|
|
|---|
|
|
|
|---|
(rml08 lin-addr r-x x86) → (mv * * x86)
Function:
(defun rml08 (lin-addr r-x x86) (declare (xargs :stobjs (x86))) (declare (type (signed-byte 48) lin-addr) (type (member :r :x) r-x)) (declare (xargs :split-types t :guard (and (canonical-address-p lin-addr) (member-eq r-x '(:r :x))))) (let ((__function__ 'rml08)) (declare (ignorable __function__)) (mbe :logic (rb 1 lin-addr r-x x86) :exec (if (app-view x86) (rvm08 lin-addr x86) (b* (((mv flag (the (unsigned-byte 52) p-addr) x86) (la-to-pa lin-addr r-x x86)) ((when flag) (mv flag 0 x86)) (byte (the (unsigned-byte 8) (memi p-addr x86)))) (mv nil byte x86))))))
Theorem:
(defthm n08p-mv-nth-1-rml08 (unsigned-byte-p 8 (mv-nth 1 (rml08 lin-addr r-x x86))) :rule-classes (:rewrite (:type-prescription :corollary (natp (mv-nth 1 (rml08 lin-addr r-x x86))) :hints (("Goal" :in-theory '(unsigned-byte-p integer-range-p natp)))) (:linear :corollary (and (<= 0 (mv-nth 1 (rml08 lin-addr r-x x86))) (< (mv-nth 1 (rml08 lin-addr r-x x86)) 256)) :hints (("Goal" :in-theory '(unsigned-byte-p integer-range-p (:e expt)))))))
Theorem:
(defthm x86p-rml08 (implies (force (x86p x86)) (x86p (mv-nth 2 (rml08 lin-addr r-x x86)))))
Theorem:
(defthm rml08-value-when-error (implies (mv-nth 0 (rml08 addr r-x x86)) (equal (mv-nth 1 (rml08 addr r-x x86)) 0)))
Theorem:
(defthm rml08-does-not-affect-state-in-app-view (implies (app-view x86) (equal (mv-nth 2 (rml08 start-rip r-x x86)) x86)))
Theorem:
(defthm app-view-rml08-no-error (implies (and (app-view x86) (canonical-address-p addr) (x86p x86)) (and (equal (mv-nth 0 (rml08 addr r-x x86)) nil) (equal (mv-nth 1 (rml08 addr :x x86)) (memi (loghead 48 addr) x86)) (equal (mv-nth 2 (rml08 addr r-x x86)) x86))))
Theorem:
(defthm xr-rml08-state-in-app-view (implies (app-view x86) (equal (xr fld index (mv-nth 2 (rml08 addr r-x x86))) (xr fld index x86))))
Theorem:
(defthm xr-rml08-state-in-sys-view (implies (and (not (equal fld :mem)) (not (equal fld :fault)) (not (equal fld :tlb))) (equal (xr fld index (mv-nth 2 (rml08 addr r-x x86))) (xr fld index x86))))
Theorem:
(defthm rml08-xw-app-view (implies (and (app-view x86) (not (equal fld :mem)) (not (equal fld :app-view))) (and (equal (mv-nth 0 (rml08 addr r-x (xw fld index value x86))) (mv-nth 0 (rml08 addr r-x x86))) (equal (mv-nth 1 (rml08 addr r-x (xw fld index value x86))) (mv-nth 1 (rml08 addr r-x x86))))))
Theorem:
(defthm rml08-xw-system-mode (implies (and (not (app-view x86)) (not (equal fld :tlb)) (not (equal fld :fault)) (not (equal fld :seg-visible)) (not (equal fld :mem)) (not (equal fld :ctr)) (not (equal fld :msr)) (not (equal fld :rflags)) (not (equal fld :app-view)) (not (equal fld :marking-view)) (not (equal fld :implicit-supervisor-access))) (and (equal (mv-nth 0 (rml08 addr r-x (xw fld index value x86))) (mv-nth 0 (rml08 addr r-x x86))) (equal (mv-nth 1 (rml08 addr r-x (xw fld index value x86))) (mv-nth 1 (rml08 addr r-x x86))) (equal (mv-nth 2 (rml08 addr r-x (xw fld index value x86))) (xw fld index value (mv-nth 2 (rml08 addr r-x x86)))))))
Theorem:
(defthm rml08-xw-system-mode-rflags-not-ac (implies (and (not (app-view x86)) (equal (rflagsbits->ac value) (rflagsbits->ac (rflags x86)))) (and (equal (mv-nth 0 (rml08 addr r-x (xw :rflags nil value x86))) (mv-nth 0 (rml08 addr r-x x86))) (equal (mv-nth 1 (rml08 addr r-x (xw :rflags nil value x86))) (mv-nth 1 (rml08 addr r-x x86))) (equal (mv-nth 2 (rml08 addr r-x (xw :rflags nil value x86))) (xw :rflags nil value (mv-nth 2 (rml08 addr r-x x86)))))))
Theorem:
(defthm 64-bit-modep-of-rml08 (equal (64-bit-modep (mv-nth 2 (rml08 li-addr r-x x86))) (64-bit-modep x86)))
Theorem:
(defthm x86-operation-mode-of-rml08 (equal (x86-operation-mode (mv-nth 2 (rml08 li-addr r-x x86))) (x86-operation-mode x86)))