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/*
* Copyright (c) 2014-2020 Pavel Kalvoda <me@pavelkalvoda.com>
*
* libcbor is free software; you can redistribute it and/or modify
* it under the terms of the MIT license. See LICENSE for details.
*/
#include "cbor.h"
#include "cbor/internal/builder_callbacks.h"
#include "cbor/internal/loaders.h"
#pragma clang diagnostic push
cbor_item_t *cbor_load(cbor_data source, size_t source_size,
struct cbor_load_result *result) {
/* Context stack */
static struct cbor_callbacks callbacks = {
.uint8 = &cbor_builder_uint8_callback,
.uint16 = &cbor_builder_uint16_callback,
.uint32 = &cbor_builder_uint32_callback,
.uint64 = &cbor_builder_uint64_callback,
.negint8 = &cbor_builder_negint8_callback,
.negint16 = &cbor_builder_negint16_callback,
.negint32 = &cbor_builder_negint32_callback,
.negint64 = &cbor_builder_negint64_callback,
.byte_string = &cbor_builder_byte_string_callback,
.byte_string_start = &cbor_builder_byte_string_start_callback,
.string = &cbor_builder_string_callback,
.string_start = &cbor_builder_string_start_callback,
.array_start = &cbor_builder_array_start_callback,
.indef_array_start = &cbor_builder_indef_array_start_callback,
.map_start = &cbor_builder_map_start_callback,
.indef_map_start = &cbor_builder_indef_map_start_callback,
.tag = &cbor_builder_tag_callback,
.null = &cbor_builder_null_callback,
.undefined = &cbor_builder_undefined_callback,
.boolean = &cbor_builder_boolean_callback,
.float2 = &cbor_builder_float2_callback,
.float4 = &cbor_builder_float4_callback,
.float8 = &cbor_builder_float8_callback,
.indef_break = &cbor_builder_indef_break_callback};
if (source_size == 0) {
result->error.code = CBOR_ERR_NODATA;
return NULL;
}
struct _cbor_stack stack = _cbor_stack_init();
/* Target for callbacks */
struct _cbor_decoder_context context = (struct _cbor_decoder_context){
.stack = &stack, .creation_failed = false, .syntax_error = false};
struct cbor_decoder_result decode_result;
*result =
(struct cbor_load_result){.read = 0, .error = {.code = CBOR_ERR_NONE}};
do {
if (source_size > result->read) { /* Check for overflows */
decode_result =
cbor_stream_decode(source + result->read, source_size - result->read,
&callbacks, &context);
} else {
result->error = (struct cbor_error){.code = CBOR_ERR_NOTENOUGHDATA,
.position = result->read};
goto error;
}
switch (decode_result.status) {
case CBOR_DECODER_FINISHED:
/* Everything OK */
{
result->read += decode_result.read;
break;
}
case CBOR_DECODER_NEDATA:
/* Data length doesn't match MTB expectation */
{
result->error.code = CBOR_ERR_NOTENOUGHDATA;
goto error;
}
case CBOR_DECODER_ERROR:
/* Reserved/malformed item */
{
result->error.code = CBOR_ERR_MALFORMATED;
goto error;
}
}
if (context.creation_failed) {
/* Most likely unsuccessful allocation - our callback has failed */
result->error.code = CBOR_ERR_MEMERROR;
goto error;
} else if (context.syntax_error) {
result->error.code = CBOR_ERR_SYNTAXERROR;
goto error;
}
} while (stack.size > 0);
return context.root;
error:
result->error.position = result->read;
// debug_print("Failed with decoder error %d at %d\n", result->error.code,
// result->error.position); cbor_describe(stack.top->item, stdout);
/* Free the stack */
while (stack.size > 0) {
cbor_decref(&stack.top->item);
_cbor_stack_pop(&stack);
}
return NULL;
}
static cbor_item_t *_cbor_copy_int(cbor_item_t *item, bool negative) {
cbor_item_t *res;
switch (cbor_int_get_width(item)) {
case CBOR_INT_8:
res = cbor_build_uint8(cbor_get_uint8(item));
break;
case CBOR_INT_16:
res = cbor_build_uint16(cbor_get_uint16(item));
break;
case CBOR_INT_32:
res = cbor_build_uint32(cbor_get_uint32(item));
break;
case CBOR_INT_64:
res = cbor_build_uint64(cbor_get_uint64(item));
break;
}
if (negative) cbor_mark_negint(res);
return res;
}
static cbor_item_t *_cbor_copy_float_ctrl(cbor_item_t *item) {
// cppcheck-suppress missingReturn
switch (cbor_float_get_width(item)) {
case CBOR_FLOAT_0:
return cbor_build_ctrl(cbor_ctrl_value(item));
case CBOR_FLOAT_16:
return cbor_build_float2(cbor_float_get_float2(item));
case CBOR_FLOAT_32:
return cbor_build_float4(cbor_float_get_float4(item));
case CBOR_FLOAT_64:
return cbor_build_float8(cbor_float_get_float8(item));
}
}
cbor_item_t *cbor_copy(cbor_item_t *item) {
// cppcheck-suppress missingReturn
switch (cbor_typeof(item)) {
case CBOR_TYPE_UINT:
return _cbor_copy_int(item, false);
case CBOR_TYPE_NEGINT:
return _cbor_copy_int(item, true);
case CBOR_TYPE_BYTESTRING:
if (cbor_bytestring_is_definite(item)) {
return cbor_build_bytestring(cbor_bytestring_handle(item),
cbor_bytestring_length(item));
} else {
cbor_item_t *res = cbor_new_indefinite_bytestring();
if (res == NULL) {
return NULL;
}
for (size_t i = 0; i < cbor_bytestring_chunk_count(item); i++) {
cbor_item_t *chunk_copy =
cbor_copy(cbor_bytestring_chunks_handle(item)[i]);
if (chunk_copy == NULL) {
cbor_decref(&res);
return NULL;
}
if (!cbor_bytestring_add_chunk(res, chunk_copy)) {
cbor_decref(&chunk_copy);
cbor_decref(&res);
return NULL;
}
cbor_decref(&chunk_copy);
}
return res;
}
case CBOR_TYPE_STRING:
if (cbor_string_is_definite(item)) {
return cbor_build_stringn((const char *)cbor_string_handle(item),
cbor_string_length(item));
} else {
cbor_item_t *res = cbor_new_indefinite_string();
if (res == NULL) {
return NULL;
}
for (size_t i = 0; i < cbor_string_chunk_count(item); i++) {
cbor_item_t *chunk_copy =
cbor_copy(cbor_string_chunks_handle(item)[i]);
if (chunk_copy == NULL) {
cbor_decref(&res);
return NULL;
}
if (!cbor_string_add_chunk(res, chunk_copy)) {
cbor_decref(&chunk_copy);
cbor_decref(&res);
return NULL;
}
cbor_decref(&chunk_copy);
}
return res;
}
case CBOR_TYPE_ARRAY: {
cbor_item_t *res;
if (cbor_array_is_definite(item)) {
res = cbor_new_definite_array(cbor_array_size(item));
} else {
res = cbor_new_indefinite_array();
}
if (res == NULL) {
return NULL;
}
for (size_t i = 0; i < cbor_array_size(item); i++) {
cbor_item_t *entry_copy = cbor_copy(cbor_move(cbor_array_get(item, i)));
if (entry_copy == NULL) {
cbor_decref(&res);
return NULL;
}
if (!cbor_array_push(res, entry_copy)) {
cbor_decref(&entry_copy);
cbor_decref(&res);
return NULL;
}
cbor_decref(&entry_copy);
}
return res;
}
case CBOR_TYPE_MAP: {
cbor_item_t *res;
if (cbor_map_is_definite(item)) {
res = cbor_new_definite_map(cbor_map_size(item));
} else {
res = cbor_new_indefinite_map();
}
if (res == NULL) {
return NULL;
}
struct cbor_pair *it = cbor_map_handle(item);
for (size_t i = 0; i < cbor_map_size(item); i++) {
cbor_item_t *key_copy = cbor_copy(it[i].key);
if (key_copy == NULL) {
cbor_decref(&res);
return NULL;
}
cbor_item_t *value_copy = cbor_copy(it[i].value);
if (value_copy == NULL) {
cbor_decref(&res);
cbor_decref(&key_copy);
return NULL;
}
if (!cbor_map_add(res, (struct cbor_pair){.key = key_copy,
.value = value_copy})) {
cbor_decref(&res);
cbor_decref(&key_copy);
cbor_decref(&value_copy);
return NULL;
}
cbor_decref(&key_copy);
cbor_decref(&value_copy);
}
return res;
}
case CBOR_TYPE_TAG: {
cbor_item_t *item_copy = cbor_copy(cbor_move(cbor_tag_item(item)));
if (item_copy == NULL) {
return NULL;
}
cbor_item_t *tag = cbor_build_tag(cbor_tag_value(item), item_copy);
cbor_decref(&item_copy);
return tag;
}
case CBOR_TYPE_FLOAT_CTRL:
return _cbor_copy_float_ctrl(item);
}
}
#if CBOR_PRETTY_PRINTER
#include <inttypes.h>
#include <locale.h>
#include <wchar.h>
#define __STDC_FORMAT_MACROS
static int _pow(int b, int ex) {
if (ex == 0) return 1;
int res = b;
while (--ex > 0) res *= b;
return res;
}
static void _cbor_type_marquee(FILE *out, char *label, int indent) {
fprintf(out, "%*.*s[%s] ", indent, indent, " ", label);
}
static void _cbor_nested_describe(cbor_item_t *item, FILE *out, int indent) {
const int indent_offset = 4;
switch (cbor_typeof(item)) {
case CBOR_TYPE_UINT: {
_cbor_type_marquee(out, "CBOR_TYPE_UINT", indent);
fprintf(out, "Width: %dB, ", _pow(2, cbor_int_get_width(item)));
fprintf(out, "Value: %" PRIu64 "\n", cbor_get_int(item));
break;
}
case CBOR_TYPE_NEGINT: {
_cbor_type_marquee(out, "CBOR_TYPE_NEGINT", indent);
fprintf(out, "Width: %dB, ", _pow(2, cbor_int_get_width(item)));
fprintf(out, "Value: -%" PRIu64 " - 1\n", cbor_get_int(item));
break;
}
case CBOR_TYPE_BYTESTRING: {
_cbor_type_marquee(out, "CBOR_TYPE_BYTESTRING", indent);
if (cbor_bytestring_is_indefinite(item)) {
fprintf(out, "Indefinite, Chunks: %zu, Chunk data:\n",
cbor_bytestring_chunk_count(item));
for (size_t i = 0; i < cbor_bytestring_chunk_count(item); i++)
_cbor_nested_describe(cbor_bytestring_chunks_handle(item)[i], out,
indent + indent_offset);
} else {
const unsigned char *data = cbor_bytestring_handle(item);
fprintf(out, "Definite, Length: %zuB, Data:\n",
cbor_bytestring_length(item));
fprintf(out, "%*s", indent + indent_offset, " ");
for (size_t i = 0; i < cbor_bytestring_length(item); i++)
fprintf(out, "%02x", (int)(data[i] & 0xff));
fprintf(out, "\n");
}
break;
}
case CBOR_TYPE_STRING: {
_cbor_type_marquee(out, "CBOR_TYPE_STRING", indent);
if (cbor_string_is_indefinite(item)) {
fprintf(out, "Indefinite, Chunks: %zu, Chunk data:\n",
cbor_string_chunk_count(item));
for (size_t i = 0; i < cbor_string_chunk_count(item); i++)
_cbor_nested_describe(cbor_string_chunks_handle(item)[i], out,
indent + indent_offset);
} else {
fprintf(out, "Definite, Length: %zuB, Codepoints: %zu, Data:\n",
cbor_string_length(item), cbor_string_codepoint_count(item));
fprintf(out, "%*s", indent + indent_offset, " ");
// Note: The string is not escaped, whitespace and control character
// will be printed in verbatim and take effect.
fwrite(cbor_string_handle(item), sizeof(unsigned char),
cbor_string_length(item), out);
fprintf(out, "\n");
}
break;
}
case CBOR_TYPE_ARRAY: {
_cbor_type_marquee(out, "CBOR_TYPE_ARRAY", indent);
if (cbor_array_is_definite(item)) {
fprintf(out, "Definite, Size: %zu, Contents:\n", cbor_array_size(item));
} else {
fprintf(out, "Indefinite, Size: %zu, Contents:\n",
cbor_array_size(item));
}
for (size_t i = 0; i < cbor_array_size(item); i++)
_cbor_nested_describe(cbor_array_handle(item)[i], out,
indent + indent_offset);
break;
}
case CBOR_TYPE_MAP: {
_cbor_type_marquee(out, "CBOR_TYPE_MAP", indent);
if (cbor_map_is_definite(item)) {
fprintf(out, "Definite, Size: %zu, Contents:\n", cbor_map_size(item));
} else {
fprintf(out, "Indefinite, Size: %zu, Contents:\n", cbor_map_size(item));
}
// TODO: Label and group keys and values
for (size_t i = 0; i < cbor_map_size(item); i++) {
fprintf(out, "%*sMap entry %zu\n", indent + indent_offset, " ", i);
_cbor_nested_describe(cbor_map_handle(item)[i].key, out,
indent + 2 * indent_offset);
_cbor_nested_describe(cbor_map_handle(item)[i].value, out,
indent + 2 * indent_offset);
}
break;
}
case CBOR_TYPE_TAG: {
_cbor_type_marquee(out, "CBOR_TYPE_TAG", indent);
fprintf(out, "Value: %" PRIu64 "\n", cbor_tag_value(item));
_cbor_nested_describe(cbor_move(cbor_tag_item(item)), out,
indent + indent_offset);
break;
}
case CBOR_TYPE_FLOAT_CTRL: {
_cbor_type_marquee(out, "CBOR_TYPE_FLOAT_CTRL", indent);
if (cbor_float_ctrl_is_ctrl(item)) {
if (cbor_is_bool(item))
fprintf(out, "Bool: %s\n", cbor_get_bool(item) ? "true" : "false");
else if (cbor_is_undef(item))
fprintf(out, "Undefined\n");
else if (cbor_is_null(item))
fprintf(out, "Null\n");
else
fprintf(out, "Simple value: %d\n", cbor_ctrl_value(item));
} else {
fprintf(out, "Width: %dB, ", _pow(2, cbor_float_get_width(item)));
fprintf(out, "Value: %lf\n", cbor_float_get_float(item));
}
break;
}
}
}
void cbor_describe(cbor_item_t *item, FILE *out) {
_cbor_nested_describe(item, out, 0);
}
#endif
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