binutils-gdb/sim/aarch64/cpustate.h

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/* cpustate.h -- Prototypes for AArch64 cpu state functions.
Copyright (C) 2015-2019 Free Software Foundation, Inc.
Contributed by Red Hat.
This file is part of GDB.
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 3 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, see <http://www.gnu.org/licenses/>. */
#ifndef _CPU_STATE_H
#define _CPU_STATE_H
#include "config.h"
#include <sys/types.h>
#include <stdint.h>
#include <inttypes.h>
#include "gdb/remote-sim.h"
/* Symbolic names used to identify general registers which also match
the registers indices in machine code.
We have 32 general registers which can be read/written as 32 bit or
64 bit sources/sinks and are appropriately referred to as Wn or Xn
in the assembly code. Some instructions mix these access modes
(e.g. ADD X0, X1, W2) so the implementation of the instruction
needs to *know* which type of read or write access is required. */
typedef enum GReg
{
R0,
R1,
R2,
R3,
R4,
R5,
R6,
R7,
R8,
R9,
R10,
R11,
R12,
R13,
R14,
R15,
R16,
R17,
R18,
R19,
R20,
R21,
R22,
R23,
R24,
R25,
R26,
R27,
R28,
R29,
R30,
R31,
FP = R29,
LR = R30,
SP = R31,
ZR = R31
} GReg;
/* Symbolic names used to refer to floating point registers which also
match the registers indices in machine code.
We have 32 FP registers which can be read/written as 8, 16, 32, 64
and 128 bit sources/sinks and are appropriately referred to as Bn,
Hn, Sn, Dn and Qn in the assembly code. Some instructions mix these
access modes (e.g. FCVT S0, D0) so the implementation of the
instruction needs to *know* which type of read or write access is
required. */
typedef enum VReg
{
V0,
V1,
V2,
V3,
V4,
V5,
V6,
V7,
V8,
V9,
V10,
V11,
V12,
V13,
V14,
V15,
V16,
V17,
V18,
V19,
V20,
V21,
V22,
V23,
V24,
V25,
V26,
V27,
V28,
V29,
V30,
V31,
} VReg;
/* All the different integer bit patterns for the components of a
general register are overlaid here using a union so as to allow
all reading and writing of the desired bits. Note that we have
to take care when emulating a big-endian AArch64 as we are
running on a little endian host. */
typedef union GRegisterValue
{
#if !WORDS_BIGENDIAN
int8_t s8;
int16_t s16;
int32_t s32;
int64_t s64;
uint8_t u8;
uint16_t u16;
uint32_t u32;
uint64_t u64;
#else
struct { int64_t :56; int8_t s8; };
struct { int64_t :48; int16_t s16; };
struct { int64_t :32; int32_t s32; };
int64_t s64;
struct { uint64_t :56; uint8_t u8; };
struct { uint64_t :48; uint16_t u16; };
struct { uint64_t :32; uint32_t u32; };
uint64_t u64;
#endif
} GRegister;
/* Float registers provide for storage of a single, double or quad
word format float in the same register. Single floats are not
paired within each double register as per 32 bit arm. Instead each
128 bit register Vn embeds the bits for Sn, and Dn in the lower
quarter and half, respectively, of the bits for Qn.
The upper bits can also be accessed as single or double floats by
the float vector operations using indexing e.g. V1.D[1], V1.S[3]
etc and, for SIMD operations using a horrible index range notation.
The spec also talks about accessing float registers as half words
and bytes with Hn and Bn providing access to the low 16 and 8 bits
of Vn but it is not really clear what these bits represent. We can
probably ignore this for Java anyway. However, we do need to access
the raw bits at 32 and 64 bit resolution to load to/from integer
registers.
Note - we do not use the long double type. Aliasing issues between
integer and float values mean that it is unreliable to use them. */
typedef union FRegisterValue
{
float s;
double d;
More AArch64 simulator improvements. * cpustate.c (aarch64_get_FP_half): New function. Read a vector register as a half precision floating point number. (aarch64_set_FP_half): New function. Similar, but for setting a half precision register. (aarch64_get_thread_id): New function. Returns the value of the CPU's TPIDR register. (aarch64_get_FPCR): New function. Returns the value of the CPU's floating point control register. (aarch64_set_FPCR): New function. Set the value of the CPU's FPCR register. * cpustate.h: Add prototypes for new functions. * sim-main.h (struct _sim_cpu): Add FPCR and tpidr fields. * memory.c: Use unaligned core access functions for all memory reads and writes. * simulator.c (HALT_NYI): Generate an error message if tracing will not tell the user why the simulator is halting. (HALT_UNREACHABLE): Delete. Delete (unneeded) uses of the macro. (INSTR): New time-saver macro. (fldrb_abs): New function. Loads an 8-bit value using a scaled offset. (fldrh_abs): New function. Likewise for 16-bit values. (do_vec_SSHL): Allow for negative shift values. (do_vec_USHL): Likewise. (do_vec_SHL): Correct computation of shift amount. (do_vec_SSHR_USHR): Correct decision of signed vs unsigned shifts and computation of shift value. (clz): New function. Counts leading zero bits. (do_vec_CLZ): New function. Implements CLZ (vector). (do_vec_MOV_element): Call do_vec_CLZ. (dexSimpleFPCondCompare): Implement. (do_FCVT_half_to_single): New function. Implements one of the FCVT operations. (do_FCVT_half_to_double): New function. Likewise. (do_FCVT_single_to_half): New function. Likewise. (do_FCVT_double_to_half): New function. Likewise. (dexSimpleFPDataProc1Source): Call new FCVT functions. (do_scalar_SHL): Handle negative shifts. (do_scalar_shift): Handle SSHR. (do_scalar_USHL): New function. (do_double_add): Simplify to just performing a double precision add operation. Move remaining code into... (do_scalar_vec): ... New function. (dexLoadUnsignedImmediate): Call new fldrb_abs and fldrh_abs functions. (system_get): Add support for TPIDR, CTR, FPCR, FPSR and CPSR registers. (system_set): New function. (do_MSR_immediate): New function. Stub for now. (do_MSR_reg): New function. Likewise. Partially implements MSR instruction. (do_SYS): New function. Stub for now, (dexSystem): Call new functions.
2016-03-23 18:37:30 +01:00
uint64_t v[2];
uint32_t w[4];
uint16_t h[8];
uint8_t b[16];
int64_t V[2];
int32_t W[4];
int16_t H[8];
int8_t B[16];
float S[4];
double D[2];
} FRegister;
/* Condition register bit select values.
The order of bits here is important because some of
the flag setting conditional instructions employ a
bit field to populate the flags when a false condition
bypasses execution of the operation and we want to
be able to assign the flags register using the
supplied value. */
typedef enum FlagIdx
{
More AArch64 simulator improvements. * cpustate.c (aarch64_get_FP_half): New function. Read a vector register as a half precision floating point number. (aarch64_set_FP_half): New function. Similar, but for setting a half precision register. (aarch64_get_thread_id): New function. Returns the value of the CPU's TPIDR register. (aarch64_get_FPCR): New function. Returns the value of the CPU's floating point control register. (aarch64_set_FPCR): New function. Set the value of the CPU's FPCR register. * cpustate.h: Add prototypes for new functions. * sim-main.h (struct _sim_cpu): Add FPCR and tpidr fields. * memory.c: Use unaligned core access functions for all memory reads and writes. * simulator.c (HALT_NYI): Generate an error message if tracing will not tell the user why the simulator is halting. (HALT_UNREACHABLE): Delete. Delete (unneeded) uses of the macro. (INSTR): New time-saver macro. (fldrb_abs): New function. Loads an 8-bit value using a scaled offset. (fldrh_abs): New function. Likewise for 16-bit values. (do_vec_SSHL): Allow for negative shift values. (do_vec_USHL): Likewise. (do_vec_SHL): Correct computation of shift amount. (do_vec_SSHR_USHR): Correct decision of signed vs unsigned shifts and computation of shift value. (clz): New function. Counts leading zero bits. (do_vec_CLZ): New function. Implements CLZ (vector). (do_vec_MOV_element): Call do_vec_CLZ. (dexSimpleFPCondCompare): Implement. (do_FCVT_half_to_single): New function. Implements one of the FCVT operations. (do_FCVT_half_to_double): New function. Likewise. (do_FCVT_single_to_half): New function. Likewise. (do_FCVT_double_to_half): New function. Likewise. (dexSimpleFPDataProc1Source): Call new FCVT functions. (do_scalar_SHL): Handle negative shifts. (do_scalar_shift): Handle SSHR. (do_scalar_USHL): New function. (do_double_add): Simplify to just performing a double precision add operation. Move remaining code into... (do_scalar_vec): ... New function. (dexLoadUnsignedImmediate): Call new fldrb_abs and fldrh_abs functions. (system_get): Add support for TPIDR, CTR, FPCR, FPSR and CPSR registers. (system_set): New function. (do_MSR_immediate): New function. Stub for now. (do_MSR_reg): New function. Likewise. Partially implements MSR instruction. (do_SYS): New function. Stub for now, (dexSystem): Call new functions.
2016-03-23 18:37:30 +01:00
V_IDX = 0,
C_IDX = 1,
Z_IDX = 2,
N_IDX = 3
} FlagIdx;
typedef enum FlagMask
{
V = 1 << V_IDX,
C = 1 << C_IDX,
Z = 1 << Z_IDX,
N = 1 << N_IDX
} FlagMask;
#define CPSR_ALL_FLAGS (V | C | Z | N)
typedef uint32_t FlagsRegister;
/* FPSR register -- floating point status register
This register includes IDC, IXC, UFC, OFC, DZC, IOC and QC bits,
and the floating point N, Z, C, V bits but the latter are unused in
More AArch64 simulator improvements. * cpustate.c (aarch64_get_FP_half): New function. Read a vector register as a half precision floating point number. (aarch64_set_FP_half): New function. Similar, but for setting a half precision register. (aarch64_get_thread_id): New function. Returns the value of the CPU's TPIDR register. (aarch64_get_FPCR): New function. Returns the value of the CPU's floating point control register. (aarch64_set_FPCR): New function. Set the value of the CPU's FPCR register. * cpustate.h: Add prototypes for new functions. * sim-main.h (struct _sim_cpu): Add FPCR and tpidr fields. * memory.c: Use unaligned core access functions for all memory reads and writes. * simulator.c (HALT_NYI): Generate an error message if tracing will not tell the user why the simulator is halting. (HALT_UNREACHABLE): Delete. Delete (unneeded) uses of the macro. (INSTR): New time-saver macro. (fldrb_abs): New function. Loads an 8-bit value using a scaled offset. (fldrh_abs): New function. Likewise for 16-bit values. (do_vec_SSHL): Allow for negative shift values. (do_vec_USHL): Likewise. (do_vec_SHL): Correct computation of shift amount. (do_vec_SSHR_USHR): Correct decision of signed vs unsigned shifts and computation of shift value. (clz): New function. Counts leading zero bits. (do_vec_CLZ): New function. Implements CLZ (vector). (do_vec_MOV_element): Call do_vec_CLZ. (dexSimpleFPCondCompare): Implement. (do_FCVT_half_to_single): New function. Implements one of the FCVT operations. (do_FCVT_half_to_double): New function. Likewise. (do_FCVT_single_to_half): New function. Likewise. (do_FCVT_double_to_half): New function. Likewise. (dexSimpleFPDataProc1Source): Call new FCVT functions. (do_scalar_SHL): Handle negative shifts. (do_scalar_shift): Handle SSHR. (do_scalar_USHL): New function. (do_double_add): Simplify to just performing a double precision add operation. Move remaining code into... (do_scalar_vec): ... New function. (dexLoadUnsignedImmediate): Call new fldrb_abs and fldrh_abs functions. (system_get): Add support for TPIDR, CTR, FPCR, FPSR and CPSR registers. (system_set): New function. (do_MSR_immediate): New function. Stub for now. (do_MSR_reg): New function. Likewise. Partially implements MSR instruction. (do_SYS): New function. Stub for now, (dexSystem): Call new functions.
2016-03-23 18:37:30 +01:00
aarch64 mode. The sim ignores QC for now.
Bit positions are as per the ARMv7 FPSCR register
IDC : 7 ==> Input Denormal (cumulative exception bit)
IXC : 4 ==> Inexact
UFC : 3 ==> Underflow
OFC : 2 ==> Overflow
DZC : 1 ==> Division by Zero
IOC : 0 ==> Invalid Operation
The rounding mode is held in bits [23,22] defined as follows:
0b00 Round to Nearest (RN) mode
0b01 Round towards Plus Infinity (RP) mode
0b10 Round towards Minus Infinity (RM) mode
0b11 Round towards Zero (RZ) mode. */
/* Indices for bits in the FPSR register value. */
typedef enum FPSRIdx
{
IO_IDX = 0,
DZ_IDX = 1,
OF_IDX = 2,
UF_IDX = 3,
IX_IDX = 4,
ID_IDX = 7
} FPSRIdx;
/* Corresponding bits as numeric values. */
typedef enum FPSRMask
{
IO = (1 << IO_IDX),
DZ = (1 << DZ_IDX),
OF = (1 << OF_IDX),
UF = (1 << UF_IDX),
IX = (1 << IX_IDX),
ID = (1 << ID_IDX)
} FPSRMask;
#define FPSR_ALL_FPSRS (IO | DZ | OF | UF | IX | ID)
/* General Register access functions. */
extern uint64_t aarch64_get_reg_u64 (sim_cpu *, GReg, int);
extern int64_t aarch64_get_reg_s64 (sim_cpu *, GReg, int);
extern uint32_t aarch64_get_reg_u32 (sim_cpu *, GReg, int);
extern int32_t aarch64_get_reg_s32 (sim_cpu *, GReg, int);
extern uint32_t aarch64_get_reg_u16 (sim_cpu *, GReg, int);
extern int32_t aarch64_get_reg_s16 (sim_cpu *, GReg, int);
extern uint32_t aarch64_get_reg_u8 (sim_cpu *, GReg, int);
extern int32_t aarch64_get_reg_s8 (sim_cpu *, GReg, int);
extern void aarch64_set_reg_u64 (sim_cpu *, GReg, int, uint64_t);
extern void aarch64_set_reg_u32 (sim_cpu *, GReg, int, uint32_t);
extern void aarch64_set_reg_s64 (sim_cpu *, GReg, int, int64_t);
extern void aarch64_set_reg_s32 (sim_cpu *, GReg, int, int32_t);
/* FP Register access functions. */
More AArch64 simulator improvements. * cpustate.c (aarch64_get_FP_half): New function. Read a vector register as a half precision floating point number. (aarch64_set_FP_half): New function. Similar, but for setting a half precision register. (aarch64_get_thread_id): New function. Returns the value of the CPU's TPIDR register. (aarch64_get_FPCR): New function. Returns the value of the CPU's floating point control register. (aarch64_set_FPCR): New function. Set the value of the CPU's FPCR register. * cpustate.h: Add prototypes for new functions. * sim-main.h (struct _sim_cpu): Add FPCR and tpidr fields. * memory.c: Use unaligned core access functions for all memory reads and writes. * simulator.c (HALT_NYI): Generate an error message if tracing will not tell the user why the simulator is halting. (HALT_UNREACHABLE): Delete. Delete (unneeded) uses of the macro. (INSTR): New time-saver macro. (fldrb_abs): New function. Loads an 8-bit value using a scaled offset. (fldrh_abs): New function. Likewise for 16-bit values. (do_vec_SSHL): Allow for negative shift values. (do_vec_USHL): Likewise. (do_vec_SHL): Correct computation of shift amount. (do_vec_SSHR_USHR): Correct decision of signed vs unsigned shifts and computation of shift value. (clz): New function. Counts leading zero bits. (do_vec_CLZ): New function. Implements CLZ (vector). (do_vec_MOV_element): Call do_vec_CLZ. (dexSimpleFPCondCompare): Implement. (do_FCVT_half_to_single): New function. Implements one of the FCVT operations. (do_FCVT_half_to_double): New function. Likewise. (do_FCVT_single_to_half): New function. Likewise. (do_FCVT_double_to_half): New function. Likewise. (dexSimpleFPDataProc1Source): Call new FCVT functions. (do_scalar_SHL): Handle negative shifts. (do_scalar_shift): Handle SSHR. (do_scalar_USHL): New function. (do_double_add): Simplify to just performing a double precision add operation. Move remaining code into... (do_scalar_vec): ... New function. (dexLoadUnsignedImmediate): Call new fldrb_abs and fldrh_abs functions. (system_get): Add support for TPIDR, CTR, FPCR, FPSR and CPSR registers. (system_set): New function. (do_MSR_immediate): New function. Stub for now. (do_MSR_reg): New function. Likewise. Partially implements MSR instruction. (do_SYS): New function. Stub for now, (dexSystem): Call new functions.
2016-03-23 18:37:30 +01:00
extern float aarch64_get_FP_half (sim_cpu *, VReg);
extern float aarch64_get_FP_float (sim_cpu *, VReg);
extern double aarch64_get_FP_double (sim_cpu *, VReg);
extern void aarch64_get_FP_long_double (sim_cpu *, VReg, FRegister *);
More AArch64 simulator improvements. * cpustate.c (aarch64_get_FP_half): New function. Read a vector register as a half precision floating point number. (aarch64_set_FP_half): New function. Similar, but for setting a half precision register. (aarch64_get_thread_id): New function. Returns the value of the CPU's TPIDR register. (aarch64_get_FPCR): New function. Returns the value of the CPU's floating point control register. (aarch64_set_FPCR): New function. Set the value of the CPU's FPCR register. * cpustate.h: Add prototypes for new functions. * sim-main.h (struct _sim_cpu): Add FPCR and tpidr fields. * memory.c: Use unaligned core access functions for all memory reads and writes. * simulator.c (HALT_NYI): Generate an error message if tracing will not tell the user why the simulator is halting. (HALT_UNREACHABLE): Delete. Delete (unneeded) uses of the macro. (INSTR): New time-saver macro. (fldrb_abs): New function. Loads an 8-bit value using a scaled offset. (fldrh_abs): New function. Likewise for 16-bit values. (do_vec_SSHL): Allow for negative shift values. (do_vec_USHL): Likewise. (do_vec_SHL): Correct computation of shift amount. (do_vec_SSHR_USHR): Correct decision of signed vs unsigned shifts and computation of shift value. (clz): New function. Counts leading zero bits. (do_vec_CLZ): New function. Implements CLZ (vector). (do_vec_MOV_element): Call do_vec_CLZ. (dexSimpleFPCondCompare): Implement. (do_FCVT_half_to_single): New function. Implements one of the FCVT operations. (do_FCVT_half_to_double): New function. Likewise. (do_FCVT_single_to_half): New function. Likewise. (do_FCVT_double_to_half): New function. Likewise. (dexSimpleFPDataProc1Source): Call new FCVT functions. (do_scalar_SHL): Handle negative shifts. (do_scalar_shift): Handle SSHR. (do_scalar_USHL): New function. (do_double_add): Simplify to just performing a double precision add operation. Move remaining code into... (do_scalar_vec): ... New function. (dexLoadUnsignedImmediate): Call new fldrb_abs and fldrh_abs functions. (system_get): Add support for TPIDR, CTR, FPCR, FPSR and CPSR registers. (system_set): New function. (do_MSR_immediate): New function. Stub for now. (do_MSR_reg): New function. Likewise. Partially implements MSR instruction. (do_SYS): New function. Stub for now, (dexSystem): Call new functions.
2016-03-23 18:37:30 +01:00
extern void aarch64_set_FP_half (sim_cpu *, VReg, float);
extern void aarch64_set_FP_float (sim_cpu *, VReg, float);
extern void aarch64_set_FP_double (sim_cpu *, VReg, double);
extern void aarch64_set_FP_long_double (sim_cpu *, VReg, FRegister);
/* PC register accessors. */
extern uint64_t aarch64_get_PC (sim_cpu *);
extern uint64_t aarch64_get_next_PC (sim_cpu *);
extern void aarch64_set_next_PC (sim_cpu *, uint64_t);
extern void aarch64_set_next_PC_by_offset (sim_cpu *, int64_t);
extern void aarch64_update_PC (sim_cpu *);
extern void aarch64_save_LR (sim_cpu *);
/* Instruction accessor - implemented as a
macro as we do not need to annotate it. */
#define aarch64_get_instr(cpu) ((cpu)->instr)
/* Flag register accessors. */
extern uint32_t aarch64_get_CPSR (sim_cpu *);
extern void aarch64_set_CPSR (sim_cpu *, uint32_t);
extern uint32_t aarch64_get_CPSR_bits (sim_cpu *, uint32_t);
extern void aarch64_set_CPSR_bits (sim_cpu *, uint32_t, uint32_t);
extern uint32_t aarch64_test_CPSR_bit (sim_cpu *, FlagMask);
extern void aarch64_set_CPSR_bit (sim_cpu *, FlagMask);
extern void aarch64_clear_CPSR_bit (sim_cpu *, FlagMask);
extern void aarch64_set_FPSR (sim_cpu *, uint32_t);
extern uint32_t aarch64_get_FPSR (sim_cpu *);
extern void aarch64_set_FPSR_bits (sim_cpu *, uint32_t, uint32_t);
extern uint32_t aarch64_get_FPSR_bits (sim_cpu *, uint32_t);
extern int aarch64_test_FPSR_bit (sim_cpu *, FPSRMask);
/* Vector register accessors. */
extern uint64_t aarch64_get_vec_u64 (sim_cpu *, VReg, unsigned);
extern uint32_t aarch64_get_vec_u32 (sim_cpu *, VReg, unsigned);
extern uint16_t aarch64_get_vec_u16 (sim_cpu *, VReg, unsigned);
extern uint8_t aarch64_get_vec_u8 (sim_cpu *, VReg, unsigned);
extern void aarch64_set_vec_u64 (sim_cpu *, VReg, unsigned, uint64_t);
extern void aarch64_set_vec_u32 (sim_cpu *, VReg, unsigned, uint32_t);
extern void aarch64_set_vec_u16 (sim_cpu *, VReg, unsigned, uint16_t);
extern void aarch64_set_vec_u8 (sim_cpu *, VReg, unsigned, uint8_t);
extern int64_t aarch64_get_vec_s64 (sim_cpu *, VReg, unsigned);
extern int32_t aarch64_get_vec_s32 (sim_cpu *, VReg, unsigned);
extern int16_t aarch64_get_vec_s16 (sim_cpu *, VReg, unsigned);
extern int8_t aarch64_get_vec_s8 (sim_cpu *, VReg, unsigned);
extern void aarch64_set_vec_s64 (sim_cpu *, VReg, unsigned, int64_t);
extern void aarch64_set_vec_s32 (sim_cpu *, VReg, unsigned, int32_t);
extern void aarch64_set_vec_s16 (sim_cpu *, VReg, unsigned, int16_t);
extern void aarch64_set_vec_s8 (sim_cpu *, VReg, unsigned, int8_t);
extern float aarch64_get_vec_float (sim_cpu *, VReg, unsigned);
extern double aarch64_get_vec_double (sim_cpu *, VReg, unsigned);
extern void aarch64_set_vec_float (sim_cpu *, VReg, unsigned, float);
extern void aarch64_set_vec_double (sim_cpu *, VReg, unsigned, double);
More AArch64 simulator improvements. * cpustate.c (aarch64_get_FP_half): New function. Read a vector register as a half precision floating point number. (aarch64_set_FP_half): New function. Similar, but for setting a half precision register. (aarch64_get_thread_id): New function. Returns the value of the CPU's TPIDR register. (aarch64_get_FPCR): New function. Returns the value of the CPU's floating point control register. (aarch64_set_FPCR): New function. Set the value of the CPU's FPCR register. * cpustate.h: Add prototypes for new functions. * sim-main.h (struct _sim_cpu): Add FPCR and tpidr fields. * memory.c: Use unaligned core access functions for all memory reads and writes. * simulator.c (HALT_NYI): Generate an error message if tracing will not tell the user why the simulator is halting. (HALT_UNREACHABLE): Delete. Delete (unneeded) uses of the macro. (INSTR): New time-saver macro. (fldrb_abs): New function. Loads an 8-bit value using a scaled offset. (fldrh_abs): New function. Likewise for 16-bit values. (do_vec_SSHL): Allow for negative shift values. (do_vec_USHL): Likewise. (do_vec_SHL): Correct computation of shift amount. (do_vec_SSHR_USHR): Correct decision of signed vs unsigned shifts and computation of shift value. (clz): New function. Counts leading zero bits. (do_vec_CLZ): New function. Implements CLZ (vector). (do_vec_MOV_element): Call do_vec_CLZ. (dexSimpleFPCondCompare): Implement. (do_FCVT_half_to_single): New function. Implements one of the FCVT operations. (do_FCVT_half_to_double): New function. Likewise. (do_FCVT_single_to_half): New function. Likewise. (do_FCVT_double_to_half): New function. Likewise. (dexSimpleFPDataProc1Source): Call new FCVT functions. (do_scalar_SHL): Handle negative shifts. (do_scalar_shift): Handle SSHR. (do_scalar_USHL): New function. (do_double_add): Simplify to just performing a double precision add operation. Move remaining code into... (do_scalar_vec): ... New function. (dexLoadUnsignedImmediate): Call new fldrb_abs and fldrh_abs functions. (system_get): Add support for TPIDR, CTR, FPCR, FPSR and CPSR registers. (system_set): New function. (do_MSR_immediate): New function. Stub for now. (do_MSR_reg): New function. Likewise. Partially implements MSR instruction. (do_SYS): New function. Stub for now, (dexSystem): Call new functions.
2016-03-23 18:37:30 +01:00
/* System register accessors. */
extern uint64_t aarch64_get_thread_id (sim_cpu *);
extern uint32_t aarch64_get_FPCR (sim_cpu *);
extern void aarch64_set_FPCR (sim_cpu *, uint32_t);
#endif /* _CPU_STATE_H */