2c2dd5ea33
WARNING: V2.10 has reorganized and renamed some of the definition files for the PDP-10, PDP-11, and VAX. Be sure to delete all previous source files before you unpack the Zip archive, or unpack it into a new directory structure. WARNING: V2.10 has a new, more comprehensive save file format. Restoring save files from previous releases will cause 'invalid register' errors and loss of CPU option flags, device enable/ disable flags, unit online/offline flags, and unit writelock flags. WARNING: If you are using Visual Studio .NET through the IDE, be sure to turn off the /Wp64 flag in the project settings, or dozens of spurious errors will be generated. WARNING: Compiling Ethernet support under Windows requires extra steps; see the Ethernet readme file. Ethernet support is currently available only for Windows, Linux, NetBSD, and OpenBSD. 1. New Features 1.1 SCP and Libraries - The VT emulation package has been replaced by the capability to remote the console to a Telnet session. Telnet clients typically have more complete and robust VT100 emulation. - Simulated devices may now have statically allocated buffers, in addition to dynamically allocated buffers or disk-based data stores. - The DO command now takes substitutable arguments (max 9). In command files, %n represents substitutable argument n. - The initial command line is now interpreted as the command name and substitutable arguments for a DO command. This is backward compatible to prior versions. - The initial command line parses switches. -Q is interpreted as quiet mode; informational messages are suppressed. - The HELP command now takes an optional argument. HELP <cmd> types help on the specified command. - Hooks have been added for implementing GUI-based consoles, as well as simulator-specific command extensions. A few internal data structures and definitions have changed. - Two new routines (tmxr_open_master, tmxr_close_master) have been added to sim_tmxr.c. The calling sequence for sim_accept_conn has been changed in sim_sock.c. - The calling sequence for the VM boot routine has been modified to add an additional parameter. - SAVE now saves, and GET now restores, controller and unit flags. - Library sim_ether.c has been added for Ethernet support. 1.2 VAX - Non-volatile RAM (NVR) can behave either like a memory or like a disk-based peripheral. If unattached, it behaves like memory and is saved and restored by SAVE and RESTORE, respectively. If attached, its contents are loaded from disk by ATTACH and written back to disk at DETACH and EXIT. - SHOW <device> VECTOR displays the device's interrupt vector. A few devices allow the vector to be changed with SET <device> VECTOR=nnn. - SHOW CPU IOSPACE displays the I/O space address map. - The TK50 (TMSCP tape) has been added. - The DEQNA/DELQA (Qbus Ethernet controllers) have been added. - Autoconfiguration support has been added. - The paper tape reader has been removed from vax_stddev.c and now references a common implementation file, dec_pt.h. - Examine and deposit switches now work on all devices, not just the CPU. - Device address conflicts are not detected until simulation starts. 1.3 PDP-11 - SHOW <device> VECTOR displays the device's interrupt vector. Most devices allow the vector to be changed with SET <device> VECTOR=nnn. - SHOW CPU IOSPACE displays the I/O space address map. - The TK50 (TMSCP tape), RK611/RK06/RK07 (cartridge disk), RX211 (double density floppy), and KW11P programmable clock have been added. - The DEQNA/DELQA (Qbus Ethernet controllers) have been added. - Autoconfiguration support has been added. - The paper tape reader has been removed from pdp11_stddev.c and now references a common implementation file, dec_pt.h. - Device bootstraps now use the actual CSR specified by the SET ADDRESS command, rather than just the default CSR. Note that PDP-11 operating systems may NOT support booting with non-standard addresses. - Specifying more than 256KB of memory, or changing the bus configuration, causes all peripherals that are not compatible with the current bus configuration to be disabled. - Device address conflicts are not detected until simulation starts. 1.4 PDP-10 - SHOW <device> VECTOR displays the device's interrupt vector. A few devices allow the vector to be changed with SET <device> VECTOR=nnn. - SHOW CPU IOSPACE displays the I/O space address map. - The RX211 (double density floppy) has been added; it is off by default. - The paper tape now references a common implementation file, dec_pt.h. - Device address conflicts are not detected until simulation starts. 1.5 PDP-1 - DECtape (then known as MicroTape) support has been added. - The line printer and DECtape can be disabled and enabled. 1.6 PDP-8 - The RX28 (double density floppy) has been added as an option to the existing RX8E controller. - SHOW <device> DEVNO displays the device's device number. Most devices allow the device number to be changed with SET <device> DEVNO=nnn. - Device number conflicts are not detected until simulation starts. 1.7 IBM 1620 - The IBM 1620 simulator has been released. 1.8 AltairZ80 - A hard drive has been added for increased storage. - Several bugs have been fixed. 1.9 HP 2100 - The 12845A has been added and made the default line printer (LPT). The 12653A has been renamed LPS and is off by default. It also supports the diagnostic functions needed to run the DCPC and DMS diagnostics. - The 12557A/13210A disk defaults to the 13210A (7900/7901). - The 12559A magtape is off by default. - New CPU options (EAU/NOEAU) enable/disable the extended arithmetic instructions for the 2116. These instructions are standard on the 2100 and 21MX. - New CPU options (MPR/NOMPR) enable/disable memory protect for the 2100 and 21MX. - New CPU options (DMS/NODMS) enable/disable the dynamic mapping instructions for the 21MX. - The 12539 timebase generator autocalibrates. 1.10 Simulated Magtapes - Simulated magtapes recognize end of file and the marker 0xFFFFFFFF as end of medium. Only the TMSCP tape simulator can generate an end of medium marker. - The error handling in simulated magtapes was overhauled to be consistent through all simulators. 1.11 Simulated DECtapes - Added support for RT11 image file format (256 x 16b) to DECtapes. 2. Release Notes 2.1 Bugs Fixed - TS11/TSV05 was not simulating the XS0_MOT bit, causing failures under VMS. In addition, two of the CTL options were coded interchanged. - IBM 1401 tape was not setting a word mark under group mark for load mode reads. This caused the diagnostics to crash. - SCP bugs in ssh_break and set_logon were fixed (found by Dave Hittner). - Numerous bugs in the HP 2100 extended arithmetic, floating point, 21MX, DMS, and IOP instructions were fixed. Bugs were also fixed in the memory protect and DMS functions. The moving head disks (DP, DQ) were revised to simulate the hardware more accurately. Missing functions in DQ (address skip, read address) were added. 2.2 HP 2100 Debugging - The HP 2100 CPU nows runs all of the CPU diagnostics. - The peripherals run most of the peripheral diagnostics. There is still a problem in overlapped seek operation on the disks. See the file hp2100_diag.txt for details. 3. In Progress These simulators are not finished and are available in a separate Zip archive distribution. - Interdata 16b/32b: coded, partially tested. See the file id_diag.txt for details. - SDS 940: coded, partially tested.
564 lines
19 KiB
C
564 lines
19 KiB
C
/* vax_defs.h: VAX architecture definitions file
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Copyright (c) 1998-2002, Robert M Supnik
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Permission is hereby granted, free of charge, to any person obtaining a
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copy of this software and associated documentation files (the "Software"),
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to deal in the Software without restriction, including without limitation
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the rights to use, copy, modify, merge, publish, distribute, sublicense,
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and/or sell copies of the Software, and to permit persons to whom the
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Software is furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
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IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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Except as contained in this notice, the name of Robert M Supnik shall not
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be used in advertising or otherwise to promote the sale, use or other dealings
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in this Software without prior written authorization from Robert M Supnik.
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The author gratefully acknowledges the help of Stephen Shirron, Antonio
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Carlini, and Kevin Peterson in providing specifications for the Qbus VAX's
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14-Jul-02 RMS Added infinite loop message
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30-Apr-02 RMS Added CLR_TRAPS macro
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*/
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#include "sim_defs.h"
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#include <setjmp.h>
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/* Stops and aborts */
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#define STOP_HALT 1 /* halt */
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#define STOP_IBKPT 2 /* breakpoint */
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#define STOP_CHMFI 3 /* chg mode IS */
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#define STOP_ILLVEC 4 /* illegal vector */
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#define STOP_INIE 5 /* exc in intexc */
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#define STOP_PPTE 6 /* proc pte in Px */
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#define STOP_UIPL 7 /* undefined IPL */
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#define STOP_UNKNOWN 8 /* unknown reason */
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#define STOP_RQ 9 /* fatal RQ err */
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#define STOP_LOOP 10 /* infinite loop */
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#define STOP_UNKABO 11 /* unknown abort */
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#define STOP_SANITY 12 /* sanity timer exp */
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#define ABORT_INTR -1 /* interrupt */
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#define ABORT_MCHK (-SCB_MCHK) /* machine check */
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#define ABORT_RESIN (-SCB_RESIN) /* rsvd instruction */
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#define ABORT_RESAD (-SCB_RESAD) /* rsvd addr mode */
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#define ABORT_RESOP (-SCB_RESOP) /* rsvd operand */
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#define ABORT_ARITH (-SCB_ARITH) /* arithmetic trap */
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#define ABORT_ACV (-SCB_ACV) /* access violation */
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#define ABORT_TNV (-SCB_TNV) /* transl not vaid */
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#define ABORT(x) longjmp (save_env, (x)) /* abort */
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#define RSVD_INST_FAULT ABORT (ABORT_RESIN)
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#define RSVD_ADDR_FAULT ABORT (ABORT_RESAD)
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#define RSVD_OPND_FAULT ABORT (ABORT_RESOP)
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#define FLT_OVFL_FAULT p1 = FLT_OVRFLO, ABORT (ABORT_ARITH)
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#define FLT_DZRO_FAULT p1 = FLT_DIVZRO, ABORT (ABORT_ARITH)
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#define FLT_UNFL_FAULT p1 = FLT_UNDFLO, ABORT (ABORT_ARITH)
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#define MACH_CHECK(cd) p1 = (cd), ABORT (ABORT_MCHK)
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/* Address space */
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#define VAMASK 0xFFFFFFFF /* virt addr mask */
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#define PAWIDTH 30 /* phys addr width */
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#define PASIZE (1 << PAWIDTH) /* phys addr size */
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#define PAMASK (PASIZE - 1) /* phys addr mask */
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#define IOPAGE (1 << (PAWIDTH - 1)) /* start of I/O page */
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/* Architectural constants */
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#define BMASK 0x000000FF /* byte */
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#define BSIGN 0x00000080
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#define WMASK 0x0000FFFF /* word */
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#define WSIGN 0x00008000
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#define LMASK 0xFFFFFFFF /* longword */
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#define LSIGN 0x80000000
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#define FPSIGN 0x00008000 /* floating point */
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#define L_BYTE 1 /* bytes per */
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#define L_WORD 2 /* data type */
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#define L_LONG 4
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#define L_QUAD 8
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#define NUM_INST 512 /* one byte+two byte */
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#define MAX_SPEC 6 /* max spec/instr */
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/* Memory management modes */
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#define KERN 0
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#define EXEC 1
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#define SUPV 2
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#define USER 3
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/* Register and stack aliases */
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#define nAP 12
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#define nFP 13
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#define nSP 14
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#define nPC 15
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#define AP R[nAP]
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#define FP R[nFP]
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#define SP R[nSP]
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#define PC R[nPC]
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#define RGMASK 0xF
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#define rnplus1 ((rn + 1) & RGMASK)
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#define KSP STK[KERN]
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#define ESP STK[EXEC]
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#define SSP STK[SUPV]
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#define USP STK[USER]
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#define IS STK[4]
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/* PSL, PSW, and condition codes */
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#define PSL_V_TP 30 /* trace pending */
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#define PSL_TP (1 << PSL_V_TP)
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#define PSL_V_FPD 27 /* first part done */
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#define PSL_FPD (1 << PSL_V_FPD)
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#define PSL_V_IS 26 /* interrupt stack */
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#define PSL_IS (1 << PSL_V_IS)
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#define PSL_V_CUR 24 /* current mode */
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#define PSL_V_PRV 22 /* previous mode */
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#define PSL_M_MODE 0x3 /* mode mask */
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#define PSL_CUR (PSL_M_MODE << PSL_V_CUR)
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#define PSL_PRV (PSL_M_MODE << PSL_V_CUR)
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#define PSL_V_IPL 16 /* int priority lvl */
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#define PSL_M_IPL 0x1F
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#define PSL_IPL (PSL_M_IPL << PSL_V_IPL)
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#define PSL_IPL1 (0x01 << PSL_V_IPL)
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#define PSL_IPL1F (0x1F << PSL_V_IPL)
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#define PSL_MBZ (0xB0200000 | PSW_MBZ) /* must be zero */
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#define PSW_MBZ 0xFF00 /* must be zero */
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#define PSW_DV 0x80 /* dec ovflo enable */
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#define PSW_FU 0x40 /* flt undflo enable */
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#define PSW_IV 0x20 /* int ovflo enable */
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#define PSW_T 0x10 /* trace enable */
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#define CC_N 0x08 /* negative */
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#define CC_Z 0x04 /* zero */
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#define CC_V 0x02 /* overflow */
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#define CC_C 0x01 /* carry */
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#define CC_MASK (CC_N | CC_Z | CC_V | CC_C)
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#define PSL_GETCUR(x) (((x) >> PSL_V_CUR) & PSL_M_MODE)
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#define PSL_GETPRV(x) (((x) >> PSL_V_PRV) & PSL_M_MODE)
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#define PSL_GETIPL(x) (((x) >> PSL_V_IPL) & PSL_M_IPL)
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/* Software interrupt summary register */
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#define SISR_MASK 0xFFFE
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#define SISR_2 (1 << 2)
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/* AST register */
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#define AST_MASK 7
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#define AST_MAX 4
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/* Virtual address */
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#define VA_N_OFF 9 /* offset size */
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#define VA_PAGSIZE (1u << VA_N_OFF) /* page size */
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#define VA_M_OFF ((1u << VA_N_OFF) - 1) /* offset mask */
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#define VA_V_VPN VA_N_OFF /* vpn start */
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#define VA_N_VPN (31 - VA_N_OFF) /* vpn size */
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#define VA_M_VPN ((1u << VA_N_VPN) - 1) /* vpn mask */
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#define VA_S0 (1u << 31) /* S0 space */
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#define VA_P1 (1u << 30) /* P1 space */
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#define VA_N_TBI 12 /* TB index size */
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#define VA_TBSIZE (1u << VA_N_TBI) /* TB size */
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#define VA_M_TBI ((1u << VA_N_TBI) - 1) /* TB index mask */
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#define VA_GETOFF(x) ((x) & VA_M_OFF)
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#define VA_GETVPN(x) (((x) >> VA_V_VPN) & VA_M_VPN)
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#define VA_GETTBI(x) ((x) & VA_M_TBI)
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/* PTE */
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#define PTE_V_V 31 /* valid */
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#define PTE_V (1u << PTE_V_V)
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#define PTE_V_ACC 27 /* access */
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#define PTE_M_ACC 0xF
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#define PTE_V_M 26 /* modified */
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#define PTE_M (1u << PTE_V_M)
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#define PTE_GETACC(x) (((x) >> PTE_V_ACC) & PTE_M_ACC)
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/* TLB entry */
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#define TLB_V_RACC 0 /* rd acc field */
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#define TLB_V_WACC 4 /* wr acc field */
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#define TLB_M_ACC 0xF
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#define TLB_RACC (TLB_M_ACC << TLB_V_RACC)
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#define TLB_WACC (TLB_M_ACC << TLB_V_WACC)
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#define TLB_V_M 8 /* m bit */
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#define TLB_M (1u << TLB_V_M)
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#define TLB_N_PFN (PAWIDTH - VA_N_OFF) /* ppfn size */
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#define TLB_M_PFN ((1u << TLB_N_PFN) - 1) /* ppfn mask */
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#define TLB_PFN (TLB_M_PFN << VA_V_VPN)
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/* Traps and interrupt requests */
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#define TIR_V_IRQL 0 /* int request lvl */
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#define TIR_V_TRAP 5 /* trap requests */
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#define TIR_M_TRAP 07
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#define TIR_TRAP (TIR_M_TRAP << TIR_V_TRAP)
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#define TRAP_INTOV (1 << TIR_V_TRAP) /* integer overflow */
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#define TRAP_DIVZRO (2 << TIR_V_TRAP) /* divide by zero */
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#define TRAP_SUBSCR (7 << TIR_V_TRAP) /* subscript range */
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#define SET_TRAP(x) trpirq = (trpirq & PSL_M_IPL) | (x)
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#define CLR_TRAPS trpirq = trpirq & ~TIR_TRAP
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#define SET_IRQL trpirq = (trpirq & TIR_TRAP) | eval_int ()
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#define GET_TRAP(x) (((x) >> TIR_V_TRAP) & TIR_M_TRAP)
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#define GET_IRQL(x) (((x) >> TIR_V_IRQL) & PSL_M_IPL)
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/* Floating point fault parameters */
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#define FLT_OVRFLO 0x8 /* flt overflow */
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#define FLT_DIVZRO 0x9 /* flt div by zero */
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#define FLT_UNDFLO 0xA /* flt underflow */
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/* SCB offsets */
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#define SCB_MCHK 0x04 /* machine chk */
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#define SCB_KSNV 0x08 /* ker stk invalid */
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#define SCB_PWRFL 0x0C /* power fail */
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#define SCB_RESIN 0x10 /* rsvd/priv instr */
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#define SCB_XFC 0x14 /* XFC instr */
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#define SCB_RESOP 0x18 /* rsvd operand */
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#define SCB_RESAD 0x1C /* rsvd addr mode */
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#define SCB_ACV 0x20 /* ACV */
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#define SCB_TNV 0x24 /* TNV */
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#define SCB_TP 0x28 /* trace pending */
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#define SCB_BPT 0x2C /* BPT instr */
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#define SCB_ARITH 0x34 /* arith fault */
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#define SCB_CHMK 0x40 /* CHMK */
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#define SCB_CHME 0x44 /* CHME */
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#define SCB_CHMS 0x48 /* CHMS */
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#define SCB_CHMU 0x4C /* CHMU */
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#define SCB_CRDERR 0x54 /* CRD err intr */
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#define SCB_MEMERR 0x60 /* mem err intr */
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#define SCB_IPLSOFT 0x80 /* software intr */
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#define SCB_INTTIM 0xC0 /* timer intr */
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#define SCB_EMULATE 0xC8 /* emulation */
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#define SCB_EMULFPD 0xCC /* emulation, FPD */
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#define SCB_CSI 0xF0 /* constor input */
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#define SCB_CSO 0xF4 /* constor output */
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#define SCB_TTI 0xF8 /* console input */
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#define SCB_TTO 0xFC /* console output */
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#define SCB_INTR 0x100 /* hardware intr */
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#define IPL_MEMERR 0x1D /* mem err IPL */
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#define IPL_CRDERR 0x1A /* CRD err IPL */
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/* Interrupt and exception types */
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#define IE_SVE -1 /* severe exception */
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#define IE_EXC 0 /* normal exception */
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#define IE_INT 1 /* interrupt */
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/* Decode ROM: opcode entry */
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#define DR_F 0x80 /* FPD ok flag */
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#define DR_NSPMASK 0x07 /* #specifiers */
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#define DR_USPMASK 0x70 /* #spec, sym_ */
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/* Decode ROM: specifier entry */
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#define DR_ACMASK 0xC /* type */
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#define DR_LNMASK 0x3 /* length mask */
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#define DR_LNT(x) (1 << (x & DR_LNMASK)) /* disp to lnt */
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/* Decode ROM: operand type */
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#define SH0 0x00 /* short literal */
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#define SH1 0x10
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#define SH2 0x20
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#define SH3 0x30
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#define IDX 0x40 /* indexed */
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#define GRN 0x50 /* register */
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#define RGD 0x60 /* register def */
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#define ADC 0x70 /* autodecrement */
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#define AIN 0x80 /* autoincrement */
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#define AID 0x90 /* autoinc def */
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#define BDP 0xA0 /* byte disp */
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#define BDD 0xB0 /* byte disp def */
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#define WDP 0xC0 /* word disp */
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#define WDD 0xD0 /* word disp def */
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#define LDP 0xE0 /* long disp */
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#define LDD 0xF0 /* long disp def */
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/* Decode ROM: access type and length */
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#define RB 0x0 /* .rb */
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#define RW 0x1 /* .rw */
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#define RL 0x2 /* .rl */
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#define RQ 0x3 /* .rq */
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#define MB 0x4 /* .mb */
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#define MW 0x5 /* .mw */
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#define ML 0x6 /* .ml */
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#define MQ 0x7 /* .mq */
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#define AB 0x8 /* .ab */
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#define AW 0x9 /* .aw */
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#define AL 0xA /* .al */
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#define AQ 0xB /* .aq */
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#define WB 0xC /* .wb */
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#define WW 0xD /* .ww */
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#define WL 0xE /* .wl */
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#define WQ 0xF /* .wq */
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/* Special dispatches.
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vb = variable bit field, treated as wb except for register
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rf = f_floating, treated as rl except for short literal
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rd = d_floating, treated as rl except for short literal
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rg = g_floating, treated as rl except for short literal
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bw = branch byte displacement
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bw = branch word displacement
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The 'underlying' access type and length must be correct for
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indexing, which only looks at the low order 4b. rg works because
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rq and mq are treated identically.
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*/
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#define VB (0x100|WB) /* .vb */
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#define RF (0x100|RL) /* .rf */
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#define RD (0x100|RQ) /* .rd */
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#define RG (0x100|MQ) /* .rg */
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#define BB (0x1F0|WB) /* byte branch */
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#define BW (0x1F0|WW) /* word branch */
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#define OC (0x1F0|WQ) /* octa, sym_ */
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/* Probe results and memory management fault codes */
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#define PR_ACV 0 /* ACV */
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#define PR_LNV 1 /* length viol */
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/* #define PR_PACV 2 /* impossible */
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#define PR_PLNV 3 /* pte len viol */
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#define PR_TNV 4 /* TNV */
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/* #define PR_TB 5 /* impossible */
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#define PR_PTNV 6 /* pte TNV */
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#define PR_OK 7 /* ok */
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#define MM_PARAM(w,p) (((w)? 4: 0) | ((p) & 3)) /* fault param */
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/* Memory management errors */
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#define MM_WRITE 4 /* write */
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#define MM_EMASK 3 /* against probe */
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|
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/* Privileged registers */
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#define MT_KSP 0
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#define MT_ESP 1
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#define MT_SSP 2
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#define MT_USP 3
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#define MT_IS 4
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#define MT_P0BR 8
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#define MT_P0LR 9
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#define MT_P1BR 10
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#define MT_P1LR 11
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#define MT_SBR 12
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#define MT_SLR 13
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#define MT_PCBB 16
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#define MT_SCBB 17
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#define MT_IPL 18
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#define MT_ASTLVL 19
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#define MT_SIRR 20
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#define MT_SISR 21
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#define MT_ICCS 24
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|
#define MT_TODR 27
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#define MT_CSRS 28
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#define MT_CSRD 29
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#define MT_CSTS 30
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|
#define MT_CSTD 31
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#define MT_RXCS 32
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#define MT_RXDB 33
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#define MT_TXCS 34
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|
#define MT_TXDB 35
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#define MT_CADR 37
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#define MT_MSER 39
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|
#define MT_CONPC 42
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|
#define MT_CONPSL 43
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#define MT_IORESET 55
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#define MT_MAPEN 56
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#define MT_TBIA 57
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#define MT_TBIS 58
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#define MT_SID 62
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#define MT_TBCHK 63
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#define BR_MASK 0xFFFFFFFC
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#define LR_MASK 0x003FFFFF
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|
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/* Opcodes */
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enum opcodes {
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HALT, NOP, REI, BPT, RET, RSB, LDPCTX, SVPCTX,
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CVTPS, CVTSP, INDEX, CRC, PROBER, PROBEW, INSQUE, REMQUE,
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BSBB, BRB, BNEQ, BEQL, BGTR, BLEQ, JSB, JMP,
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BGEQ, BLSS, BGTRU, BLEQU, BVC, BVS, BGEQU, BLSSU,
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ADDP4, ADDP6, SUBP4, SUBP6, CVTPT, MULP, CVTTP, DIVP,
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MOVC3, CMPC3, SCANC, SPANC, MOVC5, CMPC5, MOVTC, MOVTUC,
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BSBW, BRW, CVTWL, CVTWB, MOVP, CMPP3, CVTPL, CMPP4,
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EDITPC, MATCHC, LOCC, SKPC, MOVZWL, ACBW, MOVAW, PUSHAW,
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ADDF2, ADDF3, SUBF2, SUBF3, MULF2, MULF3, DIVF2, DIVF3,
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CVTFB, CVTFW, CVTFL, CVTRFL, CVTBF, CVTWF, CVTLF, ACBF,
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MOVF, CMPF, MNEGF, TSTF, EMODF, POLYF, CVTFD,
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ADAWI = 0x58, INSQHI = 0x5C, INSQTI, REMQHI, REMQTI,
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ADDD2, ADDD3, SUBD2, SUBD3, MULD2, MULD3, DIVD2, DIVD3,
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|
CVTDB, CVTDW, CVTDL, CVTRDL, CVTBD, CVTWD, CVTLD, ACBD,
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|
MOVD, CMPD, MNEGD, TSTD, EMODD, POLYD, CVTDF,
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ASHL = 0x78, ASHQ, EMUL, EDIV, CLRQ, MOVQ, MOVAQ, PUSHAQ,
|
|
ADDB2, ADDB3, SUBB2, SUBB3, MULB2, MULB3, DIVB2, DIVB3,
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|
BISB2, BISB3, BICB2, BICB3, XORB2, XORB3, MNEGB, CASEB,
|
|
MOVB, CMPB, MCOMB, BITB, CLRB, TSTB, INCB, DECB,
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CVTBL, CVTBW, MOVZBL, MOVZBW, ROTL, ACBB, MOVAB, PUSHAB,
|
|
ADDW2, ADDW3, SUBW2, SUBW3, MULW2, MULW3, DIVW2, DIVW3,
|
|
BISW2, BISW3, BICW2, BICW3, XORW2, XORW3, MNEGW, CASEW,
|
|
MOVW, CMPW, MCOMW, BITW, CLRW, TSTW, INCW, DECW,
|
|
BISPSW, BICPSW, POPR, PUSHR, CHMK, CHME, CHMS, CHMU,
|
|
ADDL2, ADDL3, SUBL2, SUBL3, MULL2, MULL3, DIVL2, DIVL3,
|
|
BISL2, BISL3, BICL2, BICL3, XORL2, XORL3, MNEGL, CASEL,
|
|
MOVL, CMPL, MCOML, BITL, CLRL, TSTL, INCL, DECL,
|
|
ADWC, SBWC, MTPR, MFPR, MOVPSL, PUSHL, MOVAL, PUSHAL,
|
|
BBS, BBC, BBSS, BBCS, BBSC, BBCC, BBSSI, BBCCI,
|
|
BLBS, BLBC, FFS, FFC, CMPV, CMPZV, EXTV, EXTZV,
|
|
INSV, ACBL, AOBLSS, AOBLEQ, SOBGEQ, SOBGTR, CVTLB, CVTLW,
|
|
ASHP, CVTLP, CALLG, CALLS, XFC, CVTGF = 0x133,
|
|
ADDG2= 0x140, ADDG3, SUBG2, SUBG3, MULG2, MULG3, DIVG2, DIVG3,
|
|
CVTGB, CVTGW, CVTGL, CVTRGL, CVTBG, CVTWG, CVTLG, ACBG,
|
|
MOVG, CMPG, MNEGG, TSTG, EMODG, POLYG, CVTFG = 0x199 };
|
|
|
|
/* Repeated operations */
|
|
|
|
#define SXTB(x) (((x) & BSIGN)? ((x) | ~BMASK): ((x) & BMASK))
|
|
#define SXTW(x) (((x) & WSIGN)? ((x) | ~WMASK): ((x) & WMASK))
|
|
#define SXTBW(x) (((x) & BSIGN)? ((x) | (WMASK - BMASK)): ((x) & BMASK))
|
|
#define SXTL(x) (((x) & LSIGN)? ((x) | ~LMASK): ((x) & LMASK))
|
|
#define INTOV if (PSL & PSW_IV) SET_TRAP (TRAP_INTOV)
|
|
#define V_INTOV cc = cc | CC_V; INTOV
|
|
#define NEG(x) ((~(x) + 1) & LMASK)
|
|
|
|
/* Istream access */
|
|
|
|
#define PCQ_SIZE 64 /* must be 2**n */
|
|
#define PCQ_MASK (PCQ_SIZE - 1)
|
|
#define PCQ_ENTRY pcq[pcq_p = (pcq_p - 1) & PCQ_MASK] = fault_PC
|
|
#define GET_ISTR(d,l) d = get_istr (l, acc)
|
|
#define BRANCHB(d) PCQ_ENTRY, PC = PC + SXTB (d), FLUSH_ISTR
|
|
#define BRANCHW(d) PCQ_ENTRY, PC = PC + SXTW (d), FLUSH_ISTR
|
|
#define JUMP(d) PCQ_ENTRY, PC = (d), FLUSH_ISTR
|
|
#define SETPC(d) PC = (d), FLUSH_ISTR
|
|
#define FLUSH_ISTR ibcnt = 0, ppc = -1
|
|
|
|
/* Read and write */
|
|
|
|
#define RA (acc)
|
|
#define WA ((acc) << TLB_V_WACC)
|
|
#define ACC_MASK(x) (1 << (x))
|
|
#define TLB_ACCR(x) (ACC_MASK (x) << TLB_V_RACC)
|
|
#define TLB_ACCW(x) (ACC_MASK (x) << TLB_V_WACC)
|
|
#define REF_V 0
|
|
#define REF_P 1
|
|
|
|
/* Condition code macros */
|
|
|
|
#define CC_ZZ1P cc = CC_Z | (cc & CC_C)
|
|
|
|
#define CC_IIZZ_B(r) \
|
|
if ((r) & BSIGN) cc = CC_N; \
|
|
else if ((r) == 0) cc = CC_Z; \
|
|
else cc = 0
|
|
#define CC_IIZZ_W(r) \
|
|
if ((r) & WSIGN) cc = CC_N; \
|
|
else if ((r) == 0) cc = CC_Z; \
|
|
else cc = 0
|
|
#define CC_IIZZ_L(r) \
|
|
if ((r) & LSIGN) cc = CC_N; \
|
|
else if ((r) == 0) cc = CC_Z; \
|
|
else cc = 0
|
|
#define CC_IIZZ_Q(rl,rh) \
|
|
if ((rh) & LSIGN) cc = CC_N; \
|
|
else if (((rl) | (rh)) == 0) cc = CC_Z; \
|
|
else cc = 0
|
|
#define CC_IIZZ_FP CC_IIZZ_W
|
|
|
|
#define CC_IIZP_B(r) \
|
|
if ((r) & BSIGN) cc = CC_N | (cc & CC_C); \
|
|
else if ((r) == 0) cc = CC_Z | (cc & CC_C); \
|
|
else cc = cc & CC_C
|
|
#define CC_IIZP_W(r) \
|
|
if ((r) & WSIGN) cc = CC_N | (cc & CC_C); \
|
|
else if ((r) == 0) cc = CC_Z | (cc & CC_C); \
|
|
else cc = cc & CC_C
|
|
#define CC_IIZP_L(r) \
|
|
if ((r) & LSIGN) cc = CC_N | (cc & CC_C); \
|
|
else if ((r) == 0) cc = CC_Z | (cc & CC_C); \
|
|
else cc = cc & CC_C
|
|
#define CC_IIZP_Q(rl,rh) \
|
|
if ((rh) & LSIGN) cc = CC_N | (cc & CC_C); \
|
|
else if (((rl) | (rh)) == 0) cc = CC_Z | (cc & CC_C); \
|
|
else cc = cc & CC_C
|
|
#define CC_IIZP_FP CC_IIZP_W
|
|
|
|
#define V_ADD_B(r,s1,s2) \
|
|
if (((~(s1) ^ (s2)) & ((s1) ^ (r))) & BSIGN) { V_INTOV; }
|
|
#define V_ADD_W(r,s1,s2) \
|
|
if (((~(s1) ^ (s2)) & ((s1) ^ (r))) & WSIGN) { V_INTOV; }
|
|
#define V_ADD_L(r,s1,s2) \
|
|
if (((~(s1) ^ (s2)) & ((s1) ^ (r))) & LSIGN) { V_INTOV; }
|
|
#define C_ADD(r,s1,s2) \
|
|
if (((uint32) r) < ((uint32) s2)) cc = cc | CC_C
|
|
|
|
#define CC_ADD_B(r,s1,s2) \
|
|
CC_IIZZ_B (r); \
|
|
V_ADD_B (r, s1, s2); \
|
|
C_ADD (r, s1, s2)
|
|
#define CC_ADD_W(r,s1,s2) \
|
|
CC_IIZZ_W (r); \
|
|
V_ADD_W (r, s1, s2); \
|
|
C_ADD (r, s1, s2)
|
|
#define CC_ADD_L(r,s1,s2) \
|
|
CC_IIZZ_L (r); \
|
|
V_ADD_L (r, s1, s2); \
|
|
C_ADD (r, s1, s2)
|
|
|
|
#define V_SUB_B(r,s1,s2) \
|
|
if ((((s1) ^ (s2)) & (~(s1) ^ (r))) & BSIGN) { V_INTOV; }
|
|
#define V_SUB_W(r,s1,s2) \
|
|
if ((((s1) ^ (s2)) & (~(s1) ^ (r))) & WSIGN) { V_INTOV; }
|
|
#define V_SUB_L(r,s1,s2) \
|
|
if ((((s1) ^ (s2)) & (~(s1) ^ (r))) & LSIGN) { V_INTOV; }
|
|
#define C_SUB(r,s1,s2) \
|
|
if (((uint32) s2) < ((uint32) s1)) cc = cc | CC_C
|
|
|
|
#define CC_SUB_B(r,s1,s2) \
|
|
CC_IIZZ_B (r); \
|
|
V_SUB_B (r, s1, s2); \
|
|
C_SUB (r, s1, s2)
|
|
#define CC_SUB_W(r,s1,s2) \
|
|
CC_IIZZ_W (r); \
|
|
V_SUB_W (r, s1, s2); \
|
|
C_SUB (r, s1, s2)
|
|
#define CC_SUB_L(r,s1,s2) \
|
|
CC_IIZZ_L (r); \
|
|
V_SUB_L (r, s1, s2); \
|
|
C_SUB (r, s1, s2)
|
|
|
|
#define CC_CMP_B(s1,s2) \
|
|
if (SXTB (s1) < SXTB (s2)) cc = CC_N; \
|
|
else if ((s1) == (s2)) cc = CC_Z; \
|
|
else cc = 0; \
|
|
if (((uint32) s1) < ((uint32) s2)) cc = cc | CC_C
|
|
#define CC_CMP_W(s1,s2) \
|
|
if (SXTW (s1) < SXTW (s2)) cc = CC_N; \
|
|
else if ((s1) == (s2)) cc = CC_Z; \
|
|
else cc = 0; \
|
|
if (((uint32) s1) < ((uint32) s2)) cc = cc | CC_C
|
|
#define CC_CMP_L(s1,s2) \
|
|
if ((s1) < (s2)) cc = CC_N; \
|
|
else if ((s1) == (s2)) cc = CC_Z; \
|
|
else cc = 0; \
|
|
if (((uint32) s1) < ((uint32) s2)) cc = cc | CC_C
|
|
|
|
/* Model dependent definitions */
|
|
|
|
#include "vaxmod_defs.h"
|