ceac4ecf4c
2014-08-27 Joel Sherrill <joel.sherrill@oarcorp.com> * basics.h, device.c, device.h, hw_htab.c, hw_memory.c: Correct spelling in comments.
540 lines
16 KiB
C
540 lines
16 KiB
C
/* This file is part of the program psim.
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Copyright (C) 1994-1997, 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 3 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, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef _HW_MEMORY_C_
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#define _HW_MEMORY_C_
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#ifndef STATIC_INLINE_HW_MEMORY
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#define STATIC_INLINE_HW_MEMORY STATIC_INLINE
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#endif
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#include <stdlib.h>
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#include "device_table.h"
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/* DEVICE
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memory - description of system memory
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DESCRIPTION
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This device describes the size and location of the banks of
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physical memory within the simulation.
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In addition, this device supports the "claim" and "release" methods
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that can be used by OpenBoot client programs to manage the
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allocation of physical memory.
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PROPERTIES
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reg = { <address> <size> } (required)
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Each pair specify one bank of memory.
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available = { <address> <size> } (automatic)
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Each pair specifies a block of memory that is currently unallocated.
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BUGS
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OpenFirmware doesn't make it clear if, when releasing memory the
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same address + size pair as was used during the claim should be
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specified.
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It is assumed that #size-cells and #address-cells for the parent
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node of this device are both one i.e. an address or size can be
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specified using a single memory cell (word).
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Significant work will be required before the <<memory>> device can
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support 64bit addresses (#address-cells equal two).
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*/
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typedef struct _memory_reg_spec {
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unsigned_cell base;
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unsigned_cell size;
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} memory_reg_spec;
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typedef struct _hw_memory_chunk hw_memory_chunk;
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struct _hw_memory_chunk {
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unsigned_word address;
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unsigned_word size;
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int available;
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hw_memory_chunk *next;
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};
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typedef struct _hw_memory_device {
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hw_memory_chunk *heap;
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} hw_memory_device;
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static void *
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hw_memory_create(const char *name,
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const device_unit *unit_address,
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const char *args)
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{
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hw_memory_device *hw_memory = ZALLOC(hw_memory_device);
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return hw_memory;
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}
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static void
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hw_memory_set_available(device *me,
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hw_memory_device *hw_memory)
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{
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hw_memory_chunk *chunk = NULL;
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memory_reg_spec *available = NULL;
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int nr_available = 0;
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int curr = 0;
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int sizeof_available = 0;
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/* determine the nr of available chunks */
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chunk = hw_memory->heap;
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nr_available = 0;
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while (chunk != NULL) {
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if (chunk->available)
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nr_available += 1;
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ASSERT(chunk->next == NULL
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|| chunk->address < chunk->next->address);
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ASSERT(chunk->next == NULL
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|| chunk->address + chunk->size == chunk->next->address);
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chunk = chunk->next;
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}
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/* now create the available struct */
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ASSERT(nr_available > 0);
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sizeof_available = sizeof(memory_reg_spec) * nr_available;
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available = zalloc(sizeof_available);
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chunk = hw_memory->heap;
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curr = 0;
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while (chunk != NULL) {
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if (chunk->available) {
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available[curr].base = H2BE_cell(chunk->address);
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available[curr].size = H2BE_cell(chunk->size);
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curr += 1;
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}
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chunk = chunk->next;
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}
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/* update */
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device_set_array_property(me, "available", available, sizeof_available);
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free(available);
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}
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static void
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hw_memory_init_address(device *me)
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{
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hw_memory_device *hw_memory = (hw_memory_device*)device_data(me);
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/* free up any previous structures */
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{
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hw_memory_chunk *curr_chunk = hw_memory->heap;
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hw_memory->heap = NULL;
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while (curr_chunk != NULL) {
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hw_memory_chunk *dead_chunk = curr_chunk;
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curr_chunk = dead_chunk->next;
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dead_chunk->next = NULL;
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free(dead_chunk);
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}
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}
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/* attach memory regions according to the "reg" property */
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{
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int reg_nr;
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reg_property_spec reg;
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for (reg_nr = 0;
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device_find_reg_array_property(me, "reg", reg_nr, ®);
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reg_nr++) {
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int i;
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/* check that the entry meets restrictions */
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for (i = 0; i < reg.address.nr_cells - 1; i++)
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if (reg.address.cells[i] != 0)
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device_error(me, "Only single celled addresses supported");
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for (i = 0; i < reg.size.nr_cells - 1; i++)
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if (reg.size.cells[i] != 0)
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device_error(me, "Only single celled sizes supported");
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/* attach the range */
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device_attach_address(device_parent(me),
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attach_raw_memory,
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0 /*address space*/,
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reg.address.cells[reg.address.nr_cells - 1],
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reg.size.cells[reg.size.nr_cells - 1],
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access_read_write_exec,
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me);
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}
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}
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/* create the initial `available memory' data structure */
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if (device_find_property(me, "available") != NULL) {
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hw_memory_chunk **curr_chunk = &hw_memory->heap;
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int cell_nr;
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unsigned_cell dummy;
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int nr_cells = device_find_integer_array_property(me, "available", 0, &dummy);
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if ((nr_cells % 2) != 0)
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device_error(me, "property \"available\" invalid - contains an odd number of cells");
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for (cell_nr = 0;
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cell_nr < nr_cells;
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cell_nr += 2) {
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hw_memory_chunk *new_chunk = ZALLOC(hw_memory_chunk);
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device_find_integer_array_property(me, "available", cell_nr,
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&new_chunk->address);
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device_find_integer_array_property(me, "available", cell_nr + 1,
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&new_chunk->size);
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new_chunk->available = 1;
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*curr_chunk = new_chunk;
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curr_chunk = &new_chunk->next;
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}
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}
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else {
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hw_memory_chunk **curr_chunk = &hw_memory->heap;
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int reg_nr;
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reg_property_spec reg;
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for (reg_nr = 0;
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device_find_reg_array_property(me, "reg", reg_nr, ®);
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reg_nr++) {
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hw_memory_chunk *new_chunk;
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new_chunk = ZALLOC(hw_memory_chunk);
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new_chunk->address = reg.address.cells[reg.address.nr_cells - 1];
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new_chunk->size = reg.size.cells[reg.size.nr_cells - 1];
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new_chunk->available = 1;
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*curr_chunk = new_chunk;
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curr_chunk = &new_chunk->next;
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}
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}
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/* initialize the alloc property for this device */
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hw_memory_set_available(me, hw_memory);
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}
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static void
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hw_memory_instance_delete(device_instance *instance)
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{
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return;
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}
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static int
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hw_memory_instance_claim(device_instance *instance,
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int n_stack_args,
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unsigned_cell stack_args[/*n_stack_args*/],
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int n_stack_returns,
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unsigned_cell stack_returns[/*n_stack_returns*/])
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{
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hw_memory_device *hw_memory = device_instance_data(instance);
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device *me = device_instance_device(instance);
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int stackp = 0;
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unsigned_word alignment;
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unsigned_cell size;
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unsigned_cell address;
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hw_memory_chunk *chunk = NULL;
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/* get the alignment from the stack */
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if (n_stack_args < stackp + 1)
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device_error(me, "claim - incorrect number of arguments (alignment missing)");
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alignment = stack_args[stackp];
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stackp++;
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/* get the size from the stack */
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{
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int i;
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int nr_cells = device_nr_size_cells(device_parent(me));
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if (n_stack_args < stackp + nr_cells)
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device_error(me, "claim - incorrect number of arguments (size missing)");
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for (i = 0; i < nr_cells - 1; i++) {
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if (stack_args[stackp] != 0)
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device_error(me, "claim - multi-cell sizes not supported");
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stackp++;
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}
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size = stack_args[stackp];
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stackp++;
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}
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/* get the address from the stack */
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{
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int nr_cells = device_nr_address_cells(device_parent(me));
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if (alignment != 0) {
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if (n_stack_args != stackp) {
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if (n_stack_args == stackp + nr_cells)
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DTRACE(memory, ("claim - extra address argument ignored\n"));
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else
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device_error(me, "claim - incorrect number of arguments (optional addr)");
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}
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address = 0;
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}
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else {
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int i;
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if (n_stack_args != stackp + nr_cells)
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device_error(me, "claim - incorrect number of arguments (addr missing)");
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for (i = 0; i < nr_cells - 1; i++) {
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if (stack_args[stackp] != 0)
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device_error(me, "claim - multi-cell addresses not supported");
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stackp++;
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}
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address = stack_args[stackp];
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}
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}
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/* check that there is space for the result */
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if (n_stack_returns != 0
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&& n_stack_returns != device_nr_address_cells(device_parent(me)))
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device_error(me, "claim - invalid number of return arguments");
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/* find a chunk candidate, either according to address or alignment */
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if (alignment == 0) {
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chunk = hw_memory->heap;
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while (chunk != NULL) {
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if ((address + size) <= (chunk->address + chunk->size))
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break;
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chunk = chunk->next;
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}
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if (chunk == NULL || address < chunk->address || !chunk->available)
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device_error(me, "failed to allocate %ld bytes at 0x%lx",
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(unsigned long)size, (unsigned long)address);
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DTRACE(memory, ("claim - address=0x%lx size=0x%lx\n",
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(unsigned long)address,
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(unsigned long)size));
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}
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else {
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/* adjust the alignment so that it is a power of two */
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unsigned_word align_mask = 1;
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while (align_mask < alignment && align_mask != 0)
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align_mask <<= 1;
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if (align_mask == 0)
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device_error(me, "alignment 0x%lx is to large", (unsigned long)alignment);
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align_mask -= 1;
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/* now find an aligned chunk that fits */
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chunk = hw_memory->heap;
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while (chunk != NULL) {
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address = ((chunk->address + align_mask) & ~align_mask);
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if ((chunk->available)
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&& (chunk->address + chunk->size >= address + size))
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break;
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chunk = chunk->next;
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}
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if (chunk == NULL)
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device_error(me, "failed to allocate %ld bytes with alignment %ld",
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(unsigned long)size, (unsigned long)alignment);
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DTRACE(memory, ("claim - size=0x%lx alignment=%ld (0x%lx), address=0x%lx\n",
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(unsigned long)size,
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(unsigned long)alignment,
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(unsigned long)alignment,
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(unsigned long)address));
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}
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/* break off a bit before this chunk if needed */
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ASSERT(address >= chunk->address);
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if (address > chunk->address) {
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hw_memory_chunk *next_chunk = ZALLOC(hw_memory_chunk);
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/* insert a new chunk */
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next_chunk->next = chunk->next;
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chunk->next = next_chunk;
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/* adjust the address/size */
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next_chunk->address = address;
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next_chunk->size = chunk->address + chunk->size - next_chunk->address;
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next_chunk->available = 1;
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chunk->size = next_chunk->address - chunk->address;
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/* make this new chunk the one to allocate */
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chunk = next_chunk;
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}
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ASSERT(address == chunk->address);
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/* break off a bit after this chunk if needed */
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ASSERT(address + size <= chunk->address + chunk->size);
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if (address + size < chunk->address + chunk->size) {
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hw_memory_chunk *next_chunk = ZALLOC(hw_memory_chunk);
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/* insert it in to the list */
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next_chunk->next = chunk->next;
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chunk->next = next_chunk;
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/* adjust the address/size */
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next_chunk->address = address + size;
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next_chunk->size = chunk->address + chunk->size - next_chunk->address;
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next_chunk->available = 1;
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chunk->size = next_chunk->address - chunk->address;
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}
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ASSERT(address + size == chunk->address + chunk->size);
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/* now allocate/return it */
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chunk->available = 0;
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hw_memory_set_available(device_instance_device(instance), hw_memory);
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if (n_stack_returns > 0) {
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int i;
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for (i = 0; i < n_stack_returns - 1; i++)
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stack_returns[i] = 0;
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stack_returns[n_stack_returns - 1] = address;
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}
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return 0;
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}
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static int
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hw_memory_instance_release(device_instance *instance,
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int n_stack_args,
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unsigned_cell stack_args[/*n_stack_args*/],
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int n_stack_returns,
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unsigned_cell stack_returns[/*n_stack_returns*/])
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{
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hw_memory_device *hw_memory = device_instance_data(instance);
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device *me = device_instance_device(instance);
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unsigned_word length;
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unsigned_word address;
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int stackp = 0;
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hw_memory_chunk *chunk;
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/* get the length from the stack */
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{
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int i;
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int nr_cells = device_nr_size_cells(device_parent(me));
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if (n_stack_args < stackp + nr_cells)
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device_error(me, "release - incorrect number of arguments (length missing)");
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for (i = 0; i < nr_cells - 1; i++) {
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if (stack_args[stackp] != 0)
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device_error(me, "release - multi-cell length not supported");
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stackp++;
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}
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length = stack_args[stackp];
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stackp++;
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}
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/* get the address from the stack */
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{
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int i;
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int nr_cells = device_nr_address_cells(device_parent(me));
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if (n_stack_args != stackp + nr_cells)
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device_error(me, "release - incorrect number of arguments (addr missing)");
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for (i = 0; i < nr_cells - 1; i++) {
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if (stack_args[stackp] != 0)
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device_error(me, "release - multi-cell addresses not supported");
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stackp++;
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}
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address = stack_args[stackp];
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}
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/* returns ok */
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if (n_stack_returns != 0)
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device_error(me, "release - nonzero number of results");
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/* try to free the corresponding memory chunk */
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chunk = hw_memory->heap;
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while (chunk != NULL) {
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if (chunk->address == address
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&& chunk->size == length) {
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/* an exact match */
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if (chunk->available)
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device_error(me, "memory chunk 0x%lx (size 0x%lx) already available",
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(unsigned long)address,
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(unsigned long)length);
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else {
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/* free this chunk */
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DTRACE(memory, ("release - address=0x%lx, length=0x%lx\n",
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(unsigned long) address,
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(unsigned long) length));
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chunk->available = 1;
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break;
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}
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}
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else if (chunk->address >= address
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&& chunk->address + chunk->size <= address + length) {
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/* a sub region */
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if (!chunk->available) {
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DTRACE(memory, ("release - address=0x%lx, size=0x%lx within region 0x%lx length 0x%lx\n",
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(unsigned long) chunk->address,
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(unsigned long) chunk->size,
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(unsigned long) address,
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(unsigned long) length));
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chunk->available = 1;
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}
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}
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chunk = chunk->next;
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}
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if (chunk == NULL) {
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printf_filtered("warning: released chunks within region 0x%lx..0x%lx\n",
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(unsigned long)address,
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(unsigned long)(address + length - 1));
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}
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/* check for the chance to merge two adjacent available memory chunks */
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chunk = hw_memory->heap;
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while (chunk != NULL) {
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if (chunk->available
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&& chunk->next != NULL && chunk->next->available) {
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/* adjacent */
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hw_memory_chunk *delete = chunk->next;
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ASSERT(chunk->address + chunk->size == delete->address);
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chunk->size += delete->size;
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chunk->next = delete->next;
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free(delete);
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}
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else {
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chunk = chunk->next;
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}
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}
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/* update the corresponding property */
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hw_memory_set_available(device_instance_device(instance), hw_memory);
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return 0;
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}
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static device_instance_methods hw_memory_instance_methods[] = {
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{ "claim", hw_memory_instance_claim },
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{ "release", hw_memory_instance_release },
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{ NULL, },
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};
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static device_instance_callbacks const hw_memory_instance_callbacks = {
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hw_memory_instance_delete,
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NULL /*read*/, NULL /*write*/, NULL /*seek*/,
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hw_memory_instance_methods
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};
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static device_instance *
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hw_memory_create_instance(device *me,
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const char *path,
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const char *args)
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{
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return device_create_instance_from(me, NULL,
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device_data(me), /* nothing better */
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path, args,
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&hw_memory_instance_callbacks);
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}
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static device_callbacks const hw_memory_callbacks = {
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{ hw_memory_init_address, },
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{ NULL, }, /* address */
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|
{ NULL, }, /* IO */
|
|
{ NULL, }, /* DMA */
|
|
{ NULL, }, /* interrupt */
|
|
{ NULL, }, /* unit */
|
|
hw_memory_create_instance,
|
|
};
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|
|
|
const device_descriptor hw_memory_device_descriptor[] = {
|
|
{ "memory", hw_memory_create, &hw_memory_callbacks },
|
|
{ NULL },
|
|
};
|
|
|
|
#endif /* _HW_MEMORY_C_ */
|