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coreboot-kgpe-d16/src/lib/bootmem.c
Julius Werner 7e0dea6317 symbols.h: Add macro to define memlayout region symbols 
When <symbols.h> was first introduced, it only declared a handful of
regions and we didn't expect that too many architectures and platforms
would need to add their own later. However, our amount of platforms has
greatly expanded since, and with them the need for more special memory
regions. The amount of code duplication is starting to get unsightly,
and platforms keep defining their own <soc/symbols.h> files that need
this as well.

This patch adds another macro to cut down the definition boilerplate.
Unfortunately, macros cannot define other macros when they're called, so
referring to region sizes as _name_size doesn't work anymore. This patch
replaces the scheme with REGION_SIZE(name).

Not touching the regions in the x86-specific <arch/symbols.h> yet since
they don't follow the standard _region/_eregion naming scheme. They can
be converted later if desired.

Change-Id: I44727d77d1de75882c72a94f29bd7e2c27741dd8
Signed-off-by: Julius Werner <jwerner@chromium.org>
Reviewed-on: https://review.coreboot.org/c/31539
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Aaron Durbin <adurbin@chromium.org>
2019-02-22 06:44:02 +00:00

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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2003-2004 Eric Biederman
* Copyright (C) 2005-2010 coresystems GmbH
* Copyright (C) 2014 Google Inc.
*
* 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; version 2 of the License.
*
* 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.
*/
#include <console/console.h>
#include <bootmem.h>
#include <cbmem.h>
#include <device/resource.h>
#include <stdlib.h>
#include <symbols.h>
#include <assert.h>
static int initialized;
static int table_written;
static struct memranges bootmem;
static struct memranges bootmem_os;
static int bootmem_is_initialized(void)
{
return initialized;
}
static int bootmem_memory_table_written(void)
{
return table_written;
}
/* Platform hook to add bootmem areas the platform / board controls. */
void __attribute__((weak)) bootmem_platform_add_ranges(void)
{
}
/* Convert bootmem tag to LB_MEM tag */
static uint32_t bootmem_to_lb_tag(const enum bootmem_type tag)
{
switch (tag) {
case BM_MEM_RAM:
return LB_MEM_RAM;
case BM_MEM_RESERVED:
return LB_MEM_RESERVED;
case BM_MEM_ACPI:
return LB_MEM_ACPI;
case BM_MEM_NVS:
return LB_MEM_NVS;
case BM_MEM_UNUSABLE:
return LB_MEM_UNUSABLE;
case BM_MEM_VENDOR_RSVD:
return LB_MEM_VENDOR_RSVD;
case BM_MEM_BL31:
return LB_MEM_RESERVED;
case BM_MEM_TABLE:
return LB_MEM_TABLE;
default:
printk(BIOS_ERR, "ERROR: Unsupported tag %u\n", tag);
return LB_MEM_RESERVED;
}
}
static void bootmem_init(void)
{
const unsigned long cacheable = IORESOURCE_CACHEABLE;
const unsigned long reserved = IORESOURCE_RESERVE;
struct memranges *bm = &bootmem;
initialized = 1;
/*
* Fill the memory map out. The order of operations is important in
* that each overlapping range will take over the next. Therefore,
* add cacheable resources as RAM then add the reserved resources.
*/
memranges_init(bm, cacheable, cacheable, BM_MEM_RAM);
memranges_add_resources(bm, reserved, reserved, BM_MEM_RESERVED);
memranges_clone(&bootmem_os, bm);
/* Add memory used by CBMEM. */
cbmem_add_bootmem();
bootmem_add_range((uintptr_t)_stack, REGION_SIZE(stack),
BM_MEM_RAMSTAGE);
bootmem_add_range((uintptr_t)_program, REGION_SIZE(program),
BM_MEM_RAMSTAGE);
bootmem_arch_add_ranges();
bootmem_platform_add_ranges();
}
void bootmem_add_range(uint64_t start, uint64_t size,
const enum bootmem_type tag)
{
assert(tag > BM_MEM_FIRST && tag < BM_MEM_LAST);
assert(bootmem_is_initialized());
memranges_insert(&bootmem, start, size, tag);
if (tag <= BM_MEM_OS_CUTOFF) {
/* Can't change OS tables anymore after they are written out. */
assert(!bootmem_memory_table_written());
memranges_insert(&bootmem_os, start, size, tag);
};
}
void bootmem_write_memory_table(struct lb_memory *mem)
{
const struct range_entry *r;
struct lb_memory_range *lb_r;
lb_r = &mem->map[0];
bootmem_init();
bootmem_dump_ranges();
memranges_each_entry(r, &bootmem_os) {
lb_r->start = pack_lb64(range_entry_base(r));
lb_r->size = pack_lb64(range_entry_size(r));
lb_r->type = bootmem_to_lb_tag(range_entry_tag(r));
lb_r++;
mem->size += sizeof(struct lb_memory_range);
}
table_written = 1;
}
struct range_strings {
enum bootmem_type tag;
const char *str;
};
static const struct range_strings type_strings[] = {
{ BM_MEM_RAM, "RAM" },
{ BM_MEM_RESERVED, "RESERVED" },
{ BM_MEM_ACPI, "ACPI" },
{ BM_MEM_NVS, "NVS" },
{ BM_MEM_UNUSABLE, "UNUSABLE" },
{ BM_MEM_VENDOR_RSVD, "VENDOR RESERVED" },
{ BM_MEM_BL31, "BL31" },
{ BM_MEM_TABLE, "CONFIGURATION TABLES" },
{ BM_MEM_RAMSTAGE, "RAMSTAGE" },
{ BM_MEM_PAYLOAD, "PAYLOAD" },
};
static const char *bootmem_range_string(const enum bootmem_type tag)
{
int i;
for (i = 0; i < ARRAY_SIZE(type_strings); i++) {
if (type_strings[i].tag == tag)
return type_strings[i].str;
}
return "UNKNOWN!";
}
void bootmem_dump_ranges(void)
{
int i;
const struct range_entry *r;
i = 0;
memranges_each_entry(r, &bootmem) {
printk(BIOS_DEBUG, "%2d. %016llx-%016llx: %s\n",
i, range_entry_base(r), range_entry_end(r) - 1,
bootmem_range_string(range_entry_tag(r)));
i++;
}
}
bool bootmem_walk_os_mem(range_action_t action, void *arg)
{
const struct range_entry *r;
assert(bootmem_is_initialized());
memranges_each_entry(r, &bootmem_os) {
if (!action(r, arg))
return true;
}
return false;
}
bool bootmem_walk(range_action_t action, void *arg)
{
const struct range_entry *r;
assert(bootmem_is_initialized());
memranges_each_entry(r, &bootmem) {
if (!action(r, arg))
return true;
}
return false;
}
int bootmem_region_targets_type(uint64_t start, uint64_t size,
enum bootmem_type dest_type)
{
const struct range_entry *r;
uint64_t end = start + size;
memranges_each_entry(r, &bootmem) {
/* All further bootmem entries are beyond this range. */
if (end <= range_entry_base(r))
break;
if (start >= range_entry_base(r) && end <= range_entry_end(r)) {
if (range_entry_tag(r) == dest_type)
return 1;
}
}
return 0;
}
void *bootmem_allocate_buffer(size_t size)
{
const struct range_entry *r;
const struct range_entry *region;
/* All allocated buffers fall below the 32-bit boundary. */
const resource_t max_addr = 1ULL << 32;
resource_t begin;
resource_t end;
if (!bootmem_is_initialized()) {
printk(BIOS_ERR, "%s: lib unitialized!\n", __func__);
return NULL;
}
/* 4KiB alignment. */
size = ALIGN(size, 4096);
region = NULL;
memranges_each_entry(r, &bootmem) {
if (range_entry_size(r) < size)
continue;
if (range_entry_tag(r) != BM_MEM_RAM)
continue;
if (range_entry_base(r) >= max_addr)
continue;
end = range_entry_end(r);
if (end > max_addr)
end = max_addr;
if ((end - range_entry_base(r)) < size)
continue;
region = r;
}
if (region == NULL)
return NULL;
/* region now points to the highest usable region for the given size. */
end = range_entry_end(region);
if (end > max_addr)
end = max_addr;
begin = end - size;
/* Mark buffer as unusuable for future buffer use. */
bootmem_add_range(begin, size, BM_MEM_PAYLOAD);
return (void *)(uintptr_t)begin;
}
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