INSERT[D0LANG]; NOMIDASINIT; TITLE[d0rdmi]; *last edited by CT June 10, 1979 SETTASK[17]; RV[REFR,77]; *memory refresh address *The following registers hold the volatile state of the processor on a fault: RV[RXALU,76]; *ALU result and SALUF RV[RXAPC,75]; *APCTask&APC RV[RXCTASK,74]; *CTASK.NCIA RV[RXPPB,73]; *Page,Parity,BootReason RV[RXSTK,72]; *Stackpointer RV[RTMP,71]; *temporary *The following registers are used for D0-Midas communication (RTMP is also used): RV[RWSTAT,70]; *status register RV[RDATA,67]; *holds data *FFault determines how faults will be treated when programs are running. If it is *zero, all faults will be reported to Midas. If FFault is nonzero, the kernel will *send control through location 120 when a fault occurs and PARITY # 0 (faults with *PARITY = 0 are breakpoints). RV[FFAULT,66]; *Registers between 360 and 367 are used by the Midas overlays. The following *registers, used by WriteMI, are also in this range. RV[RADDR,65]; RV[RCNT,64]; RV[STACK4,64]; RV[RW0,63]; RV[STACK3,63]; RV[RW1,62]; RV[STACK2,62]; RV[STACK1,61]; MC[pStk1,361]; *pointer to stack1 RV[STACK0,60]; *Constants for Recv and Send MC[RecvByte,12]; MC[RecvWord,16]; MC[SendByte,21]; MC[SendWord,25]; *The following are at fixed locations in Kernel.mc: UserFault: Return, AT[120]; NextCom: Return, AT[7404]; Send: Return, AT[7460]; Recv: Return, AT[7464]; *d0rdmi overlay *Used by Midas to read a microinstruction. OverlayArea: RWSTAT ← RecvWord, Call[Recv], at[7500]; *get address RADDR ← T, at[7501]; T ← 0c, call[RdCS], at[7502]; *read bits 0-15 RDATA ← T, call[Send], at[7503]; T ← 1c, call[RdCS], at[7504]; *read bits 16-31 RDATA ← T, call[Send],at[7505]; T ← 3c, call[RdCS], at[7506];*read bits 32-35 into T[0-3] RDATA ← T, at[7507]; RWSTAT ← SendByte, call[Send], at[7510]; goto[NextCom], at[7511]; RDCs: APC&APCTask ← RADDR, at[7512]; ReadCS, at[7513]; RWSTAT ← SendWord, at[7514]; *note - this instruction must be at an even location usectask, at[7515]; T ← CSData, return, at[7516]; END;