sim/ppc/hw_shm.c - third_party/binutils-gdb - Git at Google

 /*  This file is part of the program psim.

     Copyright (C) 1997,2008, Joel Sherrill <joel@OARcorp.com>

     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 _HW_SHM_C_
 #define _HW_SHM_C_

 #include "device_table.h"

 #ifdef HAVE_STRING_H
 #include <string.h>
 #else
 #ifdef HAVE_STRINGS_H
 #include <strings.h>
 #endif
 #endif

 #include <sys/ipc.h>
 #include <sys/shm.h>


 /* DEVICE


    shm - map unix shared memory into psim address space


    DESCRIPTION


    This device implements an area of memory which is mapped into UNIX
    shared memory.


    PROPERTIES


    reg = <address> <size> (required)

    Determine where the memory lives in the parents address space.
    The SHM area is assumed to be of the same length.

    key = <integer> (required)

    This is the key of the unix shared memory area.

    EXAMPLES


    Enable tracing of the shm:

    |  bash$ psim -t shm-device \


    Configure a 512 kilobytes of UNIX shared memory with the key 0x12345678
    mapped into psim address space at 0x0c000000.

    |  -o '/shm@0x0c000000/reg 0x0c000000 0x80000' \
    |  -o '/shm@0x0c000000/key 0x12345678' \

    sim/ppc/run -o '/#address-cells 1' \
          -o '/shm@0x0c000000/reg 0x0c000000 0x80000' \
          -o '/shm@0x0c000000/key 0x12345678' ../psim-hello/hello

    BUGS

    None known.

    */

 typedef struct _hw_shm_device {
   unsigned_word physical_address;
   char *shm_address;
   unsigned sizeof_memory;
   key_t key;
   int id;
 } hw_shm_device;

 static void
 hw_shm_init_data(device *me)
 {
   hw_shm_device *shm = (hw_shm_device*)device_data(me);
   const device_unit *d;
   reg_property_spec reg;
   int i;

   /* Obtain the Key Value */
   if (device_find_property(me, "key") == NULL)
     error("shm_init_data() required key property is missing\n");

   shm->key = (key_t) device_find_integer_property(me, "key");
   DTRACE(shm, ("shm key (0x%08x)\n", shm->key) );

   /* Figure out where this memory is in address space and how long it is */
   if ( !device_find_reg_array_property(me, "reg", 0, &reg) )
     error("hw_shm_init_data() no address registered\n");

   /* Determine the address and length being as paranoid as possible */
   shm->physical_address = 0xffffffff;
   shm->sizeof_memory = 0xffffffff;

   for ( i=0 ; i<reg.address.nr_cells; i++ ) {
     if (reg.address.cells[0] == 0 && reg.size.cells[0] == 0)
       continue;

     if ( shm->physical_address != 0xffffffff )
       device_error(me, "Only single celled address ranges supported\n");

     shm->physical_address = reg.address.cells[i];
     DTRACE(shm, ("shm physical_address=0x%x\n", shm->physical_address));

     shm->sizeof_memory = reg.size.cells[i];
     DTRACE(shm, ("shm length=0x%x\n", shm->sizeof_memory));
   }

   if ( shm->physical_address == 0xffffffff )
     device_error(me, "Address not specified\n" );

   if ( shm->sizeof_memory == 0xffffffff )
     device_error(me, "Length not specified\n" );

   /* Now actually attach to or create the shared memory area */
   shm->id = shmget(shm->key, shm->sizeof_memory, IPC_CREAT | 0660);
   if (shm->id == -1)
     error("hw_shm_init_data() shmget failed\n");

   shm->shm_address = shmat(shm->id, (char *)0, SHM_RND);
   if (shm->shm_address == (void *)-1)
     error("hw_shm_init_data() shmat failed\n");
 }

 static void
 hw_shm_attach_address_callback(device *me,
 				attach_type attach,
 				int space,
 				unsigned_word addr,
 				unsigned nr_bytes,
 				access_type access,
 				device *client) /*callback/default*/
 {
   hw_shm_device *shm = (hw_shm_device*)device_data(me);

   if (space != 0)
     error("shm_attach_address_callback() invalid address space\n");

   if (nr_bytes == 0)
     error("shm_attach_address_callback() invalid size\n");
 }


 static unsigned
 hw_shm_io_read_buffer(device *me,
 			 void *dest,
 			 int space,
 			 unsigned_word addr,
 			 unsigned nr_bytes,
 			 cpu *processor,
 			 unsigned_word cia)
 {
   hw_shm_device *shm = (hw_shm_device*)device_data(me);

   /* do we need to worry about out of range addresses? */

   DTRACE(shm, ("read %p %x %x %x\n", \
      shm->shm_address, shm->physical_address, addr, nr_bytes) );

   memcpy(dest, &shm->shm_address[addr - shm->physical_address], nr_bytes);
   return nr_bytes;
 }


 static unsigned
 hw_shm_io_write_buffer(device *me,
 			  const void *source,
 			  int space,
 			  unsigned_word addr,
 			  unsigned nr_bytes,
 			  cpu *processor,
 			  unsigned_word cia)
 {
   hw_shm_device *shm = (hw_shm_device*)device_data(me);

   /* do we need to worry about out of range addresses? */

   DTRACE(shm, ("write %p %x %x %x\n", \
      shm->shm_address, shm->physical_address, addr, nr_bytes) );

   memcpy(&shm->shm_address[addr - shm->physical_address], source, nr_bytes);
   return nr_bytes;
 }

 static device_callbacks const hw_shm_callbacks = {
   { generic_device_init_address, hw_shm_init_data },
   { hw_shm_attach_address_callback, }, /* address */
   { hw_shm_io_read_buffer,
     hw_shm_io_write_buffer }, /* IO */
   { NULL, }, /* DMA */
   { NULL, }, /* interrupt */
   { NULL, }, /* unit */
   NULL,
 };

 static void *
 hw_shm_create(const char *name,
 		 const device_unit *unit_address,
 		 const char *args)
 {
   hw_shm_device *shm = ZALLOC(hw_shm_device);
   return shm;
 }


 const device_descriptor hw_shm_device_descriptor[] = {
   { "shm", hw_shm_create, &hw_shm_callbacks },
   { NULL },
 };

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

	Copyright (C) 1997,2008, Joel Sherrill <joel@OARcorp.com>

	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 _HW_SHM_C_
	#define _HW_SHM_C_

	#include "device_table.h"

	#ifdef HAVE_STRING_H
	#include <string.h>
	#else
	#ifdef HAVE_STRINGS_H
	#include <strings.h>
	#endif
	#endif

	#include <sys/ipc.h>
	#include <sys/shm.h>


	/* DEVICE


	shm - map unix shared memory into psim address space


	DESCRIPTION


	This device implements an area of memory which is mapped into UNIX
	shared memory.


	PROPERTIES


	reg = <address> <size> (required)

	Determine where the memory lives in the parents address space.
	The SHM area is assumed to be of the same length.

	key = <integer> (required)

	This is the key of the unix shared memory area.

	EXAMPLES


	Enable tracing of the shm:

	\| bash$ psim -t shm-device \


	Configure a 512 kilobytes of UNIX shared memory with the key 0x12345678
	mapped into psim address space at 0x0c000000.

	\| -o '/shm@0x0c000000/reg 0x0c000000 0x80000' \
	\| -o '/shm@0x0c000000/key 0x12345678' \

	sim/ppc/run -o '/#address-cells 1' \
	-o '/shm@0x0c000000/reg 0x0c000000 0x80000' \
	-o '/shm@0x0c000000/key 0x12345678' ../psim-hello/hello

	BUGS

	None known.

	*/

	typedef struct _hw_shm_device {
	unsigned_word physical_address;
	char *shm_address;
	unsigned sizeof_memory;
	key_t key;
	int id;
	} hw_shm_device;

	static void
	hw_shm_init_data(device *me)
	{
	hw_shm_device shm = (hw_shm_device)device_data(me);
	const device_unit *d;
	reg_property_spec reg;
	int i;

	/* Obtain the Key Value */
	if (device_find_property(me, "key") == NULL)
	error("shm_init_data() required key property is missing\n");

	shm->key = (key_t) device_find_integer_property(me, "key");
	DTRACE(shm, ("shm key (0x%08x)\n", shm->key) );

	/* Figure out where this memory is in address space and how long it is */
	if ( !device_find_reg_array_property(me, "reg", 0, &reg) )
	error("hw_shm_init_data() no address registered\n");

	/* Determine the address and length being as paranoid as possible */
	shm->physical_address = 0xffffffff;
	shm->sizeof_memory = 0xffffffff;

	for ( i=0 ; i<reg.address.nr_cells; i++ ) {
	if (reg.address.cells[0] == 0 && reg.size.cells[0] == 0)
	continue;

	if ( shm->physical_address != 0xffffffff )
	device_error(me, "Only single celled address ranges supported\n");

	shm->physical_address = reg.address.cells[i];
	DTRACE(shm, ("shm physical_address=0x%x\n", shm->physical_address));

	shm->sizeof_memory = reg.size.cells[i];
	DTRACE(shm, ("shm length=0x%x\n", shm->sizeof_memory));
	}

	if ( shm->physical_address == 0xffffffff )
	device_error(me, "Address not specified\n" );

	if ( shm->sizeof_memory == 0xffffffff )
	device_error(me, "Length not specified\n" );

	/* Now actually attach to or create the shared memory area */
	shm->id = shmget(shm->key, shm->sizeof_memory, IPC_CREAT \| 0660);
	if (shm->id == -1)
	error("hw_shm_init_data() shmget failed\n");

	shm->shm_address = shmat(shm->id, (char *)0, SHM_RND);
	if (shm->shm_address == (void *)-1)
	error("hw_shm_init_data() shmat failed\n");
	}

	static void
	hw_shm_attach_address_callback(device *me,
	attach_type attach,
	int space,
	unsigned_word addr,
	unsigned nr_bytes,
	access_type access,
	device client) /callback/default*/
	{
	hw_shm_device shm = (hw_shm_device)device_data(me);

	if (space != 0)
	error("shm_attach_address_callback() invalid address space\n");

	if (nr_bytes == 0)
	error("shm_attach_address_callback() invalid size\n");
	}


	static unsigned
	hw_shm_io_read_buffer(device *me,
	void *dest,
	int space,
	unsigned_word addr,
	unsigned nr_bytes,
	cpu *processor,
	unsigned_word cia)
	{
	hw_shm_device shm = (hw_shm_device)device_data(me);

	/* do we need to worry about out of range addresses? */

	DTRACE(shm, ("read %p %x %x %x\n", \
	shm->shm_address, shm->physical_address, addr, nr_bytes) );

	memcpy(dest, &shm->shm_address[addr - shm->physical_address], nr_bytes);
	return nr_bytes;
	}


	static unsigned
	hw_shm_io_write_buffer(device *me,
	const void *source,
	int space,
	unsigned_word addr,
	unsigned nr_bytes,
	cpu *processor,
	unsigned_word cia)
	{
	hw_shm_device shm = (hw_shm_device)device_data(me);

	/* do we need to worry about out of range addresses? */

	DTRACE(shm, ("write %p %x %x %x\n", \
	shm->shm_address, shm->physical_address, addr, nr_bytes) );

	memcpy(&shm->shm_address[addr - shm->physical_address], source, nr_bytes);
	return nr_bytes;
	}

	static device_callbacks const hw_shm_callbacks = {
	{ generic_device_init_address, hw_shm_init_data },
	{ hw_shm_attach_address_callback, }, /* address */
	{ hw_shm_io_read_buffer,
	hw_shm_io_write_buffer }, /* IO */
	{ NULL, }, /* DMA */
	{ NULL, }, /* interrupt */
	{ NULL, }, /* unit */
	NULL,
	};

	static void *
	hw_shm_create(const char *name,
	const device_unit *unit_address,
	const char *args)
	{
	hw_shm_device *shm = ZALLOC(hw_shm_device);
	return shm;
	}



	const device_descriptor hw_shm_device_descriptor[] = {
	{ "shm", hw_shm_create, &hw_shm_callbacks },
	{ NULL },
	};

	#endif /* _HW_SHM_C_ */