osquery-1/osquery/extensions/extensions.cpp

631 lines
20 KiB
C++

/*
* Copyright (c) 2014-present, 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 <csignal>
#include <boost/algorithm/string/trim.hpp>
#include <osquery/core.h>
#include <osquery/filesystem.h>
#include <osquery/logger.h>
#include <osquery/registry.h>
#include <osquery/sql.h>
#include <osquery/system.h>
#include "osquery/core/conversions.h"
#include "osquery/core/process.h"
#include "osquery/core/watcher.h"
#include "osquery/extensions/interface.h"
using namespace osquery::extensions;
namespace fs = boost::filesystem;
namespace osquery {
// Millisecond latency between initalizing manager pings.
const size_t kExtensionInitializeLatencyUS = 20000;
#ifdef __APPLE__
#define MODULE_EXTENSION ".dylib"
#elif defined(WIN32)
#define MODULE_EXTENSION ".dll"
#else
#define MODULE_EXTENSION ".so"
#endif
enum ExtenableTypes {
EXTENSION = 1,
MODULE = 2,
};
const std::map<ExtenableTypes, std::string> kExtendables = {
{EXTENSION, ".ext"}, {MODULE, MODULE_EXTENSION},
};
CLI_FLAG(bool, disable_extensions, false, "Disable extension API");
CLI_FLAG(string,
extensions_socket,
OSQUERY_DB_HOME "/osquery.em",
"Path to the extensions UNIX domain socket")
CLI_FLAG(string,
extensions_autoload,
OSQUERY_HOME "/extensions.load",
"Optional path to a list of autoloaded & managed extensions")
CLI_FLAG(string,
extensions_timeout,
"3",
"Seconds to wait for autoloaded extensions");
CLI_FLAG(string,
extensions_interval,
"3",
"Seconds delay between connectivity checks")
CLI_FLAG(string,
modules_autoload,
OSQUERY_HOME "/modules.load",
"Optional path to a list of autoloaded registry modules")
/**
* @brief Alias the extensions_socket (used by core) to a simple 'socket'.
*
* Extension binaries will more commonly set the path to an extension manager
* socket. Alias the long switch name to 'socket' for an easier UX.
*
* We include timeout and interval, where the 'extensions_' prefix is removed
* in the alias since we are already within the context of an extension.
*/
EXTENSION_FLAG_ALIAS(socket, extensions_socket);
EXTENSION_FLAG_ALIAS(timeout, extensions_timeout);
EXTENSION_FLAG_ALIAS(interval, extensions_interval);
void ExtensionWatcher::start() {
// Watch the manager, if the socket is removed then the extension will die.
// A check for sane paths and activity is applied before the watcher
// service is added and started.
while (!interrupted()) {
watch();
pauseMilli(interval_);
}
}
void ExtensionManagerWatcher::start() {
// Watch each extension.
while (!interrupted()) {
watch();
pauseMilli(interval_);
}
// When interrupted, request each extension tear down.
const auto uuids = Registry::routeUUIDs();
for (const auto& uuid : uuids) {
try {
auto path = getExtensionSocket(uuid);
auto client = EXClient(path);
client.get()->shutdown();
} catch (const std::exception& e) {
VLOG(1) << "Extension UUID " << uuid << " shutdown request failed";
continue;
}
}
}
void ExtensionWatcher::exitFatal(int return_code) {
// Exit the extension.
// We will save the wanted return code and raise an interrupt.
// This interrupt will be handled by the main thread then join the watchers.
Initializer::requestShutdown(return_code);
}
void ExtensionWatcher::watch() {
// Attempt to ping the extension core.
// This does NOT use pingExtension to avoid the latency checks applied.
ExtensionStatus status;
bool core_sane = true;
if (isWritable(path_)) {
try {
auto client = EXManagerClient(path_);
// Ping the extension manager until it goes down.
client.get()->ping(status);
} catch (const std::exception& e) {
core_sane = false;
}
} else {
// The previously-writable extension socket is not usable.
core_sane = false;
}
if (!core_sane) {
LOG(INFO) << "Extension watcher ending: osquery core has gone away";
exitFatal(0);
}
if (status.code != ExtensionCode::EXT_SUCCESS && fatal_) {
// The core may be healthy but return a failed ping status.
exitFatal();
}
}
void ExtensionManagerWatcher::watch() {
// Watch the set of extensions, if the socket is removed then the extension
// will be deregistered.
const auto uuids = Registry::routeUUIDs();
ExtensionStatus status;
for (const auto& uuid : uuids) {
auto path = getExtensionSocket(uuid);
if (isWritable(path)) {
try {
auto client = EXClient(path);
// Ping the extension until it goes down.
client.get()->ping(status);
} catch (const std::exception& e) {
failures_[uuid] += 1;
continue;
}
} else {
// Immediate fail non-writable paths.
failures_[uuid] = 3;
continue;
}
if (status.code != ExtensionCode::EXT_SUCCESS) {
LOG(INFO) << "Extension UUID " << uuid << " ping failed";
failures_[uuid] += 1;
} else {
failures_[uuid] = 0;
}
}
for (const auto& uuid : failures_) {
if (uuid.second >= 3) {
LOG(INFO) << "Extension UUID " << uuid.first << " has gone away";
Registry::removeBroadcast(uuid.first);
failures_[uuid.first] = 0;
}
}
}
Status socketWritable(const fs::path& path) {
if (pathExists(path).ok()) {
if (!isWritable(path).ok()) {
return Status(1, "Cannot write extension socket: " + path.string());
}
if (!osquery::remove(path).ok()) {
return Status(1, "Cannot remove extension socket: " + path.string());
}
} else {
if (!pathExists(path.parent_path()).ok()) {
return Status(1, "Extension socket directory missing: " + path.string());
}
if (!isWritable(path.parent_path()).ok()) {
return Status(1, "Cannot create extension socket: " + path.string());
}
}
return Status(0, "OK");
}
void loadExtensions() {
// Disabling extensions will disable autoloading.
if (FLAGS_disable_extensions) {
return;
}
// Optionally autoload extensions, sanitize the binary path and inform
// the osquery watcher to execute the extension when started.
auto status = loadExtensions(
fs::path(FLAGS_extensions_autoload).make_preferred().string());
if (!status.ok()) {
VLOG(1) << "Could not autoload extensions: " << status.what();
}
}
void loadModules() {
auto status =
loadModules(fs::path(FLAGS_modules_autoload).make_preferred().string());
if (!status.ok()) {
VLOG(1) << "Could not autoload modules: " << status.what();
}
}
static bool isFileSafe(std::string& path, ExtenableTypes type) {
boost::trim(path);
// A 'type name' may be used in verbose log output.
std::string type_name = ((type == EXTENSION) ? "extension" : "module");
if (path.size() == 0 || path[0] == '#' || path[0] == ';') {
return false;
}
// Resolve acceptable extension binaries from autoload paths.
if (isDirectory(path).ok()) {
VLOG(1) << "Cannot autoload " << type_name << " from directory: " << path;
return false;
}
// The extendables will force an appropriate file path extension.
auto& ext = kExtendables.at(type);
// Only autoload file which were safe at the time of discovery.
// If the binary later becomes unsafe (permissions change) then it will fail
// to reload if a reload is ever needed.
fs::path extendable(path);
// Set the output sanitized path.
path = extendable.string();
if (!safePermissions(extendable.parent_path().string(), path, true)) {
LOG(WARNING) << "Will not autoload " << type_name
<< " with unsafe directory permissions: " << path;
return false;
}
if (extendable.extension().string() != ext) {
LOG(WARNING) << "Will not autoload " << type_name << " not ending in '"
<< ext << "': " << path;
return false;
}
VLOG(1) << "Found autoloadable " << type_name << ": " << path;
return true;
}
Status loadExtensions(const std::string& loadfile) {
std::string autoload_paths;
if (readFile(loadfile, autoload_paths).ok()) {
for (auto& path : osquery::split(autoload_paths, "\n")) {
if (isFileSafe(path, EXTENSION)) {
// After the path is sanitized the watcher becomes responsible for
// forking and executing the extension binary.
Watcher::addExtensionPath(path);
}
}
return Status(0, "OK");
}
return Status(1, "Failed reading: " + loadfile);
}
Status loadModules(const std::string& loadfile) {
// Split the search path for modules using a ':' delimiter.
bool all_loaded = true;
std::string autoload_paths;
if (readFile(loadfile, autoload_paths).ok()) {
for (auto& path : osquery::split(autoload_paths, "\n")) {
if (isFileSafe(path, MODULE)) {
RegistryModuleLoader loader(path);
loader.init();
} else {
all_loaded = false;
}
}
// Return an aggregate failure if any load fails (invalid search path).
return Status((all_loaded) ? 0 : 1);
}
return Status(1, "Failed reading: " + loadfile);
}
Status extensionPathActive(const std::string& path, bool use_timeout = false) {
// Make sure the extension manager path exists, and is writable.
size_t delay = 0;
// The timeout is given in seconds, but checked interval is microseconds.
size_t timeout = atoi(FLAGS_extensions_timeout.c_str()) * 1000000;
if (timeout < kExtensionInitializeLatencyUS * 10) {
timeout = kExtensionInitializeLatencyUS * 10;
}
do {
if (pathExists(path) && isWritable(path)) {
try {
auto client = EXManagerClient(path);
return Status(0, "OK");
} catch (const std::exception& e) {
// Path might exist without a connected extension or extension manager.
}
}
// Only check active once if this check does not allow a timeout.
if (!use_timeout || timeout == 0) {
break;
}
// Increase the total wait detail.
delay += kExtensionInitializeLatencyUS;
sleepFor(kExtensionInitializeLatencyUS / 1000);
} while (delay < timeout);
return Status(1, "Extension socket not available: " + path);
}
Status startExtension(const std::string& name, const std::string& version) {
return startExtension(name, version, "0.0.0");
}
Status startExtension(const std::string& name,
const std::string& version,
const std::string& min_sdk_version) {
Registry::setExternal();
// Latency converted to milliseconds, used as a thread interruptible.
auto latency = atoi(FLAGS_extensions_interval.c_str()) * 1000;
auto status = startExtensionWatcher(FLAGS_extensions_socket, latency, true);
if (!status.ok()) {
// If the threaded watcher fails to start, fail the extension.
return status;
}
status = startExtension(
FLAGS_extensions_socket, name, version, min_sdk_version, kSDKVersion);
if (!status.ok()) {
// If the extension failed to start then the EM is most likely unavailable.
return status;
}
return Status(0);
}
Status startExtension(const std::string& manager_path,
const std::string& name,
const std::string& version,
const std::string& min_sdk_version,
const std::string& sdk_version) {
// Make sure the extension manager path exists, and is writable.
auto status = extensionPathActive(manager_path, true);
if (!status.ok()) {
return status;
}
// The Registry broadcast is used as the ExtensionRegistry.
auto broadcast = Registry::getBroadcast();
// The extension will register and provide name, version, sdk details.
InternalExtensionInfo info;
info.name = name;
info.version = version;
info.sdk_version = sdk_version;
info.min_sdk_version = min_sdk_version;
// If registration is successful, we will also request the manager's options.
InternalOptionList options;
// Register the extension's registry broadcast with the manager.
ExtensionStatus ext_status;
try {
auto client = EXManagerClient(manager_path);
client.get()->registerExtension(ext_status, info, broadcast);
// The main reason for a failed registry is a duplicate extension name
// (the extension process is already running), or the extension broadcasts
// a duplicate registry item.
if (ext_status.code != ExtensionCode::EXT_SUCCESS) {
return Status(ext_status.code, ext_status.message);
}
// Request the core options, mainly to set the active registry plugins for
// logger and config.
client.get()->options(options);
} catch (const std::exception& e) {
return Status(1, "Extension register failed: " + std::string(e.what()));
}
// Now that the uuid is known, try to clean up stale socket paths.
auto extension_path = getExtensionSocket(ext_status.uuid, manager_path);
status = socketWritable(extension_path);
if (!status) {
return status;
}
// Set the active config and logger plugins. The core will arbitrate if the
// plugins are not available in the extension's local registry.
Registry::setActive("config", options["config_plugin"].value);
Registry::setActive("logger", options["logger_plugin"].value);
// Set up all lazy registry plugins and the active config/logger plugin.
Registry::setUp();
// Start the extension's Thrift server
Dispatcher::addService(
std::make_shared<ExtensionRunner>(manager_path, ext_status.uuid));
VLOG(1) << "Extension (" << name << ", " << ext_status.uuid << ", " << version
<< ", " << sdk_version << ") registered";
return Status(0, std::to_string(ext_status.uuid));
}
Status queryExternal(const std::string& manager_path,
const std::string& query,
QueryData& results) {
// Make sure the extension path exists, and is writable.
auto status = extensionPathActive(manager_path);
if (!status.ok()) {
return status;
}
ExtensionResponse response;
try {
auto client = EXManagerClient(manager_path);
client.get()->query(response, query);
} catch (const std::exception& e) {
return Status(1, "Extension call failed: " + std::string(e.what()));
}
for (const auto& row : response.response) {
results.push_back(row);
}
return Status(response.status.code, response.status.message);
}
Status queryExternal(const std::string& query, QueryData& results) {
return queryExternal(FLAGS_extensions_socket, query, results);
}
Status getQueryColumnsExternal(const std::string& manager_path,
const std::string& query,
TableColumns& columns) {
// Make sure the extension path exists, and is writable.
auto status = extensionPathActive(manager_path);
if (!status.ok()) {
return status;
}
ExtensionResponse response;
try {
auto client = EXManagerClient(manager_path);
client.get()->getQueryColumns(response, query);
} catch (const std::exception& e) {
return Status(1, "Extension call failed: " + std::string(e.what()));
}
// Translate response map: {string: string} to a vector: pair(name, type).
for (const auto& column : response.response) {
for (const auto& col : column) {
columns.push_back(
std::make_tuple(col.first, columnTypeName(col.second), DEFAULT));
}
}
return Status(response.status.code, response.status.message);
}
Status getQueryColumnsExternal(const std::string& query,
TableColumns& columns) {
return getQueryColumnsExternal(FLAGS_extensions_socket, query, columns);
}
Status pingExtension(const std::string& path) {
if (FLAGS_disable_extensions) {
return Status(1, "Extensions disabled");
}
// Make sure the extension path exists, and is writable.
auto status = extensionPathActive(path);
if (!status.ok()) {
return status;
}
ExtensionStatus ext_status;
try {
auto client = EXClient(path);
client.get()->ping(ext_status);
} catch (const std::exception& e) {
return Status(1, "Extension call failed: " + std::string(e.what()));
}
return Status(ext_status.code, ext_status.message);
}
Status getExtensions(ExtensionList& extensions) {
if (FLAGS_disable_extensions) {
return Status(1, "Extensions disabled");
}
return getExtensions(FLAGS_extensions_socket, extensions);
}
Status getExtensions(const std::string& manager_path,
ExtensionList& extensions) {
// Make sure the extension path exists, and is writable.
auto status = extensionPathActive(manager_path);
if (!status.ok()) {
return status;
}
InternalExtensionList ext_list;
try {
auto client = EXManagerClient(manager_path);
client.get()->extensions(ext_list);
} catch (const std::exception& e) {
return Status(1, "Extension call failed: " + std::string(e.what()));
}
// Add the extension manager to the list called (core).
extensions[0] = {"core", kVersion, "0.0.0", kSDKVersion};
// Convert from Thrift-internal list type to RouteUUID/ExtenionInfo type.
for (const auto& ext : ext_list) {
extensions[ext.first] = {ext.second.name, ext.second.version,
ext.second.min_sdk_version,
ext.second.sdk_version};
}
return Status(0, "OK");
}
Status callExtension(const RouteUUID uuid,
const std::string& registry,
const std::string& item,
const PluginRequest& request,
PluginResponse& response) {
if (FLAGS_disable_extensions) {
return Status(1, "Extensions disabled");
}
return callExtension(
getExtensionSocket(uuid), registry, item, request, response);
}
Status callExtension(const std::string& extension_path,
const std::string& registry,
const std::string& item,
const PluginRequest& request,
PluginResponse& response) {
// Make sure the extension manager path exists, and is writable.
auto status = extensionPathActive(extension_path);
if (!status.ok()) {
return status;
}
ExtensionResponse ext_response;
try {
auto client = EXClient(extension_path);
client.get()->call(ext_response, registry, item, request);
} catch (const std::exception& e) {
return Status(1, "Extension call failed: " + std::string(e.what()));
}
// Convert from Thrift-internal list type to PluginResponse type.
if (ext_response.status.code == ExtensionCode::EXT_SUCCESS) {
for (const auto& item : ext_response.response) {
response.push_back(item);
}
}
return Status(ext_response.status.code, ext_response.status.message);
}
Status startExtensionWatcher(const std::string& manager_path,
size_t interval,
bool fatal) {
// Make sure the extension manager path exists, and is writable.
auto status = extensionPathActive(manager_path, true);
if (!status.ok()) {
return status;
}
// Start a extension manager watcher, if the manager dies, so should we.
Dispatcher::addService(
std::make_shared<ExtensionWatcher>(manager_path, interval, fatal));
return Status(0, "OK");
}
Status startExtensionManager() {
if (FLAGS_disable_extensions) {
return Status(1, "Extensions disabled");
}
return startExtensionManager(FLAGS_extensions_socket);
}
Status startExtensionManager(const std::string& manager_path) {
// Check if the socket location exists.
auto status = socketWritable(manager_path);
if (!status.ok()) {
return status;
}
// Seconds converted to milliseconds, used as a thread interruptible.
auto latency = atoi(FLAGS_extensions_interval.c_str()) * 1000;
// Start a extension manager watcher, if the manager dies, so should we.
Dispatcher::addService(
std::make_shared<ExtensionManagerWatcher>(manager_path, latency));
// Start the extension manager thread.
Dispatcher::addService(
std::make_shared<ExtensionManagerRunner>(manager_path));
return Status(0, "OK");
}
}