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/* alpha_defs.h: Alpha architecture definitions file
Copyright (c) 2003-2017, Robert M Supnik
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the "Software"),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Except as contained in this notice, the name of Robert M Supnik shall not be
used in advertising or otherwise to promote the sale, use or other dealings
in this Software without prior written authorization from Robert M Supnik.
Respectfully dedicated to the great people of the Alpha chip, systems, and
software development projects; and to the memory of Peter Conklin, of the
Alpha Program Office.
17-Mar-2017 RMS Fixed function field widths (Maurice Marks)
*/
#ifndef _ALPHA_DEFS_H_
#define _ALPHA_DEFS_H_ 0
#include "sim_defs.h"
#include <setjmp.h>
#define INLINE
/* Rename of global PC variable to avoid namespace conflicts on some platforms */
#define PC PC_Global
/* Configuration */
#define INITMEMSIZE (1 << 24) /* !!debug!! */
#define MEMSIZE (cpu_unit.capac)
#define ADDR_IS_MEM(x) ((x) < MEMSIZE)
#define DEV_DIB (1u << (DEV_V_UF + 0)) /* takes a DIB */
/* Simulator stops */
#define STOP_HALT 1 /* halt */
#define STOP_IBKPT 2 /* breakpoint */
#define STOP_NSPAL 3 /* non-supported PAL */
#define STOP_KSNV 4 /* kernel stk inval */
#define STOP_INVABO 5 /* invalid abort code */
#define STOP_MME 6 /* console mem mgt error */
/* Bit patterns */
#define M8 0xFF
#define M16 0xFFFF
#define M32 0xFFFFFFFF
#define M64 0xFFFFFFFFFFFFFFFF
#define B_SIGN 0x80
#define W_SIGN 0x8000
#define L_SIGN 0x80000000
#define Q_SIGN 0x8000000000000000
#define Q_GETSIGN(x) (((uint32) ((x) >> 63)) & 1)
/* Architectural variants */
#define AMASK_BWX 0x0001 /* byte/word */
#define AMASK_FIX 0x0002 /* sqrt/flt-int moves */
#define AMASK_CIX 0x0004 /* counts */
#define AMASK_MVI 0x0100 /* multimedia */
#define AMASK_PRC 0x0200 /* precise exceptions */
#define AMASK_PFM 0x1000 /* prefetch w modify */
#define IMPLV_EV4 0x0 /* EV4 (21064) */
#define IMPLV_EV5 0x1 /* EV5 (21164) */
#define IMPLV_EV6 0x2 /* EV6 (21264) */
#define IMPLV_EV7 0x3 /* EV7 (21364) */
/* Instruction formats */
#define I_V_OP 26 /* opcode */
#define I_M_OP 0x3F
#define I_OP (I_M_OP << I_V_OP)
#define I_V_RA 21 /* Ra */
#define I_M_RA 0x1F
#define I_V_RB 16 /* Rb */
#define I_M_RB 0x1F
#define I_V_FTRP 13 /* floating trap mode */
#define I_M_FTRP 0x7
#define I_FTRP (I_M_FTRP << I_V_FTRP)
#define I_F_VAXRSV 0x4800 /* VAX reserved */
#define I_FTRP_V 0x2000 /* /V trap */
#define I_FTRP_U 0x2000 /* /U trap */
#define I_FTRP_S 0x8000 /* /S trap */
#define I_FTRP_SUI 0xE000 /* /SUI trap */
#define I_FTRP_SVI 0xE000 /* /SVI trap */
#define I_V_FRND 11 /* floating round mode */
#define I_M_FRND 0x3
#define I_FRND (I_M_FRND << I_V_FRND)
#define I_FRND_C 0 /* chopped */
#define I_FRND_M 1 /* to minus inf */
#define I_FRND_N 2 /* normal */
#define I_FRND_D 3 /* dynamic */
#define I_FRND_P 3 /* in FPCR: plus inf */
#define I_V_FSRC 9 /* floating source */
#define I_M_FSRC 0x3
#define I_FSRC (I_M_FSRC << I_V_FSRC)
#define I_FSRC_X 0x0200 /* data type X */
#define I_V_FFNC 5 /* floating function */
#define I_M_FFNC 0x7F
#define I_V_LIT8 13 /* integer 8b literal */
#define I_M_LIT8 0xFF
#define I_V_ILIT 12 /* literal flag */
#define I_ILIT (1u << I_V_ILIT)
#define I_V_IFNC 5 /* integer function */
#define I_M_IFNC 0x7F
#define I_V_RC 0 /* Rc */
#define I_M_RC 0x1F
#define I_V_MDSP 0 /* memory displacement */
#define I_M_MDSP 0xFFFF
#define I_V_BDSP 0
#define I_M_BDSP 0x1FFFFF /* branch displacement */
#define I_V_PALOP 0
#define I_M_PALOP 0x3FFFFFF /* PAL subopcode */
#define I_GETOP(x) (((x) >> I_V_OP) & I_M_OP)
#define I_GETRA(x) (((x) >> I_V_RA) & I_M_RA)
#define I_GETRB(x) (((x) >> I_V_RB) & I_M_RB)
#define I_GETLIT8(x) (((x) >> I_V_LIT8) & I_M_LIT8)
#define I_GETIFNC(x) (((x) >> I_V_IFNC) & I_M_IFNC)
#define I_GETFRND(x) (((x) >> I_V_FRND) & I_M_FRND)
#define I_GETFFNC(x) (((x) >> I_V_FFNC) & I_M_FFNC)
#define I_GETRC(x) (((x) >> I_V_RC) & I_M_RC)
#define I_GETMDSP(x) (((x) >> I_V_MDSP) & I_M_MDSP)
#define I_GETBDSP(x) (((x) >> I_V_BDSP) & I_M_BDSP)
#define I_GETPAL(x) (((x) >> I_V_PALOP) & I_M_PALOP)
/* Floating point types */
#define DT_F 0 /* type F */
#define DT_G 1 /* type G */
#define DT_S 0 /* type S */
#define DT_T 1 /* type T */
/* Floating point memory format (VAX F) */
#define F_V_SIGN 15
#define F_SIGN (1u << F_V_SIGN)
#define F_V_EXP 7
#define F_M_EXP 0xFF
#define F_BIAS 0x80
#define F_EXP (F_M_EXP << F_V_EXP)
#define F_V_FRAC 29
#define F_GETEXP(x) ((uint32) (((x) >> F_V_EXP) & F_M_EXP))
#define SWAP_VAXF(x) ((((x) >> 16) & 0xFFFF) | (((x) & 0xFFFF) << 16))
/* Floating point memory format (VAX G) */
#define G_V_SIGN 15
#define G_SIGN (1u << F_V_SIGN)
#define G_V_EXP 4
#define G_M_EXP 0x7FF
#define G_BIAS 0x400
#define G_EXP (G_M_EXP << G_V_EXP)
#define G_GETEXP(x) ((uint32) (((x) >> G_V_EXP) & G_M_EXP))
#define SWAP_VAXG(x) ((((x) & 0x000000000000FFFF) << 48) | \
(((x) & 0x00000000FFFF0000) << 16) | \
(((x) >> 16) & 0x00000000FFFF0000) | \
(((x) >> 48) & 0x000000000000FFFF))
/* Floating memory format (IEEE S) */
#define S_V_SIGN 31
#define S_SIGN (1u << S_V_SIGN)
#define S_V_EXP 23
#define S_M_EXP 0xFF
#define S_BIAS 0x7F
#define S_NAN 0xFF
#define S_EXP (S_M_EXP << S_V_EXP)
#define S_V_FRAC 29
#define S_GETEXP(x) ((uint32) (((x) >> S_V_EXP) & S_M_EXP))
/* Floating point memory format (IEEE T) */
#define T_V_SIGN 63
#define T_SIGN 0x8000000000000000
#define T_V_EXP 52
#define T_M_EXP 0x7FF
#define T_BIAS 0x3FF
#define T_NAN 0x7FF
#define T_EXP 0x7FF0000000000000
#define T_FRAC 0x000FFFFFFFFFFFFF
#define T_GETEXP(x) ((uint32) (((uint32) ((x) >> T_V_EXP)) & T_M_EXP))
/* Floating point register format (all except VAX D) */
#define FPR_V_SIGN 63
#define FPR_SIGN 0x8000000000000000
#define FPR_V_EXP 52
#define FPR_M_EXP 0x7FF
#define FPR_NAN 0x7FF
#define FPR_EXP 0x7FF0000000000000
#define FPR_HB 0x0010000000000000
#define FPR_FRAC 0x000FFFFFFFFFFFFF
#define FPR_GUARD (UF_V_NM - FPR_V_EXP)
#define FPR_GETSIGN(x) (((uint32) ((x) >> FPR_V_SIGN)) & 1)
#define FPR_GETEXP(x) (((uint32) ((x) >> FPR_V_EXP)) & FPR_M_EXP)
#define FPR_GETFRAC(x) ((x) & FPR_FRAC)
#define FP_TRUE 0x4000000000000000 /* 0.5/2.0 in reg */
/* Floating point register format (VAX D) */
#define FDR_V_SIGN 63
#define FDR_SIGN 0x8000000000000000
#define FDR_V_EXP 55
#define FDR_M_EXP 0xFF
#define FDR_EXP 0x7F80000000000000
#define FDR_HB 0x0080000000000000
#define FDR_FRAC 0x007FFFFFFFFFFFFF
#define FDR_GUARD (UF_V_NM - FDR_V_EXP)
#define FDR_GETSIGN(x) (((uint32) ((x) >> FDR_V_SIGN)) & 1)
#define FDR_GETEXP(x) (((uint32) ((x) >> FDR_V_EXP)) & FDR_M_EXP)
#define FDR_GETFRAC(x) ((x) & FDR_FRAC)
#define D_BIAS 0x80
/* Unpacked floating point number */
typedef struct {
uint32 sign;
int32 exp;
t_uint64 frac;
} UFP;
#define UF_V_NM 63
#define UF_NM 0x8000000000000000 /* normalized */
/* IEEE control register (left 32b only) */
#define FPCR_SUM 0x80000000 /* summary */
#define FPCR_INED 0x40000000 /* inexact disable */
#define FPCR_UNFD 0x20000000 /* underflow disable */
#define FPCR_UNDZ 0x10000000 /* underflow to 0 */
#define FPCR_V_RMOD 26 /* rounding mode */
#define FPCR_M_RMOD 0x3
#define FPCR_IOV 0x02000000 /* integer overflow */
#define FPCR_INE 0x01000000 /* inexact */
#define FPCR_UNF 0x00800000 /* underflow */
#define FPCR_OVF 0x00400000 /* overflow */
#define FPCR_DZE 0x00200000 /* div by zero */
#define FPCR_INV 0x00100000 /* invalid operation */
#define FPCR_OVFD 0x00080000 /* overflow disable */
#define FPCR_DZED 0x00040000 /* div by zero disable */
#define FPCR_INVD 0x00020000 /* invalid op disable */
#define FPCR_DNZ 0x00010000 /* denormal to zero */
#define FPCR_DNOD 0x00008000 /* denormal disable */
#define FPCR_RAZ 0x00007FFF /* zero */
#define FPCR_ERR (FPCR_IOV|FPCR_INE|FPCR_UNF|FPCR_OVF|FPCR_DZE|FPCR_INV)
#define FPCR_GETFRND(x) (((x) >> FPCR_V_RMOD) & FPCR_M_RMOD)
/* PTE - hardware format */
#define PTE_V_PFN 32 /* PFN */
#define PFN_MASK 0xFFFFFFFF
#define PTE_V_UWE 15 /* write enables */
#define PTE_V_SWE 14
#define PTE_V_EWE 13
#define PTE_V_KWE 12
#define PTE_V_URE 11 /* read enables */
#define PTE_V_SRE 10
#define PTE_V_ERE 9
#define PTE_V_KRE 8
#define PTE_V_GH 5 /* granularity hint */
#define PTE_M_GH 0x3
#define PTE_GH (PTE_M_GH << PTE_V_GH)
#define PTE_V_ASM 4 /* address space match */
#define PTE_V_FOE 3 /* fault on execute */
#define PTE_V_FOW 2 /* fault on write */
#define PTE_V_FOR 1 /* fault on read */
#define PTE_V_V 0 /* valid */
#define PTE_UWE (1u << PTE_V_UWE)
#define PTE_SWE (1u << PTE_V_SWE)
#define PTE_EWE (1u << PTE_V_EWE)
#define PTE_KWE (1u << PTE_V_KWE)
#define PTE_URE (1u << PTE_V_URE)
#define PTE_SRE (1u << PTE_V_SRE)
#define PTE_ERE (1u << PTE_V_ERE)
#define PTE_KRE (1u << PTE_V_KRE)
#define PTE_ASM (1u << PTE_V_ASM)
#define PTE_FOE (1u << PTE_V_FOE)
#define PTE_FOW (1u << PTE_V_FOW)
#define PTE_FOR (1u << PTE_V_FOR)
#define PTE_V (1u << PTE_V_V)
#define PTE_MASK 0xFF7F
#define PTE_GETGH(x) ((((uint32) (x)) >> PTE_V_GH) & PTE_M_GH)
#define VPN_GETLVL1(x) (((x) >> ((2 * VA_N_LVL) - 3)) & (VA_M_LVL << 3))
#define VPN_GETLVL2(x) (((x) >> (VA_N_LVL - 3)) & (VA_M_LVL << 3))
#define VPN_GETLVL3(x) (((x) << 3) & (VA_M_LVL << 3))
#define ACC_E(m) ((PTE_KRE << (m)) | PTE_FOE | PTE_V)
#define ACC_R(m) ((PTE_KRE << (m)) | PTE_FOR | PTE_V)
#define ACC_W(m) ((PTE_KWE << (m)) | PTE_FOW | PTE_V)
#define ACC_M(m) (((PTE_KRE|PTE_KWE) << (m)) | PTE_FOR | PTE_FOW | PTE_V)
/* Exceptions */
#define ABORT(x) longjmp (save_env, (x))
#define ABORT1(x,y) { p1 = (x); longjmp (save_env, (y)); }
#define EXC_RSVI 0x01 /* reserved instruction */
#define EXC_RSVO 0x02 /* reserved operand */
#define EXC_ALIGN 0x03 /* operand alignment */
#define EXC_FPDIS 0x04 /* flt point disabled */
#define EXC_TBM 0x08 /* TLB miss */
#define EXC_FOX 0x10 /* fault on r/w/e */
#define EXC_ACV 0x14 /* access control viol */
#define EXC_TNV 0x18 /* translation not valid */
#define EXC_BVA 0x1C /* bad address format */
#define EXC_E 0x00 /* offset for execute */
#define EXC_R 0x01 /* offset for read */
#define EXC_W 0x02 /* offset for write */
/* Traps - corresponds to arithmetic trap summary register */
#define TRAP_SWC 0x001 /* software completion */
#define TRAP_INV 0x002 /* invalid operand */
#define TRAP_DZE 0x004 /* divide by zero */
#define TRAP_OVF 0x008 /* overflow */
#define TRAP_UNF 0x010 /* underflow */
#define TRAP_INE 0x020 /* inexact */
#define TRAP_IOV 0x040 /* integer overflow */
#define TRAP_SUMM_RW 0x07F
/* PALcode */
#define SP R[30] /* stack pointer */
#define MODE_K 0 /* kernel */
#define MODE_E 1 /* executive (UNIX user) */
#define MODE_S 2 /* supervisor */
#define MODE_U 3 /* user */
#define PAL_UNDF 0 /* undefined */
#define PAL_VMS 1 /* VMS */
#define PAL_UNIX 2 /* UNIX */
#define PAL_NT 3 /* Windows NT */
/* Machine check error summary register */
#define MCES_INP 0x01 /* in progress */
#define MCES_SCRD 0x02 /* sys corr in prog */
#define MCES_PCRD 0x04 /* proc corr in prog */
#define MCES_DSCRD 0x08 /* disable system corr */
#define MCES_DPCRD 0x10 /* disable proc corr */
#define MCES_W1C (MCES_INP|MCES_SCRD|MCES_PCRD)
#define MCES_DIS (MCES_DSCRD|MCES_DPCRD)
/* I/O devices */
#define L_BYTE 0 /* IO request lengths */
#define L_WORD 1
#define L_LONG 2
#define L_QUAD 3
/* Device information block */
typedef struct { /* device info block */
t_uint64 low; /* low addr */
t_uint64 high; /* high addr */
t_bool (*read)(t_uint64 pa, t_uint64 *val, uint32 lnt);
t_bool (*write)(t_uint64 pa, t_uint64 val, uint32 lnt);
uint32 ipl;
} DIB;
/* Interrupt system - 6 levels in EV4 and EV6, 4 in EV5 - software expects 4 */
#define IPL_HMAX 0x17 /* highest hwre level */
#define IPL_HMIN 0x14 /* lowest hwre level */
#define IPL_HLVL (IPL_HMAX - IPL_HMIN + 1) /* # hardware levels */
#define IPL_SMAX 0x0F /* highest swre level */
/* Macros */
#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] = (PC - 4) & M64
#define SEXT_B_Q(x) (((x) & B_SIGN)? ((x) | ~((t_uint64) M8)): ((x) & M8))
#define SEXT_W_Q(x) (((x) & W_SIGN)? ((x) | ~((t_uint64) M16)): ((x) & M16))
#define SEXT_L_Q(x) (((x) & L_SIGN)? ((x) | ~((t_uint64) M32)): ((x) & M32))
#define NEG_Q(x) ((~(x) + 1) & M64)
#define ABS_Q(x) (((x) & Q_SIGN)? NEG_Q (x): (x))
#define SIGN_BDSP 0x100000
#define SIGN_MDSP 0x008000
#define SEXT_MDSP(x) (((x) & SIGN_MDSP)? \
((x) | ~((t_uint64) I_M_MDSP)): ((x) & I_M_MDSP))
#define SEXT_BDSP(x) (((x) & SIGN_BDSP)? \
((x) | ~((t_uint64) I_M_BDSP)): ((x) & I_M_BDSP))
/* Opcodes */
enum opcodes {
OP_PAL, OP_OPC01, OP_OPC02, OP_OPC03,
OP_OPC04, OP_OPC05, OP_OPC06, OP_OPC07,
OP_LDA, OP_LDAH, OP_LDBU, OP_LDQ_U,
OP_LDWU, OP_STW, OP_STB, OP_STQ_U,
OP_IALU, OP_ILOG, OP_ISHFT, OP_IMUL,
OP_IFLT, OP_VAX, OP_IEEE, OP_FP,
OP_MISC, OP_PAL19, OP_JMP, OP_PAL1B,
OP_FLTI, OP_PAL1D, OP_PAL1E, OP_PAL1F,
OP_LDF, OP_LDG, OP_LDS, OP_LDT,
OP_STF, OP_STG, OP_STS, OP_STT,
OP_LDL, OP_LDQ, OP_LDL_L, OP_LDQ_L,
OP_STL, OP_STQ, OP_STL_C, OP_STQ_C,
OP_BR, OP_FBEQ, OP_FBLT, OP_FBLE,
OP_BSR, OP_FBNE, OP_FBGE, OP_FBGT,
OP_BLBC, OP_BEQ, OP_BLT, OP_BLE,
OP_BLBS, OP_BNE, OP_BGE, OP_BGT
};
/* Function prototypes */
uint32 ReadI (t_uint64 va);
t_uint64 ReadB (t_uint64 va);
t_uint64 ReadW (t_uint64 va);
t_uint64 ReadL (t_uint64 va);
t_uint64 ReadQ (t_uint64 va);
t_uint64 ReadAccL (t_uint64 va, uint32 acc);
t_uint64 ReadAccQ (t_uint64 va, uint32 acc);
INLINE t_uint64 ReadPB (t_uint64 pa);
INLINE t_uint64 ReadPW (t_uint64 pa);
INLINE t_uint64 ReadPL (t_uint64 pa);
INLINE t_uint64 ReadPQ (t_uint64 pa);
t_bool ReadIO (t_uint64 pa, t_uint64 *val, uint32 lnt);
void WriteB (t_uint64 va, t_uint64 dat);
void WriteW (t_uint64 va, t_uint64 dat);
void WriteL (t_uint64 va, t_uint64 dat);
void WriteQ (t_uint64 va, t_uint64 dat);
void WriteAccL (t_uint64 va, t_uint64 dat, uint32 acc);
void WriteAccQ (t_uint64 va, t_uint64 dat, uint32 acc);
INLINE void WritePB (t_uint64 pa, t_uint64 dat);
INLINE void WritePW (t_uint64 pa, t_uint64 dat);
INLINE void WritePL (t_uint64 pa, t_uint64 dat);
INLINE void WritePQ (t_uint64 pa, t_uint64 dat);
t_bool WriteIO (t_uint64 pa, t_uint64 val, uint32 lnt);
uint32 mmu_set_cm (uint32 mode);
void mmu_set_icm (uint32 mode);
void mmu_set_dcm (uint32 mode);
void arith_trap (uint32 trap, uint32 ir);
#endif