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fortuna/accumulator.h

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handle PRNG state in R_state + accumulator basis * handle the PRNG state with R_state nested class * add a private property R holding PRNG state to Fortuna * add R_state properties as defined in Cryptography Engineering: * a generator instance * a reseed counter * 32 pools that the collected entropy is to be distributed over * add initial definition of the Pool object and its initialization * attempt to initialize PRNG in Fortuna constructor. wrap the initialization call in a try-catch block like a cultured person * erase the string used to print data from random_data() after it's been used
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#ifndef FORTUNA_ACCUMULATOR_H
#define FORTUNA_ACCUMULATOR_H
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#include "event_adder_impl.h"
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#include "generator.h"
handle PRNG state in R_state + accumulator basis * handle the PRNG state with R_state nested class * add a private property R holding PRNG state to Fortuna * add R_state properties as defined in Cryptography Engineering: * a generator instance * a reseed counter * 32 pools that the collected entropy is to be distributed over * add initial definition of the Pool object and its initialization * attempt to initialize PRNG in Fortuna constructor. wrap the initialization call in a try-catch block like a cultured person * erase the string used to print data from random_data() after it's been used
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#include "pool.h"
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chore(accumulator): reorder includes
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#include <fmt/core.h>
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accumulator: use a Generator pointer
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#include <algorithm>
feat: "prepare to add proper entropy source" nits general * make greater use of "this" Fortuna * declare da_pools as a proper std::array of 32 Pool objects * declare da_pools as const * use std::shared_ptr _p_pools to access da_pools and share access to it * reflect change of pools[] -> std::array in how the array elements are accessed, which is a) via _p_pools pointer and b) using ".at(i)" function * pass _p_pools shared_ptr to Accumulator * refactor member function names and variable names * add member function attribute [[optimize_for_synchronized]] * secure conversions with static_cast-s Accumulator * make use of _p_pools * add _p_pools-related member functions * add a static constexpr variable NUM_OF_POOLS UrandomEntropySrc * implement event adding logic using _p_pools * make std::vector<char> non-static in urandom_entropy_src * implement proper urandom entropy source event "sourcing" (from /dev/urandom), event adding, clear bytes array at the end * properly convert using reinterpret_cast * protect access to the main function with std::lock_guard * receive EventAdderImpl as a ref * use return value from "add_entropy()" member function and create sanity guard checking the return code "int ret" EventAdder * pass event (std::vector<char>) by const& EventAdderImpl * make use of _p_pools shared_ptr * implement proper pool-rotating event-adding logic Pool * delete all copy constructors and assignment operator, the objects will not be copied or assigned to * receive parameters by const& where possible/sensible * handle concurrency: * declare std:string s as mutable * declare a rw std::mutex intended for writing and mutable std::recursive_mutex for read-only operations in const member functions ref: https://herbsutter.com/2013/05/24/gotw-6a-const-correctness-part-1-3/ ref: https://arne-mertz.de/2017/10/mutable/ * use std::lock_guard and std::unique_lock * refactor "add_entropy()" member function * get rid of intermediate "event_str" and directly use the "event" std::vector<char> for all operations * add a lock guard to prevent multiple threads (should that route be taken) from modifying pool resources simultaneously * add all_ok bool for basic sanity checking * add print statements (at least for now) * rename "get_s_length()" member function to "get_s_byte_count()" and repurpose it to return byte count of the stored entropy std::string s
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#include <array>
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#include <cstdint>
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#include <exception>
feat: "prepare to add proper entropy source" nits general * make greater use of "this" Fortuna * declare da_pools as a proper std::array of 32 Pool objects * declare da_pools as const * use std::shared_ptr _p_pools to access da_pools and share access to it * reflect change of pools[] -> std::array in how the array elements are accessed, which is a) via _p_pools pointer and b) using ".at(i)" function * pass _p_pools shared_ptr to Accumulator * refactor member function names and variable names * add member function attribute [[optimize_for_synchronized]] * secure conversions with static_cast-s Accumulator * make use of _p_pools * add _p_pools-related member functions * add a static constexpr variable NUM_OF_POOLS UrandomEntropySrc * implement event adding logic using _p_pools * make std::vector<char> non-static in urandom_entropy_src * implement proper urandom entropy source event "sourcing" (from /dev/urandom), event adding, clear bytes array at the end * properly convert using reinterpret_cast * protect access to the main function with std::lock_guard * receive EventAdderImpl as a ref * use return value from "add_entropy()" member function and create sanity guard checking the return code "int ret" EventAdder * pass event (std::vector<char>) by const& EventAdderImpl * make use of _p_pools shared_ptr * implement proper pool-rotating event-adding logic Pool * delete all copy constructors and assignment operator, the objects will not be copied or assigned to * receive parameters by const& where possible/sensible * handle concurrency: * declare std:string s as mutable * declare a rw std::mutex intended for writing and mutable std::recursive_mutex for read-only operations in const member functions ref: https://herbsutter.com/2013/05/24/gotw-6a-const-correctness-part-1-3/ ref: https://arne-mertz.de/2017/10/mutable/ * use std::lock_guard and std::unique_lock * refactor "add_entropy()" member function * get rid of intermediate "event_str" and directly use the "event" std::vector<char> for all operations * add a lock guard to prevent multiple threads (should that route be taken) from modifying pool resources simultaneously * add all_ok bool for basic sanity checking * add print statements (at least for now) * rename "get_s_length()" member function to "get_s_byte_count()" and repurpose it to return byte count of the stored entropy std::string s
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#include <memory>
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#include <vector>
handle PRNG state in R_state + accumulator basis * handle the PRNG state with R_state nested class * add a private property R holding PRNG state to Fortuna * add R_state properties as defined in Cryptography Engineering: * a generator instance * a reseed counter * 32 pools that the collected entropy is to be distributed over * add initial definition of the Pool object and its initialization * attempt to initialize PRNG in Fortuna constructor. wrap the initialization call in a try-catch block like a cultured person * erase the string used to print data from random_data() after it's been used
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namespace fortuna {
namespace accumulator {
class Accumulator {
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private:
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static constexpr const uint8_t MAX_SOURCES{255};
feat: "prepare to add proper entropy source" nits general * make greater use of "this" Fortuna * declare da_pools as a proper std::array of 32 Pool objects * declare da_pools as const * use std::shared_ptr _p_pools to access da_pools and share access to it * reflect change of pools[] -> std::array in how the array elements are accessed, which is a) via _p_pools pointer and b) using ".at(i)" function * pass _p_pools shared_ptr to Accumulator * refactor member function names and variable names * add member function attribute [[optimize_for_synchronized]] * secure conversions with static_cast-s Accumulator * make use of _p_pools * add _p_pools-related member functions * add a static constexpr variable NUM_OF_POOLS UrandomEntropySrc * implement event adding logic using _p_pools * make std::vector<char> non-static in urandom_entropy_src * implement proper urandom entropy source event "sourcing" (from /dev/urandom), event adding, clear bytes array at the end * properly convert using reinterpret_cast * protect access to the main function with std::lock_guard * receive EventAdderImpl as a ref * use return value from "add_entropy()" member function and create sanity guard checking the return code "int ret" EventAdder * pass event (std::vector<char>) by const& EventAdderImpl * make use of _p_pools shared_ptr * implement proper pool-rotating event-adding logic Pool * delete all copy constructors and assignment operator, the objects will not be copied or assigned to * receive parameters by const& where possible/sensible * handle concurrency: * declare std:string s as mutable * declare a rw std::mutex intended for writing and mutable std::recursive_mutex for read-only operations in const member functions ref: https://herbsutter.com/2013/05/24/gotw-6a-const-correctness-part-1-3/ ref: https://arne-mertz.de/2017/10/mutable/ * use std::lock_guard and std::unique_lock * refactor "add_entropy()" member function * get rid of intermediate "event_str" and directly use the "event" std::vector<char> for all operations * add a lock guard to prevent multiple threads (should that route be taken) from modifying pool resources simultaneously * add all_ok bool for basic sanity checking * add print statements (at least for now) * rename "get_s_length()" member function to "get_s_byte_count()" and repurpose it to return byte count of the stored entropy std::string s
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static constexpr const uint8_t NUM_OF_POOLS{32};
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std::vector<uint8_t> entropy_sources{};
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fortuna::generator::Generator* Gen;
feat: "prepare to add proper entropy source" nits general * make greater use of "this" Fortuna * declare da_pools as a proper std::array of 32 Pool objects * declare da_pools as const * use std::shared_ptr _p_pools to access da_pools and share access to it * reflect change of pools[] -> std::array in how the array elements are accessed, which is a) via _p_pools pointer and b) using ".at(i)" function * pass _p_pools shared_ptr to Accumulator * refactor member function names and variable names * add member function attribute [[optimize_for_synchronized]] * secure conversions with static_cast-s Accumulator * make use of _p_pools * add _p_pools-related member functions * add a static constexpr variable NUM_OF_POOLS UrandomEntropySrc * implement event adding logic using _p_pools * make std::vector<char> non-static in urandom_entropy_src * implement proper urandom entropy source event "sourcing" (from /dev/urandom), event adding, clear bytes array at the end * properly convert using reinterpret_cast * protect access to the main function with std::lock_guard * receive EventAdderImpl as a ref * use return value from "add_entropy()" member function and create sanity guard checking the return code "int ret" EventAdder * pass event (std::vector<char>) by const& EventAdderImpl * make use of _p_pools shared_ptr * implement proper pool-rotating event-adding logic Pool * delete all copy constructors and assignment operator, the objects will not be copied or assigned to * receive parameters by const& where possible/sensible * handle concurrency: * declare std:string s as mutable * declare a rw std::mutex intended for writing and mutable std::recursive_mutex for read-only operations in const member functions ref: https://herbsutter.com/2013/05/24/gotw-6a-const-correctness-part-1-3/ ref: https://arne-mertz.de/2017/10/mutable/ * use std::lock_guard and std::unique_lock * refactor "add_entropy()" member function * get rid of intermediate "event_str" and directly use the "event" std::vector<char> for all operations * add a lock guard to prevent multiple threads (should that route be taken) from modifying pool resources simultaneously * add all_ok bool for basic sanity checking * add print statements (at least for now) * rename "get_s_length()" member function to "get_s_byte_count()" and repurpose it to return byte count of the stored entropy std::string s
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std::shared_ptr<std::array<accumulator::Pool, Accumulator::NUM_OF_POOLS>>
_p_pools;
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accumulator: implement add_source()
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protected:
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unsigned int src_count{0};
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chore(accumulator): make use of init_pool_num
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public:
constexpr static const unsigned int init_pool_num{0};
accumulator: add add_source
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feat: "prepare to add proper entropy source" nits general * make greater use of "this" Fortuna * declare da_pools as a proper std::array of 32 Pool objects * declare da_pools as const * use std::shared_ptr _p_pools to access da_pools and share access to it * reflect change of pools[] -> std::array in how the array elements are accessed, which is a) via _p_pools pointer and b) using ".at(i)" function * pass _p_pools shared_ptr to Accumulator * refactor member function names and variable names * add member function attribute [[optimize_for_synchronized]] * secure conversions with static_cast-s Accumulator * make use of _p_pools * add _p_pools-related member functions * add a static constexpr variable NUM_OF_POOLS UrandomEntropySrc * implement event adding logic using _p_pools * make std::vector<char> non-static in urandom_entropy_src * implement proper urandom entropy source event "sourcing" (from /dev/urandom), event adding, clear bytes array at the end * properly convert using reinterpret_cast * protect access to the main function with std::lock_guard * receive EventAdderImpl as a ref * use return value from "add_entropy()" member function and create sanity guard checking the return code "int ret" EventAdder * pass event (std::vector<char>) by const& EventAdderImpl * make use of _p_pools shared_ptr * implement proper pool-rotating event-adding logic Pool * delete all copy constructors and assignment operator, the objects will not be copied or assigned to * receive parameters by const& where possible/sensible * handle concurrency: * declare std:string s as mutable * declare a rw std::mutex intended for writing and mutable std::recursive_mutex for read-only operations in const member functions ref: https://herbsutter.com/2013/05/24/gotw-6a-const-correctness-part-1-3/ ref: https://arne-mertz.de/2017/10/mutable/ * use std::lock_guard and std::unique_lock * refactor "add_entropy()" member function * get rid of intermediate "event_str" and directly use the "event" std::vector<char> for all operations * add a lock guard to prevent multiple threads (should that route be taken) from modifying pool resources simultaneously * add all_ok bool for basic sanity checking * add print statements (at least for now) * rename "get_s_length()" member function to "get_s_byte_count()" and repurpose it to return byte count of the stored entropy std::string s
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auto _p_pools_equal(
std::shared_ptr<std::array<accumulator::Pool,
Accumulator::NUM_OF_POOLS>> p_pools) const
-> bool;
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[[maybe_unused]] auto add_source() -> void {
static unsigned int src_id{this->src_count};
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// make really sure we don't add a duplicate src_id
if (src_id <= this->MAX_SOURCES &&
!src_is_registered(static_cast<uint8_t>(src_id))) {
try {
entropy_sources.push_back(static_cast<uint8_t>(src_id));
++src_count;
feat: "prepare to add proper entropy source" nits general * make greater use of "this" Fortuna * declare da_pools as a proper std::array of 32 Pool objects * declare da_pools as const * use std::shared_ptr _p_pools to access da_pools and share access to it * reflect change of pools[] -> std::array in how the array elements are accessed, which is a) via _p_pools pointer and b) using ".at(i)" function * pass _p_pools shared_ptr to Accumulator * refactor member function names and variable names * add member function attribute [[optimize_for_synchronized]] * secure conversions with static_cast-s Accumulator * make use of _p_pools * add _p_pools-related member functions * add a static constexpr variable NUM_OF_POOLS UrandomEntropySrc * implement event adding logic using _p_pools * make std::vector<char> non-static in urandom_entropy_src * implement proper urandom entropy source event "sourcing" (from /dev/urandom), event adding, clear bytes array at the end * properly convert using reinterpret_cast * protect access to the main function with std::lock_guard * receive EventAdderImpl as a ref * use return value from "add_entropy()" member function and create sanity guard checking the return code "int ret" EventAdder * pass event (std::vector<char>) by const& EventAdderImpl * make use of _p_pools shared_ptr * implement proper pool-rotating event-adding logic Pool * delete all copy constructors and assignment operator, the objects will not be copied or assigned to * receive parameters by const& where possible/sensible * handle concurrency: * declare std:string s as mutable * declare a rw std::mutex intended for writing and mutable std::recursive_mutex for read-only operations in const member functions ref: https://herbsutter.com/2013/05/24/gotw-6a-const-correctness-part-1-3/ ref: https://arne-mertz.de/2017/10/mutable/ * use std::lock_guard and std::unique_lock * refactor "add_entropy()" member function * get rid of intermediate "event_str" and directly use the "event" std::vector<char> for all operations * add a lock guard to prevent multiple threads (should that route be taken) from modifying pool resources simultaneously * add all_ok bool for basic sanity checking * add print statements (at least for now) * rename "get_s_length()" member function to "get_s_byte_count()" and repurpose it to return byte count of the stored entropy std::string s
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EventAdderImpl event_adder(src_id, this->_p_pools);
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[[maybe_unused]] bool scheduled;
}
catch (std::exception& e) {
fmt::print("{}\n", e.what());
}
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}
accumulator: implement add_source()
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}
accumulator: add add_source
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[[maybe_unused]] auto src_is_registered(const uint8_t& id) -> bool;
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feat: "prepare to add proper entropy source" nits general * make greater use of "this" Fortuna * declare da_pools as a proper std::array of 32 Pool objects * declare da_pools as const * use std::shared_ptr _p_pools to access da_pools and share access to it * reflect change of pools[] -> std::array in how the array elements are accessed, which is a) via _p_pools pointer and b) using ".at(i)" function * pass _p_pools shared_ptr to Accumulator * refactor member function names and variable names * add member function attribute [[optimize_for_synchronized]] * secure conversions with static_cast-s Accumulator * make use of _p_pools * add _p_pools-related member functions * add a static constexpr variable NUM_OF_POOLS UrandomEntropySrc * implement event adding logic using _p_pools * make std::vector<char> non-static in urandom_entropy_src * implement proper urandom entropy source event "sourcing" (from /dev/urandom), event adding, clear bytes array at the end * properly convert using reinterpret_cast * protect access to the main function with std::lock_guard * receive EventAdderImpl as a ref * use return value from "add_entropy()" member function and create sanity guard checking the return code "int ret" EventAdder * pass event (std::vector<char>) by const& EventAdderImpl * make use of _p_pools shared_ptr * implement proper pool-rotating event-adding logic Pool * delete all copy constructors and assignment operator, the objects will not be copied or assigned to * receive parameters by const& where possible/sensible * handle concurrency: * declare std:string s as mutable * declare a rw std::mutex intended for writing and mutable std::recursive_mutex for read-only operations in const member functions ref: https://herbsutter.com/2013/05/24/gotw-6a-const-correctness-part-1-3/ ref: https://arne-mertz.de/2017/10/mutable/ * use std::lock_guard and std::unique_lock * refactor "add_entropy()" member function * get rid of intermediate "event_str" and directly use the "event" std::vector<char> for all operations * add a lock guard to prevent multiple threads (should that route be taken) from modifying pool resources simultaneously * add all_ok bool for basic sanity checking * add print statements (at least for now) * rename "get_s_length()" member function to "get_s_byte_count()" and repurpose it to return byte count of the stored entropy std::string s
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auto set_pools_ptr(
std::shared_ptr<
std::array<accumulator::Pool, Accumulator::NUM_OF_POOLS>> p_pools)
-> void;
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auto set_gen(fortuna::generator::Generator& Gen) -> void;
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auto get_random_data(const unsigned int& n_bytes) -> std::string;
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auto call_reseed(const std::string& seed) -> void;
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auto wait_for(const unsigned int& milliseconds) -> void;
accumulator: add wait_for()
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accumulator: add prototypes of service methods
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// spawns the entropy_collector_service and pools_service threads
auto accumulator_service() -> int;
// a long lived thread collecting entropy
// listens on a unix socket, receives events
auto entropy_collector_service() -> int;
auto pools_service() -> int;
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Accumulator() noexcept;
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~Accumulator() noexcept;
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accumulator: move logic to source file
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}; // class Accumulator
handle PRNG state in R_state + accumulator basis * handle the PRNG state with R_state nested class * add a private property R holding PRNG state to Fortuna * add R_state properties as defined in Cryptography Engineering: * a generator instance * a reseed counter * 32 pools that the collected entropy is to be distributed over * add initial definition of the Pool object and its initialization * attempt to initialize PRNG in Fortuna constructor. wrap the initialization call in a try-catch block like a cultured person * erase the string used to print data from random_data() after it's been used
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accumulator: move logic to source file
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} // namespace accumulator
} // namespace fortuna
handle PRNG state in R_state + accumulator basis * handle the PRNG state with R_state nested class * add a private property R holding PRNG state to Fortuna * add R_state properties as defined in Cryptography Engineering: * a generator instance * a reseed counter * 32 pools that the collected entropy is to be distributed over * add initial definition of the Pool object and its initialization * attempt to initialize PRNG in Fortuna constructor. wrap the initialization call in a try-catch block like a cultured person * erase the string used to print data from random_data() after it's been used
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accumulator: move logic to source file
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#endif // FORTUNA_ACCUMULATOR_H
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