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bstore.ml
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open Core
open Lwt
open Baardskeerder
open Unix
open Interval
open Routing
let action2update = function
| Set (k,v) -> Core.SET(unpref_key k,v)
| Delete k -> Core.DELETE (unpref_key k)
let inflate_interval m_v =
let s = Pack.make_input m_v 4 in
let iv = Interval.interval_from s in
iv
let deflate_interval iv =
let p = Pack.make_output 32 in
let () = Interval.interval_to p iv in
Pack.close_output p
let _read_interval (store:BS.t) =
BS.get_latest store (pref_key ~_pf:__admin_prefix Core.__interval_key) >>= function
| OK v -> let iv = inflate_interval v in
Lwt.return (iv,v)
| NOK k -> let iv = Interval.max in
let v = deflate_interval iv in
Lwt.return (iv,v )
module BStore = (struct
type t = { m: Lwt_mutex.t;
store: BS.t;
mutable meta: string option;
read_only: bool;
fn : string;
mutable interval: (Interval.t * string);
}
type tx_result = (v option, Arakoon_exc.rc * k) result
let init fn =
BS.init fn
let create fn read_only =
BS.make fn >>= fun store ->
_read_interval store >>= fun interval ->
let m = Lwt_mutex.create() in
let r = {
m;
store;
meta=None;
read_only;
fn;
interval;
}
in
Lwt.return r
let set_meta t s = Lwt.return (t.meta <- Some s)
let get_meta t = Lwt.return t.meta
let _outside k = Lwt.return (NOK (Arakoon_exc.E_OUTSIDE_INTERVAL, k))
let _not_found k = Lwt.return (NOK (Arakoon_exc.E_NOT_FOUND , k))
let _check_interval is_admin ?(nok=_outside)
t k (ok: k -> 'a) =
let iv,_ = t.interval in
let f =
if is_admin || Interval.is_ok iv k
then ok
else nok
in
f k
let commit t i =
Lwt_mutex.with_lock t.m (fun() -> BS.commit_last t.store)
let close t = BS.close t.store
let log t d u =
let _exec tx :tx_result Lwt.t=
begin
let rec _inner (is_admin:bool) (tx: BS.tx) = function
| Core.SET (k,v) ->
begin
Lwtc.log "set: %s" k >>= fun () ->
_check_interval is_admin t k
(fun k ->
BS.set tx (pref_key k) v >>= fun () -> Lwt.return (OK None)
)
end
| Core.DELETE k ->
begin
Lwtc.log "del: %s" k >>= fun () ->
_check_interval is_admin t k
(fun k ->
BS.delete tx (pref_key k) >>= function
| NOK _ -> _not_found k
| a -> Lwt.return (OK None)
)
end
| Core.TEST_AND_SET (k,eo,wo) ->
begin
_check_interval is_admin t k
(fun k ->
let pk = pref_key k in
let delete () =
BS.delete tx pk >>= function
| OK _ -> Lwt.return (OK None)
| NOK _ -> Lwt.fail (Failure "can't happen")
and set w =
begin
BS.set tx pk w >>= fun () ->
Lwt.return (OK eo)
end
in
match eo with
| None ->
begin
BS.get tx pk >>= function
| OK v -> Lwt.return (OK (Some v))
| NOK _ ->
begin
match wo with
| None -> delete ()
| Some w -> set w
end
end
| Some e ->
begin
BS.get tx pk >>= function
| OK v ->
if v = e
then
match wo with
| None -> delete()
| Some w -> set w
else
Lwt.return (OK (Some v))
| NOK _ ->
Lwt.return (OK None)
end
)
end
| Core.DELETE_PREFIX k ->
begin
Lwtc.log "delete_prefix : %s" k >>= fun () ->
BS.delete_prefix tx (pref_key k) >>= fun c ->
let b = Buffer.create 8 in (* TODO: this means we're doing something wrong *)
let () = Llio.int_to b c in
let v = Buffer.contents b in
Lwt.return (OK (Some v))
end
| Core.ADMIN_SET (k, m_v) ->
Lwtc.log "admin_set: %s %s" k (Log_extra.string_option_to_string m_v) >>= fun () ->
begin
let () =
if k = Core.__interval_key
then
match m_v with
| None -> ()
| Some v ->
let iv = inflate_interval v in
t.interval <- (iv,v)
else ()
in
let k' = pref_key ~_pf:__admin_prefix k in
match m_v with
| None -> BS.delete tx k' >>= fun _ -> Lwt.return (OK None)
| Some v -> BS.set tx k' v >>= fun () ->
begin
Lwt_log.debug_f "ADMIN_SET: %s %S" k v >>= fun () ->
Lwt.return (OK None)
end
end
| Core.SET_ROUTING_DELTA(left,sep,right) ->
begin
let k = pref_key ~_pf:__admin_prefix Core.__routing_key in
BS.get tx k >>= fun rs ->
let r' = match rs with
| NOK _ -> Routing.build ([(left,sep)],right)
| OK v ->
let input = Pack.make_input v 4 in
let r = Routing.routing_from input in
Routing.change r left sep right
in
let rc = Routing.compact r' in
let out = Pack.make_output 80 in
let () = Routing.routing_to out rc in
let routing_s = Pack.close_output out in
BS.set tx k routing_s >>= fun _ ->
Lwt.return (OK None)
end
| Core.ASSERT (k, m_v) ->
begin
BS.get tx (pref_key k) >>= fun r ->
let (r':tx_result) = match r with
| OK v' ->
if m_v <> (Some v')
then NOK (Arakoon_exc.E_ASSERTION_FAILED, k)
else OK None
| NOK k ->
if m_v <> None
then NOK (Arakoon_exc.E_ASSERTION_FAILED, k)
else OK None
in
Lwt.return r'
end
| Core.ASSERT_EXISTS (k) ->
begin
BS.get tx (pref_key k) >>= fun r ->
let (r':tx_result) = match r with
| OK v' -> OK None
| NOK k -> NOK (Arakoon_exc.E_ASSERTION_FAILED, k)
in
Lwt.return r'
end
| Core.SEQUENCE s -> _sequence is_admin tx s
| Core.ADMIN_SEQUENCE s ->
Lwtc.log "ADMIN_SEQUENCE" >>= fun () ->
_sequence true tx s
| Core.USER_FUNCTION (name, po) ->
begin
let f = Userdb.Registry.lookup name in
f tx po >>= fun ro ->
Lwtc.log "Bstore.returning %s" (Log_extra.string_option_to_string ro) >>= fun () ->
let a = match ro with
| None -> OK None
| Some v -> OK (Some v)
in
Lwt.return a
end
and _sequence is_admin tx s =
Lwt_list.fold_left_s
(fun a u ->
match a with
| OK _ -> _inner is_admin tx u (* throws away the intermediate result *)
| a -> Lwt.return a
)
(OK None)
s
in _inner false tx u
end
in
Lwt_mutex.with_lock t.m (fun () -> BS.log_update t.store ~diff:d _exec)
let is_read_only t = t.read_only
let last_update t =
BS.last_update t.store >>= fun m_last ->
begin
match m_last with
| None -> Lwt.return None
| Some (i_time, ups, committed) ->
begin
let tick_i = ITick.from_int64 i_time in
let cvo =
if committed
then None
else
match ups with
| [] -> failwith "No update logged???"
| a :: [] -> Some (action2update a)
| _ -> let convs = List.fold_left ( fun acc a -> action2update a :: acc ) [] ups in
Some (Core.SEQUENCE convs)
in
Lwt.return (Some (tick_i, cvo))
end
end
let get_interval t = t.interval
let admin_get t k =
if k = Core.__interval_key
then
let (_,v) = get_interval t in
Lwt.return (Some v)
else
BS.get_latest t.store (pref_key ~_pf:__admin_prefix k) >>= function
| OK v -> begin Lwt_log.debug_f "admin_get %s --> %S" k v >>= fun () -> Lwt.return (Some v) end
| NOK k -> Lwt.return None
let get t k =
BS.get_latest t.store (pref_key k) >>= function
| OK v -> Lwt.return (Some v)
| NOK k -> Lwt.return None
let opx first= function
| None when first -> Some (pref_key "")
| None -> None
| Some k -> Some (pref_key k)
let range t first finc last linc max =
BS.range_latest t.store
(opx true first ) finc
(opx false last) linc
max
>>= fun ks ->
Lwt.return (List.map unpref_key ks)
let __prefix_keys t prefix max p =
let prefix' = pref_key ~_pf:p prefix in
Lwtc.log "prefix' = %S" prefix' >>= fun () ->
BS.prefix_keys_latest t.store prefix' max >>= fun keys ->
let u = List.map (unpref_key ~_pf:p) keys in
Lwt.return u
let prefix_keys t prefix max =
__prefix_keys t prefix max __prefix
let admin_prefix_keys t prefix =
__prefix_keys t prefix None __admin_prefix
let last_entries t (t0:Core.ITick.t) (oc:Llio.lwtoc) =
let i0 = ITick.to_int64 t0 in
let f acc i actions =
Lwtc.log "f ... %Li ..." i >>= fun () ->
Llio.output_int64 oc i >>= fun () ->
Llio.output_list output_action oc actions >>= fun () ->
Lwt.return acc
in
let a0 = () in
Lwtc.log "Bstore.last_entries %Li" i0 >>= fun () ->
BS.catchup t.store i0 f a0 >>= fun a ->
Lwtc.log "Bstore.last_entries done">>= fun () ->
Lwt.return ()
let _do_range_entries inner left_flag t first finc last linc max =
let fopx = opx left_flag first
and lopx = opx false last
in
Lwtc.log "_do_range_entries fopx:%s lopx:%s"
(Log_extra.string_option_to_string fopx)
(Log_extra.string_option_to_string lopx)
>>= fun () ->
inner t.store fopx finc lopx linc max
>>= fun kvs ->
let c0 = __admin_prefix.[0] in
let kvs' = List.filter (fun (k,_) -> k.[0] <> c0) kvs in
let unpref_kv (k,v) = (unpref_key k, v) in
Lwt.return (List.map unpref_kv kvs')
let range_entries t first finc last linc max =
Lwtc.log "range_rentries %s %b %s %b"
(Log_extra.string_option_to_string first) finc
(Log_extra.string_option_to_string last) linc
>>= fun () ->
_do_range_entries BS.range_entries_latest true t first finc last linc max
let rev_range_entries t first finc last linc max =
Lwtc.log "rev_range_entries %s %b %s %b"
(Log_extra.string_option_to_string first) finc
(Log_extra.string_option_to_string last) linc
>>= fun () ->
_do_range_entries BS.rev_range_entries_latest false t first finc last linc max
let get_fringe t boundary direction =
Lwtc.log "Bstore.get_fringe" >>= fun () ->
let last_key kvs =
let rec _loop = function
| [] -> failwith "Empty"
| [(k,_)] -> k
| _ :: y -> _loop y
in
_loop kvs
in
let limit = 1 * 1024 * 1024 in
let _inner () =
let size = Some 100 in
match direction with
| Routing.LOWER_BOUND ->
begin
Lwtc.log "Bstore LOWER_BOUND fringe" >>= fun () ->
let rec loop start mem acc =
rev_range_entries t start false boundary true size >>= fun kvs_rev ->
let len = List.length kvs_rev in
if len = 0
then Lwt.return (List.rev acc, mem)
else
let acc' = acc @ kvs_rev in
let start' = Some (last_key kvs_rev) in
let mem' = List.fold_left
(fun mem (k,v) ->
mem + String.length k + String.length v) mem kvs_rev
in
if mem' < limit
then loop start' mem' acc'
else Lwt.return (acc', mem')
in
loop None 0 []
end
| Routing.UPPER_BOUND ->
begin
Lwtc.log "Bstore UPPER_BOUND fringe" >>= fun () ->
let rec loop start mem acc =
range_entries t start false boundary false size >>= fun kvs ->
let len = List.length kvs in
if len = 0
then return (acc, mem)
else
let acc' = acc @ kvs in
let start' = Some (last_key kvs) in
let mem' = List.fold_left
(fun mem (k,v) -> mem + String.length k + String.length v) mem kvs in
if mem' < limit
then
loop start' mem' acc'
else
Lwt.return (acc', mem')
in
loop None 0 []
end
in
Lwt_mutex.with_lock t.m _inner >>= fun (kvs,mem) ->
Lwtc.log "get_fringe retuns a chunk of %i bytes" mem >>= fun () ->
let kvs' = List.sort (fun (k2,_) (k1,_) -> String.compare k1 k2)kvs in (* not needed *)
Lwt_log.debug_f "get_fringe yields %i kvs" (List.length kvs') >>= fun () ->
Lwt_list.iter_s (fun (k,v) -> Lwt_log.debug_f "key:%s" k) kvs' >>= fun () ->
Lwt.return kvs'
let raw_dump t (oc:Lwtc.oc) =
File_system.stat t.fn >>= fun stat ->
let length = Int64.of_int stat.st_size in
Lwtc.log "dumping file of size %Li" length >>= fun () ->
Llio.output_int64 oc length >>= fun () ->
Lwt_io.with_file ~mode:Lwt_io.input t.fn
(fun ic -> Llio.copy_stream ~length ~ic ~oc)
>>= fun () ->
Lwt_io.flush oc >>= fun () ->
Lwtc.log "raw_dump: flushed & done"
let get_key_count t = BS.key_count_latest t.store
let dump t = (* TODO: need a better name *)
let iv,_ = get_interval t in
Lwt_io.printlf "interval:\t%s" (Interval.to_string iv) >>= fun ()->
Lwt_io.printf "last :\t" >>= fun () ->
last_update t >>= function
| None -> Lwt_io.printl "None"
| Some (i,_) -> Lwt_io.printlf "Some (%s, _ )" (Core.ITickUtils.tick2s i)
(* ... *)
end: STORE)