647 lines
20 KiB
OCaml
647 lines
20 KiB
OCaml
(***********************************************************************)
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(* *)
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(* Objective Caml *)
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(* *)
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(* Jerome Vouillon, projet Cristal, INRIA Rocquencourt *)
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(* Objective Caml port by John Malecki and Xavier Leroy *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* en Automatique. All rights reserved. This file is distributed *)
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(* under the terms of the Q Public License version 1.0. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(**************************** Time travel ******************************)
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open Instruct
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open Events
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open Debugcom
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open Primitives
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open Checkpoints
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open Breakpoints
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open Trap_barrier
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open Input_handling
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open Debugger_config
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open Program_loading
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exception Current_checkpoint_lost
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let remove_1st key list =
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let rec remove =
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function
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[] -> []
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| a::l -> if a == key then l else a::(remove l)
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in
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remove list
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(*** Debugging. ***)
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let debug_time_travel = ref false
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(*** Internal utilities. ***)
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(* Insert a checkpoint in the checkpoint list.
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* Raise `Exit' if there is already a checkpoint at the same time.
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*)
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let insert_checkpoint ({c_time = time} as checkpoint) =
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let rec traverse =
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function
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[] -> [checkpoint]
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| (({c_time = t} as a)::l) as l' ->
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if t > time then
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a::(traverse l)
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else if t = time then
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raise Exit
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else
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checkpoint::l'
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in
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checkpoints := traverse !checkpoints
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(* Remove a checkpoint from the checkpoint list.
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* --- No error if not found.
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*)
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let remove_checkpoint checkpoint =
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checkpoints := remove_1st checkpoint !checkpoints
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(* Wait for the process used by `checkpoint' to connect.
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* --- Usually not called (the process is already connected).
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*)
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let wait_for_connection checkpoint =
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try
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Exec.unprotect
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(function () ->
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let old_controller = Input_handling.current_controller !connection in
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execute_with_other_controller
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(function
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fd ->
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old_controller fd;
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if checkpoint.c_valid = true then
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exit_main_loop ())
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!connection
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main_loop)
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with
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Sys.Break ->
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checkpoint.c_parent <- root;
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remove_checkpoint checkpoint;
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checkpoint.c_pid <- -1;
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raise Sys.Break
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(* Select a checkpoint as current. *)
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let set_current_checkpoint checkpoint =
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if !debug_time_travel then
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prerr_endline ("Select : " ^ (string_of_int checkpoint.c_pid));
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if not checkpoint.c_valid then
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wait_for_connection checkpoint;
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current_checkpoint := checkpoint;
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set_current_connection checkpoint.c_fd
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(* Kill `checkpoint'. *)
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let kill_checkpoint checkpoint =
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if !debug_time_travel then
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prerr_endline ("Kill : " ^ (string_of_int checkpoint.c_pid));
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if checkpoint.c_pid > 0 then (* Ghosts don't have to be killed ! *)
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(if not checkpoint.c_valid then
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wait_for_connection checkpoint;
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stop checkpoint.c_fd;
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if checkpoint.c_parent.c_pid > 0 then
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wait_child checkpoint.c_parent.c_fd;
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checkpoint.c_parent <- root;
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close_io checkpoint.c_fd;
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remove_file checkpoint.c_fd;
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remove_checkpoint checkpoint);
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checkpoint.c_pid <- -1 (* Don't exist anymore *)
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(*** Cleaning the checkpoint list. ***)
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(* Separe checkpoints before (<=) and after (>) `t'. *)
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(* ### t checkpoints -> (after, before) *)
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let cut t =
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let rec cut_t =
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function
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[] -> ([], [])
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| ({c_time = t'} as a::l) as l' ->
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if t' <= t then
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([], l')
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else
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let (b, e) = cut_t l in
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(a::b, e)
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in
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cut_t
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(* Partition the checkpoints list. *)
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let cut2 t0 t l =
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let rec cut2_t0 t =
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function
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[] -> []
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| l ->
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let (after, before) = cut (t0 - t - 1) l in
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let l = cut2_t0 (2 * t) before in
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after::l
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in
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let (after, before) = cut (t0 - 1) l in
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after::(cut2_t0 t before)
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(* Separe first elements and last element of a list of checkpoint. *)
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let chk_merge2 cont =
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let rec chk_merge2_cont =
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function
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[] -> cont
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| [a] ->
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let (accepted, rejected) = cont in
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(a::accepted, rejected)
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| a::l ->
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let (accepted, rejected) = chk_merge2_cont l in
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(accepted, a::rejected)
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in chk_merge2_cont
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(* Separe the checkpoint list. *)
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(* ### list -> accepted * rejected *)
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let rec chk_merge =
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function
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[] -> ([], [])
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| l::tail ->
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chk_merge2 (chk_merge tail) l
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let new_checkpoint_list checkpoint_count accepted rejected =
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if List.length accepted >= checkpoint_count then
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let (k, l) = list_truncate2 checkpoint_count accepted in
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(k, l @ rejected)
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else
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let (k, l) =
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list_truncate2 (checkpoint_count - List.length accepted) rejected
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in
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(Sort.merge (fun {c_time = t1} {c_time = t2} -> t1 > t2) accepted k,
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l)
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(* Clean the checkpoint list. *)
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(* Reference time is `time'. *)
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let clean_checkpoints time checkpoint_count =
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let (after, before) = cut time !checkpoints in
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let (accepted, rejected) =
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chk_merge (cut2 time !checkpoint_small_step before)
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in
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let (kept, lost) =
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new_checkpoint_list checkpoint_count accepted after
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in
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List.iter kill_checkpoint (lost @ rejected);
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checkpoints := kept
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(*** Internal functions for moving. ***)
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(* Find the first checkpoint before (or at) `time'.
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* Ask for reloading the program if necessary.
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*)
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let find_checkpoint_before time =
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let rec find =
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function
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[] ->
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print_string "Can't go that far in the past !"; print_newline ();
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if yes_or_no "Reload program" then begin
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load_program ();
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find !checkpoints
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end
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else
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raise Toplevel
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| { c_time = t } as a::l ->
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if t > time then
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find l
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else
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a
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in find !checkpoints
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(* Make a copy of the current checkpoint and clean the checkpoint list. *)
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(* --- The new checkpoint in not put in the list. *)
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let duplicate_current_checkpoint () =
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let checkpoint = !current_checkpoint in
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if not checkpoint.c_valid then
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wait_for_connection checkpoint;
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let new_checkpoint = (* Ghost *)
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{c_time = checkpoint.c_time;
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c_pid = 0;
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c_fd = checkpoint.c_fd;
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c_valid = false;
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c_report = checkpoint.c_report;
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c_state = C_stopped;
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c_parent = checkpoint;
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c_breakpoint_version = checkpoint.c_breakpoint_version;
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c_breakpoints = checkpoint.c_breakpoints;
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c_trap_barrier = checkpoint.c_trap_barrier}
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in
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checkpoints := list_replace checkpoint new_checkpoint !checkpoints;
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set_current_checkpoint checkpoint;
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clean_checkpoints (checkpoint.c_time + 1) (!checkpoint_max_count - 1);
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if new_checkpoint.c_pid = 0 then (* The ghost has not been killed *)
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(match do_checkpoint () with (* Duplicate checkpoint *)
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Checkpoint_done pid ->
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(new_checkpoint.c_pid <- pid;
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if !debug_time_travel then
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prerr_endline ("Waiting for connection : " ^ (string_of_int pid)))
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| Checkpoint_failed ->
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prerr_endline
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"A fork failed. Reducing maximum number of checkpoints.";
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checkpoint_max_count := List.length !checkpoints - 1;
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remove_checkpoint new_checkpoint)
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(* Was the movement interrupted ? *)
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(* --- An exception could have been used instead, *)
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(* --- but it is not clear where it should be caught. *)
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(* --- For instance, it should not be caught in `step' *)
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(* --- (as `step' is used in `next_1'). *)
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(* --- On the other side, other modules does not need to know *)
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(* --- about this exception. *)
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let interrupted = ref false
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(* Informations about last breakpoint encountered *)
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let last_breakpoint = ref None
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(* Ensure we stop on an event. *)
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let rec stop_on_event report =
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match report with
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{rep_type = Breakpoint; rep_program_pointer = pc;
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rep_stack_pointer = sp} ->
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last_breakpoint := Some (pc, sp);
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update_current_event ();
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begin match !current_event with
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None -> find_event ()
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| Some _ -> ()
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end
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| {rep_type = Trap_barrier; rep_stack_pointer = trap_frame} ->
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(* No event at current position. *)
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find_event ()
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| _ ->
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()
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and find_event () =
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if !debug_time_travel then begin
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print_string "Searching next event...";
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print_newline ()
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end;
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let report = do_go 1 in
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!current_checkpoint.c_report <- Some report;
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stop_on_event report
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(* Internal function for running debugged program.
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* Requires `duration > 0'.
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*)
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let internal_step duration =
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match current_report () with
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Some {rep_type = Exited | Uncaught_exc} -> ()
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| _ ->
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Exec.protect
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(function () ->
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if !make_checkpoints then
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duplicate_current_checkpoint ()
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else
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remove_checkpoint !current_checkpoint;
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update_breakpoints ();
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update_trap_barrier ();
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!current_checkpoint.c_state <- C_running duration;
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let report = do_go duration in
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!current_checkpoint.c_report <- Some report;
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!current_checkpoint.c_state <- C_stopped;
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if report.rep_type = Event then begin
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!current_checkpoint.c_time <-
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!current_checkpoint.c_time + duration;
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interrupted := false;
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last_breakpoint := None
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end
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else begin
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!current_checkpoint.c_time <-
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!current_checkpoint.c_time + duration
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- report.rep_event_count + 1;
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interrupted := true;
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last_breakpoint := None;
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stop_on_event report
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end;
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(try
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insert_checkpoint !current_checkpoint
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with
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Exit ->
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kill_checkpoint !current_checkpoint;
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set_current_checkpoint
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(find_checkpoint_before (current_time ()))));
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if !debug_time_travel then begin
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print_string "Checkpoints : pid(time)"; print_newline ();
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List.iter
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(function {c_time = time; c_pid = pid; c_valid = valid} ->
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print_int pid;
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print_string "("; print_int time; print_string ")";
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if not valid then print_string "(invalid)";
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print_string " ")
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!checkpoints;
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print_newline ()
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end
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(*** Miscellaneous functions (exported). ***)
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(* Create a checkpoint at time 0 (new program). *)
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let new_checkpoint pid fd =
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let new_checkpoint =
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{c_time = 0;
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c_pid = pid;
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c_fd = fd;
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c_valid = true;
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c_report = None;
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c_state = C_stopped;
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c_parent = root;
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c_breakpoint_version = 0;
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c_breakpoints = [];
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c_trap_barrier = 0}
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in
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insert_checkpoint new_checkpoint
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(* Set the file descriptor of a checkpoint *)
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(* (a new process has connected with the debugger). *)
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(* --- Return `true' on success (close the connection otherwise). *)
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let set_file_descriptor pid fd =
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let rec find =
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function
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[] ->
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prerr_endline "Unexpected connection";
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close_io fd;
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false
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| ({c_pid = pid'} as checkpoint)::l ->
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if pid <> pid' then
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find l
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else
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(checkpoint.c_fd <- fd;
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checkpoint.c_valid <- true;
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true)
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in
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if !debug_time_travel then
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prerr_endline ("New connection : " ^(string_of_int pid));
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find (!current_checkpoint::!checkpoints)
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(* Kill all the checkpoints. *)
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let kill_all_checkpoints () =
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List.iter kill_checkpoint (!current_checkpoint::!checkpoints)
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(* Kill a checkpoint without killing the process. *)
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(* (used when connection with the process is lost). *)
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(* --- Assume that the checkpoint is valid. *)
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let forget_process fd pid =
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let checkpoint =
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find (function c -> c.c_pid = pid) (!current_checkpoint::!checkpoints)
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in
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prerr_string "Lost connection with process ";
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prerr_int pid;
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if checkpoint = !current_checkpoint then begin
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prerr_endline " (active process)";
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match !current_checkpoint.c_state with
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C_stopped ->
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prerr_string "at time ";
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prerr_int !current_checkpoint.c_time
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| C_running duration ->
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prerr_string "between time ";
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prerr_int !current_checkpoint.c_time;
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prerr_string " and time ";
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prerr_int (!current_checkpoint.c_time + duration)
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end;
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prerr_endline "";
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Input_handling.remove_file fd;
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close_io checkpoint.c_fd;
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remove_file checkpoint.c_fd;
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remove_checkpoint checkpoint;
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checkpoint.c_pid <- -1; (* Don't exist anymore *)
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if checkpoint.c_parent.c_pid > 0 then
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wait_child checkpoint.c_parent.c_fd;
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if checkpoint = !current_checkpoint then
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raise Current_checkpoint_lost
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(* Try to recover when the current checkpoint is lost. *)
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let recover () =
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set_current_checkpoint
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(find_checkpoint_before (current_time ()))
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(*** Simple movements. ***)
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(* Forward stepping. Requires `duration >= 0'. *)
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let rec step_forward duration =
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if duration > !checkpoint_small_step then begin
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let first_step =
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if duration > !checkpoint_big_step then
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!checkpoint_big_step
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else
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!checkpoint_small_step
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in
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internal_step first_step;
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if not !interrupted then
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step_forward (duration - first_step)
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end
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else if duration != 0 then
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internal_step duration
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(* Go to time `time' from current checkpoint (internal). *)
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let internal_go_to time =
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let duration = time - current_time () in
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if duration > 0 then
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execute_without_breakpoints (function () -> step_forward duration)
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(* Move to a given time. *)
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let go_to time =
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let checkpoint = find_checkpoint_before time in
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set_current_checkpoint checkpoint;
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internal_go_to time
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(* Return the time of the last breakpoint *)
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(* between current time and `max_time'. *)
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let rec find_last_breakpoint max_time =
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let rec find break =
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let time = current_time () in
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step_forward (max_time - time);
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match !last_breakpoint, !temporary_breakpoint_position with
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(Some _, _) when current_time () < max_time ->
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find !last_breakpoint
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| (Some (pc, _), Some pc') when pc = pc' ->
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(max_time, !last_breakpoint)
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| _ ->
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(time, break)
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in
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find
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(match current_pc_sp () with
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(Some (pc, _)) as state when breakpoint_at_pc pc -> state
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| _ -> None)
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(* Run from `time_max' back to `time'. *)
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(* --- Assume 0 <= time < time_max *)
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let rec back_to time time_max =
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let
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{c_time = t} as checkpoint = find_checkpoint_before (time_max - 1)
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in
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go_to (max time t);
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let (new_time, break) = find_last_breakpoint time_max in
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if break <> None or (new_time <= time) then begin
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go_to new_time;
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interrupted := break <> None;
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last_breakpoint := break
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end else
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back_to time new_time
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(* Backward stepping. *)
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(* --- Assume duration > 1 *)
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let step_backward duration =
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let time = current_time () in
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if time > 0 then
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back_to (max 0 (time - duration)) time
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(* Run the program from current time. *)
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(* Stop at the first breakpoint, or at the end of the program. *)
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let rec run () =
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internal_step !checkpoint_big_step;
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if not !interrupted then
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run ()
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(* Run backward the program form current time. *)
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(* Stop at the first breakpoint, or at the beginning of the program. *)
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let back_run () =
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if current_time () > 0 then
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back_to 0 (current_time ())
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(* Step in any direction. *)
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(* Stop at the first brakpoint, or after `duration' steps. *)
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let step duration =
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if duration >= 0 then
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step_forward duration
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else
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step_backward (-duration)
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(*** Next, finish. ***)
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(* Finish current function. *)
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let finish () =
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update_current_event ();
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match !current_event with
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None ->
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prerr_endline "`finish' not meaningful in outermost frame.";
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raise Toplevel
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| Some curr_event ->
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set_initial_frame();
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let (frame, pc) = up_frame curr_event.ev_stacksize in
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if frame < 0 then begin
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prerr_endline "`finish' not meaningful in outermost frame.";
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raise Toplevel
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end;
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begin
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try ignore(Symbols.any_event_at_pc pc)
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with Not_found ->
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prerr_endline "Calling function has no debugging information.";
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raise Toplevel
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end;
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exec_with_trap_barrier
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frame
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(fun () ->
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exec_with_temporary_breakpoint
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pc
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(fun () ->
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while
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run ();
|
|
match !last_breakpoint with
|
|
Some (pc', frame') when pc = pc' ->
|
|
interrupted := false;
|
|
frame <> frame'
|
|
| _ ->
|
|
false
|
|
do
|
|
()
|
|
done))
|
|
|
|
let next_1 () =
|
|
update_current_event ();
|
|
match !current_event with
|
|
None -> (* Beginning of the program. *)
|
|
step 1
|
|
| Some event1 ->
|
|
let (frame1, pc1) = initial_frame() in
|
|
step 1;
|
|
if not !interrupted then begin
|
|
update_current_event ();
|
|
match !current_event with
|
|
None -> ()
|
|
| Some event2 ->
|
|
let (frame2, pc2) = initial_frame() in
|
|
(* Call `finish' if we've entered a function. *)
|
|
if frame1 >= 0 && frame2 >= 0 &&
|
|
frame2 - event2.ev_stacksize > frame1 - event1.ev_stacksize
|
|
then finish()
|
|
end
|
|
|
|
(* Same as `step' (forward) but skip over function calls. *)
|
|
let rec next =
|
|
function
|
|
0 -> ()
|
|
| n ->
|
|
next_1 ();
|
|
if not !interrupted then
|
|
next (n - 1)
|
|
|
|
(* Run backward until just before current function. *)
|
|
let start () =
|
|
update_current_event ();
|
|
match !current_event with
|
|
None ->
|
|
prerr_endline "`start not meaningful in outermost frame.";
|
|
raise Toplevel
|
|
| Some curr_event ->
|
|
let (frame, _) = initial_frame() in
|
|
let (frame', pc) = up_frame curr_event.ev_stacksize in
|
|
if frame' < 0 then begin
|
|
prerr_endline "`start not meaningful in outermost frame.";
|
|
raise Toplevel
|
|
end;
|
|
let nargs =
|
|
match
|
|
try Symbols.any_event_at_pc pc with Not_found ->
|
|
prerr_endline "Calling function has no debugging information.";
|
|
raise Toplevel
|
|
with
|
|
{ev_info = Event_return nargs} -> nargs
|
|
| _ -> Misc.fatal_error "Time_travel.start"
|
|
in
|
|
let offset = if nargs < 4 then 1 else 2 in
|
|
let pc = pc - 4 * offset in
|
|
while
|
|
exec_with_temporary_breakpoint pc back_run;
|
|
match !last_breakpoint with
|
|
Some (pc', frame') when pc = pc' ->
|
|
step (-1);
|
|
(not !interrupted)
|
|
&&
|
|
(frame' - nargs > frame - curr_event.ev_stacksize)
|
|
| _ ->
|
|
false
|
|
do
|
|
()
|
|
done
|
|
|
|
let previous_1 () =
|
|
update_current_event ();
|
|
match !current_event with
|
|
None -> (* End of the program. *)
|
|
step (-1)
|
|
| Some event1 ->
|
|
let (frame1, pc1) = initial_frame() in
|
|
step (-1);
|
|
if not !interrupted then begin
|
|
update_current_event ();
|
|
match !current_event with
|
|
None -> ()
|
|
| Some event2 ->
|
|
let (frame2, pc2) = initial_frame() in
|
|
(* Call `start' if we've entered a function. *)
|
|
if frame1 >= 0 && frame2 >= 0 &&
|
|
frame2 - event2.ev_stacksize > frame1 - event1.ev_stacksize
|
|
then start()
|
|
end
|
|
|
|
(* Same as `step' (backward) but skip over function calls. *)
|
|
let rec previous =
|
|
function
|
|
0 -> ()
|
|
| n ->
|
|
previous_1 ();
|
|
if not !interrupted then
|
|
previous (n - 1)
|