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[/] [openrisc/] [trunk/] [gnu-src/] [gdb-6.8/] [sim/] [ppc/] [corefile.h] - Blame information for rev 471

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1 24 jeremybenn
/*  This file is part of the program psim.
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    Copyright (C) 1994-1996, Andrew Cagney <cagney@highland.com.au>
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    This program is free software; you can redistribute it and/or modify
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    it under the terms of the GNU General Public License as published by
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    the Free Software Foundation; either version 2 of the License, or
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    (at your option) any later version.
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    This program is distributed in the hope that it will be useful,
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    but WITHOUT ANY WARRANTY; without even the implied warranty of
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    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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    GNU General Public License for more details.
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    You should have received a copy of the GNU General Public License
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    along with this program; if not, write to the Free Software
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    Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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    */
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#ifndef _CORE_H_
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#define _CORE_H_
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/* Introduction:
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   The core device, positioned at the top of the device tree that
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   models the architecure being simulated, acts as an interface
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   between the processor engines and the modeled devices.
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   On the one side the processor engines issue read and write requests
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   to the core (each request further catagorised as being for an
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   instruction or data subunit) while on the other side, the core is
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   receiving address configuration and DMA requests from child
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   devices.
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   In the below a synopsis of the core object and device in PSIM is
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   given, details of the object can be found in the files
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   <<corefile.h>> and <<corefile.c>>.
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   */
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/* Core::
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   At the heart of the interface between devices and processor engines
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   is a single core object.  This object, in turn, has two children:
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   o    a core device which exists in the device tree and provides
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        an interface to the core object to child devices.
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   o    a set of access maps which provide an efficient
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        interface to the core object for the processor engines.
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   */
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/* basic types */
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typedef struct _core core;
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typedef struct _core_map core_map;
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/* constructor */
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INLINE_CORE\
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(core *) core_create
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(void);
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INLINE_CORE\
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(core *) core_from_device
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(device *root);
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INLINE_CORE\
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(void) core_init
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(core *memory);
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/* Core map management:::
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   The core ojbect manages two different types of address maps:
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   o    raw-memory - the address range can be implemented using
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        a simple byte array.  No device needs to be notifed of
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        any accesses to the specified memory range.
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   o    callback - Any access to the specified address range
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        should be passed on to the associated device.  That device
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        can in turn resolve the access - handling or aborting or
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        restarting it.
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   For callback maps it is possible to further order them by
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   specifiying specifying a callback level (eg callback + 1).
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   When the core is resolving an access it searches each of the maps
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   in order.  First raw-memory and then callback maps (in assending
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   order of level).  This search order makes it possible for latter
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   maps to overlap earlier ones.  For instance, a device that wants to
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   be notified of all accesses that are not covered by raw-memory maps
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   could attach its self with an address range of the entire address
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   space.
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   In addition, each attached address map as an associated set of
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   access attributes (readable, writeable, executable) which are
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   verified as part of resolving each access.
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   */
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INLINE_CORE\
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(void) core_attach
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(core *map,
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 attach_type attach,
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 int address_space,
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 access_type access,
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 unsigned_word addr,
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 unsigned nr_bytes, /* host limited */
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 device *device); /*callback/default*/
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/* Bugs:::
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   At present there is no method for removing address maps.  That will
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   be implemented in a future release.
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   The operation of mapping between an address and its destination
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   device or memory array is currently implemented using a simple
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   linked list.  The posibility of replacing this list with a more
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   powerfull data structure exists.
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   */
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/* Device::
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   The device that corresponds to the core object is described
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   separatly in the devices section.
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   */
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/* Access maps::
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   Providing an interface between the processor engines and the core
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   object are the access maps (core_map).  Three access maps are
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   provided, one for each of the possible access requests that can be
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   generated by a processor.
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   o    read
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   o    write
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   o    execute
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   A processor being able to request a read (or write) or write
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   operation to any of the maps.  Those operations can either be
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   highly efficient (by specifying a specific transfer size) or
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   generic (specifying a parameterized number of bytes).
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   Internally the core object takes the request, determines the
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   approperiate attached address space that it should handle it passes
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   it on.
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   */
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INLINE_CORE\
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(core_map *) core_readable
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(core *memory);
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INLINE_CORE\
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(core_map *) core_writeable
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(core *memory);
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INLINE_CORE\
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(core_map *) core_executable
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(core *memory);
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/* Variable sized read/write
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   Transfer (zero) a variable size block of data between the host and
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   target (possibly byte swapping it).  Should any problems occure,
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   the number of bytes actually transfered is returned. */
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INLINE_CORE\
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(unsigned) core_map_read_buffer
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(core_map *map,
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 void *buffer,
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 unsigned_word addr,
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 unsigned nr_bytes);
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INLINE_CORE\
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(unsigned) core_map_write_buffer
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(core_map *map,
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 const void *buffer,
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 unsigned_word addr,
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 unsigned nr_bytes);
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/* Fixed sized read/write
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   Transfer a fixed amout of memory between the host and target.  The
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   memory always being translated and the operation always aborting
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   should a problem occure */
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#define DECLARE_CORE_WRITE_N(N) \
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INLINE_CORE\
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(void) core_map_write_##N \
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(core_map *map, \
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 unsigned_word addr, \
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 unsigned_##N val, \
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 cpu *processor, \
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 unsigned_word cia);
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DECLARE_CORE_WRITE_N(1)
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DECLARE_CORE_WRITE_N(2)
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DECLARE_CORE_WRITE_N(4)
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DECLARE_CORE_WRITE_N(8)
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DECLARE_CORE_WRITE_N(word)
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#define DECLARE_CORE_READ_N(N) \
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INLINE_CORE\
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(unsigned_##N) core_map_read_##N \
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(core_map *map, \
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 unsigned_word addr, \
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 cpu *processor, \
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 unsigned_word cia);
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DECLARE_CORE_READ_N(1)
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DECLARE_CORE_READ_N(2)
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DECLARE_CORE_READ_N(4)
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DECLARE_CORE_READ_N(8)
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DECLARE_CORE_READ_N(word)
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#endif

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