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/*
* Copyright 2023 jacqueline <me@jacqueline.id.au>
*
* SPDX-License-Identifier: GPL-3.0-only
*/
#include "nvs.hpp"
#include <stdint.h>
#include <sys/_stdint.h>
#include <cstdint>
#include <memory>
#include "bluetooth.hpp"
#include "bluetooth_types.hpp"
#include "esp_log.h"
#include "nvs.h"
#include "nvs_flash.h"
#include "tasks.hpp"
#include "wm8523.hpp"
namespace drivers {
[[maybe_unused]] static constexpr char kTag[] = "nvm";
static constexpr uint8_t kSchemaVersion = 1;
static constexpr char kKeyVersion[] = "ver";
static constexpr char kKeyBluetoothMac[] = "bt_mac";
static constexpr char kKeyBluetoothName[] = "bt_name";
static constexpr char kKeyOutput[] = "out";
static constexpr char kKeyBrightness[] = "bright";
static constexpr char kKeyAmpMaxVolume[] = "hp_vol_max";
static constexpr char kKeyAmpCurrentVolume[] = "hp_vol";
static constexpr char kKeyAmpLeftBias[] = "hp_bias";
static constexpr char kKeyOnboarded[] = "intro";
static constexpr char kKeyPrimaryInput[] = "in_pri";
static constexpr char kKeyLockPolarity[] = "lockpol";
auto NvsStorage::OpenSync() -> NvsStorage* {
esp_err_t err = nvs_flash_init();
if (err == ESP_ERR_NVS_NO_FREE_PAGES) {
ESP_LOGW(kTag, "partition needs initialisation");
nvs_flash_erase();
err = nvs_flash_init();
}
if (err != ESP_OK) {
ESP_LOGE(kTag, "failed to init nvm");
return nullptr;
}
nvs_handle_t handle;
if ((err = nvs_open("tangara", NVS_READWRITE, &handle)) != ESP_OK) {
ESP_LOGE(kTag, "failed to open nvs namespace");
return nullptr;
}
std::unique_ptr<NvsStorage> instance = std::make_unique<NvsStorage>(handle);
if (instance->SchemaVersionSync() < kSchemaVersion &&
!instance->DowngradeSchemaSync()) {
ESP_LOGW(kTag, "failed to init namespace");
return nullptr;
}
ESP_LOGI(kTag, "nvm storage initialised okay");
return instance.release();
}
NvsStorage::NvsStorage(nvs_handle_t handle) : handle_(handle) {}
NvsStorage::~NvsStorage() {
nvs_close(handle_);
nvs_flash_deinit();
}
auto NvsStorage::DowngradeSchemaSync() -> bool {
ESP_LOGW(kTag, "namespace needs downgrading");
nvs_erase_all(handle_);
nvs_set_u8(handle_, kKeyVersion, kSchemaVersion);
return nvs_commit(handle_);
}
auto NvsStorage::SchemaVersionSync() -> uint8_t {
uint8_t ret;
if (nvs_get_u8(handle_, kKeyVersion, &ret) != ESP_OK) {
return UINT8_MAX;
}
return ret;
}
auto NvsStorage::LockPolarity() -> bool {
uint8_t res;
if (nvs_get_u8(handle_, kKeyLockPolarity, &res) != ESP_OK) {
return false;
}
return res > 0;
}
auto NvsStorage::LockPolarity(bool p) -> bool {
nvs_set_u8(handle_, kKeyLockPolarity, p);
return nvs_commit(handle_) == ESP_OK;
}
auto NvsStorage::PreferredBluetoothDevice()
-> std::optional<bluetooth::MacAndName> {
bluetooth::mac_addr_t mac{0};
size_t size = mac.size();
if (nvs_get_blob(handle_, kKeyBluetoothMac, mac.data(), &size) != ESP_OK) {
return {};
}
size_t name_len = 0;
if (nvs_get_str(handle_, kKeyBluetoothName, NULL, &name_len) != ESP_OK) {
}
char* raw_name = new char[name_len];
if (nvs_get_str(handle_, kKeyBluetoothName, raw_name, &name_len) != ESP_OK) {
delete[] raw_name;
return {};
}
bluetooth::MacAndName out{
.mac = mac,
.name = {raw_name, name_len},
};
delete[] raw_name;
return out;
}
auto NvsStorage::PreferredBluetoothDevice(
std::optional<bluetooth::MacAndName> dev) -> bool {
if (!dev) {
nvs_erase_key(handle_, kKeyBluetoothMac);
nvs_erase_key(handle_, kKeyBluetoothName);
} else {
nvs_set_blob(handle_, kKeyBluetoothMac, dev->mac.data(), dev->mac.size());
nvs_set_str(handle_, kKeyBluetoothName, dev->name.c_str());
}
return nvs_commit(handle_) == ESP_OK;
}
auto NvsStorage::OutputMode() -> Output {
uint8_t out = 0;
nvs_get_u8(handle_, kKeyOutput, &out);
switch (out) {
case static_cast<uint8_t>(Output::kBluetooth):
return Output::kBluetooth;
case static_cast<uint8_t>(Output::kHeadphones):
default:
return Output::kHeadphones;
}
}
auto NvsStorage::OutputMode(Output out) -> bool {
uint8_t as_int = static_cast<uint8_t>(out);
nvs_set_u8(handle_, kKeyOutput, as_int);
return nvs_commit(handle_) == ESP_OK;
}
auto NvsStorage::ScreenBrightness() -> uint_fast8_t {
uint8_t out = 50;
nvs_get_u8(handle_, kKeyBrightness, &out);
return out;
}
auto NvsStorage::ScreenBrightness(uint_fast8_t val) -> bool {
nvs_set_u8(handle_, kKeyBrightness, val);
return nvs_commit(handle_) == ESP_OK;
}
auto NvsStorage::AmpMaxVolume() -> uint16_t {
uint16_t out = wm8523::kDefaultMaxVolume;
nvs_get_u16(handle_, kKeyAmpMaxVolume, &out);
return out;
}
auto NvsStorage::AmpMaxVolume(uint16_t val) -> bool {
nvs_set_u16(handle_, kKeyAmpMaxVolume, val);
return nvs_commit(handle_) == ESP_OK;
}
auto NvsStorage::AmpCurrentVolume() -> uint16_t {
uint16_t out = wm8523::kDefaultVolume;
nvs_get_u16(handle_, kKeyAmpCurrentVolume, &out);
return out;
}
auto NvsStorage::AmpCurrentVolume(uint16_t val) -> bool {
nvs_set_u16(handle_, kKeyAmpCurrentVolume, val);
return nvs_commit(handle_) == ESP_OK;
}
auto NvsStorage::AmpLeftBias() -> int_fast8_t {
int8_t out = 0;
nvs_get_i8(handle_, kKeyAmpLeftBias, &out);
return out;
}
auto NvsStorage::AmpLeftBias(int_fast8_t val) -> bool {
nvs_set_i8(handle_, kKeyAmpLeftBias, val);
return nvs_commit(handle_) == ESP_OK;
}
auto NvsStorage::HasShownOnboarding() -> bool {
uint8_t out = false;
nvs_get_u8(handle_, kKeyOnboarded, &out);
return out;
}
auto NvsStorage::HasShownOnboarding(bool val) -> bool {
nvs_set_u8(handle_, kKeyOnboarded, val);
return nvs_commit(handle_) == ESP_OK;
}
auto NvsStorage::PrimaryInput() -> InputModes {
uint8_t out = 3;
nvs_get_u8(handle_, kKeyPrimaryInput, &out);
switch (out) {
case static_cast<uint8_t>(InputModes::kButtonsOnly):
return InputModes::kButtonsOnly;
case static_cast<uint8_t>(InputModes::kButtonsWithWheel):
return InputModes::kButtonsWithWheel;
case static_cast<uint8_t>(InputModes::kDirectionalWheel):
return InputModes::kDirectionalWheel;
case static_cast<uint8_t>(InputModes::kRotatingWheel):
return InputModes::kRotatingWheel;
default:
return InputModes::kRotatingWheel;
}
}
auto NvsStorage::PrimaryInput(InputModes mode) -> bool {
uint8_t as_int = static_cast<uint8_t>(mode);
nvs_set_u8(handle_, kKeyPrimaryInput, as_int);
return nvs_commit(handle_) == ESP_OK;
}
} // namespace drivers
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