osquery-1/osquery/core/watcher.h
2015-05-05 23:34:10 -07:00

251 lines
7.7 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.
*
*/
#pragma once
#include <string>
#include <unistd.h>
#include <boost/noncopyable.hpp>
#include <boost/thread/mutex.hpp>
#include <osquery/flags.h>
#include "osquery/dispatcher/dispatcher.h"
namespace osquery {
DECLARE_bool(disable_watchdog);
/**
* @brief Categories of process performance limitations.
*
* Performance limits are applied by a watcher thread on autoloaded extensions
* and optional a daemon worker process. The performance types are identified
* here, and organized into levels. Such that a caller may enforce rigor or
* relax the performance expectations of a osquery daemon.
*/
enum WatchdogLimitType {
MEMORY_LIMIT,
UTILIZATION_LIMIT,
RESPAWN_LIMIT,
RESPAWN_DELAY,
LATENCY_LIMIT,
INTERVAL,
};
/**
* @brief A performance state structure for an autoloaded extension or worker.
*
* A watcher thread will continue to check the performance state, and keep a
* last-checked snapshot for each autoloaded extension and worker process.
*/
struct PerformanceState {
/// A counter of how many intervals the process exceeded performance limits.
size_t sustained_latency;
/// The last checked user CPU time.
size_t user_time;
/// The last checked system CPU time.
size_t system_time;
/// A timestamp when the process/worker was last created.
size_t last_respawn_time;
/// The initial (or as close as possible) process image footprint.
size_t initial_footprint;
PerformanceState() {
sustained_latency = 0;
user_time = 0;
system_time = 0;
last_respawn_time = 0;
initial_footprint = 0;
}
};
/**
* @brief Thread-safe watched child process state manager.
*
* The Watcher instance is separated from the WatcherRunner thread to allow
* signals and osquery-introspection to monitor the autoloaded extensions
* and optional worker stats. A child-process change signal may indicate an
* autoloaded extension ended. Tables may also report on the historic worker
* or extension utilizations.
*
* Though not critical, it is preferred to remove the extension's broadcasted
* routes quickly. Locking access to the extensions list between signals and
* the WatcherRunner thread allows osquery to tearDown registry changes before
* attempting to respawn an extension process.
*/
class Watcher : private boost::noncopyable {
public:
/// Instance accessor
static Watcher& instance() {
static Watcher instance;
return instance;
}
/// Reset counters after a worker exits.
static void resetWorkerCounters(size_t respawn_time);
/// Reset counters for an extension path.
static void resetExtensionCounters(const std::string& extension,
size_t respawn_time);
/// Lock access to extensions.
static void lock() { instance().lock_.lock(); }
/// Unlock access to extensions.
static void unlock() { instance().lock_.unlock(); }
/// Accessor for autoloadable extension paths.
static const std::map<std::string, pid_t>& extensions() {
return instance().extensions_;
}
/// Lookup extension path from pid.
static std::string getExtensionPath(pid_t child);
/// Remove an autoloadable extension path.
static void removeExtensionPath(const std::string& extension);
/// Add extensions autoloadable paths.
static void addExtensionPath(const std::string& path);
/// Get state information for a worker or extension child.
static PerformanceState& getState(pid_t child);
static PerformanceState& getState(const std::string& extension);
/// Accessor for the worker process.
static pid_t getWorker() { return instance().worker_; }
/// Setter for worker process.
static void setWorker(pid_t child) { instance().worker_ = child; }
/// Setter for an extension process.
static void setExtension(const std::string& extension, pid_t child);
/// Reset pid and performance counters for a worker or extension process.
static void reset(pid_t child);
/**
* @brief Return the state of autoloadable extensions.
*
* Some initialization decisions are made based on waiting for plugins to
* broadcast from potentially-loaded extensions. If no extensions are loaded
* and an active (selected at command line) plugin is missing, fail quickly.
*/
static bool hasManagedExtensions();
private:
/// Do not request the lock until extensions are used.
Watcher() : worker_(-1), lock_(mutex_, boost::defer_lock) {}
Watcher(Watcher const&);
void operator=(Watcher const&);
virtual ~Watcher() {}
private:
/// Performance state for the worker process.
PerformanceState state_;
/// Performance states for each autoloadable extension binary.
std::map<std::string, PerformanceState> extension_states_;
private:
/// Keep the single worker process/thread ID for inspection.
pid_t worker_;
/// Keep a list of resolved extension paths and their managed pids.
std::map<std::string, pid_t> extensions_;
/// Paths to autoload extensions.
std::vector<std::string> extensions_paths_;
private:
/// Mutex and lock around extensions access.
boost::mutex mutex_;
/// Mutex and lock around extensions access.
boost::unique_lock<boost::mutex> lock_;
};
/**
* @brief A scoped locker for iterating over watcher extensions.
*
* A lock must be used if any part of osquery wants to enumerate the autoloaded
* extensions or autoloadable extension paths a Watcher may be monitoring.
* A signal or WatcherRunner thread may stop or start extensions.
*/
class WatcherLocker {
public:
/// Construct and gain watcher lock.
WatcherLocker() { Watcher::lock(); }
/// Destruct and release watcher lock.
~WatcherLocker() { Watcher::unlock(); }
};
/**
* @brief The watchdog thread responsible for spawning/monitoring children.
*
* The WatcherRunner thread will spawn any autoloaded extensions or optional
* osquery daemon worker processes. It will then poll for their performance
* state and kill/respawn osquery child processes if they violate limits.
*/
class WatcherRunner : public InternalRunnable {
public:
/**
* @brief Construct a watcher thread.
*
* @param argc The osquery process argc.
* @param argv The osquery process argv.
* @param use_worker True if the process should spawn and monitor a worker.
*/
explicit WatcherRunner(int argc, char** argv, bool use_worker)
: argc_(argc), argv_(argv), use_worker_(use_worker) {
(void)argc_;
}
private:
/// Dispatcher (this service thread's) entry point.
void start();
/// Boilerplate function to sleep for some configured latency
bool ok();
/// Begin the worker-watcher process.
bool watch(pid_t child);
/// Inspect into the memory, CPU, and other worker/extension process states.
bool isChildSane(pid_t child);
private:
/// Fork and execute a worker process.
void createWorker();
/// Fork an extension process.
bool createExtension(const std::string& extension);
/// If a worker/extension has otherwise gone insane, stop it.
void stopChild(pid_t child);
private:
/// Keep the invocation daemon's argc to iterate through argv.
int argc_;
/// When a worker child is spawned the argv will be scrubbed.
char** argv_;
/// Spawn/monitor a worker process.
bool use_worker_;
};
/// The WatcherWatcher is spawned within the worker and watches the watcher.
class WatcherWatcherRunner : public InternalRunnable {
public:
explicit WatcherWatcherRunner(pid_t watcher) : watcher_(watcher) {}
void start();
private:
pid_t watcher_;
};
/// Get a performance limit by name and optional level.
size_t getWorkerLimit(WatchdogLimitType limit, int level = -1);
}