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mirror of synced 2024-12-15 17:21:16 +01:00
ImHex/lib/libimhex/source/api/content_registry.cpp
2023-07-04 22:18:06 +02:00

870 lines
30 KiB
C++

#include <hex/api/content_registry.hpp>
#include <hex/helpers/fs.hpp>
#include <hex/helpers/logger.hpp>
#include <hex/ui/view.hpp>
#include <hex/data_processor/node.hpp>
#include <filesystem>
#include <thread>
#include <nlohmann/json.hpp>
#include <wolv/io/file.hpp>
namespace hex {
namespace ContentRegistry::Settings {
constexpr auto SettingsFile = "settings.json";
namespace impl {
std::map<Category, std::vector<Entry>> &getEntries() {
static std::map<Category, std::vector<Entry>> entries;
return entries;
}
std::map<std::string, std::string> &getCategoryDescriptions() {
static std::map<std::string, std::string> descriptions;
return descriptions;
}
nlohmann::json getSetting(const std::string &unlocalizedCategory, const std::string &unlocalizedName) {
auto &settings = getSettingsData();
if (!settings.contains(unlocalizedCategory)) return {};
if (!settings[unlocalizedCategory].contains(unlocalizedName)) return {};
return settings[unlocalizedCategory][unlocalizedName];
}
nlohmann::json &getSettingsData() {
static nlohmann::json settings;
return settings;
}
void load() {
bool loaded = false;
for (const auto &dir : fs::getDefaultPaths(fs::ImHexPath::Config)) {
wolv::io::File file(dir / SettingsFile, wolv::io::File::Mode::Read);
if (file.isValid()) {
getSettingsData() = nlohmann::json::parse(file.readString());
loaded = true;
break;
}
}
if (!loaded)
store();
}
void store() {
for (const auto &dir : fs::getDefaultPaths(fs::ImHexPath::Config)) {
wolv::io::File file(dir / SettingsFile, wolv::io::File::Mode::Create);
if (file.isValid()) {
file.writeString(getSettingsData().dump(4));
break;
}
}
}
void clear() {
for (const auto &dir : fs::getDefaultPaths(fs::ImHexPath::Config)) {
wolv::io::fs::remove(dir / SettingsFile);
}
}
static auto getCategoryEntry(const std::string &unlocalizedCategory) {
auto &entries = getEntries();
const size_t curSlot = entries.size();
auto found = entries.find(Category { unlocalizedCategory });
if (found == entries.end()) {
auto [iter, _] = entries.emplace(Category { unlocalizedCategory, curSlot }, std::vector<Entry> {});
return iter;
}
return found;
}
}
void add(const std::string &unlocalizedCategory, const std::string &unlocalizedName, i64 defaultValue, const impl::Callback &callback, bool requiresRestart) {
log::debug("Registered new integer setting: [{}]: {}", unlocalizedCategory, unlocalizedName);
impl::getCategoryEntry(unlocalizedCategory)->second.emplace_back(impl::Entry { unlocalizedName, requiresRestart, callback });
auto &json = impl::getSettingsData();
if (!json.contains(unlocalizedCategory))
json[unlocalizedCategory] = nlohmann::json::object();
if (!json[unlocalizedCategory].contains(unlocalizedName) || !json[unlocalizedCategory][unlocalizedName].is_number())
json[unlocalizedCategory][unlocalizedName] = int(defaultValue);
}
void add(const std::string &unlocalizedCategory, const std::string &unlocalizedName, const std::string &defaultValue, const impl::Callback &callback, bool requiresRestart) {
log::debug("Registered new string setting: [{}]: {}", unlocalizedCategory, unlocalizedName);
impl::getCategoryEntry(unlocalizedCategory)->second.emplace_back(impl::Entry { unlocalizedName, requiresRestart, callback });
auto &json = impl::getSettingsData();
if (!json.contains(unlocalizedCategory))
json[unlocalizedCategory] = nlohmann::json::object();
if (!json[unlocalizedCategory].contains(unlocalizedName) || !json[unlocalizedCategory][unlocalizedName].is_string())
json[unlocalizedCategory][unlocalizedName] = std::string(defaultValue);
}
void add(const std::string &unlocalizedCategory, const std::string &unlocalizedName, const std::vector<std::string> &defaultValue, const impl::Callback &callback, bool requiresRestart) {
log::debug("Registered new string array setting: [{}]: {}", unlocalizedCategory, unlocalizedName);
impl::getCategoryEntry(unlocalizedCategory)->second.emplace_back(impl::Entry { unlocalizedName, requiresRestart, callback });
auto &json = impl::getSettingsData();
if (!json.contains(unlocalizedCategory))
json[unlocalizedCategory] = nlohmann::json::object();
if (!json[unlocalizedCategory].contains(unlocalizedName) || !json[unlocalizedCategory][unlocalizedName].is_array())
json[unlocalizedCategory][unlocalizedName] = defaultValue;
}
void addCategoryDescription(const std::string &unlocalizedCategory, const std::string &unlocalizedCategoryDescription) {
impl::getCategoryDescriptions()[unlocalizedCategory] = unlocalizedCategoryDescription;
}
void write(const std::string &unlocalizedCategory, const std::string &unlocalizedName, i64 value) {
auto &json = impl::getSettingsData();
if (!json.contains(unlocalizedCategory))
json[unlocalizedCategory] = nlohmann::json::object();
json[unlocalizedCategory][unlocalizedName] = value;
}
void write(const std::string &unlocalizedCategory, const std::string &unlocalizedName, const std::string &value) {
auto &json = impl::getSettingsData();
if (!json.contains(unlocalizedCategory))
json[unlocalizedCategory] = nlohmann::json::object();
json[unlocalizedCategory][unlocalizedName] = value;
}
void write(const std::string &unlocalizedCategory, const std::string &unlocalizedName, const std::vector<std::string> &value) {
auto &json = impl::getSettingsData();
if (!json.contains(unlocalizedCategory))
json[unlocalizedCategory] = nlohmann::json::object();
json[unlocalizedCategory][unlocalizedName] = value;
}
i64 read(const std::string &unlocalizedCategory, const std::string &unlocalizedName, i64 defaultValue) {
auto &json = impl::getSettingsData();
if (!json.contains(unlocalizedCategory))
return defaultValue;
if (!json[unlocalizedCategory].contains(unlocalizedName))
return defaultValue;
if (!json[unlocalizedCategory][unlocalizedName].is_number())
json[unlocalizedCategory][unlocalizedName] = defaultValue;
return json[unlocalizedCategory][unlocalizedName].get<i64>();
}
std::string read(const std::string &unlocalizedCategory, const std::string &unlocalizedName, const std::string &defaultValue) {
auto &json = impl::getSettingsData();
if (!json.contains(unlocalizedCategory))
return defaultValue;
if (!json[unlocalizedCategory].contains(unlocalizedName))
return defaultValue;
if (!json[unlocalizedCategory][unlocalizedName].is_string())
json[unlocalizedCategory][unlocalizedName] = defaultValue;
return json[unlocalizedCategory][unlocalizedName].get<std::string>();
}
std::vector<std::string> read(const std::string &unlocalizedCategory, const std::string &unlocalizedName, const std::vector<std::string> &defaultValue) {
auto &json = impl::getSettingsData();
if (!json.contains(unlocalizedCategory))
return defaultValue;
if (!json[unlocalizedCategory].contains(unlocalizedName))
return defaultValue;
if (!json[unlocalizedCategory][unlocalizedName].is_array())
json[unlocalizedCategory][unlocalizedName] = defaultValue;
if (!json[unlocalizedCategory][unlocalizedName].array().empty() && !json[unlocalizedCategory][unlocalizedName][0].is_string())
json[unlocalizedCategory][unlocalizedName] = defaultValue;
return json[unlocalizedCategory][unlocalizedName].get<std::vector<std::string>>();
}
}
namespace ContentRegistry::CommandPaletteCommands {
void add(Type type, const std::string &command, const std::string &unlocalizedDescription, const impl::DisplayCallback &displayCallback, const impl::ExecuteCallback &executeCallback) {
log::debug("Registered new command palette command: {}", command);
impl::getEntries().push_back(ContentRegistry::CommandPaletteCommands::impl::Entry { type, command, unlocalizedDescription, displayCallback, executeCallback });
}
void addHandler(Type type, const std::string &command, const impl::QueryCallback &queryCallback, const impl::DisplayCallback &displayCallback) {
log::debug("Registered new command palette command handler: {}", command);
impl::getHandlers().push_back(ContentRegistry::CommandPaletteCommands::impl::Handler { type, command, queryCallback, displayCallback });
}
namespace impl {
std::vector<Entry> &getEntries() {
static std::vector<Entry> commands;
return commands;
}
std::vector<Handler> &getHandlers() {
static std::vector<Handler> commands;
return commands;
}
}
}
namespace ContentRegistry::PatternLanguage {
static std::string getFunctionName(const pl::api::Namespace &ns, const std::string &name) {
std::string functionName;
for (auto &scope : ns)
functionName += scope + "::";
functionName += name;
return functionName;
}
pl::PatternLanguage& getRuntime() {
static PerProvider<pl::PatternLanguage> runtime;
return *runtime;
}
std::mutex& getRuntimeLock() {
static std::mutex runtimeLock;
return runtimeLock;
}
void configureRuntime(pl::PatternLanguage &runtime, prv::Provider *provider) {
runtime.reset();
if (provider != nullptr) {
runtime.setDataSource(provider->getBaseAddress(), provider->getActualSize(),
[provider](u64 offset, u8 *buffer, size_t size) {
provider->read(offset, buffer, size);
},
[provider](u64 offset, const u8 *buffer, size_t size) {
if (provider->isWritable())
provider->write(offset, buffer, size);
}
);
}
runtime.setIncludePaths(fs::getDefaultPaths(fs::ImHexPath::PatternsInclude) | fs::getDefaultPaths(fs::ImHexPath::Patterns));
for (const auto &func : impl::getFunctions()) {
if (func.dangerous)
runtime.addDangerousFunction(func.ns, func.name, func.parameterCount, func.callback);
else
runtime.addFunction(func.ns, func.name, func.parameterCount, func.callback);
}
for (const auto &[name, callback] : impl::getPragmas()) {
runtime.addPragma(name, callback);
}
runtime.addDefine("__IMHEX__");
runtime.addDefine("__IMHEX_VERSION__", ImHexApi::System::getImHexVersion());
}
void addPragma(const std::string &name, const pl::api::PragmaHandler &handler) {
log::debug("Registered new pattern language pragma: {}", name);
impl::getPragmas()[name] = handler;
}
void addFunction(const pl::api::Namespace &ns, const std::string &name, pl::api::FunctionParameterCount parameterCount, const pl::api::FunctionCallback &func) {
log::debug("Registered new pattern language function: {}", getFunctionName(ns, name));
impl::getFunctions().push_back({
ns, name,
parameterCount, func,
false
});
}
void addDangerousFunction(const pl::api::Namespace &ns, const std::string &name, pl::api::FunctionParameterCount parameterCount, const pl::api::FunctionCallback &func) {
log::debug("Registered new dangerous pattern language function: {}", getFunctionName(ns, name));
impl::getFunctions().push_back({
ns, name,
parameterCount, func,
true
});
}
void addVisualizer(const std::string &name, const impl::VisualizerFunctionCallback &function, u32 parameterCount) {
log::debug("Registered new pattern visualizer function: {}", name);
impl::getVisualizers()[name] = impl::Visualizer { parameterCount, function };
}
void addInlineVisualizer(const std::string &name, const impl::VisualizerFunctionCallback &function, u32 parameterCount) {
log::debug("Registered new inline pattern visualizer function: {}", name);
impl::getInlineVisualizers()[name] = impl::Visualizer { parameterCount, function };
}
namespace impl {
std::map<std::string, impl::Visualizer> &getVisualizers() {
static std::map<std::string, impl::Visualizer> visualizers;
return visualizers;
}
std::map<std::string, impl::Visualizer> &getInlineVisualizers() {
static std::map<std::string, impl::Visualizer> visualizers;
return visualizers;
}
std::map<std::string, pl::api::PragmaHandler> &getPragmas() {
static std::map<std::string, pl::api::PragmaHandler> pragmas;
return pragmas;
}
std::vector<impl::FunctionDefinition> &getFunctions() {
static std::vector<impl::FunctionDefinition> functions;
return functions;
}
}
}
namespace ContentRegistry::Views {
namespace impl {
std::map<std::string, std::unique_ptr<View>> &getEntries() {
static std::map<std::string, std::unique_ptr<View>> views;
return views;
}
}
void impl::add(std::unique_ptr<View> &&view) {
log::debug("Registered new view: {}", view->getUnlocalizedName());
impl::getEntries().insert({ view->getUnlocalizedName(), std::move(view) });
}
View* getViewByName(const std::string &unlocalizedName) {
auto &views = impl::getEntries();
if (views.contains(unlocalizedName))
return views[unlocalizedName].get();
else
return nullptr;
}
}
namespace ContentRegistry::Tools {
void add(const std::string &unlocalizedName, const impl::Callback &function) {
log::debug("Registered new tool: {}", unlocalizedName);
impl::getEntries().emplace_back(impl::Entry { unlocalizedName, function, false });
}
namespace impl {
std::vector<Entry> &getEntries() {
static std::vector<Entry> tools;
return tools;
}
}
}
namespace ContentRegistry::DataInspector {
void add(const std::string &unlocalizedName, size_t requiredSize, impl::GeneratorFunction displayGeneratorFunction, std::optional<impl::EditingFunction> editingFunction) {
log::debug("Registered new data inspector format: {}", unlocalizedName);
impl::getEntries().push_back({ unlocalizedName, requiredSize, requiredSize, std::move(displayGeneratorFunction), std::move(editingFunction) });
}
void add(const std::string &unlocalizedName, size_t requiredSize, size_t maxSize, impl::GeneratorFunction displayGeneratorFunction, std::optional<impl::EditingFunction> editingFunction) {
log::debug("Registered new data inspector format: {}", unlocalizedName);
impl::getEntries().push_back({ unlocalizedName, requiredSize, maxSize, std::move(displayGeneratorFunction), std::move(editingFunction) });
}
namespace impl {
std::vector<impl::Entry> &getEntries() {
static std::vector<impl::Entry> entries;
return entries;
}
}
}
namespace ContentRegistry::DataProcessorNode {
void impl::add(const impl::Entry &entry) {
log::debug("Registered new data processor node type: [{}]: {}", entry.category, entry.name);
getEntries().push_back(entry);
}
void addSeparator() {
impl::getEntries().push_back({ "", "", [] { return nullptr; } });
}
namespace impl {
std::vector<impl::Entry> &getEntries() {
static std::vector<impl::Entry> nodes;
return nodes;
}
}
}
namespace ContentRegistry::Language {
void addLocalization(const nlohmann::json &data) {
if (!data.is_object())
return;
if (!data.contains("code") || !data.contains("country") || !data.contains("language") || !data.contains("translations")) {
log::error("Localization data is missing required fields!");
return;
}
const auto &code = data["code"];
const auto &country = data["country"];
const auto &language = data["language"];
const auto &translations = data["translations"];
if (!code.is_string() || !country.is_string() || !language.is_string() || !translations.is_object()) {
log::error("Localization data has invalid fields!");
return;
}
if (data.contains("fallback")) {
const auto &fallback = data["fallback"];
if (fallback.is_boolean() && fallback.get<bool>())
LangEntry::setFallbackLanguage(code.get<std::string>());
}
impl::getLanguages().insert({ code.get<std::string>(), hex::format("{} ({})", language.get<std::string>(), country.get<std::string>()) });
std::map<std::string, std::string> translationDefinitions;
for (auto &[key, value] : translations.items()) {
if (!value.is_string()) {
log::error("Localization data has invalid fields!");
continue;
}
translationDefinitions[key] = value.get<std::string>();
}
impl::getLanguageDefinitions()[code.get<std::string>()].emplace_back(std::move(translationDefinitions));
}
namespace impl {
std::map<std::string, std::string> &getLanguages() {
static std::map<std::string, std::string> languages;
return languages;
}
std::map<std::string, std::vector<LanguageDefinition>> &getLanguageDefinitions() {
static std::map<std::string, std::vector<LanguageDefinition>> definitions;
return definitions;
}
}
}
namespace ContentRegistry::Interface {
void registerMainMenuItem(const std::string &unlocalizedName, u32 priority) {
log::debug("Registered new main menu item: {}", unlocalizedName);
impl::getMainMenuItems().insert({ priority, { unlocalizedName } });
}
void addMenuItem(const std::vector<std::string> &unlocalizedMainMenuNames, u32 priority, const Shortcut &shortcut, const impl::MenuCallback &function, const impl::EnabledCallback& enabledCallback, View *view) {
log::debug("Added new menu item to menu {} with priority {}", wolv::util::combineStrings(unlocalizedMainMenuNames, " -> "), priority);
impl::getMenuItems().insert({
priority, { unlocalizedMainMenuNames, shortcut, function, enabledCallback }
});
if (shortcut.isLocal() && view != nullptr)
ShortcutManager::addShortcut(view, shortcut, function);
else
ShortcutManager::addGlobalShortcut(shortcut, function);
}
void addMenuItemSubMenu(std::vector<std::string> unlocalizedMainMenuNames, u32 priority, const impl::MenuCallback &function, const impl::EnabledCallback& enabledCallback) {
log::debug("Added new menu item sub menu to menu {} with priority {}", wolv::util::combineStrings(unlocalizedMainMenuNames, " -> "), priority);
unlocalizedMainMenuNames.emplace_back(impl::SubMenuValue);
impl::getMenuItems().insert({
priority, { unlocalizedMainMenuNames, {}, function, enabledCallback }
});
}
void addMenuItemSeparator(std::vector<std::string> unlocalizedMainMenuNames, u32 priority) {
unlocalizedMainMenuNames.emplace_back(impl::SeparatorValue);
impl::getMenuItems().insert({
priority, { unlocalizedMainMenuNames, {}, []{}, []{ return true; } }
});
}
void addWelcomeScreenEntry(const impl::DrawCallback &function) {
impl::getWelcomeScreenEntries().push_back(function);
}
void addFooterItem(const impl::DrawCallback &function) {
impl::getFooterItems().push_back(function);
}
void addToolbarItem(const impl::DrawCallback &function) {
impl::getToolbarItems().push_back(function);
}
void addSidebarItem(const std::string &icon, const impl::DrawCallback &function) {
impl::getSidebarItems().push_back({ icon, function });
}
void addTitleBarButton(const std::string &icon, const std::string &unlocalizedTooltip, const impl::ClickCallback &function) {
impl::getTitleBarButtons().push_back({ icon, unlocalizedTooltip, function });
}
namespace impl {
std::multimap<u32, impl::MainMenuItem> &getMainMenuItems() {
static std::multimap<u32, impl::MainMenuItem> items;
return items;
}
std::multimap<u32, impl::MenuItem> &getMenuItems() {
static std::multimap<u32, impl::MenuItem> items;
return items;
}
std::vector<impl::DrawCallback> &getWelcomeScreenEntries() {
static std::vector<impl::DrawCallback> entries;
return entries;
}
std::vector<impl::DrawCallback> &getFooterItems() {
static std::vector<impl::DrawCallback> items;
return items;
}
std::vector<impl::DrawCallback> &getToolbarItems() {
static std::vector<impl::DrawCallback> items;
return items;
}
std::vector<impl::SidebarItem> &getSidebarItems() {
static std::vector<impl::SidebarItem> items;
return items;
}
std::vector<impl::TitleBarButton> &getTitleBarButtons() {
static std::vector<impl::TitleBarButton> buttons;
return buttons;
}
}
}
namespace ContentRegistry::Provider {
void impl::addProviderName(const std::string &unlocalizedName) {
log::debug("Registered new provider: {}", unlocalizedName);
getEntries().push_back(unlocalizedName);
}
namespace impl {
std::vector<std::string> &getEntries() {
static std::vector<std::string> providerNames;
return providerNames;
}
}
}
namespace ContentRegistry::DataFormatter {
void add(const std::string &unlocalizedName, const impl::Callback &callback) {
log::debug("Registered new data formatter: {}", unlocalizedName);
impl::getEntries().push_back({ unlocalizedName, callback });
}
namespace impl {
std::vector<impl::Entry> &getEntries() {
static std::vector<impl::Entry> entries;
return entries;
}
}
}
namespace ContentRegistry::FileHandler {
void add(const std::vector<std::string> &extensions, const impl::Callback &callback) {
for (const auto &extension : extensions)
log::debug("Registered new data handler for extensions: {}", extension);
impl::getEntries().push_back({ extensions, callback });
}
namespace impl {
std::vector<impl::Entry> &getEntries() {
static std::vector<impl::Entry> entries;
return entries;
}
}
}
namespace ContentRegistry::HexEditor {
const int DataVisualizer::TextInputFlags = ImGuiInputTextFlags_AutoSelectAll | ImGuiInputTextFlags_NoHorizontalScroll;
bool DataVisualizer::drawDefaultScalarEditingTextBox(u64 address, const char *format, ImGuiDataType dataType, u8 *data, ImGuiInputTextFlags flags) const {
struct UserData {
u8 *data;
i32 maxChars;
bool editingDone;
};
UserData userData = {
.data = data,
.maxChars = this->getMaxCharsPerCell(),
.editingDone = false
};
ImGui::PushID(reinterpret_cast<void*>(address));
ImGui::InputScalarCallback("##editing_input", dataType, data, format, flags | TextInputFlags | ImGuiInputTextFlags_CallbackEdit, [](ImGuiInputTextCallbackData *data) -> int {
auto &userData = *reinterpret_cast<UserData*>(data->UserData);
if (data->BufTextLen >= userData.maxChars)
userData.editingDone = true;
return 0;
}, &userData);
ImGui::PopID();
return userData.editingDone || ImGui::IsKeyPressed(ImGuiKey_Enter) || ImGui::IsKeyPressed(ImGuiKey_Escape);
}
bool DataVisualizer::drawDefaultTextEditingTextBox(u64 address, std::string &data, ImGuiInputTextFlags flags) const {
struct UserData {
std::string *data;
i32 maxChars;
bool editingDone;
};
UserData userData = {
.data = &data,
.maxChars = this->getMaxCharsPerCell(),
.editingDone = false
};
ImGui::PushID(reinterpret_cast<void*>(address));
ImGui::InputText("##editing_input", data.data(), data.size() + 1, flags | TextInputFlags | ImGuiInputTextFlags_CallbackEdit, [](ImGuiInputTextCallbackData *data) -> int {
auto &userData = *reinterpret_cast<UserData*>(data->UserData);
userData.data->resize(data->BufSize);
if (data->BufTextLen >= userData.maxChars)
userData.editingDone = true;
return 0;
}, &userData);
ImGui::PopID();
return userData.editingDone || ImGui::IsKeyPressed(ImGuiKey_Enter) || ImGui::IsKeyPressed(ImGuiKey_Escape);
}
namespace impl {
void addDataVisualizer(std::shared_ptr<DataVisualizer> &&visualizer) {
getVisualizers().emplace_back(std::move(visualizer));
}
std::vector<std::shared_ptr<DataVisualizer>> &getVisualizers() {
static std::vector<std::shared_ptr<DataVisualizer>> visualizers;
return visualizers;
}
}
std::shared_ptr<DataVisualizer> getVisualizerByName(const std::string &unlocalizedName) {
for (const auto &visualizer : impl::getVisualizers()) {
if (visualizer->getUnlocalizedName() == unlocalizedName)
return visualizer;
}
return nullptr;
}
}
namespace ContentRegistry::Hashes {
namespace impl {
std::vector<std::unique_ptr<Hash>> &getHashes() {
static std::vector<std::unique_ptr<Hash>> hashes;
return hashes;
}
void add(std::unique_ptr<Hash> &&hash) {
getHashes().emplace_back(std::move(hash));
}
}
}
namespace ContentRegistry::BackgroundServices {
namespace impl {
std::vector<Service> &getServices() {
static std::vector<Service> services;
return services;
}
void stopServices() {
for (auto &service : getServices()) {
service.thread.request_stop();
}
for (auto &service : getServices()) {
service.thread.detach();
}
}
}
void registerService(const std::string &unlocalizedName, const impl::Callback &callback) {
log::debug("Registered new background service: {}", unlocalizedName);
impl::getServices().push_back(impl::Service {
unlocalizedName,
std::jthread([callback](const std::stop_token &stopToken){
while (!stopToken.stop_requested()) {
callback();
std::this_thread::sleep_for(std::chrono::milliseconds(50));
}
})
});
}
}
namespace ContentRegistry::CommunicationInterface {
namespace impl {
std::map<std::string, NetworkCallback> &getNetworkEndpoints() {
static std::map<std::string, NetworkCallback> endpoints;
return endpoints;
}
}
void registerNetworkEndpoint(const std::string &endpoint, const impl::NetworkCallback &callback) {
log::debug("Registered new network endpoint: {}", endpoint);
impl::getNetworkEndpoints().insert({ endpoint, callback });
}
}
}