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341 lines
11 KiB
C
341 lines
11 KiB
C
/* This file is part of the program psim.
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Copyright (C) 1994-1995, 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 _DEVICES_H_
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#define _DEVICES_H_
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#ifndef INLINE_DEVICES
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#define INLINE_DEVICES
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#endif
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#ifndef STATIC_DEVICES
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#define STATIC_DEVICES
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#endif
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/* forward declaration of types */
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/* typedef struct _device device; -- in devices.h */
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/* Address access attributes that can be attached to a devices address
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range */
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typedef enum _access_type {
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access_invalid = 0,
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access_read = 1,
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access_write = 2,
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access_read_write = 3,
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access_exec = 4,
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access_read_exec = 5,
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access_write_exec = 6,
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access_read_write_exec = 7,
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} access_type;
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/* Address attachement types */
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typedef enum _attach_type {
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attach_invalid,
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attach_callback,
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attach_default,
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attach_raw_memory,
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} attach_type;
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/* Operators on devices: */
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/* Initialization:
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A device is made fully functional in two stages.
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1. It is created. A device is created _before_ it is entered into
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the device tree. During creation any permenant structures needed
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by the device should be created/initialized.
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2. It is initialized. Before a simulation run, each device in the
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device tree is initialized in prefix order. As part of this
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initialization, a device should (re)attach its self to its parent
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as needed.
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*/
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typedef void (device_init_callback)
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(const device *me,
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psim *system);
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/* Data transfers:
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A device may permit the reading/writing (IO) of its registers in
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one or more address spaces. For instance, a PCI device may have
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config registers in its config space and control registers in both
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the io and memory spaces of a PCI bus.
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Similarly, a device may initiate a data transfer (DMA) by passing
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such a request up to its parent.
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Init:
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As part of its initialization (not creation) and possibly also as a
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consequence of IO a device may attach its self to one or more of
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the address spaces of its parent device.
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For instance, a PCI device, during initialization would attach its
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config registers (space=0?, base=0, nr_bytes=64) to its parent PCI
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bridge. Later, due to a write to this config space, the same
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device may in turn find it necessary to also attach its self to
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it's parent's `memory' or `io' space.
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To perform these operations, a device will call upon its parent
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using either device_attach_address or device_detach_address.
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* Any address specified is according to what the device expects to
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see.
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* Any detach operation must exactly match a previous attach.
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* included with the attach or detach is the devices name, the
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parent may use this as part of determining how to map map between a
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child's address + space and its own.
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* at any time, at most one device can have a default mapping
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registered.
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IO:
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A device receives requests to perform reads/writes to its registers
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or memory either A. from a processor or B. from a parent device.
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The device may then in turn either A. resolve the IO request
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locally by processing the data or trigering an exception or
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B. re-mapping the access onto one of its local address spaces and
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then in turn passing that on to one of its children.
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* Any address passed is relative to the local device. Eg for PCI
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config registers, the address would (normally) be in the range of 0
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to 63.
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* Any exception situtation triggered by an IO operation (processor
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!= NULL) is handled in one of the following ways: 1. Machine check
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(and similar): issued immediatly by restarting the cpu; 2. External
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exception: issue delayed (using events.h) until the current
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instruction execution cycle is completed; 3. Slave device (and
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similar): the need for the interrupt is passed on to the devices
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parent (which being an interrupt control unit will in turn take one
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of the actions described here); 4. Forget it.
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* Any exception situtation trigered by a non IO operation
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(processor == NULL) is handled buy returning 0.
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* Transfers of size <= 8 and of a power of 2 *must* be correctly
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aligned and should be treated as a `single cycle' transfer.
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DMA:
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A device initiates a DMA transfer by calling its parent with the
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request. At the top level (if not done earlier) this is reflected
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back down the tree as io read/writes to the target device.
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This function is subject to change ...
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*/
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typedef void (device_config_address_callback)
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(const device *me,
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const char *name,
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attach_type type,
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int address_space,
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unsigned_word addr,
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unsigned nr_bytes,
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access_type access,
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const device *who); /*callback/default*/
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typedef unsigned (device_io_read_buffer_callback)
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(const device *me,
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void *dest,
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int address_space,
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unsigned_word addr,
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unsigned nr_bytes,
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cpu *processor,
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unsigned_word cia);
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typedef unsigned (device_io_write_buffer_callback)
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(const device *me,
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const void *source,
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int address_space,
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unsigned_word addr,
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unsigned nr_bytes,
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cpu *processor,
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unsigned_word cia);
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typedef unsigned (device_dma_read_buffer_callback)
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(const device *me,
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void *dest,
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int address_space,
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unsigned_word addr,
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unsigned nr_bytes);
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typedef unsigned (device_dma_write_buffer_callback)
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(const device *me,
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const void *source,
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int address_space,
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unsigned_word addr,
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unsigned nr_bytes,
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int violate_read_only_section);
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/* Interrupts:
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As mentioned above. Instead of handling an interrupt directly, a
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device may instead pass the need to interrupt on to its parent.
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Init:
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Before passing interrupts up to is parent, a device must first
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attach its interrupt lines to the parent device. To do this, the
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device uses the parents attach/detach calls.
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Interrupts:
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A child notifies a parent of a change in an interrupt lines status
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using the interrupt call. Similarly, a parent may notify a child
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of any `interrupt ack' sequence using the interrupt_ack call.
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*/
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typedef void (device_config_interrupt_callback)
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(const device *me,
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const device *who,
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int interrupt_line,
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const char *name);
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typedef void (device_interrupt_ack_callback)
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(const device *me,
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int interrupt_line,
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int interrupt_status);
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typedef void (device_interrupt_callback)
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(const device *me,
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const device *who,
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int interrupt_line,
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int interrupt_status,
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cpu *processor,
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unsigned_word cia);
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/* IOCTL:
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Very simply, a catch all for any thing that turns up that until now
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either hasn't been thought of or doesn't justify an extra function. */
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typedef void (device_ioctl_callback)
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(const device *me,
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psim *system,
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cpu *processor,
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unsigned_word cia,
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...);
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/* the callbacks */
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typedef struct _device_callbacks {
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/* initialization */
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device_init_callback *init;
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/* address/data config - from child */
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device_config_address_callback *attach_address;
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device_config_address_callback *detach_address;
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/* address/data transfer - to child */
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device_io_read_buffer_callback *io_read_buffer;
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device_io_write_buffer_callback *io_write_buffer;
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/* address/data transfer - from child */
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device_dma_read_buffer_callback *dma_read_buffer;
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device_dma_write_buffer_callback *dma_write_buffer;
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/* interrupt config - from child */
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device_config_interrupt_callback *attach_interrupt;
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device_config_interrupt_callback *detach_interrupt;
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/* interrupt transfer - from child */
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device_interrupt_callback *interrupt;
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/* interrupt transfer - to child */
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device_interrupt_ack_callback *interrupt_ack;
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/* back door to anything we've forgot */
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device_ioctl_callback *ioctl;
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} device_callbacks;
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/* A device */
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struct _device {
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const char *name; /* eg rom@0x1234, 0x400 */
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void *data; /* device specific data */
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const device_callbacks *callback;
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const device *parent;
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};
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/* Create a new device, finding it in the builtin device table */
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INLINE_DEVICES const device *device_create
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(const char *name,
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const device *parent);
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/* create a new device using the parameterized data */
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INLINE_DEVICES const device *device_create_from
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(const char *name,
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void *data,
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const device_callbacks *callback,
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const device *parent);
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/* Unimplemented call back functions. These abort the simulation */
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INLINE_DEVICES device_init_callback unimp_device_init;
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INLINE_DEVICES device_config_address_callback unimp_device_attach_address;
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INLINE_DEVICES device_config_address_callback unimp_device_detach_address;
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INLINE_DEVICES device_io_read_buffer_callback unimp_device_io_read_buffer;
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INLINE_DEVICES device_io_write_buffer_callback unimp_device_io_write_buffer;
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INLINE_DEVICES device_dma_read_buffer_callback unimp_device_dma_read_buffer;
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INLINE_DEVICES device_dma_write_buffer_callback unimp_device_dma_write_buffer;
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INLINE_DEVICES device_config_interrupt_callback unimp_device_attach_interrupt;
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INLINE_DEVICES device_config_interrupt_callback unimp_device_detach_interrupt;
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INLINE_DEVICES device_interrupt_callback unimp_device_interrupt;
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INLINE_DEVICES device_interrupt_ack_callback unimp_device_interrupt_ack;
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STATIC_DEVICES device_ioctl_callback unimp_device_ioctl;
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/* Pass through and ignore callback functions. A call going towards
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the root device are passed on up, local calls are ignored and call
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downs abort */
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INLINE_DEVICES device_init_callback ignore_device_init;
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INLINE_DEVICES device_config_address_callback pass_device_attach_address;
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INLINE_DEVICES device_config_address_callback pass_device_detach_address;
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INLINE_DEVICES device_dma_read_buffer_callback pass_device_dma_read_buffer;
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INLINE_DEVICES device_dma_write_buffer_callback pass_device_dma_write_buffer;
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INLINE_DEVICES device_config_interrupt_callback pass_device_attach_interrupt;
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INLINE_DEVICES device_config_interrupt_callback pass_device_detach_interrupt;
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INLINE_DEVICES device_interrupt_callback pass_device_interrupt;
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INLINE_DEVICES const device_callbacks *passthrough_device_callbacks
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(void);
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#endif /* _DEVICES_H_ */
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