sim/ppc/psim.h - third_party/binutils-gdb - Git at Google

 /*  This file is part of the program psim.

     Copyright (C) 1994-1996, Andrew Cagney <cagney@highland.com.au>

     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 _PSIM_H_
 #define _PSIM_H_

 #include "basics.h"

 #include "gdb/remote-sim.h"

 /* the system object */
 /* typedef struct _psim psim; */
 /* typedef struct _device device; */

 /* when the `system' stops, find out why.  FIXME - at this point this
    is really a bit puzzling.  After all, how can there be a status
    when there several processors involved */

 typedef struct _psim_status {
   int cpu_nr;
   stop_reason reason;
   int signal;
   unsigned_word program_counter;
 } psim_status;


 /* create an initial device tree and then populate it using
    information obtained from either the command line or a file */

 extern device *psim_tree
 (void);

 extern char **psim_options
 (device *root,
  char **argv,
  SIM_OPEN_KIND kind);

 extern void psim_command
 (device *root,
  char **argv);


 extern void psim_merge_device_file
 (device *root,
  const char *file_name);

 extern void psim_usage
 (int verbose, int help, SIM_OPEN_KIND kind);


 /* create a new simulator from the device tree */

 extern psim *psim_create
 (const char *file_name,
  device *root);


 /* Given the created simulator (re) initialize it */

 extern void psim_init
 (psim *system);

 extern void psim_stack
 (psim *system,
  char **argv,
  char **envp);


 /* Run/stop the system */

 extern void psim_step
 (psim *system);

 extern void psim_run
 (psim *system);

 extern void psim_restart
 (psim *system,
  int cpu_nr);

 extern void psim_set_halt_and_restart
 (psim *system,
  void *halt_jmp_buf,
  void *restart_jmp_buf);

 extern void psim_clear_halt_and_restart
 (psim *system);

 extern void psim_stop
 (psim *system);

 extern void psim_halt
 (psim *system,
  int cpu_nr,
  stop_reason reason,
  int signal);

 extern int psim_last_cpu
 (psim *system);

 extern int psim_nr_cpus
 (psim *system);


 extern psim_status psim_get_status
 (psim *system);


 /* reveal the internals of the simulation.  Grant access to the
    processor (cpu) device tree (device) and events (event_queue). */

 extern cpu *psim_cpu
 (psim *system,
  int cpu_nr);

 extern device *psim_device
 (psim *system,
  const char *path);

 extern event_queue *psim_event_queue
 (psim *system);


 /* Manipulate the state (registers or memory) of a processor within
    the system.  In the case of memory, the read/write is performed
    using the specified processors address translation tables.

    Where applicable, WHICH_CPU == -1 indicates all processors and
    WHICH_CPU == <nr_cpus> indicates the `current' processor.

    The register functions return the size of the register, or 0 if the
    register's name is not recognized.  */

 extern int psim_read_register
 (psim *system,
  int which_cpu,
  void *host_ordered_buf,
  const char reg[],
  transfer_mode mode);

 extern int psim_write_register
 (psim *system,
  int which_cpu,
  const void *buf,
  const char reg[],
  transfer_mode mode);

 extern unsigned psim_read_memory
 (psim *system,
  int which_cpu,
  void *buf,
  unsigned_word vaddr,
  unsigned len);

 extern unsigned psim_write_memory
 (psim *system,
  int which_cpu,
  const void *buf,
  unsigned_word vaddr,
  unsigned len,
  int violate_read_only_section);

 extern void psim_print_info
 (psim *system,
  int verbose);

 #endif /* _PSIM_H_ */
	/* This file is part of the program psim.

	Copyright (C) 1994-1996, Andrew Cagney <cagney@highland.com.au>

	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 _PSIM_H_
	#define _PSIM_H_

	#include "basics.h"

	#include "gdb/remote-sim.h"

	/* the system object */
	/* typedef struct _psim psim; */
	/* typedef struct _device device; */

	/* when the `system' stops, find out why. FIXME - at this point this
	is really a bit puzzling. After all, how can there be a status
	when there several processors involved */

	typedef struct _psim_status {
	int cpu_nr;
	stop_reason reason;
	int signal;
	unsigned_word program_counter;
	} psim_status;


	/* create an initial device tree and then populate it using
	information obtained from either the command line or a file */

	extern device *psim_tree
	(void);

	extern char **psim_options
	(device *root,
	char **argv,
	SIM_OPEN_KIND kind);

	extern void psim_command
	(device *root,
	char **argv);


	extern void psim_merge_device_file
	(device *root,
	const char *file_name);

	extern void psim_usage
	(int verbose, int help, SIM_OPEN_KIND kind);


	/* create a new simulator from the device tree */

	extern psim *psim_create
	(const char *file_name,
	device *root);


	/* Given the created simulator (re) initialize it */

	extern void psim_init
	(psim *system);

	extern void psim_stack
	(psim *system,
	char **argv,
	char **envp);


	/* Run/stop the system */

	extern void psim_step
	(psim *system);

	extern void psim_run
	(psim *system);

	extern void psim_restart
	(psim *system,
	int cpu_nr);

	extern void psim_set_halt_and_restart
	(psim *system,
	void *halt_jmp_buf,
	void *restart_jmp_buf);

	extern void psim_clear_halt_and_restart
	(psim *system);

	extern void psim_stop
	(psim *system);

	extern void psim_halt
	(psim *system,
	int cpu_nr,
	stop_reason reason,
	int signal);

	extern int psim_last_cpu
	(psim *system);

	extern int psim_nr_cpus
	(psim *system);


	extern psim_status psim_get_status
	(psim *system);


	/* reveal the internals of the simulation. Grant access to the
	processor (cpu) device tree (device) and events (event_queue). */

	extern cpu *psim_cpu
	(psim *system,
	int cpu_nr);

	extern device *psim_device
	(psim *system,
	const char *path);

	extern event_queue *psim_event_queue
	(psim *system);



	/* Manipulate the state (registers or memory) of a processor within
	the system. In the case of memory, the read/write is performed
	using the specified processors address translation tables.

	Where applicable, WHICH_CPU == -1 indicates all processors and
	WHICH_CPU == <nr_cpus> indicates the `current' processor.

	The register functions return the size of the register, or 0 if the
	register's name is not recognized. */

	extern int psim_read_register
	(psim *system,
	int which_cpu,
	void *host_ordered_buf,
	const char reg[],
	transfer_mode mode);

	extern int psim_write_register
	(psim *system,
	int which_cpu,
	const void *buf,
	const char reg[],
	transfer_mode mode);

	extern unsigned psim_read_memory
	(psim *system,
	int which_cpu,
	void *buf,
	unsigned_word vaddr,
	unsigned len);

	extern unsigned psim_write_memory
	(psim *system,
	int which_cpu,
	const void *buf,
	unsigned_word vaddr,
	unsigned len,
	int violate_read_only_section);

	extern void psim_print_info
	(psim *system,
	int verbose);

	#endif /* _PSIM_H_ */