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/* This file is part of the program psim.
Copyright 1994, 1997, 2003 Andrew Cagney
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#ifndef _REGISTERS_H_
#define _REGISTERS_H_
/*
* The PowerPC registers
*
*/
/* FIXME:
For the moment use macro's to determine if the E500 or Altivec
registers should be included. IGEN should instead of a :register:
field to facilitate the specification and generation of per ISA
registers. */
#ifdef WITH_E500
#include "e500_registers.h"
#endif
#if WITH_ALTIVEC
#include "altivec_registers.h"
#endif
/**
** General Purpose Registers
**/
typedef signed_word gpreg;
/**
** Floating Point Registers
**/
typedef unsigned64 fpreg;
/**
** The condition register
**
**/
typedef unsigned32 creg;
/* The following sub bits are defined for the condition register */
enum {
cr_i_negative = BIT4(0),
cr_i_positive = BIT4(1),
cr_i_zero = BIT4(2),
cr_i_summary_overflow = BIT4(3),
#if 0
/* cr0 - integer status */
cr0_i_summary_overflow_bit = 3,
cr0_i_negative = BIT32(0),
cr0_i_positive = BIT32(1),
cr0_i_zero = BIT32(2),
cr0_i_summary_overflow = BIT32(3),
cr0_i_mask = MASK32(0,3),
#endif
/* cr1 - floating-point status */
cr1_i_floating_point_exception_summary_bit = 4,
cr1_i_floating_point_enabled_exception_summary_bit = 5,
cr1_i_floating_point_invalid_operation_exception_summary_bit = 6,
cr1_i_floating_point_overflow_exception_bit = 7,
cr1_i_floating_point_exception_summary = BIT32(4),
cr1_i_floating_point_enabled_exception_summary = BIT32(5),
cr1_i_floating_point_invalid_operation_exception_summary = BIT32(6),
cr1_i_floating_point_overflow_exception = BIT32(7),
cr1_i_mask = MASK32(4,7),
};
/* Condition register 1 contains the result of floating point arithmetic */
enum {
cr_fp_exception = BIT4(0),
cr_fp_enabled_exception = BIT4(1),
cr_fp_invalid_exception = BIT4(2),
cr_fp_overflow_exception = BIT4(3),
};
/**
** Floating-Point Status and Control Register
**/
typedef unsigned32 fpscreg;
enum {
fpscr_fx_bit = 0,
fpscr_fx = BIT32(0),
fpscr_fex_bit = 1,
fpscr_fex = BIT32(1),
fpscr_vx_bit = 2,
fpscr_vx = BIT32(2),
fpscr_ox_bit = 3,
fpscr_ox = BIT32(3),
fpscr_ux = BIT32(4),
fpscr_zx = BIT32(5),
fpscr_xx = BIT32(6),
fpscr_vxsnan = BIT32(7), /* SNAN */
fpscr_vxisi = BIT32(8), /* INF - INF */
fpscr_vxidi = BIT32(9), /* INF / INF */
fpscr_vxzdz = BIT32(10), /* 0 / 0 */
fpscr_vximz = BIT32(11), /* INF * 0 */
fpscr_vxvc = BIT32(12),
fpscr_fr = BIT32(13),
fpscr_fi = BIT32(14),
fpscr_fprf = MASK32(15, 19),
fpscr_c = BIT32(15),
fpscr_fpcc_bit = 16, /* well sort of */
fpscr_fpcc = MASK32(16, 19),
fpscr_fl = BIT32(16),
fpscr_fg = BIT32(17),
fpscr_fe = BIT32(18),
fpscr_fu = BIT32(19),
fpscr_rf_quiet_nan = fpscr_c | fpscr_fu,
fpscr_rf_neg_infinity = fpscr_fl | fpscr_fu,
fpscr_rf_neg_normal_number = fpscr_fl,
fpscr_rf_neg_denormalized_number = fpscr_c | fpscr_fl,
fpscr_rf_neg_zero = fpscr_c | fpscr_fe,
fpscr_rf_pos_zero = fpscr_fe,
fpscr_rf_pos_denormalized_number = fpscr_c | fpscr_fg,
fpscr_rf_pos_normal_number = fpscr_fg,
fpscr_rf_pos_infinity = fpscr_fg | fpscr_fu,
fpscr_reserved_20 = BIT32(20),
fpscr_vxsoft = BIT32(21),
fpscr_vxsqrt = BIT32(22),
fpscr_vxcvi = BIT32(23),
fpscr_ve = BIT32(24),
fpscr_oe = BIT32(25),
fpscr_ue = BIT32(26),
fpscr_ze = BIT32(27),
fpscr_xe = BIT32(28),
fpscr_ni = BIT32(29),
fpscr_rn = MASK32(30, 31),
fpscr_rn_round_to_nearest = 0,
fpscr_rn_round_towards_zero = MASK32(31,31),
fpscr_rn_round_towards_pos_infinity = MASK32(30,30),
fpscr_rn_round_towards_neg_infinity = MASK32(30,31),
fpscr_vx_bits = (fpscr_vxsnan | fpscr_vxisi | fpscr_vxidi
| fpscr_vxzdz | fpscr_vximz | fpscr_vxvc
| fpscr_vxsoft | fpscr_vxsqrt | fpscr_vxcvi),
};
/**
** XER Register
**/
typedef unsigned32 xereg;
enum {
xer_summary_overflow = BIT32(0), xer_summary_overflow_bit = 0,
xer_carry = BIT32(2), xer_carry_bit = 2,
xer_overflow = BIT32(1),
xer_reserved_3_24 = MASK32(3,24),
xer_byte_count_mask = MASK32(25,31)
};
/**
** SPR's
**/
#include "spreg.h"
/**
** Segment Registers
**/
typedef unsigned32 sreg;
enum {
nr_of_srs = 16
};
/**
** Machine state register
**/
typedef unsigned_word msreg; /* 32 or 64 bits */
enum {
#if (WITH_TARGET_WORD_BITSIZE == 64)
msr_64bit_mode = BIT(0),
#endif
#if (WITH_TARGET_WORD_BITSIZE == 32)
msr_64bit_mode = 0,
#endif
msr_power_management_enable = BIT(45),
msr_tempoary_gpr_remapping = BIT(46), /* 603 specific */
msr_interrupt_little_endian_mode = BIT(47),
msr_external_interrupt_enable = BIT(48),
msr_problem_state = BIT(49),
msr_floating_point_available = BIT(50),
msr_machine_check_enable = BIT(51),
msr_floating_point_exception_mode_0 = BIT(52),
msr_single_step_trace_enable = BIT(53),
msr_branch_trace_enable = BIT(54),
msr_floating_point_exception_mode_1 = BIT(55),
msr_interrupt_prefix = BIT(57),
msr_instruction_relocate = BIT(58),
msr_data_relocate = BIT(59),
msr_recoverable_interrupt = BIT(62),
msr_little_endian_mode = BIT(63)
};
enum {
srr1_hash_table_or_ibat_miss = BIT(33),
srr1_direct_store_error_exception = BIT(35),
srr1_protection_violation = BIT(36),
srr1_segment_table_miss = BIT(42),
srr1_floating_point_enabled = BIT(43),
srr1_illegal_instruction = BIT(44),
srr1_priviliged_instruction = BIT(45),
srr1_trap = BIT(46),
srr1_subsequent_instruction = BIT(47)
};
/**
** storage interrupt registers
**/
typedef enum {
dsisr_direct_store_error_exception = BIT32(0),
dsisr_hash_table_or_dbat_miss = BIT32(1),
dsisr_protection_violation = BIT32(4),
dsisr_earwax_violation = BIT32(5),
dsisr_store_operation = BIT32(6),
dsisr_segment_table_miss = BIT32(10),
dsisr_earwax_disabled = BIT32(11)
} dsisr_status;
/**
** And the registers proper
**/
typedef struct _registers {
gpreg gpr[32];
fpreg fpr[32];
creg cr;
fpscreg fpscr;
/* Machine state register */
msreg msr;
/* Spr's */
spreg spr[nr_of_sprs];
/* Segment Registers */
sreg sr[nr_of_srs];
#if WITH_ALTIVEC
struct altivec_regs altivec;
#endif
#if WITH_E500
struct e500_regs e500;
#endif
} registers;
/* dump out all the registers */
INLINE_REGISTERS\
(void) registers_dump
(registers *regs);
/* return information on a register based on name */
typedef enum {
reg_invalid,
reg_gpr, reg_fpr, reg_spr, reg_msr,
reg_cr, reg_fpscr, reg_pc, reg_sr,
reg_insns, reg_stalls, reg_cycles,
#ifdef WITH_ALTIVEC
reg_vr, reg_vscr,
#endif
#ifdef WITH_E500
reg_acc, reg_gprh, reg_evr,
#endif
nr_register_types
} register_types;
typedef struct {
register_types type;
int index;
int size;
} register_descriptions;
INLINE_REGISTERS\
(register_descriptions) register_description
(const char reg[]);
/* Special purpose registers by their more common names */
#define SPREG(N) cpu_registers(processor)->spr[N]
#define XER SPREG(spr_xer)
#define LR SPREG(spr_lr)
#define CTR SPREG(spr_ctr)
#define SRR0 SPREG(spr_srr0)
#define SRR1 SPREG(spr_srr1)
#define DAR SPREG(spr_dar)
#define DSISR SPREG(spr_dsisr)
/* general purpose registers - indexed access */
#define GPR(N) cpu_registers(processor)->gpr[N]
/* segment registers */
#define SEGREG(N) cpu_registers(processor)->sr[N]
/* condition register */
#define CR cpu_registers(processor)->cr
/* machine status register */
#define MSR cpu_registers(processor)->msr
/* floating-point status condition register */
#define FPSCR cpu_registers(processor)->fpscr
#endif /* _REGISTERS_H_ */
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