/* * Copyright (c) 2014-2020 Pavel Kalvoda * * libcbor is free software; you can redistribute it and/or modify * it under the terms of the MIT license. See LICENSE for details. */ #include "builder_callbacks.h" #include #include "../arrays.h" #include "../bytestrings.h" #include "../common.h" #include "../floats_ctrls.h" #include "../ints.h" #include "../maps.h" #include "../strings.h" #include "../tags.h" #include "unicode.h" // `_cbor_builder_append` takes ownership of `item`. If adding the item to // parent container fails, `item` will be deallocated to prevent memory. void _cbor_builder_append(cbor_item_t *item, struct _cbor_decoder_context *ctx) { if (ctx->stack->size == 0) { /* Top level item */ ctx->root = item; return; } /* Part of a bigger structure */ switch (ctx->stack->top->item->type) { // Handle Arrays and Maps since they can contain subitems of any type. // Byte/string construction from chunks is handled in the respective chunk // handlers. case CBOR_TYPE_ARRAY: { if (cbor_array_is_definite(ctx->stack->top->item)) { // We don't need an explicit check for whether the item still belongs // into this array because if there are extra items, they will cause a // syntax error when decoded. CBOR_ASSERT(ctx->stack->top->subitems > 0); // This should never happen since the definite array should be // preallocated for the expected number of items. if (!cbor_array_push(ctx->stack->top->item, item)) { ctx->creation_failed = true; cbor_decref(&item); break; } cbor_decref(&item); ctx->stack->top->subitems--; if (ctx->stack->top->subitems == 0) { cbor_item_t *stack_item = ctx->stack->top->item; _cbor_stack_pop(ctx->stack); _cbor_builder_append(stack_item, ctx); } } else { /* Indefinite array, don't bother with subitems */ if (!cbor_array_push(ctx->stack->top->item, item)) { ctx->creation_failed = true; } cbor_decref(&item); } break; } case CBOR_TYPE_MAP: { // Handle both definite and indefinite maps the same initially. // Note: We use 0 and 1 subitems to distinguish between keys and values in // indefinite items if (ctx->stack->top->subitems % 2) { // Odd record, this is a value. ctx->creation_failed = !_cbor_map_add_value(ctx->stack->top->item, item); // Adding a value never fails since the memory is allocated when the // key is added CBOR_ASSERT(!ctx->creation_failed); } else { // Even record, this is a key. if (!_cbor_map_add_key(ctx->stack->top->item, item)) { ctx->creation_failed = true; cbor_decref(&item); break; } } cbor_decref(&item); if (cbor_map_is_definite(ctx->stack->top->item)) { CBOR_ASSERT(ctx->stack->top->subitems > 0); ctx->stack->top->subitems--; if (ctx->stack->top->subitems == 0) { cbor_item_t *map_entry = ctx->stack->top->item; _cbor_stack_pop(ctx->stack); _cbor_builder_append(map_entry, ctx); } } else { ctx->stack->top->subitems ^= 1; /* Flip the indicator for indefinite items */ } break; } case CBOR_TYPE_TAG: { CBOR_ASSERT(ctx->stack->top->subitems == 1); cbor_tag_set_item(ctx->stack->top->item, item); cbor_decref(&item); /* Give up on our reference */ cbor_item_t *tagged_item = ctx->stack->top->item; _cbor_stack_pop(ctx->stack); _cbor_builder_append(tagged_item, ctx); break; } // We have an item to append but nothing to append it to. default: { cbor_decref(&item); ctx->syntax_error = true; } } } #define CHECK_RES(ctx, res) \ do { \ if (res == NULL) { \ ctx->creation_failed = true; \ return; \ } \ } while (0) // Check that the length fits into size_t. If not, we cannot possibly allocate // the required memory and should fail fast. #define CHECK_LENGTH(ctx, length) \ do { \ if (length > SIZE_MAX) { \ ctx->creation_failed = true; \ return; \ } \ } while (0) #define PUSH_CTX_STACK(ctx, res, subitems) \ do { \ if (_cbor_stack_push(ctx->stack, res, subitems) == NULL) { \ cbor_decref(&res); \ ctx->creation_failed = true; \ } \ } while (0) void cbor_builder_uint8_callback(void *context, uint8_t value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_int8(); CHECK_RES(ctx, res); cbor_mark_uint(res); cbor_set_uint8(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_uint16_callback(void *context, uint16_t value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_int16(); CHECK_RES(ctx, res); cbor_mark_uint(res); cbor_set_uint16(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_uint32_callback(void *context, uint32_t value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_int32(); CHECK_RES(ctx, res); cbor_mark_uint(res); cbor_set_uint32(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_uint64_callback(void *context, uint64_t value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_int64(); CHECK_RES(ctx, res); cbor_mark_uint(res); cbor_set_uint64(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_negint8_callback(void *context, uint8_t value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_int8(); CHECK_RES(ctx, res); cbor_mark_negint(res); cbor_set_uint8(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_negint16_callback(void *context, uint16_t value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_int16(); CHECK_RES(ctx, res); cbor_mark_negint(res); cbor_set_uint16(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_negint32_callback(void *context, uint32_t value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_int32(); CHECK_RES(ctx, res); cbor_mark_negint(res); cbor_set_uint32(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_negint64_callback(void *context, uint64_t value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_int64(); CHECK_RES(ctx, res); cbor_mark_negint(res); cbor_set_uint64(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_byte_string_callback(void *context, cbor_data data, uint64_t length) { struct _cbor_decoder_context *ctx = context; CHECK_LENGTH(ctx, length); unsigned char *new_handle = _cbor_malloc(length); if (new_handle == NULL) { ctx->creation_failed = true; return; } memcpy(new_handle, data, length); cbor_item_t *new_chunk = cbor_new_definite_bytestring(); if (new_chunk == NULL) { _cbor_free(new_handle); ctx->creation_failed = true; return; } cbor_bytestring_set_handle(new_chunk, new_handle, length); // If an indef bytestring is on the stack, extend it (if it were closed, it // would have been popped). Handle any syntax errors upstream. if (ctx->stack->size > 0 && cbor_isa_bytestring(ctx->stack->top->item) && cbor_bytestring_is_indefinite(ctx->stack->top->item)) { if (!cbor_bytestring_add_chunk(ctx->stack->top->item, new_chunk)) { ctx->creation_failed = true; } cbor_decref(&new_chunk); } else { _cbor_builder_append(new_chunk, ctx); } } void cbor_builder_byte_string_start_callback(void *context) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_indefinite_bytestring(); CHECK_RES(ctx, res); PUSH_CTX_STACK(ctx, res, 0); } void cbor_builder_string_callback(void *context, cbor_data data, uint64_t length) { struct _cbor_decoder_context *ctx = context; CHECK_LENGTH(ctx, length); unsigned char *new_handle = _cbor_malloc(length); if (new_handle == NULL) { ctx->creation_failed = true; return; } memcpy(new_handle, data, length); cbor_item_t *new_chunk = cbor_new_definite_string(); if (new_chunk == NULL) { _cbor_free(new_handle); ctx->creation_failed = true; return; } cbor_string_set_handle(new_chunk, new_handle, length); // If an indef string is on the stack, extend it (if it were closed, it would // have been popped). Handle any syntax errors upstream. if (ctx->stack->size > 0 && cbor_isa_string(ctx->stack->top->item) && cbor_string_is_indefinite(ctx->stack->top->item)) { if (!cbor_string_add_chunk(ctx->stack->top->item, new_chunk)) { ctx->creation_failed = true; } cbor_decref(&new_chunk); } else { _cbor_builder_append(new_chunk, ctx); } } void cbor_builder_string_start_callback(void *context) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_indefinite_string(); CHECK_RES(ctx, res); PUSH_CTX_STACK(ctx, res, 0); } void cbor_builder_array_start_callback(void *context, uint64_t size) { struct _cbor_decoder_context *ctx = context; CHECK_LENGTH(ctx, size); cbor_item_t *res = cbor_new_definite_array(size); CHECK_RES(ctx, res); if (size > 0) { PUSH_CTX_STACK(ctx, res, size); } else { _cbor_builder_append(res, ctx); } } void cbor_builder_indef_array_start_callback(void *context) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_indefinite_array(); CHECK_RES(ctx, res); PUSH_CTX_STACK(ctx, res, 0); } void cbor_builder_indef_map_start_callback(void *context) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_indefinite_map(); CHECK_RES(ctx, res); PUSH_CTX_STACK(ctx, res, 0); } void cbor_builder_map_start_callback(void *context, uint64_t size) { struct _cbor_decoder_context *ctx = context; CHECK_LENGTH(ctx, size); cbor_item_t *res = cbor_new_definite_map(size); CHECK_RES(ctx, res); if (size > 0) { PUSH_CTX_STACK(ctx, res, size * 2); } else { _cbor_builder_append(res, ctx); } } /** * Is the (partially constructed) item indefinite? */ bool _cbor_is_indefinite(cbor_item_t *item) { switch (item->type) { case CBOR_TYPE_BYTESTRING: return cbor_bytestring_is_indefinite(item); case CBOR_TYPE_STRING: return cbor_string_is_indefinite(item); case CBOR_TYPE_ARRAY: return cbor_array_is_indefinite(item); case CBOR_TYPE_MAP: return cbor_map_is_indefinite(item); default: // Should never happen since a non-nested item cannot be on top of the // stack. return false; } } void cbor_builder_indef_break_callback(void *context) { struct _cbor_decoder_context *ctx = context; /* There must be an item to break out of*/ if (ctx->stack->size > 0) { cbor_item_t *item = ctx->stack->top->item; if (_cbor_is_indefinite( item) && /* Only indefinite items can be terminated by 0xFF */ /* Special case: we cannot append up if an indefinite map is incomplete (we are expecting a value). */ (item->type != CBOR_TYPE_MAP || ctx->stack->top->subitems % 2 == 0)) { _cbor_stack_pop(ctx->stack); _cbor_builder_append(item, ctx); return; } } ctx->syntax_error = true; } void cbor_builder_float2_callback(void *context, float value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_float2(); CHECK_RES(ctx, res); cbor_set_float2(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_float4_callback(void *context, float value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_float4(); CHECK_RES(ctx, res); cbor_set_float4(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_float8_callback(void *context, double value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_float8(); CHECK_RES(ctx, res); cbor_set_float8(res, value); _cbor_builder_append(res, ctx); } void cbor_builder_null_callback(void *context) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_null(); CHECK_RES(ctx, res); _cbor_builder_append(res, ctx); } void cbor_builder_undefined_callback(void *context) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_undef(); CHECK_RES(ctx, res); _cbor_builder_append(res, ctx); } void cbor_builder_boolean_callback(void *context, bool value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_build_bool(value); CHECK_RES(ctx, res); _cbor_builder_append(res, ctx); } void cbor_builder_tag_callback(void *context, uint64_t value) { struct _cbor_decoder_context *ctx = context; cbor_item_t *res = cbor_new_tag(value); CHECK_RES(ctx, res); PUSH_CTX_STACK(ctx, res, 1); }