ligo/test/test_state.ml

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(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2016. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
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open Hash
open Error_monad
let (//) = Filename.concat
(** Basic blocks *)
let genesis_block =
Block_hash.of_b48check
"eeeeeeeeeeeeeeefcF2dFpTjGjPAxRM3TqDrKkJf7DdkNHpX3DmaD"
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let genesis_protocol =
Protocol_hash.of_b48check
"2gagsSEvTKAHRjxAamgSdBNkv39VtNCqpaDXrrH4K8R4KQAAHrhe3"
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let genesis_time =
Time.of_seconds 0L
module Proto = (val Updater.get_exn genesis_protocol)
let genesis = {
Store.time = genesis_time ;
block = genesis_block ;
protocol = genesis_protocol ;
}
let incr_fitness fitness =
let new_fitness =
match fitness with
| [ _ ; fitness ] ->
Pervasives.(
Data_encoding.Binary.of_bytes Data_encoding.int64 fitness
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|> Utils.unopt ~default:0L
|> Int64.succ
|> Data_encoding.Binary.to_bytes Data_encoding.int64
)
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| _ -> Data_encoding.Binary.to_bytes Data_encoding.int64 1L
in
[ MBytes.of_string "\000" ; new_fitness ]
let incr_timestamp timestamp =
Time.add timestamp (Random.int64 10L)
let operation op =
let op : Store.operation = {
shell = { net_id = Net genesis_block } ;
proto = MBytes.of_string op ;
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} in
Store.Operation.hash op,
op,
Store.Operation.to_bytes op
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let block state ?(operations = []) pred_hash pred name : Store.block =
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let fitness = incr_fitness pred.Store.shell.fitness in
let timestamp = incr_timestamp pred.Store.shell.timestamp in
{ shell = {
net_id = pred.shell.net_id ;
predecessor = pred_hash ;
timestamp ; operations; fitness } ;
proto = MBytes.of_string name ;
}
let build_chain state tbl otbl pred names =
Lwt_list.fold_left_s
(fun (pred_hash, pred) name ->
begin
let oph, op, bytes = operation name in
State.Operation.store state bytes >>=? fun op' ->
Assert.equal_operation ~msg:__LOC__ (Some (oph, op)) op' ;
State.Operation.mark_invalid state oph [] >>= fun state_invalid ->
Assert.is_true ~msg:__LOC__ state_invalid ;
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Hashtbl.add otbl name (oph, Error []) ;
let block = block ~operations:[oph] state pred_hash pred name in
let hash = Store.Block.hash block in
State.Block.store state (Store.Block.to_bytes block) >>=? fun block' ->
Assert.equal_block ~msg:__LOC__ (Some (hash, block)) block' ;
State.Valid_block.store_invalid state hash [] >>= fun store_invalid ->
Assert.is_true ~msg:__LOC__ store_invalid ;
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Hashtbl.add tbl name (hash, block) ;
return (hash, block)
end >>= function
| Ok v -> Lwt.return v
| Error err ->
Error_monad.pp_print_error Format.err_formatter err ;
assert false)
pred
names >>= fun _ ->
Lwt.return ()
let block state ?(operations = []) (pred: State.Valid_block.t) name
: State.Block. t =
let fitness = incr_fitness pred.fitness in
let timestamp = incr_timestamp pred.timestamp in
{ shell = { net_id = pred.net_id ;
predecessor = pred.hash ;
timestamp ; operations; fitness } ;
proto = MBytes.of_string name ;
}
let build_valid_chain state net tbl vtbl otbl pred names =
Lwt_list.fold_left_s
(fun pred name ->
begin
let oph, op, bytes = operation name in
State.Operation.store state bytes >>=? fun op' ->
Assert.equal_operation ~msg:__LOC__ (Some (oph, op)) op' ;
State.Net.Mempool.add net oph >>= fun add_status ->
Assert.is_true ~msg:__LOC__ add_status ;
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Hashtbl.add otbl name (oph, Ok op) ;
let block = block state ~operations:[oph] pred name in
let hash = Store.Block.hash block in
State.Block.store state (Store.Block.to_bytes block) >>=? fun block' ->
Assert.equal_block ~msg:__LOC__ (Some (hash, block)) block' ;
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Hashtbl.add tbl name (hash, block) ;
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Lwt.return (Proto.parse_block block) >>=? fun block ->
Proto.apply pred.context block [] >>=? fun ctxt ->
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State.Valid_block.store state hash ctxt >>=? fun vblock ->
Hashtbl.add vtbl name vblock ;
return vblock
end >>= function
| Ok v -> Lwt.return v
| Error err ->
Error_monad.pp_print_error Format.err_formatter err ;
assert false)
pred
names >>= fun _ ->
Lwt.return ()
let build_example_tree state net =
let tbl = Hashtbl.create 23 in
let vtbl = Hashtbl.create 23 in
let otbl = Hashtbl.create 23 in
State.Net.Blockchain.genesis net >>= fun genesis ->
let chain = [ "A1" ; "A2" ; "A3" ; "A4" ; "A5" ; "A6" ; "A7" ; "A8" ] in
build_valid_chain state net tbl vtbl otbl genesis chain >>= fun () ->
let a3 = Hashtbl.find vtbl "A3" in
let chain = [ "B1" ; "B2" ; "B3" ; "B4" ; "B5" ; "B6" ; "B7" ; "B8" ] in
build_valid_chain state net tbl vtbl otbl a3 chain >>= fun () ->
let b7 = Hashtbl.find tbl "B7" in
let chain = [ "C1" ; "C2" ; "C3" ; "C4" ; "C5" ; "C6" ; "C7" ; "C8" ] in
build_chain state tbl otbl b7 chain >>= fun () ->
let pending_op = "PP" in
let oph, op, bytes = operation pending_op in
State.Operation.store state bytes >>= fun op' ->
Assert.equal_result
~msg:__LOC__
(Ok (Some (oph, op)))
op'
~equal_ok:Assert.equal_operation
~equal_err:(fun ?msg _ _ -> Assert.fail_msg "Operations differs") ;
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Hashtbl.add otbl pending_op (oph, Ok op) ;
State.Net.Mempool.add net oph >>= fun add_status ->
Assert.is_true ~msg:__LOC__ add_status ;
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Lwt.return (tbl, vtbl, otbl)
type state = {
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block: (string, Block_hash.t * Store.block) Hashtbl.t ;
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operation: (string, Operation_hash.t * Store.operation tzresult) Hashtbl.t ;
vblock: (string, State.Valid_block.t) Hashtbl.t ;
state: State.t ;
net: State.Net.t ;
init: unit -> State.t Lwt.t;
}
let block s = Hashtbl.find s.block
let vblock s = Hashtbl.find s.vblock
let operation s = Hashtbl.find s.operation
exception Found of string
let rev_find s h =
try
Hashtbl.iter (fun k (bh,_) ->
if Block_hash.equal bh h then raise (Found k))
s.block ;
Format.asprintf "genesis(%a)" Block_hash.pp_short h
with Found s -> s
let blocks s =
Pervasives.(
Hashtbl.fold (fun k v acc -> (k,v) :: acc) s.block []
|> List.sort Pervasives.compare)
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let vblocks s =
Pervasives.(
Hashtbl.fold (fun k v acc -> (k,v) :: acc) s.vblock []
|> List.sort Pervasives.compare)
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let operations s =
Pervasives.(
Hashtbl.fold (fun k v acc -> (k,v) :: acc) s.operation []
|> List.sort Pervasives.compare)
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let wrap_state_init f base_dir =
begin
let store_root = base_dir // "store" in
let context_root = base_dir // "context" in
let init () =
State.read
~ttl:(3600 * 24)
~request_operations: (fun _ -> assert false)
~request_blocks: (fun _ -> assert false)
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~request_protocols: (fun _ -> assert false)
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~store_root
~context_root
() in
init () >>= fun state ->
State.Net.create state genesis >>=? fun net ->
State.Net.activate net ;
build_example_tree state net >>= fun (block, vblock, operation) ->
f { state ; net ; block ; vblock ; operation ; init } >>=? fun s ->
State.shutdown s.state >>= fun () ->
return ()
end >>= function
| Ok () -> Lwt.return_unit
| Error err ->
Lwt.return (Error_monad.pp_print_error Format.err_formatter err)
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let save_reload s =
State.shutdown s.state >>= fun () ->
s.init () >>= fun state ->
State.Net.create state genesis >>=? fun net ->
let s = { s with state ; net } in
return s
let test_init (s: state) =
return s
let test_read_operation (s: state) =
Lwt_list.iter_s (fun (name, (oph, op)) ->
State.Operation.read s.state oph >>= function
| None ->
Assert.fail_msg "Cannot read block %s" name
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| Some { Time.data } ->
if op <> data then
Assert.fail_msg "Incorrect operation read %s" name ;
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Lwt.return_unit)
(operations s) >>= fun () ->
return s
(****************************************************************************)
(** State. *)
let test_read_block (s: state) =
Lwt_list.iter_s (fun (name, (hash, block)) ->
begin
State.Block.read s.state hash >>= function
| None ->
Assert.fail_msg "Cannot read block %s" name
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| Some { Time.data = block' ; time } ->
if not (Store.Block.equal block block') then
Assert.fail_msg "Error while reading block %s" name ;
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Lwt.return_unit
end >>= fun () ->
let vblock =
try Some (vblock s name)
with Not_found -> None in
State.Valid_block.read s.state hash >>= function
| None ->
Assert.fail_msg "Cannot read %s" name
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| Some (Error _) ->
if vblock <> None then
Assert.fail_msg "Error while reading valid block %s" name ;
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Lwt.return_unit
| Some (Ok _vblock') ->
match vblock with
| None ->
Assert.fail_msg "Error while reading invalid block %s" name
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| Some _vblock ->
Lwt.return_unit
) (blocks s) >>= fun () ->
return s
(****************************************************************************)
(** State.successors *)
let compare s kind name succs l =
if Block_hash_set.cardinal succs <> List.length l then
Assert.fail_msg
"unexpected %ssuccessors size (%s: %d %d)"
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kind name (Block_hash_set.cardinal succs) (List.length l) ;
List.iter
(fun bname ->
let bh = fst @@ block s bname in
if not (Block_hash_set.mem bh succs) then
Assert.fail_msg
"missing block in %ssuccessors (%s: %s)" kind name bname)
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l
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let test_successors s =
let test s name expected invalid_expected =
let b = vblock s name in
State.Valid_block.read s.state b.hash >>= function
| None | Some (Error _) ->
Assert.fail_msg "Failed while reading block %s" name
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| Some (Ok { successors ; invalid_successors}) ->
compare s "" name successors expected ;
compare s "invalid " name invalid_successors invalid_expected ;
Lwt.return_unit
in
test s "A1" ["A2"] [] >>= fun () ->
test s "A3" ["A4";"B1"] [] >>= fun () ->
test s "A8" [] [] >>= fun () ->
test s "B1" ["B2"] [] >>= fun () ->
test s "B7" ["B8"] ["C1"] >>= fun () ->
return s
(****************************************************************************)
(** State.path *)
let rec compare_path p1 p2 = match p1, p2 with
| [], [] -> true
| h1 :: p1, h2 :: p2 -> Block_hash.equal h1 h2 && compare_path p1 p2
| _ -> false
let test_path (s: state) =
let check_path h1 h2 p2 =
State.Block.path s.state (fst @@ block s h1) (fst @@ block s h2) >>= function
| Error _ ->
Assert.fail_msg "cannot compute path %s -> %s" h1 h2
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| Ok p1 ->
let p2 = List.map (fun b -> fst (block s b)) p2 in
if not (compare_path p1 p2) then
Assert.fail_msg "bad path %s -> %s" h1 h2 ;
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Lwt.return_unit in
check_path "A2" "A6" ["A3"; "A4"; "A5"; "A6"] >>= fun () ->
check_path "B2" "B6" ["B3"; "B4"; "B5"; "B6"] >>= fun () ->
check_path "A1" "B3" ["A2"; "A3"; "B1"; "B2"; "B3"] >>= fun () ->
check_path "A1" "C2" ["A2"; "A3"; "B1"; "B2"; "B3" ; "B4" ;
"B5" ; "B6" ; "B7" ; "C1" ; "C2" ] >>= fun () ->
return s
let test_valid_path (s: state) =
let check_path h1 h2 p2 =
State.Valid_block.path s.state (vblock s h1) (vblock s h2) >>= function
| None ->
Assert.fail_msg "cannot compute path %s -> %s" h1 h2 ;
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| Some (p: State.Valid_block.t list) ->
let p = List.map (fun b -> b.State.Valid_block.hash) p in
let p2 = List.map (fun b -> (vblock s b).hash) p2 in
if not (compare_path p p2) then
Assert.fail_msg "bad path %s -> %s" h1 h2 ;
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Lwt.return_unit in
check_path "A2" "A6" ["A3"; "A4"; "A5"; "A6"] >>= fun () ->
check_path "B2" "B6" ["B3"; "B4"; "B5"; "B6"] >>= fun () ->
check_path "A1" "B3" ["A2"; "A3"; "B1"; "B2"; "B3"] >>= fun () ->
return s
(****************************************************************************)
(** State.ancestor *)
let test_ancestor s =
let check_ancestor h1 h2 expected =
State.Block.common_ancestor
s.state (fst @@ block s h1) (fst @@ block s h2) >>= function
| Error _ ->
Assert.fail_msg "Cannot compure ancestor for %s %s" h1 h2 ;
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| Ok a ->
if not (Block_hash.equal a (fst expected)) then
Assert.fail_msg
"bad ancestor %s %s: found %s, expected %s"
h1 h2 (rev_find s a) (rev_find s @@ fst expected) ;
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Lwt.return_unit in
let check_valid_ancestor h1 h2 expected =
State.Valid_block.common_ancestor
s.state (vblock s h1) (vblock s h2) >>= fun a ->
if not (Block_hash.equal a.hash expected.State.Valid_block.hash) then
Assert.fail_msg "bad ancestor %s %s" h1 h2 ;
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Lwt.return_unit in
check_ancestor "A6" "B6" (block s "A3") >>= fun () ->
check_ancestor "B6" "A6" (block s "A3") >>= fun () ->
check_ancestor "A4" "B1" (block s "A3") >>= fun () ->
check_ancestor "B1" "A4" (block s "A3") >>= fun () ->
check_ancestor "A3" "B1" (block s "A3") >>= fun () ->
check_ancestor "B1" "A3" (block s "A3") >>= fun () ->
check_ancestor "A2" "B1" (block s "A2") >>= fun () ->
check_ancestor "B1" "A2" (block s "A2") >>= fun () ->
check_ancestor "C4" "B8" (block s "B7") >>= fun () ->
check_ancestor "B8" "C4" (block s "B7") >>= fun () ->
check_ancestor "C4" "A8" (block s "A3") >>= fun () ->
check_ancestor "A8" "C4" (block s "A3") >>= fun () ->
check_valid_ancestor "A6" "B6" (vblock s "A3") >>= fun () ->
check_valid_ancestor "B6" "A6" (vblock s "A3") >>= fun () ->
check_valid_ancestor "A4" "B1" (vblock s "A3") >>= fun () ->
check_valid_ancestor "B1" "A4" (vblock s "A3") >>= fun () ->
check_valid_ancestor "A3" "B1" (vblock s "A3") >>= fun () ->
check_valid_ancestor "B1" "A3" (vblock s "A3") >>= fun () ->
check_valid_ancestor "A2" "B1" (vblock s "A2") >>= fun () ->
check_valid_ancestor "B1" "A2" (vblock s "A2") >>= fun () ->
return s
(****************************************************************************)
(** State.locator *)
let test_locator s =
let check_locator h1 expected =
State.Block.block_locator
s.state (List.length expected) (fst @@ block s h1) >>= function
| Error _ ->
Assert.fail_msg "Cannot compute locator for %s" h1
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| Ok l ->
if List.length l <> List.length expected then
Assert.fail_msg
"Invalid locator length %s (found: %d, expected: %d)"
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h1 (List.length l) (List.length expected) ;
List.iter2
(fun h h2 ->
if not (Block_hash.equal h (fst @@ block s h2)) then
Assert.fail_msg "Invalid locator %s (expectd: %s)" h1 h2)
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l expected;
Lwt.return_unit in
let check_valid_locator h1 expected =
State.Valid_block.block_locator
s.state (List.length expected) (vblock s h1) >>= fun l ->
if List.length l <> List.length expected then
Assert.fail_msg
"Invalid locator length %s (found: %d, expected: %d)"
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h1 (List.length l) (List.length expected) ;
List.iter2
(fun h h2 ->
if not (Block_hash.equal h (fst @@ block s h2)) then
Assert.fail_msg "Invalid locator %s (expectd: %s)" h1 h2)
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l expected ;
Lwt.return_unit in
check_locator "A8" ["A8";"A7";"A6";"A5";"A4";"A3";"A2";"A1"] >>= fun () ->
check_locator "B8"
["B8";"B7";"B6";"B5";"B4";"B3";"B2";"B1";"A3"] >>= fun () ->
check_locator "C8"
["C8";"C7";"C6";"C5";"C4";"C3";"C2";"C1";
"B7";"B6";"B4";"B2";"A3";"A1"] >>= fun () ->
check_locator "C8" ["C8";"C7";"C6";"C5";"C4"] >>= fun () ->
check_valid_locator "A8"
["A8";"A7";"A6";"A5";"A4";"A3";"A2"] >>= fun () ->
check_valid_locator "B8"
["B8";"B7";"B6";"B5";"B4";"B3";"B2";"B1";"A3"] >>= fun () ->
check_valid_locator "B8" ["B8";"B7";"B6";"B5";"B4"] >>= fun () ->
return s
(****************************************************************************)
(** State.known_heads *)
let compare s name heads l =
if Block_hash_map.cardinal heads <> List.length l then
Assert.fail_msg
"unexpected known_heads size (%s: %d %d)"
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name (Block_hash_map.cardinal heads) (List.length l) ;
List.iter
(fun bname ->
let hash = (vblock s bname).hash in
if not (Block_hash_map.mem hash heads) then
Assert.fail_msg "missing block in known_heads (%s: %s)" name bname)
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l
let test_known_heads s =
State.Valid_block.known_heads s.state >>= fun heads ->
compare s "initial" heads ["A8";"B8"] ;
State.shutdown s.state >>= fun () ->
s.init () >>= fun state ->
let s = { s with state } in
compare s "initial" heads ["A8";"B8"] ;
return s
(****************************************************************************)
(** State.head/set_head *)
let test_head s =
State.Net.Blockchain.head s.net >>= fun head ->
if not (Block_hash.equal head.hash genesis_block) then
Assert.fail_msg "unexpected head" ;
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State.Net.Blockchain.set_head s.net (vblock s "A6") >>= fun _ ->
State.Net.Blockchain.head s.net >>= fun head ->
if not (Block_hash.equal head.hash (vblock s "A6").hash) then
Assert.fail_msg "unexpected head" ;
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save_reload s >>=? fun s ->
State.Net.Blockchain.head s.net >>= fun head ->
if not (Block_hash.equal head.hash (vblock s "A6").hash) then
Assert.fail_msg "unexpected head" ;
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return s
(****************************************************************************)
(** State.mem *)
let test_mem s =
let mem s x =
State.Net.Blockchain.mem s.net (fst @@ block s x) in
let test_mem s x =
mem s x >>= function
| true -> Lwt.return_unit
| false -> Assert.fail_msg "mem %s" x in
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let test_not_mem s x =
mem s x >>= function
| false -> Lwt.return_unit
| true -> Assert.fail_msg "not (mem %s)" x in
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test_not_mem s "A3" >>= fun () ->
test_not_mem s "A6" >>= fun () ->
test_not_mem s "A8" >>= fun () ->
test_not_mem s "B1" >>= fun () ->
test_not_mem s "B6" >>= fun () ->
test_not_mem s "B8" >>= fun () ->
State.Net.Blockchain.set_head s.net (vblock s "A8") >>= fun _ ->
test_mem s "A3" >>= fun () ->
test_mem s "A6" >>= fun () ->
test_mem s "A8" >>= fun () ->
test_not_mem s "B1" >>= fun () ->
test_not_mem s "B6" >>= fun () ->
test_not_mem s "B8" >>= fun () ->
State.Net.Blockchain.set_head s.net (vblock s "A6") >>= fun _ ->
test_mem s "A3" >>= fun () ->
test_mem s "A6" >>= fun () ->
test_not_mem s "A8" >>= fun () ->
test_not_mem s "B1" >>= fun () ->
test_not_mem s "B6" >>= fun () ->
test_not_mem s "B8" >>= fun () ->
State.Net.Blockchain.set_head s.net (vblock s "B6") >>= fun _ ->
test_mem s "A3" >>= fun () ->
test_not_mem s "A4" >>= fun () ->
test_not_mem s "A6" >>= fun () ->
test_not_mem s "A8" >>= fun () ->
test_mem s "B1" >>= fun () ->
test_mem s "B6" >>= fun () ->
test_not_mem s "B8" >>= fun () ->
State.Net.Blockchain.set_head s.net (vblock s "B8") >>= fun _ ->
test_mem s "A3" >>= fun () ->
test_not_mem s "A4" >>= fun () ->
test_not_mem s "A6" >>= fun () ->
test_not_mem s "A8" >>= fun () ->
test_mem s "B1" >>= fun () ->
test_mem s "B6" >>= fun () ->
test_mem s "B8" >>= fun () ->
save_reload s >>=? fun s ->
State.Net.Blockchain.head s.net >>= fun head ->
if not (Block_hash.equal head.hash (vblock s "B8").hash) then
Assert.fail_msg "Invalid head after save/load" ;
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return s
(****************************************************************************)
(** State.new *)
let test_new s =
let test s h expected =
State.Valid_block.block_locator s.state 50 (vblock s h) >>= fun loc ->
State.Net.Blockchain.find_new s.net loc (List.length expected) >>= function
| Error _ ->
Assert.fail_msg "Failed to compute new blocks %s" h
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| Ok blocks ->
if List.length blocks <> List.length expected then
Assert.fail_msg
"Invalid locator length %s (found: %d, expected: %d)"
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h (List.length blocks) (List.length expected) ;
List.iter2
(fun h1 h2 ->
if not (Block_hash.equal h1 (vblock s h2).hash) then
Assert.fail_msg "Invalid locator %s (expected: %s)" h h2)
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blocks expected ;
Lwt.return_unit
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in
test s "A6" [] >>= fun () ->
State.Net.Blockchain.set_head s.net (vblock s "A8") >>= fun _ ->
test s "A6" ["A7";"A8"] >>= fun () ->
test s "A6" ["A7"] >>= fun () ->
test s "B4" ["A4"] >>= fun () ->
test s "B7" ["A4";"A5";"A6";"A7"] >>= fun () ->
return s
(****************************************************************************)
(** State.mempool *)
let compare s name mempool l =
let mempool_sz = Operation_hash_set.cardinal mempool in
let l_sz = List.length l in
if mempool_sz <> l_sz then
Assert.fail
(string_of_int mempool_sz)
(string_of_int l_sz)
"unexpected mempool size (%s)" name ;
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List.iter
(fun oname ->
try
let oph = fst @@ operation s oname in
if not (Operation_hash_set.mem oph mempool) then
Assert.fail_msg "missing operation in mempool (%s: %s)" name oname
with Not_found ->
Assert.fail_msg "Read value not found in mempool (%s: %s)" name oname)
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l
let test_mempool s =
State.Net.Mempool.get s.net >>= fun mempool ->
compare s "initial" mempool
["PP";
"A1" ; "A2" ; "A3" ; "A4" ; "A5" ; "A6" ; "A7" ; "A8" ;
"B1" ; "B2" ; "B3" ; "B4" ; "B5" ; "B6" ; "B7" ; "B8" ] ;
State.Net.Blockchain.set_head s.net (vblock s "A8") >>= fun _ ->
State.Net.Mempool.get s.net >>= fun mempool ->
compare s "A8" mempool
["PP"; "B1" ; "B2" ; "B3" ; "B4" ; "B5" ; "B6" ; "B7" ; "B8" ] ;
State.Net.Blockchain.set_head s.net (vblock s "A6") >>= fun _ ->
State.Net.Mempool.get s.net >>= fun mempool ->
compare s "A6" mempool
["PP";
"A7" ; "A8" ;
"B1" ; "B2" ; "B3" ; "B4" ; "B5" ; "B6" ; "B7" ; "B8" ] ;
State.Net.Blockchain.set_head s.net (vblock s "B6") >>= fun _ ->
State.Net.Mempool.get s.net >>= fun mempool ->
compare s "B6" mempool
["PP";
"A4" ; "A5" ; "A6" ; "A7" ; "A8" ;
"B7" ; "B8" ] ;
State.Net.Mempool.remove s.net (fst @@ operation s "PP") >>= fun rm_status ->
Assert.is_true ~msg:__LOC__ rm_status ;
State.Net.Mempool.remove s.net (fst @@ operation s "PP") >>= fun rm_status ->
Assert.is_false ~msg:__LOC__ rm_status ;
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State.Net.Mempool.get s.net >>= fun mempool ->
compare s "B6.remove" mempool
["A4" ; "A5" ; "A6" ; "A7" ; "A8" ;
"B7" ; "B8" ] ;
save_reload s >>=? fun s ->
State.Net.Mempool.get s.net >>= fun mempool ->
compare s "B6.saved" mempool
["A4" ; "A5" ; "A6" ; "A7" ; "A8" ;
"B7" ; "B8" ] ;
State.Net.Mempool.for_block s.net (vblock s "A4") >>= fun mempool ->
compare s "A4.for_block" mempool
["A5" ; "A6" ; "A7" ; "A8" ;
"B1" ; "B2" ; "B3" ; "B4" ; "B5" ; "B6" ; "B7" ; "B8" ] ;
return s
(****************************************************************************)
let tests : (string * (state -> state tzresult Lwt.t)) list = [
"init", test_init ;
"read_operation", test_read_operation;
"read_block", test_read_block ;
"successors", test_successors ;
"path", test_path ;
"valid_path", test_valid_path ;
"ancestor", test_ancestor ;
"locator", test_locator ;
"known_heads", test_known_heads ;
"head", test_head ;
"mem", test_mem ;
"new", test_new ;
"mempool", test_mempool;
]
let () =
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Test.run "state." (List.map (fun (s, f) -> s, wrap_state_init f) tests)