package tezos-protocol-012-Psithaca
Tezos protocol 012-Psithaca package
Install
Dune Dependency
Authors
Maintainers
Sources
tezos-octez-v20.1.tag.bz2
sha256=ddfb5076eeb0b32ac21c1eed44e8fc86a6743ef18ab23fff02d36e365bb73d61
sha512=d22a827df5146e0aa274df48bc2150b098177ff7e5eab52c6109e867eb0a1f0ec63e6bfbb0e3645a6c2112de3877c91a17df32ccbff301891ce4ba630c997a65
doc/src/tezos_raw_protocol_012_Psithaca/main.ml.html
Source file main.ml
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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. *) (* *) (*****************************************************************************) (* Tezos Protocol Implementation - Protocol Signature Instance *) type block_header_data = Alpha_context.Block_header.protocol_data type block_header = Alpha_context.Block_header.t = { shell : Block_header.shell_header; protocol_data : block_header_data; } let block_header_data_encoding = Alpha_context.Block_header.protocol_data_encoding type block_header_metadata = Apply_results.block_metadata let block_header_metadata_encoding = Apply_results.block_metadata_encoding type operation_data = Alpha_context.packed_protocol_data = | Operation_data : 'kind Alpha_context.Operation.protocol_data -> operation_data let operation_data_encoding = Alpha_context.Operation.protocol_data_encoding type operation_receipt = Apply_results.packed_operation_metadata = | Operation_metadata : 'kind Apply_results.operation_metadata -> operation_receipt | No_operation_metadata : operation_receipt let operation_receipt_encoding = Apply_results.operation_metadata_encoding let operation_data_and_receipt_encoding = Apply_results.operation_data_and_metadata_encoding type operation = Alpha_context.packed_operation = { shell : Operation.shell_header; protocol_data : operation_data; } let acceptable_passes = Alpha_context.Operation.acceptable_passes let max_block_length = Alpha_context.Block_header.max_header_length let max_operation_data_length = Alpha_context.Constants.max_operation_data_length let validation_passes = let open Alpha_context.Constants in Updater. [ (* 2048 endorsements *) {max_size = 2048 * 2048; max_op = Some 2048}; (* 32k of voting operations *) {max_size = 32 * 1024; max_op = None}; (* revelations, wallet activations and denunciations *) { max_size = max_anon_ops_per_block * 1024; max_op = Some max_anon_ops_per_block; }; (* 512kB *) {max_size = 512 * 1024; max_op = None}; ] let rpc_services = Alpha_services.register () ; Services_registration.get_rpc_services () type validation_mode = | Application of { block_header : Alpha_context.Block_header.t; fitness : Alpha_context.Fitness.t; payload_producer : Alpha_context.public_key_hash; block_producer : Alpha_context.public_key_hash; predecessor_round : Alpha_context.Round.t; predecessor_level : Alpha_context.Level.t; } | Partial_application of { block_header : Alpha_context.Block_header.t; fitness : Alpha_context.Fitness.t; payload_producer : Alpha_context.public_key_hash; block_producer : Alpha_context.public_key_hash; predecessor_level : Alpha_context.Level.t; predecessor_round : Alpha_context.Round.t; } (* Mempool only *) | Partial_construction of { predecessor : Block_hash.t; predecessor_fitness : Fitness.t; predecessor_level : Alpha_context.Level.t; predecessor_round : Alpha_context.Round.t; } (* Baker only *) | Full_construction of { predecessor : Block_hash.t; payload_producer : Alpha_context.public_key_hash; block_producer : Alpha_context.public_key_hash; protocol_data_contents : Alpha_context.Block_header.contents; level : Int32.t; round : Alpha_context.Round.t; predecessor_level : Alpha_context.Level.t; predecessor_round : Alpha_context.Round.t; } type validation_state = { mode : validation_mode; chain_id : Chain_id.t; ctxt : Alpha_context.t; op_count : int; migration_balance_updates : Alpha_context.Receipt.balance_updates; liquidity_baking_escape_ema : Int32.t; implicit_operations_results : Apply_results.packed_successful_manager_operation_result list; } let cache_layout = Apply.cache_layout let begin_partial_application ~chain_id ~ancestor_context:ctxt ~predecessor_timestamp ~(predecessor_fitness : Fitness.t) (block_header : Alpha_context.Block_header.t) = (* Note: we don't have access to the predecessor context. *) let level = block_header.shell.level in let timestamp = block_header.shell.timestamp in Alpha_context.Fitness.from_raw block_header.shell.fitness >>?= fun fitness -> Alpha_context.Fitness.round_from_raw predecessor_fitness >>?= fun predecessor_round -> Alpha_context.prepare ~level ~predecessor_timestamp ~timestamp ctxt >>=? fun (ctxt, migration_balance_updates, migration_operation_results) -> Alpha_context.Raw_level.of_int32 (Int32.pred level) >>?= fun predecessor_level -> let predecessor_level = Alpha_context.Level.(from_raw ctxt predecessor_level) in Apply.begin_application ctxt chain_id block_header fitness ~predecessor_timestamp ~predecessor_level ~predecessor_round >>=? fun ( ctxt, payload_producer_pk, block_producer, liquidity_baking_operations_results, liquidity_baking_escape_ema ) -> let mode = Partial_application { block_header; fitness; predecessor_level; predecessor_round; payload_producer = Signature.Public_key.hash payload_producer_pk; block_producer; } in return { mode; chain_id; ctxt; op_count = 0; migration_balance_updates; liquidity_baking_escape_ema; implicit_operations_results = Apply_results.pack_migration_operation_results migration_operation_results @ liquidity_baking_operations_results; } (* During applications the valid consensus operations are: * Endorsements on previous block with the right round, level, payload_hash (of the predecessor block) * Preendorsements on current level, previous round, and the payload_hash of the current block Those endorsements justify that the previous block was finalized. Those preendorsements justify the locked_round part of the fitness of the current block *) let begin_application ~chain_id ~predecessor_context:ctxt ~predecessor_timestamp ~predecessor_fitness (block_header : Alpha_context.Block_header.t) = let level = block_header.shell.level in let timestamp = block_header.shell.timestamp in Alpha_context.Fitness.from_raw block_header.shell.fitness >>?= fun fitness -> Alpha_context.Fitness.round_from_raw predecessor_fitness >>?= fun predecessor_round -> Alpha_context.Raw_level.of_int32 (Int32.pred level) >>?= fun predecessor_level -> Alpha_context.prepare ~level ~predecessor_timestamp ~timestamp ctxt >>=? fun (ctxt, migration_balance_updates, migration_operation_results) -> let predecessor_level = Alpha_context.Level.from_raw ctxt predecessor_level in Apply.begin_application ctxt chain_id block_header fitness ~predecessor_timestamp ~predecessor_level ~predecessor_round >>=? fun ( ctxt, payload_producer, block_producer, liquidity_baking_operations_results, liquidity_baking_escape_ema ) -> let mode = Application { block_header; fitness; predecessor_round; predecessor_level; payload_producer = Signature.Public_key.hash payload_producer; block_producer; } in return { mode; chain_id; ctxt; op_count = 0; migration_balance_updates; liquidity_baking_escape_ema; implicit_operations_results = Apply_results.pack_migration_operation_results migration_operation_results @ liquidity_baking_operations_results; } let begin_construction ~chain_id ~predecessor_context:ctxt ~predecessor_timestamp ~predecessor_level ~predecessor_fitness ~predecessor ~timestamp ?(protocol_data : block_header_data option) () = let level = Int32.succ predecessor_level in Alpha_context.prepare ~level ~predecessor_timestamp ~timestamp ctxt >>=? fun (ctxt, migration_balance_updates, migration_operation_results) -> Alpha_context.Raw_level.of_int32 predecessor_level >>?= fun predecessor_level -> let predecessor_level = Alpha_context.Level.(from_raw ctxt predecessor_level) in (match protocol_data with | None -> Alpha_context.Fitness.round_from_raw predecessor_fitness >>?= fun predecessor_round -> let escape_vote = false in Apply.begin_partial_construction ctxt ~predecessor_level ~escape_vote >>=? fun ( ctxt, liquidity_baking_operations_results, liquidity_baking_escape_ema ) -> let mode = Partial_construction { predecessor; predecessor_fitness; predecessor_level; predecessor_round; } in return ( mode, ctxt, liquidity_baking_operations_results, liquidity_baking_escape_ema ) | Some proto_header -> Alpha_context.Fitness.round_from_raw predecessor_fitness >>?= fun predecessor_round -> let round_durations = Alpha_context.Constants.round_durations ctxt in Alpha_context.Round.round_of_timestamp round_durations ~predecessor_timestamp ~predecessor_round ~timestamp >>?= fun round -> (* The endorsement/preendorsement validation rules for construction are the same as for application. *) Apply.begin_full_construction ctxt ~predecessor_timestamp ~predecessor_round ~predecessor_level ~round proto_header.contents >>=? fun { ctxt; protocol_data = protocol_data_contents; payload_producer; block_producer; round; liquidity_baking_escape_ema; implicit_operations_results = liquidity_baking_operations_results; } -> let mode = Full_construction { predecessor; payload_producer; block_producer; level; round; protocol_data_contents; predecessor_round; predecessor_level; } in return ( mode, ctxt, liquidity_baking_operations_results, liquidity_baking_escape_ema )) >|=? fun ( mode, ctxt, liquidity_baking_operations_results, liquidity_baking_escape_ema ) -> { mode; chain_id; ctxt; op_count = 0; migration_balance_updates; liquidity_baking_escape_ema; implicit_operations_results = Apply_results.pack_migration_operation_results migration_operation_results @ liquidity_baking_operations_results; } let apply_operation_with_mode mode ctxt chain_id data op_count operation ~payload_producer = let {shell; protocol_data = Operation_data protocol_data} = operation in let operation : _ Alpha_context.operation = {shell; protocol_data} in Apply.apply_operation ctxt chain_id mode Optimized ~payload_producer (Alpha_context.Operation.hash operation) operation >|=? fun (ctxt, result) -> let op_count = op_count + 1 in ({data with ctxt; op_count}, Operation_metadata result) let apply_operation ({mode; chain_id; ctxt; op_count; _} as data) (operation : Alpha_context.packed_operation) = match mode with | Partial_application _ when not (List.exists (Compare.Int.equal 0) (Alpha_context.Operation.acceptable_passes operation)) -> (* Multipass validation only considers operations in pass 0. *) let op_count = op_count + 1 in return ({data with ctxt; op_count}, No_operation_metadata) | Partial_application { block_header = { shell = {predecessor; _}; protocol_data = {contents = {payload_hash; _}; _}; }; fitness; payload_producer; predecessor_round; predecessor_level; _; } -> let locked_round = Alpha_context.Fitness.locked_round fitness in apply_operation_with_mode (Apply.Application { payload_hash; predecessor_block = predecessor; predecessor_round; predecessor_level; locked_round; round = Alpha_context.Fitness.round fitness; }) ctxt chain_id data op_count operation ~payload_producer | Application { block_header = { shell = {predecessor; _}; protocol_data = {contents = {payload_hash; _}; _}; }; fitness; payload_producer; predecessor_round; predecessor_level; _; } -> let locked_round = Alpha_context.Fitness.locked_round fitness in apply_operation_with_mode (Apply.Application { payload_hash; predecessor_block = predecessor; predecessor_round; predecessor_level; locked_round; round = Alpha_context.Fitness.round fitness; }) ctxt chain_id data op_count operation ~payload_producer | Partial_construction {predecessor_level; predecessor_round; predecessor_fitness; _} -> Alpha_context.Fitness.predecessor_round_from_raw predecessor_fitness >>?= fun grand_parent_round -> apply_operation_with_mode (Apply.Partial_construction {predecessor_round; predecessor_level; grand_parent_round}) ctxt chain_id data op_count operation ~payload_producer:Signature.Public_key_hash.zero | Full_construction { payload_producer; predecessor; predecessor_round; predecessor_level; protocol_data_contents = {payload_hash; _}; round; _; } -> apply_operation_with_mode (Apply.Full_construction { payload_hash; predecessor_block = predecessor; predecessor_level; predecessor_round; round; }) ctxt chain_id data op_count operation ~payload_producer let cache_nonce_from_block_header shell contents = let open Alpha_context.Block_header in let shell = Block_header. { level = 0l; proto_level = 0; predecessor = shell.predecessor; timestamp = Time.of_seconds 0L; validation_passes = 0; operations_hash = shell.operations_hash; fitness = []; context = Context_hash.zero; } in let contents = { contents with payload_hash = Block_payload_hash.zero; proof_of_work_nonce = Bytes.make Constants_repr.proof_of_work_nonce_size '0'; } in let protocol_data = {signature = Signature.zero; contents} in let x = {shell; protocol_data} in Block_hash.to_bytes (hash x) let finalize_block_application ctxt round ~cache_nonce finalize_application_mode protocol_data payload_producer block_producer liquidity_baking_escape_ema implicit_operations_results predecessor migration_balance_updates op_count = Apply.finalize_application ctxt finalize_application_mode protocol_data ~payload_producer ~block_producer liquidity_baking_escape_ema implicit_operations_results ~round ~predecessor ~migration_balance_updates >>=? fun (ctxt, fitness, receipt) -> Alpha_context.Cache.Admin.sync ctxt ~cache_nonce >>= fun ctxt -> let level = Alpha_context.Level.current ctxt in let raw_level = Alpha_context.Raw_level.to_int32 level.level in let commit_message = Format.asprintf "lvl %ld, fit:%a, round %a, %d ops" raw_level Alpha_context.Fitness.pp fitness Alpha_context.Round.pp round op_count in let validation_result = Alpha_context.finalize ~commit_message ctxt (Alpha_context.Fitness.to_raw fitness) in return (validation_result, receipt) type error += Missing_shell_header let () = register_error_kind `Permanent ~id:"main.missing_shell_header" ~title:"Missing shell_header during finalisation of a block" ~description: "During finalisation of a block header in Application mode or Full \ construction mode, a shell header should be provided so that a cache \ nonce can be computed." ~pp:(fun ppf () -> Format.fprintf ppf "No shell header provided during the finalisation of a block.") Data_encoding.unit (function Missing_shell_header -> Some () | _ -> None) (fun () -> Missing_shell_header) let finalize_block { mode; ctxt; op_count; migration_balance_updates; liquidity_baking_escape_ema; implicit_operations_results; _; } shell_header = match mode with | Partial_construction {predecessor_fitness; _} -> Alpha_context.Voting_period.get_rpc_current_info ctxt >>=? fun voting_period_info -> let level_info = Alpha_context.Level.current ctxt in let fitness = predecessor_fitness in let ctxt = Alpha_context.finalize ctxt fitness in return ( ctxt, Apply_results. { proposer = Signature.Public_key_hash.zero; baker = Signature.Public_key_hash.zero; level_info; voting_period_info; nonce_hash = None; consumed_gas = Alpha_context.Gas.Arith.zero; deactivated = []; balance_updates = migration_balance_updates; liquidity_baking_escape_ema; implicit_operations_results; } ) | Partial_application {fitness; block_producer; _} -> (* For partial application we do not completely check the block validity. Validating the endorsements is sufficient for a good precheck *) let level = Alpha_context.Level.current ctxt in let included_endorsements = Alpha_context.Consensus.current_endorsement_power ctxt in let minimum = Alpha_context.Constants.consensus_threshold ctxt in Apply.are_endorsements_required ctxt ~level:level.level >>=? fun endorsements_required -> (if endorsements_required then Apply.check_minimum_endorsements ~endorsing_power:included_endorsements ~minimum else return_unit) >>=? fun () -> Alpha_context.Voting_period.get_rpc_current_info ctxt >|=? fun voting_period_info -> let level_info = Alpha_context.Level.current ctxt in let ctxt = Alpha_context.finalize ctxt (Alpha_context.Fitness.to_raw fitness) in ( ctxt, Apply_results. { proposer = Signature.Public_key_hash.zero; (* We cannot retrieve the proposer as it requires the frozen deposit that might not be available depending on the context given to the partial application. *) baker = block_producer; level_info; voting_period_info; nonce_hash = None; consumed_gas = Alpha_context.Gas.Arith.zero; deactivated = []; balance_updates = migration_balance_updates; liquidity_baking_escape_ema; implicit_operations_results; } ) | Application { payload_producer; fitness; block_producer; block_header = {protocol_data = {contents = protocol_data; _}; shell}; _; } -> let round = Alpha_context.Fitness.round fitness in let cache_nonce = cache_nonce_from_block_header shell protocol_data in finalize_block_application ctxt ~cache_nonce round (Finalize_application fitness) protocol_data payload_producer block_producer liquidity_baking_escape_ema implicit_operations_results shell.predecessor migration_balance_updates op_count | Full_construction { predecessor; predecessor_round; protocol_data_contents; round; level; payload_producer; block_producer; _; } -> Option.value_e shell_header ~error:(Error_monad.trace_of_error Missing_shell_header) >>?= fun shell_header -> let cache_nonce = cache_nonce_from_block_header shell_header protocol_data_contents in Alpha_context.Raw_level.of_int32 level >>?= fun level -> finalize_block_application ctxt round ~cache_nonce (Finalize_full_construction {level; predecessor_round}) protocol_data_contents payload_producer block_producer liquidity_baking_escape_ema implicit_operations_results predecessor migration_balance_updates op_count let relative_position_within_block op1 op2 = let open Alpha_context in let (Operation_data op1) = op1.protocol_data in let (Operation_data op2) = op2.protocol_data in match[@coq_match_with_default] (op1.contents, op2.contents) with | (Single (Preendorsement _), Single (Preendorsement _)) -> 0 | (Single (Preendorsement _), _) -> -1 | (_, Single (Preendorsement _)) -> 1 | (Single (Endorsement _), Single (Endorsement _)) -> 0 | (Single (Endorsement _), _) -> -1 | (_, Single (Endorsement _)) -> 1 | (Single (Seed_nonce_revelation _), Single (Seed_nonce_revelation _)) -> 0 | (_, Single (Seed_nonce_revelation _)) -> 1 | (Single (Seed_nonce_revelation _), _) -> -1 | ( Single (Double_preendorsement_evidence _), Single (Double_preendorsement_evidence _) ) -> 0 | (_, Single (Double_preendorsement_evidence _)) -> 1 | (Single (Double_preendorsement_evidence _), _) -> -1 | ( Single (Double_endorsement_evidence _), Single (Double_endorsement_evidence _) ) -> 0 | (_, Single (Double_endorsement_evidence _)) -> 1 | (Single (Double_endorsement_evidence _), _) -> -1 | (Single (Double_baking_evidence _), Single (Double_baking_evidence _)) -> 0 | (_, Single (Double_baking_evidence _)) -> 1 | (Single (Double_baking_evidence _), _) -> -1 | (Single (Activate_account _), Single (Activate_account _)) -> 0 | (_, Single (Activate_account _)) -> 1 | (Single (Activate_account _), _) -> -1 | (Single (Proposals _), Single (Proposals _)) -> 0 | (_, Single (Proposals _)) -> 1 | (Single (Proposals _), _) -> -1 | (Single (Ballot _), Single (Ballot _)) -> 0 | (_, Single (Ballot _)) -> 1 | (Single (Ballot _), _) -> -1 | (Single (Failing_noop _), Single (Failing_noop _)) -> 0 | (_, Single (Failing_noop _)) -> 1 | (Single (Failing_noop _), _) -> -1 (* Manager operations with smaller counter are pre-validated first. *) | (Single (Manager_operation op1), Single (Manager_operation op2)) -> Z.compare op1.counter op2.counter | (Cons (Manager_operation op1, _), Single (Manager_operation op2)) -> Z.compare op1.counter op2.counter | (Single (Manager_operation op1), Cons (Manager_operation op2, _)) -> Z.compare op1.counter op2.counter | (Cons (Manager_operation op1, _), Cons (Manager_operation op2, _)) -> Z.compare op1.counter op2.counter let init_cache ctxt = Context.Cache.set_cache_layout ctxt cache_layout >>= fun ctxt -> Lwt.return (Context.Cache.clear ctxt) let init ctxt block_header = let level = block_header.Block_header.level in let timestamp = block_header.timestamp in let typecheck (ctxt : Alpha_context.context) (script : Alpha_context.Script.t) = let allow_forged_in_storage = false (* There should be no forged value in bootstrap contracts. *) in Script_ir_translator.parse_script ctxt ~legacy:true ~allow_forged_in_storage script >>=? fun (Ex_script parsed_script, ctxt) -> Script_ir_translator.extract_lazy_storage_diff ctxt Optimized parsed_script.storage_type parsed_script.storage ~to_duplicate:Script_ir_translator.no_lazy_storage_id ~to_update:Script_ir_translator.no_lazy_storage_id ~temporary:false >>=? fun (storage, lazy_storage_diff, ctxt) -> Script_ir_translator.unparse_data ctxt Optimized parsed_script.storage_type storage >|=? fun (storage, ctxt) -> let storage = Alpha_context.Script.lazy_expr (Micheline.strip_locations storage) in (({script with storage}, lazy_storage_diff), ctxt) in (* The cache must be synced at the end of block validation, so we do so here for the first block in a protocol where `finalize_block` is not called. *) Alpha_context.Raw_level.of_int32 level >>?= fun raw_level -> let init_fitness = Alpha_context.Fitness.create_without_locked_round ~level:raw_level ~round:Alpha_context.Round.zero ~predecessor_round:Alpha_context.Round.zero in init_cache ctxt >>= fun ctxt -> Alpha_context.prepare_first_block ~typecheck ~level ~timestamp ctxt >>=? fun ctxt -> let cache_nonce = cache_nonce_from_block_header block_header { payload_hash = Block_payload_hash.zero; payload_round = Alpha_context.Round.zero; liquidity_baking_escape_vote = false; seed_nonce_hash = None; proof_of_work_nonce = Bytes.make Constants_repr.proof_of_work_nonce_size '0'; } in Alpha_context.Cache.Admin.sync ctxt ~cache_nonce >>= fun ctxt -> return (Alpha_context.finalize ctxt (Alpha_context.Fitness.to_raw init_fitness)) let value_of_key ~chain_id:_ ~predecessor_context:ctxt ~predecessor_timestamp ~predecessor_level:pred_level ~predecessor_fitness:_ ~predecessor:_ ~timestamp = let level = Int32.succ pred_level in Alpha_context.prepare ctxt ~level ~predecessor_timestamp ~timestamp >>=? fun (ctxt, _, _) -> return (Apply.value_of_key ctxt) let check_manager_signature {chain_id; ctxt; _} op raw_op = Apply.check_manager_signature ctxt chain_id op raw_op let precheck_manager {ctxt; _} op = (* We do not account for the gas limit of the batch in the block since this function does not return a context, but we check that this limit is within bounds (and fail otherwise with a permanenent error). *) Apply.precheck_manager_contents_list ctxt op ~mempool_mode:true >|=? fun (_ : Alpha_context.t * 'kind Alpha_context.Kind.manager Apply_results.prechecked_contents_list) -> () (* Vanity nonce: 1031119008347755 *)