Merge remote-tracking branch 'origin/master'

This commit is contained in:
Dorian Zedler 2021-05-11 19:36:26 +02:00
commit d5d8f5cffc
Signed by: dorian
GPG key ID: 989DE36109AFA354
42 changed files with 2461 additions and 7220 deletions

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.gitmodules vendored Normal file
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[submodule "qt-openssl-encryption"]
path = qt-openssl-encryption
url = ssh://git@git.itsblue.de:2222/itsblue-development/qt-openssl-encryption.git

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/build/

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#
# Copyright (C) 2018-2019 QuasarApp.
# Distributed under the lgplv3 software license, see the accompanying
# Everyone is permitted to copy and distribute verbatim copies
# of this license document, but changing it is not allowed.
#
!isEmpty(Qt_GMP_LIB):error("GMP.pri already included")
Qt_GMP_LIB = 1
DEFINES += MINIGMP_LIBRARY
DEFINES += QT_DEPRECATED_WARNINGS
HEADERS += \
$$PWD/bigint.h \
$$PWD/mini-gmp.h \
$$PWD/minigmp_global.h
SOURCES += \
$$PWD/bigint.cpp \
$$PWD/mini-gmp.c
INCLUDEPATH += $$PWD

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MIT License
Copyright (c) 2019 QuasarApp
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.

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//#
//# Copyright (C) 2018-2019 QuasarApp.
//# Distributed under the lgplv3 software license, see the accompanying
//# Everyone is permitted to copy and distribute verbatim copies
//# of this license document, but changing it is not allowed.
//#
#include "bigint.h"
#include <limits>
#include <cstring>
#include <cmath>
// constructors
BigInt::BigInt() {
mpz_init(data);
}
BigInt::BigInt(const BigInt &val, int bitCount) {
if (bitCount > 0) {
mpz_init2(data, static_cast<unsigned int>(bitCount));
} else {
mpz_init(data);
}
mpz_set(data, val.data);
}
BigInt::BigInt(const std::string &str, int base):
BigInt() {
mpz_set_str(data, str.c_str(), base);
}
BigInt::BigInt(intMpz val):
BigInt() {
mpz_set_si(data, val);
}
BigInt::BigInt(char item, unsigned int size, int base = 2):
BigInt(std::string(size, item),base) {
}
std::string BigInt::getString(int base) const {
char *str = mpz_get_str(nullptr, base, data);
return str;
}
BigInt::~BigInt() {
mpz_clear(data);
}
BigInt &BigInt::powm(const BigInt &pow, const BigInt &mod) {
mpz_powm(data, data, pow.data, mod.data);
return *this;
}
BigInt BigInt::powm(BigInt val, const BigInt &pow, const BigInt &mod) {
return val.powm(pow, mod);
}
BigInt &BigInt::pow(uIntMpz pow) {
mpz_pow_ui(data, data, pow);
return *this;
}
int BigInt::sizeBits() const {
return sizeBytes() * 8;
}
int BigInt::sizeBytes() const {
return static_cast<int>(mpz_size(data) * sizeof ((*data->_mp_d)));
}
int BigInt::longBits() const {
return static_cast<int>(getString(2).size());
}
int BigInt::longBytes() const {
return static_cast<int>(std::ceil(static_cast<double>(longBits()) / 8));
}
#define GMP_ABS(x) ((x) >= 0 ? (x) : -(x))
int BigInt::sizeType() const {
return static_cast<int>(static_cast<size_t>(GMP_ABS( data->_mp_alloc)) *
sizeof ((*data->_mp_d)));
}
bool BigInt::isPrime(bool absalut) const {
return (mpz_probab_prime_p(data, 50) - (absalut? 1: 0)) > 0;
}
BigInt& BigInt::gcd(const BigInt &a, const BigInt &b) {
mpz_gcd(data, a.data, b.data);
return *this;
}
void BigInt::fromHex(const std::string &hex) {
mpz_set_str(data, hex.c_str(), 16);
}
BigInt BigInt::bigPow10(unsigned short pow) {
return "1" + std::string(pow, '0');
}
BigInt &BigInt::toNegative() {
mpz_neg(data, data);
return *this;
}
BigInt &BigInt::operator =(const BigInt &val) {
mpz_set(data, val.data);
return *this;
}
BigInt &BigInt::operator =(const std::string &imput) {
mpz_set_str(data, imput.c_str(), 10);
return *this;
}
BigInt &BigInt::operator =(intMpz val) {
mpz_set_si(data, val);
return *this;
}
// add operators
BigInt operator +(BigInt left, intMpz right) {
if (right >= 0) {
mpz_add_ui(left.data, left.data, static_cast<uIntMpz>(right));
return left;
}
return left -= std::abs(right);
}
BigInt operator +(intMpz left, BigInt right) {
return right += left;
}
BigInt operator +(BigInt left, const BigInt &right) {
mpz_add(left.data, left.data, right.data);
return left;
}
BigInt operator +(BigInt left, const std::string &right) {
return left += BigInt(right);
}
BigInt operator +(const std::string &left, const BigInt &right) {
return BigInt(left) + right;
}
BigInt& operator +=(BigInt &left, intMpz right) {
if (right >= 0) {
mpz_add_ui(left.data, left.data, static_cast<uIntMpz>(right));
return left;
}
return left -= std::abs(right);
}
BigInt& operator +=(BigInt &left, const BigInt &right) {
mpz_add(left.data, left.data, right.data);
return left;
}
BigInt& operator +=(BigInt &left, const std::string &right) {
return left += BigInt(right);
}
// sub operators
BigInt operator -(BigInt left, const BigInt &right) {
mpz_sub(left.data, left.data, right.data);
return left;
}
BigInt operator -(BigInt left, intMpz right) {
if (right >= 0) {
mpz_sub_ui(left.data, left.data, static_cast<uIntMpz>(right));
return left;
}
return left += std::abs(right);
}
BigInt operator -(intMpz left, BigInt right) {
if (left >= 0) {
mpz_ui_sub(right.data, static_cast<uIntMpz>(left), right.data);
return right;
}
return right += std::abs(left);
}
BigInt operator-(BigInt val) {
mpz_neg(val.data, val.data);
return val;
}
BigInt operator -(BigInt left, const std::string &right) {
return left -= BigInt(right);
}
BigInt operator -(const std::string & left, const BigInt &right) {
return BigInt(left) - right;
}
BigInt& operator -=(BigInt &left, const BigInt &right) {
mpz_sub(left.data, left.data, right.data);
return left;
}
BigInt& operator -=(BigInt &left, const std::string &right) {
return left -= BigInt(right);
}
BigInt& operator -=(BigInt &left, intMpz right) {
if (right >= 0) {
mpz_sub_ui(left.data, left.data, static_cast<uIntMpz>(right));
return left;
}
return left += std::abs(right);
}
// div operators
BigInt operator /(BigInt left, const BigInt &right) {
mpz_tdiv_q(left.data, left.data, right.data);
return left;
}
BigInt operator /(BigInt left, intMpz right) {
mpz_tdiv_q_ui(left.data, left.data, static_cast<uIntMpz>(std::abs(right)));
if (right >= 0) {
return left;
}
return -left;
}
BigInt operator /(BigInt left, const std::string &right) {
return left /= BigInt(right);
}
BigInt operator /(intMpz left, BigInt right) {
return BigInt(left) / right;
}
BigInt operator /(const std::string & left, const BigInt &right) {
return BigInt(left) / right;
}
BigInt& operator /=(BigInt &left, const BigInt &right) {
mpz_tdiv_q(left.data, left.data, right.data);
return left;
}
BigInt& operator /=(BigInt &left, const std::string &right) {
return left /= BigInt(right);
}
BigInt& operator /=(BigInt &left, intMpz right) {
mpz_tdiv_q_ui(left.data, left.data, static_cast<uIntMpz>(std::abs(right)));
if (right >= 0) {
return left;
}
return left.toNegative();
}
// mul operators
BigInt operator *(BigInt left, const BigInt &right) {
mpz_mul(left.data, left.data, right.data);
return left;
}
BigInt operator *(BigInt left, intMpz right) {
mpz_mul_ui(left.data, left.data, static_cast<uIntMpz>(std::abs(right)));
if (right >= 0) {
return left;
}
return -left;
}
BigInt operator *(intMpz left, BigInt right) {
return right *= left;
}
BigInt operator *(const std::string & left, BigInt right) {
return right *= BigInt(left);
}
BigInt operator *(BigInt left, const std::string &right) {
return left *= BigInt(right);
}
BigInt& operator *=(BigInt &left, const BigInt &right) {
mpz_mul(left.data, left.data, right.data);
return left;
}
BigInt& operator *=(BigInt &left, const std::string &right) {
return left *= BigInt(right);
}
BigInt& operator *=(BigInt &left, intMpz right) {
mpz_mul_ui(left.data, left.data, static_cast<uIntMpz>(std::abs(right)));
if (right >= 0) {
return left;
}
return left.toNegative();
}
//mod operations
BigInt operator %(BigInt left, const BigInt &right) {
mpz_tdiv_r(left.data, left.data, right.data);
return left;
}
BigInt operator %(BigInt left, intMpz right) {
mpz_tdiv_r_ui(left.data, left.data, static_cast<uIntMpz>(std::abs(right)));
return left;
}
BigInt operator %(intMpz left, BigInt right) {
return BigInt(left) % right;
}
BigInt operator %(BigInt left, const std::string & right) {
return left %= BigInt(right);
}
BigInt operator %(const std::string & left, const BigInt &right) {
return BigInt(left) % right;
}
BigInt& operator %=(BigInt& left, const BigInt &right) {
mpz_tdiv_r(left.data, left.data, right.data);
return left;
}
BigInt& operator %=(BigInt& left, intMpz right) {
mpz_tdiv_r_ui(left.data, left.data, static_cast<uIntMpz>(std::abs(right)));
return left;
}
BigInt& operator %=(BigInt &left, const std::string &right) {
return left %= BigInt(right);
}
// incriment and dicriment
BigInt &BigInt::operator--() {
*this -= 1;
return *this;
}
BigInt &BigInt::operator++() {
*this += 1;
return *this;
}
BigInt BigInt::operator--(int) {
BigInt temp(*this);
--*this;
return temp;
}
BigInt BigInt::operator++(int) {
BigInt temp(*this);
++*this;
return temp;
}
// move operators
BigInt operator >>(BigInt left, int right) {
if (right >= 0) {
mpn_rshift(left.data->_mp_d,
left.data->_mp_d,
left.data->_mp_size,
static_cast<unsigned int>(std::abs(right)));
return left;
}
return left << right;
}
BigInt operator <<(BigInt left, int right) {
if (right >= 0) {
mpn_lshift(left.data->_mp_d,
left.data->_mp_d,
left.data->_mp_size,
static_cast<unsigned int>(std::abs(right)));
return left;
}
return left >> right;
}
BigInt& operator >>=(BigInt &left, int right) {
if (right >= 0) {
mpn_rshift(left.data->_mp_d,
left.data->_mp_d,
left.data->_mp_size,
static_cast<unsigned int>(std::abs(right)));
return left;
}
return left <<= right;
}
BigInt& operator <<=(BigInt &left, int right) {
if (right >= 0) {
mpn_lshift(left.data->_mp_d,
left.data->_mp_d,
left.data->_mp_size,
static_cast<unsigned int>(std::abs(right)));
return left;
}
return left >>= right;
}
// other bin operators
BigInt operator ~(BigInt left) {
mpz_com(left.data, left.data);
return left;
}
BigInt operator |(BigInt left, const BigInt &right) {
mpz_ior(left.data, left.data, right.data);
return left;
}
BigInt operator |(const BigInt &left, intMpz right) {
return left | BigInt(right);
}
BigInt& operator |=(BigInt &left, const BigInt &right) {
mpz_ior(left.data, left.data, right.data);
return left;
}
BigInt& operator |=(BigInt &left, intMpz right) {
return left |= BigInt(right);
}
BigInt operator &(BigInt left, const BigInt &right) {
mpz_and(left.data, left.data, right.data);
return left;
}
BigInt operator &(const BigInt &left, intMpz right) {
return left & BigInt(right);
}
BigInt& operator &=(BigInt &left, const BigInt &right) {
mpz_and(left.data, left.data, right.data);
return left;
}
BigInt& operator &=(BigInt &left, intMpz right) {
return left &= BigInt(right);
}
BigInt operator ^(BigInt left, const BigInt &right) {
mpz_xor(left.data, left.data, right.data);
return left;
}
BigInt operator ^(const BigInt &left, intMpz right) {
return left ^ BigInt(right);
}
BigInt& operator ^=(BigInt &left, const BigInt &right) {
mpz_xor(left.data, left.data, right.data);
return left;
}
BigInt& operator ^=(BigInt &left, intMpz right) {
return left ^= BigInt(right);
}
// logic operators
bool operator!(const BigInt &val) {
return val == 0;
}
bool operator == (const BigInt& left, const BigInt& right) {
return mpz_cmp(left.data, right.data) == 0;
}
bool operator == (const BigInt& left, intMpz right) {
return mpz_cmp_si(left.data, right) == 0;
}
bool operator == (const BigInt &left, const std::string &right) {
return left == BigInt(right);
}
bool operator == ( intMpz left, const BigInt & right) {
return right == left;
}
bool operator == ( const std::string & left, const BigInt & right) {
return right == BigInt(left);
}
bool operator != (const BigInt &left, const BigInt& right) {
return !(left == right);
}
bool operator != (const BigInt &left, intMpz right) {
return !(left == right);
}
bool operator != (const BigInt &left, const std::string &right) {
return left != BigInt(right);
}
bool operator != ( intMpz left, const BigInt & right) {
return right != left;
}
bool operator != ( const std::string & left, const BigInt & right) {
return right != BigInt(left);
}
bool operator < ( const BigInt &left, const BigInt& right) {
return mpz_cmp(left.data, right.data) < 0;
}
bool operator < ( const BigInt &left, intMpz right) {
return mpz_cmp_si(left.data, right) < 0;
}
bool operator < ( const BigInt &left, const std::string &right) {
return left < BigInt(right);
}
bool operator < ( intMpz left, const BigInt & right) {
return right > left;
}
bool operator < ( const std::string & left, const BigInt & right) {
return right > BigInt(left);
}
bool operator > ( const BigInt &left, const BigInt& right) {
return mpz_cmp(left.data, right.data) > 0;
}
bool operator > ( const BigInt &left, intMpz right) {
return mpz_cmp_si(left.data, right) > 0;
}
bool operator > ( const BigInt &left, const std::string &right) {
return left > BigInt(right);
}
bool operator > ( intMpz left, const BigInt & right) {
return right < left;
}
bool operator > ( const std::string & left, const BigInt & right) {
return right < BigInt(left);
}
bool operator <= ( const BigInt &left, const BigInt& right) {
return mpz_cmp(left.data, right.data) <= 0;
}
bool operator <= ( const BigInt &left, intMpz right) {
return mpz_cmp_si(left.data, right) <= 0;
}
bool operator <= ( const BigInt &left, const std::string &right) {
return left <= BigInt(right);
}
bool operator <= ( intMpz left, const BigInt & right) {
return right >= left;
}
bool operator <= ( const std::string & left, const BigInt & right) {
return right >= BigInt(left);
}
bool operator >= ( const BigInt &left, const BigInt& right) {
return mpz_cmp(left.data, right.data) >= 0;
}
bool operator >= ( const BigInt &left, intMpz right) {
return mpz_cmp_si(left.data, right) >= 0;
}
bool operator >= ( const BigInt &left, const std::string &right) {
return left >= BigInt(right);
}
bool operator >= ( intMpz left, const BigInt & right) {
return right <= left;
}
bool operator >= ( const std::string & left, const BigInt & right) {
return right <= BigInt(left);
}
//// cast operations
//BigInt::operator bool() const {
// return *this != 0;
//}

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//#
//# Copyright (C) 2018-2019 QuasarApp.
//# Distributed under the lgplv3 software license, see the accompanying
//# Everyone is permitted to copy and distribute verbatim copies
//# of this license document, but changing it is not allowed.
//#
#ifndef BIGINT_H
#define BIGINT_H
#include "mini-gmp.h"
#include <string>
#include <vector>
#include "minigmp_global.h"
/**
* @brief The BigInt class - c++ minigmp wrapper
*/
class MINIGMPSHARED_EXPORT BigInt
{
mpz_t data;
public:
BigInt();
BigInt(const BigInt& val, int bitCount = -1);
BigInt(const std::string &imput, int base = 10);
BigInt(intMpz val);
BigInt(char item, unsigned int size, int base);
std::string getString(int base = 10) const;
~BigInt();
BigInt& powm(const BigInt &pow, const BigInt &mod);
static BigInt powm(BigInt val, const BigInt & pow, const BigInt &mod);
BigInt& pow(uIntMpz pow);
BigInt& log(int base);
/**
* @brief sizeBits
* @return size of bits in memory
*/
int sizeBits() const;
int sizeBytes() const;
/**
* @brief longBits
* @return current length in Bits of number
*/
int longBits() const;
int longBytes() const;
int sizeType() const;
bool isPrime(bool absalut = false) const;
BigInt& gcd(const BigInt &a, const BigInt &b);
void fromHex(const std::string& hex);
/**
* @brief bigPow10
* @param pow
* @return number 10 ^ pow
*/
static BigInt bigPow10(unsigned short pow);
BigInt& toNegative();
BigInt& operator = (const BigInt& val);
BigInt& operator = (const std::string &imput);
BigInt& operator = (intMpz val);
friend BigInt operator + ( BigInt left, const BigInt& right);
friend BigInt operator + ( BigInt left, const std::string &right);
friend BigInt operator + ( BigInt left, intMpz right);
friend BigInt operator + ( intMpz left, BigInt right);
friend BigInt operator + ( const std::string &left, const BigInt &right);
friend BigInt& operator += ( BigInt &left, intMpz right);
friend BigInt& operator += ( BigInt &left, const BigInt& right);
friend BigInt& operator += ( BigInt &left, const std::string &right);
friend BigInt operator - ( BigInt left, const BigInt& right);
friend BigInt operator - ( BigInt left, intMpz right);
friend BigInt operator - ( BigInt left, const std::string &right);
friend BigInt operator - ( intMpz right, BigInt left);
friend BigInt operator - ( const std::string &right, const BigInt &left);
friend BigInt operator-(BigInt val);
friend BigInt& operator -= ( BigInt &left, intMpz right);
friend BigInt& operator -= ( BigInt &left, const BigInt& right);
friend BigInt& operator -= ( BigInt &left, const std::string &right);
friend BigInt operator / ( BigInt left, const BigInt& right);
friend BigInt operator / ( BigInt left, const std::string &right);
friend BigInt operator / ( BigInt left, intMpz right);
friend BigInt operator / ( intMpz left, BigInt right);
friend BigInt operator / ( const std::string &left, const BigInt &right);
friend BigInt& operator /= ( BigInt &left, intMpz right);
friend BigInt& operator /= ( BigInt &left, const std::string &right);
friend BigInt& operator /= ( BigInt &left, const BigInt& right);
friend BigInt operator * ( BigInt left, const BigInt& right);
friend BigInt operator * ( BigInt left, const std::string &right);
friend BigInt operator * ( BigInt left, intMpz right);
friend BigInt operator * ( intMpz left, BigInt right);
friend BigInt& operator *= ( BigInt &left, const BigInt& right);
friend BigInt& operator *= ( BigInt &left, intMpz right);
friend BigInt& operator *= ( BigInt &left, const std::string &right);
friend BigInt operator % ( BigInt left, const BigInt& right);
friend BigInt operator % ( BigInt left, const std::string &right);
friend BigInt operator % ( BigInt left, intMpz right);
friend BigInt operator % ( intMpz left, BigInt right);
friend BigInt operator % ( const std::string & left, const BigInt &right);
friend BigInt& operator %= ( BigInt &left, intMpz right);
friend BigInt& operator %= ( BigInt &left, const std::string &right);
friend BigInt& operator %= ( BigInt &left, const BigInt& right);
friend BigInt operator << ( BigInt left, int right);
friend BigInt operator >> ( BigInt left, int right);
friend BigInt& operator <<= ( BigInt &left, int right);
friend BigInt& operator >>= ( BigInt &left, int right);
friend bool operator == ( const BigInt& left, const BigInt& right);
friend bool operator == ( const BigInt& left, intMpz right);
friend bool operator == ( const BigInt& left, const std::string& right);
friend bool operator == ( const std::string& left, const BigInt& right);
friend bool operator == ( const BigInt& left, const std::string& right);
friend bool operator == ( intMpz left, const std::string& right);
friend bool operator != ( const BigInt& left, const BigInt& right);
friend bool operator != ( const BigInt& left, intMpz right);
friend bool operator != ( const BigInt& left, const std::string& str);
friend bool operator != ( const std::string& left, const BigInt& right);
friend bool operator != ( const BigInt& left, const std::string& right);
friend bool operator != ( intMpz left, const std::string& right);
friend bool operator < ( const BigInt& left, const BigInt& right);
friend bool operator < ( const BigInt& left, intMpz right);
friend bool operator < ( const BigInt& left, const std::string& str);
friend bool operator < ( const std::string& left, const BigInt& right);
friend bool operator < ( const BigInt& left, const std::string& right);
friend bool operator < ( intMpz left, const std::string& right);
friend bool operator > ( const BigInt& left, const BigInt& right);
friend bool operator > ( const BigInt& left, intMpz right);
friend bool operator > ( const BigInt& left, const std::string& str);
friend bool operator > ( const std::string& left, const BigInt& right);
friend bool operator > ( const BigInt& left, const std::string& right);
friend bool operator > ( intMpz left, const std::string& right);
friend bool operator <= ( const BigInt& left, const BigInt& right);
friend bool operator <= ( const BigInt& left, intMpz right);
friend bool operator <= ( const BigInt& left, const std::string& str);
friend bool operator <= ( const std::string& left, const BigInt& right);
friend bool operator <= ( const BigInt& left, const std::string& right);
friend bool operator <= ( intMpz left, const std::string& right);
friend bool operator >= ( const BigInt& left, const BigInt& right);
friend bool operator >= ( const BigInt& left, intMpz right);
friend bool operator >= ( const BigInt& left, const std::string& str);
friend bool operator >= ( const std::string& left, const BigInt& right);
friend bool operator >= ( const BigInt& left, const std::string& right);
friend bool operator >= ( intMpz left, const std::string& right);
friend bool operator!(const BigInt& val);
BigInt& operator-- ();
BigInt& operator++ ();
BigInt operator-- (int);
BigInt operator++ (int);
friend BigInt operator~ (BigInt val);
friend BigInt operator| (BigInt left, const BigInt& right);
friend BigInt operator| (const BigInt &left, intMpz right);
friend BigInt& operator|= (BigInt &left, const BigInt& right);
friend BigInt& operator|= (BigInt &left, intMpz right);
friend BigInt operator& (BigInt left, const BigInt& right);
friend BigInt operator& (const BigInt &left, intMpz right);
friend BigInt& operator&= (BigInt &left, const BigInt& right);
friend BigInt& operator&= (BigInt &left, intMpz right);
friend BigInt operator^ (BigInt left, const BigInt& right);
friend BigInt operator^ (const BigInt &left, intMpz right);
friend BigInt& operator^= (BigInt &left, const BigInt& right);
friend BigInt& operator^= (BigInt &left, intMpz right);
};
#endif // BIGINT_H

File diff suppressed because it is too large Load diff

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@ -1,303 +0,0 @@
/* mini-gmp, a minimalistic implementation of a GNU GMP subset.
Copyright 2011-2015 Free Software Foundation, Inc.
This file is part of the GNU MP Library.
The GNU MP Library is free software; you can redistribute it and/or modify
it under the terms of either:
* the GNU Lesser General Public License as published by the Free
Software Foundation; either version 3 of the License, or (at your
option) any later version.
or
* the GNU General Public License as published by the Free Software
Foundation; either version 2 of the License, or (at your option) any
later version.
or both in parallel, as here.
The GNU MP Library is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received copies of the GNU General Public License and the
GNU Lesser General Public License along with the GNU MP Library. If not,
see https://www.gnu.org/licenses/. */
/* About mini-gmp: This is a minimal implementation of a subset of the
GMP interface. It is intended for inclusion into applications which
have modest bignums needs, as a fallback when the real GMP library
is not installed.
This file defines the public interface. */
#ifndef MINI_GMP
#define MINI_GMP
/* For size_t */
#include <stddef.h>
#if defined (__cplusplus)
extern "C" {
#endif
#define UN_USED(X) (void)X
void mp_set_memory_functions (void *(*) (size_t),
void *(*) (void *, size_t, size_t),
void (*) (void *, size_t));
void mp_get_memory_functions (void *(**) (size_t),
void *(**) (void *, size_t, size_t),
void (**) (void *, size_t));
typedef unsigned long long uIntMpz;
typedef long long intMpz;
typedef uIntMpz mp_limb_t;
typedef intMpz mp_size_t;
typedef uIntMpz mp_bitcnt_t;
typedef mp_limb_t *mp_ptr;
typedef const mp_limb_t *mp_srcptr;
typedef struct
{
int _mp_alloc; /* Number of *limbs* allocated and pointed
to by the _mp_d field. */
int _mp_size; /* abs(_mp_size) is the number of limbs the
last field points to. If _mp_size is
negative this is a negative number. */
mp_limb_t *_mp_d; /* Pointer to the limbs. */
} __mpz_struct;
typedef __mpz_struct mpz_t[1];
typedef __mpz_struct *mpz_ptr;
typedef const __mpz_struct *mpz_srcptr;
extern const int mp_bits_per_limb;
void mpn_copyi (mp_ptr, mp_srcptr, mp_size_t);
void mpn_copyd (mp_ptr, mp_srcptr, mp_size_t);
void mpn_zero (mp_ptr, mp_size_t);
int mpn_cmp (mp_srcptr, mp_srcptr, mp_size_t);
int mpn_zero_p (mp_srcptr, mp_size_t);
mp_limb_t mpn_add_1 (mp_ptr, mp_srcptr, mp_size_t, mp_limb_t);
mp_limb_t mpn_add_n (mp_ptr, mp_srcptr, mp_srcptr, mp_size_t);
mp_limb_t mpn_add (mp_ptr, mp_srcptr, mp_size_t, mp_srcptr, mp_size_t);
mp_limb_t mpn_sub_1 (mp_ptr, mp_srcptr, mp_size_t, mp_limb_t);
mp_limb_t mpn_sub_n (mp_ptr, mp_srcptr, mp_srcptr, mp_size_t);
mp_limb_t mpn_sub (mp_ptr, mp_srcptr, mp_size_t, mp_srcptr, mp_size_t);
mp_limb_t mpn_mul_1 (mp_ptr, mp_srcptr, mp_size_t, mp_limb_t);
mp_limb_t mpn_addmul_1 (mp_ptr, mp_srcptr, mp_size_t, mp_limb_t);
mp_limb_t mpn_submul_1 (mp_ptr, mp_srcptr, mp_size_t, mp_limb_t);
mp_limb_t mpn_mul (mp_ptr, mp_srcptr, mp_size_t, mp_srcptr, mp_size_t);
void mpn_mul_n (mp_ptr, mp_srcptr, mp_srcptr, mp_size_t);
void mpn_sqr (mp_ptr, mp_srcptr, mp_size_t);
int mpn_perfect_square_p (mp_srcptr, mp_size_t);
mp_size_t mpn_sqrtrem (mp_ptr, mp_ptr, mp_srcptr, mp_size_t);
mp_limb_t mpn_lshift (mp_ptr, mp_srcptr, mp_size_t, unsigned int);
mp_limb_t mpn_rshift (mp_ptr, mp_srcptr, mp_size_t, unsigned int);
mp_bitcnt_t mpn_scan0 (mp_srcptr, mp_bitcnt_t);
mp_bitcnt_t mpn_scan1 (mp_srcptr, mp_bitcnt_t);
void mpn_com (mp_ptr, mp_srcptr, mp_size_t);
mp_limb_t mpn_neg (mp_ptr, mp_srcptr, mp_size_t);
mp_bitcnt_t mpn_popcount (mp_srcptr, mp_size_t);
mp_limb_t mpn_invert_3by2 (mp_limb_t, mp_limb_t);
#define mpn_invert_limb(x) mpn_invert_3by2 ((x), 0)
size_t mpn_get_str (unsigned char *, int, mp_ptr, mp_size_t);
mp_size_t mpn_set_str (mp_ptr, const unsigned char *, size_t, int);
void mpz_init (mpz_t);
void mpz_init2 (mpz_t, mp_bitcnt_t);
void mpz_clear (mpz_t);
#define mpz_odd_p(z) (((z)->_mp_size != 0) & (int) (z)->_mp_d[0])
#define mpz_even_p(z) (! mpz_odd_p (z))
int mpz_sgn (const mpz_t);
int mpz_cmp_si (const mpz_t, intMpz);
int mpz_cmp_ui (const mpz_t, uIntMpz);
int mpz_cmp (const mpz_t, const mpz_t);
int mpz_cmpabs_ui (const mpz_t, uIntMpz);
int mpz_cmpabs (const mpz_t, const mpz_t);
int mpz_cmp_d (const mpz_t, double);
int mpz_cmpabs_d (const mpz_t, double);
void mpz_abs (mpz_t, const mpz_t);
void mpz_neg (mpz_t, const mpz_t);
void mpz_swap (mpz_t, mpz_t);
void mpz_add_ui (mpz_t, const mpz_t, uIntMpz);
void mpz_add (mpz_t, const mpz_t, const mpz_t);
void mpz_sub_ui (mpz_t, const mpz_t, uIntMpz);
void mpz_ui_sub (mpz_t, uIntMpz, const mpz_t);
void mpz_sub (mpz_t, const mpz_t, const mpz_t);
void mpz_mul_si (mpz_t, const mpz_t, intMpz);
void mpz_mul_ui (mpz_t, const mpz_t, uIntMpz);
void mpz_mul (mpz_t, const mpz_t, const mpz_t);
void mpz_mul_2exp (mpz_t, const mpz_t, mp_bitcnt_t);
void mpz_addmul_ui (mpz_t, const mpz_t, uIntMpz);
void mpz_addmul (mpz_t, const mpz_t, const mpz_t);
void mpz_submul_ui (mpz_t, const mpz_t, uIntMpz);
void mpz_submul (mpz_t, const mpz_t, const mpz_t);
void mpz_cdiv_qr (mpz_t, mpz_t, const mpz_t, const mpz_t);
void mpz_fdiv_qr (mpz_t, mpz_t, const mpz_t, const mpz_t);
void mpz_tdiv_qr (mpz_t, mpz_t, const mpz_t, const mpz_t);
void mpz_cdiv_q (mpz_t, const mpz_t, const mpz_t);
void mpz_fdiv_q (mpz_t, const mpz_t, const mpz_t);
void mpz_tdiv_q (mpz_t, const mpz_t, const mpz_t);
void mpz_cdiv_r (mpz_t, const mpz_t, const mpz_t);
void mpz_fdiv_r (mpz_t, const mpz_t, const mpz_t);
void mpz_tdiv_r (mpz_t, const mpz_t, const mpz_t);
void mpz_cdiv_q_2exp (mpz_t, const mpz_t, mp_bitcnt_t);
void mpz_fdiv_q_2exp (mpz_t, const mpz_t, mp_bitcnt_t);
void mpz_tdiv_q_2exp (mpz_t, const mpz_t, mp_bitcnt_t);
void mpz_cdiv_r_2exp (mpz_t, const mpz_t, mp_bitcnt_t);
void mpz_fdiv_r_2exp (mpz_t, const mpz_t, mp_bitcnt_t);
void mpz_tdiv_r_2exp (mpz_t, const mpz_t, mp_bitcnt_t);
void mpz_mod (mpz_t, const mpz_t, const mpz_t);
void mpz_divexact (mpz_t, const mpz_t, const mpz_t);
int mpz_divisible_p (const mpz_t, const mpz_t);
int mpz_congruent_p (const mpz_t, const mpz_t, const mpz_t);
uIntMpz mpz_cdiv_qr_ui (mpz_t, mpz_t, const mpz_t, uIntMpz);
uIntMpz mpz_fdiv_qr_ui (mpz_t, mpz_t, const mpz_t, uIntMpz);
uIntMpz mpz_tdiv_qr_ui (mpz_t, mpz_t, const mpz_t, uIntMpz);
uIntMpz mpz_cdiv_q_ui (mpz_t, const mpz_t, uIntMpz);
uIntMpz mpz_fdiv_q_ui (mpz_t, const mpz_t, uIntMpz);
uIntMpz mpz_tdiv_q_ui (mpz_t, const mpz_t, uIntMpz);
uIntMpz mpz_cdiv_r_ui (mpz_t, const mpz_t, uIntMpz);
uIntMpz mpz_fdiv_r_ui (mpz_t, const mpz_t, uIntMpz);
uIntMpz mpz_tdiv_r_ui (mpz_t, const mpz_t, uIntMpz);
uIntMpz mpz_cdiv_ui (const mpz_t, uIntMpz);
uIntMpz mpz_fdiv_ui (const mpz_t, uIntMpz);
uIntMpz mpz_tdiv_ui (const mpz_t, uIntMpz);
uIntMpz mpz_mod_ui (mpz_t, const mpz_t, uIntMpz);
void mpz_divexact_ui (mpz_t, const mpz_t, uIntMpz);
int mpz_divisible_ui_p (const mpz_t, uIntMpz);
uIntMpz mpz_gcd_ui (mpz_t, const mpz_t, uIntMpz);
void mpz_gcd (mpz_t, const mpz_t, const mpz_t);
void mpz_gcdext (mpz_t, mpz_t, mpz_t, const mpz_t, const mpz_t);
void mpz_lcm_ui (mpz_t, const mpz_t, uIntMpz);
void mpz_lcm (mpz_t, const mpz_t, const mpz_t);
int mpz_invert (mpz_t, const mpz_t, const mpz_t);
void mpz_sqrtrem (mpz_t, mpz_t, const mpz_t);
void mpz_sqrt (mpz_t, const mpz_t);
int mpz_perfect_square_p (const mpz_t);
void mpz_pow_ui (mpz_t, const mpz_t, uIntMpz);
void mpz_ui_pow_ui (mpz_t, uIntMpz, uIntMpz);
void mpz_powm (mpz_t, const mpz_t, const mpz_t, const mpz_t);
void mpz_powm_ui (mpz_t, const mpz_t, uIntMpz, const mpz_t);
void mpz_rootrem (mpz_t, mpz_t, const mpz_t, uIntMpz);
int mpz_root (mpz_t, const mpz_t, uIntMpz);
void mpz_fac_ui (mpz_t, uIntMpz);
void mpz_bin_uiui (mpz_t, uIntMpz, uIntMpz);
int mpz_probab_prime_p (const mpz_t, int);
int mpz_tstbit (const mpz_t, mp_bitcnt_t);
void mpz_setbit (mpz_t, mp_bitcnt_t);
void mpz_clrbit (mpz_t, mp_bitcnt_t);
void mpz_combit (mpz_t, mp_bitcnt_t);
void mpz_com (mpz_t, const mpz_t);
void mpz_and (mpz_t, const mpz_t, const mpz_t);
void mpz_ior (mpz_t, const mpz_t, const mpz_t);
void mpz_xor (mpz_t, const mpz_t, const mpz_t);
mp_bitcnt_t mpz_popcount (const mpz_t);
mp_bitcnt_t mpz_hamdist (const mpz_t, const mpz_t);
mp_bitcnt_t mpz_scan0 (const mpz_t, mp_bitcnt_t);
mp_bitcnt_t mpz_scan1 (const mpz_t, mp_bitcnt_t);
int mpz_fits_slong_p (const mpz_t);
int mpz_fits_ulong_p (const mpz_t);
intMpz mpz_get_si (const mpz_t);
uIntMpz mpz_get_ui (const mpz_t);
double mpz_get_d (const mpz_t);
size_t mpz_size (const mpz_t);
mp_limb_t mpz_getlimbn (const mpz_t, mp_size_t);
void mpz_realloc2 (mpz_t, mp_bitcnt_t);
mp_srcptr mpz_limbs_read (mpz_srcptr);
mp_ptr mpz_limbs_modify (mpz_t, mp_size_t);
mp_ptr mpz_limbs_write (mpz_t, mp_size_t);
void mpz_limbs_finish (mpz_t, mp_size_t);
mpz_srcptr mpz_roinit_n (mpz_t, mp_srcptr, mp_size_t);
#define MPZ_ROINIT_N(xp, xs) {{0, (xs),(xp) }}
void mpz_set_si (mpz_t, intMpz);
void mpz_set_ui (mpz_t, uIntMpz);
void mpz_set (mpz_t, const mpz_t);
void mpz_set_d (mpz_t, double);
void mpz_init_set_si (mpz_t, intMpz);
void mpz_init_set_ui (mpz_t, uIntMpz);
void mpz_init_set (mpz_t, const mpz_t);
void mpz_init_set_d (mpz_t, double);
size_t mpz_sizeinbase (const mpz_t, int);
char *mpz_get_str (char *, int, const mpz_t);
int mpz_set_str (mpz_t, const char *, int);
int mpz_init_set_str (mpz_t, const char *, int);
/* This long list taken from gmp.h. */
/* For reference, "defined(EOF)" cannot be used here. In g++ 2.95.4,
<iostream> defines EOF but not FILE. */
#if defined (FILE) \
|| defined (H_STDIO) \
|| defined (_H_STDIO) /* AIX */ \
|| defined (_STDIO_H) /* glibc, Sun, SCO */ \
|| defined (_STDIO_H_) /* BSD, OSF */ \
|| defined (__STDIO_H) /* Borland */ \
|| defined (__STDIO_H__) /* IRIX */ \
|| defined (_STDIO_INCLUDED) /* HPUX */ \
|| defined (__dj_include_stdio_h_) /* DJGPP */ \
|| defined (_FILE_DEFINED) /* Microsoft */ \
|| defined (__STDIO__) /* Apple MPW MrC */ \
|| defined (_MSL_STDIO_H) /* Metrowerks */ \
|| defined (_STDIO_H_INCLUDED) /* QNX4 */ \
|| defined (_ISO_STDIO_ISO_H) /* Sun C++ */ \
|| defined (__STDIO_LOADED) /* VMS */
size_t mpz_out_str (FILE *, int, const mpz_t);
#endif
void mpz_import (mpz_t, size_t, int, size_t, int, size_t, const void *);
void *mpz_export (void *, size_t *, int, size_t, int, size_t, const mpz_t);
#if defined (__cplusplus)
}
#endif
#endif /* MINI_GMP */

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@ -1,21 +0,0 @@
//#
//# Copyright (C) 2018-2019 QuasarApp.
//# Distributed under the lgplv3 software license, see the accompanying
//# Everyone is permitted to copy and distribute verbatim copies
//# of this license document, but changing it is not allowed.
//#
#ifndef MINIGMP_GLOBAL_H
#define MINIGMP_GLOBAL_H
#ifdef _WIN32
# define MINIGMPSHARED_EXPORT __declspec(dllexport)
#endif
#ifdef linux
# define MINIGMPSHARED_EXPORT __attribute__((visibility("default")))
#endif
#endif //MINIGMP_GLOBAL_H

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@ -1,165 +0,0 @@
GNU LESSER GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <http://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
This version of the GNU Lesser General Public License incorporates
the terms and conditions of version 3 of the GNU General Public
License, supplemented by the additional permissions listed below.
0. Additional Definitions.
As used herein, "this License" refers to version 3 of the GNU Lesser
General Public License, and the "GNU GPL" refers to version 3 of the GNU
General Public License.
"The Library" refers to a covered work governed by this License,
other than an Application or a Combined Work as defined below.
An "Application" is any work that makes use of an interface provided
by the Library, but which is not otherwise based on the Library.
Defining a subclass of a class defined by the Library is deemed a mode
of using an interface provided by the Library.
A "Combined Work" is a work produced by combining or linking an
Application with the Library. The particular version of the Library
with which the Combined Work was made is also called the "Linked
Version".
The "Minimal Corresponding Source" for a Combined Work means the
Corresponding Source for the Combined Work, excluding any source code
for portions of the Combined Work that, considered in isolation, are
based on the Application, and not on the Linked Version.
The "Corresponding Application Code" for a Combined Work means the
object code and/or source code for the Application, including any data
and utility programs needed for reproducing the Combined Work from the
Application, but excluding the System Libraries of the Combined Work.
1. Exception to Section 3 of the GNU GPL.
You may convey a covered work under sections 3 and 4 of this License
without being bound by section 3 of the GNU GPL.
2. Conveying Modified Versions.
If you modify a copy of the Library, and, in your modifications, a
facility refers to a function or data to be supplied by an Application
that uses the facility (other than as an argument passed when the
facility is invoked), then you may convey a copy of the modified
version:
a) under this License, provided that you make a good faith effort to
ensure that, in the event an Application does not supply the
function or data, the facility still operates, and performs
whatever part of its purpose remains meaningful, or
b) under the GNU GPL, with none of the additional permissions of
this License applicable to that copy.
3. Object Code Incorporating Material from Library Header Files.
The object code form of an Application may incorporate material from
a header file that is part of the Library. You may convey such object
code under terms of your choice, provided that, if the incorporated
material is not limited to numerical parameters, data structure
layouts and accessors, or small macros, inline functions and templates
(ten or fewer lines in length), you do both of the following:
a) Give prominent notice with each copy of the object code that the
Library is used in it and that the Library and its use are
covered by this License.
b) Accompany the object code with a copy of the GNU GPL and this license
document.
4. Combined Works.
You may convey a Combined Work under terms of your choice that,
taken together, effectively do not restrict modification of the
portions of the Library contained in the Combined Work and reverse
engineering for debugging such modifications, if you also do each of
the following:
a) Give prominent notice with each copy of the Combined Work that
the Library is used in it and that the Library and its use are
covered by this License.
b) Accompany the Combined Work with a copy of the GNU GPL and this license
document.
c) For a Combined Work that displays copyright notices during
execution, include the copyright notice for the Library among
these notices, as well as a reference directing the user to the
copies of the GNU GPL and this license document.
d) Do one of the following:
0) Convey the Minimal Corresponding Source under the terms of this
License, and the Corresponding Application Code in a form
suitable for, and under terms that permit, the user to
recombine or relink the Application with a modified version of
the Linked Version to produce a modified Combined Work, in the
manner specified by section 6 of the GNU GPL for conveying
Corresponding Source.
1) Use a suitable shared library mechanism for linking with the
Library. A suitable mechanism is one that (a) uses at run time
a copy of the Library already present on the user's computer
system, and (b) will operate properly with a modified version
of the Library that is interface-compatible with the Linked
Version.
e) Provide Installation Information, but only if you would otherwise
be required to provide such information under section 6 of the
GNU GPL, and only to the extent that such information is
necessary to install and execute a modified version of the
Combined Work produced by recombining or relinking the
Application with a modified version of the Linked Version. (If
you use option 4d0, the Installation Information must accompany
the Minimal Corresponding Source and Corresponding Application
Code. If you use option 4d1, you must provide the Installation
Information in the manner specified by section 6 of the GNU GPL
for conveying Corresponding Source.)
5. Combined Libraries.
You may place library facilities that are a work based on the
Library side by side in a single library together with other library
facilities that are not Applications and are not covered by this
License, and convey such a combined library under terms of your
choice, if you do both of the following:
a) Accompany the combined library with a copy of the same work based
on the Library, uncombined with any other library facilities,
conveyed under the terms of this License.
b) Give prominent notice with the combined library that part of it
is a work based on the Library, and explaining where to find the
accompanying uncombined form of the same work.
6. Revised Versions of the GNU Lesser General Public License.
The Free Software Foundation may publish revised and/or new versions
of the GNU Lesser General Public License from time to time. Such new
versions will be similar in spirit to the present version, but may
differ in detail to address new problems or concerns.
Each version is given a distinguishing version number. If the
Library as you received it specifies that a certain numbered version
of the GNU Lesser General Public License "or any later version"
applies to it, you have the option of following the terms and
conditions either of that published version or of any later version
published by the Free Software Foundation. If the Library as you
received it does not specify a version number of the GNU Lesser
General Public License, you may choose any version of the GNU Lesser
General Public License ever published by the Free Software Foundation.
If the Library as you received it specifies that a proxy can decide
whether future versions of the GNU Lesser General Public License shall
apply, that proxy's public statement of acceptance of any version is
permanent authorization for you to choose that version for the
Library.

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@ -1,403 +0,0 @@
//#
//# Copyright (C) 2018-2019 QuasarApp.
//# Distributed under the lgplv3 software license, see the accompanying
//# Everyone is permitted to copy and distribute verbatim copies
//# of this license document, but changing it is not allowed.
//#
#include "qrsaencryption.h"
#include <QString>
#include <iostream>
#include <ctime>
#include <chrono>
#define KEY_GEN_LIMIT 10
const QString SIGN_MARKER = "-SIGN-";
const int signMarkerLength = SIGN_MARKER.length();
QRSAEncryption::INT eulerFunc(const QRSAEncryption::INT &p, const QRSAEncryption::INT &q) {
return (p - 1) * (q - 1);
}
bool QRSAEncryption::isMutuallyPrime(const INT &a, const INT &b) {
if ( (!(a % 2) && !(b % 2))
|| (!(a % 3) && !(b % 3))
|| (!(a % 5) && !(b % 5))
|| (!(a % 7) && !(b % 7))
) return false;
return INT().gcd(a, b) == 1;
}
QRSAEncryption::Rsa QRSAEncryption::getBitsSize(const INT &i) const {
int rsaBits = RSA_64;
int intBits = i.sizeBits();
while (rsaBits < intBits) {
rsaBits *= 2;
}
return static_cast<QRSAEncryption::Rsa>(rsaBits);
}
QRSAEncryption::Rsa QRSAEncryption::getBitsSize(const QByteArray &key) const {
if (isValidRsaKey(key)) {
return static_cast<QRSAEncryption::Rsa>(key.size() * 4);
}
return QRSAEncryption::Rsa::Invalid;
}
QRSAEncryption::INT QRSAEncryption::fromArray(const QByteArray &array) const {
INT res = 0;
res.fromHex(array.toHex().toStdString());
return res;
}
QByteArray QRSAEncryption::toArray(const INT &i, short sizeBlok) {
QByteArray res;
res = QByteArray::fromHex(QByteArray::fromStdString(i.getString(16)));
if (sizeBlok < 0) {
return res;
}
while (res.size() < sizeBlok) {
res.push_front(char(0));
}
return res.left(sizeBlok);
}
QRSAEncryption::INT QRSAEncryption::randomNumber(bool fullFill) const {
srand(std::chrono::duration_cast<std::chrono::nanoseconds>
(std::chrono::system_clock::now().time_since_epoch()).count()
% std::numeric_limits<int>::max());
INT res{1};
if(fullFill) {
while(res.longBits() < _rsa) {
res *= (rand() % (std::numeric_limits<int>::max() - 1)) + 1;
}
} else {
int longDiff = _rsa / (sizeof (int) * 8);
while (longDiff > 0) {
longDiff--;
res *= (rand() % (std::numeric_limits<int>::max() - 1)) + 1;
}
}
return res;
}
QRSAEncryption::INT QRSAEncryption::toPrime(INT n) const {
if (!(n % 2)) {
++n;
}
INT LN = n;
INT RN = n;
while (true) {
if (LN.isPrime(false)) return LN;
RN+=2;
if (RN.isPrime(false)) return RN;
LN-=2;
}
}
QRSAEncryption::INT QRSAEncryption::randomPrimeNumber(INT no) const {
srand(static_cast<unsigned int>(time(nullptr)));
// max INT
INT max('1', _rsa / 2, 2);
auto p = toPrime(randomNumber() % max);
while(p == no) p = toPrime(randomNumber() % max);
return p;
}
QRSAEncryption::INT QRSAEncryption::extEuclid(INT a, INT b) const {
INT x = 0, y = 1, u = 1, v = 0, gcd = b, m, n, q, r;
while (a != 0) {
q = gcd / a;
r = gcd % a;
m = x - u * q;
n = y - v * q;
gcd = a;
a = r;
x = u;
y = v;
u = m;
v = n;
}
return y;
}
short QRSAEncryption::getBlockSize(INT i) const {
return static_cast<short>(i.longBytes()) - 1;
}
QByteArray QRSAEncryption::encodeBlok(const INT &block, const INT &e, const INT &m, short blockSize) {
return toArray(INT::powm(block, e, m), blockSize);
}
QByteArray QRSAEncryption::decodeBlok(const INT &block, const INT &d, const INT &m, short blockSize) {
return toArray(INT::powm(block, d, m), blockSize);
}
QRSAEncryption::QRSAEncryption(Rsa rsa) {
_rsa = rsa;
}
bool QRSAEncryption::generatePairKeyS(QByteArray &pubKey, QByteArray &privKey, QRSAEncryption::Rsa rsa) {
qWarning() << "method " << Q_FUNC_INFO <<
" will be deleted in newxt version. please use generatePairKey method";
return generatePairKey(pubKey, privKey, rsa);
}
QByteArray QRSAEncryption::encodeS(const QByteArray &rawData, const QByteArray &pubKey, QRSAEncryption::Rsa rsa, QRSAEncryption::BlockSize blockSizeMode) {
qWarning() << "method " << Q_FUNC_INFO <<
" will be deleted in newxt version. please use encode method";
return encode(rawData, pubKey, rsa, blockSizeMode);
}
QByteArray QRSAEncryption::decodeS(const QByteArray &rawData, const QByteArray &privKey, QRSAEncryption::Rsa rsa, QRSAEncryption::BlockSize blockSizeMode) {
qWarning() << "method " << Q_FUNC_INFO <<
" will be deleted in newxt version. please use decode method";
return decode(rawData, privKey, rsa, blockSizeMode);
}
QByteArray QRSAEncryption::signMessageS(QByteArray rawData, const QByteArray &privKey, QRSAEncryption::Rsa rsa) {
qWarning() << "method " << Q_FUNC_INFO <<
" will be deleted in newxt version. please use signMessage method";
return signMessage(rawData, privKey, rsa);
}
bool QRSAEncryption::checkSignMessageS(const QByteArray &rawData, const QByteArray &pubKey, QRSAEncryption::Rsa rsa) {
qWarning() << "method " << Q_FUNC_INFO <<
" will be deleted in newxt version. please use signMessage method";
return checkSignMessage(rawData, pubKey, rsa);
}
unsigned int QRSAEncryption::getKeyBytesSize(QRSAEncryption::Rsa rsa) {
return rsa / 4;
}
// --- static methods ---
bool QRSAEncryption::generatePairKey(QByteArray &pubKey, QByteArray &privKey,
QRSAEncryption::Rsa rsa) {
return QRSAEncryption(rsa).generatePairKey(pubKey, privKey);
}
QByteArray QRSAEncryption::encode(const QByteArray &rawData, const QByteArray &pubKey,
Rsa rsa, BlockSize blockSizeMode) {
return QRSAEncryption(rsa).encode(rawData, pubKey, blockSizeMode);
}
QByteArray QRSAEncryption::decode(const QByteArray &rawData, const QByteArray &privKey,
Rsa rsa, BlockSize blockSizeMode) {
return QRSAEncryption(rsa).decode(rawData, privKey, blockSizeMode);
}
QByteArray QRSAEncryption::signMessage(QByteArray rawData, const QByteArray &privKey, Rsa rsa) {
return QRSAEncryption(rsa).signMessage(rawData, privKey);
}
bool QRSAEncryption::checkSignMessage(const QByteArray &rawData, const QByteArray &pubKey, Rsa rsa) {
return QRSAEncryption(rsa).checkSignMessage(rawData, pubKey);
}
// --- end of static methods ---
bool QRSAEncryption::generatePairKey(QByteArray &pubKey, QByteArray &privKey) {
int cnt{0};
bool keyGenRes{false};
INT p, q, modul, eilor, e, d;
do {
pubKey.clear();
privKey.clear();
p = randomPrimeNumber();
q = randomPrimeNumber(p);
modul = 0;
while ((modul = p * q) < 0) {
p = toPrime((p - 1) / 2);
}
eilor = eulerFunc(p, q);
e = randomNumber() % eilor;
if (!(e % 2)) --e;
do {
e -= 2;
} while((!isMutuallyPrime(eilor, e)));
d = extEuclid(eilor , e);
while(d < 0 ) {
d += eilor;
}
pubKey.append(toArray(e, _rsa / 8));
pubKey.append(toArray(modul, _rsa / 8));
privKey.append(toArray(d, _rsa / 8));
privKey.append(toArray(modul, _rsa / 8));
} while (!(keyGenRes = testKeyPair(pubKey, privKey)) && (++cnt < KEY_GEN_LIMIT));
if(cnt >= KEY_GEN_LIMIT) qWarning() << QString("(Warning): Exceeded limit of key generation (%0)!").arg(KEY_GEN_LIMIT);
return (keyGenRes && cnt < KEY_GEN_LIMIT);
}
// --- non-static methods ---
QByteArray QRSAEncryption::encode(const QByteArray &rawData, const QByteArray &pubKey, BlockSize blockSizeMode) {
if (getBitsSize(pubKey) != _rsa) {
return QByteArray();
}
int index = 0;
QByteArray block;
INT e = fromArray(pubKey.mid(0, pubKey.size() / 2));
INT m = fromArray(pubKey.mid(pubKey.size() / 2));
short blockSizeOut = getBlockSize(m) + 1; // BlockSize::OneByte
short blockSizeIn = 1; // BlockSize::OneByte
if (blockSizeMode == BlockSize::Auto) {
blockSizeIn = getBlockSize(m);
}
if (!blockSizeIn) {
qDebug() << "module of key small! size = 1 byte, 2 byte is minimum";
return QByteArray();
}
QByteArray res;
while ((block = rawData.mid(index, blockSizeIn)).size()) {
if (index + blockSizeIn > rawData.size() && block.size() && !block[0]) {
qWarning() << "When trying to encrypt data, problems arose, the last block contains non-significant zeros."
" These zeros will be deleted during the decryption process."
" For encode and decode data with non-significant zeros use BlockSize::OneByte";
}
res.append(encodeBlok(fromArray(block), e, m, blockSizeOut));
index += blockSizeIn;
}
return res;
}
QByteArray QRSAEncryption::decode(const QByteArray &rawData, const QByteArray &privKey, BlockSize blockSizeMode) {
if (getBitsSize(privKey) != _rsa) {
return QByteArray();
}
int index = 0;
QByteArray block;
INT d = fromArray(privKey.mid(0, privKey.size() / 2));
INT m = fromArray(privKey.mid(privKey.size() / 2));
short blockSizeIn = getBlockSize(m) + 1;
short blockSizeOut = 1; // BlockSize::OneByte
if (blockSizeMode == BlockSize::Auto) {
blockSizeOut = getBlockSize(m);
}
QByteArray res;
while ((block = rawData.mid(index, blockSizeIn)).size()) {
bool isLastBlock = (index + blockSizeIn) >= rawData.size();
res.append(decodeBlok(fromArray(block), d, m,
(isLastBlock && blockSizeMode == BlockSize::Auto)? -1 : blockSizeOut));
index += blockSizeIn;
}
return res;
}
QByteArray QRSAEncryption::signMessage(QByteArray rawData, const QByteArray &privKey) {
QByteArray hash = QCryptographicHash::hash(rawData, HashAlgorithm::Sha256);
QByteArray signature = encode(hash, privKey, BlockSize::OneByte);
rawData.append(SIGN_MARKER + signature.toHex() + SIGN_MARKER);
return rawData;
}
bool QRSAEncryption::checkSignMessage(const QByteArray &rawData, const QByteArray &pubKey) {
// start position of SIGN_MARKER in rawData
auto signStartPos = rawData.lastIndexOf(SIGN_MARKER, rawData.length() - signMarkerLength - 1);
// length of signature in rawData
auto signLength = rawData.length() - signStartPos - signMarkerLength * 2;
// message, that was recieved from channel
QByteArray message = rawData.left(signStartPos);
// hash, that was decrypt from recieved signature
QByteArray recievedHash = decode(QByteArray::fromHex(rawData.mid(signStartPos + signMarkerLength, signLength)),
pubKey, BlockSize::OneByte);
// if recievedHash == hashAlgorithm(recived message), then signed message is valid
return recievedHash == QCryptographicHash::hash(message, HashAlgorithm::Sha256);
}
QRSAEncryption::Rsa QRSAEncryption::getRsa() const {
return _rsa;
}
bool QRSAEncryption::testKeyPair(const QByteArray &pubKey, const QByteArray &privKey) {
QByteArray tesVal = "Test message of encrypkey";
bool result = tesVal == decode(encode(tesVal, pubKey), privKey);
if (!result) qWarning() << "(Warning): Testkey Fail, try generate new key pair!";
return result;
}
// --- end of non-static methods ---
bool QRSAEncryption::isValidRsaKey(const QByteArray &key) {
return key.size() && ((static_cast<unsigned int>(key.size()) % getKeyBytesSize(RSA_64)) == 0);
}

View file

@ -1,116 +0,0 @@
//#
//# Copyright (C) 2018-2019 QuasarApp.
//# Distributed under the lgplv3 software license, see the accompanying
//# Everyone is permitted to copy and distribute verbatim copies
//# of this license document, but changing it is not allowed.
//#
#ifndef QRSAENCRYPTION_H
#define QRSAENCRYPTION_H
#include <QByteArray>
#include <QList>
#include <QFile>
#include <cmath>
#include <QDebug>
#include <QCryptographicHash> // to use sha256
#include "./../qtsecret_global.h"
#include <bigint.h>
class Qt_SECRETSHARED_EXPORT QRSAEncryption
{
public:
typedef BigInt INT;
typedef QCryptographicHash::Algorithm HashAlgorithm;
enum Rsa {
Invalid = 0,
RSA_64 = 64,
RSA_128 = 128,
RSA_256 = 256,
RSA_512 = 512,
RSA_1024 = 1024,
RSA_2048 = 2048,
RSA_4096 = 4096,
RSA_8192 = 8192,
};
enum BlockSize {
Auto = 0, // fast but not stable. (using by default)
OneByte = 1 // stable but slow. (using for sig and check sig messages)
};
QRSAEncryption(Rsa rsa = Rsa::RSA_256);
// static methods
// OLDMETHODS DELETE IN next Version
static bool generatePairKeyS(QByteArray &pubKey, QByteArray &privKey,
QRSAEncryption::Rsa rsa = RSA_256);
static QByteArray encodeS(const QByteArray &rawData, const QByteArray &pubKey,
Rsa rsa = RSA_256, BlockSize blockSizeMode = BlockSize::Auto);
static QByteArray decodeS(const QByteArray &rawData, const QByteArray &privKey,
Rsa rsa = RSA_256, BlockSize blockSizeMode = BlockSize::Auto);
static QByteArray signMessageS(QByteArray rawData, const QByteArray &privKey,
Rsa rsa = RSA_256);
static bool checkSignMessageS(const QByteArray &rawData, const QByteArray &pubKey,
Rsa rsa);
// OLDMETHODS END
static bool generatePairKey(QByteArray &pubKey, QByteArray &privKey,
QRSAEncryption::Rsa rsa);
static QByteArray encode(const QByteArray &rawData, const QByteArray &pubKey,
Rsa rsa, BlockSize blockSizeMode = BlockSize::Auto);
static QByteArray decode(const QByteArray &rawData, const QByteArray &privKey,
Rsa rsa, BlockSize blockSizeMode = BlockSize::Auto);
static QByteArray signMessage(QByteArray rawData, const QByteArray &privKey,
Rsa rsa);
static bool checkSignMessage(const QByteArray &rawData, const QByteArray &pubKey,
Rsa rsa);
static bool isValidRsaKey(const QByteArray& key);
static unsigned int getKeyBytesSize(QRSAEncryption::Rsa rsa);
// non-static methods
bool generatePairKey(QByteArray &pubKey, QByteArray &privKey);
QByteArray encode(const QByteArray &rawData, const QByteArray &pubKey,
BlockSize blockSizeMode = BlockSize::Auto);
QByteArray decode(const QByteArray &rawData, const QByteArray &privKey,
BlockSize blockSizeMode = BlockSize::Auto);
QByteArray signMessage(QByteArray rawData, const QByteArray &privKey);
bool checkSignMessage(const QByteArray &rawData, const QByteArray &pubKey);
Rsa getRsa() const;
private:
Rsa _rsa;
bool testKeyPair(const QByteArray &pubKey, const QByteArray &privKey);
bool isMutuallyPrime(const INT &a, const INT &b);
Rsa getBitsSize(const INT& i) const;
Rsa getBitsSize(const QByteArray& array) const;
INT fromArray(const QByteArray& array) const;
QByteArray toArray(const INT &i, short sizeBlok = -1);
INT randomNumber(bool fullFilled = true) const;
INT toPrime(INT) const;
INT randomPrimeNumber(INT no = 0) const;
INT extEuclid(INT a, INT b) const;
short getBlockSize(INT i) const;
QByteArray encodeBlok(const INT& block, const INT& e, const INT& m, short blockSize);
QByteArray decodeBlok(const INT& block, const INT& d, const INT& m, short blockSize);
};
#endif // QRSAENCRYPTION_H

View file

@ -1,24 +0,0 @@
#
# Copyright (C) 2018-2019 QuasarApp.
# Distributed under the lgplv3 software license, see the accompanying
# Everyone is permitted to copy and distribute verbatim copies
# of this license document, but changing it is not allowed.
#
!isEmpty(Qt_SECRET_LIB):error("Qt-Secret.pri already included")
Qt_SECRET_LIB = 1
DEFINES += Qt_SECRET_LIBRARY
DEFINES += QT_DEPRECATED_WARNINGS
HEADERS += \
$$PWD/qtsecret_global.h \
$$PWD/Qt-RSA/qrsaencryption.h
SOURCES += \
$$PWD/Qt-RSA/qrsaencryption.cpp
INCLUDEPATH += $$PWD $$PWD/Qt-RSA
include($$PWD/GMP/GMP.pri)

View file

@ -1,12 +0,0 @@
#ifndef QTSECRET_GLOBAL_H
#define QTSECRET_GLOBAL_H
#include <QtCore/qglobal.h>
#if defined(Qt_SECRET_LIBRARY)
# define Qt_SECRETSHARED_EXPORT Q_DECL_EXPORT
#else
# define Qt_SECRETSHARED_EXPORT Q_DECL_IMPORT
#endif
#endif // QTSECRET_GLOBAL_H

View file

@ -17,31 +17,44 @@ ScStwLibraries_ClientLibs {
DEFINES += ScStwLibraries_ClientLibs
}
ScStwLibraries_Raspi {
LIBS += -lasound
DEFINES += ScStwLibraries_Raspi
}
INCLUDEPATH += $$PWD/headers $$PWD
SOURCES += \
$$PWD/sources/ScStw.cpp \
$$PWD/sources/scstwsettings.cpp \
$$PWD/sources/scstwsoundplayer.cpp \
$$PWD/sources/scstwlibraries.cpp \
$$PWD/sources/scstwrace.cpp \
$$PWD/sources/scstwtimer.cpp
$$PWD/sources/scstwtimer.cpp \
$$PWD/sources/scstwsetting.cpp
HEADERS += \
$$PWD/headers/ScStw.hpp \
$$PWD/headers/ScStwLibraries_global.h \
$$PWD/headers/scstwlibraries.h \
$$PWD/headers/scstwrace.h \
$$PWD/headers/scstwsettings.h \
$$PWD/headers/scstwsoundplayer.h \
$$PWD/headers/scstwtimer.h
$$PWD/headers/scstwtimer.h \
$$PWD/headers/scstwsetting.h
ScStwLibraries_ClientLibs {
SOURCES += \
$$PWD/sources/client/scstwclient.cpp \
$$PWD/sources/client/scstwremotemonitorrace.cpp
$$PWD/sources/client/scstwremoterace.cpp \
$$PWD/sources/client/scstwremotetimer.cpp \
$$PWD/sources/client/scstwremotesettings.cpp
HEADERS += \
$$PWD/headers/client/scstwclient.h \
$$PWD/headers/client/scstwremotemonitorrace.h
$$PWD/headers/client/scstwremoterace.h \
$$PWD/headers/client/scstwremotetimer.h \
$$PWD/headers/client/scstwremotesettings.h
INCLUDEPATH += $$PWD/headers/client
}

View file

@ -61,28 +61,12 @@ public:
RaceStateChanged = 9000,
TimersChanged = 9001,
ExtensionsChanged = 9002,
NextStartActionChanged = 9003 /*, ProfilesChanged*/
CurrentStartDelayChanged = 9003, /*, ProfilesChanged*/
SettingChanged = 9004,
RaceDetailsChanged = 9005
};
Q_ENUM(SignalKey)
/*!
* \brief The BaseStationSetting enum contains all settings of the base station that can be changed by a client
*
* \see ScStw::baseStationSettingFromInt()
* \see ScStw::baseStationSettingToString()
* \see ScStw::baseStationSettingFromString()
* \see ScStw::baseStationSettings
*/
enum BaseStationSetting {
InvalidSetting = -1,
ReadySoundEnableSetting,
ReadySoundDelaySetting,
AtYourMarksSoundEnableSetting,
AtYourMarksSoundDelaySetting,
SoundVolumeSetting
};
Q_ENUM(BaseStationSetting)
/*!
* \brief The SocketCommand enum contains all commands the base station can handle
*
@ -93,15 +77,17 @@ public:
InitializeSessionCommand = 1,
StartTimersCommand = 1000,
StopTimersCommand = 1001,
ResetTimersCommand = 1002,
StartRaceCommand = 1000,
StopRaceCommand = 1001,
ResetRaceCommand = 1002,
CancelRaceCommand = 1003,
SetTimerDisabledCommand = 1004,
GetRaceStateCommand = 2000,
GetNextStartActionCommand = 2005,
GetRaceDetailsCommand = 2001,
GetExtensionsCommand = 2006,
GetTimersCommand = 2007,
GetNextStartActionDetailsCommand = 2009,
GetCurrentStartDelayCommand = 2009,
WriteSettingCommand = 3000,
ReadSettingCommand = 3001,
@ -126,15 +112,16 @@ public:
FirmwareAlreadyUpToDateInfo = 304,
CommandNotFoundError = 404,
ClientSessionAlreadyActiveError = 407,
UpdateSignatureInvalidError = 402,
TimestampTooSmallError = 406,
RequiredParameterNotGivenError = 405,
CurrentStateNotVaildForOperationError = 403,
AccessDeniedError = 401,
UpdateSignatureInvalidError = 402,
CurrentStateNotVaildForOperationError = 403,
CommandNotFoundError = 404,
RequiredParameterNotGivenError = 405,
TimestampTooSmallError = 406,
ClientSessionAlreadyActiveError = 407,
NoSessionActiveError = 408,
ItemNotFoundError = 409,
LastTimerCannotBeDisabledError = 410,
UpdateFailedError = 500,
@ -143,10 +130,59 @@ public:
TimeoutError = 911,
SettingNotAccessibleError = 901,
InternalError = 950,
InternalErrorTimerOperationFailed = 951
InternalErrorTimerOperationFailed = 951,
ApiVersionNotSupportedError = 952,
CompetitionModeProhibitsThisError = 953,
FirmwareUpdateFormatInvalidError = 954,
TimersNotReadyError = 501 /*!< One or more timer is not ready */
};
Q_ENUM(ScStw::StatusCode)
/*!
* \brief The ExtensionType enum contains all types of extensions
*/
enum ExtensionType {
StartPad,
TopPad
};
Q_ENUM(ExtensionType);
/*!
* \brief The ExtensionState enum contains all possible states of an extension
*/
enum ExtensionState {
ExtensionDisconnected = 0,
ExtensionConnecting = 1,
ExtensionInitialising = 2,
ExtensionConnected = 3
};
Q_ENUM(ExtensionState);
/*!
* \brief The ExtensionBatteryState enum contains all possible battery states of an extension
*/
enum ExtensionBatteryState {
BatteryUnknown = -1,
BatteryCritical = 0,
BatteryWarning = 1,
BatteryFine = 2,
BatteryCharging = 3,
BatteryNotCharging = 4
};
Q_ENUM(ExtensionBatteryState);
/*!
* \brief The PadState enum contains whether a pad is currently pressed or not
*/
enum PadState {
PadNotPressed = 0,
PadPressed = 1
};
Q_ENUM(PadState);
/*!
* \brief SOCKET_MESSAGE_START_KEY contains the key, a message is supposed to start with
*/
@ -157,44 +193,6 @@ public:
*/
static const char* SOCKET_MESSAGE_END_KEY;
/*!
* \brief baseStationSettings contains a string with reference to all BaseStationSetting values
*
* \see ScStw::BaseStationSetting
* \see ScStw::baseStationSettingToString()
* \see ScStw::baseStationSettingFromString()
*/
static const QMap<QString, ScStw::BaseStationSetting> baseStationSettings;
/*!
* \brief Function to convert an int to a BaseStationSetting
* \param i the int to convert
* \return a BaseStationSetting
*
* \see ScStw::BaseStationSetting
*/
static BaseStationSetting baseStationSettingfromInt(int i);
/*!
* \brief Function to convert a QString to a BaseStationSetting
* \param s the string to convert
* \return a BaseStationSetting
*
* \see ScStw::BaseStationSetting
* \see ScStw::baseStationSettingToString()
*/
static BaseStationSetting baseStationSettingFromString(QString s);
/*!
* \brief Function to convert BaseStationSetting to a QString
* \param s the BaseStationSetting to convert
* \return a QString
*
* \see ScStw::BaseStationSetting
* \see ScStw::baseStationSettingFromString()
*/
Q_INVOKABLE static QString baseStationSettingToString(BaseStationSetting s);
/*!
* \brief Function to convert an int to a SignalKey
* \param i the int to convert
@ -213,6 +211,15 @@ public:
*/
static SocketCommand socketCommandFromInt(int i);
/*!
* \brief Function to convert an ExtensionType to a string
* \param t the ExtensionType to convert
* \return String
*
* \see ScStwExtensionType
*/
static QString extensionTypeToString(ExtensionType t);
/*!
* \brief Function to compare to string firmware versions in <major>.<minor>.<patch> formar
* \param a version a

View file

@ -33,6 +33,7 @@
#include <QByteArray>
#include "ScStw.hpp"
#include "scstwsettings.h"
/*!
* This class is used to connect and talk to the ScStw basestation.
@ -50,7 +51,7 @@ class ScStwClient : public QObject
{
Q_OBJECT
Q_PROPERTY(State state READ getState NOTIFY stateChanged)
Q_PROPERTY(QVariantList extensions READ getExtensions NOTIFY extensionsChanged)
Q_PROPERTY(QVariantMap extensions READ getExtensions NOTIFY extensionsChanged)
Q_PROPERTY(QString ipAddress READ getIP WRITE setIP)
public:
@ -59,7 +60,10 @@ public:
*
* \brief ScStwClient
*/
explicit ScStwClient(QObject *parent = nullptr);
explicit ScStwClient(
QObject *parent = nullptr,
QList<ScStw::SignalKey> signalSubscriptions = {ScStw::ExtensionsChanged}
);
enum State {DISCONNECTED, CONNECTING, INITIALISING, CONNECTED};
Q_ENUM(State);
@ -73,7 +77,9 @@ private:
int errors;
const static int ERRORS_UNTIL_DISCONNECT = 4;
QVariantList extensions;
QVariantMap extensions;
QList<ScStw::SignalKey> signalSubscriptions;
//---general status values---//
@ -95,15 +101,14 @@ private:
QString readBuffer;
int nextConnectionId;
unsigned int currentRequestId;
struct waitingRequest {
int id;
struct WaitingRequest {
QEventLoop * loop;
QJsonObject reply;
};
QList<waitingRequest> waitingRequests;
QMap<int, WaitingRequest> waitingRequests;
public slots:
@ -139,14 +144,14 @@ public slots:
* \param value the value to write to
* \return the status code returned by the command
*/
ScStw::StatusCode writeRemoteSetting(ScStw::BaseStationSetting key, QString value);
ScStw::StatusCode writeRemoteSetting(ScStwSettings::BaseStationSetting key, QVariant value);
/*!
* \brief Function to read a setting on the base station
* \param key the key to read from
* \return the value of the key or "false" if the key is not found or an error occured
*/
QString readRemoteSetting(ScStw::BaseStationSetting key);
QVariant readRemoteSetting(ScStwSettings::BaseStationSetting key, ScStw::StatusCode* status = nullptr);
/*! Getter fuctions */
@ -167,7 +172,7 @@ public slots:
* \brief Function to get the extensions and their state from the base station
* \return a list with all configured extensions and their state
*/
QVariantList getExtensions();
QVariantMap getExtensions();
/*!
* \brief Function to get the time offset of the base station relative to the clients time
@ -199,6 +204,8 @@ public slots:
*/
void setIP(QString ipAdress);
void addSignalSubscription(ScStw::SignalKey key);
private slots:
/*!
* \brief called when timeout timer times out
@ -279,7 +286,7 @@ private slots:
* \see gotSignal()
* \param connections the list to set the chache to
*/
void setExtensions(QVariantList extensions);
void setExtensions(QVariantMap extensions);
/*!
* \brief Function to set the local state.

View file

@ -0,0 +1,86 @@
/****************************************************************************
** ScStw Libraries
** Copyright (C) 2020 Itsblue development
**
** This program is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
#ifndef SCSTWREMOTEMONITORRACE_H
#define SCSTWREMOTEMONITORRACE_H
#include <QObject>
#include "scstwrace.h"
#include "scstwclient.h"
#include "scstwremotetimer.h"
#include "scstwsoundplayer.h"
class ScStwRemoteRace : public ScStwRace
{
Q_OBJECT
Q_PROPERTY(ScStwClient* scStwClient READ getScStwClient WRITE setScStwClient NOTIFY scStwClientChanged)
public:
ScStwRemoteRace(QObject *parent = nullptr);
ScStwRemoteRace(ScStwClient *scStwClient, ScStwSettings *settings = nullptr, QObject *parent = nullptr);
enum RaceMode {
LOCAL,
REMOTE
};
protected:
double currentStartTotalDelay;
double currentStartDelayStartedAt;
double latestStartDelayProgress;
bool isReadyForNextState;
bool readySoundEnabled;
private:
ScStwClient *scStwClient;
QList<ScStwRemoteTimer*> remoteTimers;
QList<ScStwTimer*> localTimers;
public slots:
ScStw::StatusCode start(bool asyncronous = true);
ScStw::StatusCode cancel();
ScStw::StatusCode stop();
ScStw::StatusCode reset();
ScStw::StatusCode setTimerDisabled(int id, bool disabled);
bool addTimer(ScStwTimer *timer);
QVariantMap getCurrentStartDelay();
bool getIsReadyForNextState();
bool getReadySoundEnabled();
ScStwClient *getScStwClient();
void setScStwClient(ScStwClient *client);
private slots:
void handleBaseStationSignal(ScStw::SignalKey key, QVariant data);
bool refreshRemoteTimers(QVariantList remoteTimers);
void rebuildRemoteTimers(QVariantList remoteTimers);
void refreshDetails(QVariantMap details);
void handleClientStateChange();
void refreshCompetitionMode();
RaceMode getMode();
bool local();
void setTimers(QList<ScStwTimer*> timers, bool deleteOldTimers);
signals:
void scStwClientChanged();
};
#endif // SCSTWREMOTEMONITORRACE_H

View file

@ -0,0 +1,62 @@
/****************************************************************************
** ScStw Libraries
** Copyright (C) 2020 Itsblue development
**
** This program is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
#ifndef SCSTWREMOTESETTINGS_H
#define SCSTWREMOTESETTINGS_H
#include <QObject>
#include "scstwsettings.h"
#include "scstwclient.h"
#include <QMetaEnum>
class ScStwRemoteSettings : public ScStwSettings
{
Q_OBJECT
Q_PROPERTY(ScStwClient* scStwClient READ getScStwClient WRITE setScStwClient NOTIFY scStwClientChanged)
public:
ScStwRemoteSettings(QObject * parent = nullptr);
ScStwRemoteSettings(ScStwClient * scStwClient, QObject * parent = nullptr);
enum SettingsMode {
LOCAL,
REMOTE
};
protected:
QVariant readSetting(QString key, int keyInt, int keyLevel);
bool writeSetting(QString key, QVariant value, int keyInt,int keyLevel = -1);
bool setDefaultSetting(QString key, QVariant defaultVariant, int keyInt,int keyLevel = -1);
private:
ScStwClient * scStwClient;
public slots:
ScStwClient *getScStwClient();
void setScStwClient(ScStwClient *client);
private slots:
void handleClientStateChange();
void handleBaseStationSignal(ScStw::SignalKey key, QVariant data);
SettingsMode getMode();
signals:
void scStwClientChanged();
};
#endif // SCSTWREMOTESETTINGS_H

View file

@ -0,0 +1,79 @@
#ifndef SCSTWREMOTETIMER_H
#define SCSTWREMOTETIMER_H
#include <scstwtimer.h>
#include <QObject>
class ScStwRemoteTimer : public ScStwTimer
{
Q_OBJECT
public:
ScStwRemoteTimer(QObject *parent = nullptr);
friend class ScStwRemoteRace;
private:
ScStwTimer::ReadyState readyState;
public slots:
/*!
* \brief Function to get the current ready status of a timer
* \return The current ready status
*/
virtual ScStwTimer::ReadyState getReadyState();
protected slots:
/*!
* \brief Function to dircetly change the start time
*
* Only works when directControlEnabled is set to true!
*
* \param startTime the time to change to
* \return false when directControlEnabled is set to false and the startTime was therefore not modified, true otherwise
*/
void setStartTime(double startTime);
/*!
* \brief Function to dircetly change the stop time
*
* Only works when directControlEnabled is set to true!
*
* \param stopTime the time to change to
* \return false when directControlEnabled is set to false and the stopTime was therefore not modified, true otherwise
*/
void setStopTime(double stopTime);
/*!
* \brief Function to dircetly change the rection time
*
* Only works when directControlEnabled is set to true!
*
* \param reactionTime the time to change to
* \return false when directControlEnabled is set to false and the reactionTime was therefore not modified, true otherwise
*/
void setReactionTime(double rectionTime);
/*!
* \brief Function to dircetly change the letter
*
* Only works when directControlEnabled is set to true!
*
* \param newLetter the letter to change to
* \return false when directControlEnabled is set to false and the letter was therefore not modified, true otherwise
*/
void setLetter(QString newLetter);
void setReadyState(ScStwTimer::ReadyState);
/*!
* \brief Function to change the state of the timer
*
* Doing this will emit the ScStwTimer::stateChanged() signal (only if the new state differs from the current one)
*
* \param newState The new state
*/
void setState(TimerState newState);
};
#endif // SCSTWREMOTETIMER_H

View file

@ -31,9 +31,12 @@
#endif
#include "scstwtimer.h"
#include "scstwrace.h"
#include "scstwsettings.h"
#ifdef ScStwLibraries_ClientLibs
#include "scstwremotemonitorrace.h"
#include "scstwsetting.h"
#include "scstwremoterace.h"
#include "scstwclient.h"
#include "scstwremotesettings.h"
#endif
class ScStwLibraries : public QObject

View file

@ -25,6 +25,9 @@
#include <QEventLoop>
#include "scstwtimer.h"
#include "scstwsoundplayer.h"
#include "scstwsettings.h"
class ScStwRemoteRace;
/*!
* \brief The ScStwRace class can be used to measure timings of climbing races with multiple lanes at once.
@ -50,51 +53,49 @@ class ScStwRace : public QObject
{
Q_OBJECT
Q_PROPERTY(RaceState state READ getState NOTIFY stateChanged)
Q_PROPERTY(QVariantList timers READ getTimerDetailList NOTIFY timersChanged)
Q_PROPERTY(QVariantList nextStartActionDetails READ getNextStartActionDetails NOTIFY nextStartActionDetailsChanged)
Q_PROPERTY(QVariantList timers READ getTimerDetailList NOTIFY timersChanged)
Q_PROPERTY(QVariantMap currentStartDelay READ getCurrentStartDelay NOTIFY currentStartDelayChanged)
Q_PROPERTY(bool isReadyForNextState READ getIsReadyForNextState NOTIFY isReadyForNextStateChanged)
Q_PROPERTY(bool competitionMode READ getCompetitionMode NOTIFY competitionModeChanged)
Q_PROPERTY(bool readySoundEnabled READ getReadySoundEnabled NOTIFY readySoundEnabledChanged)
Q_PROPERTY(QVariantMap details READ getDetails NOTIFY detailsChanged)
Q_PROPERTY(ScStwSettings* settings READ getSettings WRITE setSettings NOTIFY settingsChanged)
Q_PROPERTY(bool autoRefreshTimerText READ getAutoRefreshTimerText WRITE setAutoRefreshTimerText NOTIFY autoRefreshTimerTextChanged)
public:
explicit ScStwRace(QObject *parent = nullptr);
explicit ScStwRace(ScStwSettings *settings, QObject *parent = nullptr);
enum RaceState { IDLE, STARTING, WAITING, RUNNING, STOPPED };
friend class ScStwRemoteRace;
enum RaceState { IDLE, PREPAIRING, WAITING, STARTING, RUNNING, STOPPED, INCIDENT };
Q_ENUM(RaceState)
enum StartAction { None = -1, AtYourMarks = 0, Ready = 1, Start = 2 };
Q_ENUM(StartAction)
enum NextStartActionDetailAttributes {
NextStartAction = 0,
NextStartActionTotalDelay = 1,
NextStartActionDelayProgress = 2
};
Q_ENUM(NextStartActionDetailAttributes);
protected:
StartAction nextStartAction;
QList<ScStwTimer *> timers;
void setState(RaceState newState);
private:
RaceState state;
QList<ScStwTimer*> timerEnableQueque;
QTimer *nextActionTimer;
QEventLoop *nextActionLoop;
QTimer *startDelayTimer;
QTimer *timerTextRefreshTimer;
QEventLoop *startWaitLoop;
// sounds
ScStwSoundPlayer * soundPlayer;
// settings
ScStwSettings *settings;
bool competitionMode;
bool autoRefreshTimerText;
// some settings
double soundVolume;
/*!
* \brief stores the start action settings
*
* \details Stores the settings for the action ScStwRace::AtYourMarks and ScStwRace::Ready. The settings keys are: "Enabled" and "Delay"
*/
QMap<StartAction, QVariantMap> startActionSettings;
enum LoopExitTypes {
LoopAutomaticExit = 0,
LoopReadyStateChangeExit = 1,
LoopManualExit = 2,
LoopCancelExit = 3
};
public slots:
@ -105,57 +106,84 @@ public slots:
* or if if should wait until the start sequence is over and quit after that (false)
* \return 200: OK; 904: state not matching
*/
int start(bool asyncronous = true);
virtual ScStw::StatusCode start(bool asyncronous = true);
/*!
* \brief Function to stop the currently running race
*
* \return 200: OK; 904: state not matching
*/
virtual int stop();
virtual ScStw::StatusCode stop();
/*!
* \brief Function to reset a stopped race
* \return
*/
virtual int reset();
virtual int cancel();
virtual ScStw::StatusCode reset();
virtual ScStw::StatusCode cancel();
// setters
bool writeStartActionSetting(StartAction action, bool enabled, int delay);
bool setSoundVolume(double volume);
virtual bool addTimer(ScStwTimer *timer);
virtual ScStw::StatusCode setTimerDisabled(int id, bool disabled);
Q_INVOKABLE virtual bool addTimer(ScStwTimer *timer);
// getters
RaceState getState();
StartAction getNextStartAction();
virtual QVariantList getNextStartActionDetails();
virtual QVariantMap getCurrentStartDelay();
QList<ScStwTimer*> getTimers();
QVariantList getTimerDetailList();
QVariantMap getDetails();
bool getCompetitionMode();
virtual bool getReadySoundEnabled();
ScStwSettings* getSettings();
void setSettings(ScStwSettings* settings);
bool getAutoRefreshTimerText();
void setAutoRefreshTimerText(bool autoRefresh);
protected slots:
private slots:
void refreshTimerStates();
void handleTimerEnable(ScStwTimer* timer);
int handleFalseStart();
bool playSoundsAndStartTimers(StartAction thisAction);
void handleTimerStateChange(ScStwTimer::TimerState newState);
/**
* \brief Function to declare the winner and looser timers after a timer has been stopped
*/
void handleTimerStop();
void handleFalseStart();
void handleTimerWantsToBeDisabledChange(ScStwTimer* timer, bool wantsToBeDisabled);
bool playSoundsAndStartTimers();
ScStwSoundPlayer::PlayResult doDelayAndSoundOfCurrentStartState(double *timeOfSoundPlaybackStart = nullptr);
void technicalIncident();
ScStw::StatusCode setTimerDisabled(ScStwTimer* timer, bool disabled);
virtual void refreshCompetitionMode();
double getSoundVolume();
ScStwSoundPlayer::StartSound getSoundForState(ScStwRace::RaceState state);
bool getSoundEnabledSetting(ScStwSoundPlayer::StartSound sound);
int getSoundDelaySetting(ScStwSoundPlayer::StartSound sound);
bool isStarting();
virtual bool getIsReadyForNextState();
void handleTimerReadyStateChange(ScStwTimer::ReadyState readyState);
signals:
void startTimers();
void stopTimers(int type);
void resetTimers();
void stateChanged(RaceState state);
void nextStartActionChanged();
void nextStartActionDetailsChanged();
void currentStartDelayChanged();
void timersChanged();
void isReadyForNextStateChanged();
void detailsChanged();
void competitionModeChanged();
void readySoundEnabledChanged();
void settingsChanged();
void autoRefreshTimerTextChanged();
};

View file

@ -16,39 +16,43 @@
** along with this program. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
#ifndef SCSTWREMOTEMONITORRACE_H
#define SCSTWREMOTEMONITORRACE_H
#ifndef SCSTWQMLSETTING_H
#define SCSTWQMLSETTING_H
#include <QObject>
#include "scstwrace.h"
#include "scstwclient.h"
#include <QVariant>
class ScStwRemoteMonitorRace : public ScStwRace
class ScStwSettings;
class ScStwSetting : public QObject
{
Q_OBJECT
public:
ScStwRemoteMonitorRace(ScStwClient *monitorClient, QObject *parent = nullptr);
Q_PROPERTY(QVariant value READ getValue WRITE setValue NOTIFY valueChanged)
Q_PROPERTY(QVariant readonlyValue READ getValue NOTIFY valueChanged)
protected:
double nextStartActionTotalDelay;
double nextStartActionDelayStartedAt;
explicit ScStwSetting(int key, int keyLevel, ScStwSettings*scStwSettings, QObject *parent);
friend class ScStwSettings;
int key;
int keyLevel;
bool hasToReload;
private:
ScStwClient *scStwClient;
QVariant valueCache;
ScStwSettings *scStwSettings;
public slots:
int start();
int cancel();
int stop();
int reset();
bool addTimer(ScStwTimer *timer);
QVariantList getNextStartActionDetails();
QVariant getValue();
void setValue(QVariant value);
private slots:
void handleClientStateChanged();
void handleBaseStationSignal(ScStw::SignalKey key, QVariant data);
bool refreshRemoteTimers(QVariantList remoteTimers);
protected slots:
void handleSettingChange(int key, int keyLevel, QVariant value);
signals:
void valueChanged();
};
#endif // SCSTWREMOTEMONITORRACE_H
#endif // SCSTWQMLSETTING_H

View file

@ -0,0 +1,124 @@
/****************************************************************************
** ScStw Libraries
** Copyright (C) 2020 Itsblue development
**
** This program is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
#ifndef SCSTWSETTINGS_H
#define SCSTWSETTINGS_H
#include <QObject>
#include <QVariant>
#include <QMetaEnum>
#include <QtDebug>
#include <QFile>
#include <QStandardPaths>
#include <QJsonDocument>
#include <ScStw.hpp>
#include <QDir>
#include <scstwsetting.h>
class ScStwSettings : public QObject
{
Q_OBJECT
public:
explicit ScStwSettings(QObject *parent = nullptr);
typedef QString(*keyToStringConverter)(int);
typedef QVariant::Type(*keyToTypeConverter)(int);
/*!
* \brief The BaseStationSetting enum contains all settings of the base station that can be changed by a client
*
* \see ScStw::baseStationSettingFromInt()
* \see ScStw::baseStationSettingToString()
* \see ScStw::baseStationSettingFromString()
* \see ScStw::baseStationSettings
*/
enum BaseStationSetting {
InvalidSetting = -1,
ReadySoundEnableSetting,
ReadySoundDelaySetting,
AtYourMarksSoundEnableSetting,
AtYourMarksSoundDelaySetting,
SoundVolumeSetting,
CompetitionModeSetting
};
Q_ENUM(BaseStationSetting)
enum KeyLevelEnum {
KeyLevel = 0
};
Q_ENUM(KeyLevelEnum)
virtual QVariant readSetting(BaseStationSetting key);
Q_INVOKABLE virtual QVariant readSetting(int key, int keyLevel);
virtual bool writeSetting(BaseStationSetting key, QVariant value);
Q_INVOKABLE virtual bool writeSetting(int key, int keyLevel, QVariant value);
virtual bool setDefaultSetting(BaseStationSetting key, QVariant defaultValue);
Q_INVOKABLE virtual bool setDefaultSetting(int key, int keyLevel, QVariant defaultValue);
Q_INVOKABLE ScStwSetting * getSetting(int key, int keyLevel);
static BaseStationSetting keyFromInt(int i) {
QMetaEnum enumeration = QMetaEnum::fromType<BaseStationSetting>();
return static_cast<BaseStationSetting>(enumeration.keyToValue(enumeration.valueToKey(i)));
}
static QString keyToString(int key) {
return QMetaEnum::fromType<BaseStationSetting>().valueToKey(key);
}
static QVariant::Type keyToType(int key) {
QMap<BaseStationSetting, QVariant::Type> types = {
{ReadySoundEnableSetting, QVariant::Bool},
{ReadySoundDelaySetting, QVariant::Double},
{AtYourMarksSoundEnableSetting, QVariant::Bool},
{AtYourMarksSoundDelaySetting, QVariant::Double},
{SoundVolumeSetting, QVariant::Double},
{CompetitionModeSetting, QVariant::Bool}
};
if(types.contains(BaseStationSetting(key)))
return types[BaseStationSetting(key)];
return QVariant::Invalid;
}
protected:
virtual QVariant readSetting(QString key, int keyInt = -1, int keyLevel = -1);
virtual bool writeSetting(QString key, QVariant value, int keyInt = -1,int keyLevel = -1);
virtual bool setDefaultSetting(QString key, QVariant defaultValue, int keyInt,int keyLevel = -1);
bool registerKeyLevelConverters(int keyLevel, keyToStringConverter, keyToTypeConverter);
private:
QFile * settingsFile;
QVariantMap settingsCache;
bool loadSettingsFromFile();
QMap<int, keyToStringConverter> keyToStringConverters;
QMap<int, keyToTypeConverter> keyToTypeConverters;
QMap<int, QMap<int, ScStwSetting*>> internalSettingHandlers;
private slots:
bool writeSettingsToFile();
signals:
void settingChanged(int key, int keyLevel, QVariant value);
};
#endif // SCSTWSETTINGS_H

View file

@ -27,6 +27,11 @@
#include <QTimer>
#include <QDateTime>
#include <QSoundEffect>
#include <QAudioDeviceInfo>
#ifdef ScStwLibraries_Raspi
#include <alsa/asoundlib.h>
#endif
/*!
* \brief The ScStwSoundPlayer class is used for ultra low latency sound playback of the speed clibing start tones and commands
@ -41,7 +46,26 @@ public:
*/
explicit ScStwSoundPlayer(QObject *parent = nullptr);
enum StartSound {
None = -1,
AtYourMarks = 0,
Ready = 1,
Start = 2,
FalseStart = 3
};
enum PlayResult {
Success = 0,
Cancelled = -1,
Error = -2
};
private:
bool _setSoundVolume(double volume);
void _initializeSondEffect();
/*!
* \brief A map containing all sound files
* 0: AtYourMarksSound
@ -49,13 +73,15 @@ private:
* 2: StartSound
* 3: FalseStartSound
*/
QMap<int, QVariantMap> soundFiles;
QMap<StartSound, QVariantMap> soundFiles;
/*!
* \brief The sound effect object
*/
QSoundEffect *soundEffect;
QAudioDeviceInfo *_audioOutputDevice;
/*!
* \brief The QEventLoop used to wait for the sound to finish
*/
@ -69,7 +95,7 @@ private:
/*!
* \brief The action that is currently played
*/
int currentlyPlayingAction;
StartSound currentlyPlayingSound;
/*!
* \brief Holds the time the playback started at
@ -83,16 +109,16 @@ public slots:
* \param action The action to play (0: AtYourMarks, 1:Ready, 2:Start)
* \param volume The volume to play at
* \param timeOfStop The time the playback actually started (msecs since epoch)
* \return true if the playback was successfully started, false otherwise
* \return TODO true if the playback was successfully started, false otherwise
*/
bool play(int action, double volume, double *timeOfStart = nullptr);
ScStwSoundPlayer::PlayResult play(StartSound sound, double volume, double *timeOfStart = nullptr);
/*!
* \brief Function to wait for the playback to finish
* \param timeOfStop the point in time when the plyback actually stopped (msecs since epoch)
* \return false if there was any error (eg. there was no playback currently), true otherwise
*/
bool waitForSoundFinish(double *timeOfStop = nullptr);
ScStwSoundPlayer::PlayResult waitForSoundFinish(double *timeOfStop = nullptr);
/*!
* \brief Function to cancel the current playback
@ -102,7 +128,9 @@ public slots:
* \param volume the volume to play the false start sound at
* \return true if the playback was successfully stopped, false otherwise
*/
bool cancel(double volume = 0);
bool cancel();
bool isPlaying();
private slots:

View file

@ -25,6 +25,9 @@
#include <QTimer>
#include "ScStw.hpp"
class ScStwRace;
class ScStwRemoteRace;
/*!
* \brief The ScStwTimer class is used for advanced time measurement.
*
@ -62,13 +65,18 @@ class ScStwTimer : public QObject
{
Q_OBJECT
public:
explicit ScStwTimer(QObject *parent = nullptr);
/*!
* \brief ScStwTimer constructor
* \param parent the parent object
* \param directControlEnabled Defines if protected properties (startTimer, stopTime, reactionTime and state) can be directly set from outside.
* \param letter the letter of the timer (only first char will be used!)
*/
explicit ScStwTimer(QObject *parent = nullptr, bool directControlEnabled = false, QString letter = "" );
explicit ScStwTimer(QString letter, QObject *parent = nullptr);
friend class ScStwRace;
/*!
* \brief The TimerState enum contains all state the timer can be in
@ -77,24 +85,30 @@ public:
IDLE, /*!< Timer is waiting to be started */
STARTING, /*!< Timer is starting and will react with a false start if the climber starts */
RUNNING, /*!< Timer is running */
WAITING, /*!< Timer was stopped and is waiting for the result */
WAITING, /*!< Timer was stopped and is waiting to be set to either WON or LOST */
WON, /*!< Timer has won */
LOST, /*!< Timer has lost */
FAILING, /*!< Timer encountered a false start and is waiting to be set to either FAILED or WILDCARD */
WILDCARD, /*!< The opponent has done a false start */
FAILED, /*!< A false start occured */
CANCELLED, /*!< Timer was cancelled */
INCIDENT, /*!< There was a technical incident (most likely a disconnected extension) */
DISABLED /*!< Timer is disabled */
};
Q_ENUM(TimerState);
/*!
* \brief The StopReason enum contains all possible reasons for a stop
* \brief The ReadyStatus enum contains all possible reasons for a timer not to be ready (>0) and the case that it is ready (0)
*/
enum StopReason {
ManualStop, /*!< Timer was stopped manually */
CancelStop, /*!< Timer was cancelled */
FailStop, /*!< A false start occured */
TopPadStop /*!< Timer was stopped by a physical trigger (eg. a ScStwExtension) */
enum ReadyState {
IsReady = 0, /*!< Timer is ready for start */
NotInIdleState, /*!< Timer is not in IDLE state */
IsDisabled, /*!< Timer is disabled */
ExtensionIsNotConnected, /*!< Not all extension of the timer are conneted */
ExtensionBatteryIsCritical, /*!< The battery level of one or more extension is critical or unknown */
ClimberIsNotReady /*!< The startpad of the timer is not triggered */
};
Q_ENUM(ReadyState)
protected:
/*!
@ -117,16 +131,16 @@ protected:
*/
double reactionTime;
/*!
* \brief Defines if protected properties (startTimer, stopTime, reactionTime and state) can be directly set from outside.
*/
bool directControlEnabled;
/*!
* \brief The letter (eg. "A" or "B") of the Timer (only one char)
*/
QString letter;
/*!
* \brief Defines if the timer currently wants to be disabled or not
*/
bool wantsToBeDisabled;
public slots:
/*!
@ -243,56 +257,20 @@ public slots:
void setDisabled(bool disabled);
/*!
* \brief Function to change the state of the timer
*
* Only works when directControlEnabled is set to true!
* Doing this will emit the ScStwTimer::stateChanged() signal (only if the new state differs from the current one)
*
* \param newState The new state
* \param force whether to force the state change (just to distinguish between protected and public function)
* \return false when directControlEnabled or force is set to false and the startTime was therefore not modified, true otherwise
* \brief Function to check if the timer currently wants to be disabled
* \return true or false
*/
bool setState(TimerState newState, bool force);
bool getWantsToBeDisabled();
/*!
* \brief Function to dircetly change the start time
*
* Only works when directControlEnabled is set to true!
*
* \param startTime the time to change to
* \return false when directControlEnabled is set to false and the startTime was therefore not modified, true otherwise
* \brief Function to get the current ready status of a timer
* \return The current ready status
*/
bool setStartTime(double startTime);
virtual ScStwTimer::ReadyState getReadyState();
/*!
* \brief Function to dircetly change the stop time
*
* Only works when directControlEnabled is set to true!
*
* \param stopTime the time to change to
* \return false when directControlEnabled is set to false and the stopTime was therefore not modified, true otherwise
*/
bool setStopTime(double stopTime);
bool isRunning();
/*!
* \brief Function to dircetly change the rection time
*
* Only works when directControlEnabled is set to true!
*
* \param reactionTime the time to change to
* \return false when directControlEnabled is set to false and the reactionTime was therefore not modified, true otherwise
*/
bool setReactionTime(double rectionTime);
/*!
* \brief Function to dircetly change the letter
*
* Only works when directControlEnabled is set to true!
*
* \param newLetter the letter to change to
* \return false when directControlEnabled is set to false and the letter was therefore not modified, true otherwise
*/
bool setLetter(QString newLetter);
bool isDisabled();
protected slots:
@ -302,33 +280,6 @@ protected slots:
*/
void handleClimberStart(double timeOfStart);
/*!
* \brief Function to stop the timer at a given point in time (past or future)
*
* To do this, the timer has to be in ScStwTimer::RUNNING state!
*
* \param reason reason for the timer stop
* \param timeOfStop the point in time (msecs since epoch) when the timer is supposted to be stopped
*
* \return false if the timer was not in the required state and therefore not stopped, true otherwise
*
* \see ScStwTimer::StopReason
*/
virtual bool stop(StopReason reason, double timeOfStop);
/*!
* \brief Function to stop the timer
*
* To do this, the timer has to be in ScStwTimer::RUNNING state!
*
* \param reason reason for the timer stop
*
* \return false if the timer was not in the required state and therefore not stopped, true otherwise
*
* \see ScStwTimer::StopReason
*/
bool stop(StopReason reason);
/*!
* \brief Function to change the state of the timer
*
@ -338,12 +289,36 @@ protected slots:
*/
void setState(TimerState newState);
/*!
* \brief Function to set whether the timer currently wants to be disabled
* \param wantsToBeDisabled true or false
*/
void setWantsToBeDisabled(bool wantsToBeDisabled);
/*!
* \brief Function to set the timer into INCIDENT state immidieately
*
* The current state of the timer will be ignored! It can only get out of this state by calling ScStwTimer::reset
*
* \see reset
*/
void technicalIncident();
/*!
* \brief Function to set the timer into WILDCARD state
*
* Only works when the timer is in STARTING state.
*
* \return false if not in STARTING state
*/
bool wildcard();
signals:
/*!
* \brief Emitted when the state of the timer changed
*/
void stateChanged();
void stateChanged(TimerState state);
/*!
* \brief Emitted when the reaction time changed
@ -354,7 +329,13 @@ signals:
* \brief Emitted when the timer wants its state to be changed by the external handler
* \param timer the timer object
*/
void requestEnableChange(ScStwTimer* timer);
void wantsToBeDisabledChanged(ScStwTimer* timer, bool wantsToBeDisabled);
/*!
* \brief Emitted when the ready state of the timer changes
* \param readyState the new ReadyState
*/
void readyStateChanged(ReadyState readyState);
};

View file

@ -27,6 +27,7 @@ class ScStwAppThemeManager : public QObject
{
Q_OBJECT
Q_PROPERTY(ScStwAppTheme* theme READ getTheme NOTIFY themeChanged)
Q_PROPERTY(QString themeName READ getThemeName WRITE setTheme NOTIFY themeChanged)
public:
explicit ScStwAppThemeManager(QObject *parent = nullptr);
@ -45,6 +46,7 @@ signals:
public slots:
ScStwAppTheme* getTheme();
Q_INVOKABLE bool setTheme(QString themeName);
Q_INVOKABLE QString getThemeName();
};

View file

@ -87,7 +87,7 @@ Column {
width: parent.width * 0.8
height: parent.height * 0.8
color: ([ScStwTimer.WON].indexOf(control.timers[index]["state"]) >= 0 ? control.colors.success :
color: ([ScStwTimer.WON,ScStwTimer.WILDCARD].indexOf(control.timers[index]["state"]) >= 0 ? control.colors.success :
[ScStwTimer.FAILED,ScStwTimer.LOST].indexOf(control.timers[index]["state"]) >= 0 ? control.colors.error:
control.colors.text)

View file

@ -21,38 +21,6 @@
const char *ScStw::SOCKET_MESSAGE_START_KEY = "<message>";
const char *ScStw::SOCKET_MESSAGE_END_KEY = "</message>";
const QMap<QString, ScStw::BaseStationSetting> ScStw::baseStationSettings = {
{"ReadySoundEnable", ScStw::ReadySoundEnableSetting},
{"ReadySoundDelay", ScStw::ReadySoundDelaySetting},
{"AtYourMarksSoundEnable", ScStw::AtYourMarksSoundEnableSetting},
{"AtYourMarksSoundDelay", ScStw::AtYourMarksSoundDelaySetting},
{"SoundVolume", ScStw::SoundVolumeSetting}
};
ScStw::BaseStationSetting ScStw::baseStationSettingFromString(QString s) {
if(!ScStw::baseStationSettings.contains(s))
return ScStw::InvalidSetting;
return ScStw::baseStationSettings[s];
}
QString ScStw::baseStationSettingToString(ScStw::BaseStationSetting s) {
for(QString key: ScStw::baseStationSettings.keys()) {
if(ScStw::baseStationSettings[key] == s)
return key;
}
return "Invalid";
}
ScStw::BaseStationSetting ScStw::baseStationSettingfromInt(int i) {
bool ok;
BaseStationSetting s = ScStw::toEnumValue<ScStw::BaseStationSetting>(i, &ok);
if(!ok)
return InvalidSetting;
else
return s;
}
ScStw::SignalKey ScStw::signalKeyFromInt(int i) {
bool ok;
ScStw::SignalKey k = ScStw::toEnumValue<ScStw::SignalKey>(i, &ok);
@ -71,6 +39,17 @@ ScStw::SocketCommand ScStw::socketCommandFromInt(int i) {
return c;
}
QString ScStw::extensionTypeToString(ExtensionType t) {
switch (t) {
case StartPad:
return "StartPad";
case TopPad:
return "TopPad";
default:
return "Invalid";
}
}
int ScStw::firmwareCompare(QString a, QString b) {
/*
* * \return -3: major of a is lower than b

View file

@ -20,11 +20,12 @@
ScStwClient * pGlobalScStwClient = nullptr;
ScStwClient::ScStwClient(QObject * parent) : QObject(parent)
ScStwClient::ScStwClient(QObject * parent, QList<ScStw::SignalKey> signalSubscriptions) : QObject(parent)
{
this->state = DISCONNECTED;
this->nextConnectionId = 1;
this->extensions = QVariantList({});
this->currentRequestId = 1;
this->extensions = QVariantMap({});
this->signalSubscriptions = signalSubscriptions;
this->socket = new QTcpSocket(this);
@ -49,6 +50,9 @@ ScStwClient::ScStwClient(QObject * parent) : QObject(parent)
void ScStwClient::connectToHost() {
if(this->state != DISCONNECTED)
return;
setState(CONNECTING);
//connect
@ -72,21 +76,24 @@ bool ScStwClient::init() {
this->setState(INITIALISING);
this->timeoutTimer->stop();
QJsonArray signalSubs;
foreach (ScStw::SignalKey key, this->signalSubscriptions) {
signalSubs.append(key);
}
// init remote session
QJsonArray updateSubs = {ScStw::RaceStateChanged, ScStw::TimersChanged, ScStw::ExtensionsChanged, ScStw::NextStartActionChanged};
QJsonObject sessionParams = {{"updateSubs", updateSubs}, {"init", true}, {"usingTerminationKeys", true}};
QJsonObject sessionParams = {{"apiVersion", this->API_VERSION}, {"signalSubscriptions", signalSubs}, {"init", true}, {"usingTerminationKeys", true}};
QVariantMap initResponse = this->sendCommand(1, sessionParams, 3000, false);
if(initResponse["status"] != 200) {
this->closeConnection();
return false;
}
this->apiVersion = initResponse["data"].toMap()["apiVersion"].toString();
qDebug() << "[INFO][CLIENT] base station api version is: " << this->apiVersion;
int compareResult = ScStw::firmwareCompare(this->API_VERSION, this->apiVersion);
qDebug() << "compare result is: " << compareResult;
//qDebug() << "compare result is: " << compareResult;
if( compareResult == -3 ){
// the client version is out of date!!
this->closeConnection();
@ -116,7 +123,17 @@ void ScStwClient::deInit() {
if(this->state == DISCONNECTED)
return;
this->setExtensions(QVariantList({}));
this->currentRequestId = 1;
this->firmwareVersion = "";
this->apiVersion = "";
this->setExtensions(QVariantMap({}));
for(WaitingRequest waitingRequest : this->waitingRequests.values())
if(waitingRequest.loop != nullptr)
waitingRequest.loop->exit(ScStw::NotConnectedError);
this->waitingRequests.clear();
this->setState(DISCONNECTED);
}
@ -155,16 +172,22 @@ QVariantMap ScStwClient::sendCommand(int header, QJsonValue data, int timeout, b
return {{"status", ScStw::NotConnectedError}, {"data", "not connected"}};
}
// generate id and witing requests entry
int thisId = nextConnectionId;
// pick a new request id that is not already active
do {
if(this->currentRequestId >= 99)
this->currentRequestId = 0;
else
this->currentRequestId ++;
} while(this->waitingRequests.contains(this->currentRequestId));
int thisId = currentRequestId;
//qDebug() << "sending command: " << header << " with data: " << data << " and id: " << thisId;
nextConnectionId ++;
QEventLoop *loop = new QEventLoop(this);
QTimer *timer = new QTimer(this);
QJsonObject reply;
this->waitingRequests.append({thisId, loop, reply});
this->waitingRequests.insert(thisId, {loop, reply});
QJsonObject requestObj;
requestObj.insert("id", thisId);
@ -175,7 +198,7 @@ QVariantMap ScStwClient::sendCommand(int header, QJsonValue data, int timeout, b
timer->setSingleShot(true);
// quit the loop when the timer times out
loop->connect(timer, SIGNAL(timeout()), loop, SLOT(quit()));
connect(timer, &QTimer::timeout, [=]{loop->exit(ScStw::TimeoutError);});
// start the timer before starting to connect
timer->start(timeout);
@ -186,37 +209,38 @@ QVariantMap ScStwClient::sendCommand(int header, QJsonValue data, int timeout, b
socket->write(jsonRequest.toUtf8());
//wait for an answer to finish (programm gets stuck in here)
loop->exec();
ScStw::StatusCode statusCode = ScStw::StatusCode(loop->exec());
bool replyFound = false;
// delete the timer
timer->deleteLater();
// find reply and delete the request from waiting list
for(int i = 0; i<this->waitingRequests.length(); i++){
if(this->waitingRequests[i].id == thisId){
// request was found
replyFound = true;
// delete event loop
if(this->waitingRequests[i].loop != nullptr) {
delete this->waitingRequests[i].loop;
}
// store reply
reply = this->waitingRequests[i].reply;
// remove reply from waiting list
this->waitingRequests.removeAt(i);
if(this->waitingRequests.contains(thisId)) {
// request was found
// delete event loop
if(this->waitingRequests[thisId].loop != nullptr) {
this->waitingRequests[thisId].loop->deleteLater();
}
}
if(!replyFound) {
// store reply
reply = this->waitingRequests[thisId].reply;
// remove reply from waiting list
this->waitingRequests.remove(thisId);
}
else {
// some internal error occured
return {{"status", ScStw::Error}, {"data", ""}};
return {{"status", ScStw::InternalError}, {"data", ""}};
}
if(timer->remainingTime() == -1){
if(statusCode == ScStw::TimeoutError){
//the time has been triggered -> timeout
return {{"status", ScStw::TimeoutError}, {"data", ""}};
}
else if(statusCode == ScStw::NotConnectedError) {
// connection was closed during request
return {{"status", ScStw::NotConnectedError}, {"data", ""}};
}
delete timer;
return {{"status", reply.value("header").toInt()}, {"data", reply.value("data").toVariant()}};
@ -268,7 +292,6 @@ void ScStwClient::handleReadyRead() {
//qDebug() << "ready to ready " << socket->bytesAvailable() << " bytes" ;
QString reply = socket->readAll();
//qWarning() << "socket read: " << reply;
processSocketMessage(reply);
@ -330,7 +353,7 @@ void ScStwClient::handleSocketMessage(QString reply) {
reply.replace(ScStw::SOCKET_MESSAGE_START_KEY, "");
reply.replace(ScStw::SOCKET_MESSAGE_END_KEY, "");
//qDebug() << "got message: " << reply;
qDebug() << "got message: " << qPrintable(reply);
int id = 0;
@ -347,14 +370,12 @@ void ScStwClient::handleSocketMessage(QString reply) {
}
// this message is the reply to a command!
for(int i = 0; i < this->waitingRequests.length(); i++){
if(this->waitingRequests[i].id == id){
this->waitingRequests[i].reply = replyObj;
if(this->waitingRequests[i].loop != nullptr){
this->waitingRequests[i].loop->quit();
}
return;
if(this->waitingRequests.contains(id)){
this->waitingRequests[id].reply = replyObj;
if(this->waitingRequests[id].loop != nullptr){
this->waitingRequests[id].loop->exit(ScStw::Success);
}
return;
}
}
@ -375,7 +396,7 @@ void ScStwClient::handleSignal(QVariantMap data) {
{
// the extension connections have changed
// -> handle locally
this->setExtensions(data["data"].toList());
this->setExtensions(data["data"].toMap());
return;
break;
}
@ -392,19 +413,24 @@ void ScStwClient::handleSignal(QVariantMap data) {
// --- helper functions ---
// ------------------------
ScStw::StatusCode ScStwClient::writeRemoteSetting(ScStw::BaseStationSetting key, QString value) {
ScStw::StatusCode ScStwClient::writeRemoteSetting(ScStwSettings::BaseStationSetting key, QVariant value) {
QJsonArray requestData;
requestData.append(key);
requestData.append(value);
requestData.append(int(key));
requestData.append(QJsonValue::fromVariant(value));
return ScStw::StatusCode(this->sendCommand(3000, requestData)["status"].toInt());
}
QString ScStwClient::readRemoteSetting(ScStw::BaseStationSetting key) {
QVariantMap reply = this->sendCommand(3001, key);
QVariant ScStwClient::readRemoteSetting(ScStwSettings::BaseStationSetting key, ScStw::StatusCode* status) {
QVariantMap reply = this->sendCommand(3001, int(key), 10000);
qDebug() << "Setting read status is: " << reply["status"];
if(status != nullptr)
*status = ScStw::StatusCode(reply["status"].toInt());
if(reply["status"] != 200){
return "false";
}
return reply["data"].toString();
return reply["data"];
}
void ScStwClient::setIP(QString newIp){
@ -429,7 +455,7 @@ void ScStwClient::setState(ScStwClient::State newState){
}
}
QVariantList ScStwClient::getExtensions() {
QVariantMap ScStwClient::getExtensions() {
return this->extensions;
}
@ -445,10 +471,18 @@ QString ScStwClient::getApiVersion() {
return this->apiVersion;
}
void ScStwClient::setExtensions(QVariantList extensions) {
void ScStwClient::setExtensions(QVariantMap extensions) {
qDebug() << "[CLIENT][DEBUG] Extensions changed: " << extensions;
if(this->extensions != extensions){
this->extensions = extensions;
emit this->gotSignal(ScStw::ExtensionsChanged, this->getExtensions());
emit this->extensionsChanged();
}
}
void ScStwClient::addSignalSubscription(ScStw::SignalKey key) {
if(!this->signalSubscriptions.contains(key))
this->signalSubscriptions.append(key);
}

View file

@ -1,241 +0,0 @@
/****************************************************************************
** ScStw Libraries
** Copyright (C) 2020 Itsblue development
**
** This program is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
#include "scstwremotemonitorrace.h"
ScStwRemoteMonitorRace::ScStwRemoteMonitorRace(ScStwClient *monitorClient, QObject *parent) : ScStwRace(parent)
{
this->scStwClient = monitorClient;
connect(this->scStwClient, &ScStwClient::stateChanged, this, &ScStwRemoteMonitorRace::handleClientStateChanged);
connect(this->scStwClient, &ScStwClient::gotSignal, this, &ScStwRemoteMonitorRace::handleBaseStationSignal);
}
// --------------------------
// --- Main Functionality ---
// --------------------------
int ScStwRemoteMonitorRace::start() {
if(this->getState() != ScStwRace::IDLE) {
return 904;
}
qDebug() << "+ --- starting race";
int returnCode = 900;
QVariantMap reply = this->scStwClient->sendCommand(1000);
if(reply["status"] != 200){
//handle Error!!
returnCode = reply["status"].toInt();
}
else {
returnCode = 200;
}
return returnCode;
}
int ScStwRemoteMonitorRace::cancel() {
return this->stop();
}
int ScStwRemoteMonitorRace::stop() {
if(this->getState() != ScStwRace::RUNNING && this->getState() != ScStwRace::STARTING) {
return 904;
}
// type can be:
// 0: stopp
// 1: cancel
// 2: fail (fase start)
qDebug() << "+ --- stopping race";
int returnCode = 900;
QVariantMap reply = this->scStwClient->sendCommand(1001);
if(reply["status"] != 200){
returnCode = reply["status"].toInt();
}
else {
returnCode = 200;
}
return returnCode;
}
int ScStwRemoteMonitorRace::reset() {
if(this->getState() != ScStwRace::STOPPED) {
return 904;
}
qDebug() << "+ --- resetting race";
int returnCode = 900;
QVariantMap reply = this->scStwClient->sendCommand(1002);
if(reply["status"] != 200){
//handle Error!!
returnCode = reply["status"].toInt();
}
else {
returnCode = 200;
}
return returnCode;
}
// -------------------------
// --- Base Station sync ---
// -------------------------
void ScStwRemoteMonitorRace::handleClientStateChanged() {
// TODO
switch (this->scStwClient->getState()) {
case ScStwClient::CONNECTED:
break;
default:
this->timers.clear();
this->setState(IDLE);
break;
}
}
/**
* @brief ScStwAppBackend::handleBaseStationUpdate
*
* Function to handle an update, sent by the base station, which indicates
* that some remote value (like a state) has changed
*
* @param data
*/
void ScStwRemoteMonitorRace::handleBaseStationSignal(ScStw::SignalKey key, QVariant data) {
//qDebug() << "got signal: " << data;
switch (key) {
case ScStw::RaceStateChanged:
{
// the remote race state has changed
this->setState( ScStwRace::RaceState( data.toInt() ) );
break;
}
case ScStw::TimersChanged:
{
// the remote timers have changed
this->refreshRemoteTimers(data.toList());
break;
}
case ScStw::NextStartActionChanged:
{
// the next start action has changed
this->nextStartActionTotalDelay = data.toList()[ScStwRace::NextStartActionTotalDelay].toDouble();
this->nextStartActionDelayStartedAt = QDateTime::currentMSecsSinceEpoch() - (this->nextStartActionTotalDelay * data.toList()[ScStwRace::NextStartActionDelayProgress].toDouble());
this->nextStartAction = ScStwRace::StartAction( data.toList()[ScStwRace::NextStartAction].toInt() );
emit this->nextStartActionChanged();
break;
}
case ScStw::InvalidSignal:
return;
default:
return;
}
}
bool ScStwRemoteMonitorRace::refreshRemoteTimers(QVariantList remoteTimers) {
if(remoteTimers.length() != this->timers.length()){
// local timers are out of sync
// delete all current timers
foreach(ScStwTimer * locTimer, this->timers){
delete locTimer;
}
this->timers.clear();
foreach(QVariant remoteTimer, remoteTimers){
// create a local timer for each remote timer
ScStwTimer * timer = new ScStwTimer(this, true);
this->timers.append(timer);
connect(timer, &ScStwTimer::stateChanged, this, &ScStwRace::timersChanged);
connect(timer, &ScStwTimer::reactionTimeChanged, this, &ScStwRace::timersChanged);
}
}
foreach(QVariant remoteTimer, remoteTimers){
int currId = remoteTimer.toMap()["id"].toInt();
ScStwTimer::TimerState newState = ScStwTimer::TimerState(remoteTimer.toMap()["state"].toInt());
double currentMSecsSinceEpoch = QDateTime::currentMSecsSinceEpoch();
this->timers[currId]->setStartTime(currentMSecsSinceEpoch - remoteTimer.toMap()["currentTime"].toDouble());
if(newState >= ScStwTimer::WAITING)
this->timers[currId]->setStopTime(currentMSecsSinceEpoch);
this->timers[currId]->setReactionTime(remoteTimer.toMap()["reactionTime"].toDouble());
this->timers[currId]->setState(newState, true);
this->timers[currId]->setLetter(remoteTimer.toMap()["letter"].toString());
}
return true;
}
bool ScStwRemoteMonitorRace::addTimer(ScStwTimer* timer) {
Q_UNUSED(timer)
return false;
}
QVariantList ScStwRemoteMonitorRace::getNextStartActionDetails() {
int nextActionDelay = 0;
double nextActionDelayProg = -1;
if(this->nextStartAction == AtYourMarks || this->nextStartAction == Ready) {
// get the total delay and the delay progress of the next action timer
double elapsed = QDateTime::currentMSecsSinceEpoch() - this->nextStartActionDelayStartedAt;
nextActionDelay = this->nextStartActionTotalDelay;
if(elapsed < 0 || elapsed > nextActionDelay) {
elapsed = nextActionDelay;
}
nextActionDelayProg = elapsed / nextActionDelay;
}
return {
this->nextStartAction,
nextActionDelay,
nextActionDelayProg
};
}

View file

@ -0,0 +1,370 @@
/****************************************************************************
** ScStw Libraries
** Copyright (C) 2020 Itsblue development
**
** This program is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
#include "scstwremoterace.h"
ScStwRemoteRace::ScStwRemoteRace(QObject* parent) : ScStwRemoteRace(nullptr, nullptr, parent)
{
}
ScStwRemoteRace::ScStwRemoteRace(ScStwClient *scStwClient, ScStwSettings *settings, QObject *parent) : ScStwRace(settings, parent)
{
this->isReadyForNextState = true;
this->remoteTimers = {};
this->localTimers = {};
this->setScStwClient(scStwClient);
}
// --------------------------
// --- Main Functionality ---
// --------------------------
ScStw::StatusCode ScStwRemoteRace::start(bool asyncronous) {
if(this->local())
return ScStwRace::start(asyncronous);
if(this->getState() != ScStwRace::IDLE && this->getState() != ScStwRace::WAITING)
return ScStw::CurrentStateNotVaildForOperationError;
qDebug() << "+ --- starting race";
QVariantMap reply = this->scStwClient->sendCommand(ScStw::StartRaceCommand);
return ScStw::StatusCode(reply["status"].toInt());
}
ScStw::StatusCode ScStwRemoteRace::cancel() {
if(this->local())
return ScStwRace::cancel();
if(this->getState() != PREPAIRING && this->getState() != WAITING && this->getState() != STARTING && this->getState() != RUNNING)
return ScStw::CurrentStateNotVaildForOperationError;
qDebug() << "+ --- stopping race";
QVariantMap reply = this->scStwClient->sendCommand(ScStw::CancelRaceCommand);
return ScStw::StatusCode(reply["status"].toInt());
}
ScStw::StatusCode ScStwRemoteRace::stop() {
if(this->local())
return ScStwRace::stop();
if(this->getState() != ScStwRace::RUNNING && this->getState() != ScStwRace::STARTING)
return ScStw::CurrentStateNotVaildForOperationError;
qDebug() << "+ --- stopping race";
QVariantMap reply = this->scStwClient->sendCommand(ScStw::StopRaceCommand);
return ScStw::StatusCode(reply["status"].toInt());
}
ScStw::StatusCode ScStwRemoteRace::reset() {
if(this->local())
return ScStwRace::reset();
if(this->getState() != ScStwRace::STOPPED && this->getState() != ScStwRace::INCIDENT)
return ScStw::CurrentStateNotVaildForOperationError;
qDebug() << "+ --- resetting race";
QVariantMap reply = this->scStwClient->sendCommand(ScStw::ResetRaceCommand);
return ScStw::StatusCode(reply["status"].toInt());
}
ScStw::StatusCode ScStwRemoteRace::setTimerDisabled(int timerId, bool disabled) {
if(this->state != IDLE && this->state != WAITING)
return ScStw::CurrentStateNotVaildForOperationError;
if(timerId < 0 || timerId - 1 > this->timers.length())
return ScStw::ItemNotFoundError;
qDebug() << "+ --- setting timer " << timerId << " to disabled: " << disabled;
QVariantMap requestData = {
{"timerId", timerId},
{"disabled", disabled}
};
QVariantMap reply = this->scStwClient->sendCommand(ScStw::SetTimerDisabledCommand, QJsonValue::fromVariant(requestData));
qDebug() << "+ --- timer disabled command returned: " << reply;
return ScStw::StatusCode(reply["status"].toInt());
}
// -------------------------
// --- Base Station sync ---
// -------------------------
void ScStwRemoteRace::handleClientStateChange() {
switch (this->scStwClient->getState()) {
case ScStwClient::INITIALISING:
// disconnect all local timers from race
this->setTimers({}, false);
// delete all obsolete remote timers
for(ScStwRemoteTimer* oldRemoteTimer : this->remoteTimers)
oldRemoteTimer->deleteLater();
this->remoteTimers.clear();
break;
case ScStwClient::DISCONNECTED:
this->remoteTimers.clear();
this->setTimers(this->localTimers, false);
emit this->timersChanged();
emit this->detailsChanged();
emit this->currentStartDelayChanged();
this->competitionMode = false;
this->setState(IDLE);
break;
default:
break;
}
}
void ScStwRemoteRace::setTimers(QList<ScStwTimer*> timers, bool deleteOldTimers) {
// disconnect all signals of all current timers
//qDebug() << "SETTING TIMERS";
foreach(ScStwTimer *existingTimer, this->timers) {
disconnect(existingTimer, &ScStwTimer::stateChanged, this, &ScStwRace::handleTimerStateChange);
disconnect(existingTimer, &ScStwTimer::stateChanged, this, &ScStwRace::timersChanged);
disconnect(existingTimer, &ScStwTimer::wantsToBeDisabledChanged, this, &ScStwRace::handleTimerWantsToBeDisabledChange);
disconnect(existingTimer, &ScStwTimer::reactionTimeChanged, this, &ScStwRace::timersChanged);
disconnect(existingTimer, &ScStwTimer::readyStateChanged, this, &ScStwRace::handleTimerReadyStateChange);
disconnect(existingTimer, &ScStwTimer::readyStateChanged, this, &ScStwRace::isReadyForNextStateChanged);
if(deleteOldTimers)
existingTimer->deleteLater();
}
this->timers.clear();
for(ScStwTimer* timer : timers) {
this->addTimer(timer);
}
}
ScStwRemoteRace::RaceMode ScStwRemoteRace::getMode() {
if(this->scStwClient == nullptr || this->scStwClient->getState() != ScStwClient::CONNECTED)
return LOCAL;
else
return REMOTE;
}
bool ScStwRemoteRace::local() {
return this->getMode() == LOCAL;
}
/**
* @brief ScStwAppBackend::handleBaseStationUpdate
*
* Function to handle an update, sent by the base station, which indicates
* that some remote value (like a state) has changed
*
* @param data
*/
void ScStwRemoteRace::handleBaseStationSignal(ScStw::SignalKey key, QVariant data) {
switch (key) {
case ScStw::RaceDetailsChanged:
{
this->refreshDetails(data.toMap());
break;
}
default:
return;
}
}
void ScStwRemoteRace::refreshDetails(QVariantMap details) {
// the details of the race have changed:
qDebug() << "RACE DETAILS: " << details;
// competition mode
if(this->competitionMode != details["competitionMode"].toBool()) {
this->competitionMode = details["competitionMode"].toBool();
emit this->competitionModeChanged();
}
// ready sound enabled
if(this->readySoundEnabled != details["readySoundEnabled"].toBool()) {
this->readySoundEnabled = details["readySoundEnabled"].toBool();
emit this->readySoundEnabledChanged();
}
// current start delay
this->currentStartTotalDelay = details["currentStartDelay"].toMap()["total"].toInt();
this->latestStartDelayProgress = details["currentStartDelay"].toMap()["progress"].toDouble();
this->currentStartDelayStartedAt = QDateTime::currentMSecsSinceEpoch() - (this->currentStartTotalDelay * this->latestStartDelayProgress);
emit this->currentStartDelayChanged();
// timers
this->refreshRemoteTimers(details["timers"].toList());
// state
this->setState(ScStwRace::RaceState(details["state"].toInt()));
// isReady
if(this->state == WAITING) {
this->isReadyForNextState = details["isReadyForNextState"].toBool();
emit this->isReadyForNextStateChanged();
}
emit this->detailsChanged();
}
void ScStwRemoteRace::rebuildRemoteTimers(QVariantList remoteTimers) {
qDebug() << "REBUILDING TIMERS";
// delete all current timers
foreach(ScStwTimer * oldTimer, this->timers){
oldTimer->deleteLater();
}
this->remoteTimers.clear();
this->timers.clear();
foreach(QVariant remoteTimer, remoteTimers){
// create a local timer for each remote timer
ScStwRemoteTimer * timer = new ScStwRemoteTimer(this);
this->timers.append(timer);
this->remoteTimers.append(timer);
connect(timer, &ScStwTimer::stateChanged, this, &ScStwRace::timersChanged);
connect(timer, &ScStwTimer::reactionTimeChanged, this, &ScStwRace::timersChanged);
}
}
bool ScStwRemoteRace::refreshRemoteTimers(QVariantList newRemoteTimers) {
qDebug() << "REFRESHING TIMERS";
if(newRemoteTimers.length() != this->remoteTimers.length()){
// local timers are out of sync
this->rebuildRemoteTimers(newRemoteTimers);
qDebug() << "rebuilding remote timers";
}
for(QVariant remoteTimer : newRemoteTimers){
int currId = remoteTimer.toMap()["id"].toInt();
if(this->remoteTimers.length() <= currId)
this->rebuildRemoteTimers(newRemoteTimers);
ScStwTimer::TimerState newState = ScStwTimer::TimerState(remoteTimer.toMap()["state"].toInt());
qDebug() << "refreshing timers: id: " << currId << " state: " << newState << " readyState: " << remoteTimer.toMap()["readyState"].toInt() << " currentTime: " << remoteTimer.toMap()["currentTime"].toDouble();
double currentMSecsSinceEpoch = QDateTime::currentMSecsSinceEpoch();
this->remoteTimers[currId]->setStartTime(currentMSecsSinceEpoch - remoteTimer.toMap()["currentTime"].toDouble());
if(newState >= ScStwTimer::WAITING)
this->remoteTimers[currId]->setStopTime(currentMSecsSinceEpoch);
this->remoteTimers[currId]->setReactionTime(remoteTimer.toMap()["reactionTime"].toDouble());
this->remoteTimers[currId]->setLetter(remoteTimer.toMap()["letter"].toString());
this->remoteTimers[currId]->setReadyState(ScStwTimer::ReadyState(remoteTimer.toMap()["readyState"].toInt()));
this->remoteTimers[currId]->setState(newState);
}
emit this->timersChanged();
return true;
}
bool ScStwRemoteRace::addTimer(ScStwTimer* timer) {
if(this->local()) {
this->localTimers.append(timer);
return ScStwRace::addTimer(timer);
}
return false;
}
QVariantMap ScStwRemoteRace::getCurrentStartDelay() {
if(this->local())
return ScStwRace::getCurrentStartDelay();
QVariantMap currentStartDelay = {
{"total", -1.0},
{"progress", -1.0}
};
if(this->currentStartTotalDelay == -1) {
currentStartDelay["progress"] = this->latestStartDelayProgress;
}
else if(this->getState() == PREPAIRING || this->getState() == WAITING) {
// get the total delay and the delay progress of the next action timer
double elapsed = QDateTime::currentMSecsSinceEpoch() - this->currentStartDelayStartedAt;
currentStartDelay["total"] = this->currentStartTotalDelay;
if(elapsed < 0 || elapsed > currentStartDelay["total"].toDouble()) {
elapsed = currentStartDelay["total"].toDouble();
}
currentStartDelay["progress"] = elapsed / currentStartDelay["total"].toDouble();
}
return currentStartDelay;
}
bool ScStwRemoteRace::getIsReadyForNextState() {
if(this->local())
return ScStwRace::getIsReadyForNextState();
return this->isReadyForNextState;
}
bool ScStwRemoteRace::getReadySoundEnabled() {
if(this->local())
return ScStwRace::getReadySoundEnabled();
return this->readySoundEnabled;
}
void ScStwRemoteRace::refreshCompetitionMode() {
if(this->local())
return ScStwRace::refreshCompetitionMode();
}
ScStwClient* ScStwRemoteRace::getScStwClient() {
return this->scStwClient;
}
void ScStwRemoteRace::setScStwClient(ScStwClient* client) {
if(client == this->scStwClient)
return;
this->scStwClient = client;
if(this->scStwClient != nullptr) {
this->scStwClient->addSignalSubscription(ScStw::RaceDetailsChanged);
connect(this->scStwClient, &ScStwClient::stateChanged, this, &ScStwRemoteRace::handleClientStateChange);
connect(this->scStwClient, &ScStwClient::gotSignal, this, &ScStwRemoteRace::handleBaseStationSignal);
}
}

View file

@ -0,0 +1,104 @@
/****************************************************************************
** ScStw Libraries
** Copyright (C) 2020 Itsblue development
**
** This program is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
#include "../../headers/client/scstwremotesettings.h"
ScStwRemoteSettings::ScStwRemoteSettings(QObject* parent) : ScStwSettings(parent)
{
this->scStwClient = nullptr;
}
ScStwRemoteSettings::ScStwRemoteSettings(ScStwClient * scStwClient, QObject * parent) : ScStwSettings(parent)
{
this->setScStwClient(scStwClient);
}
ScStwRemoteSettings::SettingsMode ScStwRemoteSettings::getMode() {
if(this->scStwClient == nullptr || this->scStwClient->getState() != ScStwClient::CONNECTED)
return LOCAL;
else
return REMOTE;
}
QVariant ScStwRemoteSettings::readSetting(QString key, int keyInt, int keyLevel) {
if(this->getMode() == LOCAL || keyLevel > ScStwSettings::KeyLevel)
return ScStwSettings::readSetting(key, keyInt, keyLevel);
qDebug() << "Setting read: keyLevel: " << keyLevel << " key: " << key;
ScStw::StatusCode status;
QVariant value = this->scStwClient->readRemoteSetting(ScStwSettings::BaseStationSetting(keyInt), &status);
if(status == ScStw::Success)
return value;
else
return QVariant();
}
bool ScStwRemoteSettings::writeSetting(QString key, QVariant value, int keyInt, int keyLevel) {
if(this->getMode() == LOCAL || keyLevel > ScStwSettings::KeyLevel)
return ScStwSettings::writeSetting(key, value, keyInt, keyLevel);
qDebug() << "Setting write: keyLevel: " << keyLevel << " key: " << key << " value: " << value;
ScStw::StatusCode res = this->scStwClient->writeRemoteSetting(ScStwSettings::BaseStationSetting(keyInt), value);
return res == ScStw::Success;
}
bool ScStwRemoteSettings::setDefaultSetting(QString key, QVariant defaultVariant, int keyInt, int keyLevel) {
if(this->getMode() == LOCAL || keyLevel > ScStwSettings::KeyLevel)
return ScStwSettings::setDefaultSetting(key, defaultVariant, keyInt, keyLevel);
return false;
}
void ScStwRemoteSettings::handleClientStateChange() {
if(this->scStwClient->getState() == ScStwClient::DISCONNECTED)
emit this->settingChanged(-1, ScStwSettings::KeyLevel, QVariant());
// Dont't need to do that when changing to connected,
// as the basestation emits a wildcrd setting changed on connect anyway
}
void ScStwRemoteSettings::handleBaseStationSignal(ScStw::SignalKey key, QVariant data) {
switch (key) {
case ScStw::SettingChanged:
emit this->settingChanged(data.toMap()["key"].toInt(), ScStwSettings::KeyLevel, data.toMap()["value"]);
default:
break;
}
}
ScStwClient* ScStwRemoteSettings::getScStwClient() {
return this->scStwClient;
}
void ScStwRemoteSettings::setScStwClient(ScStwClient* client) {
if(client == this->scStwClient)
return;
this->scStwClient = client;
if(this->scStwClient != nullptr) {
this->scStwClient->addSignalSubscription(ScStw::SettingChanged);
connect(this->scStwClient, &ScStwClient::stateChanged, this, &ScStwRemoteSettings::handleClientStateChange);
connect(this->scStwClient, &ScStwClient::gotSignal, this, &ScStwRemoteSettings::handleBaseStationSignal);
}
}

View file

@ -0,0 +1,42 @@
#include "../../headers/client/scstwremotetimer.h"
ScStwRemoteTimer::ScStwRemoteTimer(QObject *parent) : ScStwTimer(parent)
{
this->readyState = ScStwTimer::getReadyState();
}
ScStwTimer::ReadyState ScStwRemoteTimer::getReadyState() {
return this->readyState;
}
void ScStwRemoteTimer::setStartTime(double startTime) {
this->startTime = startTime;
}
void ScStwRemoteTimer::setStopTime(double stopTime) {
this->stopTime = stopTime;
}
void ScStwRemoteTimer::setReactionTime(double reactionTime) {
this->reactionTime = reactionTime;
emit this->reactionTimeChanged();
}
void ScStwRemoteTimer::setLetter(QString newLetter) {
this->letter = newLetter;
}
void ScStwRemoteTimer::setReadyState(ScStwTimer::ReadyState readyState) {
if(this->readyState != readyState) {
this->readyState = readyState;
emit this->readyStateChanged(readyState);
}
}
void ScStwRemoteTimer::setState(TimerState newState){
if(this->state != newState) {
this->state = newState;
qDebug() << "+ [INFO][REMOTETIMER] timer state changed: " << newState;
emit this->stateChanged(this->state);
}
}

View file

@ -26,16 +26,23 @@ ScStwLibraries::ScStwLibraries(QObject *parent) : QObject(parent)
void ScStwLibraries::init() {
#ifdef ScStwLibraries_QML
qmlRegisterType<ScStw>("de.itsblue.ScStw", 2, 0, "ScStw");
qRegisterMetaType<ScStw::BaseStationSetting>("ScStw::BaseStationSetting");
qRegisterMetaType<ScStwSettings::BaseStationSetting>("ScStwSettings::BaseStationSetting");
qRegisterMetaType<ScStw::SocketCommand>("ScStw::SocketCommand");
qRegisterMetaType<ScStw::StatusCode>("ScStw::StatusCode");
qmlRegisterType<ScStwRace>("de.itsblue.ScStw", 2, 0, "ScStwRace");
qmlRegisterType<ScStwTimer>("de.itsblue.ScStw", 2, 0, "ScStwTimer");
#ifdef ScStwLibraries_ClientLibs
qmlRegisterType<ScStwClient>("de.itsblue.ScStw", 2, 0, "ScStwClient");
qmlRegisterType<ScStwSettings>("de.itsblue.ScStw", 2, 0, "ScStwSettings");
qmlRegisterUncreatableType<ScStwSetting>("de.itsblue.ScStw", 2, 0, "ScStwSetting", "The ScStwSetting is manage by a ScStwSettings instance and therefore not creatable");
qmlRegisterType<ScStwRemoteRace>("de.itsblue.ScStw", 2, 0, "ScStwRemoteRace");
qmlRegisterType<ScStwRemoteSettings>("de.itsblue.ScStw", 2, 0, "ScStwRemoteSettings");
#endif
#endif
qRegisterMetaType<ScStw::PadState>("ScStw::PadState");
}

File diff suppressed because it is too large Load diff

View file

@ -0,0 +1,59 @@
/****************************************************************************
** ScStw Libraries
** Copyright (C) 2020 Itsblue development
**
** This program is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
#include "scstwsetting.h"
#include "scstwsettings.h"
#include <QtDebug>
ScStwSetting::ScStwSetting(int key, int keyLevel, ScStwSettings*scStwSettings, QObject *parent) : QObject(parent)
{
this->scStwSettings = scStwSettings;
connect(this->scStwSettings, &ScStwSettings::settingChanged, this, &ScStwSetting::handleSettingChange);
this->key = key;
this->keyLevel = keyLevel;
this->handleSettingChange(-1, this->keyLevel, QVariant());
}
QVariant ScStwSetting::getValue() {
qDebug() << "Getting setting: " << this->key << " has to reload: " << this->hasToReload;
if(this->hasToReload) {
this->valueCache = this->scStwSettings->readSetting(this->key, this->keyLevel);
this->hasToReload = false;
}
return this->valueCache;
}
void ScStwSetting::setValue(QVariant value) {
if(value != this->valueCache) {
this->scStwSettings->writeSetting(this->key, this->keyLevel, value);
}
}
void ScStwSetting::handleSettingChange(int key, int keyLevel, QVariant value) {
if(keyLevel == this->keyLevel && key == this->key) {
this->valueCache = value;
qDebug() << "value changed!!! key: " << key << " new value " << value;
emit this->valueChanged();
}
else if(key == -1 && this->key != -1 && this->keyLevel != -1 && this->keyLevel == keyLevel) {
qDebug() << "value changed!!! key: " << key << " new value " << value;
this->hasToReload = true;
emit this->valueChanged();
}
}

View file

@ -0,0 +1,165 @@
/****************************************************************************
** ScStw Libraries
** Copyright (C) 2020 Itsblue development
**
** This program is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
#include "../headers/scstwsettings.h"
ScStwSettings::ScStwSettings(QObject *parent) : QObject(parent)
{
#ifdef RASPI
QString path = "/root/.config/ScStwBasestation";
#else
QString path = QStandardPaths::writableLocation(QStandardPaths::AppConfigLocation);
#endif
QDir dir(path);
if(!dir.mkpath(path))
qFatal("[FATAL] Failed to create writable directory for settings at %s", qPrintable(path));
this->settingsFile = new QFile(path + "/settings.json");
if(!this->settingsFile->open(QFile::ReadWrite))
qFatal("[FATAL] Couldn't open settings file %s", qPrintable(path + "/settings.json"));
if(!this->loadSettingsFromFile() && this->settingsFile->size() != 0) {
this->writeSettingsToFile();
qWarning("[WARNING] Settings file (%s) was of invalid format and therefore overwritten!", qPrintable(path + "/settings.json"));
}
connect(this, &ScStwSettings::settingChanged, this, &ScStwSettings::writeSettingsToFile);
this->registerKeyLevelConverters(ScStwSettings::KeyLevel, &ScStwSettings::keyToString, &ScStwSettings::keyToType);
this->setDefaultSetting(ScStwSettings::BaseStationSetting::ReadySoundEnableSetting, false);
this->setDefaultSetting(ScStwSettings::BaseStationSetting::ReadySoundDelaySetting, 0);
this->setDefaultSetting(ScStwSettings::BaseStationSetting::AtYourMarksSoundEnableSetting, false);
this->setDefaultSetting(ScStwSettings::BaseStationSetting::AtYourMarksSoundDelaySetting, 0);
this->setDefaultSetting(ScStwSettings::SoundVolumeSetting, 1);
this->setDefaultSetting(ScStwSettings::CompetitionModeSetting, false);
}
QVariant ScStwSettings::readSetting(BaseStationSetting key) {
return this->readSetting(key, 0);
}
QVariant ScStwSettings::readSetting(int key, int keyLevel) {
if(this->keyToStringConverters.contains(keyLevel))
return this->readSetting(this->keyToStringConverters[keyLevel](key), key, keyLevel);
else
return QVariant();
}
bool ScStwSettings::writeSetting(BaseStationSetting key, QVariant value) {
return this->writeSetting(key, 0, value);
}
bool ScStwSettings::writeSetting(int key, int keyLevel, QVariant value) {
if(this->keyToStringConverters.contains(keyLevel))
return this->writeSetting(this->keyToStringConverters[keyLevel](key), value, key, keyLevel);
else
return false;
}
bool ScStwSettings::setDefaultSetting(BaseStationSetting key, QVariant defaultValue) {
return this->setDefaultSetting(key, 0, defaultValue);
}
bool ScStwSettings::setDefaultSetting(int key, int keyLevel, QVariant defaultValue) {
if(this->keyToStringConverters.contains(keyLevel))
return this->setDefaultSetting(this->keyToStringConverters[keyLevel](key), defaultValue, key, keyLevel);
else
return false;
}
QVariant ScStwSettings::readSetting(QString key, int keyInt, int keyLevel) {
Q_UNUSED(keyInt)
Q_UNUSED(keyLevel)
if(this->settingsCache.contains(key))
return this->settingsCache[key];
else
return QVariant();
}
bool ScStwSettings::writeSetting(QString key, QVariant value, int keyInt, int keyLevel) {
// check if the value type is valid
if(!this->keyToTypeConverters.contains(keyLevel) || !value.convert(this->keyToTypeConverters[keyLevel](keyInt)) || value.type() == QVariant::Invalid) {
return false;
}
// write the setting
if(!this->settingsCache.contains(key))
this->settingsCache.insert(key, value);
else if (this->settingsCache[key] == value)
return true;
else
this->settingsCache[key] = value;
emit this->settingChanged(keyInt, keyLevel, value);
return true;
}
bool ScStwSettings::setDefaultSetting(QString key, QVariant defaultValue, int keyInt, int keyLevel) {
if(!this->settingsCache.contains(key))
return this->writeSetting(key, defaultValue, keyInt, keyLevel);
return true;
}
ScStwSetting * ScStwSettings::getSetting(int key, int keyLevel) {
if(!this->internalSettingHandlers.contains(keyLevel))
this->internalSettingHandlers.insert(keyLevel, {});
if(!this->internalSettingHandlers[keyLevel].contains(key))
this->internalSettingHandlers[keyLevel].insert(key, new ScStwSetting(key, keyLevel, this, this));
return this->internalSettingHandlers[keyLevel][key];
}
bool ScStwSettings::registerKeyLevelConverters(int keyLevel, keyToStringConverter keyToStringConverterFunction, keyToTypeConverter keyToTypeConverterFunction) {
if(this->keyToStringConverters.contains(keyLevel))
return false;
this->keyToStringConverters.insert(keyLevel, keyToStringConverterFunction);
this->keyToTypeConverters.insert(keyLevel, keyToTypeConverterFunction);
return true;
}
/*
* File handling
*/
bool ScStwSettings::writeSettingsToFile() {
QJsonDocument doc = QJsonDocument::fromVariant(this->settingsCache);
// overwrite file
this->settingsFile->reset();
this->settingsFile->write(doc.toJson(QJsonDocument::Indented));
this->settingsFile->flush();
return true;
}
bool ScStwSettings::loadSettingsFromFile() {
QJsonDocument doc = QJsonDocument::fromJson(this->settingsFile->readAll());
if(doc.toVariant().type() != QVariant::Map)
return false;
this->settingsCache = doc.toVariant().toMap();
return true;
}

View file

@ -23,45 +23,46 @@ ScStwSoundPlayer::ScStwSoundPlayer(QObject *parent) : QObject(parent)
this->waitLoop = new QEventLoop(this);
this->waitTimer = new QTimer(this);
this->soundFiles.insert(0, {{"path","qrc:/sound/AtYourMarksSound.wav"}, {"duration", 1000}});
this->soundFiles.insert(1, {{"path","qrc:/sound/ReadySound.wav"}, {"duration", 570}});
this->soundFiles.insert(2, {{"path","qrc:/sound/StartsignalSoundExtended.wav"}, {"duration", 3200}});
this->soundFiles.insert(3, {{"path","qrc:/sound/FalseStartSound.wav"}, {"duration", 2000}});
this->soundFiles.insert(AtYourMarks, {{"path","qrc:/sound/AtYourMarksSound.wav"}, {"duration", 1000}});
this->soundFiles.insert(Ready, {{"path","qrc:/sound/ReadySound.wav"}, {"duration", 570}});
this->soundFiles.insert(Start, {{"path","qrc:/sound/StartsignalSoundExtended.wav"}, {"duration", 3200}});
this->soundFiles.insert(FalseStart, {{"path","qrc:/sound/FalseStartSound.wav"}, {"duration", 2000}});
this->soundEffect = new QSoundEffect(this);
this->soundEffect->setLoopCount(1);
this->_initializeSondEffect();
connect(this, &ScStwSoundPlayer::playbackStarted, this->waitLoop, &QEventLoop::quit);
connect(this->soundEffect, &QSoundEffect::playingChanged, this->waitLoop, &QEventLoop::quit);
}
bool ScStwSoundPlayer::play(int action, double volume, double *timeOfStart) {
if(!this->soundFiles.contains(action))
return false;
if(action > 2 || action < 0)
return false;
ScStwSoundPlayer::PlayResult ScStwSoundPlayer::play(ScStwSoundPlayer::StartSound sound, double volume, double *timeOfStart) {
if(!this->soundFiles.contains(sound)) {
qDebug() << "[ERROR][SoundPlayer] Sound file was not found for sound" << sound;
return ScStwSoundPlayer::Error;
}
// stop playback
if(this->soundEffect->isPlaying())
this->soundEffect->stop();
// update currently playing action
this->currentlyPlayingAction = action;
this->currentlyPlayingSound = sound;
// update volume
this->soundEffect->setVolume(volume);
if(!this->_setSoundVolume(volume))
return Error;
// load
this->soundEffect->setSource(this->soundFiles[action]["path"].toString());
this->soundEffect->setSource(this->soundFiles[sound]["path"].toString());
// wait for the effect to load
QEventLoop loop;
while(this->soundEffect->status() != QSoundEffect::Ready) {
qDebug() << "[DEBUG][Sound] Sound is not ready yet, status is: " << this->soundEffect->status();
QObject::connect(this->soundEffect, &QSoundEffect::statusChanged, &loop, &QEventLoop::quit);
loop.exec();
}
qDebug() << "[DEBUG][Sound] Playing sound now: " << sound;
// start
this->soundEffect->play();
@ -76,45 +77,34 @@ bool ScStwSoundPlayer::play(int action, double volume, double *timeOfStart) {
*timeOfStart = this->playingStartedAt;
}
if(action < 2)
if(sound < Start)
return this->waitForSoundFinish();
return true;
return ScStwSoundPlayer::Success;
}
bool ScStwSoundPlayer::cancel(double volume) {
bool ScStwSoundPlayer::cancel() {
if(!this->soundEffect->isPlaying() )
return false;
// stop playback
this->soundEffect->stop();
this->waitLoop->quit();
if(this->currentlyPlayingAction != 2)
return true;
// update volume
this->soundEffect->setVolume(volume);
// load
this->soundEffect->setSource(this->soundFiles[3]["path"].toString());
// play
this->soundEffect->play();
this->waitLoop->exit(-1);
return true;
}
bool ScStwSoundPlayer::waitForSoundFinish(double *timeOfStop) {
ScStwSoundPlayer::PlayResult ScStwSoundPlayer::waitForSoundFinish(double *timeOfStop) {
if(!this->soundEffect->isPlaying())
return false;
return ScStwSoundPlayer::Error;
// wait until the audio output reports the sound is over
waitLoop->exec();
if(waitLoop->exec() == -1)
return ScStwSoundPlayer::Cancelled;
// wait until the sound is actually over
// the timeOffset is the buffer time before the audio started!
int timeOffset = this->soundFiles[this->currentlyPlayingAction]["duration"].toDouble() - (QDateTime::currentMSecsSinceEpoch() - playingStartedAt);
int timeOffset = this->soundFiles[this->currentlyPlayingSound]["duration"].toDouble() - (QDateTime::currentMSecsSinceEpoch() - playingStartedAt);
if(timeOffset > 0) {
QTimer timer;
@ -124,9 +114,99 @@ bool ScStwSoundPlayer::waitForSoundFinish(double *timeOfStop) {
// calculate the point in time where the sound playback actually ended
if(timeOfStop != nullptr) {
int latency = this->playingStartedAt + this->soundFiles[this->currentlyPlayingAction]["duration"].toDouble();
int latency = this->playingStartedAt + this->soundFiles[this->currentlyPlayingSound]["duration"].toDouble();
*timeOfStop = QDateTime::currentMSecsSinceEpoch() - latency;
}
return ScStwSoundPlayer::Success;
}
bool ScStwSoundPlayer::isPlaying() {
return this->soundEffect->isPlaying();
}
#ifdef ScStwLibraries_Raspi
void ScStwSoundPlayer::_initializeSondEffect() {
this->_audioOutputDevice = nullptr;
for(QAudioDeviceInfo info : QAudioDeviceInfo::availableDevices(QAudio::AudioOutput)) {
qDebug() << info.deviceName();
if(info.deviceName().contains("Headphones"))
this->_audioOutputDevice = new QAudioDeviceInfo(info);
}
if(this->_audioOutputDevice == nullptr)
this->_audioOutputDevice = new QAudioDeviceInfo(QAudioDeviceInfo::defaultOutputDevice());
this->soundEffect = new QSoundEffect(*this->_audioOutputDevice, this);
this->soundEffect->setLoopCount(1);
}
#else
void ScStwSoundPlayer::_initializeSondEffect() {
this->_audioOutputDevice = new QAudioDeviceInfo(QAudioDeviceInfo::defaultOutputDevice());
this->soundEffect = new QSoundEffect(*this->_audioOutputDevice, this);
this->soundEffect->setLoopCount(1);
}
#endif
#ifdef ScStwLibraries_Raspi
bool ScStwSoundPlayer::_setSoundVolume(double volume) {
QString cardName = this->_audioOutputDevice->deviceName();
QStringRef shortCardName = cardName.midRef(cardName.indexOf(QLatin1String("="), 0) + 1);
int cardIndex = snd_card_get_index(shortCardName.toLocal8Bit().constData());
QString soundDevice = QString(QLatin1String("hw:%1")).arg(cardIndex);
qDebug() << "[INFO][SoundPlayer] Using audio device: " << soundDevice;
long min, max;
snd_mixer_t *handle;
snd_mixer_selem_id_t *sid;
snd_mixer_elem_t *elem;
if(snd_mixer_open(&handle, 0) < 0) {
qDebug() << "[ERROR][SoundPlayer] Could not open mixer";
return false;
}
if(snd_mixer_selem_register(handle, NULL, NULL) < 0) {
qDebug() << "[ERROR][SoundPlayer] Could not register selem";
return false;
}
if(snd_mixer_attach(handle, soundDevice.toStdString().c_str()) < 0) {
qDebug() << "[ERROR][SoundPlayer] Could not attach mixer";
return false;
}
if(snd_mixer_load(handle) < 0) {
qDebug() << "[ERROR][SoundPlayer] Could not load mixer";
return false;
}
// set volume for all channels
snd_mixer_selem_id_alloca(&sid);
bool success = false;
for (elem = snd_mixer_first_elem(handle); elem; elem = snd_mixer_elem_next(elem)) {
snd_mixer_selem_get_id(elem, sid);
if (!snd_mixer_selem_is_active(elem))
continue;
elem = snd_mixer_find_selem(handle, sid);
if(!elem)
continue;
snd_mixer_selem_get_playback_volume_range(elem, &min, &max);
snd_mixer_selem_set_playback_volume_all(elem, min + (volume) * (max - min));
success = true;
}
snd_mixer_close(handle);
this->soundEffect->setVolume(1);
return success;
}
#else
bool ScStwSoundPlayer::_setSoundVolume(double volume) {
this->soundEffect->setVolume(volume);
return true;
}
#endif

View file

@ -18,18 +18,23 @@
#include "../headers/scstwtimer.h"
ScStwTimer::ScStwTimer(QObject *parent, bool directControlEnabled, QString letter) : QObject(parent)
ScStwTimer::ScStwTimer(QObject* parent) : ScStwTimer("", parent)
{
this->directControlEnabled = directControlEnabled;
}
ScStwTimer::ScStwTimer(QString letter, QObject *parent) : QObject(parent)
{
if(letter.length() > 1)
this->letter = letter[0];
else
this->letter = letter;
//qDebug() << "Timer created with letter: " << letter;
this->startTime = 0;
this->stopTime = 0;
this->reactionTime = 0;
this->wantsToBeDisabled = false;
this->state = IDLE;
}
@ -48,7 +53,7 @@ bool ScStwTimer::start(double timeOfStart) {
if(timeOfStart - QDateTime::currentMSecsSinceEpoch() > 0) {
this->setState(STARTING);
QTimer::singleShot(timeOfStart - QDateTime::currentMSecsSinceEpoch(), [=](){
QTimer::singleShot(timeOfStart - QDateTime::currentMSecsSinceEpoch(), [=]() {
if(this->state == STARTING)
this->setState(RUNNING);
});
@ -64,13 +69,27 @@ bool ScStwTimer::start(double timeOfStart) {
}
}
void ScStwTimer::technicalIncident() {
qDebug() << "[INFO][TIMER] Timer got a technical incident";
this->setState(INCIDENT);
}
bool ScStwTimer::wildcard() {
if(this->state != STARTING)
return false;
this->setState(WILDCARD);
return true;
}
void ScStwTimer::handleClimberStart(double timeOfStart) {
this->reactionTime = timeOfStart - this->startTime;
qDebug() << "+ [INFO][TIMER] reaction time: " << this->reactionTime;
if(this->reactionTime <= 0){
this->stop(FailStop);
return;
if(this->reactionTime <= 100 && this->reactionTime) {
qDebug() << "[INFO][TIMER] False Start detected: " << "start Time: " << startTime << " reactionTime: " << reactionTime;
this->setState(FAILING);
}
emit this->reactionTimeChanged();
@ -80,6 +99,11 @@ bool ScStwTimer::cancel() {
if(!(this->state == IDLE || this->state == STARTING || this->state == RUNNING))
return false;
qDebug() << "[INFO][TIMER] Timer was cancelled";
this->reactionTime = 0;
this->startTime = 0;
this->stopTime = 0;
this->setState(CANCELLED);
return true;
}
@ -89,63 +113,66 @@ bool ScStwTimer::stop() {
}
bool ScStwTimer::stop(double timeOfStop) {
return this->stop(ManualStop, timeOfStop);
}
bool ScStwTimer::stop(StopReason reason) {
return this->stop(reason, QDateTime::currentMSecsSinceEpoch());
}
bool ScStwTimer::stop(StopReason reason, double timeOfStop) {
if(this->state != STARTING && this->state != RUNNING && this->state != WAITING){
if(this->state != RUNNING)
return false;
}
switch (reason) {
case ManualStop: {
if(this->state == STARTING){
this->setState(CANCELLED);
}
else {
this->stopTime = timeOfStop;
this->stopTime = timeOfStop;
// trigger an external state refresh to set the state to either WON or LOST depending on the other timers values (see ScStwRace::refreshTimerStates())
this->setState(WAITING);
}
break;
}
case FailStop: {
qDebug() << "[INFO][TIMER] False Start detected: " << "start Time: " << startTime << " reactionTime: " << reactionTime;
this->setState(FAILED);
break;
}
default: {
return false;
}
}
// trigger an external state refresh to set the state to either WON or LOST depending on the other timers values (see ScStwRace::refreshTimerStates())
this->setState(WAITING);
qDebug() << "[INFO][TIMER] Stopped: " << "start Time: " << startTime << " stopTime: " << stopTime << " stoppedTime: " << this->getCurrentTime() << " reactionTime: " << reactionTime;
return true;
}
bool ScStwTimer::setResult(TimerState result) {
if(this->state != WAITING)
QList<ScStwTimer::TimerState> allowedStates = {
STARTING,
RUNNING,
WAITING,
WON,
FAILING,
FAILED
};
if(!allowedStates.contains(this->state))
return false;
/* The reasons why it has to accept all these states:
*
* STARTING: To set a timer to WILDCARD when its opponent has done a false start
* RUNNING: To set a timer to WILDCARD when its opponent has done a false start that was received with a delay
* WAITING: To set a timer to either WON or LOST
* WON: To set a timer to LOST when its opponent has won the race but their trigger was delayed
* FAILING: To set a timer to either FAILED or WILDCARD
* FAILED: To set a timer to WILDCARD when its opponent did an earlier false start but their tirgger was delayed
*/
switch (result) {
case WON:
this->setState(WON);
return true;
case LOST:
this->setState(LOST);
return true;
case WON:
if(this->state == WAITING || this->state == WON) {
this->setState(result);
return true;
}
break;
case WILDCARD:
case FAILED:
if(this->state == STARTING || this->state == RUNNING || this->state == FAILED || this->state == FAILING) {
this->setState(result);
return true;
}
break;
default:
return false;
break;
}
return false;
}
bool ScStwTimer::reset(){
if( this->state < WON || this->state == DISABLED ){
bool ScStwTimer::reset() {
if( this->state < WON || this->state == DISABLED ) {
return false;
}
@ -157,61 +184,28 @@ bool ScStwTimer::reset(){
return true;
}
ScStwTimer::ReadyState ScStwTimer::getReadyState() {
return this->state == IDLE ? ScStwTimer::IsReady : ScStwTimer::NotInIdleState;
}
// ------------------------
// --- helper functions ---
// ------------------------
bool ScStwTimer::setStartTime(double startTime) {
if(!this->directControlEnabled)
return false;
this->startTime = startTime;
return true;
}
bool ScStwTimer::setStopTime(double stopTime) {
if(!this->directControlEnabled)
return false;
this->stopTime = stopTime;
return true;
}
bool ScStwTimer::setReactionTime(double reactionTime) {
if(!this->directControlEnabled)
return false;
this->reactionTime = reactionTime;
return true;
}
bool ScStwTimer::setState(TimerState newState, bool force) {
if(!this->directControlEnabled || !force)
return false;
this->setState(newState);
return true;
}
void ScStwTimer::setState(TimerState newState){
void ScStwTimer::setState(TimerState newState) {
if(this->state == DISABLED && newState != IDLE)
return;
if(this->state == INCIDENT && newState != IDLE)
return;
if(this->state != newState) {
this->state = newState;
qDebug() << "+ [INFO][TIMER] timer state changed: " << newState;
emit this->stateChanged();
qDebug() << "[INFO][TIMER] timer state changed: " << newState;
emit this->stateChanged(newState);
}
}
bool ScStwTimer::setLetter(QString newLetter) {
if(!this->directControlEnabled)
return false;
this->letter = newLetter;
return true;
}
ScStwTimer::TimerState ScStwTimer::getState() {
return this->state;
}
@ -238,7 +232,6 @@ QString ScStwTimer::getLetter() {
}
QString ScStwTimer::getText() {
QString newText = "";
int newTime = 0;
switch (this->state) {
@ -248,24 +241,33 @@ QString ScStwTimer::getText() {
case ScStwTimer::STARTING:
newTime = 0;
break;
case ScStwTimer::WAITING:
newText = "please wait...";
break;
case ScStwTimer::RUNNING:
newTime = this->getCurrentTime();
break;
case ScStwTimer::WAITING:
newText = "please wait...";
break;
case ScStwTimer::WON:
newTime = this->getCurrentTime();
break;
case ScStwTimer::LOST:
newTime = this->getCurrentTime();
break;
case ScStwTimer::FAILING:
newText = "please wait...";
break;
case ScStwTimer::FAILED:
newText = "false start";
break;
case ScStwTimer::WILDCARD:
newText = "wildcard";
break;
case ScStwTimer::CANCELLED:
newText = "cancelled";
break;
case ScStwTimer::INCIDENT:
newText = "Technical incident!";
break;
case ScStwTimer::DISABLED:
newText = "---";
break;
@ -278,8 +280,37 @@ QString ScStwTimer::getText() {
}
void ScStwTimer::setDisabled(bool disabled) {
if(this->isDisabled() == disabled)
return;
if(disabled)
this->setState(DISABLED);
else
this->setState(IDLE);
emit this->readyStateChanged(this->getReadyState());
}
void ScStwTimer::setWantsToBeDisabled(bool wantsToBeDisabled) {
if(this->wantsToBeDisabled == wantsToBeDisabled)
return;
qDebug() << "Wants to be disabled changed: " << wantsToBeDisabled;
this->wantsToBeDisabled = wantsToBeDisabled;
emit this->wantsToBeDisabledChanged(this, wantsToBeDisabled);
}
bool ScStwTimer::getWantsToBeDisabled() {
return this->wantsToBeDisabled;
}
bool ScStwTimer::isRunning() {
return this->state == RUNNING;
}
bool ScStwTimer::isDisabled() {
return this->state == DISABLED;
}

View file

@ -116,7 +116,7 @@ ScStwAppThemeManager::ScStwAppThemeManager(QObject *parent) : QObject(parent)
{"success", "#6bd43b"},
{"error", "#e03b2f"},
{"warning", "#e0b928"},
{"warning", "#d6ae1e"},
{"line", "grey"},
@ -174,3 +174,7 @@ QString ScStwAppThemeManager::lighter(QString color, double factor) {
qcolor.setHsv(h,s,v * factor);
return qcolor.name();
}
QString ScStwAppThemeManager::getThemeName() {
return this->currentTheme->getName();
}

1
qt-openssl-encryption Submodule

@ -0,0 +1 @@
Subproject commit 05fbf562c3435f3bbff10a68c031ff465e81d337