(*****************************************************************************) (* *) (* Open Source License *) (* Copyright (c) 2023 Nomadic Labs, *) (* *) (* Permission is hereby granted, free of charge, to any person obtaining a *) (* copy of this software and associated documentation files (the "Software"),*) (* to deal in the Software without restriction, including without limitation *) (* the rights to use, copy, modify, merge, publish, distribute, sublicense, *) (* and/or sell copies of the Software, and to permit persons to whom the *) (* Software is furnished to do so, subject to the following conditions: *) (* *) (* The above copyright notice and this permission notice shall be included *) (* in all copies or substantial portions of the Software. *) (* *) (* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR*) (* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *) (* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *) (* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER*) (* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING *) (* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER *) (* DEALINGS IN THE SOFTWARE. *) (* *) (*****************************************************************************) open Error_monad (* This LRU aims to contains ['value Store.t] which handles the persistent storage for this value. [Store.t] allows to keep in memory the content of the file. However, because there could be numerous values to store, we use an LRU to avoid memory leaks. *) module LRU = Aches_lwt.Lache.Make_result (Aches.Rache.Transfer (Aches.Rache.LRU) (struct type t = string let equal = String.equal let hash = Hashtbl.hash end)) type ('key, 'value) t = | E : { file_of : 'key -> 'value Stored_data.file; (* Map a [key] to the file containing the corresponding [value]. *) read_lru : ('value Stored_data.t, tztrace) LRU.t; (* LRU which keeps in memory the last [values] stored for reads. *) write_lru : ('value Stored_data.t, tztrace) LRU.t; (* LRU which keeps in memory the last [values] stored for writes. *) pool : unit Lwt_pool.t option; (* An optional pool to ensure an upper bound of the number of file descriptors opened by this store. *) } -> ('key, 'value) t (* FIXME https://gitlab.com/tezos/tezos/-/issues/4643 The reason why there are two LRUs and not one, is that in the case of concurrent reads and writes, the LRU cannot prevent the absence of race. To prevent that we use two LRUs to be able to discriminate between the various concurrent accesses. In particular, while reading a value, we want to wait if there is a write in progress. Vice versa, if a read fails, we don't want to make the next write to fail. In practice, there should not be a duplication in memory of the values read since values are shared. *) let with_pool pool f = match pool with None -> f () | Some pool -> Lwt_pool.use pool f let init ?pool ~lru_size file_of = let write_lru = LRU.create lru_size in let read_lru = LRU.create lru_size in E {file_of; write_lru; read_lru; pool} let read_value (E {write_lru; read_lru; file_of; pool}) key = let open Lwt_result_syntax in let file = file_of key in match LRU.take write_lru file.path with | None -> LRU.bind_or_put read_lru file.path (fun _path -> with_pool pool (fun () -> Stored_data.load file)) (function | Error err -> fail err | Ok store -> let*! value = Stored_data.get store in Lwt.return_ok value) | Some store_promise -> LRU.put write_lru file.path store_promise ; let* store = store_promise in let*! value = Stored_data.get store in LRU.put read_lru file.path (return store) ; Lwt.return_ok value let write_value (type value) ?(override = false) (E {write_lru; read_lru; file_of; pool}) key (value : value) = let open Lwt_result_syntax in let file = file_of key in let write () = LRU.bind_or_put write_lru file.path (fun _path -> with_pool pool (fun () -> let open Lwt_utils_unix in let*! () = create_dir (Filename.dirname file.path) in Stored_data.init file ~initial_data:value)) (function | Error err -> fail err | Ok store -> LRU.put read_lru file.path (return store) ; let* x = Stored_data.update_with store (fun (_ : value) -> Lwt.return value) in return x) in match LRU.take write_lru file.path with | None -> write () | Some store_promise -> if override then ( let new_store_promise = (* The code below is quite tricky. Assume the follow scenario: [W(key=0,override=false,value=0);W(key=0,override=true,value=1); R(0)]. All the three operations can be run in parallel, but the order is the one given by the list before. If we keep the current store, it may be possible that R(0) observes the value 0. This is because the LRU does not give the guarantee that the `update_with` store will be run after the one of the first write. *) let* _store = store_promise in let* store = Stored_data.load file in let* () = Stored_data.update_with store (fun _ -> Lwt.return value) in return store in LRU.put write_lru file.path new_store_promise ; let* _store = new_store_promise in return_unit) else ( LRU.put write_lru file.path store_promise ; let* _store = store_promise in return_unit) let write_values ?override t seq = Seq.ES.iter (fun (key, value) -> write_value ?override t key value) seq let read_values t seq = let open Lwt_syntax in Seq_s.of_seq seq |> Seq_s.S.map (fun key -> let* maybe_value = read_value t key in return (key, maybe_value))