;;;; the machine specific support routines needed by the file assembler ;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; ;;;; This software is derived from the CMU CL system, which was ;;;; written at Carnegie Mellon University and released into the ;;;; public domain. The software is in the public domain and is ;;;; provided with absolutely no warranty. See the COPYING and CREDITS ;;;; files for more information. (in-package "SB!VM") ;;;; RETURN-MULTIPLE ;;; For RETURN-MULTIPLE, we have to move the results from the end of ;;; the frame for the function that is returning to the end of the ;;; frame for the function being returned to. #+sb-assembling ;; We don't want a vop for this one. (define-assembly-routine (return-multiple (:return-style :none)) (;; These are really arguments. (:temp ecx unsigned-reg rcx-offset) (:temp esi unsigned-reg rsi-offset) ;; These we need as temporaries. (:temp eax unsigned-reg rax-offset) (:temp ebx unsigned-reg rbx-offset) (:temp edx unsigned-reg rdx-offset) (:temp edi unsigned-reg rdi-offset) (:temp temp unsigned-reg r8-offset) (:temp loop-index unsigned-reg r9-offset)) ;; Pick off the cases where everything fits in register args. (inst jrcxz ZERO-VALUES) (inst cmp ecx (fixnumize 1)) (inst jmp :e ONE-VALUE) (inst cmp ecx (fixnumize 2)) (inst jmp :e TWO-VALUES) (inst cmp ecx (fixnumize 3)) (inst jmp :e THREE-VALUES) ;; As per the calling convention EBX is expected to point at the SP ;; before the stack frame. (inst lea ebx (make-ea :qword :base rbp-tn :disp (* sp->fp-offset n-word-bytes))) ;; Save the count, the return address and restore the frame pointer, ;; because the loop is going to destroy them. (inst mov edx ecx) (inst mov eax (make-ea :qword :base rbp-tn :disp (frame-byte-offset return-pc-save-offset))) (inst mov rbp-tn (make-ea :qword :base rbp-tn :disp (frame-byte-offset ocfp-save-offset))) ;; Blit the values down the stack. Note: there might be overlap, so ;; we have to be careful not to clobber values before we've read ;; them. Because the stack builds down, we are copying to a larger ;; address. Therefore, we need to iterate from larger addresses to ;; smaller addresses. (zeroize loop-index) LOOP (inst sub loop-index n-word-bytes) (inst mov temp (make-ea :qword :base esi :index loop-index)) (inst mov (make-ea :qword :base ebx :index loop-index) temp) (inst sub edx (fixnumize 1)) (inst jmp :nz LOOP) ;; Set the stack top to the last result. (inst lea rsp-tn (make-ea :qword :base ebx :index loop-index)) ;; Load the register args. (loadw edx ebx -1) (loadw edi ebx -2) (loadw esi ebx -3) ;; And back we go. (inst stc) (inst push eax) (inst ret) ;; Handle the register arg cases. ZERO-VALUES (inst lea ebx (make-ea :qword :base rbp-tn :disp (* sp->fp-offset n-word-bytes))) (inst mov edx nil-value) (inst mov edi edx) (inst mov esi edx) (inst mov rsp-tn rbp-tn) (inst stc) (inst pop rbp-tn) (inst ret) ;; Note: we can get this, because the return-multiple vop doesn't ;; check for this case when size > speed. ONE-VALUE (loadw edx esi -1) (inst mov rsp-tn rbp-tn) (inst clc) (inst pop rbp-tn) (inst ret) TWO-VALUES (inst lea ebx (make-ea :qword :base rbp-tn :disp (* sp->fp-offset n-word-bytes))) (loadw edx esi -1) (loadw edi esi -2) (inst mov esi nil-value) (inst mov rsp-tn rbp-tn) (inst stc) (inst pop rbp-tn) (inst ret) THREE-VALUES (inst lea ebx (make-ea :qword :base rbp-tn :disp (* sp->fp-offset n-word-bytes))) (loadw edx esi -1) (loadw edi esi -2) (loadw esi esi -3) (inst mov rsp-tn rbp-tn) (inst stc) (inst pop rbp-tn) (inst ret)) ;;;; TAIL-CALL-VARIABLE ;;; For tail-call-variable, we have to copy the arguments from the end ;;; of our stack frame (were args are produced) to the start of our ;;; stack frame (were args are expected). ;;; ;;; We take the function to call in EAX and a pointer to the arguments in ;;; ESI. EBP says the same over the jump, and the old frame pointer is ;;; still saved in the first stack slot. The return-pc is saved in ;;; the second stack slot, so we have to push it to make it look like ;;; we actually called. We also have to compute ECX from the difference ;;; between ESI and the stack top. #+sb-assembling ;; No vop for this one either. (define-assembly-routine (tail-call-variable (:return-style :none)) ((:temp eax unsigned-reg rax-offset) (:temp ebx unsigned-reg rbx-offset) (:temp ecx unsigned-reg rcx-offset) (:temp edx unsigned-reg rdx-offset) (:temp edi unsigned-reg rdi-offset) (:temp esi unsigned-reg rsi-offset)) ;; Calculate NARGS (as a fixnum) (move ecx esi) (inst sub ecx rsp-tn) #!-#.(cl:if (cl:= sb!vm:word-shift sb!vm:n-fixnum-tag-bits) '(and) '(or)) (inst shr ecx (- word-shift n-fixnum-tag-bits)) ;; Check for all the args fitting the registers. (inst cmp ecx (fixnumize register-arg-count)) (inst jmp :le REGISTER-ARGS) ;; Save the OLD-FP and RETURN-PC because the blit is going to trash ;; those stack locations. Save the ECX, because the loop is going to ;; trash it. (pushw rbp-tn (frame-word-offset ocfp-save-offset)) (loadw ebx rbp-tn (frame-word-offset return-pc-save-offset)) (inst push ecx) ;; Do the blit. Because we are coping from smaller addresses to ;; larger addresses, we have to start at the largest pair and work ;; our way down. (inst shr ecx n-fixnum-tag-bits) (inst std) ; count down (inst lea edi (make-ea :qword :base rbp-tn :disp (frame-byte-offset 0))) (inst sub esi n-word-bytes) (inst rep) (inst movs :qword) (inst cld) ;; Load the register arguments carefully. (loadw edx rbp-tn (frame-word-offset ocfp-save-offset)) ;; Restore OLD-FP and ECX. (inst pop ecx) ;; Overwrites a1 (popw rbp-tn (frame-word-offset ocfp-save-offset)) ;; Blow off the stack above the arguments. (inst lea rsp-tn (make-ea :qword :base edi :disp n-word-bytes)) ;; remaining register args (inst mov edi edx) (loadw edx rbp-tn (frame-word-offset 0)) (loadw esi rbp-tn (frame-word-offset 2)) ;; Push the (saved) return-pc so it looks like we just called. (inst push ebx) ;; And jump into the function. (inst jmp (make-ea :byte :base eax :disp (- (* closure-fun-slot n-word-bytes) fun-pointer-lowtag))) ;; All the arguments fit in registers, so load them. REGISTER-ARGS (loadw edx esi -1) (loadw edi esi -2) (loadw esi esi -3) ;; Clear most of the stack. (inst lea rsp-tn (make-ea :qword :base rbp-tn :disp (* (- sp->fp-offset 3) n-word-bytes))) ;; Push the return-pc so it looks like we just called. (pushw rbp-tn (frame-word-offset return-pc-save-offset)) ;; And away we go. (inst jmp (make-ea :byte :base eax :disp (- (* closure-fun-slot n-word-bytes) fun-pointer-lowtag)))) (define-assembly-routine (throw (:return-style :raw)) ((:arg target (descriptor-reg any-reg) rdx-offset) (:arg start any-reg rbx-offset) (:arg count any-reg rcx-offset) (:temp catch any-reg rax-offset)) (declare (ignore start count)) (load-tl-symbol-value catch *current-catch-block*) LOOP (let ((error (gen-label))) (assemble (*elsewhere*) (emit-label error) ;; Fake up a stack frame so that backtraces come out right. (inst push rbp-tn) (inst mov rbp-tn rsp-tn) (emit-error-break nil error-trap (error-number-or-lose 'unseen-throw-tag-error) (list target))) (inst test catch catch) ; check for NULL pointer (inst jmp :z error)) (inst cmp target (make-ea-for-object-slot catch catch-block-tag-slot 0)) (inst jmp :e EXIT) (loadw catch catch catch-block-previous-catch-slot) (inst jmp LOOP) EXIT ;; Here EAX points to catch block containing symbol pointed to by EDX. (inst jmp (make-fixup 'unwind :assembly-routine))) ;;;; non-local exit noise (define-assembly-routine (unwind (:return-style :none) (:translate %continue-unwind) (:policy :fast-safe)) ((:arg block (any-reg descriptor-reg) rax-offset) (:arg start (any-reg descriptor-reg) rbx-offset) (:arg count (any-reg descriptor-reg) rcx-offset) (:temp uwp unsigned-reg rsi-offset)) (declare (ignore start count)) (let ((error (generate-error-code nil 'invalid-unwind-error))) (inst test block block) ; check for NULL pointer (inst jmp :z error)) (load-tl-symbol-value uwp *current-unwind-protect-block*) ;; Does *CURRENT-UNWIND-PROTECT-BLOCK* match the value stored in ;; argument's CURRENT-UWP-SLOT? (inst cmp uwp (make-ea-for-object-slot block unwind-block-current-uwp-slot 0)) ;; If a match, return to context in arg block. (inst jmp :e DO-EXIT) ;; Not a match - return to *CURRENT-UNWIND-PROTECT-BLOCK* context. ;; Important! Must save (and return) the arg 'block' for later use!! (move rdx-tn block) (move block uwp) ;; Set next unwind protect context. (loadw uwp uwp unwind-block-current-uwp-slot) ;; we're about to reload ebp anyway, so let's borrow it here as a ;; temporary. Hope this works (store-tl-symbol-value uwp *current-unwind-protect-block* rbp-tn) DO-EXIT (loadw rbp-tn block unwind-block-current-cont-slot) ;; Uwp-entry expects some things in known locations so that they can ;; be saved on the stack: the block in edx-tn, start in ebx-tn, and ;; count in ecx-tn. (inst jmp (make-ea :byte :base block :disp (* unwind-block-entry-pc-slot n-word-bytes))))