TODO ==== A collection of ideas and notes about stuff to implement in future versions. "#NNN" occurrences refer to bug tracker issues at: https://github.com/giampaolo/psutil/issues HIGHER PRIORITY =============== * OpenBSD support. * #371: CPU temperature (apparently OSX and Linux only; on Linux it requires lm-sensors lib). * #269: expose network ifaces RX/TW queues. This should probably go into net_if_stats(). Figure out on what platforms this is supported: Linux: yes Others: ? * Process.threads(): thread names; patch for OSX available at: https://code.google.com/p/plcrashreporter/issues/detail?id=65 * Asynchronous psutil.Popen (see http://bugs.python.org/issue1191964) * (Windows) fall back on using WMIC for Process methods returning AccessDenied * #613: thread names. * #604: emulate os.getloadavg() on Windows * #269: NIC rx/tx queue. LOWER PRIORITY ============== * #355: Android support. * #276: GNU/Hurd support. * #429: NetBSD support. * DragonFlyBSD support? * AIX support? * examples/taskmgr-gui.py (using tk). * system-wide number of open file descriptors: * https://jira.hyperic.com/browse/SIGAR-30 * http://www.netadmintools.com/part295.html * Number of system threads. * Windows: http://msdn.microsoft.com/en-us/library/windows/desktop/ms684824(v=vs.85).aspx * #357: what CPU a process is on. * Doc / wiki which compares similarities between UNIX cli tools and psutil. Example: df -a -> psutil.disk_partitions lsof -> psutil.Process.open_files() and psutil.Process.open_connections() killall-> (actual script) tty -> psutil.Process.terminal() who -> psutil.users() DEBATABLE ========= * psutil.proc_tree() something which obtains a {pid:ppid, ...} dict for all running processes in one shot. This can be factored out from Process.children() and exposed as a first class function. PROS: on Windows we can take advantage of _psutil_windows.ppid_map() which is faster than iterating over all pids and calling ppid(). CONS: examples/pstree.py shows this can be easily done in the user code so maybe it's not worth the addition. * advanced cmdline interface exposing the whole API and providing different kind of outputs (e.g. pprinted, colorized, json). * [Linux]: process cgroups (http://en.wikipedia.org/wiki/Cgroups). They look similar to prlimit() in terms of functionality but uglier (they should allow limiting per-process network IO resources though, which is great). Needs further reading. * Should we expose OS constants (psutil.WINDOWS, psutil.OSX etc.)? * Python 3.3. exposed different sched.h functions: http://docs.python.org/dev/whatsnew/3.3.html#os http://bugs.python.org/issue12655 http://docs.python.org/dev/library/os.html#interface-to-the-scheduler It might be worth to take a look and figure out whether we can include some of those in psutil. Also, we can probably reimplement wait_pid() on POSIX which is currently implemented as a busy-loop. * Certain systems provide CPU times about process children. On those systems Process.cpu_times() might return a (user, system, user_children, system_children) ntuple. * Linux: /proc/{PID}/stat * Solaris: pr_cutime and pr_cstime * FreeBSD: none * OSX: none * Windows: none * ...also, os.times() provides 'elapsed' times as well. * ...also Linux provides guest_time and cguest_time. * Enrich exception classes hierarchy on Python >= 3.3 / post PEP-3151 so that: - NoSuchProcess inherits from ProcessLookupError - AccessDenied inherits from PermissionError - TimeoutExpired inherits from TimeoutError (debatable) See: http://docs.python.org/3/library/exceptions.html#os-exceptions * Process.threads() might grow an extra "id" parameter so that it can be used as such: >>> p = psutil.Process(os.getpid()) >>> p.threads(id=psutil.current_thread_id()) thread(id=2539, user_time=0.03, system_time=0.02) >>> Note: this leads to questions such as "should we have a custom NoSuchThread exception? Also see issue #418. Note #2: this would work with os.getpid() only. psutil.current_thread_id() might be desirable as per issue #418 though. * should psutil.TimeoutExpired exception have a 'msg' kwarg similar to NoSuchProcess and AccessDenied? Not that we need it, but currently we cannot raise a TimeoutExpired exception with a specific error string. * process_iter() might grow an "attrs" parameter similar to Process.as_dict() invoke the necessary methods and include the results into a "cache" attribute attached to the returned Process instances so that one can avoid catching NSP and AccessDenied: for p in process_iter(attrs=['cpu_percent']): print(p.cache['cpu_percent']) This also leads questions as whether we should introduce a sorting order. * round Process.memory_percent() result? * #550: number of threads per core. * Have psutil.Process().cpu_affinity([]) be an alias for "all CPUs"? COMPATIBILITY BREAKAGE ====================== Removals (will likely happen in 2.2): * (S) psutil.Process.nice (deprecated in 0.5.0) * (S) get_process_list (deprecated in 0.5.0) * (S) psutil.*mem* functions (deprecated in 0.3.0 and 0.6.0) * (M) psutil.network_io_counters (deprecated in 1.0.0) * (M) local_address and remote_address Process.connection() namedtuple fields (deprecated in 1.0.0) REJECTED IDEAS ============== STUB