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/* SPDX-License-Identifier: GPL-2.0-only */
/* This file is part of the coreboot project. */
#include <assert.h>
#include <stdlib.h>
#include <commonlib/helpers.h>
#include <console/console.h>
#include <memrange.h>
static inline void range_entry_link(struct range_entry **prev_ptr,
struct range_entry *r)
{
r->next = *prev_ptr;
*prev_ptr = r;
}
static inline void range_entry_unlink(struct range_entry **prev_ptr,
struct range_entry *r)
{
*prev_ptr = r->next;
r->next = NULL;
}
static inline void range_entry_unlink_and_free(struct memranges *ranges,
struct range_entry **prev_ptr,
struct range_entry *r)
{
range_entry_unlink(prev_ptr, r);
range_entry_link(&ranges->free_list, r);
}
static struct range_entry *alloc_range(struct memranges *ranges)
{
if (ranges->free_list != NULL) {
struct range_entry *r;
r = ranges->free_list;
range_entry_unlink(&ranges->free_list, r);
return r;
}
if (ENV_PAYLOAD_LOADER)
return malloc(sizeof(struct range_entry));
return NULL;
}
static inline struct range_entry *
range_list_add(struct memranges *ranges, struct range_entry **prev_ptr,
resource_t begin, resource_t end, unsigned long tag)
{
struct range_entry *new_entry;
new_entry = alloc_range(ranges);
if (new_entry == NULL) {
printk(BIOS_ERR, "Could not allocate range_entry!\n");
return NULL;
}
new_entry->begin = begin;
new_entry->end = end;
new_entry->tag = tag;
range_entry_link(prev_ptr, new_entry);
return new_entry;
}
static void merge_neighbor_entries(struct memranges *ranges)
{
struct range_entry *cur;
struct range_entry *prev;
prev = NULL;
/* Merge all neighbors and delete/free the leftover entry. */
for (cur = ranges->entries; cur != NULL; cur = cur->next) {
/* First entry. Just set prev. */
if (prev == NULL) {
prev = cur;
continue;
}
/* If the previous entry merges with the current update the
* previous entry to cover full range and delete current from
* the list. */
if (prev->end + 1 >= cur->begin && prev->tag == cur->tag) {
prev->end = cur->end;
range_entry_unlink_and_free(ranges, &prev->next, cur);
/* Set cur to prev so cur->next is valid since cur
* was just unlinked and free. */
cur = prev;
continue;
}
prev = cur;
}
}
static void remove_memranges(struct memranges *ranges,
resource_t begin, resource_t end,
unsigned long unused)
{
struct range_entry *cur;
struct range_entry *next;
struct range_entry **prev_ptr;
prev_ptr = &ranges->entries;
for (cur = ranges->entries; cur != NULL; cur = next) {
resource_t tmp_end;
/* Cache the next value to handle unlinks. */
next = cur->next;
/* No other ranges are affected. */
if (end < cur->begin)
break;
/* The removal range starts after this one. */
if (begin > cur->end) {
prev_ptr = &cur->next;
continue;
}
/* The removal range overlaps with the current entry either
* partially or fully. However, we need to adjust the removal
* range for any holes. */
if (begin <= cur->begin) {
begin = cur->begin;
/* Full removal. */
if (end >= cur->end) {
begin = cur->end + 1;
range_entry_unlink_and_free(ranges, prev_ptr,
cur);
continue;
}
}
/* prev_ptr can be set now that the unlink path wasn't taken. */
prev_ptr = &cur->next;
/* Clip the end fragment to do proper splitting. */
tmp_end = end;
if (end > cur->end)
tmp_end = cur->end;
/* Hole punched in middle of entry. */
if (begin > cur->begin && tmp_end < cur->end) {
range_list_add(ranges, &cur->next, end + 1, cur->end,
cur->tag);
cur->end = begin - 1;
break;
}
/* Removal at beginning. */
if (begin == cur->begin)
cur->begin = tmp_end + 1;
/* Removal at end. */
if (tmp_end == cur->end)
cur->end = begin - 1;
}
}
static void merge_add_memranges(struct memranges *ranges,
resource_t begin, resource_t end,
unsigned long tag)
{
struct range_entry *cur;
struct range_entry **prev_ptr;
prev_ptr = &ranges->entries;
/* Remove all existing entries covered by the range. */
remove_memranges(ranges, begin, end, -1);
/* Find the entry to place the new entry after. Since
* remove_memranges() was called above there is a guaranteed
* spot for this new entry. */
for (cur = ranges->entries; cur != NULL; cur = cur->next) {
/* Found insertion spot before current entry. */
if (end < cur->begin)
break;
/* Keep track of previous entry to insert new entry after it. */
prev_ptr = &cur->next;
/* The new entry starts after this one. */
if (begin > cur->end)
continue;
}
/* Add new entry and merge with neighbors. */
range_list_add(ranges, prev_ptr, begin, end, tag);
merge_neighbor_entries(ranges);
}
void memranges_update_tag(struct memranges *ranges, unsigned long old_tag,
unsigned long new_tag)
{
struct range_entry *r;
memranges_each_entry(r, ranges) {
if (range_entry_tag(r) == old_tag)
range_entry_update_tag(r, new_tag);
}
merge_neighbor_entries(ranges);
}
typedef void (*range_action_t)(struct memranges *ranges,
resource_t begin, resource_t end,
unsigned long tag);
static void do_action(struct memranges *ranges,
resource_t base, resource_t size, unsigned long tag,
range_action_t action)
{
resource_t end;
resource_t begin;
if (size == 0)
return;
/* The addresses are aligned to (1ULL << ranges->align): the begin address is
* aligned down while the end address is aligned up to be conservative
* about the full range covered. */
begin = ALIGN_DOWN(base, POWER_OF_2(ranges->align));
end = begin + size + (base - begin);
end = ALIGN_UP(end, POWER_OF_2(ranges->align)) - 1;
action(ranges, begin, end, tag);
}
void memranges_create_hole(struct memranges *ranges,
resource_t base, resource_t size)
{
do_action(ranges, base, size, -1, remove_memranges);
}
void memranges_insert(struct memranges *ranges,
resource_t base, resource_t size, unsigned long tag)
{
do_action(ranges, base, size, tag, merge_add_memranges);
}
struct collect_context {
struct memranges *ranges;
unsigned long tag;
memrange_filter_t filter;
};
static void collect_ranges(void *gp, struct device *dev, struct resource *res)
{
struct collect_context *ctx = gp;
if (res->size == 0)
return;
if (ctx->filter == NULL || ctx->filter(dev, res))
memranges_insert(ctx->ranges, res->base, res->size, ctx->tag);
}
void memranges_add_resources_filter(struct memranges *ranges,
unsigned long mask, unsigned long match,
unsigned long tag,
memrange_filter_t filter)
{
struct collect_context context;
/* Only deal with MEM resources. */
mask |= IORESOURCE_MEM;
match |= IORESOURCE_MEM;
context.ranges = ranges;
context.tag = tag;
context.filter = filter;
search_global_resources(mask, match, collect_ranges, &context);
}
void memranges_add_resources(struct memranges *ranges,
unsigned long mask, unsigned long match,
unsigned long tag)
{
memranges_add_resources_filter(ranges, mask, match, tag, NULL);
}
void memranges_init_empty_with_alignment(struct memranges *ranges,
struct range_entry *to_free,
size_t num_free, unsigned char align)
{
size_t i;
ranges->entries = NULL;
ranges->free_list = NULL;
ranges->align = align;
for (i = 0; i < num_free; i++)
range_entry_link(&ranges->free_list, &to_free[i]);
}
void memranges_init_with_alignment(struct memranges *ranges,
unsigned long mask, unsigned long match,
unsigned long tag, unsigned char align)
{
memranges_init_empty_with_alignment(ranges, NULL, 0, align);
memranges_add_resources(ranges, mask, match, tag);
}
/* Clone a memrange. The new memrange has the same entries as the old one. */
void memranges_clone(struct memranges *newranges, struct memranges *oldranges)
{
struct range_entry *r, *cur;
struct range_entry **prev_ptr;
memranges_init_empty_with_alignment(newranges, NULL, 0, oldranges->align);
prev_ptr = &newranges->entries;
memranges_each_entry(r, oldranges) {
cur = range_list_add(newranges, prev_ptr, r->begin, r->end,
r->tag);
prev_ptr = &cur->next;
}
}
void memranges_teardown(struct memranges *ranges)
{
while (ranges->entries != NULL) {
range_entry_unlink_and_free(ranges, &ranges->entries,
ranges->entries);
}
}
void memranges_fill_holes_up_to(struct memranges *ranges,
resource_t limit, unsigned long tag)
{
struct range_entry *cur;
struct range_entry *prev;
prev = NULL;
for (cur = ranges->entries; cur != NULL; cur = cur->next) {
/* First entry. Just set prev. */
if (prev == NULL) {
prev = cur;
continue;
}
/* If the previous entry does not directly precede the current
* entry then add a new entry just after the previous one. */
if (range_entry_end(prev) != cur->begin) {
resource_t end;
end = cur->begin - 1;
if (end >= limit)
end = limit - 1;
range_list_add(ranges, &prev->next,
range_entry_end(prev), end, tag);
}
prev = cur;
/* Hit the requested range limit. No other entries after this
* are affected. */
if (cur->begin >= limit)
break;
}
/* Handle the case where the limit was never reached. A new entry needs
* to be added to cover the range up to the limit. */
if (prev != NULL && range_entry_end(prev) < limit)
range_list_add(ranges, &prev->next, range_entry_end(prev),
limit - 1, tag);
/* Merge all entries that were newly added. */
merge_neighbor_entries(ranges);
}
struct range_entry *memranges_next_entry(struct memranges *ranges,
const struct range_entry *r)
{
return r->next;
}
/* Find a range entry that satisfies the given constraints to fit a hole that matches the
* required alignment, is big enough, does not exceed the limit and has a matching tag. */
static const struct range_entry *memranges_find_entry(struct memranges *ranges,
resource_t limit, resource_t size,
unsigned char align, unsigned long tag)
{
const struct range_entry *r;
resource_t base, end;
if (size == 0)
return NULL;
memranges_each_entry(r, ranges) {
if (r->tag != tag)
continue;
base = ALIGN_UP(r->begin, POWER_OF_2(align));
end = base + size - 1;
if (end > r->end)
continue;
if (end > limit)
continue;
return r;
}
return NULL;
}
bool memranges_steal(struct memranges *ranges, resource_t limit, resource_t size,
unsigned char align, unsigned long tag, resource_t *stolen_base)
{
resource_t base;
const struct range_entry *r = memranges_find_entry(ranges, limit, size, align, tag);
if (r == NULL)
return false;
base = ALIGN_UP(r->begin, POWER_OF_2(align));
memranges_create_hole(ranges, base, size);
*stolen_base = base;
return true;
}
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