Source file metrics_rusage.ml
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type rusage = {
utime : int64 * int;
stime : int64 * int;
maxrss : int64;
ixrss : int64;
idrss : int64;
isrss : int64;
minflt : int64;
majflt : int64;
nswap : int64;
inblock : int64;
outblock : int64;
msgsnd : int64;
msgrcv : int64;
nsignals : int64;
nvcsw : int64;
nivcsw : int64;
}
type kinfo_mem = {
vsize : int64;
rss : int64;
tsize : int64;
dsize : int64;
ssize : int64;
runtime : int64;
cow : int;
start : int64 * int;
}
let ( let* ) = Result.bind
external sysconf_clock_tick : unit -> int = "metrics_sysconf_clock_tick"
external sysctl_kinfo_proc : int -> kinfo_mem = "metrics_sysctl_kinfo_proc"
external getrusage : unit -> rusage = "metrics_rusage"
external uname : unit -> string = "metrics_uname"
let wrap f arg = try Ok (f arg) with e -> Error (`Msg (Printexc.to_string e))
let string_of_file filename =
try
let fh = open_in filename in
let content = input_line fh in
close_in_noerr fh;
Ok content
with _ -> Error (`Msg (Fmt.str "Error reading file %S" filename))
let parse_proc_stat s =
match String.rindex_opt s ')' with
| None -> Error (`Msg "unable to parse /proc/self/stat")
| Some idx ->
let rest = String.sub s idx (String.length s - idx) in
Ok (String.split_on_char ' ' rest)
let linux_kinfo () =
let* start =
match Unix.stat "/proc/self" with
| { Unix.st_ctime = start; _ } ->
let frac = Float.rem start 1. in
Ok (Int64.of_float start, int_of_float (frac *. 1_000_000.))
| exception Unix.Unix_error (Unix.ENOENT, _, _) ->
Error (`Msg "failed to stat process")
in
let* data = string_of_file "/proc/self/stat" in
let* stat_vals = parse_proc_stat data in
let* data = string_of_file "/proc/self/statm" in
let statm_vals = String.split_on_char ' ' data in
let i64 s =
try Ok (Int64.of_string s)
with Failure _ -> Error (`Msg "couldn't parse integer")
in
let us_of_int64 t =
let clock_tick = Int64.of_int (sysconf_clock_tick ()) in
let ( * ) = Int64.mul and ( / ) = Int64.div in
t * 1_000_000L / clock_tick
in
if List.length stat_vals >= 50 && List.length statm_vals >= 7 then
let* utime = i64 (List.nth stat_vals 11) in
let* stime = i64 (List.nth stat_vals 12) in
let runtime = us_of_int64 Int64.(add utime stime) in
let* vsize = i64 (List.nth stat_vals 20) in
let* = i64 (List.nth stat_vals 21) in
let* tsize = i64 (List.nth statm_vals 3) in
let* dsize = i64 (List.nth statm_vals 5) in
let* ssize = i64 (List.nth statm_vals 5) in
Ok { vsize; rss; tsize; dsize; ssize; runtime; cow = 0; start }
else Error (`Msg "couldn't read /proc/self/stat")
let tv (sec, usec) = Int64.to_float sec +. (float_of_int usec /. 1_000_000.)
open Metrics
let rusage_src ~tags =
let doc = "System rusage counters" in
let graph = Graph.v ~title:doc ~ylabel:"value" () in
let data () =
match wrap getrusage () with
| Error (`Msg _) -> Data.v []
| Ok ru ->
Data.v
[
float "utime" ~graph (tv ru.utime);
float "stime" ~graph (tv ru.stime);
uint64 "maxrss" ~graph ru.maxrss;
uint64 "ixrss" ~graph ru.ixrss;
uint64 "idrss" ~graph ru.idrss;
uint64 "isrss" ~graph ru.isrss;
uint64 "minflt" ~graph ru.minflt;
uint64 "maxflt" ~graph ru.majflt;
uint64 "nswap" ~graph ru.nswap;
uint64 "inblock" ~graph ru.inblock;
uint64 "outblock" ~graph ru.outblock;
uint64 "msgsnd" ~graph ru.msgsnd;
uint64 "msgrcv" ~graph ru.msgrcv;
uint64 "nsignals" ~graph ru.nsignals;
uint64 "nvcsw" ~graph ru.nvcsw;
uint64 "nivcsw" ~graph ru.nivcsw;
]
in
Src.v ~doc ~tags ~data "resource_usage"
let kinfo_mem_src ~tags =
let doc = "System kernel information" in
let graph = Graph.v ~title:doc ~ylabel:"value" () in
let uname = uname () and pid = Unix.getpid () in
let kinfo () =
match uname with
| "FreeBSD" -> wrap sysctl_kinfo_proc pid
| "Linux" -> linux_kinfo ()
| s -> Error (`Msg ("unsupported operating system " ^ s))
in
(match kinfo () with
| Error (`Msg msg) ->
Logs.err (fun m -> m "error while collecting kinfo: %s" msg)
| Ok _ -> ());
let data () =
match kinfo () with
| Error _ -> Data.v []
| Ok mem ->
let now = Unix.gettimeofday () in
let uptime = now -. tv mem.start in
Data.v
[
uint64 "vsize" ~graph mem.vsize;
uint64 "rss" ~graph mem.rss;
uint64 "tsize" ~graph mem.tsize;
uint64 "dsize" ~graph mem.dsize;
uint64 "ssize" ~graph mem.ssize;
uint "cow_faults" ~graph mem.cow;
uint64 "runtime" ~graph mem.runtime;
float "uptime" ~graph uptime;
]
in
Src.v ~doc ~tags ~data "kinfo_mem"