osquery-1/osquery/registry/registry.cpp

525 lines
17 KiB
C++

/*
* Copyright (c) 2014, Facebook, Inc.
* All rights reserved.
*
* This source code is licensed under the BSD-style license found in the
* LICENSE file in the root directory of this source tree. An additional grant
* of patent rights can be found in the PATENTS file in the same directory.
*
*/
#include <cstdlib>
#include <sstream>
#include <dlfcn.h>
#include <boost/property_tree/json_parser.hpp>
#include <osquery/extensions.h>
#include <osquery/logger.h>
#include <osquery/registry.h>
namespace osquery {
void RegistryHelperCore::remove(const std::string& item_name) {
if (items_.count(item_name) > 0) {
items_[item_name]->tearDown();
items_.erase(item_name);
}
// Populate list of aliases to remove (those that mask item_name).
std::vector<std::string> removed_aliases;
for (const auto& alias : aliases_) {
if (alias.second == item_name) {
removed_aliases.push_back(alias.first);
}
}
for (const auto& alias : removed_aliases) {
aliases_.erase(alias);
}
}
bool RegistryHelperCore::isInternal(const std::string& item_name) const {
if (std::find(internal_.begin(), internal_.end(), item_name) ==
internal_.end()) {
return false;
}
return true;
}
Status RegistryHelperCore::setActive(const std::string& item_name) {
if (items_.count(item_name) == 0 && external_.count(item_name) == 0) {
return Status(1, "Unknown registry item");
}
active_ = item_name;
// The active plugin is setup when initialized.
if (exists(item_name, true)) {
Registry::get(name_, item_name)->setUp();
}
return Status(0, "OK");
}
const std::string& RegistryHelperCore::getActive() const { return active_; }
RegistryRoutes RegistryHelperCore::getRoutes() const {
RegistryRoutes route_table;
for (const auto& item : items_) {
if (isInternal(item.first)) {
// This is an internal plugin, do not include the route.
continue;
}
bool has_alias = false;
for (const auto& alias : aliases_) {
if (alias.second == item.first) {
// If the item name is masked by at least one alias, it will not
// broadcast under the internal item name.
route_table[alias.first] = item.second->routeInfo();
has_alias = true;
}
}
if (!has_alias) {
route_table[item.first] = item.second->routeInfo();
}
}
return route_table;
}
Status RegistryHelperCore::call(const std::string& item_name,
const PluginRequest& request,
PluginResponse& response) {
if (items_.count(item_name) > 0) {
return items_.at(item_name)->call(request, response);
}
if (external_.count(item_name) > 0) {
// The item is a registered extension, call the extension by UUID.
return callExtension(external_.at(item_name), name_, item_name, request,
response);
} else if (routes_.count(item_name) > 0) {
// The item has a route, but no extension, pass in the route info.
response = routes_.at(item_name);
return Status(0, "Route only");
} else if (Registry::external()) {
// If this is an extension's registry forward unknown calls to the core.
return callExtension(0, name_, item_name, request, response);
}
return Status(1, "Cannot call registry item: " + item_name);
}
Status RegistryHelperCore::addAlias(const std::string& item_name,
const std::string& alias) {
if (aliases_.count(alias) > 0) {
return Status(1, "Duplicate alias: " + alias);
}
aliases_[alias] = item_name;
return Status(0, "OK");
}
const std::string& RegistryHelperCore::getAlias(
const std::string& alias) const {
if (aliases_.count(alias) == 0) {
return alias;
}
return aliases_.at(alias);
}
void RegistryHelperCore::setUp() {
// If this registry does not auto-setup do NOT setup the registry items.
if (!auto_setup_) {
return;
}
// If the registry is using a single 'active' plugin, setUp that plugin.
// For config and logger, only setUp the selected plugin.
if (active_.size() != 0 && exists(active_, true)) {
items_.at(active_)->setUp();
return;
}
// Try to set up each of the registry items.
// If they fail, remove them from the registry.
std::vector<std::string> failed;
for (auto& item : items_) {
if (!item.second->setUp().ok()) {
failed.push_back(item.first);
}
}
for (const auto& failed_item : failed) {
remove(failed_item);
}
}
/// Facility method to check if a registry item exists.
bool RegistryHelperCore::exists(const std::string& item_name,
bool local) const {
bool has_local = (items_.count(item_name) > 0);
bool has_external = (external_.count(item_name) > 0);
bool has_route = (routes_.count(item_name) > 0);
return (local) ? has_local : has_local || has_external || has_route;
}
/// Facility method to list the registry item identifiers.
std::vector<std::string> RegistryHelperCore::names() const {
std::vector<std::string> names;
for (const auto& item : items_) {
names.push_back(item.first);
}
// Also add names of external plugins.
for (const auto& item : external_) {
names.push_back(item.first);
}
return names;
}
/// Facility method to count the number of items in this registry.
size_t RegistryHelperCore::count() const { return items_.size(); }
/// Allow the registry to introspect into the registered name (for logging).
void RegistryHelperCore::setName(const std::string& name) { name_ = name; }
const std::map<std::string, PluginRegistryHelperRef>& RegistryFactory::all() {
return instance().registries_;
}
PluginRegistryHelperRef RegistryFactory::registry(
const std::string& registry_name) {
return instance().registries_.at(registry_name);
}
const std::map<std::string, PluginRef> RegistryFactory::all(
const std::string& registry_name) {
return instance().registry(registry_name)->all();
}
PluginRef RegistryFactory::get(const std::string& registry_name,
const std::string& item_name) {
return instance().registry(registry_name)->get(item_name);
}
RegistryBroadcast RegistryFactory::getBroadcast() {
RegistryBroadcast broadcast;
for (const auto& registry : instance().registries_) {
broadcast[registry.first] = registry.second->getRoutes();
}
return broadcast;
}
Status RegistryFactory::addBroadcast(const RouteUUID& uuid,
const RegistryBroadcast& broadcast) {
if (instance().extensions_.count(uuid) > 0) {
return Status(1, "Duplicate extension UUID: " + std::to_string(uuid));
}
// Make sure the extension does not broadcast conflicting registry items.
if (!Registry::allowDuplicates()) {
for (const auto& registry : broadcast) {
for (const auto& item : registry.second) {
if (Registry::exists(registry.first, item.first)) {
VLOG(1) << "Extension " << uuid
<< " has duplicate plugin name: " << item.first
<< " in registry: " << registry.first;
return Status(1, "Duplicate registry item: " + item.first);
}
}
}
}
// Once duplication is satisfied call each registry's addExternal.
Status status;
for (const auto& registry : broadcast) {
status = RegistryFactory::registry(registry.first)
->addExternal(uuid, registry.second);
if (!status.ok()) {
// If any registry fails to add the set of external routes, stop.
break;
}
for (const auto& plugin : registry.second) {
VLOG(1) << "Extension " << uuid << " registered " << registry.first
<< " plugin " << plugin.first;
}
}
// If any registry failed, remove each (assume a broadcast is atomic).
if (!status.ok()) {
for (const auto& registry : broadcast) {
Registry::registry(registry.first)->removeExternal(uuid);
}
}
instance().extensions_.insert(uuid);
return status;
}
Status RegistryFactory::removeBroadcast(const RouteUUID& uuid) {
if (instance().extensions_.count(uuid) == 0) {
return Status(1, "Unknown extension UUID: " + std::to_string(uuid));
}
for (const auto& registry : instance().registries_) {
registry.second->removeExternal(uuid);
}
instance().extensions_.erase(uuid);
return Status(0, "OK");
}
/// Adds an alias for an internal registry item. This registry will only
/// broadcast the alias name.
Status RegistryFactory::addAlias(const std::string& registry_name,
const std::string& item_name,
const std::string& alias) {
if (instance().registries_.count(registry_name) == 0) {
return Status(1, "Unknown registry: " + registry_name);
}
return instance().registries_.at(registry_name)->addAlias(item_name, alias);
}
/// Returns the item_name or the item alias if an alias exists.
const std::string& RegistryFactory::getAlias(const std::string& registry_name,
const std::string& alias) {
if (instance().registries_.count(registry_name) == 0) {
return alias;
}
return instance().registries_.at(registry_name)->getAlias(alias);
}
Status RegistryFactory::call(const std::string& registry_name,
const std::string& item_name,
const PluginRequest& request,
PluginResponse& response) {
// Forward factory call to the registry.
try {
return registry(registry_name)->call(item_name, request, response);
} catch (const std::exception& e) {
LOG(ERROR) << registry_name << " registry " << item_name
<< " plugin caused exception: " << e.what();
return Status(1, e.what());
} catch (...) {
LOG(ERROR) << registry_name << " registry " << item_name
<< " plugin caused unknown exception";
return Status(2, "Unknown exception");
}
}
Status RegistryFactory::call(const std::string& registry_name,
const std::string& item_name,
const PluginRequest& request) {
PluginResponse response;
// Wrapper around a call expecting a response.
return call(registry_name, item_name, request, response);
}
Status RegistryFactory::call(const std::string& registry_name,
const PluginRequest& request,
PluginResponse& response) {
auto& plugin = registry(registry_name)->getActive();
return call(registry_name, plugin, request, response);
}
Status RegistryFactory::call(const std::string& registry_name,
const PluginRequest& request) {
PluginResponse response;
return call(registry_name, request, response);
}
Status RegistryFactory::setActive(const std::string& registry_name,
const std::string& item_name) {
if (!exists(registry_name, item_name)) {
return Status(1, "Registry plugin does not exist");
}
return registry(registry_name)->setActive(item_name);
}
const std::string& RegistryFactory::getActive(
const std::string& registry_name) {
return registry(registry_name)->getActive();
}
void RegistryFactory::setUp() {
for (const auto& registry : instance().all()) {
registry.second->setUp();
}
}
bool RegistryFactory::exists(const std::string& registry_name,
const std::string& item_name,
bool local) {
if (instance().registries_.count(registry_name) == 0) {
return false;
}
// Check the registry.
return registry(registry_name)->exists(item_name, local);
}
std::vector<std::string> RegistryFactory::names() {
std::vector<std::string> names;
for (const auto& registry : all()) {
names.push_back(registry.second->getName());
}
return names;
}
std::vector<std::string> RegistryFactory::names(
const std::string& registry_name) {
if (instance().registries_.at(registry_name) == 0) {
std::vector<std::string> names;
return names;
}
return instance().registry(registry_name)->names();
}
std::vector<RouteUUID> RegistryFactory::routeUUIDs() {
std::vector<RouteUUID> uuids;
for (const auto& extension : instance().extensions_) {
uuids.push_back(extension);
}
return uuids;
}
size_t RegistryFactory::count() { return instance().registries_.size(); }
size_t RegistryFactory::count(const std::string& registry_name) {
if (instance().registries_.count(registry_name) == 0) {
return 0;
}
return instance().registry(registry_name)->count();
}
Status RegistryHelperCore::add(const std::string& item_name, bool internal) {
// The item can be listed as internal, meaning it does not broadcast.
if (internal) {
internal_.push_back(item_name);
}
// The item may belong to a module.
if (RegistryFactory::usingModule()) {
modules_[item_name] = RegistryFactory::getModule();
}
return Status(0, "OK");
}
const std::map<RouteUUID, ModuleInfo>& RegistryFactory::getModules() {
return instance().modules_;
}
RouteUUID RegistryFactory::getModule() { return instance().module_uuid_; }
bool RegistryFactory::usingModule() {
// Check if the registry is allowing a module's registrations.
return (!instance().locked() && instance().module_uuid_ != 0);
}
void RegistryFactory::shutdownModule() {
instance().locked(true);
instance().module_uuid_ = 0;
}
void RegistryFactory::initModule(const std::string& path) {
// Begin a module initialization, lock until the module is determined
// appropriate by requesting a call to `declareModule`.
instance().module_uuid_ = (RouteUUID)rand();
instance().modules_[getModule()].path = path;
instance().locked(true);
}
void RegistryFactory::declareModule(const std::string& name,
const std::string& version,
const std::string& min_sdk_version,
const std::string& sdk_version) {
// Check the min_sdk_version against the Registry's SDK version.
auto& module = instance().modules_[instance().module_uuid_];
module.name = name;
module.version = version;
module.sdk_version = sdk_version;
instance().locked(false);
}
RegistryModuleLoader::RegistryModuleLoader(const std::string& path)
: handle_(nullptr), path_(path) {
// Tell the registry that we are attempting to construct a module.
// Locking the registry prevents the module's global initialization from
// adding or creating registry items.
RegistryFactory::initModule(path_);
handle_ = dlopen(path_.c_str(), RTLD_NOW | RTLD_LOCAL);
if (handle_ == nullptr) {
VLOG(1) << "Failed to load module: " << path_;
VLOG(1) << dlerror();
return;
}
// The module should have called RegistryFactory::declareModule and unlocked
// the registry for modification. The module should have done this using
// the SDK's CREATE_MODULE macro, which adds the global-scope constructor.
if (RegistryFactory::locked()) {
VLOG(1) << "Failed to declare module: " << path_;
dlclose(handle_);
handle_ = nullptr;
}
}
void RegistryModuleLoader::init() {
if (handle_ == nullptr || RegistryFactory::locked()) {
handle_ = nullptr;
return;
}
// Locate a well-known symbol in the module.
// This symbol name is protected against rewriting when the module uses the
// SDK's CREATE_MODULE macro.
auto initializer = (ModuleInitalizer)dlsym(handle_, "initModule");
if (initializer != nullptr) {
initializer();
VLOG(1) << "Initialized module: " << path_;
} else {
VLOG(1) << "Failed to initialize module: " << path_;
VLOG(1) << dlerror();
dlclose(handle_);
handle_ = nullptr;
}
}
RegistryModuleLoader::~RegistryModuleLoader() {
if (handle_ == nullptr) {
// The module was not loaded or did not initalize.
RegistryFactory::instance().modules_.erase(RegistryFactory::getModule());
}
// We do not close the module, and thus are OK with losing a reference to the
// module's handle. Attempting to close and clean up is very expensive for
// very little value/features.
if (!RegistryFactory::locked()) {
RegistryFactory::shutdownModule();
}
// No need to clean this resource.
handle_ = nullptr;
}
void Plugin::getResponse(const std::string& key,
const PluginResponse& response,
boost::property_tree::ptree& tree) {
for (const auto& item : response) {
boost::property_tree::ptree child;
for (const auto& item_detail : item) {
child.put(item_detail.first, item_detail.second);
}
tree.add_child(key, child);
}
}
void Plugin::setResponse(const std::string& key,
const boost::property_tree::ptree& tree,
PluginResponse& response) {
std::ostringstream output;
boost::property_tree::write_json(output, tree, false);
response.push_back({{key, output.str()}});
}
}