diff options
Diffstat (limited to 'src/translation/HTLgenproof.v')
-rw-r--r-- | src/translation/HTLgenproof.v | 367 |
1 files changed, 324 insertions, 43 deletions
diff --git a/src/translation/HTLgenproof.v b/src/translation/HTLgenproof.v index 4b7f268..046ae06 100644 --- a/src/translation/HTLgenproof.v +++ b/src/translation/HTLgenproof.v @@ -18,9 +18,11 @@ From compcert Require RTL Registers AST Integers. From compcert Require Import Globalenvs Memory. -From coqup Require Import Coquplib HTLgenspec HTLgen Value AssocMap. +From coqup Require Import Coquplib HTLgenspec HTLgen Value AssocMap Array. From coqup Require HTL Verilog. +Require Import Lia. + Local Open Scope assocmap. Hint Resolve Smallstep.forward_simulation_plus : htlproof. @@ -42,44 +44,64 @@ Definition state_st_wf (m : HTL.module) (s : HTL.state) := asa!(m.(HTL.mod_st)) = Some (posToValue 32 st). Hint Unfold state_st_wf : htlproof. -Inductive match_stacks : list RTL.stackframe -> list HTL.stackframe -> Prop := +Inductive match_arrs (m : HTL.module) (f : RTL.function) (sp : Values.val) (mem : mem) : + Verilog.assocmap_arr -> Prop := +| match_arr : forall asa stack, + asa ! (m.(HTL.mod_stk)) = Some stack /\ + stack.(arr_length) = Z.to_nat (f.(RTL.fn_stacksize) / 4) /\ + (forall ptr, + 0 <= ptr < Z.of_nat m.(HTL.mod_stk_len) -> + opt_val_value_lessdef (Mem.loadv AST.Mint32 mem + (Values.Val.offset_ptr sp (Integers.Ptrofs.repr (4 * ptr)))) + (Option.default (NToValue 32 0) + (Option.join (array_get_error (Z.to_nat ptr) stack)))) -> + match_arrs m f sp mem asa. + +Inductive match_stacks (mem : mem) : list RTL.stackframe -> list HTL.stackframe -> Prop := | match_stacks_nil : - match_stacks nil nil + match_stacks mem nil nil | match_stacks_cons : - forall cs lr r f sp pc rs m assoc + forall cs lr r f sp pc rs m asr asa (TF : tr_module f m) - (ST: match_stacks cs lr) - (MA: match_assocmaps f rs assoc), - match_stacks (RTL.Stackframe r f sp pc rs :: cs) - (HTL.Stackframe r m pc assoc :: lr). - -Inductive match_arrs (m : HTL.module) : RTL.function -> mem -> AssocMap.t (list value) -> Prop := -| match_arr : forall mem asa stack sp f sz, - sz = f.(RTL.fn_stacksize) -> - asa ! (m.(HTL.mod_stk)) = Some stack -> - (forall ptr, - 0 <= ptr < sz -> - nth_error stack (Z.to_nat ptr) = - (Coquplib.Option.bind (Mem.loadv AST.Mint32 mem - (Values.Val.offset_ptr sp (Integers.Ptrofs.repr ptr))) - valToValue)) -> - match_arrs m f mem asa. + (ST: match_stacks mem cs lr) + (MA: match_assocmaps f rs asr) + (MARR : match_arrs m f sp mem asa), + match_stacks mem (RTL.Stackframe r f sp pc rs :: cs) + (HTL.Stackframe r m pc asr asa :: lr). + +Definition reg_stack_based_pointers (sp : Values.block) (rs : Registers.Regmap.t Values.val) : Prop := + forall r, match Registers.Regmap.get r rs with + | Values.Vptr sp' off => sp' = sp + | _ => True + end. + +Definition arr_stack_based_pointers (spb : Values.block) (m : mem) (stack_length : Z) + (sp : Values.val) : Prop := + forall ptr, + 0 <= ptr < (stack_length / 4) -> + match Mem.loadv AST.Mint32 m (Values.Val.offset_ptr sp (Integers.Ptrofs.repr (4 * ptr))) with + | Some (Values.Vptr sp' off) => sp' = spb + | _ => True + end. Inductive match_states : RTL.state -> HTL.state -> Prop := -| match_state : forall asa asr sf f sp rs mem m st res +| match_state : forall asa asr sf f sp sp' rs mem m st res (MASSOC : match_assocmaps f rs asr) (TF : tr_module f m) (WF : state_st_wf m (HTL.State res m st asr asa)) - (MS : match_stacks sf res) - (MA : match_arrs m f mem asa), + (MS : match_stacks mem sf res) + (MARR : match_arrs m f sp mem asa) + (SP : sp = Values.Vptr sp' (Integers.Ptrofs.repr 0)) + (RSBP: reg_stack_based_pointers sp' rs) + (ASBP: arr_stack_based_pointers sp' mem (f.(RTL.fn_stacksize)) sp), match_states (RTL.State sf f sp st rs mem) (HTL.State res m st asr asa) | match_returnstate : forall - v v' stack m res - (MS : match_stacks stack res), + v v' stack mem res + (MS : match_stacks mem stack res), val_value_lessdef v v' -> - match_states (RTL.Returnstate stack v m) (HTL.Returnstate res v') + match_states (RTL.Returnstate stack v mem) (HTL.Returnstate res v') | match_initial_call : forall f m m0 (TF : tr_module f m), @@ -129,6 +151,33 @@ Proof. Qed. Hint Resolve regs_lessdef_add_match : htlproof. +Lemma list_combine_none : + forall n l, + length l = n -> + list_combine Verilog.merge_cell (list_repeat None n) l = l. +Proof. + induction n; intros; simplify. + - symmetry. apply length_zero_iff_nil. auto. + - destruct l; simplify. + rewrite list_repeat_cons. + simplify. f_equal. + eauto. +Qed. + +Lemma combine_none : + forall n a, + a.(arr_length) = n -> + arr_contents (combine Verilog.merge_cell (arr_repeat None n) a) = arr_contents a. +Proof. + intros. + unfold combine. + simplify. + + rewrite <- (arr_wf a) in H. + apply list_combine_none. + assumption. +Qed. + (* Need to eventually move posToValue 32 to posToValueAuto, as that has this proof. *) Lemma assumption_32bit : forall v, @@ -297,21 +346,51 @@ Section CORRECTNESS. eapply HTL.step_module; eauto. (* processing of state *) econstructor. - simpl. trivial. + simplify. econstructor. econstructor. econstructor. + simplify. - (* prove stval *) - unfold merge_assocmap. - unfold_merge. simpl. apply AssocMap.gss. + unfold Verilog.merge_regs. + unfold_merge. apply AssocMap.gss. (* prove match_state *) rewrite assumption_32bit. - constructor; auto. + econstructor; simplify; eauto. + + unfold Verilog.merge_regs. unfold_merge. simpl. apply regs_lessdef_add_greater. apply greater_than_max_func. assumption. + unfold Verilog.merge_regs. unfold state_st_wf. inversion 1. subst. unfold_merge. apply AssocMap.gss. + + (* prove match_arrs *) + invert MARR. simplify. + unfold HTL.empty_stack. simplify. unfold Verilog.merge_arrs. + econstructor. + simplify. repeat split. + + rewrite AssocMap.gcombine. + 2: { reflexivity. } + rewrite AssocMap.gss. + unfold Verilog.merge_arr. + setoid_rewrite H1. + reflexivity. + + rewrite combine_length. + unfold arr_repeat. simplify. + rewrite list_repeat_len. + reflexivity. + + unfold arr_repeat. simplify. + rewrite list_repeat_len; auto. + intros. + erewrite array_get_error_equal. + eauto. apply combine_none. + + assumption. + - (* Iop *) (* destruct v eqn:?; *) (* try ( *) @@ -390,8 +469,195 @@ Section CORRECTNESS. (* assumption. *) admit. - - admit. - - admit. + Ltac rt := + repeat match goal with + | [ _ : error _ _ = OK _ _ _ |- _ ] => discriminate + | [ _ : context[if (?x && ?y) then _ else _] |- _ ] => + let EQ1 := fresh "EQ" in + let EQ2 := fresh "EQ" in + destruct x eqn:EQ1; destruct y eqn:EQ2; simpl in * + | [ _ : context[if ?x then _ else _] |- _ ] => + let EQ := fresh "EQ" in + destruct x eqn:EQ; simpl in * + | [ H : ret _ _ = _ |- _ ] => invert H + | [ _ : context[match ?x with | _ => _ end] |- _ ] => destruct x + end. + + Opaque Z.mul. + + - (* FIXME: Should be able to use the spec to avoid destructing here. *) + destruct c, chunk, addr, args; simplify; rt; simplify. + + + admit. (* FIXME: Alignment *) + + + (* FIXME: Why is this degenerate? Should we support this mode? *) + unfold Op.eval_addressing in H0. + destruct (Archi.ptr64) eqn:ARCHI; simplify. + destruct (Registers.Regmap.get r0 rs) eqn:EQr0; discriminate. + + + invert MARR. simplify. + + unfold Op.eval_addressing in H0. + destruct (Archi.ptr64) eqn:ARCHI; simplify. + + unfold reg_stack_based_pointers in RSBP. + pose proof (RSBP r0) as RSBPr0. + pose proof (RSBP r1) as RSBPr1. + + destruct (Registers.Regmap.get r0 rs) eqn:EQr0; + destruct (Registers.Regmap.get r1 rs) eqn:EQr1; simplify. + + rewrite ARCHI in H1. simplify. + subst. + + eexists. split. + eapply Smallstep.plus_one. + eapply HTL.step_module; eauto. + econstructor. econstructor. econstructor. simplify. + econstructor. econstructor. econstructor. econstructor. simplify. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. + econstructor. (* FIXME: Oh dear. *) + + unfold Verilog.arr_assocmap_lookup. simplify. setoid_rewrite H3. + f_equal. + + simplify. unfold Verilog.merge_regs. + unfold_merge. + rewrite AssocMap.gso. + apply AssocMap.gss. + apply st_greater_than_res. + + simplify. rewrite assumption_32bit. + econstructor; simplify; eauto. + + unfold Verilog.merge_regs. unfold_merge. + apply regs_lessdef_add_match. + + all: admit. + + + invert MARR. simplify. + + unfold Op.eval_addressing in H0. + destruct (Archi.ptr64) eqn:ARCHI; simplify. + rewrite ARCHI in H0. simplify. + + (** Here we are assuming that any stack read will be within the bounds + of the activation record. *) + assert (0 <= Integers.Ptrofs.unsigned i0) as READ_BOUND_LOW by admit. + assert (Integers.Ptrofs.unsigned i0 < f.(RTL.fn_stacksize)) as READ_BOUND_HIGH by admit. + + eexists. split. + eapply Smallstep.plus_one. + eapply HTL.step_module; eauto. + econstructor. econstructor. econstructor. simplify. + econstructor. econstructor. econstructor. econstructor. simplify. + + unfold Verilog.arr_assocmap_lookup. setoid_rewrite H3. + f_equal. + + simplify. unfold Verilog.merge_regs. + unfold_merge. + rewrite AssocMap.gso. + apply AssocMap.gss. + apply st_greater_than_res. + + simplify. rewrite assumption_32bit. + econstructor; simplify; eauto. + + unfold Verilog.merge_regs. unfold_merge. + apply regs_lessdef_add_match. + + (** Equality proof *) + (* FIXME: 32-bit issue. *) + assert (forall x, valueToNat (ZToValue 32 x) = Z.to_nat x) as VALUE_IDENTITY by admit. + rewrite VALUE_IDENTITY. + specialize (H5 (Integers.Ptrofs.unsigned i0 / 4)). + rewrite Z2Nat.id in H5; try lia. + exploit H5; auto; intros. + 1: { + split. + - apply Z.div_pos; lia. + - apply Zmult_lt_reg_r with (p := 4); try lia. + repeat rewrite ZLib.div_mul_undo; lia. + } + 2: { + assert (0 < RTL.fn_stacksize f) by lia. + apply Z.div_pos; lia. + } + replace (4 * (Integers.Ptrofs.unsigned i0 / 4)) with (Integers.Ptrofs.unsigned i0) in H0. + 2: { + rewrite Z.mul_comm. + rewrite ZLib.div_mul_undo; lia. + } + rewrite Integers.Ptrofs.repr_unsigned in H0. + rewrite H1 in H0. + invert H0. assumption. + + apply regs_lessdef_add_greater. + apply greater_than_max_func. + assumption. + + unfold state_st_wf. inversion 1. simplify. + unfold Verilog.merge_regs. + unfold_merge. rewrite AssocMap.gso. + apply AssocMap.gss. + apply st_greater_than_res. + + econstructor. + repeat split; simplify. + unfold HTL.empty_stack. + simplify. + unfold Verilog.merge_arrs. + + rewrite AssocMap.gcombine. + 2: { reflexivity. } + rewrite AssocMap.gss. + unfold Verilog.merge_arr. + setoid_rewrite H3. + reflexivity. + + rewrite combine_length. + unfold arr_repeat. simplify. + rewrite list_repeat_len. + reflexivity. + + unfold arr_repeat. simplify. + rewrite list_repeat_len. + congruence. + + intros. + erewrite array_get_error_equal. + eauto. apply combine_none. + assumption. + + (* FIXME: RSBP Proof. *) + + - destruct c, chunk, addr, args; simplify; rt; simplify. + + admit. + + admit. + + admit. + + (* + eexists. split. *) + (* eapply Smallstep.plus_one. *) + (* eapply HTL.step_module; eauto. *) + (* econstructor. econstructor. econstructor. simplify. *) + + admit. - eexists. split. apply Smallstep.plus_one. eapply HTL.step_module; eauto. @@ -453,8 +719,7 @@ Section CORRECTNESS. econstructor; simpl; trivial. constructor. - constructor. - constructor. + constructor. constructor. unfold_merge. simpl. rewrite AssocMap.gso. @@ -470,7 +735,8 @@ Section CORRECTNESS. apply AssocMap.gss. rewrite Events.E0_left. reflexivity. constructor. - assumption. + + admit. constructor. - econstructor. split. @@ -499,21 +765,38 @@ Section CORRECTNESS. apply AssocMap.gss. rewrite Events.E0_left. trivial. - constructor. assumption. simpl. inversion MASSOC. subst. + constructor. + admit. + + simpl. inversion MASSOC. subst. unfold find_assocmap, AssocMapExt.get_default. rewrite AssocMap.gso. apply H1. eapply RTL.max_reg_function_use. eauto. simpl; tauto. apply st_greater_than_res. - inversion MSTATE; subst. inversion TF; subst. econstructor. split. apply Smallstep.plus_one. - eapply HTL.step_call. + eapply HTL.step_call. simpl. constructor. apply regs_lessdef_add_greater. apply greater_than_max_func. apply init_reg_assoc_empty. assumption. unfold state_st_wf. intros. inv H1. apply AssocMap.gss. constructor. - admit. + econstructor; simpl. + reflexivity. + rewrite AssocMap.gss. reflexivity. + intros. + destruct (Mem.load AST.Mint32 m' stk + (Integers.Ptrofs.unsigned (Integers.Ptrofs.add + Integers.Ptrofs.zero + (Integers.Ptrofs.repr ptr)))) eqn:LOAD. + pose proof Mem.load_alloc_same as LOAD_ALLOC. + pose proof H as ALLOC. + eapply LOAD_ALLOC in ALLOC. + 2: { exact LOAD. } + rewrite ALLOC. + repeat constructor. + constructor. - inversion MSTATE; subst. inversion MS; subst. econstructor. split. apply Smallstep.plus_one. @@ -525,13 +808,11 @@ Section CORRECTNESS. unfold state_st_wf. intros. inv H. rewrite AssocMap.gso. rewrite AssocMap.gss. trivial. apply st_greater_than_res. - admit. - Unshelve. exact (AssocMap.empty value). exact (AssocMap.empty value). - admit. - admit. + exact (AssocMap.empty value). + exact (AssocMap.empty value). (* exact (ZToValue 32 0). *) (* exact (AssocMap.empty value). *) (* exact (AssocMap.empty value). *) |