albatross/app/vmm_influxdb_stats.ml

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(* (c) 2018 Hannes Mehnert, all rights reserved *)
open Lwt.Infix
open Astring
open Vmm_core
(*
line protocol:
```
<measurement>[,<tag_key>=<tag_value>[,<tag_key>=<tag_value>]] \
<field_key>=<field_value>[,<field_key>=<field_value>] [<timestamp>]
```
(measurement, tag_key, tag_value, field_key are all strings, index over tags)
* Quoting
Element Double quotes Single quotes
---------------------------------------------
Timestamp Never Never
Measurements, tag keys, tag values, field keys Never* Never*
Field values Double quote string field values. Do not double quote floats,
integers, or Booleans. Never
*=Line Protocol allows users to double and single quote measurement names, tag
keys, tag values, and field keys. It will, however, assume that the double or
single quotes are part of the name, key, or value. This can complicate query
syntax (see the example below).
Float IEEE-754 64-bit floating-point numbers. This is the default numerical
type. Examples: 1, 1.0, 1.e+78, 1.E+78.
Integer Signed 64-bit integers (-9223372036854775808 to 9223372036854775807).
Specify an integer with a trailing i on the number. Example: 1i.
For tag keys, tag values, and field keys always use a backslash character \ to
escape:
commas ,
equal signs =
spaces
For measurements always use a backslash character \ to escape:
commas ,
spaces
For string field values use a backslash character \ to escape:
double quotes ""
Line Protocol does not require users to escape the backslash character \. Users
do not need to escape all other special characters.
do not use any keywords:
ALL ALTER ANY AS ASC BEGIN
BY CREATE CONTINUOUS DATABASE DATABASES DEFAULT
DELETE DESC DESTINATIONS DIAGNOSTICS DISTINCT DROP
DURATION END EVERY EXPLAIN FIELD FOR
FROM GRANT GRANTS GROUP GROUPS IN
INF INSERT INTO KEY KEYS KILL
LIMIT SHOW MEASUREMENT MEASUREMENTS NAME OFFSET
ON ORDER PASSWORD POLICY POLICIES PRIVILEGES
QUERIES QUERY READ REPLICATION RESAMPLE RETENTION
REVOKE SELECT SERIES SET SHARD SHARDS
SLIMIT SOFFSET STATS SUBSCRIPTION SUBSCRIPTIONS TAG
TO USER USERS VALUES WHERE WITH
WRITE
*)
module P = struct
let tv (sec, usec) = Printf.sprintf "%Lu.%06d" sec usec
let i64 i = Printf.sprintf "%Lui" i
let encode_ru vm ru =
let fields =
[ "utime", tv ru.utime ;
"stime", tv ru.stime ;
"maxrss", i64 ru.maxrss ;
"ixrss", i64 ru.ixrss ;
"idrss", i64 ru.idrss ;
"isrss", i64 ru.isrss ;
"minflt", i64 ru.minflt ;
"maxflt", i64 ru.majflt ;
"nswap", i64 ru.nswap ;
"inblock", i64 ru.inblock ;
"outblock", i64 ru.outblock ;
"msgsnd", i64 ru.msgsnd ;
"msgrcv", i64 ru.msgrcv ;
"nsignals", i64 ru.nsignals ;
"nvcsw", i64 ru.nvcsw ;
"nivcsw", i64 ru.nivcsw
]
in
let fields = List.map (fun (k, v) -> k ^ "=" ^ v) fields in
Printf.sprintf "resource_usage,vm=%s %s" vm (String.concat ~sep:"," fields)
let encode_vmm vm xs =
let escape s =
let cutted = String.cuts ~sep:"," s in
let cutted = String.concat ~sep:"\\," cutted in
let cutted = String.cuts ~sep:" " cutted in
let cutted = String.concat ~sep:"\\ " cutted in
let cutted = String.cuts ~sep:"=" cutted in
String.concat ~sep:"\\=" cutted
in
Printf.sprintf "vmm,vm=%s %s" vm
(String.concat ~sep:","
(List.map (fun (k, v) -> (escape k) ^ "=" ^ (i64 v)) xs))
let i32 i = Printf.sprintf "%lui" i
let encode_if vm ifd =
let fields =
(* TODO: flags *)
[ "send_queue_length", i32 ifd.send_length ;
"max_send_queue_length", i32 ifd.max_send_length ;
"send_queue_drops", i32 ifd.send_drops ;
"mtu", i32 ifd.mtu ;
"baudrate", i64 ifd.baudrate ;
"vm_to_host_packets", i64 ifd.input_packets ;
"vm_to_host_errors", i64 ifd.input_errors ;
"vm_to_host_bytes", i64 ifd.input_bytes ;
"vm_to_host_mcast", i64 ifd.input_mcast ;
"vm_to_host_dropped", i64 ifd.input_dropped ;
"collisions", i64 ifd.collisions ;
"host_to_vm_packets", i64 ifd.output_packets ;
"host_to_vm_errors", i64 ifd.output_errors ;
"host_to_vm_bytes", i64 ifd.output_bytes ;
"host_to_vm_mcast", i64 ifd.output_mcast ;
"host_to_vm_dropped", i64 ifd.output_dropped
]
in
let fields = List.map (fun (k, v) -> k ^ "=" ^ v) fields in
Printf.sprintf "interface,vm=%s,ifname=%s %s"
vm ifd.name (String.concat ~sep:"," fields)
end
let my_version = `WV1
let command = ref 1
let (req : string IM.t ref) = ref IM.empty
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let str_of_e = function
| `Eof -> "end of file"
| `Exception -> "exception"
| `Toomuch -> "too much"
| `Msg m -> m
(* how many times did I write this now? *)
let safe_close s = Lwt.catch (fun () -> Lwt_unix.close s) (fun _ -> Lwt.return_unit)
let rec read_sock_write_tcp db c ?fd addr addrtype =
match fd with
| None ->
let fd = Lwt_unix.socket addrtype Lwt_unix.SOCK_STREAM 0 in
Lwt_unix.setsockopt fd Lwt_unix.SO_KEEPALIVE true ;
Lwt.catch (fun () -> Lwt_unix.connect fd addr)
(fun e ->
let addr', port = match addr with
| Lwt_unix.ADDR_INET (ip, port) -> Unix.string_of_inet_addr ip, port
| Lwt_unix.ADDR_UNIX addr -> addr, 0
in
Logs.warn (fun m -> m "error %s connecting to influxd %s:%d, retrying in 5s"
(Printexc.to_string e) addr' port) ;
safe_close fd >>= fun () ->
Lwt_unix.sleep 5.0 >>= fun () ->
read_sock_write_tcp db c addr addrtype) >>= fun () ->
read_sock_write_tcp db c ~fd addr addrtype
| Some fd ->
let open Vmm_wire in
Vmm_lwt.read_exactly c >>= function
| Error e ->
Logs.err (fun m -> m "error %s while reading vmm socket (return)"
(str_of_e e)) ;
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Lwt.return_unit
| Ok (hdr, data) ->
Logs.debug (fun m -> m "%d read %d data" hdr.id (String.length data)) ;
if not (version_eq hdr.version my_version) then begin
Logs.err (fun m -> m "unknown wire protocol version") ;
Lwt.return_unit
end else
let name = IM.find hdr.id !req in
req := IM.remove hdr.id !req ;
match Stats.int_to_op hdr.tag with
| Some Stats.Stat_reply ->
begin match Vmm_wire.Stats.decode_stats (Cstruct.of_string data) with
| Error (`Msg msg) ->
Logs.warn (fun m -> m "error %s while decoding stats %s, ignoring"
msg name) ;
read_sock_write_tcp db c ~fd addr addrtype
| Ok (ru, vmm, ifs) ->
let ru = P.encode_ru name ru in
let vmm = P.encode_vmm name vmm in
let taps = List.map (P.encode_if name) ifs in
let out = (String.concat ~sep:"\n" (ru :: vmm :: taps)) ^ "\n" in
Vmm_lwt.write_raw fd out >>= function
| Ok () -> read_sock_write_tcp db c ~fd addr addrtype
| Error e ->
Logs.err (fun m -> m "error %s while writing to tcp (%s)"
(str_of_e e) name) ;
safe_close fd >>= fun () ->
read_sock_write_tcp db c addr addrtype
end
| _ when hdr.tag = fail_tag ->
Logs.err (fun m -> m "failed to retrieve statistics for %s" name) ;
read_sock_write_tcp db c ~fd addr addrtype
| _ ->
Logs.err (fun m -> m "unhandled tag %d for %s" hdr.tag name) ;
read_sock_write_tcp db c ~fd addr addrtype
let rec query_sock prefix db c interval =
(* query c for everyone in db *)
Lwt_list.iter_s (fun (id, name) ->
let id = identifier id in
let id = match prefix with None -> id | Some p -> p ^ "." ^ id in
let request = Vmm_wire.Stats.stat !command my_version id in
req := IM.add !command name !req ;
incr command ;
Vmm_lwt.write_raw c request >>= function
| Ok () -> Lwt.return_unit
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| Error e ->
Logs.err (fun m -> m "error while writing to vmm socket %s: %s"
id (str_of_e e)) ;
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Lwt.fail_with "exception while writing")
db >>= fun () ->
Lwt_unix.sleep (float_of_int interval) >>= fun () ->
query_sock prefix db c interval
let maybe_connect stat_socket =
let c = Lwt_unix.(socket PF_UNIX SOCK_STREAM 0) in
Lwt.catch
(fun () ->
Lwt_unix.(connect c (ADDR_UNIX stat_socket)) >>= fun () ->
Lwt.return c)
(fun e ->
Logs.warn (fun m -> m "error %s connecting to socket %s"
(Printexc.to_string e) stat_socket) ;
Lwt.fail_with "cannot connect to stat socket")
let client stat_socket influxhost influxport db prefix interval =
(* start a socket connection to vmm_stats *)
maybe_connect stat_socket >>= fun c ->
(* figure out address of influx *)
Lwt_unix.gethostbyname influxhost >>= fun host_entry ->
let host_inet_addr = Array.get host_entry.Lwt_unix.h_addr_list 0 in
let addr = Lwt_unix.ADDR_INET (host_inet_addr, influxport)
and addrtype = host_entry.Lwt_unix.h_addrtype
in
(* loop *)
let rec loop c =
Lwt.catch (fun () ->
Lwt.pick [
query_sock prefix db c interval ;
read_sock_write_tcp db c addr addrtype
])
(fun _ ->
safe_close c >>= fun () ->
maybe_connect stat_socket >>= fun c ->
loop c)
in
loop c
let run_client _ socket (influxhost, influxport) db prefix interval =
Sys.(set_signal sigpipe Signal_ignore) ;
let db =
let open Rresult.R.Infix in
match Bos.OS.File.read_lines (Fpath.v db) >>= parse_db with
| Ok [] -> invalid_arg "empty database"
| Ok db -> db
| Error (`Msg m) -> invalid_arg ("couldn't parse database " ^ m)
in
Lwt_main.run (client socket influxhost influxport db prefix interval)
let setup_log style_renderer level =
Fmt_tty.setup_std_outputs ?style_renderer ();
Logs.set_level level;
Logs.set_reporter (Logs_fmt.reporter ~dst:Format.std_formatter ())
open Cmdliner
let setup_log =
Term.(const setup_log
$ Fmt_cli.style_renderer ()
$ Logs_cli.level ())
let host_port : (string * int) Arg.converter =
let parse s =
match String.cut ~sep:":" s with
| None -> `Error "broken: no port specified"
| Some (hostname, port) ->
try
`Ok (hostname, int_of_string port)
with
Not_found -> `Error "failed to parse port"
in
parse, fun ppf (h, p) -> Format.fprintf ppf "%s:%d" h p
let socket =
let doc = "Stat socket to connect onto" in
Arg.(required & pos 0 (some string) None & info [] ~doc)
let influx =
Arg.(required & pos 1 (some host_port) None & info [] ~docv:"influx"
~doc:"the influx hostname:port to connect to")
let db =
let doc = "VMID database" in
Arg.(required & pos 2 (some file) None & info [] ~doc)
let prefix =
let doc = "prefix" in
Arg.(value & opt (some string) None & info [ "prefix" ] ~doc)
let interval =
let doc = "Poll interval in seconds" in
Arg.(value & opt int 10 & info [ "interval" ] ~doc)
let cmd =
let doc = "VMM InfluxDB connector" in
let man = [
`S "DESCRIPTION" ;
`P "$(tname) connects to a vmm stats socket, pulls statistics and pushes them via TCP to influxdb" ]
in
Term.(pure run_client $ setup_log $ socket $ influx $ db $ prefix $ interval),
Term.info "vmm_influxdb_stats" ~version:"%%VERSION_NUM%%" ~doc ~man
let () =
match Term.eval cmd
with `Error _ -> exit 1 | _ -> exit 0