(**************************************************************************) (* *) (* Copyright (c) 2014 - 2018. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) let protocols = [ "Alpha", "ProtoALphaALphaALphaALphaALphaALphaALphaALphaDdp3zK" ; ] module Rst = struct let pp_title ~char ppf title = let sub = String.map (fun _ -> char) title in Format.fprintf ppf "@[%s@ %s@ @ @]" title sub let pp_h1 = pp_title ~char:'#' let pp_h2 = pp_title ~char:'*' let pp_h3 = pp_title ~char:'=' let pp_h4 = pp_title ~char:'`' let pp_raw_html ppf str = Format.fprintf ppf "@[.. raw:: html@ @ %s@ @ @]" (Re.Str.global_replace (Re.Str.regexp "\n") "\n " str) let pp_html ppf f = Format.fprintf ppf "@[.. raw:: html@ @ %a@]@\n@\n" (fun ppf () -> f ppf) () let pp_ref ppf name = Format.fprintf ppf ".. _%s :@\n@\n" name end let pp_name ppf = function | [] | [""] -> Format.pp_print_string ppf "/" | prefix -> Format.pp_print_string ppf (String.concat "/" prefix) let ref_of_service (prefix, meth) = Format.asprintf "%s_%s" (Resto.string_of_meth meth) (Re.Str.global_replace (Re.Str.regexp "<\\([^>]*\\)>") "\\1" (String.concat "--" prefix)) module Index = struct let rec pp prefix ppf dir = let open Resto.Description in match dir with | Empty -> Format.fprintf ppf "Empty" | Static { services ; subdirs = None } -> pp_services prefix ppf services | Static { services ; subdirs = Some (Suffixes map) } -> Format.fprintf ppf "@[%a@ @ %a@]" (pp_services prefix) services (Format.pp_print_list ~pp_sep:(fun ppf () -> Format.fprintf ppf "@ @ ") (pp_suffixes prefix)) (Resto.StringMap.bindings map) | Static { services ; subdirs = Some (Arg (arg, dir)) } -> let name = Format.asprintf "<%s>" arg.name in Format.fprintf ppf "@[%a@ @ %a@]" (pp_services prefix) services (pp_suffixes prefix) (name, dir) | Dynamic _ -> Format.fprintf ppf "* %a ()" pp_name prefix and pp_suffixes prefix ppf (name, dir) = pp (prefix @ [name]) ppf dir and pp_services prefix ppf services = match (Resto.MethMap.bindings services) with | [] -> Format.fprintf ppf "* %a" pp_name prefix | _ :: _ as services -> Format.fprintf ppf "* %a (@[%a@])" pp_name prefix (Format.pp_print_list ~pp_sep:Format.pp_print_space (pp_service_method prefix)) services and pp_service_method prefix ppf (meth, _service) = Format.fprintf ppf "`%s <%s_>`_" (Resto.string_of_meth meth) (ref_of_service (prefix, meth)) end module Description = struct module Query = struct let pp_arg fmt = let open RPC_arg in function { name ; _ } -> Format.fprintf fmt "<%s>" name let pp_title_item ppf = let open RPC_description in function {name ; kind ; _ } -> match kind with | Single arg | Optional arg -> Format.fprintf ppf "[%s=%a]" name pp_arg arg | Flag -> Format.fprintf ppf "[%s]" name | Multi arg -> Format.fprintf ppf "(%s=%a)\\*" name pp_arg arg let pp_title ppf query = Format.fprintf ppf "%s%a" (if query = [] then "" else "?") (Format.pp_print_list ~pp_sep:(fun ppf () -> Format.fprintf ppf "&") pp_title_item) query let pp_html_arg fmt = let open RPC_arg in function { name ; _ } -> Format.fprintf fmt "<%s>" name let pp_item ppf = let open RPC_description in function { name ; description ; kind } -> begin match kind with | Single arg | Optional arg | Multi arg -> Format.fprintf ppf "%s = %a" name pp_html_arg arg | Flag -> Format.fprintf ppf "%s" name end ; begin match description with | None -> () | Some descr -> Format.fprintf ppf " : %s" descr end let pp ppf query = match query with | [] -> () | _ :: _ as query -> Format.fprintf ppf "

Optional query arguments :

  • %a
" (Format.pp_print_list ~pp_sep:(fun ppf () -> Format.fprintf ppf "
  • ") pp_item) query end module Tabs = struct let pp_tab_div ppf f = Format.fprintf ppf "@[
    %a
    @]" (fun ppf () -> f ppf) () let pp_tabcontent_div ~id ~class_ ppf f = Format.fprintf ppf "@[
    @ \ %a@ \ @]
    @ " id class_ (fun ppf () -> f ppf) () let pp_button ppf ?(default=false) ~shortlabel ~content target_ref = Format.fprintf ppf "@ " (if default then " defaultOpen" else "") (target_ref ^ shortlabel) target_ref content let pp_content ppf ~tag ~shortlabel target_ref pp_content content = pp_tabcontent_div ~id:(target_ref ^ shortlabel) ~class_:target_ref ppf begin fun ppf -> Format.fprintf ppf "<%s>@ %a" tag pp_content content tag end let pp_description ppf (service : _ RPC_description.service) = let open RPC_description in (* TODO collect and display arg description (in path and in query) *) Format.fprintf ppf "%s%a" (Option.unopt ~default:"" service.description) Query.pp service.query let pp ppf prefix service = let open RPC_description in let target_ref = ref_of_service (prefix, service.meth) in Rst.pp_html ppf begin fun ppf -> pp_tab_div ppf begin fun ppf -> pp_button ppf ~default:true ~shortlabel:"descr" ~content:"Description" target_ref ; Option.iter service.input ~f: begin fun __ -> pp_button ppf ~default:false ~shortlabel:"input" ~content:"Input format" target_ref end ; pp_button ppf ~default:false ~shortlabel:"output" ~content:"Output format" target_ref ; end ; pp_content ppf ~tag:"p" ~shortlabel:"descr" target_ref pp_description service ; Option.iter service.input ~f: begin fun schema -> pp_content ppf ~tag:"pre" ~shortlabel:"input" target_ref Json_schema.pp schema ; end ; pp_content ppf ~tag:"pre" ~shortlabel:"output" target_ref Json_schema.pp service.output ; end end let rec pp prefix ppf dir = let open Resto.Description in match dir with | Empty -> () | Static { services ; subdirs = None } -> pp_services prefix ppf services | Static { services ; subdirs = Some (Suffixes map) } -> pp_services prefix ppf services ; Format.pp_print_list (pp_suffixes prefix) ppf (Resto.StringMap.bindings map) | Static { services ; subdirs = Some (Arg (arg, dir)) } -> let name = Format.asprintf "<%s>" arg.name in pp_services prefix ppf services ; pp_suffixes prefix ppf (name, dir) | Dynamic _ -> () and pp_suffixes prefix ppf (name, dir) = pp (prefix @ [name]) ppf dir and pp_services prefix ppf services = List.iter (pp_service prefix ppf) (Resto.MethMap.bindings services) and pp_service prefix ppf (meth, service) = Rst.pp_ref ppf (ref_of_service (prefix, meth)) ; Format.fprintf ppf "**%s %a%a**@\n@\n" (Resto.string_of_meth meth) pp_name prefix Query.pp_title service.query ; Tabs.pp ppf prefix service end let style = {css| |css} let script = {script| |script} let pp_document ppf descriptions = (* Style : hack *) Format.fprintf ppf "%a@." Rst.pp_raw_html style ; (* Script : hack *) Format.fprintf ppf "%a@." Rst.pp_raw_html script ; (* Page title *) Format.fprintf ppf "%a" Rst.pp_h1 "RPC API" ; (* include/copy usage.rst from input *) let rec loop () = let s = read_line () in Format.fprintf ppf "%s@\n" s ; loop () in begin try loop () with End_of_file -> () end ; Format.fprintf ppf "@\n" ; (* Index *) Format.pp_set_margin ppf 10000 ; Format.pp_set_max_indent ppf 9000 ; Rst.pp_h2 ppf "RPCs - Index" ; List.iter (fun (name, prefix, rpc_dir) -> Rst.pp_h3 ppf name ; Format.fprintf ppf "%a@\n@\n" (Index.pp prefix) rpc_dir) descriptions ; (* Full description *) Rst.pp_h2 ppf "RPCs - Full description" ; Format.pp_set_margin ppf 80 ; Format.pp_set_max_indent ppf 76 ; List.iter (fun (name, prefix, rpc_dir) -> Rst.pp_h3 ppf name ; Format.fprintf ppf "%a@\n@\n" (Description.pp prefix) rpc_dir) descriptions let genesis : State.Chain.genesis = { time = Time.of_notation_exn "2018-04-17T11:46:23Z" ; block = Block_hash.of_b58check_exn "BLockGenesisGenesisGenesisGenesisGenesisa52f8bUWPcg" ; protocol = Protocol_hash.of_b58check_exn "ProtoGenesisGenesisGenesisGenesisGenesisGenesk612im" ; } let main dir = let (/) = Filename.concat in let node_config : Node.config = { genesis ; patch_context = None ; store_root = dir / "store" ; context_root = dir / "context" ; p2p = None ; test_chain_max_tll = None ; } in Node.create node_config Node.default_peer_validator_limits Node.default_block_validator_limits Node.default_prevalidator_limits Node.default_chain_validator_limits >>=? fun node -> let shell_dir = Node.build_rpc_directory node in let protocol_dirs = List.map (fun (name, hash) -> let hash = Protocol_hash.of_b58check_exn hash in let (module Proto) = Registered_protocol.get_exn hash in "Protocol " ^ name, [".." ; ""] , RPC_directory.map (fun () -> assert false) @@ Block_directory.build_raw_rpc_directory (module Proto) (module Proto)) protocols in let dirs = ("Shell", [""], shell_dir) :: protocol_dirs in Lwt_list.map_p (fun (name, path, dir) -> RPC_directory.describe_directory ~recurse:true ~arg:() dir >>= fun dir -> Lwt.return (name, path, dir)) dirs >>= fun descriptions -> let ppf = Format.std_formatter in pp_document ppf descriptions ; return () let () = Lwt_main.run begin Lwt_utils_unix.with_tempdir "tezos_rpcdoc_" main >>= function | Ok _ -> Lwt.return_unit | Error err -> Format.eprintf "%a@." pp_print_error err ; Pervasives.exit 1 end