Разработка продолжена

На самом деле, она и не заканчивалась, просто я вот вчера пошёл в магазин ну типа в пятёрочку тут есть у меня недалеко на углу улицы и короче вот я пошёл иду такой а мне навстречу сам илон макс правда я не шучу реально илон маз к идёт такой и я ему такой привет а он такой тоже здравствуйте я спрашиваю типа как там с теслой и спайс икс а он перебивает меня и говорит смотри сейчас будет фокус ну я такой ладно и он типа раз и взрывается нахуй пиздец я тогда умер кстати
This commit is contained in:
Shr3dd3r 2023-10-20 05:48:20 +03:00
parent c84c62400b
commit 09aff0e709
13 changed files with 364 additions and 140 deletions

6
.gitignore vendored Normal file
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@ -0,0 +1,6 @@
src/.old
src/test.cpp
libstadium.so
libstadiumtest_release
libstadiumtest_sanitizer
libstadiumtest_fortified

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@ -2,16 +2,21 @@
CC = g++ CC = g++
CFLAGS_DEFAULT = -march=native -std=c++23 CFLAGS_DEFAULT = -march=native -std=c++23
CFLAGS_DEBUG = -Wall -Werror -Wno-uninitialized -Wno-analyzer-use-of-uninitialized-value -fanalyzer -ggdb CFLAGS_DEBUG = -ggdb -Wall -Werror -Wno-reorder -Wno-uninitialized -fanalyzer -Wno-analyzer-use-of-uninitialized-value
CFLAGS_DEBUG_S = -O0 -fsanitize=address -fsanitize=undefined -fno-sanitize-recover=all -fsanitize=float-divide-by-zero -fsanitize=float-cast-overflow #CFLAGS_DEBUG_S = -O0 -fsanitize=address -fsanitize=undefined -fno-sanitize-recover=all -fsanitize=float-divide-by-zero -fsanitize=float-cast-overflow
CFLAGS_DEBUG_F = -O1 -D_FORTIFY_SOURCE=3 CFLAGS_DEBUG_F = -O1 -D_FORTIFY_SOURCE=3
CFLAGS_RELEASE = -static-libgcc -static-libstdc++ -static -Ofast -fdevirtualize-speculatively -fdata-sections -ffunction-sections -Wl,-gc-sections -Wl,-strip-all -Wl,-strip-discarded -flto -s -D_FORTIFY_SOURCE=3 CFLAGS_RELEASE = -static-libgcc -static-libstdc++ -static -Ofast -fdevirtualize-speculatively -fdata-sections -ffunction-sections -Wl,-gc-sections -Wl,-strip-all -Wl,-strip-discarded -flto -s -D_FORTIFY_SOURCE=3
SOURCES = src/stadium.hpp src/stadium.cpp src/kldr.hpp SOURCES = src/Stadium.hpp src/Stadium.cpp \
src/Event.hpp src/Event.cpp \
src/Worker.hpp src/Worker.cpp \
src/KLDR.hpp \
src/Utils.hpp
SOURCES_TEST = src/test.cpp SOURCES_TEST = src/test.cpp
#LINKED_LIBS = -l #LINKED_LIBS = -l
OUTPUT_LIB = libstadium.so OUTPUT_LIB = libstadium.so
OUTPUT_TEST_BIN_S = libstadiumtest_sanitizer OUTPUT_TEST_BIN = libstadiumtest_release
#OUTPUT_TEST_BIN_S = libstadiumtest_sanitizer
OUTPUT_TEST_BIN_F = libstadiumtest_fortified OUTPUT_TEST_BIN_F = libstadiumtest_fortified
@ -19,9 +24,7 @@ default: clean release_test
debug_test: $(SOURCES) $(SOURCES_TEST) debug_test: $(SOURCES) $(SOURCES_TEST)
$(CC) $(CFLAGS_DEFAULT) $(CFLAGS_DEBUG) $(CFLAGS_DEBUG_S) $(SOURCES) $(SOURCES_TEST) -o $(OUTPUT_TEST_BIN_S)
$(CC) $(CFLAGS_DEFAULT) $(CFLAGS_DEBUG) $(CFLAGS_DEBUG_F) $(SOURCES) $(SOURCES_TEST) -o $(OUTPUT_TEST_BIN_F) $(CC) $(CFLAGS_DEFAULT) $(CFLAGS_DEBUG) $(CFLAGS_DEBUG_F) $(SOURCES) $(SOURCES_TEST) -o $(OUTPUT_TEST_BIN_F)
#$(LINKED_LIBS)
debug: $(SOURCES) debug: $(SOURCES)
echo "NYI" echo "NYI"
@ -34,4 +37,4 @@ release: $(SOURCES)
clean: clean:
rm -f $(OUTPUT_LIB) $(OUTPUT_TEST_BIN_S) $(OUTPUT_TEST_BIN_F) rm -f $(OUTPUT_LIB) $(OUTPUT_TEST_BIN_F) $(OUTPUT_TEST_BIN)

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@ -3,9 +3,3 @@
_Эталонная имплементация библиотеки с реализацией протокола Stadium на языке C++._ _Эталонная имплементация библиотеки с реализацией протокола Stadium на языке C++._
**В процессе активной разработки!/Under active development!** **В процессе активной разработки!/Under active development!**
## Пространства имён
`Stadium::Base`: базовые инструменты, не подлежащие принципиальному изменению в будущем.
`Stadium::v1`: то, что может быть изменено в последующих версиях.

53
src/Event.cpp Normal file
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@ -0,0 +1,53 @@
/*
* Event.cpp
* Copyright (c) 2023 Cyclone Team. Licensed under GNU GPLv3-only terms.
*
*/
#include "Event.hpp"
namespace Stadium::v1 {
// Default ctor
Event::Event () {
this->Type.Category = this->Type.Subcategory = this->AsyncID = 0;
}
// Ctor with parsing of raw char array
Event::Event (const char* data, size_t data_sz) {
// TODO
}
// Ctor with positional arguments
Event::Event (EventType type, KLDRArray<> data, uint16_t id = 0) : Type(std::move(type)), Payload(std::move(data)), AsyncID(id) {
// TODO: calculate hash
}
// Ctor with positional arguments number two
Event::Event (uint8_t cat, uint8_t subcat, KLDRArray<> data, uint16_t id = 0) : Payload(std::move(data)), AsyncID(id) {
this->Type.Category = cat;
this->Type.Subcategory = subcat;
// TODO: calculate hash
}
// Write to stdout info about event
void
Event::Print () {
printf(
"[Event] Object at: %lu; Category: 0x%.2hhx; Subcategory: 0x%.2hhx; AsyncID: %hu; Payload size: cells: %lu, bytes:%lu\n", // TODO: add hash
reinterpret_cast<size_t>(this),
this->Type.Category,
this->Type.Subcategory,
this->AsyncID,
this->Payload.CellsAmount(),
this->Payload.FlatSize()
);
}
}

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@ -9,25 +9,49 @@
#include <cstdio>
#include <vector>
#include "KLDR.hpp" #include "KLDR.hpp"
namespace Stadium { namespace Stadium::v1 {
namespace v1 {
class Event {
public:
struct { // Asynchronous ID of event
uint8_t Category; typedef uint16_t EventAsyncID;
uint8_t Subcategory;
} Type; // ??? // Type of event
uint32_t ServerSession; struct EventType {
// TODO: payload hash uint8_t Category;
Base::KLDRArray<> Payload; uint8_t Subcategory;
}; };
} // Event class
class Event {
public:
uint32_t Lifetime = 0; // Lifetime of event in seconds
private:
// These are the "physical" members that will be packed to binary
std::vector<char> Hash;
// CryptoAlgo HashAlgo; // TODO
KLDRArray<> Payload;
public:
EventType Type;
EventAsyncID AsyncID;
Event ();
Event (const char*, size_t);
Event (EventType, KLDRArray<>, uint16_t);
Event (uint8_t, uint8_t, KLDRArray<>, uint16_t);
void Print ();
};
} }

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@ -1,34 +0,0 @@
/*
* EventQueue.hpp
* Copyright (c) 2023 Cyclone Team. Licensed under GNU GPLv3-only terms.
*
*/
#ifndef LIBSTADIUM_EVENTQUEUE_HPP
#define LIBSTADIUM_EVENTQUEUE_HPP
#include <vector>
#include "Event.hpp"
namespace Stadium {
namespace v1 {
class EventQueue {
protected:
std::vector<Event> Array;
public:
//void Add (Event);
//Event Get ();
};
}
}
#endif

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@ -17,34 +17,33 @@
namespace Stadium { namespace Stadium::v1 {
namespace v1 {
enum KLDRDefaultKeys : uint8_t { enum KLDRDefaultKeys : uint8_t {
Data = 0x01, Data = 0x01, // Main data of event
ObjectID = 0x02, ObjectID = 0x02, // ID of object in local context
SrcEventAuthor = 0x03, SrcEventAuthor = 0x03, // Source author of event
PrevEvent = 0x04, PrevEvent = 0x04, // ID of previous event, logically connected to this
NextEvent = 0x05, NextEvent = 0x05, // ID of next event
BatchNumber = 0x06, BatchNumber = 0x06, // Number of event in chain of events
Path = 0x07, Path = 0x07, // Path to requested/uploaded resource
Power = 0x08, Power = 0x08, // Access right to object
ServerSession = 0x09, // ID of server-side session
// Crypto-related // Crypto-related
CryptoAlgos = 0x11, CryptoAlgos = 0x11, // Array of used cryptography algos
CryptoKeyID = 0x12, CryptoKeyID = 0x12, // ID of crypto key used for data encryption in this event
SignedDataHash = 0x13 SignedDataHash = 0x13 // Signed by sender hash of data
}; };
}
namespace Base {
/* /*
* KLDR stands for "Key-Length-Data-Repeat" * KLDR stands for "Key-Length-Data-Repeat".
* Schematically, binary array with KLDR-formatted data looks like this. * Schematically, binary array with KLDR-formatted data looks like this.
* Single cell: * Single cell:
* [key: 1/2 bytes][length of data: 1/2/4 bytes][data: <length of data> bytes] * [key: 1 or 2 bytes][length of data: 1/2/4 bytes][data: <length of data> bytes]
* Whole array: * Whole array:
* [cell 1][cell 2]...[cell n] * [cell 1][cell 2]...[cell n]
* *
@ -54,22 +53,64 @@ namespace Base {
*/ */
template <typename KeyT = uint8_t, typename LengthT = uint16_t> template <typename KeyT = uint8_t, typename LengthT = uint16_t>
class KLDRArray { class KLDRArray {
protected: private:
std::vector<KeyT> Keys; std::vector<KeyT> Keys;
std::vector<LengthT> Lengths; std::vector<LengthT> Lengths;
std::vector<void*> Values; std::vector<char*> Values;
public: public:
//KLDRArray (); // TODO: check used types and/or parse given char array/vector // Constructor
KLDRArray () {}; // TODO: check used types and/or parse given char array/vector
// Destructor // Destructor
~KLDRArray () { ~KLDRArray () {
// Freeing all pointers if vector is not empty // Freeing all pointers if vector is not empty
for (size_t i = 0; i < this->Keys.size(); i++) { for (size_t i = 0; i < this->CellsAmount(); i++) {
operator delete(this->Values[i]); delete[] this->Values[i];
} }
} }
// Move operator WARNING: есть шанс, что я тут сделал ложно, ибо мб мув просто продлевает время жизни вместо перемещения. Ассигнмента тоже касается
KLDRArray (KLDRArray&& src) : Keys(std::move(src.Keys)), Lengths(std::move(src.Lengths)), Values(std::move(src.Values)) {}
// Move assignment operator
KLDRArray& operator= (KLDRArray&& src) {
if (this == &src)
return *this;
this->Keys = std::move(src.Keys);
this->Lengths = std::move(src.Lengths);
this->Values = std::move(src.Values);
return *this;
}
// Copy operator (creating deep copy)
KLDRArray (KLDRArray& src) : Keys(src.Keys), Lengths(src.Lengths)
{
size_t valSize = 0;
for (size_t i = 0; i < src.Values.size(); i++) {
valSize = src.Lengths[i];
this->Values.push_back(new char[valSize]);
std::copy(src.Values[i], src.Values[i] + valSize, this->Values[i]);
}
}
// Copy assignment operator (creating deep copy)
KLDRArray& operator= (const KLDRArray& src) {
if (this == &src)
return *this;
this->Keys = src.Keys;
this->Lengths = src.Lengths;
size_t valSize = 0;
for (size_t i = 0; i < src.Values.size(); i++) {
valSize = src.Lengths[i];
this->Values.push_back(new char[valSize]);
std::copy(src.Values[i], src.Values[i] + valSize, this->Values[i]);
}
return *this;
}
// Write data to PREALLOCATED char array // Write data to PREALLOCATED char array
// WARNING: unsafe and probably UB (may be i test this later but who knows) // WARNING: unsafe and probably UB (may be i test this later but who knows)
void AsArrayF (char* arr) { void AsArrayF (char* arr) {
@ -79,13 +120,13 @@ class KLDRArray {
ptr += sizeof(KeyT); ptr += sizeof(KeyT);
std::copy((char*)&this->Lengths[i], (char*)(&this->Lengths[i] + sizeof(LengthT)), ptr); std::copy((char*)&this->Lengths[i], (char*)(&this->Lengths[i] + sizeof(LengthT)), ptr);
ptr += sizeof(LengthT); ptr += sizeof(LengthT);
std::copy((char*)this->Values[i], ((char*)this->Values[i]) + this->Lengths[i], ptr); std::copy(this->Values[i], this->Values[i] + this->Lengths[i], ptr);
ptr += this->Lengths[i]; ptr += this->Lengths[i];
} }
} }
// Return contents as char vector // Return contents as char vector
std::vector<char> AsArray () { std::vector<char> AsArray () const {
std::vector<char> result; std::vector<char> result;
for (size_t i = 0; i < this->CellsAmount(); i++) { for (size_t i = 0; i < this->CellsAmount(); i++) {
for (uint j = 0; j < sizeof(KeyT); j++) for (uint j = 0; j < sizeof(KeyT); j++)
@ -99,49 +140,61 @@ class KLDRArray {
} }
// Print all contents of array to stdout // Print all contents of array to stdout
void Print () { void Print () const {
printf("Elements amount: %lu\n", this->CellsAmount()); printf(
"[KLDRArray] Object at: %lu; "
"KeyT size: %lu; "
"LengthT size: %lu; "
"Elements amount: %lu\n",
(size_t)this,
sizeof(KeyT),
sizeof(LengthT),
this->CellsAmount()
);
for (size_t i = 0; i < this->CellsAmount(); i++) { for (size_t i = 0; i < this->CellsAmount(); i++) {
printf("Key: "); printf("\tKey: ");
switch (this->Keys[i]) { switch (this->Keys[i]) {
case KLDRDefaultKeys::Data: case v1::KLDRDefaultKeys::Data:
printf("Data"); printf("Data");
break; break;
case KLDRDefaultKeys::ObjectID: case v1::KLDRDefaultKeys::ObjectID:
printf("ObjectID"); printf("ObjectID");
break; break;
case KLDRDefaultKeys::SrcEventAuthor: case v1::KLDRDefaultKeys::SrcEventAuthor:
printf("SrcEventAuthor"); printf("SrcEventAuthor");
break; break;
case KLDRDefaultKeys::PrevEvent: case v1::KLDRDefaultKeys::PrevEvent:
printf("PrevEvent"); printf("PrevEvent");
break; break;
case KLDRDefaultKeys::NextEvent: case v1::KLDRDefaultKeys::NextEvent:
printf("NextEvent"); printf("NextEvent");
break; break;
case KLDRDefaultKeys::BatchNumber: case v1::KLDRDefaultKeys::BatchNumber:
printf("BatchNumber"); printf("BatchNumber");
break; break;
case KLDRDefaultKeys::Path: case v1::KLDRDefaultKeys::Path:
printf("Path"); printf("Path");
break; break;
case KLDRDefaultKeys::Power: case v1::KLDRDefaultKeys::Power:
printf("Power"); printf("Power");
break; break;
case KLDRDefaultKeys::CryptoAlgos: case v1::KLDRDefaultKeys::ServerSession:
printf("ServerSession");
break;
case v1::KLDRDefaultKeys::CryptoAlgos:
printf("CryptoAlgos"); printf("CryptoAlgos");
break; break;
case KLDRDefaultKeys::CryptoKeyID: case v1::KLDRDefaultKeys::CryptoKeyID:
printf("CryptoKeyID"); printf("CryptoKeyID");
break; break;
case KLDRDefaultKeys::SignedDataHash: case v1::KLDRDefaultKeys::SignedDataHash:
printf("SignedDataHash"); printf("SignedDataHash");
break; break;
default: default:
printf("0x%.2X", (KeyT)this->Keys[i]); printf("0x%.2X", (KeyT)this->Keys[i]);
} }
printf("; Length: %u; ", (LengthT)this->Lengths[i]); printf("; Length: %u; ", (uint)this->Lengths[i]);
printf("Value: "); printf("ValuePtr: %lu; Value: ", (uint64_t)this->Values[i]);
for (LengthT j = 0; j < this->Lengths[i]; j++) for (LengthT j = 0; j < this->Lengths[i]; j++)
printf("%.2X ", ((uint8_t*)this->Values[i])[j]); printf("%.2X ", ((uint8_t*)this->Values[i])[j]);
printf("\n"); printf("\n");
@ -149,12 +202,12 @@ class KLDRArray {
} }
// Get amount of cells in array // Get amount of cells in array
inline size_t CellsAmount () { inline size_t CellsAmount () const {
return this->Keys.size(); return this->Keys.size();
} }
// Get size of all data in array as if they in packed condition // Get size of all data in array as if they in packed condition
size_t FlatSize () { size_t FlatSize () const {
size_t result = this->Keys.size() * sizeof(KeyT) + this->Lengths.size() * sizeof(LengthT); size_t result = this->Keys.size() * sizeof(KeyT) + this->Lengths.size() * sizeof(LengthT);
for (size_t i = 0; i < this->CellsAmount(); i++) for (size_t i = 0; i < this->CellsAmount(); i++)
result += this->Lengths[i]; result += this->Lengths[i];
@ -162,7 +215,7 @@ class KLDRArray {
} }
// If there are specified key // If there are specified key
bool KeyExists (KeyT key) { bool KeyExists (KeyT key) const {
for (size_t i = 0; i < this->CellsAmount(); i++) { for (size_t i = 0; i < this->CellsAmount(); i++) {
if (this->Keys[i] == key) { if (this->Keys[i] == key) {
return true; return true;
@ -171,25 +224,24 @@ class KLDRArray {
return false; return false;
} }
// Add new cell to array, fast version without key checks // Add new cell to array, fast version without key checks, data will be copied
void AddF (KeyT key, LengthT length, void* data) { void AddF (KeyT key, LengthT length, char* data) {
this->Keys.push_back(key); this->Keys.push_back(key);
this->Lengths.push_back(length); this->Lengths.push_back(length);
void* newData = operator new(length); // Yes, allocating memory for void pointer really looks like this char* newData = new char[length];
std::copy((char*)data, (char*)data + length, (char*)newData); // Dirty hacks, YES! std::copy(data, data + length, newData);
this->Values.push_back(newData); this->Values.push_back(newData);
// NOTICE: there is `std::is_pod<SomeType>()`, so may be we can use one more template to make this a little more safe (may be)
} }
// Add new cell to array, but only if key is unique // Add new cell to array, but only if key is unique
void Add (KeyT key, LengthT length, void* data) { void Add (KeyT key, LengthT length, char* data) {
if (this->KeyExists(key)) if (this->KeyExists(key))
throw std::invalid_argument("supplied key already exist"); throw std::invalid_argument("supplied key already exist");
this->AddF(key, length, data); this->AddF(key, length, data);
} }
// Get just pointer to value from array by key // Get just pointer to value from array by key
void* Get (KeyT key) { char* Get (KeyT key) const {
for (size_t i = 0; i < this->CellsAmount(); i++) { for (size_t i = 0; i < this->CellsAmount(); i++) {
if (this->Keys[i] == key) { if (this->Keys[i] == key) {
return this->Values[i]; return this->Values[i];
@ -199,7 +251,7 @@ class KLDRArray {
} }
// Get pointer to value and length from array by key // Get pointer to value and length from array by key
void* Get (KeyT key, LengthT* length) { char* Get (KeyT key, LengthT* length) const {
for (size_t i = 0; i < this->CellsAmount(); i++) { for (size_t i = 0; i < this->CellsAmount(); i++) {
if (this->Keys[i] == key) { if (this->Keys[i] == key) {
*length = this->Lengths[i]; *length = this->Lengths[i];
@ -209,6 +261,8 @@ class KLDRArray {
throw std::invalid_argument("invalid KLDRArray key"); throw std::invalid_argument("invalid KLDRArray key");
} }
// TODO: get copy of value
// Delete cell from array by key // Delete cell from array by key
void Del (KeyT key) { void Del (KeyT key) {
for (size_t i = 0; i < this->CellsAmount(); i++) { for (size_t i = 0; i < this->CellsAmount(); i++) {
@ -240,7 +294,7 @@ class KLDRArray {
} }
}; };
}
} }

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@ -2,13 +2,24 @@
* Stadium.cpp * Stadium.cpp
* Copyright (c) 2023 Cyclone Team. Licensed under GNU GPLv3-only terms. * Copyright (c) 2023 Cyclone Team. Licensed under GNU GPLv3-only terms.
* *
* -> [ Incoming Events Queue ] --> [ Base Event Handlers ] * API logic:
* / \-> [ Custom Event Handlers ] *
* [ Transport ] <-> [ StadiumCrypto (optional) ] <- -> [ Expected Event Handlers ] * -> [ Incoming Events Queue ] ---> [ Base Event Handlers ]
* \ * / \-> [ Custom Event Handlers ]
* <- [ Outcoming Events Queue ] <--- [ Base Methods ] * [ Transport ] <-> [ StadiumCrypto (optional) ] <-> -> [ Expected Event Handlers ]
* \
* <- [ Outcoming Events Queue ] <--- [ Base Methods ]
* \ * \
* <- [ Custom Methods ] * <- [ Custom Methods ]
*
* Arch logic:
*
* [ Base Event Handlers ] [ Custom Event Handlers ] [ Base Methods ] [ Custom Methods ]
* [ Base Event Management ] [ E2EE ] [ Far-Visibility Integrity Checks ] [ DoS Protection ]
* [ Session Management ] [ Direct-Visibility Integrity Checks ] [ DoS Protection ]
* [ Several Workers ] [ Event Parser ] [ DoS Protection ]
* [ Various Transport Adapters ]
*
*/ */
#include "Stadium.hpp" #include "Stadium.hpp"

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@ -9,17 +9,19 @@
#include "EventQueue.hpp" #include "Utils.hpp"
#include "KLDR.hpp"
#include "Event.hpp"
#include "Worker.hpp"
namespace Stadium { namespace Stadium::v1 {
namespace v1 {
// TODO // TODO
// __DATE__ __TIME__
} }
}

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@ -10,28 +10,29 @@
#include <iostream> #include <iostream>
#include <vector> #include <cstdint>
namespace Stadium { namespace Stadium::Utils {
namespace Utils {
void PrintArray (std::vector<char> arr) {
printf("Length: %lu\n", arr.size());
// Print information about any std-compatible container to stdout
template<typename Container>
void
PrintArray (Container& arr) {
printf("Array at %lu; length: %lu\n",
reinterpret_cast<size_t>(&arr),
arr.size()
);
for (size_t i = 0; i < arr.size(); i++) for (size_t i = 0; i < arr.size(); i++)
printf("%.2X ", (uint8_t)arr[i]); printf("%.2X ", (uint8_t)arr[i]);
printf("\n"); printf("\n");
} }
void PrintArray (char* arr, size_t len) {
printf("Length: %lu\n", len);
for (size_t i = 0; i < len; i++)
printf("%.2X ", (uint8_t)arr[i]);
printf("\n");
}
}
} }

54
src/Worker.cpp Normal file
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@ -0,0 +1,54 @@
/*
* Worker.cpp
* Copyright (c) 2023 Cyclone Team. Licensed under GNU GPLv3-only terms.
*
*/
#include "Worker.hpp"
namespace Stadium::v1 {
// Create event from raw bytes (ATTENTION: maybe move this method to Event class)
Event
Worker::ParseRawData (const char* data) {
// TODO
return Event{};
}
// Parse ingoing packet data to event, check its properties and put it to queue if all okay
void
Worker::PutIngoing (const char* data) {
// TODO
}
// Send outgoing event (NOTICE: maybe rework)
void
Worker::PutOutgoing (EventType type, KLDRArray<> data) {
// TODO
}
// Bind handler for ingoing events
void
Worker::BindHandler (EventType, void()) {
// TODO
}
// Start ingoing event processing loop
void
Worker::IngoingLoop () {
// TODO
}
// Get single outgoing event from queue and form it to binary
std::vector<char>
Worker::GetOutgoingDataVec () {
return std::vector<char>{}; // TODO: remove
}
}

52
src/Worker.hpp Normal file
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@ -0,0 +1,52 @@
/*
* Worker.hpp
* Copyright (c) 2023 Cyclone Team. Licensed under GNU GPLv3-only terms.
*
*/
#ifndef LIBSTADIUM_WORKER_HPP
#define LIBSTADIUM_WORKER_HPP
#include <atomic>
#include <queue>
#include <unordered_map>
#include "KLDR.hpp"
#include "Event.hpp"
namespace Stadium::v1 {
// Working class
class Worker {
private:
static bool Running; // If workers are running
static std::unordered_map<EventType, void()> Handlers; // Map of handlers associated with packet types TODO: may be it can be more optimized with reloaded operators
static std::unordered_map<EventAsyncID, Event> ExpectedEvents; // Map of expected events and their async IDs
static std::atomic<EventAsyncID> LastAsyncID; // Increments every use of Expect()
static std::queue<Event> OutgoingEvents; // FIFO of outgoing events
static std::queue<Event> IngoingEvents; // FIFO of ingoing events
public:
Event ParseRawData (const char*);
void PutIngoing (const char*);
void PutOutgoing (EventType, KLDRArray<>);
void BindHandler (EventType, void());
void IngoingLoop ();
std::vector<char> GetOutgoingDataVec ();
};
}
#endif

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@ -4,20 +4,24 @@
int main () { int main () {
Stadium::Base::KLDRArray<> arr; Stadium::v1::KLDRArray<> arr;
char str1[] = "goodbye, var?\n"; char str1[] = "goodbye, var?\n";
char str2[] = "hello, world!\n"; char str2[] = "hello, world!\n";
char str3[] = "fisting\n"; char str3[] = "fisting\n";
char str4[] = "IS 300$!!!!!!!!!!!!!!!!!!\n"; char str4[] = "IS 300$!!!!!!!!!!!!!!!!!!\n";
char str5[] = "a)\n"; char str5[] = "a)\n";
arr.Add(Stadium::Base::KLDRDefaultKeys::Data, sizeof(str1), (void*)&str1); arr.Add(Stadium::v1::KLDRDefaultKeys::Data, sizeof(str1), (char*)&str1);
arr.Add(Stadium::Base::KLDRDefaultKeys::ObjectID, sizeof(str2), (void*)&str2); arr.Add(Stadium::v1::KLDRDefaultKeys::ObjectID, sizeof(str2), (char*)&str2);
arr.Add(0xF4, sizeof(str3), (void*)&str3); arr.Add(0xF4, sizeof(str3), (char*)&str3);
arr.Add(0x6a, sizeof(str4), (void*)&str4); arr.Add(0x6a, sizeof(str4), (char*)&str4);
arr.Add(Stadium::Base::KLDRDefaultKeys::SignedDataHash, sizeof(str5), (void*)&str5); arr.Add(Stadium::v1::KLDRDefaultKeys::SignedDataHash, sizeof(str5), (char*)&str5);
std::cout << "Shuffling!" << std::endl;
arr.Shuffle(); arr.Shuffle();
arr.Print(); arr.Print();
Stadium::v1::Event e{0x01, 0xf4, std::move(arr), 54};
e.Print();
//
return 0; return 0;
} }