#include "test_scaffold.h"
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#include "gp/containers/array.hpp"
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#include "gp/containers/vector.hpp"
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#include "gp/ipc/envelope/cbor.hpp"
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#include "gp/algorithms/tmp_manip.hpp"
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#include "gp/functional/monostates.hpp"
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#include "gp/utils/allocators/allocator.hpp"
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#include <string>
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#include <unordered_map>
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extern void print_logs();
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struct std_allocator : gp::allocator {
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using dbg_map = std::unordered_map<void*, size_t>;
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[[no_unique_address]] dbg_map debug_info;
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/**
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* @brief Allocates memory
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*
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* @param sz the amount of bytes to allocate
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*
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* @return the allocated memory as a pointer on success
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* @return nullptr if it failed allocating
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*/
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virtual void* allocate(size_t sz) {
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auto v = new char[sz];
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log_segment("data allocated", (std::to_string(sz) + " bytes @"+std::to_string((uintptr_t)v)).c_str());
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debug_info[v] = sz;
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return v;
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}
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/**
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* @brief Deallocates memory
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*
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* @param ptr the memory to deallocate
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*
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* @return true if the memory was successfully deallocated
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* @return false if the memory was not deallocated
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*/
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virtual bool deallocate(void* ptr) {
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log_segment("data deallocated", "Trying deallocation");
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log_segment("data deallocated", ("Target: @" + std::to_string((uintptr_t)ptr)).c_str());
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if(!debug_info.contains(ptr)) {
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print_logs();
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gp_config::assertion(false, "Double free detected");
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}
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delete (char*)ptr;
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log_segment("data deallocated", (std::to_string(debug_info[ptr]) + " bytes @"+std::to_string((uintptr_t)ptr)).c_str());
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debug_info.erase(ptr);
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return true;
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}
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/**
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* @brief Tries to reallocate memory
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*
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* @param ptr The memory to reallocate
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* @param sz The new size we want to give the memory
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*
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* @return true if reallocation was successful
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* @return false if the reallocation failed
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*/
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virtual bool try_reallocate(void*, size_t) {
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return false;
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}
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virtual ~std_allocator() = default;
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};
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std_allocator allocator;
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enum class co_state {
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waiting_receive,
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waiting_send,
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data_received,
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data_sent
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};
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typedef gp::array<char, 16> identifier_t;
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using fd_t = int;
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struct packet_info {
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uint64_t attempts = 0;
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uint64_t sequence = 0;
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identifier_t co_id;
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gp::vector<char> data{allocator};
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};
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gp::vector<char>& push_as_cbor(gp::vector<char>& src, identifier_t& value) {
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gp::push_as_cbor(src, gp::cbor_tag_initiator{.as_integer = 37});
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gp::push_as_cbor(src, value.as_buffer());
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return src;
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}
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gp::vector<char>& push_as_cbor(gp::vector<char>& src, packet_info& value) {
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push_as_cbor(src, gp::cbor_tag_initiator{.as_integer = 1994});
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push_as_cbor(src, gp::cbor_array_initiator{4});
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push_as_cbor(src, value.sequence);
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push_as_cbor(src, value.attempts);
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push_as_cbor(src, value.co_id);
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push_as_cbor(src, value.data.as_buffer());
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return src;
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}
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namespace gp { template<>
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gp::pair<gp::optional<packet_info>, parsing_state> read_cbor<packet_info>(parsing_state state, gp::allocator& alloc) {
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size_t seq, attempts;
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identifier_t uuid;
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gp::vector<char> data{alloc};
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log_segment("INFO", "Init stage");
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bool ok = true;
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auto array_parser = [&](parsing_state state, allocator& alloc){
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for(size_t idx : {0,1,2,3})
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switch(idx) {
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case 0:{
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log_segment("INFO", "Array stage 0");
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auto [v ,new_state] = read_cbor<uint64_t>(state, alloc);
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if(v.has_value()) {
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seq = v.value();
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return new_state;
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}
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}break;
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case 1:{
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log_segment("INFO", "Array stage 1");
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auto [v ,new_state] = read_cbor<uint64_t>(state, alloc);
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if(v.has_value()) {
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attempts = v.value();
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return new_state;
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}
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}break;
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case 2:{
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log_segment("INFO", "Array stage 2");
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auto [tg ,nc_state] = read_cbor<cbor_tag_initiator>(state, alloc);
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if(!tg.has_value()) break;
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if(tg.value().as_integer != 37) break;
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log_segment("INFO", "\tGet UUID");
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auto [v ,new_state] = read_cbor<gp::vector<char>>(nc_state, alloc);
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if(v.has_value()) {
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log_segment("INFO", "\tUUID obtained");
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for(size_t idx : {0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15}) {
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uuid[idx] = v.value()[idx];
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}
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return new_state;
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}
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log_segment("INFO", "\tUUID not found");
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}break;
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case 3:{
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log_segment("INFO", "Array stage 3");
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auto [v ,new_state] = read_cbor<gp::vector<char>>(state, alloc);
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if(v.has_value()) {
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log_segment("INFO", "Data copy");
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data = v.value();
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log_segment("INFO", "ready to return last stale");
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return new_state;
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}
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}break;
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}
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ok &= false;
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log_segment("ok", ok ? "true" : "false");
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return state;
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};
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parsing_state nc_state = state;
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{
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log_segment("INFO", "Tag stage");
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auto [value, new_state] = read_cbor<cbor_tag_initiator>(nc_state, alloc);
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if(!value.has_value()) return {gp::nullopt, state};
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nc_state = new_state;
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}
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{
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log_segment("INFO", "Array info stage");
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auto new_state = read_cbor_array(nc_state, alloc, array_parser, [&](size_t sz){
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ok &= sz == 4;
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log_segment("ok", ok ? "true" : "false");
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return ok;
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});
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log_segment("INFO", "Parser returned... Testing");
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if(ok && new_state.size() != nc_state.size()) {
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log_segment("INFO", "Parsing terminated successfully");
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return {packet_info{.attempts = attempts, .sequence = seq, .data = gp::move(data)}, new_state};
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}
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else{
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log_segment("INFO", ("Parsing failed with ok=" + std::string(ok ? "true" : "false")).c_str());
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return {nullopt, state};
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}
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}
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}}
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struct packet_info_serialization_test : public test_scaffold {
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packet_info_serialization_test() {
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name = __FILE__ "@packet_info_serialization_test";
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}
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virtual int run() {
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packet_info item;
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item.sequence = 1;
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item.attempts = 2;
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for(auto& c : item.co_id) c = 1;
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for(auto idx : {0,1,2,3,4,5,6,7,8,9}) item.data.push_back(idx);
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gp::vector<char> serialized(allocator);
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push_as_cbor(serialized, item);
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log_segment("size", std::to_string(serialized.size()).c_str());
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gp_config::assertion(serialized.size() == 36, "serialization of the wrong size");
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return 0;
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}
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};
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append_test packet_info_serialization_test_impl(new packet_info_serialization_test());
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struct packet_info_deserialization_test : public test_scaffold {
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packet_info_deserialization_test() {
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name = __FILE__ "@packet_info_deserialization_test";
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}
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virtual int run() {
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packet_info item;
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item.sequence = 1;
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item.attempts = 2;
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for(auto& c : item.co_id) c = 1;
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for(auto idx : {0,1,2,3,4,5,6,7,8,9}) item.data.push_back(idx);
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gp::vector<char> serialized(allocator);
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log_segment("INFO", "Serialization init");
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push_as_cbor(serialized, item);
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log_segment("INFO", "Item serialized");
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log_segment("size", std::to_string(serialized.size()).c_str());
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gp_config::assertion(serialized.size() == 36, "serialization of the wrong size");
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log_segment("INFO", "Item controlled");
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auto [value, state] = gp::read_cbor<packet_info>(serialized.as_buffer(), allocator);
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gp_config::assertion(value.has_value(), "deserialization failed");
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gp_config::assertion(!state.size(), "unprocessed state remains");
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gp_config::assertion(value.value().sequence == item.sequence, "comparison failed step 1");
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gp_config::assertion(value.value().attempts == item.attempts, "comparison failed step 2");
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gp_config::assertion(value.value().co_id == item.co_id, "comparison failed step 3");
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gp_config::assertion(value.value().data == item.data, "comparison failed step 4");
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return 0;
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}
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};
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append_test packet_info_deserialization_test_impl(new packet_info_deserialization_test());
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