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xenops_migrate.ml
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xenops_migrate.ml
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(*
* Copyright (C) Citrix Systems Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation; version 2.1 only. with the special
* exception on linking described in file LICENSE.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*)
open Xenops_interface
open Xenops_utils
open Xenops_client
open Fun
module D = Debug.Debugger(struct let name = service_name end)
open D
(*
let local_rpc call =
let open Xmlrpc_client in
XMLRPC_protocol.rpc ~transport:(Unix "/var/xapi/xenopsd") ~http:(xmlrpc ~version:"1.0" "/") call
let _metadata = "VM.import_metadata"
let _failure = "VM.client_migrate_failed"
let _complete = "VM.migrate_complete"
module Receiver = struct
type created_object =
| Vm_metadata of Vm.id
| Vm_created of Vm.id
type state =
| Waiting_metadata
| Received_metadata of Vm.id
| Completed
| Error of string
with rpc
type t = state * created_object list
let cleanup _ = ()
(*
= function
| Vm_metadata id ->
debug "Removing VM metadata for VM id %s" id;
Client.VM.remove local_rpc id |> unwrap
| Vm_created id ->
debug "Destroying VM id %s" id;
Client.VM.destroy local_rpc id |> success |> wait_for_task local_rpc |> success_task local_rpc |> ignore_task
*)
let initial = Waiting_metadata, []
(*
let next (state, created_objects) call = match state, call.Rpc.name, call.Rpc.params with
| Waiting_metadata, call, [ Rpc.String md ] when call = _metadata ->
let vm = md |> Client.VM.import_metadata |> unwrap in
let created_objects = Vm_metadata vm :: created_objects in
(*
Client.VM.create local_rpc vm |> success |> wait_for_task local_rpc |> success_task local_rpc |> ignore_task;
let created_objects = Vm_created vm :: created_objects in
*)
Received_metadata vm, created_objects
| state, name, _ ->
List.iter cleanup created_objects;
Error (Printf.sprintf "Unexpected call. State = %s; Call = %s" (state |> rpc_of_state |> Jsonrpc.to_string) name), []
*)
let string_of_state x = x |> fst |> rpc_of_state |> Jsonrpc.to_string
end
type sender_state = unit
(*
let rec receiver_loop req s state =
let next_req, next_state = try
let call = Unixext.really_read_string s (req.Http.Request.content_length |> Opt.unbox |> Int64.to_int) |> Jsonrpc.call_of_string in
let next_state = Receiver.next state call in
debug "previous state = %s; next state = %s" (Receiver.string_of_state state) (Receiver.string_of_state next_state);
let response = Rpc.success (next_state |> fst |> Receiver.rpc_of_state) in
let body = response |> Jsonrpc.string_of_response in
let length = body |> String.length |> Int64.of_int in
let response = Http.Response.make ~version:"1.1" ~length ~body "200" "OK" in
response |> Http.Response.to_wire_string |> Unixext.really_write_string s;
(* We need to unmarshal the next HTTP request ourselves. *)
match Http_svr.request_of_bio (Buf_io.of_fd s) with
| None ->
debug "Failed to parse HTTP request";
failwith "Failed to parse HTTP request"
| Some req -> req, next_state
with e ->
debug "Receiver thread caught: %s" (Printexc.to_string e);
raise e in
receiver_loop next_req s next_state
let receive req s _ =
let _, _ = receiver_loop req s Receiver.initial in
()
*)
let http_post url length body =
Http.Request.make ~version:"1.1" ?auth:(Http.Url.auth_of url) ~user_agent:"xenopsd" ~length ~query:(Http.Url.get_query_params url) ~body Http.Post (Http.Url.get_uri url)
*)
let http_put ?(cookie=[]) url =
Http.Request.make ~version:"1.1" ~keep_alive:false ?auth:(Http.Url.auth_of url) ~user_agent:"xenopsd" ~query:(Http.Url.get_query_params url) ~cookie Http.Put (Http.Url.get_uri url)
(*
let remote_rpc url rpc fd =
let body = rpc |> Jsonrpc.string_of_call in
let length = body |> String.length |> Int64.of_int in
Http_client.rpc fd (http_post url length body)
(fun response _ ->
let body = Unixext.really_read_string fd (response.Http.Response.content_length |> Opt.unbox |> Int64.to_int) in
debug "body = [%s]" body;
body |> Jsonrpc.response_of_string |> (fun x -> x.Rpc.contents) |> Receiver.state_of_rpc
)
let send_metadata url metadata fd =
let open Receiver in
match remote_rpc url (Rpc.call _metadata [ Rpc.String metadata ]) fd with
| Received_metadata id -> id
| x -> failwith (Printf.sprintf "Unexpected response: %s" (x |> rpc_of_state |> Jsonrpc.to_string))
let send_failure url fd =
let _ = remote_rpc url (Rpc.call _failure []) fd in
()
let send_complete url i fd =
let open Receiver in
match remote_rpc url (Rpc.call _complete [ ]) fd with
| Completed -> ()
| x -> failwith (Printf.sprintf "Unexpected response: %s" (x |> rpc_of_state |> Jsonrpc.to_string))
let serve_rpc s f =
let sent_response = ref false in
try
match Http_svr.request_of_bio (Buf_io.of_fd s) with
| None ->
debug "Failed to parse HTTP request";
failwith "Failed to parse HTTP request"
| Some req ->
let body = match req.Http.Request.content_length with
| Some x -> Unixext.really_read_string s (Int64.to_int x)
| None -> Unixext.string_of_fd s in
let body = f body in
let length = body |> String.length |> Int64.of_int in
let response = Http.Response.make ~version:"1.1" ~length ~body "200" "OK" in
sent_response := true;
response |> Http.Response.to_wire_string |> Unixext.really_write_string s
with e ->
debug "%s" (Printexc.to_string e);
debug "%s" (Printexc.get_backtrace ());
if not !sent_response then begin
let body = String.concat "\n" [
"The following information may be useful for debugging:";
"";
Printf.sprintf "Exception: %s" (Printexc.to_string e);
"";
"Stacktrace:";
(Printexc.get_backtrace ())
] in
let length = body |> String.length |> Int64.of_int in
let response = Http.Response.make ~version:"1.1" ~length ~body "500" "Not so good" in
response |> Http.Response.to_wire_string |> Unixext.really_write_string s
end
*)
exception Remote_failed of string
(** Functions to synchronise between the sender and receiver via binary messages of the form:
00 00 -- success
11 22 <0x1122 bytes of data> -- failure, with error message
Used rather than the API for signalling between sender and receiver to avoid having to
go through the master and interact with locking. *)
module Handshake = struct
type result =
| Success
| Error of string
let string_of_result = function
| Success -> "Success"
| Error x -> "Error: " ^ x
(** Receive a 'result' from the remote *)
let recv ?verbose:(verbose=false) (s: Unix.file_descr) : result =
let buf = String.make 2 '\000' in
if verbose then debug "Handshake.recv: about to read result code from remote.";
(try
Unixext.really_read s buf 0 (String.length buf)
with _ ->
raise (Remote_failed "unmarshalling result code from remote"));
if verbose then debug "Handshake.recv: finished reading result code from remote.";
let len = int_of_char buf.[0] lsl 8 lor (int_of_char buf.[1]) in
if len = 0
then Success
else begin
let msg = String.make len '\000' in
if verbose then debug "Handshake.recv: about to read error message from remote.";
(try Unixext.really_read s msg 0 len
with _ ->
raise (Remote_failed "unmarshalling error message from remote"));
if verbose then debug "Handshake.recv: finished reading error message from remote.";
Error msg
end
(** Expects to receive a success code from the server, throws an exception otherwise *)
let recv_success ?verbose (s: Unix.file_descr) : unit = match recv ?verbose s with
| Success -> ()
| Error x -> raise (Remote_failed ("error from remote: " ^ x))
(** Transmit a 'result' to the remote *)
let send ?verbose:(verbose=false) (s: Unix.file_descr) (r: result) =
let len = match r with
| Success -> 0
| Error msg -> String.length msg in
let buf = String.make (2 + len) '\000' in
buf.[0] <- char_of_int ((len lsr 8) land 0xff);
buf.[1] <- char_of_int ((len lsr 0) land 0xff);
(match r with
| Success -> ()
| Error msg -> String.blit msg 0 buf 2 len);
if verbose then debug "Handshake.send: about to write result to remote.";
if Unix.write s buf 0 (len + 2) <> len + 2
then raise (Remote_failed "writing result to remote");
if verbose then debug "Handshake.send: finished writing result to remote.";
end