sim/rx/cpu.h - binutils-gdb - Git at Google

 /* cpu.h --- declarations for the RX core.

 Copyright (C) 2005-2021 Free Software Foundation, Inc.
 Contributed by Red Hat, Inc.

 This file is part of the GNU simulators.

 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/>.  */

 #include <stdint.h>
 #include <setjmp.h>

 extern int verbose;
 extern int trace;
 extern int enable_counting;

 typedef uint8_t QI;
 typedef uint16_t HI;
 typedef uint32_t SI;
 typedef uint64_t DI;

 extern int rx_in_gdb;
 extern int rx_big_endian;

 typedef struct
 {
   SI r[16];

   SI r_psw;
   SI r_pc;
   SI r_usp;
   SI r_fpsw;
   SI r__reserved_cr_4;
   SI r__reserved_cr_5;
   SI r__reserved_cr_6;
   SI r__reserved_cr_7;

   SI r_bpsw;
   SI r_bpc;
   SI r_isp;
   SI r_fintv;
   SI r_intb;
   SI r__reserved_cr_13;
   SI r__reserved_cr_14;
   SI r__reserved_cr_15;

   SI r__reserved_cr_16;
   SI r__reserved_cr_17;
   SI r__reserved_cr_18;
   SI r__reserved_cr_19;
   SI r__reserved_cr_20;
   SI r__reserved_cr_21;
   SI r__reserved_cr_22;
   SI r__reserved_cr_23;

   SI r__reserved_cr_24;
   SI r__reserved_cr_25;
   SI r__reserved_cr_26;
   SI r__reserved_cr_27;
   SI r__reserved_cr_28;
   SI r__reserved_cr_29;
   SI r__reserved_cr_30;
   SI r__reserved_cr_31;

   SI r_temp;

   DI r_acc;

 #ifdef CYCLE_ACCURATE
   /* If set, RTS/RTSD take 2 fewer cycles.  */
   char fast_return;
   SI link_register;

   unsigned long long cycle_count;
   /* Bits saying what kind of memory operands the previous insn had.  */
   int m2m;
   /* Target register for load. */
   int rt;
 #endif
 } regs_type;

 #define M2M_SRC		0x01
 #define M2M_DST		0x02
 #define M2M_BOTH	0x03

 #define sp	0
 #define psw	16
 #define	pc	17
 #define usp	18
 #define fpsw	19

 #define bpsw	24
 #define bpc	25
 #define isp	26
 #define fintv	27
 #define intb	28

 #define r_temp_idx 48
 #define acc64	49
 #define acchi	50
 #define accmi	51
 #define acclo	52

 extern regs_type regs;

 #define FLAGBIT_C	0x00000001
 #define FLAGBIT_Z	0x00000002
 #define FLAGBIT_S	0x00000004
 #define FLAGBIT_O	0x00000008
 #define FLAGBIT_I	0x00010000
 #define FLAGBIT_U	0x00020000
 #define FLAGBIT_PM	0x00100000
 #define FLAGBITS_IPL	0x0f000000
 #define FLAGSHIFT_IPL	24

 #define FPSWBITS_RM	0x00000003
 #define FPSWBITS_CV	0x00000004 /* invalid operation */
 #define FPSWBITS_CO	0x00000008 /* overflow */
 #define FPSWBITS_CZ	0x00000010 /* divide-by-zero */
 #define FPSWBITS_CU	0x00000020 /* underflow */
 #define FPSWBITS_CX	0x00000040 /* inexact */
 #define FPSWBITS_CE	0x00000080 /* unimplemented processing */
 #define FPSWBITS_CMASK	0x000000fc /* all the above */
 #define FPSWBITS_DN	0x00000100
 #define FPSW_CESH	8
 #define FPSWBITS_EV	0x00000400
 #define FPSWBITS_EO	0x00000800
 #define FPSWBITS_EZ	0x00001000
 #define FPSWBITS_EU	0x00002000
 #define FPSWBITS_EX	0x00004000
 #define FPSW_EFSH	16
 #define FPSW_CFSH	24
 #define FPSWBITS_FV	0x04000000
 #define FPSWBITS_FO	0x08000000
 #define FPSWBITS_FZ	0x10000000
 #define FPSWBITS_FU	0x20000000
 #define FPSWBITS_FX	0x40000000
 #define FPSWBITS_FSUM	0x80000000
 #define FPSWBITS_FMASK	0x7c000000
 #define FPSWBITS_CLEAR	0xffffff03 /* masked at start of any FP opcode */

 #define FPRM_NEAREST	0
 #define FPRM_ZERO	1
 #define FPRM_PINF	2
 #define FPRM_NINF	3

 extern char *reg_names[];

 extern int rx_flagmask;
 extern int rx_flagand;
 extern int rx_flagor;

 extern unsigned int b2mask[];
 extern unsigned int b2signbit[];
 extern int b2maxsigned[];
 extern int b2minsigned[];

 void init_regs (void);
 void stack_heap_stats (void);
 void set_pointer_width (int bytes);
 unsigned int get_reg (int id);
 unsigned long long get_reg64 (int id);
 void put_reg (int id, unsigned int value);
 void put_reg64 (int id, unsigned long long value);

 void set_flags (int mask, int newbits);
 void set_oszc (long long value, int bytes, int c);
 void set_szc (long long value, int bytes, int c);
 void set_osz (long long value, int bytes);
 void set_sz (long long value, int bytes);
 void set_zc (int z, int c);
 void set_c (int c);

 const char *bits (int v, int b);

 int condition_true (int cond_id);

 #define FLAG(f) ((regs.r_psw & f) ? 1 : 0)
 #define FLAG_C	FLAG(FLAGBIT_C)
 #define FLAG_D	FLAG(FLAGBIT_D)
 #define FLAG_Z	FLAG(FLAGBIT_Z)
 #define FLAG_S	FLAG(FLAGBIT_S)
 #define FLAG_B	FLAG(FLAGBIT_B)
 #define FLAG_O	FLAG(FLAGBIT_O)
 #define FLAG_I	FLAG(FLAGBIT_I)
 #define FLAG_U	FLAG(FLAGBIT_U)
 #define FLAG_PM	FLAG(FLAGBIT_PM)

 /* Instruction step return codes.
    Suppose one of the decode_* functions below returns a value R:
    - If RX_STEPPED (R), then the single-step completed normally.
    - If RX_HIT_BREAK (R), then the program hit a breakpoint.
    - If RX_EXITED (R), then the program has done an 'exit' system
      call, and the exit code is RX_EXIT_STATUS (R).
    - If RX_STOPPED (R), then a signal (number RX_STOP_SIG (R)) was
      generated.

    For building step return codes:
    - RX_MAKE_STEPPED is the return code for finishing a normal step.
    - RX_MAKE_HIT_BREAK is the return code for hitting a breakpoint.
    - RX_MAKE_EXITED (C) is the return code for exiting with status C.
    - RX_MAKE_STOPPED (S) is the return code for stopping on signal S.  */
 #define RX_MAKE_STEPPED()   (1)
 #define RX_MAKE_HIT_BREAK() (2)
 #define RX_MAKE_EXITED(c)   (((int) (c) << 8) + 3)
 #define RX_MAKE_STOPPED(s)  (((int) (s) << 8) + 4)

 #define RX_STEPPED(r)       ((r) == RX_MAKE_STEPPED ())
 #define RX_HIT_BREAK(r)     ((r) == RX_MAKE_HIT_BREAK ())
 #define RX_EXITED(r)        (((r) & 0xff) == 3)
 #define RX_EXIT_STATUS(r)   ((r) >> 8)
 #define RX_STOPPED(r)       (((r) & 0xff) == 4)
 #define RX_STOP_SIG(r)      ((r) >> 8)

 /* The step result for the current step.  Global to allow
    communication between the stepping function and the system
    calls.  */
 extern int step_result;

 extern unsigned int rx_cycles;

 /* Used to detect heap/stack collisions.  */
 extern unsigned int heaptop;
 extern unsigned int heapbottom;

 extern int decode_opcode (void);
 extern void reset_decoder (void);
 extern void reset_pipeline_stats (void);
 extern void halt_pipeline_stats (void);
 extern void pipeline_stats (void);

 extern void trace_register_changes (void);
 extern void generate_access_exception (void);
 extern jmp_buf decode_jmp_buf;
	/* cpu.h --- declarations for the RX core.

	Copyright (C) 2005-2021 Free Software Foundation, Inc.
	Contributed by Red Hat, Inc.

	This file is part of the GNU simulators.

	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/>. */

	#include <stdint.h>
	#include <setjmp.h>

	extern int verbose;
	extern int trace;
	extern int enable_counting;

	typedef uint8_t QI;
	typedef uint16_t HI;
	typedef uint32_t SI;
	typedef uint64_t DI;

	extern int rx_in_gdb;
	extern int rx_big_endian;

	typedef struct
	{
	SI r[16];

	SI r_psw;
	SI r_pc;
	SI r_usp;
	SI r_fpsw;
	SI r__reserved_cr_4;
	SI r__reserved_cr_5;
	SI r__reserved_cr_6;
	SI r__reserved_cr_7;

	SI r_bpsw;
	SI r_bpc;
	SI r_isp;
	SI r_fintv;
	SI r_intb;
	SI r__reserved_cr_13;
	SI r__reserved_cr_14;
	SI r__reserved_cr_15;

	SI r__reserved_cr_16;
	SI r__reserved_cr_17;
	SI r__reserved_cr_18;
	SI r__reserved_cr_19;
	SI r__reserved_cr_20;
	SI r__reserved_cr_21;
	SI r__reserved_cr_22;
	SI r__reserved_cr_23;

	SI r__reserved_cr_24;
	SI r__reserved_cr_25;
	SI r__reserved_cr_26;
	SI r__reserved_cr_27;
	SI r__reserved_cr_28;
	SI r__reserved_cr_29;
	SI r__reserved_cr_30;
	SI r__reserved_cr_31;

	SI r_temp;

	DI r_acc;

	#ifdef CYCLE_ACCURATE
	/* If set, RTS/RTSD take 2 fewer cycles. */
	char fast_return;
	SI link_register;

	unsigned long long cycle_count;
	/* Bits saying what kind of memory operands the previous insn had. */
	int m2m;
	/* Target register for load. */
	int rt;
	#endif
	} regs_type;

	#define M2M_SRC 0x01
	#define M2M_DST 0x02
	#define M2M_BOTH 0x03

	#define sp 0
	#define psw 16
	#define pc 17
	#define usp 18
	#define fpsw 19

	#define bpsw 24
	#define bpc 25
	#define isp 26
	#define fintv 27
	#define intb 28

	#define r_temp_idx 48
	#define acc64 49
	#define acchi 50
	#define accmi 51
	#define acclo 52

	extern regs_type regs;

	#define FLAGBIT_C 0x00000001
	#define FLAGBIT_Z 0x00000002
	#define FLAGBIT_S 0x00000004
	#define FLAGBIT_O 0x00000008
	#define FLAGBIT_I 0x00010000
	#define FLAGBIT_U 0x00020000
	#define FLAGBIT_PM 0x00100000
	#define FLAGBITS_IPL 0x0f000000
	#define FLAGSHIFT_IPL 24

	#define FPSWBITS_RM 0x00000003
	#define FPSWBITS_CV 0x00000004 /* invalid operation */
	#define FPSWBITS_CO 0x00000008 /* overflow */
	#define FPSWBITS_CZ 0x00000010 /* divide-by-zero */
	#define FPSWBITS_CU 0x00000020 /* underflow */
	#define FPSWBITS_CX 0x00000040 /* inexact */
	#define FPSWBITS_CE 0x00000080 /* unimplemented processing */
	#define FPSWBITS_CMASK 0x000000fc /* all the above */
	#define FPSWBITS_DN 0x00000100
	#define FPSW_CESH 8
	#define FPSWBITS_EV 0x00000400
	#define FPSWBITS_EO 0x00000800
	#define FPSWBITS_EZ 0x00001000
	#define FPSWBITS_EU 0x00002000
	#define FPSWBITS_EX 0x00004000
	#define FPSW_EFSH 16
	#define FPSW_CFSH 24
	#define FPSWBITS_FV 0x04000000
	#define FPSWBITS_FO 0x08000000
	#define FPSWBITS_FZ 0x10000000
	#define FPSWBITS_FU 0x20000000
	#define FPSWBITS_FX 0x40000000
	#define FPSWBITS_FSUM 0x80000000
	#define FPSWBITS_FMASK 0x7c000000
	#define FPSWBITS_CLEAR 0xffffff03 /* masked at start of any FP opcode */

	#define FPRM_NEAREST 0
	#define FPRM_ZERO 1
	#define FPRM_PINF 2
	#define FPRM_NINF 3

	extern char *reg_names[];

	extern int rx_flagmask;
	extern int rx_flagand;
	extern int rx_flagor;

	extern unsigned int b2mask[];
	extern unsigned int b2signbit[];
	extern int b2maxsigned[];
	extern int b2minsigned[];

	void init_regs (void);
	void stack_heap_stats (void);
	void set_pointer_width (int bytes);
	unsigned int get_reg (int id);
	unsigned long long get_reg64 (int id);
	void put_reg (int id, unsigned int value);
	void put_reg64 (int id, unsigned long long value);

	void set_flags (int mask, int newbits);
	void set_oszc (long long value, int bytes, int c);
	void set_szc (long long value, int bytes, int c);
	void set_osz (long long value, int bytes);
	void set_sz (long long value, int bytes);
	void set_zc (int z, int c);
	void set_c (int c);

	const char *bits (int v, int b);

	int condition_true (int cond_id);

	#define FLAG(f) ((regs.r_psw & f) ? 1 : 0)
	#define FLAG_C FLAG(FLAGBIT_C)
	#define FLAG_D FLAG(FLAGBIT_D)
	#define FLAG_Z FLAG(FLAGBIT_Z)
	#define FLAG_S FLAG(FLAGBIT_S)
	#define FLAG_B FLAG(FLAGBIT_B)
	#define FLAG_O FLAG(FLAGBIT_O)
	#define FLAG_I FLAG(FLAGBIT_I)
	#define FLAG_U FLAG(FLAGBIT_U)
	#define FLAG_PM FLAG(FLAGBIT_PM)

	/* Instruction step return codes.
	Suppose one of the decode_* functions below returns a value R:
	- If RX_STEPPED (R), then the single-step completed normally.
	- If RX_HIT_BREAK (R), then the program hit a breakpoint.
	- If RX_EXITED (R), then the program has done an 'exit' system
	call, and the exit code is RX_EXIT_STATUS (R).
	- If RX_STOPPED (R), then a signal (number RX_STOP_SIG (R)) was
	generated.

	For building step return codes:
	- RX_MAKE_STEPPED is the return code for finishing a normal step.
	- RX_MAKE_HIT_BREAK is the return code for hitting a breakpoint.
	- RX_MAKE_EXITED (C) is the return code for exiting with status C.
	- RX_MAKE_STOPPED (S) is the return code for stopping on signal S. */
	#define RX_MAKE_STEPPED() (1)
	#define RX_MAKE_HIT_BREAK() (2)
	#define RX_MAKE_EXITED(c) (((int) (c) << 8) + 3)
	#define RX_MAKE_STOPPED(s) (((int) (s) << 8) + 4)

	#define RX_STEPPED(r) ((r) == RX_MAKE_STEPPED ())
	#define RX_HIT_BREAK(r) ((r) == RX_MAKE_HIT_BREAK ())
	#define RX_EXITED(r) (((r) & 0xff) == 3)
	#define RX_EXIT_STATUS(r) ((r) >> 8)
	#define RX_STOPPED(r) (((r) & 0xff) == 4)
	#define RX_STOP_SIG(r) ((r) >> 8)

	/* The step result for the current step. Global to allow
	communication between the stepping function and the system
	calls. */
	extern int step_result;

	extern unsigned int rx_cycles;

	/* Used to detect heap/stack collisions. */
	extern unsigned int heaptop;
	extern unsigned int heapbottom;

	extern int decode_opcode (void);
	extern void reset_decoder (void);
	extern void reset_pipeline_stats (void);
	extern void halt_pipeline_stats (void);
	extern void pipeline_stats (void);

	extern void trace_register_changes (void);
	extern void generate_access_exception (void);
	extern jmp_buf decode_jmp_buf;