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|
type value_behaviour = AddValue | ReplaceValue
type command = Set | Delete
exception Duplicate_value
exception Node_has_no_value
exception No_such_value
exception Useless_set
type config_node_data = {
values: string list;
comment: string option;
tag: bool;
leaf: bool;
} [@@deriving yojson]
type t = config_node_data Vytree.t [@@deriving yojson]
let default_data = {
values = [];
comment = None;
tag = false;
leaf = false;
}
let make name = Vytree.make default_data name
let op_to_string op =
match op with
| Set -> "set"
| Delete -> "delete"
let replace_value node path value =
let data = {default_data with values=[value]; leaf=true} in
Vytree.update node path data
let add_value node path value =
let node' = Vytree.get node path in
let data = Vytree.data_of_node node' in
let values = data.values in
match (Vylist.find (fun x -> x = value) values) with
| Some _ -> raise Duplicate_value
| None ->
let values = values @ [value] in
Vytree.update node path ({data with values=values; leaf=true})
let delete_value node path value =
let data = Vytree.data_of_node @@ Vytree.get node path in
let values = Vylist.remove (fun x -> x = value) data.values in
Vytree.update node path {data with values=values; leaf=true}
let set_value node path value behaviour =
match behaviour with
| AddValue -> add_value node path value
| ReplaceValue -> replace_value node path value
let create_node node path =
if (Vytree.exists node path) then raise Useless_set
else
let path_existing = Vytree.get_existent_path node path in
let path_remaining = Vylist.complement path path_existing in
Vytree.insert_multi_level default_data node path_existing path_remaining default_data
let set node path value behaviour =
if (Vytree.exists node path) then
(match value with
| None -> raise Useless_set
| Some v -> set_value node path v behaviour)
else
let path_existing = Vytree.get_existent_path node path in
let path_remaining = Vylist.complement path path_existing in
let values = match value with None -> [] | Some v -> [v] in
let end_data = {default_data with values=values; leaf=true} in
Vytree.insert_multi_level default_data node path_existing path_remaining end_data
let get_values node path =
let node' = Vytree.get node path in
let data = Vytree.data_of_node node' in
data.values
let get_value node path =
let values = get_values node path in
match values with
| [] -> raise Node_has_no_value
| x :: _ -> x
let delete node path value =
match value with
| Some v ->
(let values = get_values node path in
if Vylist.in_list values v then
(match values with
| [_] -> Vytree.delete node path
| _ -> delete_value node path v)
else raise No_such_value)
| None ->
Vytree.delete node path
let set_comment node path comment =
let data = Vytree.get_data node path in
Vytree.update node path {data with comment=comment}
let get_comment node path =
let data = Vytree.get_data node path in
data.comment
let set_tag node path tag =
let data = Vytree.get_data node path in
Vytree.update node path {data with tag=tag}
let is_tag node path =
let data = Vytree.get_data node path in
data.tag
let set_leaf node path leaf =
let data = Vytree.get_data node path in
Vytree.update node path {data with leaf=leaf}
let is_leaf node path =
let data = Vytree.get_data node path in
data.leaf
let get_subtree ?(with_node=false) node path =
try
let n = Vytree.get node path in
if with_node then
Vytree.make_full default_data "" [n]
else
Vytree.make_full default_data "" (Vytree.children_of_node n)
with Vytree.Nonexistent_path -> make ""
module Renderer =
struct
(* Rendering configs as set commands *)
let render_set_path ?(op=Set) path value =
let v = Printf.sprintf "\'%s\'" value in
List.append path [v] |> String.concat " " |> Printf.sprintf "%s %s" (op_to_string op)
let rec render_commands ?(op=Set) path ct =
let new_path = List.append path [Vytree.name_of_node ct] in
let new_path_str = String.concat " " new_path in
let data = Vytree.data_of_node ct in
(* Get the node comment, if any *)
let comment =
match op with
| Set -> Util.default "" data.comment
| Delete -> ""
in
let comment_cmd = (if comment = "" then "" else Printf.sprintf "comment %s \'%s\'" new_path_str comment) in
let child_names = Vytree.list_children ct in
(* Now handle the different cases for nodes with and without children *)
match child_names with
| [] ->
let values = List.map Util.escape_string data.values in
let cmds =
begin
match values with
| [] ->
(* Valueless leaf node or a non-leaf node *)
String.concat " " new_path |> Printf.sprintf "%s %s" (op_to_string op)
| [v] ->
(* Single value, just one command *)
render_set_path ~op:op new_path v
| vs ->
(* A leaf node with multiple values *)
List.map (render_set_path ~op:op new_path) vs |> String.concat "\n"
end
in
if comment_cmd = "" then cmds else Printf.sprintf "%s\n%s" cmds comment_cmd
| _ :: _ ->
let children = List.map (fun n -> Vytree.get ct [n]) child_names in
let rendered_children = List.map (render_commands ~op:op new_path) children in
let cmds = String.concat "\n" rendered_children in
if comment_cmd = "" then cmds else Printf.sprintf "%s\n%s" cmds comment_cmd
(* Rendering config as a VyOS/EdgeOS config file *)
let make_indent indent level = String.make (level * indent) ' '
let render_values ?(ord_val=false) indent_str name values =
match values with
| [] -> Printf.sprintf "%s%s\n" indent_str name
| [v] -> Printf.sprintf "%s%s \"%s\"\n" indent_str name (Util.escape_string v)
| _ ->
let values =
if ord_val then
List.sort Util.lexical_numeric_compare values
else values
in
let rendered = List.map (fun s -> Printf.sprintf "%s%s \"%s\"" indent_str name (Util.escape_string s)) values in
let rendered = String.concat "\n" rendered in
Printf.sprintf "%s\n" rendered
let render_comment indent c =
match c with
| None -> ""
| Some c -> Printf.sprintf "%s/* %s */\n" indent c
let rec render_node ?(ord_val=false) indent level node =
let indent_str = make_indent indent level in
let name = Vytree.name_of_node node in
let data = Vytree.data_of_node node in
let is_tag = data.tag in
let comment = render_comment indent_str data.comment in
let children = Vytree.children_of_node node in
match children with
| [] ->
if data.leaf then
let values = render_values ~ord_val:ord_val indent_str name data.values in
Printf.sprintf "%s%s" comment values
else
Printf.sprintf "%s%s%s {\n%s}\n" comment indent_str name indent_str
| _ :: _ ->
if is_tag then
begin
let inner = List.map (render_tag_node_child ~ord_val:ord_val indent level name) children in
String.concat "" inner
end
else
begin
let inner = List.map (render_node ~ord_val:ord_val indent (level + 1)) children in
let inner = String.concat "" inner in
Printf.sprintf "%s%s%s {\n%s%s}\n" comment indent_str name inner indent_str
end
and render_tag_node_child ?(ord_val=false) indent level parent node =
let indent_str = make_indent indent level in
let name = Vytree.name_of_node node in
let data = Vytree.data_of_node node in
let comment = render_comment indent_str data.comment in
let children = Vytree.children_of_node node in
let inner = List.map (render_node ~ord_val:ord_val indent (level + 1)) children in
let inner = String.concat "" inner in
Printf.sprintf "%s%s%s %s {\n%s%s}\n" comment indent_str parent name inner indent_str
let render_config ?(ord_val=false) node =
let children = Vytree.children_of_node node in
let child_configs = List.map (render_node ~ord_val:ord_val 4 0) children in
String.concat "" child_configs
end (* Renderer *)
module JSONRenderer = struct
let render_values values =
match values with
| [] -> Printf.sprintf "{}"
| [v] -> Printf.sprintf "\"%s\"" (Util.escape_string v)
| _ ->
let rendered = List.map (fun s -> Printf.sprintf "\"%s\"" (Util.escape_string s)) values in
let rendered = String.concat "," rendered in
Printf.sprintf "[%s]" rendered
let rec render_node node =
let name = Vytree.name_of_node node in
let children = Vytree.children_of_node node in
let data = Vytree.data_of_node node in
match children, data.values with
| [], [] ->
(* Empty node.
In JSON, we don't differentiate between leaf and non-leaf nodes in this case. *)
Printf.sprintf "\"%s\": {}" name
| _, [] ->
(* Non-empty, non-leaf node. *)
let children_strs = List.map render_node children in
let children_str = String.concat "," children_strs in
Printf.sprintf "\"%s\": {%s}" name children_str
| [], _ ->
(* Leaf node with children. *)
Printf.sprintf "\"%s\": %s" name (render_values data.values)
| _, _ ->
(* Shouldn't happen *)
failwith "Internal error: non-leaf node with values"
let render_json node =
let children = Vytree.children_of_node node in
let child_configs = List.map render_node children in
let child_configs = String.concat "," child_configs in
Printf.sprintf "{%s}" child_configs
end (* JSONRenderer *)
let render_commands ?(op=Set) node path =
let node =
match path with
| [] -> node
| _ -> Vytree.get node path
in
let children = Vytree.children_of_node node in
let commands = List.map (Renderer.render_commands ~op:op path) children in
String.concat "\n" commands
let render_config ?(ord_val=false) = Renderer.render_config ~ord_val:ord_val
let render_json = JSONRenderer.render_json
let render_json_ast c = to_yojson c |> Yojson.Safe.to_string
|