, uint16_t count) {
- mpack_assert(count > UINT8_MAX);
- mpack_store_u8(p, 0xc8);
- mpack_store_u16(p + 1, count);
- mpack_store_i8(p + 3, exttype);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_ext32(char* p, int8_t exttype, uint32_t count) {
- mpack_assert(count > UINT16_MAX);
- mpack_store_u8(p, 0xc9);
- mpack_store_u32(p + 1, count);
- mpack_store_i8(p + 5, exttype);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_timestamp_4(char* p, uint32_t seconds) {
- mpack_encode_fixext4(p, MPACK_EXTTYPE_TIMESTAMP);
- mpack_store_u32(p + MPACK_TAG_SIZE_FIXEXT4, seconds);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_timestamp_8(char* p, int64_t seconds, uint32_t nanoseconds) {
- mpack_assert(nanoseconds <= MPACK_TIMESTAMP_NANOSECONDS_MAX);
- mpack_encode_fixext8(p, MPACK_EXTTYPE_TIMESTAMP);
- uint64_t encoded = ((uint64_t)nanoseconds << 34) | (uint64_t)seconds;
- mpack_store_u64(p + MPACK_TAG_SIZE_FIXEXT8, encoded);
-}
-
-MPACK_STATIC_INLINE void mpack_encode_timestamp_12(char* p, int64_t seconds, uint32_t nanoseconds) {
- mpack_assert(nanoseconds <= MPACK_TIMESTAMP_NANOSECONDS_MAX);
- mpack_encode_ext8(p, MPACK_EXTTYPE_TIMESTAMP, 12);
- mpack_store_u32(p + MPACK_TAG_SIZE_EXT8, nanoseconds);
- mpack_store_i64(p + MPACK_TAG_SIZE_EXT8 + 4, seconds);
-}
-#endif
-
-
-
-/*
- * Write functions
- */
-
-// This is a macro wrapper to the encode functions to encode
-// directly into the buffer. If mpack_writer_ensure() fails
-// it will flag an error so we don't have to do anything.
-#define MPACK_WRITE_ENCODED(encode_fn, size, ...) do { \
- if (MPACK_LIKELY(mpack_writer_buffer_left(writer) >= size) || mpack_writer_ensure(writer, size)) { \
- MPACK_EXPAND(encode_fn(writer->current, __VA_ARGS__)); \
- writer->current += size; \
- } \
-} while (0)
-
-void mpack_write_u8(mpack_writer_t* writer, uint8_t value) {
- #if MPACK_OPTIMIZE_FOR_SIZE
- mpack_write_u64(writer, value);
- #else
- mpack_writer_track_element(writer);
- if (value <= 127) {
- MPACK_WRITE_ENCODED(mpack_encode_fixuint, MPACK_TAG_SIZE_FIXUINT, value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_u8, MPACK_TAG_SIZE_U8, value);
- }
- #endif
-}
-
-void mpack_write_u16(mpack_writer_t* writer, uint16_t value) {
- #if MPACK_OPTIMIZE_FOR_SIZE
- mpack_write_u64(writer, value);
- #else
- mpack_writer_track_element(writer);
- if (value <= 127) {
- MPACK_WRITE_ENCODED(mpack_encode_fixuint, MPACK_TAG_SIZE_FIXUINT, (uint8_t)value);
- } else if (value <= UINT8_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u8, MPACK_TAG_SIZE_U8, (uint8_t)value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_u16, MPACK_TAG_SIZE_U16, value);
- }
- #endif
-}
-
-void mpack_write_u32(mpack_writer_t* writer, uint32_t value) {
- #if MPACK_OPTIMIZE_FOR_SIZE
- mpack_write_u64(writer, value);
- #else
- mpack_writer_track_element(writer);
- if (value <= 127) {
- MPACK_WRITE_ENCODED(mpack_encode_fixuint, MPACK_TAG_SIZE_FIXUINT, (uint8_t)value);
- } else if (value <= UINT8_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u8, MPACK_TAG_SIZE_U8, (uint8_t)value);
- } else if (value <= UINT16_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u16, MPACK_TAG_SIZE_U16, (uint16_t)value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_u32, MPACK_TAG_SIZE_U32, value);
- }
- #endif
-}
-
-void mpack_write_u64(mpack_writer_t* writer, uint64_t value) {
- mpack_writer_track_element(writer);
-
- if (value <= 127) {
- MPACK_WRITE_ENCODED(mpack_encode_fixuint, MPACK_TAG_SIZE_FIXUINT, (uint8_t)value);
- } else if (value <= UINT8_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u8, MPACK_TAG_SIZE_U8, (uint8_t)value);
- } else if (value <= UINT16_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u16, MPACK_TAG_SIZE_U16, (uint16_t)value);
- } else if (value <= UINT32_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u32, MPACK_TAG_SIZE_U32, (uint32_t)value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_u64, MPACK_TAG_SIZE_U64, value);
- }
-}
-
-void mpack_write_i8(mpack_writer_t* writer, int8_t value) {
- #if MPACK_OPTIMIZE_FOR_SIZE
- mpack_write_i64(writer, value);
- #else
- mpack_writer_track_element(writer);
- if (value >= -32) {
- // we encode positive and negative fixints together
- MPACK_WRITE_ENCODED(mpack_encode_fixint, MPACK_TAG_SIZE_FIXINT, (int8_t)value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_i8, MPACK_TAG_SIZE_I8, (int8_t)value);
- }
- #endif
-}
-
-void mpack_write_i16(mpack_writer_t* writer, int16_t value) {
- #if MPACK_OPTIMIZE_FOR_SIZE
- mpack_write_i64(writer, value);
- #else
- mpack_writer_track_element(writer);
- if (value >= -32) {
- if (value <= 127) {
- // we encode positive and negative fixints together
- MPACK_WRITE_ENCODED(mpack_encode_fixint, MPACK_TAG_SIZE_FIXINT, (int8_t)value);
- } else if (value <= UINT8_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u8, MPACK_TAG_SIZE_U8, (uint8_t)value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_u16, MPACK_TAG_SIZE_U16, (uint16_t)value);
- }
- } else if (value >= INT8_MIN) {
- MPACK_WRITE_ENCODED(mpack_encode_i8, MPACK_TAG_SIZE_I8, (int8_t)value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_i16, MPACK_TAG_SIZE_I16, (int16_t)value);
- }
- #endif
-}
-
-void mpack_write_i32(mpack_writer_t* writer, int32_t value) {
- #if MPACK_OPTIMIZE_FOR_SIZE
- mpack_write_i64(writer, value);
- #else
- mpack_writer_track_element(writer);
- if (value >= -32) {
- if (value <= 127) {
- // we encode positive and negative fixints together
- MPACK_WRITE_ENCODED(mpack_encode_fixint, MPACK_TAG_SIZE_FIXINT, (int8_t)value);
- } else if (value <= UINT8_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u8, MPACK_TAG_SIZE_U8, (uint8_t)value);
- } else if (value <= UINT16_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u16, MPACK_TAG_SIZE_U16, (uint16_t)value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_u32, MPACK_TAG_SIZE_U32, (uint32_t)value);
- }
- } else if (value >= INT8_MIN) {
- MPACK_WRITE_ENCODED(mpack_encode_i8, MPACK_TAG_SIZE_I8, (int8_t)value);
- } else if (value >= INT16_MIN) {
- MPACK_WRITE_ENCODED(mpack_encode_i16, MPACK_TAG_SIZE_I16, (int16_t)value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_i32, MPACK_TAG_SIZE_I32, value);
- }
- #endif
-}
-
-void mpack_write_i64(mpack_writer_t* writer, int64_t value) {
- #if MPACK_OPTIMIZE_FOR_SIZE
- if (value > 127) {
- // for non-fix positive ints we call the u64 writer to save space
- mpack_write_u64(writer, (uint64_t)value);
- return;
- }
- #endif
-
- mpack_writer_track_element(writer);
- if (value >= -32) {
- #if MPACK_OPTIMIZE_FOR_SIZE
- MPACK_WRITE_ENCODED(mpack_encode_fixint, MPACK_TAG_SIZE_FIXINT, (int8_t)value);
- #else
- if (value <= 127) {
- MPACK_WRITE_ENCODED(mpack_encode_fixint, MPACK_TAG_SIZE_FIXINT, (int8_t)value);
- } else if (value <= UINT8_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u8, MPACK_TAG_SIZE_U8, (uint8_t)value);
- } else if (value <= UINT16_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u16, MPACK_TAG_SIZE_U16, (uint16_t)value);
- } else if (value <= UINT32_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_u32, MPACK_TAG_SIZE_U32, (uint32_t)value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_u64, MPACK_TAG_SIZE_U64, (uint64_t)value);
- }
- #endif
- } else if (value >= INT8_MIN) {
- MPACK_WRITE_ENCODED(mpack_encode_i8, MPACK_TAG_SIZE_I8, (int8_t)value);
- } else if (value >= INT16_MIN) {
- MPACK_WRITE_ENCODED(mpack_encode_i16, MPACK_TAG_SIZE_I16, (int16_t)value);
- } else if (value >= INT32_MIN) {
- MPACK_WRITE_ENCODED(mpack_encode_i32, MPACK_TAG_SIZE_I32, (int32_t)value);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_i64, MPACK_TAG_SIZE_I64, value);
- }
-}
-
-void mpack_write_float(mpack_writer_t* writer, float value) {
- mpack_writer_track_element(writer);
- MPACK_WRITE_ENCODED(mpack_encode_float, MPACK_TAG_SIZE_FLOAT, value);
-}
-
-void mpack_write_double(mpack_writer_t* writer, double value) {
- mpack_writer_track_element(writer);
- MPACK_WRITE_ENCODED(mpack_encode_double, MPACK_TAG_SIZE_DOUBLE, value);
-}
-
-#if MPACK_EXTENSIONS
-void mpack_write_timestamp(mpack_writer_t* writer, int64_t seconds, uint32_t nanoseconds) {
- #if MPACK_COMPATIBILITY
- if (writer->version <= mpack_version_v4) {
- mpack_break("Timestamps require spec version v5 or later. This writer is in v%i mode.", (int)writer->version);
- mpack_writer_flag_error(writer, mpack_error_bug);
- return;
- }
- #endif
-
- if (nanoseconds > MPACK_TIMESTAMP_NANOSECONDS_MAX) {
- mpack_break("timestamp nanoseconds out of bounds: %u", nanoseconds);
- mpack_writer_flag_error(writer, mpack_error_bug);
- return;
- }
-
- mpack_writer_track_element(writer);
-
- if (seconds < 0 || seconds >= (INT64_C(1) << 34)) {
- MPACK_WRITE_ENCODED(mpack_encode_timestamp_12, MPACK_EXT_SIZE_TIMESTAMP12, seconds, nanoseconds);
- } else if (seconds > UINT32_MAX || nanoseconds > 0) {
- MPACK_WRITE_ENCODED(mpack_encode_timestamp_8, MPACK_EXT_SIZE_TIMESTAMP8, seconds, nanoseconds);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_timestamp_4, MPACK_EXT_SIZE_TIMESTAMP4, (uint32_t)seconds);
- }
-}
-#endif
-
-void mpack_start_array(mpack_writer_t* writer, uint32_t count) {
- mpack_writer_track_element(writer);
-
- if (count <= 15) {
- MPACK_WRITE_ENCODED(mpack_encode_fixarray, MPACK_TAG_SIZE_FIXARRAY, (uint8_t)count);
- } else if (count <= UINT16_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_array16, MPACK_TAG_SIZE_ARRAY16, (uint16_t)count);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_array32, MPACK_TAG_SIZE_ARRAY32, (uint32_t)count);
- }
-
- mpack_writer_track_push(writer, mpack_type_array, count);
-}
-
-void mpack_start_map(mpack_writer_t* writer, uint32_t count) {
- mpack_writer_track_element(writer);
-
- if (count <= 15) {
- MPACK_WRITE_ENCODED(mpack_encode_fixmap, MPACK_TAG_SIZE_FIXMAP, (uint8_t)count);
- } else if (count <= UINT16_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_map16, MPACK_TAG_SIZE_MAP16, (uint16_t)count);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_map32, MPACK_TAG_SIZE_MAP32, (uint32_t)count);
- }
-
- mpack_writer_track_push(writer, mpack_type_map, count);
-}
-
-static void mpack_start_str_notrack(mpack_writer_t* writer, uint32_t count) {
- if (count <= 31) {
- MPACK_WRITE_ENCODED(mpack_encode_fixstr, MPACK_TAG_SIZE_FIXSTR, (uint8_t)count);
-
- // str8 is only supported in v5 or later.
- } else if (count <= UINT8_MAX
- #if MPACK_COMPATIBILITY
- && writer->version >= mpack_version_v5
- #endif
- ) {
- MPACK_WRITE_ENCODED(mpack_encode_str8, MPACK_TAG_SIZE_STR8, (uint8_t)count);
-
- } else if (count <= UINT16_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_str16, MPACK_TAG_SIZE_STR16, (uint16_t)count);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_str32, MPACK_TAG_SIZE_STR32, (uint32_t)count);
- }
-}
-
-static void mpack_start_bin_notrack(mpack_writer_t* writer, uint32_t count) {
- #if MPACK_COMPATIBILITY
- // In the v4 spec, there was only the raw type for any kind of
- // variable-length data. In v4 mode, we support the bin functions,
- // but we produce an old-style raw.
- if (writer->version <= mpack_version_v4) {
- mpack_start_str_notrack(writer, count);
- return;
- }
- #endif
-
- if (count <= UINT8_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_bin8, MPACK_TAG_SIZE_BIN8, (uint8_t)count);
- } else if (count <= UINT16_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_bin16, MPACK_TAG_SIZE_BIN16, (uint16_t)count);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_bin32, MPACK_TAG_SIZE_BIN32, (uint32_t)count);
- }
-}
-
-void mpack_start_str(mpack_writer_t* writer, uint32_t count) {
- mpack_writer_track_element(writer);
- mpack_start_str_notrack(writer, count);
- mpack_writer_track_push(writer, mpack_type_str, count);
-}
-
-void mpack_start_bin(mpack_writer_t* writer, uint32_t count) {
- mpack_writer_track_element(writer);
- mpack_start_bin_notrack(writer, count);
- mpack_writer_track_push(writer, mpack_type_bin, count);
-}
-
-#if MPACK_EXTENSIONS
-void mpack_start_ext(mpack_writer_t* writer, int8_t exttype, uint32_t count) {
- #if MPACK_COMPATIBILITY
- if (writer->version <= mpack_version_v4) {
- mpack_break("Ext types require spec version v5 or later. This writer is in v%i mode.", (int)writer->version);
- mpack_writer_flag_error(writer, mpack_error_bug);
- return;
- }
- #endif
-
- mpack_writer_track_element(writer);
-
- if (count == 1) {
- MPACK_WRITE_ENCODED(mpack_encode_fixext1, MPACK_TAG_SIZE_FIXEXT1, exttype);
- } else if (count == 2) {
- MPACK_WRITE_ENCODED(mpack_encode_fixext2, MPACK_TAG_SIZE_FIXEXT2, exttype);
- } else if (count == 4) {
- MPACK_WRITE_ENCODED(mpack_encode_fixext4, MPACK_TAG_SIZE_FIXEXT4, exttype);
- } else if (count == 8) {
- MPACK_WRITE_ENCODED(mpack_encode_fixext8, MPACK_TAG_SIZE_FIXEXT8, exttype);
- } else if (count == 16) {
- MPACK_WRITE_ENCODED(mpack_encode_fixext16, MPACK_TAG_SIZE_FIXEXT16, exttype);
- } else if (count <= UINT8_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_ext8, MPACK_TAG_SIZE_EXT8, exttype, (uint8_t)count);
- } else if (count <= UINT16_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_ext16, MPACK_TAG_SIZE_EXT16, exttype, (uint16_t)count);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_ext32, MPACK_TAG_SIZE_EXT32, exttype, (uint32_t)count);
- }
-
- mpack_writer_track_push(writer, mpack_type_ext, count);
-}
-#endif
-
-
-
-/*
- * Compound helpers and other functions
- */
-
-void mpack_write_str(mpack_writer_t* writer, const char* data, uint32_t count) {
- mpack_assert(data != NULL, "data for string of length %i is NULL", (int)count);
-
- #if MPACK_OPTIMIZE_FOR_SIZE
- mpack_writer_track_element(writer);
- mpack_start_str_notrack(writer, count);
- mpack_write_native(writer, data, count);
- #else
-
- mpack_writer_track_element(writer);
-
- if (count <= 31) {
- // The minimum buffer size when using a flush function is guaranteed to
- // fit the largest possible fixstr.
- size_t size = count + MPACK_TAG_SIZE_FIXSTR;
- if (MPACK_LIKELY(mpack_writer_buffer_left(writer) >= size) || mpack_writer_ensure(writer, size)) {
- char* MPACK_RESTRICT p = writer->current;
- mpack_encode_fixstr(p, (uint8_t)count);
- mpack_memcpy(p + MPACK_TAG_SIZE_FIXSTR, data, count);
- writer->current += count + MPACK_TAG_SIZE_FIXSTR;
- }
- return;
- }
-
- if (count <= UINT8_MAX
- #if MPACK_COMPATIBILITY
- && writer->version >= mpack_version_v5
- #endif
- ) {
- if (count + MPACK_TAG_SIZE_STR8 <= mpack_writer_buffer_left(writer)) {
- char* MPACK_RESTRICT p = writer->current;
- mpack_encode_str8(p, (uint8_t)count);
- mpack_memcpy(p + MPACK_TAG_SIZE_STR8, data, count);
- writer->current += count + MPACK_TAG_SIZE_STR8;
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_str8, MPACK_TAG_SIZE_STR8, (uint8_t)count);
- mpack_write_native(writer, data, count);
- }
- return;
- }
-
- // str16 and str32 are likely to be a significant fraction of the buffer
- // size, so we don't bother with a combined space check in order to
- // minimize code size.
- if (count <= UINT16_MAX) {
- MPACK_WRITE_ENCODED(mpack_encode_str16, MPACK_TAG_SIZE_STR16, (uint16_t)count);
- mpack_write_native(writer, data, count);
- } else {
- MPACK_WRITE_ENCODED(mpack_encode_str32, MPACK_TAG_SIZE_STR32, (uint32_t)count);
- mpack_write_native(writer, data, count);
- }
-
- #endif
-}
-
-void mpack_write_bin(mpack_writer_t* writer, const char* data, uint32_t count) {
- mpack_assert(data != NULL, "data pointer for bin of %i bytes is NULL", (int)count);
- mpack_start_bin(writer, count);
- mpack_write_bytes(writer, data, count);
- mpack_finish_bin(writer);
-}
-
-#if MPACK_EXTENSIONS
-void mpack_write_ext(mpack_writer_t* writer, int8_t exttype, const char* data, uint32_t count) {
- mpack_assert(data != NULL, "data pointer for ext of type %i and %i bytes is NULL", exttype, (int)count);
- mpack_start_ext(writer, exttype, count);
- mpack_write_bytes(writer, data, count);
- mpack_finish_ext(writer);
-}
-#endif
-
-void mpack_write_bytes(mpack_writer_t* writer, const char* data, size_t count) {
- mpack_assert(data != NULL, "data pointer for %i bytes is NULL", (int)count);
- mpack_writer_track_bytes(writer, count);
- mpack_write_native(writer, data, count);
-}
-
-void mpack_write_cstr(mpack_writer_t* writer, const char* cstr) {
- mpack_assert(cstr != NULL, "cstr pointer is NULL");
- size_t length = mpack_strlen(cstr);
- if (length > UINT32_MAX)
- mpack_writer_flag_error(writer, mpack_error_invalid);
- mpack_write_str(writer, cstr, (uint32_t)length);
-}
-
-void mpack_write_cstr_or_nil(mpack_writer_t* writer, const char* cstr) {
- if (cstr)
- mpack_write_cstr(writer, cstr);
- else
- mpack_write_nil(writer);
-}
-
-void mpack_write_utf8(mpack_writer_t* writer, const char* str, uint32_t length) {
- mpack_assert(str != NULL, "data for string of length %i is NULL", (int)length);
- if (!mpack_utf8_check(str, length)) {
- mpack_writer_flag_error(writer, mpack_error_invalid);
- return;
- }
- mpack_write_str(writer, str, length);
-}
-
-void mpack_write_utf8_cstr(mpack_writer_t* writer, const char* cstr) {
- mpack_assert(cstr != NULL, "cstr pointer is NULL");
- size_t length = mpack_strlen(cstr);
- if (length > UINT32_MAX) {
- mpack_writer_flag_error(writer, mpack_error_invalid);
- return;
- }
- mpack_write_utf8(writer, cstr, (uint32_t)length);
-}
-
-void mpack_write_utf8_cstr_or_nil(mpack_writer_t* writer, const char* cstr) {
- if (cstr)
- mpack_write_utf8_cstr(writer, cstr);
- else
- mpack_write_nil(writer);
-}
-
-#endif
-
-
-/* mpack/mpack-reader.c.c */
-
-#define MPACK_INTERNAL 1
-
-/* #include "mpack-reader.h" */
-
-#if MPACK_READER
-
-static void mpack_reader_skip_using_fill(mpack_reader_t* reader, size_t count);
-
-void mpack_reader_init(mpack_reader_t* reader, char* buffer, size_t size, size_t count) {
- mpack_assert(buffer != NULL, "buffer is NULL");
-
- mpack_memset(reader, 0, sizeof(*reader));
- reader->buffer = buffer;
- reader->size = size;
- reader->data = buffer;
- reader->end = buffer + count;
-
- #if MPACK_READ_TRACKING
- mpack_reader_flag_if_error(reader, mpack_track_init(&reader->track));
- #endif
-
- mpack_log("===========================\n");
- mpack_log("initializing reader with buffer size %i\n", (int)size);
-}
-
-void mpack_reader_init_error(mpack_reader_t* reader, mpack_error_t error) {
- mpack_memset(reader, 0, sizeof(*reader));
- reader->error = error;
-
- mpack_log("===========================\n");
- mpack_log("initializing reader error state %i\n", (int)error);
-}
-
-void mpack_reader_init_data(mpack_reader_t* reader, const char* data, size_t count) {
- mpack_assert(data != NULL, "data is NULL");
-
- mpack_memset(reader, 0, sizeof(*reader));
- reader->data = data;
- reader->end = data + count;
-
- #if MPACK_READ_TRACKING
- mpack_reader_flag_if_error(reader, mpack_track_init(&reader->track));
- #endif
-
- mpack_log("===========================\n");
- mpack_log("initializing reader with data size %i\n", (int)count);
-}
-
-void mpack_reader_set_fill(mpack_reader_t* reader, mpack_reader_fill_t fill) {
- MPACK_STATIC_ASSERT(MPACK_READER_MINIMUM_BUFFER_SIZE >= MPACK_MAXIMUM_TAG_SIZE,
- "minimum buffer size must fit any tag!");
-
- if (reader->size == 0) {
- mpack_break("cannot use fill function without a writeable buffer!");
- mpack_reader_flag_error(reader, mpack_error_bug);
- return;
- }
-
- if (reader->size < MPACK_READER_MINIMUM_BUFFER_SIZE) {
- mpack_break("buffer size is %i, but minimum buffer size for fill is %i",
- (int)reader->size, MPACK_READER_MINIMUM_BUFFER_SIZE);
- mpack_reader_flag_error(reader, mpack_error_bug);
- return;
- }
-
- reader->fill = fill;
-}
-
-void mpack_reader_set_skip(mpack_reader_t* reader, mpack_reader_skip_t skip) {
- mpack_assert(reader->size != 0, "cannot use skip function without a writeable buffer!");
- reader->skip = skip;
-}
-
-#if MPACK_STDIO
-static size_t mpack_file_reader_fill(mpack_reader_t* reader, char* buffer, size_t count) {
- if (feof((FILE *)reader->context)) {
- mpack_reader_flag_error(reader, mpack_error_eof);
- return 0;
- }
- return fread((void*)buffer, 1, count, (FILE*)reader->context);
-}
-
-static void mpack_file_reader_skip(mpack_reader_t* reader, size_t count) {
- if (mpack_reader_error(reader) != mpack_ok)
- return;
- FILE* file = (FILE*)reader->context;
-
- // We call ftell() to test whether the stream is seekable
- // without causing a file error.
- if (ftell(file) >= 0) {
- mpack_log("seeking forward %i bytes\n", (int)count);
- if (fseek(file, (long int)count, SEEK_CUR) == 0)
- return;
- mpack_log("fseek() didn't return zero!\n");
- if (ferror(file)) {
- mpack_reader_flag_error(reader, mpack_error_io);
- return;
- }
- }
-
- // If the stream is not seekable, fall back to the fill function.
- mpack_reader_skip_using_fill(reader, count);
-}
-
-static void mpack_file_reader_teardown(mpack_reader_t* reader) {
- MPACK_FREE(reader->buffer);
- reader->buffer = NULL;
- reader->context = NULL;
- reader->size = 0;
- reader->fill = NULL;
- reader->skip = NULL;
- reader->teardown = NULL;
-}
-
-static void mpack_file_reader_teardown_close(mpack_reader_t* reader) {
- FILE* file = (FILE*)reader->context;
-
- if (file) {
- int ret = fclose(file);
- if (ret != 0)
- mpack_reader_flag_error(reader, mpack_error_io);
- }
-
- mpack_file_reader_teardown(reader);
-}
-
-void mpack_reader_init_stdfile(mpack_reader_t* reader, FILE* file, bool close_when_done) {
- mpack_assert(file != NULL, "file is NULL");
-
- size_t capacity = MPACK_BUFFER_SIZE;
- char* buffer = (char*)MPACK_MALLOC(capacity);
- if (buffer == NULL) {
- mpack_reader_init_error(reader, mpack_error_memory);
- if (close_when_done) {
- fclose(file);
- }
- return;
- }
-
- mpack_reader_init(reader, buffer, capacity, 0);
- mpack_reader_set_context(reader, file);
- mpack_reader_set_fill(reader, mpack_file_reader_fill);
- mpack_reader_set_skip(reader, mpack_file_reader_skip);
- mpack_reader_set_teardown(reader, close_when_done ?
- mpack_file_reader_teardown_close :
- mpack_file_reader_teardown);
-}
-
-void mpack_reader_init_filename(mpack_reader_t* reader, const char* filename) {
- mpack_assert(filename != NULL, "filename is NULL");
-
- FILE* file = fopen(filename, "rb");
- if (file == NULL) {
- mpack_reader_init_error(reader, mpack_error_io);
- return;
- }
-
- mpack_reader_init_stdfile(reader, file, true);
-}
-#endif
-
-mpack_error_t mpack_reader_destroy(mpack_reader_t* reader) {
-
- // clean up tracking, asserting if we're not already in an error state
- #if MPACK_READ_TRACKING
- mpack_reader_flag_if_error(reader, mpack_track_destroy(&reader->track, mpack_reader_error(reader) != mpack_ok));
- #endif
-
- if (reader->teardown)
- reader->teardown(reader);
- reader->teardown = NULL;
-
- return reader->error;
-}
-
-size_t mpack_reader_remaining(mpack_reader_t* reader, const char** data) {
- if (mpack_reader_error(reader) != mpack_ok)
- return 0;
-
- #if MPACK_READ_TRACKING
- if (mpack_reader_flag_if_error(reader, mpack_track_check_empty(&reader->track)) != mpack_ok)
- return 0;
- #endif
-
- if (data)
- *data = reader->data;
- return (size_t)(reader->end - reader->data);
-}
-
-void mpack_reader_flag_error(mpack_reader_t* reader, mpack_error_t error) {
- mpack_log("reader %p setting error %i: %s\n", reader, (int)error, mpack_error_to_string(error));
-
- if (reader->error == mpack_ok) {
- reader->error = error;
- reader->end = reader->data;
- if (reader->error_fn)
- reader->error_fn(reader, error);
- }
-}
-
-// Loops on the fill function, reading between the minimum and
-// maximum number of bytes and flagging an error if it fails.
-MPACK_NOINLINE static size_t mpack_fill_range(mpack_reader_t* reader, char* p, size_t min_bytes, size_t max_bytes) {
- mpack_assert(reader->fill != NULL, "mpack_fill_range() called with no fill function?");
- mpack_assert(min_bytes > 0, "cannot fill zero bytes!");
- mpack_assert(max_bytes >= min_bytes, "min_bytes %i cannot be larger than max_bytes %i!",
- (int)min_bytes, (int)max_bytes);
-
- size_t count = 0;
- while (count < min_bytes) {
- size_t read = reader->fill(reader, p + count, max_bytes - count);
-
- // Reader fill functions can flag an error or return 0 on failure. We
- // also guard against functions that -1 just in case.
- if (mpack_reader_error(reader) != mpack_ok)
- return 0;
- if (read == 0 || read == ((size_t)(-1))) {
- mpack_reader_flag_error(reader, mpack_error_io);
- return 0;
- }
-
- count += read;
- }
- return count;
-}
-
-MPACK_NOINLINE bool mpack_reader_ensure_straddle(mpack_reader_t* reader, size_t count) {
- mpack_assert(count != 0, "cannot ensure zero bytes!");
- mpack_assert(reader->error == mpack_ok, "reader cannot be in an error state!");
-
- mpack_assert(count > (size_t)(reader->end - reader->data),
- "straddling ensure requested for %i bytes, but there are %i bytes "
- "left in buffer. call mpack_reader_ensure() instead",
- (int)count, (int)(reader->end - reader->data));
-
- // we'll need a fill function to get more data. if there's no
- // fill function, the buffer should contain an entire MessagePack
- // object, so we raise mpack_error_invalid instead of mpack_error_io
- // on truncated data.
- if (reader->fill == NULL) {
- mpack_reader_flag_error(reader, mpack_error_invalid);
- return false;
- }
-
- // we need enough space in the buffer. if the buffer is not
- // big enough, we return mpack_error_too_big (since this is
- // for an in-place read larger than the buffer size.)
- if (count > reader->size) {
- mpack_reader_flag_error(reader, mpack_error_too_big);
- return false;
- }
-
- // move the existing data to the start of the buffer
- size_t left = (size_t)(reader->end - reader->data);
- mpack_memmove(reader->buffer, reader->data, left);
- reader->end -= reader->data - reader->buffer;
- reader->data = reader->buffer;
-
- // read at least the necessary number of bytes, accepting up to the
- // buffer size
- size_t read = mpack_fill_range(reader, reader->buffer + left,
- count - left, reader->size - left);
- if (mpack_reader_error(reader) != mpack_ok)
- return false;
- reader->end += read;
- return true;
-}
-
-// Reads count bytes into p. Used when there are not enough bytes
-// left in the buffer to satisfy a read.
-MPACK_NOINLINE void mpack_read_native_straddle(mpack_reader_t* reader, char* p, size_t count) {
- mpack_assert(count == 0 || p != NULL, "data pointer for %i bytes is NULL", (int)count);
-
- if (mpack_reader_error(reader) != mpack_ok) {
- mpack_memset(p, 0, count);
- return;
- }
-
- size_t left = (size_t)(reader->end - reader->data);
- mpack_log("big read for %i bytes into %p, %i left in buffer, buffer size %i\n",
- (int)count, p, (int)left, (int)reader->size);
-
- if (count <= left) {
- mpack_assert(0,
- "big read requested for %i bytes, but there are %i bytes "
- "left in buffer. call mpack_read_native() instead",
- (int)count, (int)left);
- mpack_reader_flag_error(reader, mpack_error_bug);
- mpack_memset(p, 0, count);
- return;
- }
-
- // we'll need a fill function to get more data. if there's no
- // fill function, the buffer should contain an entire MessagePack
- // object, so we raise mpack_error_invalid instead of mpack_error_io
- // on truncated data.
- if (reader->fill == NULL) {
- mpack_reader_flag_error(reader, mpack_error_invalid);
- mpack_memset(p, 0, count);
- return;
- }
-
- if (reader->size == 0) {
- // somewhat debatable what error should be returned here. when
- // initializing a reader with an in-memory buffer it's not
- // necessarily a bug if the data is blank; it might just have
- // been truncated to zero. for this reason we return the same
- // error as if the data was truncated.
- mpack_reader_flag_error(reader, mpack_error_io);
- mpack_memset(p, 0, count);
- return;
- }
-
- // flush what's left of the buffer
- if (left > 0) {
- mpack_log("flushing %i bytes remaining in buffer\n", (int)left);
- mpack_memcpy(p, reader->data, left);
- count -= left;
- p += left;
- reader->data += left;
- }
-
- // if the remaining data needed is some small fraction of the
- // buffer size, we'll try to fill the buffer as much as possible
- // and copy the needed data out.
- if (count <= reader->size / MPACK_READER_SMALL_FRACTION_DENOMINATOR) {
- size_t read = mpack_fill_range(reader, reader->buffer, count, reader->size);
- if (mpack_reader_error(reader) != mpack_ok)
- return;
- mpack_memcpy(p, reader->buffer, count);
- reader->data = reader->buffer + count;
- reader->end = reader->buffer + read;
-
- // otherwise we read the remaining data directly into the target.
- } else {
- mpack_log("reading %i additional bytes\n", (int)count);
- mpack_fill_range(reader, p, count, count);
- }
-}
-
-MPACK_NOINLINE static void mpack_skip_bytes_straddle(mpack_reader_t* reader, size_t count) {
-
- // we'll need at least a fill function to skip more data. if there's
- // no fill function, the buffer should contain an entire MessagePack
- // object, so we raise mpack_error_invalid instead of mpack_error_io
- // on truncated data. (see mpack_read_native_straddle())
- if (reader->fill == NULL) {
- mpack_log("reader has no fill function!\n");
- mpack_reader_flag_error(reader, mpack_error_invalid);
- return;
- }
-
- // discard whatever's left in the buffer
- size_t left = (size_t)(reader->end - reader->data);
- mpack_log("discarding %i bytes still in buffer\n", (int)left);
- count -= left;
- reader->data = reader->end;
-
- // use the skip function if we've got one, and if we're trying
- // to skip a lot of data. if we only need to skip some tiny
- // fraction of the buffer size, it's probably better to just
- // fill the buffer and skip from it instead of trying to seek.
- if (reader->skip && count > reader->size / 16) {
- mpack_log("calling skip function for %i bytes\n", (int)count);
- reader->skip(reader, count);
- return;
- }
-
- mpack_reader_skip_using_fill(reader, count);
-}
-
-void mpack_skip_bytes(mpack_reader_t* reader, size_t count) {
- if (mpack_reader_error(reader) != mpack_ok)
- return;
- mpack_log("skip requested for %i bytes\n", (int)count);
- mpack_reader_track_bytes(reader, count);
-
- // check if we have enough in the buffer already
- size_t left = (size_t)(reader->end - reader->data);
- if (left >= count) {
- mpack_log("skipping %i bytes still in buffer\n", (int)count);
- reader->data += count;
- return;
- }
-
- mpack_skip_bytes_straddle(reader, count);
-}
-
-MPACK_NOINLINE static void mpack_reader_skip_using_fill(mpack_reader_t* reader, size_t count) {
- mpack_assert(reader->fill != NULL, "missing fill function!");
- mpack_assert(reader->data == reader->end, "there are bytes left in the buffer!");
- mpack_assert(reader->error == mpack_ok, "should not have called this in an error state (%i)", reader->error);
- mpack_log("skip using fill for %i bytes\n", (int)count);
-
- // fill and discard multiples of the buffer size
- while (count > reader->size) {
- mpack_log("filling and discarding buffer of %i bytes\n", (int)reader->size);
- if (mpack_fill_range(reader, reader->buffer, reader->size, reader->size) < reader->size) {
- mpack_reader_flag_error(reader, mpack_error_io);
- return;
- }
- count -= reader->size;
- }
-
- // fill the buffer as much as possible
- reader->data = reader->buffer;
- size_t read = mpack_fill_range(reader, reader->buffer, count, reader->size);
- if (read < count) {
- mpack_reader_flag_error(reader, mpack_error_io);
- return;
- }
- reader->end = reader->data + read;
- mpack_log("filled %i bytes into buffer; discarding %i bytes\n", (int)read, (int)count);
- reader->data += count;
-}
-
-void mpack_read_bytes(mpack_reader_t* reader, char* p, size_t count) {
- mpack_assert(p != NULL, "destination for read of %i bytes is NULL", (int)count);
- mpack_reader_track_bytes(reader, count);
- mpack_read_native(reader, p, count);
-}
-
-void mpack_read_utf8(mpack_reader_t* reader, char* p, size_t byte_count) {
- mpack_assert(p != NULL, "destination for read of %i bytes is NULL", (int)byte_count);
- mpack_reader_track_str_bytes_all(reader, byte_count);
- mpack_read_native(reader, p, byte_count);
-
- if (mpack_reader_error(reader) == mpack_ok && !mpack_utf8_check(p, byte_count))
- mpack_reader_flag_error(reader, mpack_error_type);
-}
-
-static void mpack_read_cstr_unchecked(mpack_reader_t* reader, char* buf, size_t buffer_size, size_t byte_count) {
- mpack_assert(buf != NULL, "destination for read of %i bytes is NULL", (int)byte_count);
- mpack_assert(buffer_size >= 1, "buffer size is zero; you must have room for at least a null-terminator");
-
- if (mpack_reader_error(reader)) {
- buf[0] = 0;
- return;
- }
-
- if (byte_count > buffer_size - 1) {
- mpack_reader_flag_error(reader, mpack_error_too_big);
- buf[0] = 0;
- return;
- }
-
- mpack_reader_track_str_bytes_all(reader, byte_count);
- mpack_read_native(reader, buf, byte_count);
- buf[byte_count] = 0;
-}
-
-void mpack_read_cstr(mpack_reader_t* reader, char* buf, size_t buffer_size, size_t byte_count) {
- mpack_read_cstr_unchecked(reader, buf, buffer_size, byte_count);
-
- // check for null bytes
- if (mpack_reader_error(reader) == mpack_ok && !mpack_str_check_no_null(buf, byte_count)) {
- buf[0] = 0;
- mpack_reader_flag_error(reader, mpack_error_type);
- }
-}
-
-void mpack_read_utf8_cstr(mpack_reader_t* reader, char* buf, size_t buffer_size, size_t byte_count) {
- mpack_read_cstr_unchecked(reader, buf, buffer_size, byte_count);
-
- // check encoding
- if (mpack_reader_error(reader) == mpack_ok && !mpack_utf8_check_no_null(buf, byte_count)) {
- buf[0] = 0;
- mpack_reader_flag_error(reader, mpack_error_type);
- }
-}
-
-#ifdef MPACK_MALLOC
-// Reads native bytes with error callback disabled. This allows MPack reader functions
-// to hold an allocated buffer and read native data into it without leaking it in
-// case of a non-local jump (longjmp, throw) out of an error handler.
-static void mpack_read_native_noerrorfn(mpack_reader_t* reader, char* p, size_t count) {
- mpack_assert(reader->error == mpack_ok, "cannot call if an error is already flagged!");
- mpack_reader_error_t error_fn = reader->error_fn;
- reader->error_fn = NULL;
- mpack_read_native(reader, p, count);
- reader->error_fn = error_fn;
-}
-
-char* mpack_read_bytes_alloc_impl(mpack_reader_t* reader, size_t count, bool null_terminated) {
-
- // track the bytes first in case it jumps
- mpack_reader_track_bytes(reader, count);
- if (mpack_reader_error(reader) != mpack_ok)
- return NULL;
-
- // cannot allocate zero bytes. this is not an error.
- if (count == 0 && null_terminated == false)
- return NULL;
-
- // allocate data
- char* data = (char*)MPACK_MALLOC(count + (null_terminated ? 1 : 0)); // TODO: can this overflow?
- if (data == NULL) {
- mpack_reader_flag_error(reader, mpack_error_memory);
- return NULL;
- }
-
- // read with error callback disabled so we don't leak our buffer
- mpack_read_native_noerrorfn(reader, data, count);
-
- // report flagged errors
- if (mpack_reader_error(reader) != mpack_ok) {
- MPACK_FREE(data);
- if (reader->error_fn)
- reader->error_fn(reader, mpack_reader_error(reader));
- return NULL;
- }
-
- if (null_terminated)
- data[count] = '\0';
- return data;
-}
-#endif
-
-// read inplace without tracking (since there are different
-// tracking modes for different inplace readers)
-static const char* mpack_read_bytes_inplace_notrack(mpack_reader_t* reader, size_t count) {
- if (mpack_reader_error(reader) != mpack_ok)
- return NULL;
-
- // if we have enough bytes already in the buffer, we can return it directly.
- if ((size_t)(reader->end - reader->data) >= count) {
- const char* bytes = reader->data;
- reader->data += count;
- return bytes;
- }
-
- if (!mpack_reader_ensure(reader, count))
- return NULL;
-
- const char* bytes = reader->data;
- reader->data += count;
- return bytes;
-}
-
-const char* mpack_read_bytes_inplace(mpack_reader_t* reader, size_t count) {
- mpack_reader_track_bytes(reader, count);
- return mpack_read_bytes_inplace_notrack(reader, count);
-}
-
-const char* mpack_read_utf8_inplace(mpack_reader_t* reader, size_t count) {
- mpack_reader_track_str_bytes_all(reader, count);
- const char* str = mpack_read_bytes_inplace_notrack(reader, count);
-
- if (mpack_reader_error(reader) == mpack_ok && !mpack_utf8_check(str, count)) {
- mpack_reader_flag_error(reader, mpack_error_type);
- return NULL;
- }
-
- return str;
-}
-
-static size_t mpack_parse_tag(mpack_reader_t* reader, mpack_tag_t* tag) {
- mpack_assert(reader->error == mpack_ok, "reader cannot be in an error state!");
-
- if (!mpack_reader_ensure(reader, 1))
- return 0;
- uint8_t type = mpack_load_u8(reader->data);
-
- // unfortunately, by far the fastest way to parse a tag is to switch
- // on the first byte, and to explicitly list every possible byte. so for
- // infix types, the list of cases is quite large.
- //
- // in size-optimized builds, we switch on the top four bits first to
- // handle most infix types with a smaller jump table to save space.
-
- #if MPACK_OPTIMIZE_FOR_SIZE
- switch (type >> 4) {
-
- // positive fixnum
- case 0x0: case 0x1: case 0x2: case 0x3:
- case 0x4: case 0x5: case 0x6: case 0x7:
- *tag = mpack_tag_make_uint(type);
- return 1;
-
- // negative fixnum
- case 0xe: case 0xf:
- *tag = mpack_tag_make_int((int8_t)type);
- return 1;
-
- // fixmap
- case 0x8:
- *tag = mpack_tag_make_map(type & ~0xf0u);
- return 1;
-
- // fixarray
- case 0x9:
- *tag = mpack_tag_make_array(type & ~0xf0u);
- return 1;
-
- // fixstr
- case 0xa: case 0xb:
- *tag = mpack_tag_make_str(type & ~0xe0u);
- return 1;
-
- // not one of the common infix types
- default:
- break;
-
- }
- #endif
-
- // handle individual type tags
- switch (type) {
-
- #if !MPACK_OPTIMIZE_FOR_SIZE
- // positive fixnum
- case 0x00: case 0x01: case 0x02: case 0x03: case 0x04: case 0x05: case 0x06: case 0x07:
- case 0x08: case 0x09: case 0x0a: case 0x0b: case 0x0c: case 0x0d: case 0x0e: case 0x0f:
- case 0x10: case 0x11: case 0x12: case 0x13: case 0x14: case 0x15: case 0x16: case 0x17:
- case 0x18: case 0x19: case 0x1a: case 0x1b: case 0x1c: case 0x1d: case 0x1e: case 0x1f:
- case 0x20: case 0x21: case 0x22: case 0x23: case 0x24: case 0x25: case 0x26: case 0x27:
- case 0x28: case 0x29: case 0x2a: case 0x2b: case 0x2c: case 0x2d: case 0x2e: case 0x2f:
- case 0x30: case 0x31: case 0x32: case 0x33: case 0x34: case 0x35: case 0x36: case 0x37:
- case 0x38: case 0x39: case 0x3a: case 0x3b: case 0x3c: case 0x3d: case 0x3e: case 0x3f:
- case 0x40: case 0x41: case 0x42: case 0x43: case 0x44: case 0x45: case 0x46: case 0x47:
- case 0x48: case 0x49: case 0x4a: case 0x4b: case 0x4c: case 0x4d: case 0x4e: case 0x4f:
- case 0x50: case 0x51: case 0x52: case 0x53: case 0x54: case 0x55: case 0x56: case 0x57:
- case 0x58: case 0x59: case 0x5a: case 0x5b: case 0x5c: case 0x5d: case 0x5e: case 0x5f:
- case 0x60: case 0x61: case 0x62: case 0x63: case 0x64: case 0x65: case 0x66: case 0x67:
- case 0x68: case 0x69: case 0x6a: case 0x6b: case 0x6c: case 0x6d: case 0x6e: case 0x6f:
- case 0x70: case 0x71: case 0x72: case 0x73: case 0x74: case 0x75: case 0x76: case 0x77:
- case 0x78: case 0x79: case 0x7a: case 0x7b: case 0x7c: case 0x7d: case 0x7e: case 0x7f:
- *tag = mpack_tag_make_uint(type);
- return 1;
-
- // negative fixnum
- case 0xe0: case 0xe1: case 0xe2: case 0xe3: case 0xe4: case 0xe5: case 0xe6: case 0xe7:
- case 0xe8: case 0xe9: case 0xea: case 0xeb: case 0xec: case 0xed: case 0xee: case 0xef:
- case 0xf0: case 0xf1: case 0xf2: case 0xf3: case 0xf4: case 0xf5: case 0xf6: case 0xf7:
- case 0xf8: case 0xf9: case 0xfa: case 0xfb: case 0xfc: case 0xfd: case 0xfe: case 0xff:
- *tag = mpack_tag_make_int((int8_t)type);
- return 1;
-
- // fixmap
- case 0x80: case 0x81: case 0x82: case 0x83: case 0x84: case 0x85: case 0x86: case 0x87:
- case 0x88: case 0x89: case 0x8a: case 0x8b: case 0x8c: case 0x8d: case 0x8e: case 0x8f:
- *tag = mpack_tag_make_map(type & ~0xf0u);
- return 1;
-
- // fixarray
- case 0x90: case 0x91: case 0x92: case 0x93: case 0x94: case 0x95: case 0x96: case 0x97:
- case 0x98: case 0x99: case 0x9a: case 0x9b: case 0x9c: case 0x9d: case 0x9e: case 0x9f:
- *tag = mpack_tag_make_array(type & ~0xf0u);
- return 1;
-
- // fixstr
- case 0xa0: case 0xa1: case 0xa2: case 0xa3: case 0xa4: case 0xa5: case 0xa6: case 0xa7:
- case 0xa8: case 0xa9: case 0xaa: case 0xab: case 0xac: case 0xad: case 0xae: case 0xaf:
- case 0xb0: case 0xb1: case 0xb2: case 0xb3: case 0xb4: case 0xb5: case 0xb6: case 0xb7:
- case 0xb8: case 0xb9: case 0xba: case 0xbb: case 0xbc: case 0xbd: case 0xbe: case 0xbf:
- *tag = mpack_tag_make_str(type & ~0xe0u);
- return 1;
- #endif
-
- // nil
- case 0xc0:
- *tag = mpack_tag_make_nil();
- return 1;
-
- // bool
- case 0xc2: case 0xc3:
- *tag = mpack_tag_make_bool((bool)(type & 1));
- return 1;
-
- // bin8
- case 0xc4:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_BIN8))
- return 0;
- *tag = mpack_tag_make_bin(mpack_load_u8(reader->data + 1));
- return MPACK_TAG_SIZE_BIN8;
-
- // bin16
- case 0xc5:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_BIN16))
- return 0;
- *tag = mpack_tag_make_bin(mpack_load_u16(reader->data + 1));
- return MPACK_TAG_SIZE_BIN16;
-
- // bin32
- case 0xc6:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_BIN32))
- return 0;
- *tag = mpack_tag_make_bin(mpack_load_u32(reader->data + 1));
- return MPACK_TAG_SIZE_BIN32;
-
- #if MPACK_EXTENSIONS
- // ext8
- case 0xc7:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_EXT8))
- return 0;
- *tag = mpack_tag_make_ext(mpack_load_i8(reader->data + 2), mpack_load_u8(reader->data + 1));
- return MPACK_TAG_SIZE_EXT8;
-
- // ext16
- case 0xc8:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_EXT16))
- return 0;
- *tag = mpack_tag_make_ext(mpack_load_i8(reader->data + 3), mpack_load_u16(reader->data + 1));
- return MPACK_TAG_SIZE_EXT16;
-
- // ext32
- case 0xc9:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_EXT32))
- return 0;
- *tag = mpack_tag_make_ext(mpack_load_i8(reader->data + 5), mpack_load_u32(reader->data + 1));
- return MPACK_TAG_SIZE_EXT32;
- #endif
-
- // float
- case 0xca:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_FLOAT))
- return 0;
- *tag = mpack_tag_make_float(mpack_load_float(reader->data + 1));
- return MPACK_TAG_SIZE_FLOAT;
-
- // double
- case 0xcb:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_DOUBLE))
- return 0;
- *tag = mpack_tag_make_double(mpack_load_double(reader->data + 1));
- return MPACK_TAG_SIZE_DOUBLE;
-
- // uint8
- case 0xcc:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_U8))
- return 0;
- *tag = mpack_tag_make_uint(mpack_load_u8(reader->data + 1));
- return MPACK_TAG_SIZE_U8;
-
- // uint16
- case 0xcd:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_U16))
- return 0;
- *tag = mpack_tag_make_uint(mpack_load_u16(reader->data + 1));
- return MPACK_TAG_SIZE_U16;
-
- // uint32
- case 0xce:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_U32))
- return 0;
- *tag = mpack_tag_make_uint(mpack_load_u32(reader->data + 1));
- return MPACK_TAG_SIZE_U32;
-
- // uint64
- case 0xcf:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_U64))
- return 0;
- *tag = mpack_tag_make_uint(mpack_load_u64(reader->data + 1));
- return MPACK_TAG_SIZE_U64;
-
- // int8
- case 0xd0:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_I8))
- return 0;
- *tag = mpack_tag_make_int(mpack_load_i8(reader->data + 1));
- return MPACK_TAG_SIZE_I8;
-
- // int16
- case 0xd1:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_I16))
- return 0;
- *tag = mpack_tag_make_int(mpack_load_i16(reader->data + 1));
- return MPACK_TAG_SIZE_I16;
-
- // int32
- case 0xd2:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_I32))
- return 0;
- *tag = mpack_tag_make_int(mpack_load_i32(reader->data + 1));
- return MPACK_TAG_SIZE_I32;
-
- // int64
- case 0xd3:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_I64))
- return 0;
- *tag = mpack_tag_make_int(mpack_load_i64(reader->data + 1));
- return MPACK_TAG_SIZE_I64;
-
- #if MPACK_EXTENSIONS
- // fixext1
- case 0xd4:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_FIXEXT1))
- return 0;
- *tag = mpack_tag_make_ext(mpack_load_i8(reader->data + 1), 1);
- return MPACK_TAG_SIZE_FIXEXT1;
-
- // fixext2
- case 0xd5:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_FIXEXT2))
- return 0;
- *tag = mpack_tag_make_ext(mpack_load_i8(reader->data + 1), 2);
- return MPACK_TAG_SIZE_FIXEXT2;
-
- // fixext4
- case 0xd6:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_FIXEXT4))
- return 0;
- *tag = mpack_tag_make_ext(mpack_load_i8(reader->data + 1), 4);
- return 2;
-
- // fixext8
- case 0xd7:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_FIXEXT8))
- return 0;
- *tag = mpack_tag_make_ext(mpack_load_i8(reader->data + 1), 8);
- return MPACK_TAG_SIZE_FIXEXT8;
-
- // fixext16
- case 0xd8:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_FIXEXT16))
- return 0;
- *tag = mpack_tag_make_ext(mpack_load_i8(reader->data + 1), 16);
- return MPACK_TAG_SIZE_FIXEXT16;
- #endif
-
- // str8
- case 0xd9:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_STR8))
- return 0;
- *tag = mpack_tag_make_str(mpack_load_u8(reader->data + 1));
- return MPACK_TAG_SIZE_STR8;
-
- // str16
- case 0xda:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_STR16))
- return 0;
- *tag = mpack_tag_make_str(mpack_load_u16(reader->data + 1));
- return MPACK_TAG_SIZE_STR16;
-
- // str32
- case 0xdb:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_STR32))
- return 0;
- *tag = mpack_tag_make_str(mpack_load_u32(reader->data + 1));
- return MPACK_TAG_SIZE_STR32;
-
- // array16
- case 0xdc:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_ARRAY16))
- return 0;
- *tag = mpack_tag_make_array(mpack_load_u16(reader->data + 1));
- return MPACK_TAG_SIZE_ARRAY16;
-
- // array32
- case 0xdd:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_ARRAY32))
- return 0;
- *tag = mpack_tag_make_array(mpack_load_u32(reader->data + 1));
- return MPACK_TAG_SIZE_ARRAY32;
-
- // map16
- case 0xde:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_MAP16))
- return 0;
- *tag = mpack_tag_make_map(mpack_load_u16(reader->data + 1));
- return MPACK_TAG_SIZE_MAP16;
-
- // map32
- case 0xdf:
- if (!mpack_reader_ensure(reader, MPACK_TAG_SIZE_MAP32))
- return 0;
- *tag = mpack_tag_make_map(mpack_load_u32(reader->data + 1));
- return MPACK_TAG_SIZE_MAP32;
-
- // reserved
- case 0xc1:
- mpack_reader_flag_error(reader, mpack_error_invalid);
- return 0;
-
- #if !MPACK_EXTENSIONS
- // ext
- case 0xc7: // fallthrough
- case 0xc8: // fallthrough
- case 0xc9: // fallthrough
- // fixext
- case 0xd4: // fallthrough
- case 0xd5: // fallthrough
- case 0xd6: // fallthrough
- case 0xd7: // fallthrough
- case 0xd8:
- mpack_reader_flag_error(reader, mpack_error_unsupported);
- return 0;
- #endif
-
- #if MPACK_OPTIMIZE_FOR_SIZE
- // any other bytes should have been handled by the infix switch
- default:
- break;
- #endif
- }
-
- mpack_assert(0, "unreachable");
- return 0;
-}
-
-mpack_tag_t mpack_read_tag(mpack_reader_t* reader) {
- mpack_log("reading tag\n");
-
- // make sure we can read a tag
- if (mpack_reader_error(reader) != mpack_ok)
- return mpack_tag_nil();
- if (mpack_reader_track_element(reader) != mpack_ok)
- return mpack_tag_nil();
-
- mpack_tag_t tag = MPACK_TAG_ZERO;
- size_t count = mpack_parse_tag(reader, &tag);
- if (count == 0)
- return mpack_tag_nil();
-
- #if MPACK_READ_TRACKING
- mpack_error_t track_error = mpack_ok;
-
- switch (tag.type) {
- case mpack_type_map:
- case mpack_type_array:
- track_error = mpack_track_push(&reader->track, tag.type, tag.v.n);
- break;
- #if MPACK_EXTENSIONS
- case mpack_type_ext:
- #endif
- case mpack_type_str:
- case mpack_type_bin:
- track_error = mpack_track_push(&reader->track, tag.type, tag.v.l);
- break;
- default:
- break;
- }
-
- if (track_error != mpack_ok) {
- mpack_reader_flag_error(reader, track_error);
- return mpack_tag_nil();
- }
- #endif
-
- reader->data += count;
- return tag;
-}
-
-mpack_tag_t mpack_peek_tag(mpack_reader_t* reader) {
- mpack_log("peeking tag\n");
-
- // make sure we can peek a tag
- if (mpack_reader_error(reader) != mpack_ok)
- return mpack_tag_nil();
- if (mpack_reader_track_peek_element(reader) != mpack_ok)
- return mpack_tag_nil();
-
- mpack_tag_t tag = MPACK_TAG_ZERO;
- if (mpack_parse_tag(reader, &tag) == 0)
- return mpack_tag_nil();
- return tag;
-}
-
-void mpack_discard(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (mpack_reader_error(reader))
- return;
- switch (var.type) {
- case mpack_type_str:
- mpack_skip_bytes(reader, var.v.l);
- mpack_done_str(reader);
- break;
- case mpack_type_bin:
- mpack_skip_bytes(reader, var.v.l);
- mpack_done_bin(reader);
- break;
- #if MPACK_EXTENSIONS
- case mpack_type_ext:
- mpack_skip_bytes(reader, var.v.l);
- mpack_done_ext(reader);
- break;
- #endif
- case mpack_type_array: {
- for (; var.v.n > 0; --var.v.n) {
- mpack_discard(reader);
- if (mpack_reader_error(reader))
- break;
- }
- mpack_done_array(reader);
- break;
- }
- case mpack_type_map: {
- for (; var.v.n > 0; --var.v.n) {
- mpack_discard(reader);
- mpack_discard(reader);
- if (mpack_reader_error(reader))
- break;
- }
- mpack_done_map(reader);
- break;
- }
- default:
- break;
- }
-}
-
-#if MPACK_EXTENSIONS
-mpack_timestamp_t mpack_read_timestamp(mpack_reader_t* reader, size_t size) {
- mpack_timestamp_t timestamp = {0, 0};
-
- if (size != 4 && size != 8 && size != 12) {
- mpack_reader_flag_error(reader, mpack_error_invalid);
- return timestamp;
- }
-
- char buf[12];
- mpack_read_bytes(reader, buf, size);
- mpack_done_ext(reader);
- if (mpack_reader_error(reader) != mpack_ok)
- return timestamp;
-
- switch (size) {
- case 4:
- timestamp.seconds = (int64_t)(uint64_t)mpack_load_u32(buf);
- break;
-
- case 8: {
- uint64_t packed = mpack_load_u64(buf);
- timestamp.seconds = (int64_t)(packed & ((UINT64_C(1) << 34) - 1));
- timestamp.nanoseconds = (uint32_t)(packed >> 34);
- break;
- }
-
- case 12:
- timestamp.nanoseconds = mpack_load_u32(buf);
- timestamp.seconds = mpack_load_i64(buf + 4);
- break;
-
- default:
- mpack_assert(false, "unreachable");
- break;
- }
-
- if (timestamp.nanoseconds > MPACK_TIMESTAMP_NANOSECONDS_MAX) {
- mpack_reader_flag_error(reader, mpack_error_invalid);
- mpack_timestamp_t zero = {0, 0};
- return zero;
- }
-
- return timestamp;
-}
-#endif
-
-#if MPACK_READ_TRACKING
-void mpack_done_type(mpack_reader_t* reader, mpack_type_t type) {
- if (mpack_reader_error(reader) == mpack_ok)
- mpack_reader_flag_if_error(reader, mpack_track_pop(&reader->track, type));
-}
-#endif
-
-#if MPACK_DEBUG && MPACK_STDIO
-static size_t mpack_print_read_prefix(mpack_reader_t* reader, size_t length, char* buffer, size_t buffer_size) {
- if (length == 0)
- return 0;
-
- size_t read = (length < buffer_size) ? length : buffer_size;
- mpack_read_bytes(reader, buffer, read);
- if (mpack_reader_error(reader) != mpack_ok)
- return 0;
-
- mpack_skip_bytes(reader, length - read);
- return read;
-}
-
-static void mpack_print_element(mpack_reader_t* reader, mpack_print_t* print, size_t depth) {
- mpack_tag_t val = mpack_read_tag(reader);
- if (mpack_reader_error(reader) != mpack_ok)
- return;
-
- // We read some bytes from bin and ext so we can print its prefix in hex.
- char buffer[MPACK_PRINT_BYTE_COUNT];
- size_t count = 0;
-
- switch (val.type) {
- case mpack_type_str:
- mpack_print_append_cstr(print, "\"");
- for (size_t i = 0; i < val.v.l; ++i) {
- char c;
- mpack_read_bytes(reader, &c, 1);
- if (mpack_reader_error(reader) != mpack_ok)
- return;
- switch (c) {
- case '\n': mpack_print_append_cstr(print, "\\n"); break;
- case '\\': mpack_print_append_cstr(print, "\\\\"); break;
- case '"': mpack_print_append_cstr(print, "\\\""); break;
- default: mpack_print_append(print, &c, 1); break;
- }
- }
- mpack_print_append_cstr(print, "\"");
- mpack_done_str(reader);
- return;
-
- case mpack_type_array:
- mpack_print_append_cstr(print, "[\n");
- for (size_t i = 0; i < val.v.n; ++i) {
- for (size_t j = 0; j < depth + 1; ++j)
- mpack_print_append_cstr(print, " ");
- mpack_print_element(reader, print, depth + 1);
- if (mpack_reader_error(reader) != mpack_ok)
- return;
- if (i != val.v.n - 1)
- mpack_print_append_cstr(print, ",");
- mpack_print_append_cstr(print, "\n");
- }
- for (size_t i = 0; i < depth; ++i)
- mpack_print_append_cstr(print, " ");
- mpack_print_append_cstr(print, "]");
- mpack_done_array(reader);
- return;
-
- case mpack_type_map:
- mpack_print_append_cstr(print, "{\n");
- for (size_t i = 0; i < val.v.n; ++i) {
- for (size_t j = 0; j < depth + 1; ++j)
- mpack_print_append_cstr(print, " ");
- mpack_print_element(reader, print, depth + 1);
- if (mpack_reader_error(reader) != mpack_ok)
- return;
- mpack_print_append_cstr(print, ": ");
- mpack_print_element(reader, print, depth + 1);
- if (mpack_reader_error(reader) != mpack_ok)
- return;
- if (i != val.v.n - 1)
- mpack_print_append_cstr(print, ",");
- mpack_print_append_cstr(print, "\n");
- }
- for (size_t i = 0; i < depth; ++i)
- mpack_print_append_cstr(print, " ");
- mpack_print_append_cstr(print, "}");
- mpack_done_map(reader);
- return;
-
- // The above cases return so as not to print a pseudo-json value. The
- // below cases break and print pseudo-json.
-
- case mpack_type_bin:
- count = mpack_print_read_prefix(reader, mpack_tag_bin_length(&val), buffer, sizeof(buffer));
- mpack_done_bin(reader);
- break;
-
- #if MPACK_EXTENSIONS
- case mpack_type_ext:
- count = mpack_print_read_prefix(reader, mpack_tag_ext_length(&val), buffer, sizeof(buffer));
- mpack_done_ext(reader);
- break;
- #endif
-
- default:
- break;
- }
-
- char buf[256];
- mpack_tag_debug_pseudo_json(val, buf, sizeof(buf), buffer, count);
- mpack_print_append_cstr(print, buf);
-}
-
-static void mpack_print_and_destroy(mpack_reader_t* reader, mpack_print_t* print, size_t depth) {
- for (size_t i = 0; i < depth; ++i)
- mpack_print_append_cstr(print, " ");
- mpack_print_element(reader, print, depth);
-
- size_t remaining = mpack_reader_remaining(reader, NULL);
-
- char buf[256];
- if (mpack_reader_destroy(reader) != mpack_ok) {
- mpack_snprintf(buf, sizeof(buf), "\n<mpack parsing error %s>", mpack_error_to_string(mpack_reader_error(reader)));
- buf[sizeof(buf) - 1] = '\0';
- mpack_print_append_cstr(print, buf);
- } else if (remaining > 0) {
- mpack_snprintf(buf, sizeof(buf), "\n<%i extra bytes at end of message>", (int)remaining);
- buf[sizeof(buf) - 1] = '\0';
- mpack_print_append_cstr(print, buf);
- }
-}
-
-static void mpack_print_data(const char* data, size_t len, mpack_print_t* print, size_t depth) {
- mpack_reader_t reader;
- mpack_reader_init_data(&reader, data, len);
- mpack_print_and_destroy(&reader, print, depth);
-}
-
-void mpack_print_data_to_buffer(const char* data, size_t data_size, char* buffer, size_t buffer_size) {
- if (buffer_size == 0) {
- mpack_assert(false, "buffer size is zero!");
- return;
- }
-
- mpack_print_t print;
- mpack_memset(&print, 0, sizeof(print));
- print.buffer = buffer;
- print.size = buffer_size;
- mpack_print_data(data, data_size, &print, 0);
- mpack_print_append(&print, "", 1); // null-terminator
- mpack_print_flush(&print);
-
- // we always make sure there's a null-terminator at the end of the buffer
- // in case we ran out of space.
- print.buffer[print.size - 1] = '\0';
-}
-
-void mpack_print_data_to_callback(const char* data, size_t size, mpack_print_callback_t callback, void* context) {
- char buffer[1024];
- mpack_print_t print;
- mpack_memset(&print, 0, sizeof(print));
- print.buffer = buffer;
- print.size = sizeof(buffer);
- print.callback = callback;
- print.context = context;
- mpack_print_data(data, size, &print, 0);
- mpack_print_flush(&print);
-}
-
-void mpack_print_data_to_file(const char* data, size_t len, FILE* file) {
- mpack_assert(data != NULL, "data is NULL");
- mpack_assert(file != NULL, "file is NULL");
-
- char buffer[1024];
- mpack_print_t print;
- mpack_memset(&print, 0, sizeof(print));
- print.buffer = buffer;
- print.size = sizeof(buffer);
- print.callback = &mpack_print_file_callback;
- print.context = file;
-
- mpack_print_data(data, len, &print, 2);
- mpack_print_append_cstr(&print, "\n");
- mpack_print_flush(&print);
-}
-
-void mpack_print_stdfile_to_callback(FILE* file, mpack_print_callback_t callback, void* context) {
- char buffer[1024];
- mpack_print_t print;
- mpack_memset(&print, 0, sizeof(print));
- print.buffer = buffer;
- print.size = sizeof(buffer);
- print.callback = callback;
- print.context = context;
-
- mpack_reader_t reader;
- mpack_reader_init_stdfile(&reader, file, false);
- mpack_print_and_destroy(&reader, &print, 0);
- mpack_print_flush(&print);
-}
-#endif
-
-#endif
-
-/* mpack/mpack-expect.c.c */
-
-#define MPACK_INTERNAL 1
-
-/* #include "mpack-expect.h" */
-
-#if MPACK_EXPECT
-
-
-// Helpers
-
-MPACK_STATIC_INLINE uint8_t mpack_expect_native_u8(mpack_reader_t* reader) {
- if (mpack_reader_error(reader) != mpack_ok)
- return 0;
- uint8_t type;
- if (!mpack_reader_ensure(reader, sizeof(type)))
- return 0;
- type = mpack_load_u8(reader->data);
- reader->data += sizeof(type);
- return type;
-}
-
-#if !MPACK_OPTIMIZE_FOR_SIZE
-MPACK_STATIC_INLINE uint16_t mpack_expect_native_u16(mpack_reader_t* reader) {
- if (mpack_reader_error(reader) != mpack_ok)
- return 0;
- uint16_t type;
- if (!mpack_reader_ensure(reader, sizeof(type)))
- return 0;
- type = mpack_load_u16(reader->data);
- reader->data += sizeof(type);
- return type;
-}
-
-MPACK_STATIC_INLINE uint32_t mpack_expect_native_u32(mpack_reader_t* reader) {
- if (mpack_reader_error(reader) != mpack_ok)
- return 0;
- uint32_t type;
- if (!mpack_reader_ensure(reader, sizeof(type)))
- return 0;
- type = mpack_load_u32(reader->data);
- reader->data += sizeof(type);
- return type;
-}
-#endif
-
-MPACK_STATIC_INLINE uint8_t mpack_expect_type_byte(mpack_reader_t* reader) {
- mpack_reader_track_element(reader);
- return mpack_expect_native_u8(reader);
-}
-
-
-// Basic Number Functions
-
-uint8_t mpack_expect_u8(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_uint) {
- if (var.v.u <= UINT8_MAX)
- return (uint8_t)var.v.u;
- } else if (var.type == mpack_type_int) {
- if (var.v.i >= 0 && var.v.i <= UINT8_MAX)
- return (uint8_t)var.v.i;
- }
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-uint16_t mpack_expect_u16(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_uint) {
- if (var.v.u <= UINT16_MAX)
- return (uint16_t)var.v.u;
- } else if (var.type == mpack_type_int) {
- if (var.v.i >= 0 && var.v.i <= UINT16_MAX)
- return (uint16_t)var.v.i;
- }
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-uint32_t mpack_expect_u32(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_uint) {
- if (var.v.u <= UINT32_MAX)
- return (uint32_t)var.v.u;
- } else if (var.type == mpack_type_int) {
- if (var.v.i >= 0 && var.v.i <= UINT32_MAX)
- return (uint32_t)var.v.i;
- }
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-uint64_t mpack_expect_u64(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_uint) {
- return var.v.u;
- } else if (var.type == mpack_type_int) {
- if (var.v.i >= 0)
- return (uint64_t)var.v.i;
- }
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-int8_t mpack_expect_i8(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_uint) {
- if (var.v.u <= INT8_MAX)
- return (int8_t)var.v.u;
- } else if (var.type == mpack_type_int) {
- if (var.v.i >= INT8_MIN && var.v.i <= INT8_MAX)
- return (int8_t)var.v.i;
- }
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-int16_t mpack_expect_i16(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_uint) {
- if (var.v.u <= INT16_MAX)
- return (int16_t)var.v.u;
- } else if (var.type == mpack_type_int) {
- if (var.v.i >= INT16_MIN && var.v.i <= INT16_MAX)
- return (int16_t)var.v.i;
- }
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-int32_t mpack_expect_i32(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_uint) {
- if (var.v.u <= INT32_MAX)
- return (int32_t)var.v.u;
- } else if (var.type == mpack_type_int) {
- if (var.v.i >= INT32_MIN && var.v.i <= INT32_MAX)
- return (int32_t)var.v.i;
- }
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-int64_t mpack_expect_i64(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_uint) {
- if (var.v.u <= INT64_MAX)
- return (int64_t)var.v.u;
- } else if (var.type == mpack_type_int) {
- return var.v.i;
- }
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-float mpack_expect_float(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_uint)
- return (float)var.v.u;
- else if (var.type == mpack_type_int)
- return (float)var.v.i;
- else if (var.type == mpack_type_float)
- return var.v.f;
- else if (var.type == mpack_type_double)
- return (float)var.v.d;
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0.0f;
-}
-
-double mpack_expect_double(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_uint)
- return (double)var.v.u;
- else if (var.type == mpack_type_int)
- return (double)var.v.i;
- else if (var.type == mpack_type_float)
- return (double)var.v.f;
- else if (var.type == mpack_type_double)
- return var.v.d;
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0.0;
-}
-
-float mpack_expect_float_strict(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_float)
- return var.v.f;
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0.0f;
-}
-
-double mpack_expect_double_strict(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_float)
- return (double)var.v.f;
- else if (var.type == mpack_type_double)
- return var.v.d;
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0.0;
-}
-
-
-// Ranged Number Functions
-//
-// All ranged functions are identical other than the type, so we
-// define their content with a macro. The prototypes are still written
-// out in full to support ctags/IDE tools.
-
-#define MPACK_EXPECT_RANGE_IMPL(name, type_t) \
- \
- /* make sure the range is sensible */ \
- mpack_assert(min_value <= max_value, \
- "min_value %i must be less than or equal to max_value %i", \
- min_value, max_value); \
- \
- /* read the value */ \
- type_t val = mpack_expect_##name(reader); \
- if (mpack_reader_error(reader) != mpack_ok) \
- return min_value; \
- \
- /* make sure it fits */ \
- if (val < min_value || val > max_value) { \
- mpack_reader_flag_error(reader, mpack_error_type); \
- return min_value; \
- } \
- \
- return val;
-
-uint8_t mpack_expect_u8_range(mpack_reader_t* reader, uint8_t min_value, uint8_t max_value) {MPACK_EXPECT_RANGE_IMPL(u8, uint8_t)}
-uint16_t mpack_expect_u16_range(mpack_reader_t* reader, uint16_t min_value, uint16_t max_value) {MPACK_EXPECT_RANGE_IMPL(u16, uint16_t)}
-uint32_t mpack_expect_u32_range(mpack_reader_t* reader, uint32_t min_value, uint32_t max_value) {MPACK_EXPECT_RANGE_IMPL(u32, uint32_t)}
-uint64_t mpack_expect_u64_range(mpack_reader_t* reader, uint64_t min_value, uint64_t max_value) {MPACK_EXPECT_RANGE_IMPL(u64, uint64_t)}
-
-int8_t mpack_expect_i8_range(mpack_reader_t* reader, int8_t min_value, int8_t max_value) {MPACK_EXPECT_RANGE_IMPL(i8, int8_t)}
-int16_t mpack_expect_i16_range(mpack_reader_t* reader, int16_t min_value, int16_t max_value) {MPACK_EXPECT_RANGE_IMPL(i16, int16_t)}
-int32_t mpack_expect_i32_range(mpack_reader_t* reader, int32_t min_value, int32_t max_value) {MPACK_EXPECT_RANGE_IMPL(i32, int32_t)}
-int64_t mpack_expect_i64_range(mpack_reader_t* reader, int64_t min_value, int64_t max_value) {MPACK_EXPECT_RANGE_IMPL(i64, int64_t)}
-
-float mpack_expect_float_range(mpack_reader_t* reader, float min_value, float max_value) {MPACK_EXPECT_RANGE_IMPL(float, float)}
-double mpack_expect_double_range(mpack_reader_t* reader, double min_value, double max_value) {MPACK_EXPECT_RANGE_IMPL(double, double)}
-
-uint32_t mpack_expect_map_range(mpack_reader_t* reader, uint32_t min_value, uint32_t max_value) {MPACK_EXPECT_RANGE_IMPL(map, uint32_t)}
-uint32_t mpack_expect_array_range(mpack_reader_t* reader, uint32_t min_value, uint32_t max_value) {MPACK_EXPECT_RANGE_IMPL(array, uint32_t)}
-
-
-// Matching Number Functions
-
-void mpack_expect_uint_match(mpack_reader_t* reader, uint64_t value) {
- if (mpack_expect_u64(reader) != value)
- mpack_reader_flag_error(reader, mpack_error_type);
-}
-
-void mpack_expect_int_match(mpack_reader_t* reader, int64_t value) {
- if (mpack_expect_i64(reader) != value)
- mpack_reader_flag_error(reader, mpack_error_type);
-}
-
-
-// Other Basic Types
-
-void mpack_expect_nil(mpack_reader_t* reader) {
- if (mpack_expect_type_byte(reader) != 0xc0)
- mpack_reader_flag_error(reader, mpack_error_type);
-}
-
-bool mpack_expect_bool(mpack_reader_t* reader) {
- uint8_t type = mpack_expect_type_byte(reader);
- if ((type & ~1) != 0xc2)
- mpack_reader_flag_error(reader, mpack_error_type);
- return (bool)(type & 1);
-}
-
-void mpack_expect_true(mpack_reader_t* reader) {
- if (mpack_expect_bool(reader) != true)
- mpack_reader_flag_error(reader, mpack_error_type);
-}
-
-void mpack_expect_false(mpack_reader_t* reader) {
- if (mpack_expect_bool(reader) != false)
- mpack_reader_flag_error(reader, mpack_error_type);
-}
-
-#if MPACK_EXTENSIONS
-mpack_timestamp_t mpack_expect_timestamp(mpack_reader_t* reader) {
- mpack_timestamp_t zero = {0, 0};
-
- mpack_tag_t tag = mpack_read_tag(reader);
- if (tag.type != mpack_type_ext) {
- mpack_reader_flag_error(reader, mpack_error_type);
- return zero;
- }
- if (mpack_tag_ext_exttype(&tag) != MPACK_EXTTYPE_TIMESTAMP) {
- mpack_reader_flag_error(reader, mpack_error_type);
- return zero;
- }
-
- return mpack_read_timestamp(reader, mpack_tag_ext_length(&tag));
-}
-
-int64_t mpack_expect_timestamp_truncate(mpack_reader_t* reader) {
- return mpack_expect_timestamp(reader).seconds;
-}
-#endif
-
-
-// Compound Types
-
-uint32_t mpack_expect_map(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_map)
- return var.v.n;
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-void mpack_expect_map_match(mpack_reader_t* reader, uint32_t count) {
- if (mpack_expect_map(reader) != count)
- mpack_reader_flag_error(reader, mpack_error_type);
-}
-
-bool mpack_expect_map_or_nil(mpack_reader_t* reader, uint32_t* count) {
- mpack_assert(count != NULL, "count cannot be NULL");
-
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_nil) {
- *count = 0;
- return false;
- }
- if (var.type == mpack_type_map) {
- *count = var.v.n;
- return true;
- }
- mpack_reader_flag_error(reader, mpack_error_type);
- *count = 0;
- return false;
-}
-
-bool mpack_expect_map_max_or_nil(mpack_reader_t* reader, uint32_t max_count, uint32_t* count) {
- mpack_assert(count != NULL, "count cannot be NULL");
-
- bool has_map = mpack_expect_map_or_nil(reader, count);
- if (has_map && *count > max_count) {
- *count = 0;
- mpack_reader_flag_error(reader, mpack_error_type);
- return false;
- }
- return has_map;
-}
-
-uint32_t mpack_expect_array(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_array)
- return var.v.n;
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-void mpack_expect_array_match(mpack_reader_t* reader, uint32_t count) {
- if (mpack_expect_array(reader) != count)
- mpack_reader_flag_error(reader, mpack_error_type);
-}
-
-bool mpack_expect_array_or_nil(mpack_reader_t* reader, uint32_t* count) {
- mpack_assert(count != NULL, "count cannot be NULL");
-
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_nil) {
- *count = 0;
- return false;
- }
- if (var.type == mpack_type_array) {
- *count = var.v.n;
- return true;
- }
- mpack_reader_flag_error(reader, mpack_error_type);
- *count = 0;
- return false;
-}
-
-bool mpack_expect_array_max_or_nil(mpack_reader_t* reader, uint32_t max_count, uint32_t* count) {
- mpack_assert(count != NULL, "count cannot be NULL");
-
- bool has_array = mpack_expect_array_or_nil(reader, count);
- if (has_array && *count > max_count) {
- *count = 0;
- mpack_reader_flag_error(reader, mpack_error_type);
- return false;
- }
- return has_array;
-}
-
-#ifdef MPACK_MALLOC
-void* mpack_expect_array_alloc_impl(mpack_reader_t* reader, size_t element_size, uint32_t max_count, uint32_t* out_count, bool allow_nil) {
- mpack_assert(out_count != NULL, "out_count cannot be NULL");
- *out_count = 0;
-
- uint32_t count;
- bool has_array = true;
- if (allow_nil)
- has_array = mpack_expect_array_max_or_nil(reader, max_count, &count);
- else
- count = mpack_expect_array_max(reader, max_count);
- if (mpack_reader_error(reader))
- return NULL;
-
- // size 0 is not an error; we return NULL for no elements.
- if (count == 0) {
- // we call mpack_done_array() automatically ONLY if we are using
- // the _or_nil variant. this is the only way to allow nil and empty
- // to work the same way.
- if (allow_nil && has_array)
- mpack_done_array(reader);
- return NULL;
- }
-
- void* p = MPACK_MALLOC(element_size * count);
- if (p == NULL) {
- mpack_reader_flag_error(reader, mpack_error_memory);
- return NULL;
- }
-
- *out_count = count;
- return p;
-}
-#endif
-
-
-// Str, Bin and Ext Functions
-
-uint32_t mpack_expect_str(mpack_reader_t* reader) {
- #if MPACK_OPTIMIZE_FOR_SIZE
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_str)
- return var.v.l;
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
- #else
- uint8_t type = mpack_expect_type_byte(reader);
- uint32_t count;
-
- if ((type >> 5) == 5) {
- count = type & (uint8_t)~0xe0;
- } else if (type == 0xd9) {
- count = mpack_expect_native_u8(reader);
- } else if (type == 0xda) {
- count = mpack_expect_native_u16(reader);
- } else if (type == 0xdb) {
- count = mpack_expect_native_u32(reader);
- } else {
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
- }
-
- #if MPACK_READ_TRACKING
- mpack_reader_flag_if_error(reader, mpack_track_push(&reader->track, mpack_type_str, count));
- #endif
- return count;
- #endif
-}
-
-size_t mpack_expect_str_buf(mpack_reader_t* reader, char* buf, size_t bufsize) {
- mpack_assert(buf != NULL, "buf cannot be NULL");
-
- size_t length = mpack_expect_str(reader);
- if (mpack_reader_error(reader))
- return 0;
-
- if (length > bufsize) {
- mpack_reader_flag_error(reader, mpack_error_too_big);
- return 0;
- }
-
- mpack_read_bytes(reader, buf, length);
- if (mpack_reader_error(reader))
- return 0;
-
- mpack_done_str(reader);
- return length;
-}
-
-size_t mpack_expect_utf8(mpack_reader_t* reader, char* buf, size_t size) {
- mpack_assert(buf != NULL, "buf cannot be NULL");
-
- size_t length = mpack_expect_str_buf(reader, buf, size);
-
- if (!mpack_utf8_check(buf, length)) {
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
- }
-
- return length;
-}
-
-uint32_t mpack_expect_bin(mpack_reader_t* reader) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_bin)
- return var.v.l;
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-size_t mpack_expect_bin_buf(mpack_reader_t* reader, char* buf, size_t bufsize) {
- mpack_assert(buf != NULL, "buf cannot be NULL");
-
- size_t binsize = mpack_expect_bin(reader);
- if (mpack_reader_error(reader))
- return 0;
- if (binsize > bufsize) {
- mpack_reader_flag_error(reader, mpack_error_too_big);
- return 0;
- }
- mpack_read_bytes(reader, buf, binsize);
- if (mpack_reader_error(reader))
- return 0;
- mpack_done_bin(reader);
- return binsize;
-}
-
-#if MPACK_EXTENSIONS
-uint32_t mpack_expect_ext(mpack_reader_t* reader, int8_t* type) {
- mpack_tag_t var = mpack_read_tag(reader);
- if (var.type == mpack_type_ext) {
- *type = mpack_tag_ext_exttype(&var);
- return mpack_tag_ext_length(&var);
- }
- *type = 0;
- mpack_reader_flag_error(reader, mpack_error_type);
- return 0;
-}
-
-size_t mpack_expect_ext_buf(mpack_reader_t* reader, int8_t* type, char* buf, size_t bufsize) {
- mpack_assert(buf != NULL, "buf cannot be NULL");
-
- size_t extsize = mpack_expect_ext(reader, type);
- if (mpack_reader_error(reader))
- return 0;
- if (extsize > bufsize) {
- *type = 0;
- mpack_reader_flag_error(reader, mpack_error_too_big);
- return 0;
- }
- mpack_read_bytes(reader, buf, extsize);
- if (mpack_reader_error(reader)) {
- *type = 0;
- return 0;
- }
- mpack_done_ext(reader);
- return extsize;
-}
-#endif
-
-void mpack_expect_cstr(mpack_reader_t* reader, char* buf, size_t bufsize) {
- uint32_t length = mpack_expect_str(reader);
- mpack_read_cstr(reader, buf, bufsize, length);
- mpack_done_str(reader);
-}
-
-void mpack_expect_utf8_cstr(mpack_reader_t* reader, char* buf, size_t bufsize) {
- uint32_t length = mpack_expect_str(reader);
- mpack_read_utf8_cstr(reader, buf, bufsize, length);
- mpack_done_str(reader);
-}
-
-#ifdef MPACK_MALLOC
-static char* mpack_expect_cstr_alloc_unchecked(mpack_reader_t* reader, size_t maxsize, size_t* out_length) {
- mpack_assert(out_length != NULL, "out_length cannot be NULL");
- *out_length = 0;
-
- // make sure argument makes sense
- if (maxsize < 1) {
- mpack_break("maxsize is zero; you must have room for at least a null-terminator");
- mpack_reader_flag_error(reader, mpack_error_bug);
- return NULL;
- }
-
- if (maxsize > UINT32_MAX)
- maxsize = UINT32_MAX;
-
- size_t length = mpack_expect_str_max(reader, (uint32_t)maxsize - 1);
- char* str = mpack_read_bytes_alloc_impl(reader, length, true);
- mpack_done_str(reader);
-
- if (str)
- *out_length = length;
- return str;
-}
-
-char* mpack_expect_cstr_alloc(mpack_reader_t* reader, size_t maxsize) {
- size_t length;
- char* str = mpack_expect_cstr_alloc_unchecked(reader, maxsize, &length);
-
- if (str && !mpack_str_check_no_null(str, length)) {
- MPACK_FREE(str);
- mpack_reader_flag_error(reader, mpack_error_type);
- return NULL;
- }
-
- return str;
-}
-
-char* mpack_expect_utf8_cstr_alloc(mpack_reader_t* reader, size_t maxsize) {
- size_t length;
- char* str = mpack_expect_cstr_alloc_unchecked(reader, maxsize, &length);
-
- if (str && !mpack_utf8_check_no_null(str, length)) {
- MPACK_FREE(str);
- mpack_reader_flag_error(reader, mpack_error_type);
- return NULL;
- }
-
- return str;
-}
-#endif
-
-void mpack_expect_str_match(mpack_reader_t* reader, const char* str, size_t len) {
- mpack_assert(str != NULL, "str cannot be NULL");
-
- // expect a str the correct length
- if (len > UINT32_MAX)
- mpack_reader_flag_error(reader, mpack_error_type);
- mpack_expect_str_length(reader, (uint32_t)len);
- if (mpack_reader_error(reader))
- return;
- mpack_reader_track_bytes(reader, len);
-
- // check each byte one by one (matched strings are likely to be very small)
- for (; len > 0; --len) {
- if (mpack_expect_native_u8(reader) != *str++) {
- mpack_reader_flag_error(reader, mpack_error_type);
- return;
- }
- }
-
- mpack_done_str(reader);
-}
-
-void mpack_expect_tag(mpack_reader_t* reader, mpack_tag_t expected) {
- mpack_tag_t actual = mpack_read_tag(reader);
- if (!mpack_tag_equal(actual, expected))
- mpack_reader_flag_error(reader, mpack_error_type);
-}
-
-#ifdef MPACK_MALLOC
-char* mpack_expect_bin_alloc(mpack_reader_t* reader, size_t maxsize, size_t* size) {
- mpack_assert(size != NULL, "size cannot be NULL");
- *size = 0;
-
- if (maxsize > UINT32_MAX)
- maxsize = UINT32_MAX;
-
- size_t length = mpack_expect_bin_max(reader, (uint32_t)maxsize);
- if (mpack_reader_error(reader))
- return NULL;
-
- char* data = mpack_read_bytes_alloc(reader, length);
- mpack_done_bin(reader);
-
- if (data)
- *size = length;
- return data;
-}
-#endif
-
-#if MPACK_EXTENSIONS && defined(MPACK_MALLOC)
-char* mpack_expect_ext_alloc(mpack_reader_t* reader, int8_t* type, size_t maxsize, size_t* size) {
- mpack_assert(size != NULL, "size cannot be NULL");
- *size = 0;
-
- if (maxsize > UINT32_MAX)
- maxsize = UINT32_MAX;
-
- size_t length = mpack_expect_ext_max(reader, type, (uint32_t)maxsize);
- if (mpack_reader_error(reader))
- return NULL;
-
- char* data = mpack_read_bytes_alloc(reader, length);
- mpack_done_ext(reader);
-
- if (data) {
- *size = length;
- } else {
- *type = 0;
- }
- return data;
-}
-#endif
-
-size_t mpack_expect_enum(mpack_reader_t* reader, const char* strings[], size_t count) {
-
- // read the string in-place
- size_t keylen = mpack_expect_str(reader);
- const char* key = mpack_read_bytes_inplace(reader, keylen);
- mpack_done_str(reader);
- if (mpack_reader_error(reader) != mpack_ok)
- return count;
-
- // find what key it matches
- for (size_t i = 0; i < count; ++i) {
- const char* other = strings[i];
- size_t otherlen = mpack_strlen(other);
- if (keylen == otherlen && mpack_memcmp(key, other, keylen) == 0)
- return i;
- }
-
- // no matches
- mpack_reader_flag_error(reader, mpack_error_type);
- return count;
-}
-
-size_t mpack_expect_enum_optional(mpack_reader_t* reader, const char* strings[], size_t count) {
- if (mpack_reader_error(reader) != mpack_ok)
- return count;
-
- mpack_assert(count != 0, "count cannot be zero; no strings are valid!");
- mpack_assert(strings != NULL, "strings cannot be NULL");
-
- // the key is only recognized if it is a string
- if (mpack_peek_tag(reader).type != mpack_type_str) {
- mpack_discard(reader);
- return count;
- }
-
- // read the string in-place
- size_t keylen = mpack_expect_str(reader);
- const char* key = mpack_read_bytes_inplace(reader, keylen);
- mpack_done_str(reader);
- if (mpack_reader_error(reader) != mpack_ok)
- return count;
-
- // find what key it matches
- for (size_t i = 0; i < count; ++i) {
- const char* other = strings[i];
- size_t otherlen = mpack_strlen(other);
- if (keylen == otherlen && mpack_memcmp(key, other, keylen) == 0)
- return i;
- }
-
- // no matches
- return count;
-}
-
-size_t mpack_expect_key_uint(mpack_reader_t* reader, bool found[], size_t count) {
- if (mpack_reader_error(reader) != mpack_ok)
- return count;
-
- if (count == 0) {
- mpack_break("count cannot be zero; no keys are valid!");
- mpack_reader_flag_error(reader, mpack_error_bug);
- return count;
- }
- mpack_assert(found != NULL, "found cannot be NULL");
-
- // the key is only recognized if it is an unsigned int
- if (mpack_peek_tag(reader).type != mpack_type_uint) {
- mpack_discard(reader);
- return count;
- }
-
- // read the key
- uint64_t value = mpack_expect_u64(reader);
- if (mpack_reader_error(reader) != mpack_ok)
- return count;
-
- // unrecognized keys are fine, we just return count
- if (value >= count)
- return count;
-
- // check if this key is a duplicate
- if (found[value]) {
- mpack_reader_flag_error(reader, mpack_error_invalid);
- return count;
- }
-
- found[value] = true;
- return (size_t)value;
-}
-
-size_t mpack_expect_key_cstr(mpack_reader_t* reader, const char* keys[], bool found[], size_t count) {
- size_t i = mpack_expect_enum_optional(reader, keys, count);
-
- // unrecognized keys are fine, we just return count
- if (i == count)
- return count;
-
- // check if this key is a duplicate
- mpack_assert(found != NULL, "found cannot be NULL");
- if (found[i]) {
- mpack_reader_flag_error(reader, mpack_error_invalid);
- return count;
- }
-
- found[i] = true;
- return i;
-}
-
-#endif
-
-
-/* mpack/mpack-node.c.c */
-
-#define MPACK_INTERNAL 1
-
-/* #include "mpack-node.h" */
-
-#if MPACK_NODE
-
-MPACK_STATIC_INLINE const char* mpack_node_data_unchecked(mpack_node_t node) {
- mpack_assert(mpack_node_error(node) == mpack_ok, "tree is in an error state!");
-
- mpack_type_t type = node.data->type;
- MPACK_UNUSED(type);
- #if MPACK_EXTENSIONS
- mpack_assert(type == mpack_type_str || type == mpack_type_bin || type == mpack_type_ext,
- "node of type %i (%s) is not a data type!", type, mpack_type_to_string(type));
- #else
- mpack_assert(type == mpack_type_str || type == mpack_type_bin,
- "node of type %i (%s) is not a data type!", type, mpack_type_to_string(type));
- #endif
-
- return node.tree->data + node.data->value.offset;
-}
-
-#if MPACK_EXTENSIONS
-MPACK_STATIC_INLINE int8_t mpack_node_exttype_unchecked(mpack_node_t node) {
- mpack_assert(mpack_node_error(node) == mpack_ok, "tree is in an error state!");
-
- mpack_type_t type = node.data->type;
- MPACK_UNUSED(type);
- mpack_assert(type == mpack_type_ext, "node of type %i (%s) is not an ext type!",
- type, mpack_type_to_string(type));
-
- // the exttype of an ext node is stored in the byte preceding the data
- return mpack_load_i8(mpack_node_data_unchecked(node) - 1);
-}
-#endif
-
-
-
-/*
- * Tree Parsing
- */
-
-#ifdef MPACK_MALLOC
-
-// fix up the alloc size to make sure it exactly fits the
-// maximum number of nodes it can contain (the allocator will
-// waste it back anyway, but we round it down just in case)
-
-#define MPACK_NODES_PER_PAGE \
- ((MPACK_NODE_PAGE_SIZE - sizeof(mpack_tree_page_t)) / sizeof(mpack_node_data_t) + 1)
-
-#define MPACK_PAGE_ALLOC_SIZE \
- (sizeof(mpack_tree_page_t) + sizeof(mpack_node_data_t) * (MPACK_NODES_PER_PAGE - 1))
-
-#endif
-
-#ifdef MPACK_MALLOC
-/*
- * Fills the tree until we have at least enough bytes for the current node.
- */
-static bool mpack_tree_reserve_fill(mpack_tree_t* tree) {
- mpack_assert(tree->parser.state == mpack_tree_parse_state_in_progress);
-
- size_t bytes = tree->parser.current_node_reserved;
- mpack_assert(bytes > tree->parser.possible_nodes_left,
- "there are already enough bytes! call mpack_tree_ensure() instead.");
- mpack_log("filling to reserve %i bytes\n", (int)bytes);
-
- // if the necessary bytes would put us over the maximum tree
- // size, fail right away.
- // TODO: check for overflow?
- if (tree->data_length + bytes > tree->max_size) {
- mpack_tree_flag_error(tree, mpack_error_too_big);
- return false;
- }
-
- // we'll need a read function to fetch more data. if there's
- // no read function, the data should contain an entire message
- // (or messages), so we flag it as invalid.
- if (tree->read_fn == NULL) {
- mpack_log("tree has no read function!\n");
- mpack_tree_flag_error(tree, mpack_error_invalid);
- return false;
- }
-
- // expand the buffer if needed
- if (tree->data_length + bytes > tree->buffer_capacity) {
-
- // TODO: check for overflow?
- size_t new_capacity = (tree->buffer_capacity == 0) ? MPACK_BUFFER_SIZE : tree->buffer_capacity;
- while (new_capacity < tree->data_length + bytes)
- new_capacity *= 2;
- if (new_capacity > tree->max_size)
- new_capacity = tree->max_size;
-
- mpack_log("expanding buffer from %i to %i\n", (int)tree->buffer_capacity, (int)new_capacity);
-
- char* new_buffer;
- if (tree->buffer == NULL)
- new_buffer = (char*)MPACK_MALLOC(new_capacity);
- else
- new_buffer = (char*)mpack_realloc(tree->buffer, tree->data_length, new_capacity);
-
- if (new_buffer == NULL) {
- mpack_tree_flag_error(tree, mpack_error_memory);
- return false;
- }
-
- tree->data = new_buffer;
- tree->buffer = new_buffer;
- tree->buffer_capacity = new_capacity;
- }
-
- // request as much data as possible, looping until we have
- // all the data we need
- do {
- size_t read = tree->read_fn(tree, tree->buffer + tree->data_length, tree->buffer_capacity - tree->data_length);
-
- // If the fill function encounters an error, it should flag an error on
- // the tree.
- if (mpack_tree_error(tree) != mpack_ok)
- return false;
-
- // We guard against fill functions that return -1 just in case.
- if (read == (size_t)(-1)) {
- mpack_tree_flag_error(tree, mpack_error_io);
- return false;
- }
-
- // If the fill function returns 0, the data is not available yet. We
- // return false to stop parsing the current node.
- if (read == 0) {
- mpack_log("not enough data.\n");
- return false;
- }
-
- mpack_log("read %u more bytes\n", (uint32_t)read);
- tree->data_length += read;
- tree->parser.possible_nodes_left += read;
- } while (tree->parser.possible_nodes_left < bytes);
-
- return true;
-}
-#endif
-
-/*
- * Ensures there are enough additional bytes in the tree for the current node
- * (including reserved bytes for the children of this node, and in addition to
- * the reserved bytes for children of previous compound nodes), reading more
- * data if needed.
- *
- * extra_bytes is the number of additional bytes to reserve for the current
- * node beyond the type byte (since one byte is already reserved for each node
- * by its parent array or map.)
- *
- * This may reallocate the tree, which means the tree->data pointer may change!
- *
- * Returns false if not enough bytes could be read.
- */
-MPACK_STATIC_INLINE bool mpack_tree_reserve_bytes(mpack_tree_t* tree, size_t extra_bytes) {
- mpack_assert(tree->parser.state == mpack_tree_parse_state_in_progress);
-
- // We guard against overflow here. A compound type could declare more than
- // UINT32_MAX contents which overflows SIZE_MAX on 32-bit platforms. We
- // flag mpack_error_invalid instead of mpack_error_too_big since it's far
- // more likely that the message is corrupt than that the data is valid but
- // not parseable on this architecture (see test_read_node_possible() in
- // test-node.c .)
- if ((uint64_t)tree->parser.current_node_reserved + (uint64_t)extra_bytes > SIZE_MAX) {
- mpack_tree_flag_error(tree, mpack_error_invalid);
- return false;
- }
-
- tree->parser.current_node_reserved += extra_bytes;
-
- // Note that possible_nodes_left already accounts for reserved bytes for
- // children of previous compound nodes. So even if there are hundreds of
- // bytes left in the buffer, we might need to read anyway.
- if (tree->parser.current_node_reserved <= tree->parser.possible_nodes_left)
- return true;
-
- #ifdef MPACK_MALLOC
- return mpack_tree_reserve_fill(tree);
- #else
- return false;
- #endif
-}
-
-MPACK_STATIC_INLINE size_t mpack_tree_parser_stack_capacity(mpack_tree_t* tree) {
- #ifdef MPACK_MALLOC
- return tree->parser.stack_capacity;
- #else
- return sizeof(tree->parser.stack) / sizeof(tree->parser.stack[0]);
- #endif
-}
-
-static bool mpack_tree_push_stack(mpack_tree_t* tree, mpack_node_data_t* first_child, size_t total) {
- mpack_tree_parser_t* parser = &tree->parser;
- mpack_assert(parser->state == mpack_tree_parse_state_in_progress);
-
- // No need to push empty containers
- if (total == 0)
- return true;
-
- // Make sure we have enough room in the stack
- if (parser->level + 1 == mpack_tree_parser_stack_capacity(tree)) {
- #ifdef MPACK_MALLOC
- size_t new_capacity = parser->stack_capacity * 2;
- mpack_log("growing parse stack to capacity %i\n", (int)new_capacity);
-
- // Replace the stack-allocated parsing stack
- if (!parser->stack_owned) {
- mpack_level_t* new_stack = (mpack_level_t*)MPACK_MALLOC(sizeof(mpack_level_t) * new_capacity);
- if (!new_stack) {
- mpack_tree_flag_error(tree, mpack_error_memory);
- return false;
- }
- mpack_memcpy(new_stack, parser->stack, sizeof(mpack_level_t) * parser->stack_capacity);
- parser->stack = new_stack;
- parser->stack_owned = true;
-
- // Realloc the allocated parsing stack
- } else {
- mpack_level_t* new_stack = (mpack_level_t*)mpack_realloc(parser->stack,
- sizeof(mpack_level_t) * parser->stack_capacity, sizeof(mpack_level_t) * new_capacity);
- if (!new_stack) {
- mpack_tree_flag_error(tree, mpack_error_memory);
- return false;
- }
- parser->stack = new_stack;
- }
- parser->stack_capacity = new_capacity;
- #else
- mpack_tree_flag_error(tree, mpack_error_too_big);
- return false;
- #endif
- }
-
- // Push the contents of this node onto the parsing stack
- ++parser->level;
- parser->stack[parser->level].child = first_child;
- parser->stack[parser->level].left = total;
- return true;
-}
-
-static bool mpack_tree_parse_children(mpack_tree_t* tree, mpack_node_data_t* node) {
- mpack_tree_parser_t* parser = &tree->parser;
- mpack_assert(parser->state == mpack_tree_parse_state_in_progress);
-
- mpack_type_t type = node->type;
- size_t total = node->len;
-
- // Calculate total elements to read
- if (type == mpack_type_map) {
- if ((uint64_t)total * 2 > SIZE_MAX) {
- mpack_tree_flag_error(tree, mpack_error_too_big);
- return false;
- }
- total *= 2;
- }
-
- // Make sure we are under our total node limit (TODO can this overflow?)
- tree->node_count += total;
- if (tree->node_count > tree->max_nodes) {
- mpack_tree_flag_error(tree, mpack_error_too_big);
- return false;
- }
-
- // Each node is at least one byte. Count these bytes now to make
- // sure there is enough data left.
- if (!mpack_tree_reserve_bytes(tree, total))
- return false;
-
- // If there are enough nodes left in the current page, no need to grow
- if (total <= parser->nodes_left) {
- node->value.children = parser->nodes;
- parser->nodes += total;
- parser->nodes_left -= total;
-
- } else {
-
- #ifdef MPACK_MALLOC
-
- // We can't grow if we're using a fixed pool (i.e. we didn't start with a page)
- if (!tree->next) {
- mpack_tree_flag_error(tree, mpack_error_too_big);
- return false;
- }
-
- // Otherwise we need to grow, and the node's children need to be contiguous.
- // This is a heuristic to decide whether we should waste the remaining space
- // in the current page and start a new one, or give the children their
- // own page. With a fraction of 1/8, this causes at most 12% additional
- // waste. Note that reducing this too much causes less cache coherence and
- // more malloc() overhead due to smaller allocations, so there's a tradeoff
- // here. This heuristic could use some improvement, especially with custom
- // page sizes.
-
- mpack_tree_page_t* page;
-
- if (total > MPACK_NODES_PER_PAGE || parser->nodes_left > MPACK_NODES_PER_PAGE / 8) {
- // TODO: this should check for overflow
- page = (mpack_tree_page_t*)MPACK_MALLOC(
- sizeof(mpack_tree_page_t) + sizeof(mpack_node_data_t) * (total - 1));
- if (page == NULL) {
- mpack_tree_flag_error(tree, mpack_error_memory);
- return false;
- }
- mpack_log("allocated seperate page %p for %i children, %i left in page of %i total\n",
- page, (int)total, (int)parser->nodes_left, (int)MPACK_NODES_PER_PAGE);
-
- node->value.children = page->nodes;
-
- } else {
- page = (mpack_tree_page_t*)MPACK_MALLOC(MPACK_PAGE_ALLOC_SIZE);
- if (page == NULL) {
- mpack_tree_flag_error(tree, mpack_error_memory);
- return false;
- }
- mpack_log("allocated new page %p for %i children, wasting %i in page of %i total\n",
- page, (int)total, (int)parser->nodes_left, (int)MPACK_NODES_PER_PAGE);
-
- node->value.children = page->nodes;
- parser->nodes = page->nodes + total;
- parser->nodes_left = MPACK_NODES_PER_PAGE - total;
- }
-
- page->next = tree->next;
- tree->next = page;
-
- #else
- // We can't grow if we don't have an allocator
- mpack_tree_flag_error(tree, mpack_error_too_big);
- return false;
- #endif
- }
-
- return mpack_tree_push_stack(tree, node->value.children, total);
-}
-
-static bool mpack_tree_parse_bytes(mpack_tree_t* tree, mpack_node_data_t* node) {
- node->value.offset = tree->size + tree->parser.current_node_reserved + 1;
- return mpack_tree_reserve_bytes(tree, node->len);
-}
-
-#if MPACK_EXTENSIONS
-static bool mpack_tree_parse_ext(mpack_tree_t* tree, mpack_node_data_t* node) {
- // reserve space for exttype
- tree->parser.current_node_reserved += sizeof(int8_t);
- node->type = mpack_type_ext;
- return mpack_tree_parse_bytes(tree, node);
-}
-#endif
-
-static bool mpack_tree_parse_node_contents(mpack_tree_t* tree, mpack_node_data_t* node) {
- mpack_assert(tree->parser.state == mpack_tree_parse_state_in_progress);
- mpack_assert(node != NULL, "null node?");
-
- // read the type. we've already accounted for this byte in
- // possible_nodes_left, so we already know it is in bounds, and we don't
- // need to reserve it for this node.
- mpack_assert(tree->data_length > tree->size);
- uint8_t type = mpack_load_u8(tree->data + tree->size);
- mpack_log("node type %x\n", type);
- tree->parser.current_node_reserved = 0;
-
- // as with mpack_read_tag(), the fastest way to parse a node is to switch
- // on the first byte, and to explicitly list every possible byte. we switch
- // on the first four bits in size-optimized builds.
-
- #if MPACK_OPTIMIZE_FOR_SIZE
- switch (type >> 4) {
-
- // positive fixnum
- case 0x0: case 0x1: case 0x2: case 0x3:
- case 0x4: case 0x5: case 0x6: case 0x7:
- node->type = mpack_type_uint;
- node->value.u = type;
- return true;
-
- // negative fixnum
- case 0xe: case 0xf:
- node->type = mpack_type_int;
- node->value.i = (int8_t)type;
- return true;
-
- // fixmap
- case 0x8:
- node->type = mpack_type_map;
- node->len = (uint32_t)(type & ~0xf0);
- return mpack_tree_parse_children(tree, node);
-
- // fixarray
- case 0x9:
- node->type = mpack_type_array;
- node->len = (uint32_t)(type & ~0xf0);
- return mpack_tree_parse_children(tree, node);
-
- // fixstr
- case 0xa: case 0xb:
- node->type = mpack_type_str;
- node->len = (uint32_t)(type & ~0xe0);
- return mpack_tree_parse_bytes(tree, node);
-
- // not one of the common infix types
- default:
- break;
- }
- #endif
-
- switch (type) {
-
- #if !MPACK_OPTIMIZE_FOR_SIZE
- // positive fixnum
- case 0x00: case 0x01: case 0x02: case 0x03: case 0x04: case 0x05: case 0x06: case 0x07:
- case 0x08: case 0x09: case 0x0a: case 0x0b: case 0x0c: case 0x0d: case 0x0e: case 0x0f:
- case 0x10: case 0x11: case 0x12: case 0x13: case 0x14: case 0x15: case 0x16: case 0x17:
- case 0x18: case 0x19: case 0x1a: case 0x1b: case 0x1c: case 0x1d: case 0x1e: case 0x1f:
- case 0x20: case 0x21: case 0x22: case 0x23: case 0x24: case 0x25: case 0x26: case 0x27:
- case 0x28: case 0x29: case 0x2a: case 0x2b: case 0x2c: case 0x2d: case 0x2e: case 0x2f:
- case 0x30: case 0x31: case 0x32: case 0x33: case 0x34: case 0x35: case 0x36: case 0x37:
- case 0x38: case 0x39: case 0x3a: case 0x3b: case 0x3c: case 0x3d: case 0x3e: case 0x3f:
- case 0x40: case 0x41: case 0x42: case 0x43: case 0x44: case 0x45: case 0x46: case 0x47:
- case 0x48: case 0x49: case 0x4a: case 0x4b: case 0x4c: case 0x4d: case 0x4e: case 0x4f:
- case 0x50: case 0x51: case 0x52: case 0x53: case 0x54: case 0x55: case 0x56: case 0x57:
- case 0x58: case 0x59: case 0x5a: case 0x5b: case 0x5c: case 0x5d: case 0x5e: case 0x5f:
- case 0x60: case 0x61: case 0x62: case 0x63: case 0x64: case 0x65: case 0x66: case 0x67:
- case 0x68: case 0x69: case 0x6a: case 0x6b: case 0x6c: case 0x6d: case 0x6e: case 0x6f:
- case 0x70: case 0x71: case 0x72: case 0x73: case 0x74: case 0x75: case 0x76: case 0x77:
- case 0x78: case 0x79: case 0x7a: case 0x7b: case 0x7c: case 0x7d: case 0x7e: case 0x7f:
- node->type = mpack_type_uint;
- node->value.u = type;
- return true;
-
- // negative fixnum
- case 0xe0: case 0xe1: case 0xe2: case 0xe3: case 0xe4: case 0xe5: case 0xe6: case 0xe7:
- case 0xe8: case 0xe9: case 0xea: case 0xeb: case 0xec: case 0xed: case 0xee: case 0xef:
- case 0xf0: case 0xf1: case 0xf2: case 0xf3: case 0xf4: case 0xf5: case 0xf6: case 0xf7:
- case 0xf8: case 0xf9: case 0xfa: case 0xfb: case 0xfc: case 0xfd: case 0xfe: case 0xff:
- node->type = mpack_type_int;
- node->value.i = (int8_t)type;
- return true;
-
- // fixmap
- case 0x80: case 0x81: case 0x82: case 0x83: case 0x84: case 0x85: case 0x86: case 0x87:
- case 0x88: case 0x89: case 0x8a: case 0x8b: case 0x8c: case 0x8d: case 0x8e: case 0x8f:
- node->type = mpack_type_map;
- node->len = (uint32_t)(type & ~0xf0);
- return mpack_tree_parse_children(tree, node);
-
- // fixarray
- case 0x90: case 0x91: case 0x92: case 0x93: case 0x94: case 0x95: case 0x96: case 0x97:
- case 0x98: case 0x99: case 0x9a: case 0x9b: case 0x9c: case 0x9d: case 0x9e: case 0x9f:
- node->type = mpack_type_array;
- node->len = (uint32_t)(type & ~0xf0);
- return mpack_tree_parse_children(tree, node);
-
- // fixstr
- case 0xa0: case 0xa1: case 0xa2: case 0xa3: case 0xa4: case 0xa5: case 0xa6: case 0xa7:
- case 0xa8: case 0xa9: case 0xaa: case 0xab: case 0xac: case 0xad: case 0xae: case 0xaf:
- case 0xb0: case 0xb1: case 0xb2: case 0xb3: case 0xb4: case 0xb5: case 0xb6: case 0xb7:
- case 0xb8: case 0xb9: case 0xba: case 0xbb: case 0xbc: case 0xbd: case 0xbe: case 0xbf:
- node->type = mpack_type_str;
- node->len = (uint32_t)(type & ~0xe0);
- return mpack_tree_parse_bytes(tree, node);
- #endif
-
- // nil
- case 0xc0:
- node->type = mpack_type_nil;
- return true;
-
- // bool
- case 0xc2: case 0xc3:
- node->type = mpack_type_bool;
- node->value.b = type & 1;
- return true;
-
- // bin8
- case 0xc4:
- node->type = mpack_type_bin;
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint8_t)))
- return false;
- node->len = mpack_load_u8(tree->data + tree->size + 1);
- return mpack_tree_parse_bytes(tree, node);
-
- // bin16
- case 0xc5:
- node->type = mpack_type_bin;
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint16_t)))
- return false;
- node->len = mpack_load_u16(tree->data + tree->size + 1);
- return mpack_tree_parse_bytes(tree, node);
-
- // bin32
- case 0xc6:
- node->type = mpack_type_bin;
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint32_t)))
- return false;
- node->len = mpack_load_u32(tree->data + tree->size + 1);
- return mpack_tree_parse_bytes(tree, node);
-
- #if MPACK_EXTENSIONS
- // ext8
- case 0xc7:
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint8_t)))
- return false;
- node->len = mpack_load_u8(tree->data + tree->size + 1);
- return mpack_tree_parse_ext(tree, node);
-
- // ext16
- case 0xc8:
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint16_t)))
- return false;
- node->len = mpack_load_u16(tree->data + tree->size + 1);
- return mpack_tree_parse_ext(tree, node);
-
- // ext32
- case 0xc9:
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint32_t)))
- return false;
- node->len = mpack_load_u32(tree->data + tree->size + 1);
- return mpack_tree_parse_ext(tree, node);
- #endif
-
- // float
- case 0xca:
- if (!mpack_tree_reserve_bytes(tree, sizeof(float)))
- return false;
- node->value.f = mpack_load_float(tree->data + tree->size + 1);
- node->type = mpack_type_float;
- return true;
-
- // double
- case 0xcb:
- if (!mpack_tree_reserve_bytes(tree, sizeof(double)))
- return false;
- node->value.d = mpack_load_double(tree->data + tree->size + 1);
- node->type = mpack_type_double;
- return true;
-
- // uint8
- case 0xcc:
- node->type = mpack_type_uint;
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint8_t)))
- return false;
- node->value.u = mpack_load_u8(tree->data + tree->size + 1);
- return true;
-
- // uint16
- case 0xcd:
- node->type = mpack_type_uint;
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint16_t)))
- return false;
- node->value.u = mpack_load_u16(tree->data + tree->size + 1);
- return true;
-
- // uint32
- case 0xce:
- node->type = mpack_type_uint;
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint32_t)))
- return false;
- node->value.u = mpack_load_u32(tree->data + tree->size + 1);
- return true;
-
- // uint64
- case 0xcf:
- node->type = mpack_type_uint;
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint64_t)))
- return false;
- node->value.u = mpack_load_u64(tree->data + tree->size + 1);
- return true;
-
- // int8
- case 0xd0:
- node->type = mpack_type_int;
- if (!mpack_tree_reserve_bytes(tree, sizeof(int8_t)))
- return false;
- node->value.i = mpack_load_i8(tree->data + tree->size + 1);
- return true;
-
- // int16
- case 0xd1:
- node->type = mpack_type_int;
- if (!mpack_tree_reserve_bytes(tree, sizeof(int16_t)))
- return false;
- node->value.i = mpack_load_i16(tree->data + tree->size + 1);
- return true;
-
- // int32
- case 0xd2:
- node->type = mpack_type_int;
- if (!mpack_tree_reserve_bytes(tree, sizeof(int32_t)))
- return false;
- node->value.i = mpack_load_i32(tree->data + tree->size + 1);
- return true;
-
- // int64
- case 0xd3:
- node->type = mpack_type_int;
- if (!mpack_tree_reserve_bytes(tree, sizeof(int64_t)))
- return false;
- node->value.i = mpack_load_i64(tree->data + tree->size + 1);
- return true;
-
- #if MPACK_EXTENSIONS
- // fixext1
- case 0xd4:
- node->len = 1;
- return mpack_tree_parse_ext(tree, node);
-
- // fixext2
- case 0xd5:
- node->len = 2;
- return mpack_tree_parse_ext(tree, node);
-
- // fixext4
- case 0xd6:
- node->len = 4;
- return mpack_tree_parse_ext(tree, node);
-
- // fixext8
- case 0xd7:
- node->len = 8;
- return mpack_tree_parse_ext(tree, node);
-
- // fixext16
- case 0xd8:
- node->len = 16;
- return mpack_tree_parse_ext(tree, node);
- #endif
-
- // str8
- case 0xd9:
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint8_t)))
- return false;
- node->len = mpack_load_u8(tree->data + tree->size + 1);
- node->type = mpack_type_str;
- return mpack_tree_parse_bytes(tree, node);
-
- // str16
- case 0xda:
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint16_t)))
- return false;
- node->len = mpack_load_u16(tree->data + tree->size + 1);
- node->type = mpack_type_str;
- return mpack_tree_parse_bytes(tree, node);
-
- // str32
- case 0xdb:
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint32_t)))
- return false;
- node->len = mpack_load_u32(tree->data + tree->size + 1);
- node->type = mpack_type_str;
- return mpack_tree_parse_bytes(tree, node);
-
- // array16
- case 0xdc:
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint16_t)))
- return false;
- node->len = mpack_load_u16(tree->data + tree->size + 1);
- node->type = mpack_type_array;
- return mpack_tree_parse_children(tree, node);
-
- // array32
- case 0xdd:
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint32_t)))
- return false;
- node->len = mpack_load_u32(tree->data + tree->size + 1);
- node->type = mpack_type_array;
- return mpack_tree_parse_children(tree, node);
-
- // map16
- case 0xde:
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint16_t)))
- return false;
- node->len = mpack_load_u16(tree->data + tree->size + 1);
- node->type = mpack_type_map;
- return mpack_tree_parse_children(tree, node);
-
- // map32
- case 0xdf:
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint32_t)))
- return false;
- node->len = mpack_load_u32(tree->data + tree->size + 1);
- node->type = mpack_type_map;
- return mpack_tree_parse_children(tree, node);
-
- // reserved
- case 0xc1:
- mpack_tree_flag_error(tree, mpack_error_invalid);
- return false;
-
- #if !MPACK_EXTENSIONS
- // ext
- case 0xc7: // fallthrough
- case 0xc8: // fallthrough
- case 0xc9: // fallthrough
- // fixext
- case 0xd4: // fallthrough
- case 0xd5: // fallthrough
- case 0xd6: // fallthrough
- case 0xd7: // fallthrough
- case 0xd8:
- mpack_tree_flag_error(tree, mpack_error_unsupported);
- return false;
- #endif
-
- #if MPACK_OPTIMIZE_FOR_SIZE
- // any other bytes should have been handled by the infix switch
- default:
- break;
- #endif
- }
-
- mpack_assert(0, "unreachable");
- return false;
-}
-
-static bool mpack_tree_parse_node(mpack_tree_t* tree, mpack_node_data_t* node) {
- mpack_log("parsing a node at position %i in level %i\n",
- (int)tree->size, (int)tree->parser.level);
-
- if (!mpack_tree_parse_node_contents(tree, node)) {
- mpack_log("node parsing returned false\n");
- return false;
- }
-
- tree->parser.possible_nodes_left -= tree->parser.current_node_reserved;
-
- // The reserve for the current node does not include the initial byte
- // previously reserved as part of its parent.
- size_t node_size = tree->parser.current_node_reserved + 1;
-
- // If the parsed type is a map or array, the reserve includes one byte for
- // each child. We want to subtract these out of possible_nodes_left, but
- // not out of the current size of the tree.
- if (node->type == mpack_type_array)
- node_size -= node->len;
- else if (node->type == mpack_type_map)
- node_size -= node->len * 2;
- tree->size += node_size;
-
- mpack_log("parsed a node of type %s of %i bytes and "
- "%i additional bytes reserved for children.\n",
- mpack_type_to_string(node->type), (int)node_size,
- (int)tree->parser.current_node_reserved + 1 - (int)node_size);
-
- return true;
-}
-
-/*
- * We read nodes in a loop instead of recursively for maximum performance. The
- * stack holds the amount of children left to read in each level of the tree.
- * Parsing can pause and resume when more data becomes available.
- */
-static bool mpack_tree_continue_parsing(mpack_tree_t* tree) {
- if (mpack_tree_error(tree) != mpack_ok)
- return false;
-
- mpack_tree_parser_t* parser = &tree->parser;
- mpack_assert(parser->state == mpack_tree_parse_state_in_progress);
- mpack_log("parsing tree elements, %i bytes in buffer\n", (int)tree->data_length);
-
- // we loop parsing nodes until the parse stack is empty. we break
- // by returning out of the function.
- while (true) {
- mpack_node_data_t* node = parser->stack[parser->level].child;
- size_t level = parser->level;
- if (!mpack_tree_parse_node(tree, node))
- return false;
- --parser->stack[level].left;
- ++parser->stack[level].child;
-
- mpack_assert(mpack_tree_error(tree) == mpack_ok,
- "mpack_tree_parse_node() should have returned false due to error!");
-
- // pop empty stack levels, exiting the outer loop when the stack is empty.
- // (we could tail-optimize containers by pre-emptively popping empty
- // stack levels before reading the new element, this way we wouldn't
- // have to loop. but we eventually want to use the parse stack to give
- // better error messages that contain the location of the error, so
- // it needs to be complete.)
- while (parser->stack[parser->level].left == 0) {
- if (parser->level == 0)
- return true;
- --parser->level;
- }
- }
-}
-
-static void mpack_tree_cleanup(mpack_tree_t* tree) {
- MPACK_UNUSED(tree);
-
- #ifdef MPACK_MALLOC
- if (tree->parser.stack_owned) {
- MPACK_FREE(tree->parser.stack);
- tree->parser.stack = NULL;
- tree->parser.stack_owned = false;
- }
-
- mpack_tree_page_t* page = tree->next;
- while (page != NULL) {
- mpack_tree_page_t* next = page->next;
- mpack_log("freeing page %p\n", page);
- MPACK_FREE(page);
- page = next;
- }
- tree->next = NULL;
- #endif
-}
-
-static bool mpack_tree_parse_start(mpack_tree_t* tree) {
- if (mpack_tree_error(tree) != mpack_ok)
- return false;
-
- mpack_tree_parser_t* parser = &tree->parser;
- mpack_assert(parser->state != mpack_tree_parse_state_in_progress,
- "previous parsing was not finished!");
-
- if (parser->state == mpack_tree_parse_state_parsed)
- mpack_tree_cleanup(tree);
-
- mpack_log("starting parse\n");
- tree->parser.state = mpack_tree_parse_state_in_progress;
- tree->parser.current_node_reserved = 0;
-
- // check if we previously parsed a tree
- if (tree->size > 0) {
- #ifdef MPACK_MALLOC
- // if we're buffered, move the remaining data back to the
- // start of the buffer
- // TODO: This is not ideal performance-wise. We should only move data
- // when we need to call the fill function.
- // TODO: We could consider shrinking the buffer here, especially if we
- // determine that the fill function is providing less than a quarter of
- // the buffer size or if messages take up less than a quarter of the
- // buffer size. Maybe this should be configurable.
- if (tree->buffer != NULL) {
- mpack_memmove(tree->buffer, tree->buffer + tree->size, tree->data_length - tree->size);
- }
- else
- #endif
- // otherwise advance past the parsed data
- {
- tree->data += tree->size;
- }
- tree->data_length -= tree->size;
- tree->size = 0;
- tree->node_count = 0;
- }
-
- // make sure we have at least one byte available before allocating anything
- parser->possible_nodes_left = tree->data_length;
- if (!mpack_tree_reserve_bytes(tree, sizeof(uint8_t))) {
- tree->parser.state = mpack_tree_parse_state_not_started;
- return false;
- }
- mpack_log("parsing tree at %p starting with byte %x\n", tree->data, (uint8_t)tree->data[0]);
- parser->possible_nodes_left -= 1;
- tree->node_count = 1;
-
- #ifdef MPACK_MALLOC
- parser->stack = parser->stack_local;
- parser->stack_owned = false;
- parser->stack_capacity = sizeof(parser->stack_local) / sizeof(*parser->stack_local);
-
- if (tree->pool == NULL) {
-
- // allocate first page
- mpack_tree_page_t* page = (mpack_tree_page_t*)MPACK_MALLOC(MPACK_PAGE_ALLOC_SIZE);
- mpack_log("allocated initial page %p of size %i count %i\n",
- page, (int)MPACK_PAGE_ALLOC_SIZE, (int)MPACK_NODES_PER_PAGE);
- if (page == NULL) {
- tree->error = mpack_error_memory;
- return false;
- }
- page->next = NULL;
- tree->next = page;
-
- parser->nodes = page->nodes;
- parser->nodes_left = MPACK_NODES_PER_PAGE;
- }
- else
- #endif
- {
- // otherwise use the provided pool
- mpack_assert(tree->pool != NULL, "no pool provided?");
- parser->nodes = tree->pool;
- parser->nodes_left = tree->pool_count;
- }
-
- tree->root = parser->nodes;
- ++parser->nodes;
- --parser->nodes_left;
-
- parser->level = 0;
- parser->stack[0].child = tree->root;
- parser->stack[0].left = 1;
-
- return true;
-}
-
-void mpack_tree_parse(mpack_tree_t* tree) {
- if (mpack_tree_error(tree) != mpack_ok)
- return;
-
- if (tree->parser.state != mpack_tree_parse_state_in_progress) {
- if (!mpack_tree_parse_start(tree)) {
- mpack_tree_flag_error(tree, (tree->read_fn == NULL) ?
- mpack_error_invalid : mpack_error_io);
- return;
- }
- }
-
- if (!mpack_tree_continue_parsing(tree)) {
- if (mpack_tree_error(tree) != mpack_ok)
- return;
-
- // We're parsing synchronously on a blocking fill function. If we
- // didn't completely finish parsing the tree, it's an error.
- mpack_log("tree parsing incomplete. flagging error.\n");
- mpack_tree_flag_error(tree, (tree->read_fn == NULL) ?
- mpack_error_invalid : mpack_error_io);
- return;
- }
-
- mpack_assert(mpack_tree_error(tree) == mpack_ok);
- mpack_assert(tree->parser.level == 0);
- tree->parser.state = mpack_tree_parse_state_parsed;
- mpack_log("parsed tree of %i bytes, %i bytes left\n", (int)tree->size, (int)tree->parser.possible_nodes_left);
- mpack_log("%i nodes in final page\n", (int)tree->parser.nodes_left);
-}
-
-bool mpack_tree_try_parse(mpack_tree_t* tree) {
- if (mpack_tree_error(tree) != mpack_ok)
- return false;
-
- if (tree->parser.state != mpack_tree_parse_state_in_progress)
- if (!mpack_tree_parse_start(tree))
- return false;
-
- if (!mpack_tree_continue_parsing(tree))
- return false;
-
- mpack_assert(mpack_tree_error(tree) == mpack_ok);
- mpack_assert(tree->parser.level == 0);
- tree->parser.state = mpack_tree_parse_state_parsed;
- return true;
-}
-
-
-
-/*
- * Tree functions
- */
-
-mpack_node_t mpack_tree_root(mpack_tree_t* tree) {
- if (mpack_tree_error(tree) != mpack_ok)
- return mpack_tree_nil_node(tree);
-
- // We check that a tree was parsed successfully and assert if not. You must
- // call mpack_tree_parse() (or mpack_tree_try_parse() with a success
- // result) in order to access the root node.
- if (tree->parser.state != mpack_tree_parse_state_parsed) {
- mpack_break("Tree has not been parsed! "
- "Did you call mpack_tree_parse() or mpack_tree_try_parse()?");
- mpack_tree_flag_error(tree, mpack_error_bug);
- return mpack_tree_nil_node(tree);
- }
-
- return mpack_node(tree, tree->root);
-}
-
-static void mpack_tree_init_clear(mpack_tree_t* tree) {
- mpack_memset(tree, 0, sizeof(*tree));
- tree->nil_node.type = mpack_type_nil;
- tree->missing_node.type = mpack_type_missing;
- tree->max_size = SIZE_MAX;
- tree->max_nodes = SIZE_MAX;
-}
-
-#ifdef MPACK_MALLOC
-void mpack_tree_init_data(mpack_tree_t* tree, const char* data, size_t length) {
- mpack_tree_init_clear(tree);
-
- MPACK_STATIC_ASSERT(MPACK_NODE_PAGE_SIZE >= sizeof(mpack_tree_page_t),
- "MPACK_NODE_PAGE_SIZE is too small");
-
- MPACK_STATIC_ASSERT(MPACK_PAGE_ALLOC_SIZE <= MPACK_NODE_PAGE_SIZE,
- "incorrect page rounding?");
-
- tree->data = data;
- tree->data_length = length;
- tree->pool = NULL;
- tree->pool_count = 0;
- tree->next = NULL;
-
- mpack_log("===========================\n");
- mpack_log("initializing tree with data of size %i\n", (int)length);
-}
-#endif
-
-void mpack_tree_init_pool(mpack_tree_t* tree, const char* data, size_t length,
- mpack_node_data_t* node_pool, size_t node_pool_count)
-{
- mpack_tree_init_clear(tree);
- #ifdef MPACK_MALLOC
- tree->next = NULL;
- #endif
-
- if (node_pool_count == 0) {
- mpack_break("initial page has no nodes!");
- mpack_tree_flag_error(tree, mpack_error_bug);
- return;
- }
-
- tree->data = data;
- tree->data_length = length;
- tree->pool = node_pool;
- tree->pool_count = node_pool_count;
-
- mpack_log("===========================\n");
- mpack_log("initializing tree with data of size %i and pool of count %i\n",
- (int)length, (int)node_pool_count);
-}
-
-void mpack_tree_init_error(mpack_tree_t* tree, mpack_error_t error) {
- mpack_tree_init_clear(tree);
- tree->error = error;
-
- mpack_log("===========================\n");
- mpack_log("initializing tree error state %i\n", (int)error);
-}
-
-#ifdef MPACK_MALLOC
-void mpack_tree_init_stream(mpack_tree_t* tree, mpack_tree_read_t read_fn, void* context,
- size_t max_message_size, size_t max_message_nodes) {
- mpack_tree_init_clear(tree);
-
- tree->read_fn = read_fn;
- tree->context = context;
-
- mpack_tree_set_limits(tree, max_message_size, max_message_nodes);
- tree->max_size = max_message_size;
- tree->max_nodes = max_message_nodes;
-
- mpack_log("===========================\n");
- mpack_log("initializing tree with stream, max size %i max nodes %i\n",
- (int)max_message_size, (int)max_message_nodes);
-}
-#endif
-
-void mpack_tree_set_limits(mpack_tree_t* tree, size_t max_message_size, size_t max_message_nodes) {
- mpack_assert(max_message_size > 0);
- mpack_assert(max_message_nodes > 0);
- tree->max_size = max_message_size;
- tree->max_nodes = max_message_nodes;
-}
-
-#if MPACK_STDIO
-typedef struct mpack_file_tree_t {
- char* data;
- size_t size;
- char buffer[MPACK_BUFFER_SIZE];
-} mpack_file_tree_t;
-
-static void mpack_file_tree_teardown(mpack_tree_t* tree) {
- mpack_file_tree_t* file_tree = (mpack_file_tree_t*)tree->context;
- MPACK_FREE(file_tree->data);
- MPACK_FREE(file_tree);
-}
-
-static bool mpack_file_tree_read(mpack_tree_t* tree, mpack_file_tree_t* file_tree, FILE* file, size_t max_bytes) {
-
- // get the file size
- errno = 0;
- int error = 0;
- fseek(file, 0, SEEK_END);
- error |= errno;
- long size = ftell(file);
- error |= errno;
- fseek(file, 0, SEEK_SET);
- error |= errno;
-
- // check for errors
- if (error != 0 || size < 0) {
- mpack_tree_init_error(tree, mpack_error_io);
- return false;
- }
- if (size == 0) {
- mpack_tree_init_error(tree, mpack_error_invalid);
- return false;
- }
-
- // make sure the size is less than max_bytes
- // (this mess exists to safely convert between long and size_t regardless of their widths)
- if (max_bytes != 0 && (((uint64_t)LONG_MAX > (uint64_t)SIZE_MAX && size > (long)SIZE_MAX) || (size_t)size > max_bytes)) {
- mpack_tree_init_error(tree, mpack_error_too_big);
- return false;
- }
-
- // allocate data
- file_tree->data = (char*)MPACK_MALLOC((size_t)size);
- if (file_tree->data == NULL) {
- mpack_tree_init_error(tree, mpack_error_memory);
- return false;
- }
-
- // read the file
- long total = 0;
- while (total < size) {
- size_t read = fread(file_tree->data + total, 1, (size_t)(size - total), file);
- if (read <= 0) {
- mpack_tree_init_error(tree, mpack_error_io);
- MPACK_FREE(file_tree->data);
- return false;
- }
- total += (long)read;
- }
-
- file_tree->size = (size_t)size;
- return true;
-}
-
-static bool mpack_tree_file_check_max_bytes(mpack_tree_t* tree, size_t max_bytes) {
-
- // the C STDIO family of file functions use long (e.g. ftell)
- if (max_bytes > LONG_MAX) {
- mpack_break("max_bytes of %" PRIu64 " is invalid, maximum is LONG_MAX", (uint64_t)max_bytes);
- mpack_tree_init_error(tree, mpack_error_bug);
- return false;
- }
-
- return true;
-}
-
-static void mpack_tree_init_stdfile_noclose(mpack_tree_t* tree, FILE* stdfile, size_t max_bytes) {
-
- // allocate file tree
- mpack_file_tree_t* file_tree = (mpack_file_tree_t*) MPACK_MALLOC(sizeof(mpack_file_tree_t));
- if (file_tree == NULL) {
- mpack_tree_init_error(tree, mpack_error_memory);
- return;
- }
-
- // read all data
- if (!mpack_file_tree_read(tree, file_tree, stdfile, max_bytes)) {
- MPACK_FREE(file_tree);
- return;
- }
-
- mpack_tree_init_data(tree, file_tree->data, file_tree->size);
- mpack_tree_set_context(tree, file_tree);
- mpack_tree_set_teardown(tree, mpack_file_tree_teardown);
-}
-
-void mpack_tree_init_stdfile(mpack_tree_t* tree, FILE* stdfile, size_t max_bytes, bool close_when_done) {
- if (!mpack_tree_file_check_max_bytes(tree, max_bytes))
- return;
-
- mpack_tree_init_stdfile_noclose(tree, stdfile, max_bytes);
-
- if (close_when_done)
- fclose(stdfile);
-}
-
-void mpack_tree_init_filename(mpack_tree_t* tree, const char* filename, size_t max_bytes) {
- if (!mpack_tree_file_check_max_bytes(tree, max_bytes))
- return;
-
- // open the file
- FILE* file = fopen(filename, "rb");
- if (!file) {
- mpack_tree_init_error(tree, mpack_error_io);
- return;
- }
-
- mpack_tree_init_stdfile(tree, file, max_bytes, true);
-}
-#endif
-
-mpack_error_t mpack_tree_destroy(mpack_tree_t* tree) {
- mpack_tree_cleanup(tree);
-
- #ifdef MPACK_MALLOC
- if (tree->buffer)
- MPACK_FREE(tree->buffer);
- #endif
-
- if (tree->teardown)
- tree->teardown(tree);
- tree->teardown = NULL;
-
- return tree->error;
-}
-
-void mpack_tree_flag_error(mpack_tree_t* tree, mpack_error_t error) {
- if (tree->error == mpack_ok) {
- mpack_log("tree %p setting error %i: %s\n", tree, (int)error, mpack_error_to_string(error));
- tree->error = error;
- if (tree->error_fn)
- tree->error_fn(tree, error);
- }
-
-}
-
-
-
-/*
- * Node misc functions
- */
-
-void mpack_node_flag_error(mpack_node_t node, mpack_error_t error) {
- mpack_tree_flag_error(node.tree, error);
-}
-
-mpack_tag_t mpack_node_tag(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return mpack_tag_nil();
-
- mpack_tag_t tag = MPACK_TAG_ZERO;
-
- tag.type = node.data->type;
- switch (node.data->type) {
- case mpack_type_missing:
- // If a node is missing, I don't know if it makes sense to ask for
- // a tag for it. We'll return a missing tag to match the missing
- // node I guess, but attempting to use the tag for anything (like
- // writing it for example) will flag mpack_error_bug.
- break;
- case mpack_type_nil: break;
- case mpack_type_bool: tag.v.b = node.data->value.b; break;
- case mpack_type_float: tag.v.f = node.data->value.f; break;
- case mpack_type_double: tag.v.d = node.data->value.d; break;
- case mpack_type_int: tag.v.i = node.data->value.i; break;
- case mpack_type_uint: tag.v.u = node.data->value.u; break;
-
- case mpack_type_str: tag.v.l = node.data->len; break;
- case mpack_type_bin: tag.v.l = node.data->len; break;
-
- #if MPACK_EXTENSIONS
- case mpack_type_ext:
- tag.v.l = node.data->len;
- tag.exttype = mpack_node_exttype_unchecked(node);
- break;
- #endif
-
- case mpack_type_array: tag.v.n = node.data->len; break;
- case mpack_type_map: tag.v.n = node.data->len; break;
-
- default:
- mpack_assert(0, "unrecognized type %i", (int)node.data->type);
- break;
- }
- return tag;
-}
-
-#if MPACK_DEBUG && MPACK_STDIO
-static void mpack_node_print_element(mpack_node_t node, mpack_print_t* print, size_t depth) {
- mpack_node_data_t* data = node.data;
- switch (data->type) {
- case mpack_type_str:
- {
- mpack_print_append_cstr(print, "\"");
- const char* bytes = mpack_node_data_unchecked(node);
- for (size_t i = 0; i < data->len; ++i) {
- char c = bytes[i];
- switch (c) {
- case '\n': mpack_print_append_cstr(print, "\\n"); break;
- case '\\': mpack_print_append_cstr(print, "\\\\"); break;
- case '"': mpack_print_append_cstr(print, "\\\""); break;
- default: mpack_print_append(print, &c, 1); break;
- }
- }
- mpack_print_append_cstr(print, "\"");
- }
- break;
-
- case mpack_type_array:
- mpack_print_append_cstr(print, "[\n");
- for (size_t i = 0; i < data->len; ++i) {
- for (size_t j = 0; j < depth + 1; ++j)
- mpack_print_append_cstr(print, " ");
- mpack_node_print_element(mpack_node_array_at(node, i), print, depth + 1);
- if (i != data->len - 1)
- mpack_print_append_cstr(print, ",");
- mpack_print_append_cstr(print, "\n");
- }
- for (size_t i = 0; i < depth; ++i)
- mpack_print_append_cstr(print, " ");
- mpack_print_append_cstr(print, "]");
- break;
-
- case mpack_type_map:
- mpack_print_append_cstr(print, "{\n");
- for (size_t i = 0; i < data->len; ++i) {
- for (size_t j = 0; j < depth + 1; ++j)
- mpack_print_append_cstr(print, " ");
- mpack_node_print_element(mpack_node_map_key_at(node, i), print, depth + 1);
- mpack_print_append_cstr(print, ": ");
- mpack_node_print_element(mpack_node_map_value_at(node, i), print, depth + 1);
- if (i != data->len - 1)
- mpack_print_append_cstr(print, ",");
- mpack_print_append_cstr(print, "\n");
- }
- for (size_t i = 0; i < depth; ++i)
- mpack_print_append_cstr(print, " ");
- mpack_print_append_cstr(print, "}");
- break;
-
- default:
- {
- const char* prefix = NULL;
- size_t prefix_length = 0;
- if (mpack_node_type(node) == mpack_type_bin
- #if MPACK_EXTENSIONS
- || mpack_node_type(node) == mpack_type_ext
- #endif
- ) {
- prefix = mpack_node_data(node);
- prefix_length = mpack_node_data_len(node);
- }
-
- char buf[256];
- mpack_tag_t tag = mpack_node_tag(node);
- mpack_tag_debug_pseudo_json(tag, buf, sizeof(buf), prefix, prefix_length);
- mpack_print_append_cstr(print, buf);
- }
- break;
- }
-}
-
-void mpack_node_print_to_buffer(mpack_node_t node, char* buffer, size_t buffer_size) {
- if (buffer_size == 0) {
- mpack_assert(false, "buffer size is zero!");
- return;
- }
-
- mpack_print_t print;
- mpack_memset(&print, 0, sizeof(print));
- print.buffer = buffer;
- print.size = buffer_size;
- mpack_node_print_element(node, &print, 0);
- mpack_print_append(&print, "", 1); // null-terminator
- mpack_print_flush(&print);
-
- // we always make sure there's a null-terminator at the end of the buffer
- // in case we ran out of space.
- print.buffer[print.size - 1] = '\0';
-}
-
-void mpack_node_print_to_callback(mpack_node_t node, mpack_print_callback_t callback, void* context) {
- char buffer[1024];
- mpack_print_t print;
- mpack_memset(&print, 0, sizeof(print));
- print.buffer = buffer;
- print.size = sizeof(buffer);
- print.callback = callback;
- print.context = context;
- mpack_node_print_element(node, &print, 0);
- mpack_print_flush(&print);
-}
-
-void mpack_node_print_to_file(mpack_node_t node, FILE* file) {
- mpack_assert(file != NULL, "file is NULL");
-
- char buffer[1024];
- mpack_print_t print;
- mpack_memset(&print, 0, sizeof(print));
- print.buffer = buffer;
- print.size = sizeof(buffer);
- print.callback = &mpack_print_file_callback;
- print.context = file;
-
- size_t depth = 2;
- for (size_t i = 0; i < depth; ++i)
- mpack_print_append_cstr(&print, " ");
- mpack_node_print_element(node, &print, depth);
- mpack_print_append_cstr(&print, "\n");
- mpack_print_flush(&print);
-}
-#endif
-
-
-
-/*
- * Node Value Functions
- */
-
-#if MPACK_EXTENSIONS
-mpack_timestamp_t mpack_node_timestamp(mpack_node_t node) {
- mpack_timestamp_t timestamp = {0, 0};
-
- // we'll let mpack_node_exttype() do most checks
- if (mpack_node_exttype(node) != MPACK_EXTTYPE_TIMESTAMP) {
- mpack_log("exttype %i\n", mpack_node_exttype(node));
- mpack_node_flag_error(node, mpack_error_type);
- return timestamp;
- }
-
- const char* p = mpack_node_data_unchecked(node);
-
- switch (node.data->len) {
- case 4:
- timestamp.nanoseconds = 0;
- timestamp.seconds = mpack_load_u32(p);
- break;
-
- case 8: {
- uint64_t value = mpack_load_u64(p);
- timestamp.nanoseconds = (uint32_t)(value >> 34);
- timestamp.seconds = value & ((UINT64_C(1) << 34) - 1);
- break;
- }
-
- case 12:
- timestamp.nanoseconds = mpack_load_u32(p);
- timestamp.seconds = mpack_load_i64(p + 4);
- break;
-
- default:
- mpack_tree_flag_error(node.tree, mpack_error_invalid);
- return timestamp;
- }
-
- if (timestamp.nanoseconds > MPACK_TIMESTAMP_NANOSECONDS_MAX) {
- mpack_tree_flag_error(node.tree, mpack_error_invalid);
- mpack_timestamp_t zero = {0, 0};
- return zero;
- }
-
- return timestamp;
-}
-
-int64_t mpack_node_timestamp_seconds(mpack_node_t node) {
- return mpack_node_timestamp(node).seconds;
-}
-
-uint32_t mpack_node_timestamp_nanoseconds(mpack_node_t node) {
- return mpack_node_timestamp(node).nanoseconds;
-}
-#endif
-
-
-
-/*
- * Node Data Functions
- */
-
-void mpack_node_check_utf8(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return;
- mpack_node_data_t* data = node.data;
- if (data->type != mpack_type_str || !mpack_utf8_check(mpack_node_data_unchecked(node), data->len))
- mpack_node_flag_error(node, mpack_error_type);
-}
-
-void mpack_node_check_utf8_cstr(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return;
- mpack_node_data_t* data = node.data;
- if (data->type != mpack_type_str || !mpack_utf8_check_no_null(mpack_node_data_unchecked(node), data->len))
- mpack_node_flag_error(node, mpack_error_type);
-}
-
-size_t mpack_node_copy_data(mpack_node_t node, char* buffer, size_t bufsize) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- mpack_assert(bufsize == 0 || buffer != NULL, "buffer is NULL for maximum of %i bytes", (int)bufsize);
-
- mpack_type_t type = node.data->type;
- if (type != mpack_type_str && type != mpack_type_bin
- #if MPACK_EXTENSIONS
- && type != mpack_type_ext
- #endif
- ) {
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
- }
-
- if (node.data->len > bufsize) {
- mpack_node_flag_error(node, mpack_error_too_big);
- return 0;
- }
-
- mpack_memcpy(buffer, mpack_node_data_unchecked(node), node.data->len);
- return (size_t)node.data->len;
-}
-
-size_t mpack_node_copy_utf8(mpack_node_t node, char* buffer, size_t bufsize) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- mpack_assert(bufsize == 0 || buffer != NULL, "buffer is NULL for maximum of %i bytes", (int)bufsize);
-
- mpack_type_t type = node.data->type;
- if (type != mpack_type_str) {
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
- }
-
- if (node.data->len > bufsize) {
- mpack_node_flag_error(node, mpack_error_too_big);
- return 0;
- }
-
- if (!mpack_utf8_check(mpack_node_data_unchecked(node), node.data->len)) {
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
- }
-
- mpack_memcpy(buffer, mpack_node_data_unchecked(node), node.data->len);
- return (size_t)node.data->len;
-}
-
-void mpack_node_copy_cstr(mpack_node_t node, char* buffer, size_t bufsize) {
-
- // we can't break here because the error isn't recoverable; we
- // have to add a null-terminator.
- mpack_assert(buffer != NULL, "buffer is NULL");
- mpack_assert(bufsize >= 1, "buffer size is zero; you must have room for at least a null-terminator");
-
- if (mpack_node_error(node) != mpack_ok) {
- buffer[0] = '\0';
- return;
- }
-
- if (node.data->type != mpack_type_str) {
- buffer[0] = '\0';
- mpack_node_flag_error(node, mpack_error_type);
- return;
- }
-
- if (node.data->len > bufsize - 1) {
- buffer[0] = '\0';
- mpack_node_flag_error(node, mpack_error_too_big);
- return;
- }
-
- if (!mpack_str_check_no_null(mpack_node_data_unchecked(node), node.data->len)) {
- buffer[0] = '\0';
- mpack_node_flag_error(node, mpack_error_type);
- return;
- }
-
- mpack_memcpy(buffer, mpack_node_data_unchecked(node), node.data->len);
- buffer[node.data->len] = '\0';
-}
-
-void mpack_node_copy_utf8_cstr(mpack_node_t node, char* buffer, size_t bufsize) {
-
- // we can't break here because the error isn't recoverable; we
- // have to add a null-terminator.
- mpack_assert(buffer != NULL, "buffer is NULL");
- mpack_assert(bufsize >= 1, "buffer size is zero; you must have room for at least a null-terminator");
-
- if (mpack_node_error(node) != mpack_ok) {
- buffer[0] = '\0';
- return;
- }
-
- if (node.data->type != mpack_type_str) {
- buffer[0] = '\0';
- mpack_node_flag_error(node, mpack_error_type);
- return;
- }
-
- if (node.data->len > bufsize - 1) {
- buffer[0] = '\0';
- mpack_node_flag_error(node, mpack_error_too_big);
- return;
- }
-
- if (!mpack_utf8_check_no_null(mpack_node_data_unchecked(node), node.data->len)) {
- buffer[0] = '\0';
- mpack_node_flag_error(node, mpack_error_type);
- return;
- }
-
- mpack_memcpy(buffer, mpack_node_data_unchecked(node), node.data->len);
- buffer[node.data->len] = '\0';
-}
-
-#ifdef MPACK_MALLOC
-char* mpack_node_data_alloc(mpack_node_t node, size_t maxlen) {
- if (mpack_node_error(node) != mpack_ok)
- return NULL;
-
- // make sure this is a valid data type
- mpack_type_t type = node.data->type;
- if (type != mpack_type_str && type != mpack_type_bin
- #if MPACK_EXTENSIONS
- && type != mpack_type_ext
- #endif
- ) {
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
- }
-
- if (node.data->len > maxlen) {
- mpack_node_flag_error(node, mpack_error_too_big);
- return NULL;
- }
-
- char* ret = (char*) MPACK_MALLOC((size_t)node.data->len);
- if (ret == NULL) {
- mpack_node_flag_error(node, mpack_error_memory);
- return NULL;
- }
-
- mpack_memcpy(ret, mpack_node_data_unchecked(node), node.data->len);
- return ret;
-}
-
-char* mpack_node_cstr_alloc(mpack_node_t node, size_t maxlen) {
- if (mpack_node_error(node) != mpack_ok)
- return NULL;
-
- // make sure maxlen makes sense
- if (maxlen < 1) {
- mpack_break("maxlen is zero; you must have room for at least a null-terminator");
- mpack_node_flag_error(node, mpack_error_bug);
- return NULL;
- }
-
- if (node.data->type != mpack_type_str) {
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
- }
-
- if (node.data->len > maxlen - 1) {
- mpack_node_flag_error(node, mpack_error_too_big);
- return NULL;
- }
-
- if (!mpack_str_check_no_null(mpack_node_data_unchecked(node), node.data->len)) {
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
- }
-
- char* ret = (char*) MPACK_MALLOC((size_t)(node.data->len + 1));
- if (ret == NULL) {
- mpack_node_flag_error(node, mpack_error_memory);
- return NULL;
- }
-
- mpack_memcpy(ret, mpack_node_data_unchecked(node), node.data->len);
- ret[node.data->len] = '\0';
- return ret;
-}
-
-char* mpack_node_utf8_cstr_alloc(mpack_node_t node, size_t maxlen) {
- if (mpack_node_error(node) != mpack_ok)
- return NULL;
-
- // make sure maxlen makes sense
- if (maxlen < 1) {
- mpack_break("maxlen is zero; you must have room for at least a null-terminator");
- mpack_node_flag_error(node, mpack_error_bug);
- return NULL;
- }
-
- if (node.data->type != mpack_type_str) {
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
- }
-
- if (node.data->len > maxlen - 1) {
- mpack_node_flag_error(node, mpack_error_too_big);
- return NULL;
- }
-
- if (!mpack_utf8_check_no_null(mpack_node_data_unchecked(node), node.data->len)) {
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
- }
-
- char* ret = (char*) MPACK_MALLOC((size_t)(node.data->len + 1));
- if (ret == NULL) {
- mpack_node_flag_error(node, mpack_error_memory);
- return NULL;
- }
-
- mpack_memcpy(ret, mpack_node_data_unchecked(node), node.data->len);
- ret[node.data->len] = '\0';
- return ret;
-}
-#endif
-
-
-/*
- * Compound Node Functions
- */
-
-static mpack_node_data_t* mpack_node_map_int_impl(mpack_node_t node, int64_t num) {
- if (mpack_node_error(node) != mpack_ok)
- return NULL;
-
- if (node.data->type != mpack_type_map) {
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
- }
-
- mpack_node_data_t* found = NULL;
-
- for (size_t i = 0; i < node.data->len; ++i) {
- mpack_node_data_t* key = mpack_node_child(node, i * 2);
-
- if ((key->type == mpack_type_int && key->value.i == num) ||
- (key->type == mpack_type_uint && num >= 0 && key->value.u == (uint64_t)num))
- {
- if (found) {
- mpack_node_flag_error(node, mpack_error_data);
- return NULL;
- }
- found = mpack_node_child(node, i * 2 + 1);
- }
- }
-
- if (found)
- return found;
-
- return NULL;
-}
-
-static mpack_node_data_t* mpack_node_map_uint_impl(mpack_node_t node, uint64_t num) {
- if (mpack_node_error(node) != mpack_ok)
- return NULL;
-
- if (node.data->type != mpack_type_map) {
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
- }
-
- mpack_node_data_t* found = NULL;
-
- for (size_t i = 0; i < node.data->len; ++i) {
- mpack_node_data_t* key = mpack_node_child(node, i * 2);
-
- if ((key->type == mpack_type_uint && key->value.u == num) ||
- (key->type == mpack_type_int && key->value.i >= 0 && (uint64_t)key->value.i == num))
- {
- if (found) {
- mpack_node_flag_error(node, mpack_error_data);
- return NULL;
- }
- found = mpack_node_child(node, i * 2 + 1);
- }
- }
-
- if (found)
- return found;
-
- return NULL;
-}
-
-static mpack_node_data_t* mpack_node_map_str_impl(mpack_node_t node, const char* str, size_t length) {
- if (mpack_node_error(node) != mpack_ok)
- return NULL;
-
- mpack_assert(length == 0 || str != NULL, "str of length %i is NULL", (int)length);
-
- if (node.data->type != mpack_type_map) {
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
- }
-
- mpack_tree_t* tree = node.tree;
- mpack_node_data_t* found = NULL;
-
- for (size_t i = 0; i < node.data->len; ++i) {
- mpack_node_data_t* key = mpack_node_child(node, i * 2);
-
- if (key->type == mpack_type_str && key->len == length &&
- mpack_memcmp(str, mpack_node_data_unchecked(mpack_node(tree, key)), length) == 0) {
- if (found) {
- mpack_node_flag_error(node, mpack_error_data);
- return NULL;
- }
- found = mpack_node_child(node, i * 2 + 1);
- }
- }
-
- if (found)
- return found;
-
- return NULL;
-}
-
-static mpack_node_t mpack_node_wrap_lookup(mpack_tree_t* tree, mpack_node_data_t* data) {
- if (!data) {
- if (tree->error == mpack_ok)
- mpack_tree_flag_error(tree, mpack_error_data);
- return mpack_tree_nil_node(tree);
- }
- return mpack_node(tree, data);
-}
-
-static mpack_node_t mpack_node_wrap_lookup_optional(mpack_tree_t* tree, mpack_node_data_t* data) {
- if (!data) {
- if (tree->error == mpack_ok)
- return mpack_tree_missing_node(tree);
- return mpack_tree_nil_node(tree);
- }
- return mpack_node(tree, data);
-}
-
-mpack_node_t mpack_node_map_int(mpack_node_t node, int64_t num) {
- return mpack_node_wrap_lookup(node.tree, mpack_node_map_int_impl(node, num));
-}
-
-mpack_node_t mpack_node_map_int_optional(mpack_node_t node, int64_t num) {
- return mpack_node_wrap_lookup_optional(node.tree, mpack_node_map_int_impl(node, num));
-}
-
-mpack_node_t mpack_node_map_uint(mpack_node_t node, uint64_t num) {
- return mpack_node_wrap_lookup(node.tree, mpack_node_map_uint_impl(node, num));
-}
-
-mpack_node_t mpack_node_map_uint_optional(mpack_node_t node, uint64_t num) {
- return mpack_node_wrap_lookup_optional(node.tree, mpack_node_map_uint_impl(node, num));
-}
-
-mpack_node_t mpack_node_map_str(mpack_node_t node, const char* str, size_t length) {
- return mpack_node_wrap_lookup(node.tree, mpack_node_map_str_impl(node, str, length));
-}
-
-mpack_node_t mpack_node_map_str_optional(mpack_node_t node, const char* str, size_t length) {
- return mpack_node_wrap_lookup_optional(node.tree, mpack_node_map_str_impl(node, str, length));
-}
-
-mpack_node_t mpack_node_map_cstr(mpack_node_t node, const char* cstr) {
- mpack_assert(cstr != NULL, "cstr is NULL");
- return mpack_node_map_str(node, cstr, mpack_strlen(cstr));
-}
-
-mpack_node_t mpack_node_map_cstr_optional(mpack_node_t node, const char* cstr) {
- mpack_assert(cstr != NULL, "cstr is NULL");
- return mpack_node_map_str_optional(node, cstr, mpack_strlen(cstr));
-}
-
-bool mpack_node_map_contains_int(mpack_node_t node, int64_t num) {
- return mpack_node_map_int_impl(node, num) != NULL;
-}
-
-bool mpack_node_map_contains_uint(mpack_node_t node, uint64_t num) {
- return mpack_node_map_uint_impl(node, num) != NULL;
-}
-
-bool mpack_node_map_contains_str(mpack_node_t node, const char* str, size_t length) {
- return mpack_node_map_str_impl(node, str, length) != NULL;
-}
-
-bool mpack_node_map_contains_cstr(mpack_node_t node, const char* cstr) {
- mpack_assert(cstr != NULL, "cstr is NULL");
- return mpack_node_map_contains_str(node, cstr, mpack_strlen(cstr));
-}
-
-size_t mpack_node_enum_optional(mpack_node_t node, const char* strings[], size_t count) {
- if (mpack_node_error(node) != mpack_ok)
- return count;
-
- // the value is only recognized if it is a string
- if (mpack_node_type(node) != mpack_type_str)
- return count;
-
- // fetch the string
- const char* key = mpack_node_str(node);
- size_t keylen = mpack_node_strlen(node);
- mpack_assert(mpack_node_error(node) == mpack_ok, "these should not fail");
-
- // find what key it matches
- for (size_t i = 0; i < count; ++i) {
- const char* other = strings[i];
- size_t otherlen = mpack_strlen(other);
- if (keylen == otherlen && mpack_memcmp(key, other, keylen) == 0)
- return i;
- }
-
- // no matches
- return count;
-}
-
-size_t mpack_node_enum(mpack_node_t node, const char* strings[], size_t count) {
- size_t value = mpack_node_enum_optional(node, strings, count);
- if (value == count)
- mpack_node_flag_error(node, mpack_error_type);
- return value;
-}
-
-mpack_type_t mpack_node_type(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return mpack_type_nil;
- return node.data->type;
-}
-
-bool mpack_node_is_nil(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok) {
- // All nodes are treated as nil nodes when we are in error.
- return true;
- }
- return node.data->type == mpack_type_nil;
-}
-
-bool mpack_node_is_missing(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok) {
- // errors still return nil nodes, not missing nodes.
- return false;
- }
- return node.data->type == mpack_type_missing;
-}
-
-void mpack_node_nil(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return;
- if (node.data->type != mpack_type_nil)
- mpack_node_flag_error(node, mpack_error_type);
-}
-
-void mpack_node_missing(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return;
- if (node.data->type != mpack_type_missing)
- mpack_node_flag_error(node, mpack_error_type);
-}
-
-bool mpack_node_bool(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return false;
-
- if (node.data->type == mpack_type_bool)
- return node.data->value.b;
-
- mpack_node_flag_error(node, mpack_error_type);
- return false;
-}
-
-void mpack_node_true(mpack_node_t node) {
- if (mpack_node_bool(node) != true)
- mpack_node_flag_error(node, mpack_error_type);
-}
-
-void mpack_node_false(mpack_node_t node) {
- if (mpack_node_bool(node) != false)
- mpack_node_flag_error(node, mpack_error_type);
-}
-
-uint8_t mpack_node_u8(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_uint) {
- if (node.data->value.u <= UINT8_MAX)
- return (uint8_t)node.data->value.u;
- } else if (node.data->type == mpack_type_int) {
- if (node.data->value.i >= 0 && node.data->value.i <= UINT8_MAX)
- return (uint8_t)node.data->value.i;
- }
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-int8_t mpack_node_i8(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_uint) {
- if (node.data->value.u <= INT8_MAX)
- return (int8_t)node.data->value.u;
- } else if (node.data->type == mpack_type_int) {
- if (node.data->value.i >= INT8_MIN && node.data->value.i <= INT8_MAX)
- return (int8_t)node.data->value.i;
- }
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-uint16_t mpack_node_u16(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_uint) {
- if (node.data->value.u <= UINT16_MAX)
- return (uint16_t)node.data->value.u;
- } else if (node.data->type == mpack_type_int) {
- if (node.data->value.i >= 0 && node.data->value.i <= UINT16_MAX)
- return (uint16_t)node.data->value.i;
- }
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-int16_t mpack_node_i16(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_uint) {
- if (node.data->value.u <= INT16_MAX)
- return (int16_t)node.data->value.u;
- } else if (node.data->type == mpack_type_int) {
- if (node.data->value.i >= INT16_MIN && node.data->value.i <= INT16_MAX)
- return (int16_t)node.data->value.i;
- }
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-uint32_t mpack_node_u32(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_uint) {
- if (node.data->value.u <= UINT32_MAX)
- return (uint32_t)node.data->value.u;
- } else if (node.data->type == mpack_type_int) {
- if (node.data->value.i >= 0 && node.data->value.i <= UINT32_MAX)
- return (uint32_t)node.data->value.i;
- }
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-int32_t mpack_node_i32(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_uint) {
- if (node.data->value.u <= INT32_MAX)
- return (int32_t)node.data->value.u;
- } else if (node.data->type == mpack_type_int) {
- if (node.data->value.i >= INT32_MIN && node.data->value.i <= INT32_MAX)
- return (int32_t)node.data->value.i;
- }
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-uint64_t mpack_node_u64(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_uint) {
- return node.data->value.u;
- } else if (node.data->type == mpack_type_int) {
- if (node.data->value.i >= 0)
- return (uint64_t)node.data->value.i;
- }
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-int64_t mpack_node_i64(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_uint) {
- if (node.data->value.u <= (uint64_t)INT64_MAX)
- return (int64_t)node.data->value.u;
- } else if (node.data->type == mpack_type_int) {
- return node.data->value.i;
- }
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-unsigned int mpack_node_uint(mpack_node_t node) {
-
- // This should be true at compile-time, so this just wraps the 32-bit function.
- if (sizeof(unsigned int) == 4)
- return (unsigned int)mpack_node_u32(node);
-
- // Otherwise we use u64 and check the range.
- uint64_t val = mpack_node_u64(node);
- if (val <= UINT_MAX)
- return (unsigned int)val;
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-int mpack_node_int(mpack_node_t node) {
-
- // This should be true at compile-time, so this just wraps the 32-bit function.
- if (sizeof(int) == 4)
- return (int)mpack_node_i32(node);
-
- // Otherwise we use i64 and check the range.
- int64_t val = mpack_node_i64(node);
- if (val >= INT_MIN && val <= INT_MAX)
- return (int)val;
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-float mpack_node_float(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0.0f;
-
- if (node.data->type == mpack_type_uint)
- return (float)node.data->value.u;
- else if (node.data->type == mpack_type_int)
- return (float)node.data->value.i;
- else if (node.data->type == mpack_type_float)
- return node.data->value.f;
- else if (node.data->type == mpack_type_double)
- return (float)node.data->value.d;
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0.0f;
-}
-
-double mpack_node_double(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0.0;
-
- if (node.data->type == mpack_type_uint)
- return (double)node.data->value.u;
- else if (node.data->type == mpack_type_int)
- return (double)node.data->value.i;
- else if (node.data->type == mpack_type_float)
- return (double)node.data->value.f;
- else if (node.data->type == mpack_type_double)
- return node.data->value.d;
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0.0;
-}
-
-float mpack_node_float_strict(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0.0f;
-
- if (node.data->type == mpack_type_float)
- return node.data->value.f;
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0.0f;
-}
-
-double mpack_node_double_strict(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0.0;
-
- if (node.data->type == mpack_type_float)
- return (double)node.data->value.f;
- else if (node.data->type == mpack_type_double)
- return node.data->value.d;
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0.0;
-}
-
-#if MPACK_EXTENSIONS
-int8_t mpack_node_exttype(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_ext)
- return mpack_node_exttype_unchecked(node);
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-#endif
-
-uint32_t mpack_node_data_len(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- mpack_type_t type = node.data->type;
- if (type == mpack_type_str || type == mpack_type_bin
- #if MPACK_EXTENSIONS
- || type == mpack_type_ext
- #endif
- )
- return (uint32_t)node.data->len;
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-size_t mpack_node_strlen(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_str)
- return (size_t)node.data->len;
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-const char* mpack_node_str(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return NULL;
-
- mpack_type_t type = node.data->type;
- if (type == mpack_type_str)
- return mpack_node_data_unchecked(node);
-
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
-}
-
-const char* mpack_node_data(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return NULL;
-
- mpack_type_t type = node.data->type;
- if (type == mpack_type_str || type == mpack_type_bin
- #if MPACK_EXTENSIONS
- || type == mpack_type_ext
- #endif
- )
- return mpack_node_data_unchecked(node);
-
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
-}
-
-const char* mpack_node_bin_data(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return NULL;
-
- if (node.data->type == mpack_type_bin)
- return mpack_node_data_unchecked(node);
-
- mpack_node_flag_error(node, mpack_error_type);
- return NULL;
-}
-
-size_t mpack_node_bin_size(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type == mpack_type_bin)
- return (size_t)node.data->len;
-
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
-}
-
-size_t mpack_node_array_length(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type != mpack_type_array) {
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
- }
-
- return (size_t)node.data->len;
-}
-
-mpack_node_t mpack_node_array_at(mpack_node_t node, size_t index) {
- if (mpack_node_error(node) != mpack_ok)
- return mpack_tree_nil_node(node.tree);
-
- if (node.data->type != mpack_type_array) {
- mpack_node_flag_error(node, mpack_error_type);
- return mpack_tree_nil_node(node.tree);
- }
-
- if (index >= node.data->len) {
- mpack_node_flag_error(node, mpack_error_data);
- return mpack_tree_nil_node(node.tree);
- }
-
- return mpack_node(node.tree, mpack_node_child(node, index));
-}
-
-size_t mpack_node_map_count(mpack_node_t node) {
- if (mpack_node_error(node) != mpack_ok)
- return 0;
-
- if (node.data->type != mpack_type_map) {
- mpack_node_flag_error(node, mpack_error_type);
- return 0;
- }
-
- return node.data->len;
-}
-
-// internal node map lookup
-static mpack_node_t mpack_node_map_at(mpack_node_t node, size_t index, size_t offset) {
- if (mpack_node_error(node) != mpack_ok)
- return mpack_tree_nil_node(node.tree);
-
- if (node.data->type != mpack_type_map) {
- mpack_node_flag_error(node, mpack_error_type);
- return mpack_tree_nil_node(node.tree);
- }
-
- if (index >= node.data->len) {
- mpack_node_flag_error(node, mpack_error_data);
- return mpack_tree_nil_node(node.tree);
- }
-
- return mpack_node(node.tree, mpack_node_child(node, index * 2 + offset));
-}
-
-mpack_node_t mpack_node_map_key_at(mpack_node_t node, size_t index) {
- return mpack_node_map_at(node, index, 0);
-}
-
-mpack_node_t mpack_node_map_value_at(mpack_node_t node, size_t index) {
- return mpack_node_map_at(node, index, 1);
-}
-
-#endif