1 | include "ASM/Assembly.ma". |
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2 | include "ASM/Interpret.ma". |
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3 | include "ASM/StatusProofs.ma". |
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4 | include alias "arithmetics/nat.ma". |
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5 | |
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6 | let rec encoding_check |
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7 | (code_memory: BitVectorTrie Byte 16) (pc: Word) (final_pc: Word) |
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8 | (encoding: list Byte) |
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9 | on encoding: Prop ≝ |
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10 | match encoding with |
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11 | [ nil ⇒ final_pc = pc |
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12 | | cons hd tl ⇒ |
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13 | let 〈new_pc, byte〉 ≝ next code_memory pc in |
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14 | hd = byte ∧ encoding_check code_memory new_pc final_pc tl |
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15 | ]. |
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16 | |
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17 | lemma encoding_check_append: |
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18 | ∀code_memory: BitVectorTrie Byte 16. |
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19 | ∀final_pc: Word. |
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20 | ∀l1: list Byte. |
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21 | ∀pc: Word. |
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22 | ∀l2: list Byte. |
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23 | encoding_check code_memory pc final_pc (l1@l2) → |
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24 | let pc_plus_len ≝ add … pc (bitvector_of_nat … (length … l1)) in |
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25 | encoding_check code_memory pc pc_plus_len l1 ∧ |
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26 | encoding_check code_memory pc_plus_len final_pc l2. |
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27 | #code_memory #final_pc #l1 elim l1 |
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28 | [1: |
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29 | #pc #l2 |
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30 | whd in ⊢ (????% → ?); #H |
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31 | <add_zero |
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32 | whd whd in ⊢ (?%?); /2/ |
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33 | |2: |
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34 | #hd #tl #IH #pc #l2 * #H1 #H2 |
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35 | (* >add_SO in H2; #H2 *) |
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36 | cases (IH … H2) #E1 #E2 % |
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37 | [1: |
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38 | % try @H1 |
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39 | <(add_bitvector_of_nat_Sm 16 (|tl|)) in E1; |
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40 | <add_associative #assm assumption |
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41 | |2: |
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42 | <add_associative in E2; |
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43 | <(add_bitvector_of_nat_Sm 16 (|tl|)) #assm |
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44 | assumption |
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45 | ] |
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46 | ] |
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47 | qed. |
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48 | |
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49 | lemma fetch_assembly: |
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50 | ∀pc: Word. |
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51 | ∀i: instruction. |
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52 | ∀code_memory: BitVectorTrie Byte 16. |
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53 | ∀assembled: list Byte. |
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54 | assembled = assembly1 i → |
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55 | let len ≝ length … assembled in |
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56 | let pc_plus_len ≝ add … pc (bitvector_of_nat … len) in |
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57 | encoding_check code_memory pc pc_plus_len assembled → |
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58 | let 〈instr, pc', ticks〉 ≝ fetch code_memory pc in |
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59 | (eq_instruction instr i ∧ eqb ticks (ticks_of_instruction instr) ∧ eq_bv … pc' pc_plus_len) = true. |
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60 | cases daemon |
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61 | (* XXX: commented out as takes ages to typecheck |
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62 | #pc #i #code_memory #assembled cases i [8: *] |
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63 | [16,20,29: * * |18,19: * * [1,2,4,5: *] |28: * * [1,2: * [1,2: * [1,2: * [1,2: *]]]]] |
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64 | [47,48,49: |
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65 | |*: #arg @(subaddressing_mode_elim … arg) |
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66 | [2,3,5,7,10,12,16,17,18,21,26,27,28,31,32,33,37,38,39,40,41,42,43,44,45,48,51,58, |
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67 | 59,60,63,64,65,66,67: #ARG]] |
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68 | [4,5,6,7,8,9,10,11,12,13,22,23,24,27,28,39,40,41,42,43,44,45,46,47,48,49,50,51,52, |
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69 | 56,57,69,70,72: #arg2 @(subaddressing_mode_elim … arg2) |
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70 | [1,2,4,7,9,11,12,14,15,17,18,19,20,22,23,24,25,26,27,28,29,30,31,32,33,36,37,38, |
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71 | 39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65, |
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72 | 68,69,70,71: #ARG2]] |
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73 | [1,2,19,20: #arg3 @(subaddressing_mode_elim … arg3) #ARG3] |
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74 | normalize in ⊢ (???% → ?); |
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75 | [92,94,42,93,95: @vsplit_elim #vl #vm #E >E -E; [2,4: @(bitvector_3_elim_prop … vl)] |
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76 | normalize in ⊢ (???% → ?);] |
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77 | #H >H * #H1 try (whd in ⊢ (% → ?); * #H2) |
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78 | try (whd in ⊢ (% → ?); * #H3) whd in ⊢ (% → ?); #H4 |
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79 | whd in match fetch; normalize nodelta <H1 whd in ⊢ (match % with [ _ ⇒ ? ]); |
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80 | [17,18,19,20,21,22,23,24,25,26,32,34,35,36,37,39: <H3] |
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81 | try <H2 whd >eq_instruction_refl >H4 @eq_bv_refl *) |
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82 | qed. |
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83 | |
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84 | let rec fetch_many |
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85 | (code_memory: BitVectorTrie Byte 16) (final_pc: Word) (pc: Word) |
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86 | (expected: list instruction) |
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87 | on expected: Prop ≝ |
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88 | match expected with |
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89 | [ nil ⇒ eq_bv … pc final_pc = true |
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90 | | cons i tl ⇒ |
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91 | let pc' ≝ add 16 pc (bitvector_of_nat 16 (|assembly1 … i|)) in |
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92 | (〈i, pc', ticks_of_instruction i〉 = fetch code_memory pc ∧ |
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93 | fetch_many code_memory final_pc pc' tl) |
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94 | ]. |
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95 | |
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96 | lemma fetch_assembly_pseudo': |
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97 | ∀lookup_labels. |
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98 | ∀sigma: Word → Word. |
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99 | ∀policy: Word → bool. |
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100 | ∀ppc. |
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101 | ∀lookup_datalabels. |
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102 | ∀pi. |
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103 | ∀code_memory. |
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104 | ∀len. |
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105 | ∀assembled. |
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106 | ∀instructions. |
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107 | let pc ≝ sigma ppc in |
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108 | instructions = expand_pseudo_instruction lookup_labels sigma policy ppc lookup_datalabels pi → |
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109 | 〈len,assembled〉 = assembly_1_pseudoinstruction lookup_labels sigma policy ppc lookup_datalabels pi → |
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110 | let pc_plus_len ≝ add … pc (bitvector_of_nat … len) in |
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111 | encoding_check code_memory pc pc_plus_len assembled → |
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112 | fetch_many code_memory pc_plus_len pc instructions. |
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113 | #lookup_labels #sigma #policy #ppc #lookup_datalabels #pi #code_memory #len #assembled #instructions |
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114 | normalize nodelta #instructions_refl whd in ⊢ (???% → ?); <instructions_refl whd in ⊢ (???% → ?); #assembled_refl |
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115 | cases (pair_destruct ?????? assembled_refl) -assembled_refl #len_refl #assembled_refl |
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116 | >len_refl >assembled_refl -len_refl |
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117 | generalize in match (add 16 (sigma ppc) |
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118 | (bitvector_of_nat 16 |
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119 | (|flatten (Vector bool 8) |
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120 | (map instruction (list (Vector bool 8)) assembly1 instructions)|))); |
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121 | #final_pc |
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122 | generalize in match (sigma ppc); elim instructions |
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123 | [1: |
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124 | #pc whd in ⊢ (% → %); #H >H @eq_bv_refl |
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125 | |2: |
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126 | #i #tl #IH #pc #H whd |
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127 | cases (encoding_check_append ????? H) -H #H1 #H2 |
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128 | lapply (fetch_assembly pc i code_memory (assembly1 i) (refl …)) whd in ⊢ (% → ?); |
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129 | cases (fetch ??) * #instr #pc' #ticks |
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130 | #H3 lapply (H3 H1) -H3 normalize nodelta #H3 |
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131 | lapply (conjunction_true ?? H3) * #H4 #H5 |
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132 | lapply (conjunction_true … H4) * #B1 #B2 |
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133 | >(eq_instruction_to_eq … B1) >(eq_bv_eq … H5) % |
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134 | >(eqb_true_to_refl … B2) >(eq_instruction_to_eq … B1) try % @IH @H2 |
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135 | ] |
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136 | qed. |
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137 | |
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138 | lemma fetch_assembly_pseudo: |
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139 | ∀program: pseudo_assembly_program. |
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140 | ∀sigma: Word → Word. |
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141 | ∀policy: Word → bool. |
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142 | let 〈labels, costs〉 ≝ create_label_cost_map (code program) in |
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143 | let lookup_labels ≝ λx. bitvector_of_nat 16 (lookup_def … labels x 0) in |
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144 | ∀ppc.∀ppc_ok. |
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145 | ∀code_memory. |
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146 | let lookup_datalabels ≝ λx:Identifier. lookup_def … (construct_datalabels (preamble program)) x (zero 16) in |
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147 | let pi ≝ \fst (fetch_pseudo_instruction (code program) ppc ppc_ok) in |
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148 | let pc ≝ sigma ppc in |
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149 | let instructions ≝ expand_pseudo_instruction lookup_labels sigma policy ppc lookup_datalabels pi in |
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150 | let 〈len,assembled〉 ≝ assembly_1_pseudoinstruction lookup_labels sigma policy ppc lookup_datalabels pi in |
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151 | let pc_plus_len ≝ add … pc (bitvector_of_nat … len) in |
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152 | encoding_check code_memory pc pc_plus_len assembled → |
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153 | fetch_many code_memory pc_plus_len pc instructions. |
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154 | #program #sigma #policy |
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155 | @pair_elim #labels #costs #create_label_cost_map_refl |
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156 | letin lookup_labels ≝ (λx.?) #ppc #ppc_ok #code_memory |
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157 | letin lookup_datalabels ≝ (λx.?) |
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158 | letin pi ≝ (fst ???) |
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159 | letin pc ≝ (sigma ?) |
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160 | letin instructions ≝ (expand_pseudo_instruction ??????) |
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161 | @pair_elim #len #assembled #assembled_refl normalize nodelta |
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162 | #H |
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163 | generalize in match |
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164 | (fetch_assembly_pseudo' lookup_labels sigma policy ppc lookup_datalabels pi code_memory len assembled instructions) in ⊢ ?; |
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165 | #X destruct normalize nodelta @X try % <assembled_refl try % assumption |
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166 | qed. |
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167 | |
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168 | definition is_present_in_machine_code_image_p: ∀pseudo_instruction. Prop ≝ |
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169 | λpseudo_instruction. |
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170 | match pseudo_instruction with |
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171 | [ Comment c ⇒ False |
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172 | | Cost c ⇒ False |
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173 | | _ ⇒ True |
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174 | ]. |
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175 | |
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176 | (* This is a non trivial consequence of fetch_assembly_pseudo + |
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177 | load_code_memory_ok because of the finite amount of memory. In |
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178 | particular the case when the compiled program exhausts the |
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179 | code memory is very tricky. It also requires monotonicity of |
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180 | sigma in the out-of-bounds region too. *) |
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181 | lemma assembly_ok: |
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182 | ∀program: pseudo_assembly_program. |
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183 | ∀length_proof: |code program| ≤ 2^16. |
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184 | ∀sigma: Word → Word. |
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185 | ∀policy: Word → bool. |
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186 | ∀sigma_policy_witness: sigma_policy_specification program sigma policy. |
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187 | ∀assembled: object_code. |
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188 | ∀costs': BitVectorTrie costlabel 16. |
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189 | let preamble ≝ preamble program in |
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190 | let instr_list ≝ code program in |
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191 | let 〈labels, costs〉 ≝ create_label_cost_map instr_list in |
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192 | let datalabels ≝ construct_datalabels preamble in |
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193 | let lookup_datalabels ≝ λx. lookup_def … datalabels x (zero …) in |
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194 | let loc ≝ pi1 … (assembly program sigma policy) in |
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195 | let assembled ≝ oc loc in |
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196 | let costs' ≝ costlabels loc in |
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197 | (* costs = costs' ∧ CSC: costs != costs', costs' = sigma costs! *) |
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198 | let code_memory ≝ load_code_memory assembled in |
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199 | let lookup_labels ≝ λx. bitvector_of_nat 16 (lookup_def … labels x 0) in |
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200 | ∀ppc.∀ppc_ok. |
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201 | let 〈pi, newppc〉 ≝ fetch_pseudo_instruction (code program) ppc ppc_ok in |
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202 | let 〈len,assembled〉 ≝ assembly_1_pseudoinstruction lookup_labels sigma policy ppc lookup_datalabels pi in |
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203 | let pc ≝ sigma ppc in |
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204 | let pc_plus_len ≝ add … pc (bitvector_of_nat … len) in |
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205 | encoding_check code_memory pc pc_plus_len assembled ∧ |
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206 | sigma newppc = add … pc (bitvector_of_nat … len). |
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207 | #program #length_proof #sigma #policy #sigma_policy_witness #assembled #costs' |
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208 | cases (assembly program sigma policy) * #assembled' #costs'' #symbol_table #fpc #inj |
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209 | cut (|code program| ≤ 2^16) [ // ] #instr_list_ok |
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210 | #H lapply (H sigma_policy_witness instr_list_ok) -H whd in ⊢ (% → ?); |
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211 | @pair_elim #labels #costs #create_label_cost_refl whd in ⊢ (% → %); |
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212 | * * #assembly_ok1 #assembly_ok3 #assembly_ok2 |
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213 | #ppc #ppc_ok @pair_elim #pi #newppc #eq_fetch_pseudo_instruction |
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214 | @pair_elim #len #assembled #eq_assembly_1_pseudoinstruction whd |
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215 | lapply (assembly_ok2 ppc ?) try // -assembly_ok2 |
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216 | >eq_fetch_pseudo_instruction |
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217 | change with ((let 〈len0,assembledi〉 ≝ assembly_1_pseudoinstruction ????? pi in ? ∧ ∀j.∀H:j<|assembledi|.?) → ?) |
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218 | >eq_assembly_1_pseudoinstruction |
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219 | whd in ⊢ (% → ?); * #assembly_ok4 #assembly_ok |
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220 | % |
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221 | [2: >(pair_destruct_2 ????? (sym_eq … eq_fetch_pseudo_instruction)) |
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222 | >snd_fetch_pseudo_instruction |
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223 | cases sigma_policy_witness #_ #H cases (H ? ppc_ok) -H |
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224 | #spw1 #_ >spw1 -spw1 @eq_f @eq_f |
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225 | >eq_fetch_pseudo_instruction whd in match instruction_size; |
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226 | normalize nodelta >create_label_cost_refl |
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227 | >fst_assembly_1_pseudoinstruction_insensible_to_lookup_datalabels |
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228 | [>eq_assembly_1_pseudoinstruction % | skip] |
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229 | | lapply (load_code_memory_ok assembled' ?) [ assumption ] |
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230 | #load_code_memory_ok |
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231 | lapply (fst_snd_assembly_1_pseudoinstruction … eq_assembly_1_pseudoinstruction) #EQlen |
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232 | (* Nice statement here *) |
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233 | cut (∀j. ∀H: j < |assembled|. |
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234 | nth_safe Byte j assembled H = |
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235 | \snd (next (load_code_memory assembled') |
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236 | (bitvector_of_nat 16 |
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237 | (nat_of_bitvector … |
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238 | (add … (sigma ppc) (bitvector_of_nat … j)))))) |
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239 | [1: #j #H cases (assembly_ok … H) #K -assembly_ok #assembly_ok <load_code_memory_ok |
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240 | [ @assembly_ok | skip ] |
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241 | |2: |
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242 | -assembly_ok -load_code_memory_ok generalize in match (sigma ppc); >EQlen -len |
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243 | elim assembled |
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244 | [1: |
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245 | #pc #_ whd <add_zero % |
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246 | | #hd #tl #IH #pc #H % |
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247 | [ lapply (H 0 ?) [ normalize @le_S_S @le_O_n ] whd in ⊢ (??%? → ?); -H #H |
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248 | >H -H whd in ⊢ (??%?); <add_zero // |
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249 | | >(?: add … pc (bitvector_of_nat … (S (|tl|))) = add … (add … pc (bitvector_of_nat … 1)) (bitvector_of_nat … (|tl|))) |
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250 | [2: <add_bitvector_of_nat_Sm @add_associative ] |
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251 | @IH -IH #j #LTj lapply (H (S j) ?) [ @le_S_S @LTj ] |
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252 | <(nth_safe_prepend … [hd] … LTj) #IH >IH <add_bitvector_of_nat_Sm |
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253 | >add_associative % ]]]] |
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254 | qed. |
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255 | |
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256 | (* XXX: should we add that costs = costs'? *) |
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257 | lemma fetch_assembly_pseudo2: |
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258 | ∀program. |
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259 | ∀length_proof: |code program| ≤ 2^16. |
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260 | ∀sigma. |
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261 | ∀policy. |
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262 | ∀sigma_policy_specification_witness: sigma_policy_specification program sigma policy. |
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263 | ∀ppc.∀ppc_ok. |
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264 | let 〈labels, costs〉 ≝ create_label_cost_map (code program) in |
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265 | let res ≝ pi1 … (assembly program sigma policy) in |
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266 | let assembled ≝ oc res in |
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267 | let cost' ≝ costlabels res in |
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268 | let code_memory ≝ load_code_memory assembled in |
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269 | let data_labels ≝ construct_datalabels (preamble program) in |
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270 | let lookup_labels ≝ λx. bitvector_of_nat 16 (lookup_def … labels x 0) in |
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271 | let lookup_datalabels ≝ λx. lookup_def ? ? data_labels x (zero ?) in |
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272 | let 〈pi,newppc〉 ≝ fetch_pseudo_instruction (code program) ppc ppc_ok in |
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273 | let instructions ≝ expand_pseudo_instruction lookup_labels sigma policy ppc lookup_datalabels pi in |
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274 | fetch_many code_memory (sigma newppc) (sigma ppc) instructions. |
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275 | * #preamble #instr_list #code_size_ok #renamed_symbol #final_label |
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276 | #inj #well_labelled #length_proof #sigma #policy #sigma_policy_specification_witness #ppc #ppc_ok |
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277 | @pair_elim #labels #costs #create_label_map_refl |
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278 | letin res ≝ (assembly ???) |
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279 | letin assembled ≝ (oc ?) |
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280 | letin costs' ≝ (costlabels ?) |
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281 | letin code_memory ≝ (load_code_memory ?) |
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282 | letin data_labels ≝ (construct_datalabels ?) |
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283 | letin lookup_labels ≝ (λx. ?) |
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284 | letin lookup_datalabels ≝ (λx. ?) |
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285 | lapply (assembly_ok ?? sigma policy sigma_policy_specification_witness assembled costs') |
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286 | normalize nodelta try assumption |
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287 | >create_label_map_refl in ⊢ (match % with [_ ⇒ ?] → ?); #H |
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288 | lapply (H … ppc_ok) -H |
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289 | @pair_elim #pi #newppc #EQpi_neqppc |
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290 | (*CSC: was working, to be repaired after change in datatypes representation |
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291 | lapply (refl … (assembly_1_pseudoinstruction lookup_labels sigma policy ppc lookup_datalabels pi)) |
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292 | cases (assembly_1_pseudoinstruction ??????) in ⊢ (???% → ?); |
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293 | #len #assembledi #EQ4 #H |
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294 | lapply (H ppc) >fetch_pseudo_refl #H |
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295 | lapply (fetch_assembly_pseudo 〈preamble,instr_list〉 sigma policy) |
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296 | >create_label_map_refl #X lapply (X ppc ppc_ok (load_code_memory assembled)) -X |
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297 | >EQ4 #H1 cases (H ppc_ok) |
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298 | #H2 #H3 >H3 normalize nodelta in H1; normalize nodelta |
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299 | >fetch_pseudo_refl in H1; #assm @assm assumption *) cases daemon |
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300 | qed. |
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301 | |
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302 | inductive upper_lower: Type[0] ≝ |
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303 | | upper: upper_lower |
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304 | | lower: upper_lower. |
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305 | |
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306 | definition eq_upper_lower: |
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307 | upper_lower → upper_lower → bool ≝ |
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308 | λleft: upper_lower. |
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309 | λright: upper_lower. |
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310 | match left with |
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311 | [ upper ⇒ |
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312 | match right with |
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313 | [ upper ⇒ true |
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314 | | _ ⇒ false |
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315 | ] |
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316 | | lower ⇒ |
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317 | match right with |
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318 | [ lower ⇒ true |
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319 | | _ ⇒ false |
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320 | ] |
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321 | ]. |
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322 | |
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323 | lemma eq_upper_lower_true_to_eq: |
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324 | ∀left: upper_lower. |
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325 | ∀right: upper_lower. |
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326 | eq_upper_lower left right = true → left = right. |
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327 | * * normalize try (#_ %) |
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328 | #absurd destruct(absurd) |
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329 | qed. |
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330 | |
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331 | lemma eq_upper_lower_false_to_neq: |
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332 | ∀left: upper_lower. |
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333 | ∀right: upper_lower. |
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334 | eq_upper_lower left right = false → left ≠ right. |
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335 | * * normalize try (#absurd destruct(absurd)) |
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336 | @nmk #absurd destruct(absurd) |
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337 | qed. |
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338 | |
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339 | (* XXX: if upper then the byte in the entry is the least significant byte of the address and |
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340 | the byte in the status is the most significant, otherwise if lower then the |
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341 | other way around |
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342 | *) |
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343 | definition address_entry ≝ upper_lower × Byte. |
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344 | |
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345 | definition eq_accumulator_address_map_entry: |
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346 | option address_entry → option address_entry → bool ≝ |
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347 | λleft. |
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348 | λright. |
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349 | match left with |
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350 | [ None ⇒ |
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351 | match right with |
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352 | [ None ⇒ true |
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353 | | _ ⇒ false |
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354 | ] |
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355 | | Some upper_lower_addr ⇒ |
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356 | let 〈upper_lower, addr〉 ≝ upper_lower_addr in |
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357 | match right with |
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358 | [ Some upper_lower_addr' ⇒ |
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359 | let 〈upper_lower', addr'〉 ≝ upper_lower_addr' in |
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360 | eq_upper_lower upper_lower upper_lower' ∧ eq_bv … addr addr' |
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361 | | _ ⇒ false |
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362 | ] |
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363 | ]. |
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364 | |
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365 | lemma eq_accumulator_address_map_entry_true_to_eq: |
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366 | ∀left: option address_entry. |
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367 | ∀right: option address_entry. |
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368 | eq_accumulator_address_map_entry left right = true → left = right. |
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369 | #left #right cases left cases right |
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370 | [1: |
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371 | #_ % |
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372 | |2,3: |
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373 | * * #word normalize #absurd destruct(absurd) |
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374 | |4: |
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375 | * * #word * * #word' |
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376 | [2,3: |
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377 | #absurd normalize in absurd; destruct(absurd) |
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378 | ] |
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379 | normalize change with (eq_bv 8 ?? = true → ?) |
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380 | #relevant >(eq_bv_eq … relevant) % |
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381 | ] |
---|
382 | qed. |
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383 | |
---|
384 | lemma eq_bv_false_to_neq: |
---|
385 | ∀n: nat. |
---|
386 | ∀left, right: BitVector n. |
---|
387 | eq_bv n left right = false → left ≠ right. |
---|
388 | #n #left elim left |
---|
389 | [1: |
---|
390 | #right >(BitVector_O … right) normalize #absurd destruct(absurd) |
---|
391 | |2: |
---|
392 | #n' #hd #tl #inductive_hypothesis #right |
---|
393 | cases (BitVector_Sn … right) #hd' * #tl' #right_refl |
---|
394 | >right_refl normalize |
---|
395 | cases hd normalize nodelta |
---|
396 | cases hd' normalize nodelta |
---|
397 | [2,3: |
---|
398 | #_ @nmk #absurd destruct(absurd) |
---|
399 | ] |
---|
400 | change with (eq_bv ??? = false → ?) |
---|
401 | #relevant lapply (inductive_hypothesis … relevant) |
---|
402 | #tl_neq_assm @nmk #tl_eq_assm cases tl_neq_assm |
---|
403 | #tl_eq_assm' @tl_eq_assm' destruct(tl_eq_assm) % |
---|
404 | ] |
---|
405 | qed. |
---|
406 | |
---|
407 | lemma eq_accumulator_address_map_entry_false_to_neq: |
---|
408 | ∀left: option address_entry. |
---|
409 | ∀right: option address_entry. |
---|
410 | eq_accumulator_address_map_entry left right = false → left ≠ right. |
---|
411 | #left #right cases left cases right |
---|
412 | [1: |
---|
413 | normalize #absurd destruct(absurd) |
---|
414 | |2,3: |
---|
415 | * * #word normalize #_ % #absurd destruct(absurd) |
---|
416 | |4: |
---|
417 | * * #word * * #word' normalize |
---|
418 | [2,3: |
---|
419 | #_ % #absurd destruct(absurd) |
---|
420 | ] |
---|
421 | change with (eq_bv ??? = false → ?) |
---|
422 | #eq_bv_false_assm lapply (eq_bv_false_to_neq … eq_bv_false_assm) |
---|
423 | #word_neq_assm % @Some_Some_elim #address_eq_assm cases word_neq_assm |
---|
424 | #word_eq_assm @word_eq_assm destruct(address_eq_assm) % |
---|
425 | ] |
---|
426 | qed. |
---|
427 | |
---|
428 | (* XXX: changed this type. Bool specifies whether byte is first or second |
---|
429 | component of an address, and the Word is the pseudoaddress that it |
---|
430 | corresponds to. Second component is the same principle for the accumulator |
---|
431 | A. |
---|
432 | *) |
---|
433 | definition internal_pseudo_address_map ≝ |
---|
434 | (* low, high, acc *) |
---|
435 | (BitVectorTrie address_entry 7) × (BitVectorTrie address_entry 7) × (option address_entry). |
---|
436 | |
---|
437 | include alias "ASM/BitVectorTrie.ma". |
---|
438 | |
---|
439 | include "common/AssocList.ma". |
---|
440 | |
---|
441 | axiom bvt_map2: |
---|
442 | ∀A, B, C: Type[0]. |
---|
443 | ∀n: nat. |
---|
444 | ∀bvt_1: BitVectorTrie A n. |
---|
445 | ∀bvt_2: BitVectorTrie B n. |
---|
446 | ∀f: ∀a: option A. ∀b: option B. option C. |
---|
447 | BitVectorTrie C n. |
---|
448 | |
---|
449 | (* |
---|
450 | axiom is_in_domain: |
---|
451 | ∀A: Type[0]. |
---|
452 | ∀n: nat. |
---|
453 | ∀bvt: BitVectorTrie A n. |
---|
454 | ∀b: BitVector n. |
---|
455 | Prop. |
---|
456 | |
---|
457 | axiom bvt_map2_function_extensionality: |
---|
458 | ∀A, B, C: Type[0]. |
---|
459 | ∀n: nat. |
---|
460 | ∀bvt_1: BitVectorTrie A n. |
---|
461 | ∀bvt_2, bvt_2': BitVectorTrie B n. |
---|
462 | ∀f: ∀a: option A. ∀b: option B. option C. |
---|
463 | (∀addr. |
---|
464 | is_in_domain … bvt_1 addr ∨ is_in_domain … bvt_2 addr ∨ is_in_domain … bvt_2' addr → |
---|
465 | f (lookup_opt … addr bvt_1) (lookup_opt … addr bvt_2) = f (lookup_opt … addr bvt_1) (lookup_opt … addr bvt_2')) → |
---|
466 | bvt_map2 … bvt_1 bvt_2 f = bvt_map2 … bvt_1 bvt_2' f. |
---|
467 | *) |
---|
468 | |
---|
469 | axiom lookup_opt_bvt_map2: |
---|
470 | ∀A,B,C,n,map1,map2,f,addr. |
---|
471 | lookup_opt … addr (bvt_map2 A B C n map1 map2 f) = |
---|
472 | f (lookup_opt … addr map1) (lookup_opt … addr map2). |
---|
473 | |
---|
474 | definition lookup_from_internal_ram: |
---|
475 | ∀addr: Byte. |
---|
476 | ∀M: internal_pseudo_address_map. |
---|
477 | option address_entry ≝ |
---|
478 | λaddr, M. |
---|
479 | let 〈low, high, accA〉 ≝ M in |
---|
480 | let 〈bit_one, seven_bits〉 ≝ vsplit bool 1 7 addr in |
---|
481 | if head' … bit_one then |
---|
482 | lookup_opt … seven_bits high |
---|
483 | else |
---|
484 | lookup_opt … seven_bits low. |
---|
485 | |
---|
486 | definition map_value_using_opt_address_entry: |
---|
487 | (Word → Word) → Byte → option address_entry → Byte ≝ |
---|
488 | λsigma: Word → Word. |
---|
489 | λvalue: Byte. |
---|
490 | λul_addr: option address_entry. |
---|
491 | match ul_addr with |
---|
492 | [ None ⇒ value |
---|
493 | | Some upper_lower_word ⇒ |
---|
494 | let 〈upper_lower, word〉 ≝ upper_lower_word in |
---|
495 | if eq_upper_lower upper_lower upper then |
---|
496 | let 〈high, low〉 ≝ vsplit bool 8 8 (sigma (value@@word)) in |
---|
497 | high |
---|
498 | else |
---|
499 | let 〈high, low〉 ≝ vsplit bool 8 8 (sigma (word@@value)) in |
---|
500 | low |
---|
501 | ]. |
---|
502 | |
---|
503 | definition map_acc_a_using_internal_pseudo_address_map: |
---|
504 | ∀M: internal_pseudo_address_map. (Word → Word) → Byte → Byte ≝ |
---|
505 | λM, sigma, v. map_value_using_opt_address_entry sigma v (\snd M). |
---|
506 | |
---|
507 | definition map_internal_ram_address_using_pseudo_address_map: |
---|
508 | ∀M: internal_pseudo_address_map. (Word → Word) → Byte → Byte → Byte ≝ |
---|
509 | λM: internal_pseudo_address_map. |
---|
510 | λsigma: Word → Word. |
---|
511 | λaddress: Byte. |
---|
512 | λvalue: Byte. |
---|
513 | map_value_using_opt_address_entry sigma value |
---|
514 | (lookup_from_internal_ram … address M ). |
---|
515 | |
---|
516 | definition map_opt_value_using_opt_address_entry: |
---|
517 | (Word → Word) → option Byte → option address_entry → option Byte ≝ |
---|
518 | λsigma,v,ul_addr. |
---|
519 | let v ≝ match v with [ None ⇒ zero … | Some v ⇒ v ] in |
---|
520 | let v' ≝ map_value_using_opt_address_entry sigma v ul_addr in |
---|
521 | if eq_bv … v' (zero …) then |
---|
522 | None … |
---|
523 | else |
---|
524 | Some … v'. |
---|
525 | |
---|
526 | definition internal_ram_of_pseudo_internal_ram: |
---|
527 | ∀sigma: Word → Word. |
---|
528 | ∀ram: BitVectorTrie Byte 7. |
---|
529 | ∀map: BitVectorTrie address_entry 7. |
---|
530 | BitVectorTrie Byte 7 ≝ |
---|
531 | λsigma, ram, map. |
---|
532 | bvt_map2 ??? ? ram map (map_opt_value_using_opt_address_entry sigma). |
---|
533 | |
---|
534 | definition internal_half_pseudo_address_map_equal_up_to_address: |
---|
535 | BitVectorTrie address_entry 7 → BitVectorTrie address_entry 7 → (Word → Word) → |
---|
536 | BitVector 7 → Byte → Byte → Prop |
---|
537 | ≝ |
---|
538 | λM,M',sigma,addr,v,v'. |
---|
539 | v' = map_value_using_opt_address_entry sigma v (lookup_opt … addr M') ∧ |
---|
540 | ∀addr'. addr' ≠ addr → lookup_opt … addr' M = lookup_opt … addr' M'. |
---|
541 | |
---|
542 | axiom insert_internal_ram_of_pseudo_internal_ram: |
---|
543 | ∀M,M',sigma,addr,v,v',ram. |
---|
544 | internal_half_pseudo_address_map_equal_up_to_address M M' sigma addr v v' → |
---|
545 | insert Byte … addr v' (internal_ram_of_pseudo_internal_ram sigma ram M) |
---|
546 | = internal_ram_of_pseudo_internal_ram sigma (insert ?? addr v ram) M'. |
---|
547 | |
---|
548 | definition low_internal_ram_of_pseudo_low_internal_ram: |
---|
549 | ∀M: internal_pseudo_address_map. |
---|
550 | ∀sigma: Word → Word. |
---|
551 | ∀ram: BitVectorTrie Byte 7. |
---|
552 | BitVectorTrie Byte 7 ≝ |
---|
553 | λM, sigma, ram. |
---|
554 | let 〈low, high, accA〉 ≝ M in |
---|
555 | internal_ram_of_pseudo_internal_ram sigma ram low. |
---|
556 | |
---|
557 | definition high_internal_ram_of_pseudo_high_internal_ram: |
---|
558 | ∀M: internal_pseudo_address_map. |
---|
559 | ∀sigma: Word → Word. |
---|
560 | ∀ram: BitVectorTrie Byte 7. |
---|
561 | BitVectorTrie Byte 7 ≝ |
---|
562 | λM, sigma, ram. |
---|
563 | let 〈low, high, accA〉 ≝ M in |
---|
564 | internal_ram_of_pseudo_internal_ram sigma ram high. |
---|
565 | |
---|
566 | (* |
---|
567 | axiom low_internal_ram_of_pseudo_internal_ram_hit: |
---|
568 | ∀M:internal_pseudo_address_map.∀cm.∀s:PseudoStatus cm.∀sigma:Word → Word.∀upper_lower: upper_lower. ∀points_to: Word. ∀addr:BitVector 7. |
---|
569 | lookup_opt ?? (false:::addr) (eq_bv 8) (\fst M) = Some … 〈upper_lower, points_to〉 → |
---|
570 | let ram ≝ low_internal_ram_of_pseudo_low_internal_ram M sigma (low_internal_ram … s) in |
---|
571 | let pbl ≝ lookup ? 7 addr (low_internal_ram … s) (zero 8) in |
---|
572 | let bl ≝ lookup ? 7 addr ram (zero 8) in |
---|
573 | let 〈lower, higher〉 ≝ vsplit ? 8 8 points_to in |
---|
574 | let 〈plower, phigher〉 ≝ vsplit ? 8 8 (sigma points_to) in |
---|
575 | if eq_upper_lower upper_lower upper then |
---|
576 | (pbl = higher) ∧ (bl = phigher) |
---|
577 | else |
---|
578 | (pbl = lower) ∧ (bl = plower). |
---|
579 | *) |
---|
580 | |
---|
581 | (* changed from add to sub *) |
---|
582 | axiom low_internal_ram_of_pseudo_internal_ram_miss: |
---|
583 | ∀T.∀M:internal_pseudo_address_map.∀sigma. ∀cm.∀s:PreStatus T cm.∀addr:BitVector 7. |
---|
584 | let ram ≝ low_internal_ram_of_pseudo_low_internal_ram M sigma (low_internal_ram … s) in |
---|
585 | lookup_opt … addr (\fst (\fst M)) = None … → |
---|
586 | lookup … addr ram (zero …) = lookup … addr (low_internal_ram … s) (zero ?). |
---|
587 | |
---|
588 | definition exists: |
---|
589 | ∀A: Type[0]. |
---|
590 | ∀n: nat. |
---|
591 | ∀v: BitVector n. |
---|
592 | ∀bvt: BitVectorTrie A n. |
---|
593 | bool ≝ |
---|
594 | λA, n, v, bvt. |
---|
595 | match lookup_opt … v bvt with |
---|
596 | [ None ⇒ false |
---|
597 | | _ ⇒ true |
---|
598 | ]. |
---|
599 | |
---|
600 | definition data_or_address ≝ |
---|
601 | λT. |
---|
602 | λM: internal_pseudo_address_map. |
---|
603 | λcm. |
---|
604 | λs: PreStatus T cm. |
---|
605 | λaddr: addressing_mode. |
---|
606 | let 〈low, high, accA〉 ≝ M in |
---|
607 | match addr return λx. option (option address_entry) with |
---|
608 | [ DIRECT d ⇒ |
---|
609 | let 〈hd, seven_bits〉 ≝ vsplit bool 1 7 d in |
---|
610 | match head' … hd with |
---|
611 | [ true ⇒ |
---|
612 | if eq_bv … d (bitvector_of_nat … 224) then |
---|
613 | Some … accA |
---|
614 | else |
---|
615 | Some … (None …) |
---|
616 | | false ⇒ Some … (lookup_opt … seven_bits low) |
---|
617 | ] |
---|
618 | | INDIRECT i ⇒ |
---|
619 | let d ≝ get_register … s [[false;false;i]] in |
---|
620 | let address ≝ bit_address_of_register … s [[false;false;i]] in |
---|
621 | if ¬exists … address low then |
---|
622 | let 〈bit_one, seven_bits〉 ≝ vsplit bool 1 7 d in |
---|
623 | if head' … 0 bit_one then |
---|
624 | Some … (lookup_opt … seven_bits high) |
---|
625 | else |
---|
626 | Some … (lookup_opt … seven_bits low) |
---|
627 | else |
---|
628 | None ? |
---|
629 | | EXT_INDIRECT e ⇒ |
---|
630 | let address ≝ bit_address_of_register … s [[false;false;e]] in |
---|
631 | if ¬exists … address low then |
---|
632 | Some … (None …) |
---|
633 | else |
---|
634 | None ? |
---|
635 | | REGISTER r ⇒ |
---|
636 | let address ≝ bit_address_of_register … s r in |
---|
637 | Some … (lookup_opt … address low) |
---|
638 | | ACC_A ⇒ Some … accA |
---|
639 | | ACC_B ⇒ Some … (None …) |
---|
640 | | DPTR ⇒ Some … (None …) |
---|
641 | | DATA _ ⇒ Some … (None …) |
---|
642 | | DATA16 _ ⇒ Some … (None …) |
---|
643 | | ACC_DPTR ⇒ Some … (None …) |
---|
644 | | ACC_PC ⇒ Some … (None …) |
---|
645 | | EXT_INDIRECT_DPTR ⇒ Some … (None …) |
---|
646 | | INDIRECT_DPTR ⇒ Some … (None …) |
---|
647 | | CARRY ⇒ Some … (None …) |
---|
648 | | BIT_ADDR b ⇒ |
---|
649 | let 〈bit_one, seven_bits〉 ≝ vsplit bool 1 7 b in |
---|
650 | let 〈four_bits, three_bits〉 ≝ vsplit bool 4 3 seven_bits in |
---|
651 | if head' bool 0 bit_one then |
---|
652 | if eq_bv … four_bits [[true; true; false; false]] then (* XXX: this is the accumulator apparently. *) |
---|
653 | Some … accA |
---|
654 | else |
---|
655 | Some … (None …) |
---|
656 | else |
---|
657 | let address' ≝ [[true; false; false]]@@four_bits in |
---|
658 | Some … (lookup_opt … address' low) |
---|
659 | | N_BIT_ADDR b ⇒ |
---|
660 | let 〈bit_one, seven_bits〉 ≝ vsplit bool 1 7 b in |
---|
661 | let 〈four_bits, three_bits〉 ≝ vsplit bool 4 3 seven_bits in |
---|
662 | if head' bool 0 bit_one then |
---|
663 | if eq_bv … four_bits [[true; true; false; false]] then (* XXX: this is the accumulator apparently. *) |
---|
664 | Some … accA |
---|
665 | else |
---|
666 | Some … (None …) |
---|
667 | else |
---|
668 | let address' ≝ [[true; false; false]]@@four_bits in |
---|
669 | Some … (lookup_opt … address' low) |
---|
670 | | RELATIVE _ ⇒ Some … (None …) |
---|
671 | | ADDR11 _ ⇒ Some … (None …) |
---|
672 | | ADDR16 _ ⇒ Some … (None …) |
---|
673 | ]. |
---|
674 | |
---|
675 | definition assert_data ≝ |
---|
676 | λT. |
---|
677 | λM: internal_pseudo_address_map. |
---|
678 | λcm. |
---|
679 | λs: PreStatus T cm. |
---|
680 | λaddr: addressing_mode. |
---|
681 | match data_or_address T M cm s addr with |
---|
682 | [ None ⇒ false |
---|
683 | | Some s ⇒ |
---|
684 | match s with |
---|
685 | [ None ⇒ true |
---|
686 | | _ ⇒ false |
---|
687 | ] |
---|
688 | ]. |
---|
689 | |
---|
690 | definition insert_into_internal_ram: |
---|
691 | ∀addr: Byte. |
---|
692 | ∀v: address_entry. |
---|
693 | ∀M: internal_pseudo_address_map. |
---|
694 | internal_pseudo_address_map ≝ |
---|
695 | λaddr, v, M. |
---|
696 | let 〈low, high, accA〉 ≝ M in |
---|
697 | let 〈bit_one, seven_bits〉 ≝ vsplit bool 1 7 addr in |
---|
698 | if head' … bit_one then |
---|
699 | 〈low, insert … seven_bits v high, accA〉 |
---|
700 | else |
---|
701 | 〈insert … seven_bits v low, high, accA〉. |
---|
702 | |
---|
703 | axiom delete: |
---|
704 | ∀A: Type[0]. |
---|
705 | ∀n: nat. |
---|
706 | ∀b: BitVector n. |
---|
707 | BitVectorTrie A n → BitVectorTrie A n. |
---|
708 | |
---|
709 | definition delete_from_internal_ram: |
---|
710 | ∀addr: Byte. |
---|
711 | ∀M: internal_pseudo_address_map. |
---|
712 | internal_pseudo_address_map ≝ |
---|
713 | λaddr, M. |
---|
714 | let 〈low, high, accA〉 ≝ M in |
---|
715 | let 〈bit_one, seven_bits〉 ≝ vsplit bool 1 7 addr in |
---|
716 | if head' … bit_one then |
---|
717 | 〈low,delete … seven_bits high, accA〉 |
---|
718 | else |
---|
719 | 〈delete … seven_bits low, high, accA〉. |
---|
720 | |
---|
721 | definition overwrite_or_delete_from_internal_ram: |
---|
722 | ∀addr: Byte. |
---|
723 | ∀v: option address_entry. |
---|
724 | ∀M: internal_pseudo_address_map. |
---|
725 | internal_pseudo_address_map ≝ |
---|
726 | λaddr, v, M. |
---|
727 | match v with |
---|
728 | [ None ⇒ delete_from_internal_ram addr M |
---|
729 | | Some v' ⇒ insert_into_internal_ram addr v' M |
---|
730 | ]. |
---|
731 | |
---|
732 | definition next_internal_pseudo_address_map0 ≝ |
---|
733 | λT. |
---|
734 | λcm:T. |
---|
735 | λaddr_of: Identifier → PreStatus T cm → Word. |
---|
736 | λfetched. |
---|
737 | λM: internal_pseudo_address_map. |
---|
738 | λs: PreStatus T cm. |
---|
739 | let 〈low, high, accA〉 ≝ M in |
---|
740 | match fetched with |
---|
741 | [ Comment _ ⇒ Some ? M |
---|
742 | | Cost _ ⇒ Some … M |
---|
743 | | Jmp _ ⇒ Some … M |
---|
744 | | Jnz _ _ _ ⇒ Some … M |
---|
745 | | MovSuccessor _ _ _ ⇒ ? (*CSC: TO BE IMPLEMENTED*) |
---|
746 | | Call a ⇒ |
---|
747 | let a' ≝ addr_of a s in |
---|
748 | let 〈upA, lowA〉 ≝ vsplit bool 8 8 a' in |
---|
749 | Some … (insert_into_internal_ram (add 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 1)) 〈lower, upA〉 |
---|
750 | (insert_into_internal_ram (add 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 2)) 〈upper, lowA〉 M)) |
---|
751 | | Mov _ _ ⇒ Some … M |
---|
752 | | Instruction instr ⇒ |
---|
753 | match instr return λx. option internal_pseudo_address_map with |
---|
754 | [ ADD addr1 addr2 ⇒ |
---|
755 | if assert_data T M … s addr1 ∧ assert_data T M … s addr2 then |
---|
756 | Some ? M |
---|
757 | else |
---|
758 | None ? |
---|
759 | | ADDC addr1 addr2 ⇒ |
---|
760 | if assert_data T M … s addr1 ∧ assert_data T M … s addr2 then |
---|
761 | Some ? M |
---|
762 | else |
---|
763 | None ? |
---|
764 | | SUBB addr1 addr2 ⇒ |
---|
765 | if assert_data T M … s addr1 ∧ assert_data T M … s addr2 then |
---|
766 | Some ? M |
---|
767 | else |
---|
768 | None ? |
---|
769 | | INC addr1 ⇒ |
---|
770 | if assert_data T M ? s addr1 then |
---|
771 | Some ? M |
---|
772 | else |
---|
773 | None ? |
---|
774 | | DEC addr1 ⇒ |
---|
775 | if assert_data T M … s addr1 then |
---|
776 | Some ? M |
---|
777 | else |
---|
778 | None ? |
---|
779 | | MUL addr1 addr2 ⇒ |
---|
780 | if assert_data T M … s addr1 ∧ assert_data T M … s addr2 then |
---|
781 | Some ? M |
---|
782 | else |
---|
783 | None ? |
---|
784 | | DIV addr1 addr2 ⇒ |
---|
785 | if assert_data T M … s addr1 ∧ assert_data T M … s addr2 then |
---|
786 | Some ? M |
---|
787 | else |
---|
788 | None ? |
---|
789 | | DA addr1 ⇒ |
---|
790 | if assert_data T M … s addr1 then |
---|
791 | Some ? M |
---|
792 | else |
---|
793 | None ? |
---|
794 | | JC addr1 ⇒ Some ? M |
---|
795 | | JMP _ ⇒ ? (*CSC: TO BE IMPLEMENTED*) |
---|
796 | | JNC addr1 ⇒ Some ? M |
---|
797 | | JB addr1 addr2 ⇒ Some ? M |
---|
798 | | JNB addr1 addr2 ⇒ Some ? M |
---|
799 | | JBC addr1 addr2 ⇒ Some ? M |
---|
800 | | JZ addr1 ⇒ Some ? M |
---|
801 | | JNZ addr1 ⇒ Some ? M |
---|
802 | | CJNE addr1 addr2 ⇒ |
---|
803 | match addr1 with |
---|
804 | [ inl l ⇒ |
---|
805 | let 〈left, right〉 ≝ l in |
---|
806 | if assert_data T M … s left ∧ assert_data T M … s right then |
---|
807 | Some ? M |
---|
808 | else if ¬(assert_data T M … s left) ∧ ¬(assert_data T M … s right) then |
---|
809 | Some ? M |
---|
810 | else |
---|
811 | None ? |
---|
812 | | inr r ⇒ |
---|
813 | let 〈left, right〉 ≝ r in |
---|
814 | if assert_data T M … s left ∧ assert_data T M … s right then |
---|
815 | Some ? M |
---|
816 | else if ¬(assert_data T M … s left) ∧ ¬(assert_data T M … s right) then |
---|
817 | Some ? M |
---|
818 | else |
---|
819 | None ? |
---|
820 | ] |
---|
821 | | DJNZ addr1 addr2 ⇒ |
---|
822 | if assert_data T M … s addr1 then |
---|
823 | Some ? M |
---|
824 | else |
---|
825 | None ? |
---|
826 | | CLR addr1 ⇒ |
---|
827 | if assert_data T M … s addr1 then |
---|
828 | Some ? M |
---|
829 | else |
---|
830 | None ? |
---|
831 | | CPL addr1 ⇒ |
---|
832 | if assert_data T M … s addr1 then |
---|
833 | Some ? M |
---|
834 | else |
---|
835 | None ? |
---|
836 | | RL addr1 ⇒ |
---|
837 | if assert_data T M … s addr1 then |
---|
838 | Some ? M |
---|
839 | else |
---|
840 | None ? |
---|
841 | | RLC addr1 ⇒ |
---|
842 | if assert_data T M … s addr1 then |
---|
843 | Some ? M |
---|
844 | else |
---|
845 | None ? |
---|
846 | | RR addr1 ⇒ |
---|
847 | if assert_data T M … s addr1 then |
---|
848 | Some ? M |
---|
849 | else |
---|
850 | None ? |
---|
851 | | RRC addr1 ⇒ |
---|
852 | if assert_data T M … s addr1 then |
---|
853 | Some ? M |
---|
854 | else |
---|
855 | None ? |
---|
856 | | SWAP addr1 ⇒ |
---|
857 | if assert_data T M … s addr1 then |
---|
858 | Some ? M |
---|
859 | else |
---|
860 | None ? |
---|
861 | | SETB addr1 ⇒ |
---|
862 | if assert_data T M … s addr1 then |
---|
863 | Some ? M |
---|
864 | else |
---|
865 | None ? |
---|
866 | (* XXX: need to track addresses pushed and popped off the stack? *) |
---|
867 | | PUSH addr1 ⇒ |
---|
868 | match addr1 return λx. bool_to_Prop (is_in … [[direct]] x) → ? with |
---|
869 | [ DIRECT d ⇒ λproof. |
---|
870 | let 〈bit_one, seven_bits〉 ≝ vsplit bool 1 7 d in |
---|
871 | if head' … bit_one then |
---|
872 | if eq_bv … seven_bits (bitvector_of_nat … 224) then |
---|
873 | Some … (overwrite_or_delete_from_internal_ram (add 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 1)) accA M) |
---|
874 | else |
---|
875 | Some … (delete_from_internal_ram … (add 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 1)) M) |
---|
876 | else |
---|
877 | Some … (overwrite_or_delete_from_internal_ram (add 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 1)) (lookup_from_internal_ram … d M) M) |
---|
878 | | _ ⇒ λother: False. ⊥ |
---|
879 | ] (subaddressing_modein … addr1) |
---|
880 | | POP addr1 ⇒ |
---|
881 | let sp ≝ get_8051_sfr ?? s SFR_SP in |
---|
882 | match addr1 return λx. bool_to_Prop (is_in … [[direct]] x) → ? with |
---|
883 | [ DIRECT d ⇒ λproof. |
---|
884 | let 〈bit_one, seven_bits〉 ≝ vsplit bool 1 7 d in |
---|
885 | if head' … bit_one then |
---|
886 | if eq_bv … d (bitvector_of_nat … 224) then |
---|
887 | Some … 〈low, high, lookup_from_internal_ram … sp M〉 |
---|
888 | else |
---|
889 | match lookup_from_internal_ram sp M with |
---|
890 | [ None ⇒ Some ? M |
---|
891 | | _ ⇒ None ? |
---|
892 | ] |
---|
893 | else |
---|
894 | Some … (overwrite_or_delete_from_internal_ram d (lookup_from_internal_ram … sp M) M) |
---|
895 | | _ ⇒ λother: False. ⊥ |
---|
896 | ] (subaddressing_modein … addr1) |
---|
897 | | XCH addr1 addr2 ⇒ |
---|
898 | if assert_data T M … s addr1 ∧ assert_data T M … s addr2 then |
---|
899 | Some ? M |
---|
900 | else |
---|
901 | None ? |
---|
902 | | XCHD addr1 addr2 ⇒ |
---|
903 | if assert_data T M … s addr1 ∧ assert_data T M … s addr2 then |
---|
904 | Some ? M |
---|
905 | else |
---|
906 | None ? |
---|
907 | | RET ⇒ |
---|
908 | let sp_minus_1 ≝ subtraction 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 1) in |
---|
909 | let sp_minus_2 ≝ subtraction 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 2) in |
---|
910 | match lookup_from_internal_ram sp_minus_1 M with |
---|
911 | [ None ⇒ None … |
---|
912 | | Some low_addr_high ⇒ |
---|
913 | match lookup_from_internal_ram sp_minus_2 M with |
---|
914 | [ None ⇒ None … |
---|
915 | | Some high_addr_low ⇒ |
---|
916 | let 〈low, addr_high〉 ≝ low_addr_high in |
---|
917 | let 〈high, addr_low〉 ≝ high_addr_low in |
---|
918 | let addr_low' ≝ read_from_internal_ram … s sp_minus_1 in |
---|
919 | let addr_high' ≝ read_from_internal_ram … s sp_minus_2 in |
---|
920 | if eq_upper_lower low lower ∧ eq_upper_lower high upper ∧ eq_bv … addr_low addr_low' ∧ eq_bv … addr_high addr_high' then |
---|
921 | Some ? M |
---|
922 | else |
---|
923 | None ? |
---|
924 | ] |
---|
925 | ] |
---|
926 | | RETI ⇒ |
---|
927 | let sp_minus_1 ≝ subtraction 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 1) in |
---|
928 | let sp_minus_2 ≝ subtraction 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 2) in |
---|
929 | match lookup_from_internal_ram (subtraction 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 1)) M with |
---|
930 | [ None ⇒ None … |
---|
931 | | Some low_addr_high ⇒ |
---|
932 | match lookup_from_internal_ram (subtraction 8 (get_8051_sfr ?? s SFR_SP) (bitvector_of_nat 8 2)) M with |
---|
933 | [ None ⇒ None … |
---|
934 | | Some high_addr_low ⇒ |
---|
935 | let 〈low, addr_high〉 ≝ low_addr_high in |
---|
936 | let 〈high, addr_low〉 ≝ high_addr_low in |
---|
937 | let addr_low' ≝ read_from_internal_ram … s sp_minus_1 in |
---|
938 | let addr_high' ≝ read_from_internal_ram … s sp_minus_2 in |
---|
939 | if eq_upper_lower low lower ∧ eq_upper_lower high upper ∧ eq_bv … addr_low addr_low' ∧ eq_bv … addr_high addr_high' then |
---|
940 | Some ? M |
---|
941 | else |
---|
942 | None ? |
---|
943 | ] |
---|
944 | ] |
---|
945 | | NOP ⇒ Some … M |
---|
946 | | MOVX addr1 ⇒ |
---|
947 | match addr1 with |
---|
948 | [ inl l ⇒ |
---|
949 | Some ? 〈low, high, None …〉 |
---|
950 | | inr r ⇒ |
---|
951 | let 〈others, acc_a〉 ≝ r in |
---|
952 | if assert_data T M … s acc_a then |
---|
953 | Some ? M |
---|
954 | else |
---|
955 | None ? |
---|
956 | ] |
---|
957 | | XRL addr1 ⇒ |
---|
958 | match addr1 with |
---|
959 | [ inl l ⇒ |
---|
960 | let 〈acc_a, others〉 ≝ l in |
---|
961 | let acc_a_ok ≝ assert_data T M … s acc_a in |
---|
962 | let others_ok ≝ assert_data T M … s others in |
---|
963 | if acc_a_ok ∧ others_ok then |
---|
964 | Some ? M |
---|
965 | else |
---|
966 | None ? |
---|
967 | | inr r ⇒ |
---|
968 | let 〈direct, others〉 ≝ r in |
---|
969 | let direct_ok ≝ assert_data T M … s direct in |
---|
970 | let others_ok ≝ assert_data T M … s others in |
---|
971 | if direct_ok ∧ others_ok then |
---|
972 | Some ? M |
---|
973 | else |
---|
974 | None ? |
---|
975 | ] |
---|
976 | | ORL addr1 ⇒ |
---|
977 | match addr1 with |
---|
978 | [ inl l ⇒ |
---|
979 | match l with |
---|
980 | [ inl l ⇒ |
---|
981 | let 〈acc_a, others〉 ≝ l in |
---|
982 | let acc_a_ok ≝ assert_data T M … s acc_a in |
---|
983 | let others_ok ≝ assert_data T M … s others in |
---|
984 | if acc_a_ok ∧ others_ok then |
---|
985 | Some ? M |
---|
986 | else |
---|
987 | None ? |
---|
988 | | inr r ⇒ |
---|
989 | let 〈direct, others〉 ≝ r in |
---|
990 | let direct_ok ≝ assert_data T M … s direct in |
---|
991 | let others_ok ≝ assert_data T M … s others in |
---|
992 | if direct_ok ∧ others_ok then |
---|
993 | Some ? M |
---|
994 | else |
---|
995 | None ? |
---|
996 | ] |
---|
997 | | inr r ⇒ |
---|
998 | let 〈carry, others〉 ≝ r in |
---|
999 | let carry_ok ≝ assert_data T M … s carry in |
---|
1000 | let others_ok ≝ assert_data T M … s others in |
---|
1001 | if carry_ok ∧ others_ok then |
---|
1002 | Some ? M |
---|
1003 | else |
---|
1004 | None ? |
---|
1005 | ] |
---|
1006 | | ANL addr1 ⇒ |
---|
1007 | match addr1 with |
---|
1008 | [ inl l ⇒ |
---|
1009 | match l with |
---|
1010 | [ inl l ⇒ |
---|
1011 | let 〈acc_a, others〉 ≝ l in |
---|
1012 | let acc_a_ok ≝ assert_data T M … s acc_a in |
---|
1013 | let others_ok ≝ assert_data T M … s others in |
---|
1014 | if acc_a_ok ∧ others_ok then |
---|
1015 | Some ? M |
---|
1016 | else |
---|
1017 | None ? |
---|
1018 | | inr r ⇒ |
---|
1019 | let 〈direct, others〉 ≝ r in |
---|
1020 | let direct_ok ≝ assert_data T M … s direct in |
---|
1021 | let others_ok ≝ assert_data T M … s others in |
---|
1022 | if direct_ok ∧ others_ok then |
---|
1023 | Some ? M |
---|
1024 | else |
---|
1025 | None ? |
---|
1026 | ] |
---|
1027 | | inr r ⇒ |
---|
1028 | let 〈carry, others〉 ≝ r in |
---|
1029 | let carry_ok ≝ assert_data T M … s carry in |
---|
1030 | let others_ok ≝ assert_data T M … s others in |
---|
1031 | if carry_ok ∧ others_ok then |
---|
1032 | Some ? M |
---|
1033 | else |
---|
1034 | None ? |
---|
1035 | ] |
---|
1036 | | MOV addr1 ⇒ |
---|
1037 | (* XXX: wrong *) |
---|
1038 | match addr1 with |
---|
1039 | [ inl l ⇒ |
---|
1040 | match l with |
---|
1041 | [ inl l' ⇒ |
---|
1042 | match l' with |
---|
1043 | [ inl l'' ⇒ |
---|
1044 | match l'' with |
---|
1045 | [ inl l''' ⇒ |
---|
1046 | match l''' with |
---|
1047 | [ inl l'''' ⇒ |
---|
1048 | let 〈acc_a, others〉 ≝ l'''' in |
---|
1049 | match data_or_address T M … s others with |
---|
1050 | [ None ⇒ None ? |
---|
1051 | | Some s ⇒ |
---|
1052 | Some … 〈low, high, s〉 |
---|
1053 | ] |
---|
1054 | | inr r ⇒ |
---|
1055 | let 〈others, others'〉 ≝ r in |
---|
1056 | let address ≝ |
---|
1057 | match others return λx. bool_to_Prop (is_in … [[ registr; indirect ]] x) → ? with |
---|
1058 | [ REGISTER r ⇒ λproof. false:::bit_address_of_register … s r |
---|
1059 | | INDIRECT i ⇒ λproof. get_register … s [[false; false; i]] |
---|
1060 | | _ ⇒ λother: False. ⊥ |
---|
1061 | ] (subaddressing_modein … others) |
---|
1062 | in |
---|
1063 | match data_or_address T M … s others' with |
---|
1064 | [ None ⇒ None ? |
---|
1065 | | Some s ⇒ |
---|
1066 | Some … (overwrite_or_delete_from_internal_ram address s M) |
---|
1067 | ] |
---|
1068 | ] |
---|
1069 | | inr r ⇒ |
---|
1070 | let 〈direct', others〉 ≝ r in |
---|
1071 | match direct' return λx. bool_to_Prop (is_in … [[direct]] x) → ? with |
---|
1072 | [ DIRECT d ⇒ λproof. |
---|
1073 | match data_or_address T M … s others with |
---|
1074 | [ None ⇒ None ? |
---|
1075 | | Some s' ⇒ |
---|
1076 | let 〈bit_one, seven_bits〉 ≝ vsplit bool 1 7 d in |
---|
1077 | if head' … bit_one then |
---|
1078 | if eq_bv … d (bitvector_of_nat … 224) then |
---|
1079 | Some … 〈low, high, s'〉 |
---|
1080 | else |
---|
1081 | match s' with |
---|
1082 | [ None ⇒ Some ? M |
---|
1083 | | Some s'' ⇒ None ? |
---|
1084 | ] |
---|
1085 | else |
---|
1086 | Some … (overwrite_or_delete_from_internal_ram d s' M) |
---|
1087 | ] |
---|
1088 | | _ ⇒ λother: False. ⊥ |
---|
1089 | ] (subaddressing_modein … direct') |
---|
1090 | ] |
---|
1091 | | inr r ⇒ Some … M |
---|
1092 | ] |
---|
1093 | | inr r ⇒ |
---|
1094 | let 〈carry, bit_addr〉 ≝ r in |
---|
1095 | if assert_data T M … s bit_addr then |
---|
1096 | Some ? M |
---|
1097 | else |
---|
1098 | None ? |
---|
1099 | ] |
---|
1100 | | inr r ⇒ |
---|
1101 | let 〈bit_addr, carry〉 ≝ r in |
---|
1102 | if assert_data T M … s bit_addr then |
---|
1103 | Some ? M |
---|
1104 | else |
---|
1105 | None ? |
---|
1106 | ] |
---|
1107 | ] |
---|
1108 | ]. |
---|
1109 | cases other |
---|
1110 | qed. |
---|
1111 | |
---|
1112 | definition next_internal_pseudo_address_map ≝ |
---|
1113 | λM:internal_pseudo_address_map. |
---|
1114 | λcm. |
---|
1115 | λaddr_of. |
---|
1116 | λs:PseudoStatus cm. |
---|
1117 | λppc_ok. |
---|
1118 | next_internal_pseudo_address_map0 ? cm addr_of |
---|
1119 | (\fst (fetch_pseudo_instruction (\snd cm) (program_counter … s) ppc_ok)) M s. |
---|
1120 | |
---|
1121 | definition code_memory_of_pseudo_assembly_program: |
---|
1122 | ∀pap:pseudo_assembly_program. |
---|
1123 | (Word → Word) → (Word → bool) → BitVectorTrie Byte 16 ≝ |
---|
1124 | λpap. |
---|
1125 | λsigma. |
---|
1126 | λpolicy. |
---|
1127 | let p ≝ pi1 … (assembly pap sigma policy) in |
---|
1128 | load_code_memory (\fst p). |
---|
1129 | |
---|
1130 | definition sfr_8051_of_pseudo_sfr_8051 ≝ |
---|
1131 | λM: internal_pseudo_address_map. |
---|
1132 | λsfrs: Vector Byte 19. |
---|
1133 | λsigma: Word → Word. |
---|
1134 | match \snd M with |
---|
1135 | [ None ⇒ sfrs |
---|
1136 | | Some upper_lower_address ⇒ |
---|
1137 | let index ≝ sfr_8051_index SFR_ACC_A in |
---|
1138 | let acc_a ≝ get_index_v … sfrs index ? in |
---|
1139 | let 〈upper_lower, address〉 ≝ upper_lower_address in |
---|
1140 | if eq_upper_lower upper_lower upper then |
---|
1141 | let 〈high, low〉 ≝ vsplit ? 8 8 (sigma (acc_a@@address)) in |
---|
1142 | set_index Byte 19 sfrs index high ? |
---|
1143 | else |
---|
1144 | let 〈high, low〉 ≝ vsplit ? 8 8 (sigma (address@@acc_a)) in |
---|
1145 | set_index Byte 19 sfrs index low ? |
---|
1146 | ]. |
---|
1147 | // |
---|
1148 | qed. |
---|
1149 | |
---|
1150 | definition status_of_pseudo_status: |
---|
1151 | internal_pseudo_address_map → ∀pap. ∀ps: PseudoStatus pap. |
---|
1152 | ∀sigma: Word → Word. ∀policy: Word → bool. |
---|
1153 | Status (code_memory_of_pseudo_assembly_program pap sigma policy) ≝ |
---|
1154 | λM. |
---|
1155 | λpap. |
---|
1156 | λps. |
---|
1157 | λsigma. |
---|
1158 | λpolicy. |
---|
1159 | let cm ≝ code_memory_of_pseudo_assembly_program … sigma policy in |
---|
1160 | let pc ≝ sigma (program_counter … ps) in |
---|
1161 | let lir ≝ low_internal_ram_of_pseudo_low_internal_ram M sigma (low_internal_ram … ps) in |
---|
1162 | let hir ≝ high_internal_ram_of_pseudo_high_internal_ram M sigma (high_internal_ram … ps) in |
---|
1163 | mk_PreStatus (BitVectorTrie Byte 16) |
---|
1164 | cm |
---|
1165 | lir |
---|
1166 | hir |
---|
1167 | (external_ram … ps) |
---|
1168 | pc |
---|
1169 | (sfr_8051_of_pseudo_sfr_8051 M (special_function_registers_8051 … ps) sigma) |
---|
1170 | (special_function_registers_8052 … ps) |
---|
1171 | (p1_latch … ps) |
---|
1172 | (p3_latch … ps) |
---|
1173 | (clock … ps). |
---|
1174 | |
---|
1175 | (* |
---|
1176 | definition write_at_stack_pointer': |
---|
1177 | ∀M. ∀ps: PreStatus M. Byte → Σps':PreStatus M.(code_memory … ps = code_memory … ps') ≝ |
---|
1178 | λM: Type[0]. |
---|
1179 | λs: PreStatus M. |
---|
1180 | λv: Byte. |
---|
1181 | let 〈 nu, nl 〉 ≝ vsplit … 4 4 (get_8051_sfr ? s SFR_SP) in |
---|
1182 | let bit_zero ≝ get_index_v… nu O ? in |
---|
1183 | let bit_1 ≝ get_index_v… nu 1 ? in |
---|
1184 | let bit_2 ≝ get_index_v… nu 2 ? in |
---|
1185 | let bit_3 ≝ get_index_v… nu 3 ? in |
---|
1186 | if bit_zero then |
---|
1187 | let memory ≝ insert … ([[ bit_1 ; bit_2 ; bit_3 ]] @@ nl) |
---|
1188 | v (low_internal_ram ? s) in |
---|
1189 | set_low_internal_ram ? s memory |
---|
1190 | else |
---|
1191 | let memory ≝ insert … ([[ bit_1 ; bit_2 ; bit_3 ]] @@ nl) |
---|
1192 | v (high_internal_ram ? s) in |
---|
1193 | set_high_internal_ram ? s memory. |
---|
1194 | [ cases l0 % |
---|
1195 | |2,3,4,5: normalize repeat (@ le_S_S) @ le_O_n ] |
---|
1196 | qed. |
---|
1197 | |
---|
1198 | definition execute_1_pseudo_instruction': (Word → nat) → ∀ps:PseudoStatus. |
---|
1199 | Σps':PseudoStatus.(code_memory … ps = code_memory … ps') |
---|
1200 | ≝ |
---|
1201 | λticks_of. |
---|
1202 | λs. |
---|
1203 | let 〈instr, pc〉 ≝ fetch_pseudo_instruction (\snd (code_memory ? s)) (program_counter ? s) in |
---|
1204 | let ticks ≝ ticks_of (program_counter ? s) in |
---|
1205 | let s ≝ set_clock ? s (clock ? s + ticks) in |
---|
1206 | let s ≝ set_program_counter ? s pc in |
---|
1207 | match instr with |
---|
1208 | [ Instruction instr ⇒ |
---|
1209 | execute_1_preinstruction … (λx, y. address_of_word_labels y x) instr s |
---|
1210 | | Comment cmt ⇒ s |
---|
1211 | | Cost cst ⇒ s |
---|
1212 | | Jmp jmp ⇒ set_program_counter ? s (address_of_word_labels s jmp) |
---|
1213 | | Call call ⇒ |
---|
1214 | let a ≝ address_of_word_labels s call in |
---|
1215 | let 〈carry, new_sp〉 ≝ half_add ? (get_8051_sfr ? s SFR_SP) (bitvector_of_nat 8 1) in |
---|
1216 | let s ≝ set_8051_sfr ? s SFR_SP new_sp in |
---|
1217 | let 〈pc_bu, pc_bl〉 ≝ vsplit ? 8 8 (program_counter ? s) in |
---|
1218 | let s ≝ write_at_stack_pointer' ? s pc_bl in |
---|
1219 | let 〈carry, new_sp〉 ≝ half_add ? (get_8051_sfr ? s SFR_SP) (bitvector_of_nat 8 1) in |
---|
1220 | let s ≝ set_8051_sfr ? s SFR_SP new_sp in |
---|
1221 | let s ≝ write_at_stack_pointer' ? s pc_bu in |
---|
1222 | set_program_counter ? s a |
---|
1223 | | Mov dptr ident ⇒ |
---|
1224 | set_arg_16 ? s (get_arg_16 ? s (DATA16 (address_of_word_labels s ident))) dptr |
---|
1225 | ]. |
---|
1226 | [ |
---|
1227 | |2,3,4: % |
---|
1228 | | <(sig2 … l7) whd in ⊢ (??? (??%)) <(sig2 … l5) % |
---|
1229 | | |
---|
1230 | | % |
---|
1231 | ] |
---|
1232 | cases not_implemented |
---|
1233 | qed. |
---|
1234 | *) |
---|
1235 | |
---|
1236 | (* |
---|
1237 | lemma execute_code_memory_unchanged: |
---|
1238 | ∀ticks_of,ps. code_memory ? ps = code_memory ? (execute_1_pseudo_instruction ticks_of ps). |
---|
1239 | #ticks #ps whd in ⊢ (??? (??%)) |
---|
1240 | cases (fetch_pseudo_instruction (\snd (code_memory pseudo_assembly_program ps)) |
---|
1241 | (program_counter pseudo_assembly_program ps)) #instr #pc |
---|
1242 | whd in ⊢ (??? (??%)) cases instr |
---|
1243 | [ #pre cases pre |
---|
1244 | [ #a1 #a2 whd in ⊢ (??? (??%)) cases (add_8_with_carry ???) #y1 #y2 whd in ⊢ (??? (??%)) |
---|
1245 | cases (vsplit ????) #z1 #z2 % |
---|
1246 | | #a1 #a2 whd in ⊢ (??? (??%)) cases (add_8_with_carry ???) #y1 #y2 whd in ⊢ (??? (??%)) |
---|
1247 | cases (vsplit ????) #z1 #z2 % |
---|
1248 | | #a1 #a2 whd in ⊢ (??? (??%)) cases (sub_8_with_carry ???) #y1 #y2 whd in ⊢ (??? (??%)) |
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1249 | cases (vsplit ????) #z1 #z2 % |
---|
1250 | | #a1 whd in ⊢ (??? (??%)) cases a1 #x #H whd in ⊢ (??? (??%)) cases x |
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1251 | [ #x1 whd in ⊢ (??? (??%)) |
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1252 | | *: cases not_implemented |
---|
1253 | ] |
---|
1254 | | #comment % |
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1255 | | #cost % |
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1256 | | #label % |
---|
1257 | | #label whd in ⊢ (??? (??%)) cases (half_add ???) #x1 #x2 whd in ⊢ (??? (??%)) |
---|
1258 | cases (vsplit ????) #y1 #y2 whd in ⊢ (??? (??%)) cases (half_add ???) #z1 #z2 |
---|
1259 | whd in ⊢ (??? (??%)) whd in ⊢ (??? (??%)) cases (vsplit ????) #w1 #w2 |
---|
1260 | whd in ⊢ (??? (??%)) cases (get_index_v bool ????) whd in ⊢ (??? (??%)) |
---|
1261 | (* CSC: ??? *) |
---|
1262 | | #dptr #label (* CSC: ??? *) |
---|
1263 | ] |
---|
1264 | cases not_implemented |
---|
1265 | qed. |
---|
1266 | *) |
---|
1267 | |
---|
1268 | (* XXX: check values returned for conditional jumps below! They are wrong, |
---|
1269 | find correct values *) |
---|
1270 | |
---|
1271 | (* |
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1272 | lemma blah: |
---|
1273 | ∀m: internal_pseudo_address_map. |
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1274 | ∀s: PseudoStatus. |
---|
1275 | ∀arg: Byte. |
---|
1276 | ∀b: bool. |
---|
1277 | assert_data m s (DIRECT arg) = true → |
---|
1278 | get_arg_8 ? (set_low_internal_ram ? s (low_internal_ram_of_pseudo_low_internal_ram m (low_internal_ram ? s))) b (DIRECT arg) = |
---|
1279 | get_arg_8 ? s b (DIRECT arg). |
---|
1280 | [2, 3: normalize % ] |
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1281 | #m #s #arg #b #hyp |
---|
1282 | whd in ⊢ (??%%) |
---|
1283 | @vsplit_elim'' |
---|
1284 | #nu' #nl' #arg_nu_nl_eq |
---|
1285 | normalize nodelta |
---|
1286 | generalize in match (refl ? (get_index_v bool 4 nu' ? ?)) |
---|
1287 | cases (get_index_v bool 4 nu' ? ?) in ⊢ (??%? → %) |
---|
1288 | #get_index_v_eq |
---|
1289 | normalize nodelta |
---|
1290 | [2: |
---|
1291 | normalize nodelta |
---|
1292 | @vsplit_elim'' |
---|
1293 | #bit_one' #three_bits' #bit_one_three_bit_eq |
---|
1294 | generalize in match (low_internal_ram_of_pseudo_internal_ram_miss m s (three_bits'@@nl')) |
---|
1295 | normalize nodelta |
---|
1296 | generalize in match (refl ? (sub_7_with_carry ? ? ?)) |
---|
1297 | cases (sub_7_with_carry ? ? ?) in ⊢ (??%? → %) |
---|
1298 | #Saddr #carr' #Saddr_carr_eq |
---|
1299 | normalize nodelta |
---|
1300 | #carr_hyp' |
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1301 | @carr_hyp' |
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1302 | [1: |
---|
1303 | |2: whd in hyp:(??%?); generalize in match hyp; -hyp; |
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1304 | generalize in match (refl ? (¬(member (BitVector 8) ? arg m))) |
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1305 | cases (¬(member (BitVector 8) ? arg m)) in ⊢ (??%? → %) |
---|
1306 | #member_eq |
---|
1307 | normalize nodelta |
---|
1308 | [2: #destr destruct(destr) |
---|
1309 | |1: -carr_hyp'; |
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1310 | >arg_nu_nl_eq |
---|
1311 | <(vsplit_vector_singleton ? ? nu' ? ? ? bit_one_three_bit_eq) |
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1312 | [1: >get_index_v_eq in ⊢ (??%? → ?) |
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1313 | |2: @le_S @le_S @le_S @le_n |
---|
1314 | ] |
---|
1315 | cases (member (BitVector 8) ? (\fst ?) ?) |
---|
1316 | [1: #destr normalize in destr; destruct(destr) |
---|
1317 | |2: |
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1318 | ] |
---|
1319 | ] |
---|
1320 | |3: >get_index_v_eq in ⊢ (??%?) |
---|
1321 | change in ⊢ (??(???%?)?) with ((? ::: three_bits') @@ nl') |
---|
1322 | >(vsplit_vector_singleton … bit_one_three_bit_eq) |
---|
1323 | <arg_nu_nl_eq |
---|
1324 | whd in hyp:(??%?) |
---|
1325 | cases (member (BitVector 8) (eq_bv 8) arg m) in hyp |
---|
1326 | normalize nodelta [*: #ignore @sym_eq ] |
---|
1327 | ] |
---|
1328 | | |
---|
1329 | ]. |
---|
1330 | *) |
---|
1331 | (* |
---|
1332 | map_address0 ... (DIRECT arg) = Some .. → |
---|
1333 | get_arg_8 (map_address0 ... (internal_ram ...) (DIRECT arg) = |
---|
1334 | get_arg_8 (internal_ram ...) (DIRECT arg) |
---|
1335 | |
---|
1336 | ((if assert_data M ps ACC_A∧assert_data M ps (DIRECT ARG2) |
---|
1337 | then Some internal_pseudo_address_map M |
---|
1338 | else None internal_pseudo_address_map ) |
---|
1339 | =Some internal_pseudo_address_map M') |
---|
1340 | |
---|
1341 | axiom low_internal_ram_write_at_stack_pointer: |
---|
1342 | ∀T1,T2,M,cm1,s1,cm2,s2,cm3,s3.∀sigma: Word → Word.∀policy: Word → bool. |
---|
1343 | ∀pbu,pbl,bu,bl,sp1,sp2:BitVector 8. |
---|
1344 | get_8051_sfr T2 cm2 s2 SFR_SP = get_8051_sfr ? cm3 s3 SFR_SP → |
---|
1345 | low_internal_ram ? cm2 s2 = low_internal_ram T2 cm3 s3 → |
---|
1346 | sp1 = add ? (get_8051_sfr … cm1 s1 SFR_SP) (bitvector_of_nat 8 1) → |
---|
1347 | sp2 = add ? sp1 (bitvector_of_nat 8 1) → |
---|
1348 | bu@@bl = sigma (pbu@@pbl) → |
---|
1349 | low_internal_ram T1 cm1 |
---|
1350 | (write_at_stack_pointer … |
---|
1351 | (set_8051_sfr … |
---|
1352 | (write_at_stack_pointer … |
---|
1353 | (set_8051_sfr … |
---|
1354 | (set_low_internal_ram … s1 |
---|
1355 | (low_internal_ram_of_pseudo_low_internal_ram M (low_internal_ram … s2))) |
---|
1356 | SFR_SP sp1) |
---|
1357 | bl) |
---|
1358 | SFR_SP sp2) |
---|
1359 | bu) |
---|
1360 | = low_internal_ram_of_pseudo_low_internal_ram (sp1::M) |
---|
1361 | (low_internal_ram … |
---|
1362 | (write_at_stack_pointer … |
---|
1363 | (set_8051_sfr … |
---|
1364 | (write_at_stack_pointer … (set_8051_sfr … s3 SFR_SP sp1) pbl) |
---|
1365 | SFR_SP sp2) |
---|
1366 | pbu)). |
---|
1367 | |
---|
1368 | lemma high_internal_ram_write_at_stack_pointer: |
---|
1369 | ∀T1,T2,M,cm1,s1,cm2,s2,cm3,s3.∀sigma:Word → Word.∀policy: Word → bool. |
---|
1370 | ∀pbu,pbl,bu,bl,sp1,sp2:BitVector 8. |
---|
1371 | get_8051_sfr T2 cm2 s2 SFR_SP = get_8051_sfr ? cm3 s3 SFR_SP → |
---|
1372 | high_internal_ram ?? s2 = high_internal_ram T2 cm3 s3 → |
---|
1373 | sp1 = add ? (get_8051_sfr ? cm1 s1 SFR_SP) (bitvector_of_nat 8 1) → |
---|
1374 | sp2 = add ? sp1 (bitvector_of_nat 8 1) → |
---|
1375 | bu@@bl = sigma (pbu@@pbl) → |
---|
1376 | high_internal_ram T1 cm1 |
---|
1377 | (write_at_stack_pointer … |
---|
1378 | (set_8051_sfr … |
---|
1379 | (write_at_stack_pointer … |
---|
1380 | (set_8051_sfr … |
---|
1381 | (set_high_internal_ram … s1 |
---|
1382 | (high_internal_ram_of_pseudo_high_internal_ram M (high_internal_ram … s2))) |
---|
1383 | SFR_SP sp1) |
---|
1384 | bl) |
---|
1385 | SFR_SP sp2) |
---|
1386 | bu) |
---|
1387 | = high_internal_ram_of_pseudo_high_internal_ram (sp1::M) |
---|
1388 | (high_internal_ram … |
---|
1389 | (write_at_stack_pointer … |
---|
1390 | (set_8051_sfr … |
---|
1391 | (write_at_stack_pointer … (set_8051_sfr … s3 SFR_SP sp1) pbl) |
---|
1392 | SFR_SP sp2) |
---|
1393 | pbu)). |
---|
1394 | #T1 #T2 #M #cm1 #s1 #cm2 #s2 #cm3 #s3 #sigma #policy #pbu #pbl #bu #bl #sp1 #sp2 |
---|
1395 | #get_8051_sfr_refl #high_internal_ram_refl #sp1_refl #sp2_refl #sigma_refl |
---|
1396 | cases daemon (* XXX: !!! *) |
---|
1397 | qed. |
---|
1398 | *) |
---|
1399 | |
---|
1400 | lemma snd_assembly_1_pseudoinstruction_ok: |
---|
1401 | ∀program: pseudo_assembly_program. |
---|
1402 | ∀program_length_proof: |\snd program| ≤ 2^16. |
---|
1403 | ∀sigma: Word → Word. |
---|
1404 | ∀policy: Word → bool. |
---|
1405 | ∀sigma_policy_specification_witness: sigma_policy_specification program sigma policy. |
---|
1406 | ∀ppc: Word. |
---|
1407 | ∀ppc_in_bounds: nat_of_bitvector 16 ppc < |\snd program|. |
---|
1408 | ∀pi. |
---|
1409 | ∀lookup_labels. |
---|
1410 | ∀lookup_datalabels. |
---|
1411 | let 〈labels, costs〉 ≝ create_label_cost_map (\snd program) in |
---|
1412 | lookup_labels = (λx. bitvector_of_nat 16 (lookup_def … labels x 0)) → |
---|
1413 | lookup_datalabels = (λx. lookup_def … (construct_datalabels (\fst program)) x (zero ?)) → |
---|
1414 | \fst (fetch_pseudo_instruction (\snd program) ppc ppc_in_bounds) = pi → |
---|
1415 | let len ≝ \fst (assembly_1_pseudoinstruction lookup_labels sigma policy (*(sigma ppc)*) ppc lookup_datalabels pi) in |
---|
1416 | sigma (add … ppc (bitvector_of_nat ? 1)) = add … (sigma ppc) (bitvector_of_nat ? len). |
---|
1417 | #program #program_length_proof #sigma #policy #sigma_policy_specification_witness #ppc #ppc_in_bounds #pi |
---|
1418 | #lookup_labels #lookup_datalabels |
---|
1419 | @pair_elim #labels #costs #create_label_cost_map_refl |
---|
1420 | #lookup_labels_refl #lookup_datalabels_refl #fetch_pseudo_refl |
---|
1421 | normalize nodelta |
---|
1422 | generalize in match fetch_pseudo_refl; -fetch_pseudo_refl |
---|
1423 | #fetch_pseudo_refl |
---|
1424 | letin assembled ≝ (\fst (pi1 … (assembly program sigma policy))) |
---|
1425 | letin costs ≝ (\snd (pi1 … (assembly program sigma policy))) |
---|
1426 | lapply (assembly_ok program program_length_proof sigma policy sigma_policy_specification_witness assembled costs) |
---|
1427 | @pair_elim #preamble #instr_list #program_refl |
---|
1428 | lapply create_label_cost_map_refl; -create_label_cost_map_refl |
---|
1429 | >program_refl in ⊢ (% → ?); #create_label_cost_map_refl |
---|
1430 | >create_label_cost_map_refl |
---|
1431 | <eq_pair_fst_snd #H lapply (H (refl …)) -H #H |
---|
1432 | lapply (H ppc ppc_in_bounds) -H |
---|
1433 | @pair_elim #pi' #newppc #fetch_pseudo_refl' |
---|
1434 | @pair_elim #len #assembled #assembly1_refl #H |
---|
1435 | cases H |
---|
1436 | #encoding_check_assm #sigma_newppc_refl |
---|
1437 | >fetch_pseudo_refl' in fetch_pseudo_refl; #pi_refl' |
---|
1438 | >pi_refl' in assembly1_refl; #assembly1_refl |
---|
1439 | >lookup_labels_refl >lookup_datalabels_refl |
---|
1440 | >program_refl normalize nodelta |
---|
1441 | >assembly1_refl |
---|
1442 | <sigma_newppc_refl |
---|
1443 | generalize in match fetch_pseudo_refl'; |
---|
1444 | whd in match (fetch_pseudo_instruction ???); |
---|
1445 | @pair_elim #lbl #instr #nth_refl normalize nodelta |
---|
1446 | #G cases (pair_destruct_right ?????? G) % |
---|
1447 | qed. |
---|
1448 | |
---|
1449 | (* To be moved in ProofStatus *) |
---|
1450 | lemma program_counter_set_program_counter: |
---|
1451 | ∀T. |
---|
1452 | ∀cm. |
---|
1453 | ∀s. |
---|
1454 | ∀x. |
---|
1455 | program_counter T cm (set_program_counter T cm s x) = x. |
---|
1456 | // |
---|
1457 | qed. |
---|