keychron_qmk_firmware/quantum/wear_leveling/tests/backing_mocks.hpp

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// Copyright 2022 Nick Brassel (@tzarc)
// SPDX-License-Identifier: GPL-2.0-or-later
#pragma once
#include <algorithm>
#include <array>
#include <cstdint>
#include <cstdlib>
#include <functional>
#include <type_traits>
#include <vector>
extern "C" {
#include "fnv.h"
#include "wear_leveling.h"
#include "wear_leveling_internal.h"
};
// Maximum number of mock write log entries to keep
using MOCK_WRITE_LOG_MAX_ENTRIES = std::integral_constant<std::size_t, 1024>;
// Complement to the backing store integral, for emulating flash erases of all bytes=0xFF
using BACKING_STORE_INTEGRAL_COMPLEMENT = std::integral_constant<backing_store_int_t, ((backing_store_int_t)(~(backing_store_int_t)0))>;
// Total number of elements stored in the backing arrays
using BACKING_STORE_ELEMENT_COUNT = std::integral_constant<std::size_t, (WEAR_LEVELING_BACKING_SIZE / sizeof(backing_store_int_t))>;
class MockBackingStoreElement {
private:
backing_store_int_t value;
std::size_t writes;
std::size_t erases;
public:
MockBackingStoreElement() : value(BACKING_STORE_INTEGRAL_COMPLEMENT::value), writes(0), erases(0) {}
void reset() {
erase();
writes = 0;
erases = 0;
}
void erase() {
if (!is_erased()) {
++erases;
}
value = BACKING_STORE_INTEGRAL_COMPLEMENT::value;
}
backing_store_int_t get() const {
return value;
}
void set(const backing_store_int_t& v) {
EXPECT_TRUE(is_erased()) << "Attempted write at index which isn't empty.";
value = v;
++writes;
}
std::size_t num_writes() const {
return writes;
}
std::size_t num_erases() const {
return erases;
}
bool is_erased() const {
return value == BACKING_STORE_INTEGRAL_COMPLEMENT::value;
}
};
struct MockBackingStoreLogEntry {
MockBackingStoreLogEntry(uint32_t address, backing_store_int_t value) : address(address), value(value), erased(false) {}
MockBackingStoreLogEntry(bool erased) : address(0), value(0), erased(erased) {}
uint32_t address = 0; // The address of the operation
backing_store_int_t value = 0; // The value of the operation
bool erased = false; // Whether the entire backing store was erased
};
class MockBackingStore {
private:
MockBackingStore() {
reset_instance();
}
// Type containing each of the entries and the write counts
using storage_t = std::array<MockBackingStoreElement, BACKING_STORE_ELEMENT_COUNT::value>;
// Whether the backing store is locked
bool locked;
// The actual data stored in the emulated flash
storage_t backing_storage;
// The number of erase cycles that have occurred
std::uint64_t backing_erasure_count;
// The max number of writes to an element of the backing store
std::uint64_t backing_max_write_count;
// The total number of writes to all elements of the backing store
std::uint64_t backing_total_write_count;
// The write log for the backing store
std::vector<MockBackingStoreLogEntry> write_log;
// The number of times each API was invoked
std::uint64_t backing_init_invoke_count;
std::uint64_t backing_unlock_invoke_count;
std::uint64_t backing_erase_invoke_count;
std::uint64_t backing_write_invoke_count;
std::uint64_t backing_lock_invoke_count;
// Whether init should succeed
std::function<bool(std::uint64_t)> init_success_callback;
// Whether erase should succeed
std::function<bool(std::uint64_t)> erase_success_callback;
// Whether unlocks should succeed
std::function<bool(std::uint64_t)> unlock_success_callback;
// Whether writes should succeed
std::function<bool(std::uint64_t, std::uint32_t)> write_success_callback;
// Whether locks should succeed
std::function<bool(std::uint64_t)> lock_success_callback;
template <typename... Args>
void append_log(Args&&... args) {
if (write_log.size() < MOCK_WRITE_LOG_MAX_ENTRIES::value) {
write_log.emplace_back(std::forward<Args>(args)...);
}
}
public:
static MockBackingStore& Instance() {
static MockBackingStore instance;
return instance;
}
std::uint64_t erasure_count() const {
return backing_erasure_count;
}
std::uint64_t max_write_count() const {
return backing_max_write_count;
}
std::uint64_t total_write_count() const {
return backing_total_write_count;
}
// The number of times each API was invoked
std::uint64_t init_invoke_count() const {
return backing_init_invoke_count;
}
std::uint64_t unlock_invoke_count() const {
return backing_unlock_invoke_count;
}
std::uint64_t erase_invoke_count() const {
return backing_erase_invoke_count;
}
std::uint64_t write_invoke_count() const {
return backing_write_invoke_count;
}
std::uint64_t lock_invoke_count() const {
return backing_lock_invoke_count;
}
// Clear out the internal data for the next run
void reset_instance();
bool is_locked() const {
return locked;
}
// APIs for the backing store
bool init();
bool unlock();
bool erase();
bool write(std::uint32_t address, backing_store_int_t value);
bool lock();
bool read(std::uint32_t address, backing_store_int_t& value) const;
// Control over when init/writes/erases should succeed
void set_init_callback(std::function<bool(std::uint64_t)> callback) {
init_success_callback = callback;
}
void set_erase_callback(std::function<bool(std::uint64_t)> callback) {
erase_success_callback = callback;
}
void set_unlock_callback(std::function<bool(std::uint64_t)> callback) {
unlock_success_callback = callback;
}
void set_write_callback(std::function<bool(std::uint64_t, std::uint32_t)> callback) {
write_success_callback = callback;
}
void set_lock_callback(std::function<bool(std::uint64_t)> callback) {
lock_success_callback = callback;
}
auto storage_begin() const -> decltype(backing_storage.begin()) {
return backing_storage.begin();
}
auto storage_end() const -> decltype(backing_storage.end()) {
return backing_storage.end();
}
auto storage_begin() -> decltype(backing_storage.begin()) {
return backing_storage.begin();
}
auto storage_end() -> decltype(backing_storage.end()) {
return backing_storage.end();
}
auto log_begin() -> decltype(write_log.begin()) {
return write_log.begin();
}
auto log_end() -> decltype(write_log.end()) {
return write_log.end();
}
auto log_begin() const -> decltype(write_log.begin()) {
return write_log.begin();
}
auto log_end() const -> decltype(write_log.end()) {
return write_log.end();
}
};