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-rw-r--r--src/include/cbmem.h2
-rw-r--r--src/include/imd.h18
-rw-r--r--src/lib/imd.c474
3 files changed, 366 insertions, 128 deletions
diff --git a/src/include/cbmem.h b/src/include/cbmem.h
index 38f9d0320b..615510b1fb 100644
--- a/src/include/cbmem.h
+++ b/src/include/cbmem.h
@@ -58,6 +58,7 @@
#define CBMEM_ID_HOB_POINTER 0x484f4221
#define CBMEM_ID_IGD_OPREGION 0x4f444749
#define CBMEM_ID_IMD_ROOT 0xff4017ff
+#define CBMEM_ID_IMD_SMALL 0x53a11439
#define CBMEM_ID_MEMINFO 0x494D454D
#define CBMEM_ID_MPTABLE 0x534d5054
#define CBMEM_ID_MRCDATA 0x4d524344
@@ -105,6 +106,7 @@ struct cbmem_id_to_name {
{ CBMEM_ID_FREESPACE, "FREE SPACE " }, \
{ CBMEM_ID_GDT, "GDT " }, \
{ CBMEM_ID_IMD_ROOT, "IMD ROOT " }, \
+ { CBMEM_ID_IMD_SMALL, "IMD SMALL " }, \
{ CBMEM_ID_MEMINFO, "MEM INFO " }, \
{ CBMEM_ID_MPTABLE, "SMP TABLE " }, \
{ CBMEM_ID_MRCDATA, "MRC DATA " }, \
diff --git a/src/include/imd.h b/src/include/imd.h
index 8d5c4522b7..a444b4fbb1 100644
--- a/src/include/imd.h
+++ b/src/include/imd.h
@@ -82,6 +82,18 @@ void imd_handle_init_partial_recovery(struct imd *imd);
int imd_create_empty(struct imd *imd, size_t root_size, size_t entry_align);
/*
+ * Create an empty imd with both large and small allocations. The small
+ * allocations come from a fixed imd stored internally within the large
+ * imd. The region allocated for tracking the smaller allocations is dependent
+ * on the small root_size and the large entry alignment by calculating the
+ * number of entries within the small imd and multiplying that by the small
+ * entry alignment.
+ */
+int imd_create_tiered_empty(struct imd *imd,
+ size_t lg_root_size, size_t lg_entry_align,
+ size_t sm_root_size, size_t sm_entry_align);
+
+/*
* Recover a previously created imd.
*/
int imd_recover(struct imd *imd);
@@ -131,9 +143,13 @@ int imd_print_entries(const struct imd *imd, const struct imd_lookup *lookup,
* NOTE: Do not directly touch any fields within this structure. An imd pointer
* is meant to be opaque, but the fields are exposed for stack allocation.
*/
-struct imd {
+struct imdr {
uintptr_t limit;
void *r;
};
+struct imd {
+ struct imdr lg;
+ struct imdr sm;
+};
#endif /* _IMD_H_ */
diff --git a/src/lib/imd.c b/src/lib/imd.c
index ff3aa75a64..02fc2b3363 100644
--- a/src/lib/imd.c
+++ b/src/lib/imd.c
@@ -28,6 +28,7 @@
static const uint32_t IMD_ROOT_PTR_MAGIC = 0xc0389481;
static const uint32_t IMD_ENTRY_MAGIC = ~0xc0389481;
+static const uint32_t SMALL_REGION_ID = CBMEM_ID_IMD_SMALL;
static const size_t LIMIT_ALIGN = 4096;
/* In-memory data structures. */
@@ -69,20 +70,20 @@ static bool imd_root_pointer_valid(const struct imd_root_pointer *rp)
return !!(rp->magic == IMD_ROOT_PTR_MAGIC);
}
-static struct imd_root *imd_root(const struct imd *imd)
+static struct imd_root *imdr_root(const struct imdr *imdr)
{
- return imd->r;
+ return imdr->r;
}
/*
* The root pointer is relative to the upper limit of the imd. i.e. It sits
* just below the upper limit.
*/
-static struct imd_root_pointer *imd_get_root_pointer(const struct imd *imd)
+static struct imd_root_pointer *imdr_get_root_pointer(const struct imdr *imdr)
{
struct imd_root_pointer *rp;
- rp = relative_pointer((void *)imd->limit, -sizeof(*rp));
+ rp = relative_pointer((void *)imdr->limit, -sizeof(*rp));
return rp;
}
@@ -93,59 +94,74 @@ static void imd_link_root(struct imd_root_pointer *rp, struct imd_root *r)
rp->root_offset = (int32_t)((intptr_t)r - (intptr_t)rp);
}
-static void imd_entry_assign(struct imd_entry *e, uint32_t id,
- ssize_t offset, size_t size)
+static struct imd_entry *root_last_entry(struct imd_root *r)
{
- e->magic = IMD_ENTRY_MAGIC;
- e->start_offset = offset;
- e->size = size;
- e->id = id;
+ return &r->entries[r->num_entries - 1];
}
-static bool root_is_locked(const struct imd_root *r)
+static size_t root_num_entries(size_t root_size)
{
- return !!(r->flags & IMD_FLAG_LOCKED);
+ size_t entries_size;
+
+ entries_size = root_size;
+ entries_size -= sizeof(struct imd_root_pointer);
+ entries_size -= sizeof(struct imd_root);
+
+ return entries_size / sizeof(struct imd_entry);
}
-static struct imd_entry *root_last_entry(struct imd_root *r)
+static size_t imd_root_data_left(struct imd_root *r)
{
- return &r->entries[r->num_entries - 1];
+ struct imd_entry *last_entry;
+
+ last_entry = root_last_entry(r);
+
+ if (r->max_offset != 0)
+ return last_entry->start_offset - r->max_offset;
+
+ return ~(size_t)0;
}
-/* Initialize imd handle. */
-void imd_handle_init(struct imd *imd, void *upper_limit)
+static bool root_is_locked(const struct imd_root *r)
{
- uintptr_t limit = (uintptr_t)upper_limit;
- /* Upper limit is aligned down to 4KiB */
- imd->limit = ALIGN_DOWN(limit, LIMIT_ALIGN);
- imd->r = NULL;
+ return !!(r->flags & IMD_FLAG_LOCKED);
}
-void imd_handle_init_partial_recovery(struct imd *imd)
+static void imd_entry_assign(struct imd_entry *e, uint32_t id,
+ ssize_t offset, size_t size)
{
- struct imd_root_pointer *rp;
-
- imd_handle_init(imd, (void *)imd->limit);
+ e->magic = IMD_ENTRY_MAGIC;
+ e->start_offset = offset;
+ e->size = size;
+ e->id = id;
+}
- rp = imd_get_root_pointer(imd);
- imd->r = relative_pointer(rp, rp->root_offset);
+static void imdr_init(struct imdr *ir, void *upper_limit)
+{
+ uintptr_t limit = (uintptr_t)upper_limit;
+ /* Upper limit is aligned down to 4KiB */
+ ir->limit = ALIGN_DOWN(limit, LIMIT_ALIGN);
+ ir->r = NULL;
}
-int imd_create_empty(struct imd *imd, size_t root_size, size_t entry_align)
+static int imdr_create_empty(struct imdr *imdr, size_t root_size,
+ size_t entry_align)
{
struct imd_root_pointer *rp;
struct imd_root *r;
struct imd_entry *e;
ssize_t root_offset;
- size_t entries_size;
- if (!imd->limit)
+ if (!imdr->limit)
return -1;
/* root_size and entry_align should be a power of 2. */
assert(IS_POWER_OF_2(root_size));
assert(IS_POWER_OF_2(entry_align));
+ if (!imdr->limit)
+ return -1;
+
/*
* root_size needs to be large enough to accomodate root pointer and
* root book keeping structure. The caller needs to ensure there's
@@ -162,23 +178,19 @@ int imd_create_empty(struct imd *imd, size_t root_size, size_t entry_align)
if (entry_align > root_size)
return -1;
- rp = imd_get_root_pointer(imd);
+ rp = imdr_get_root_pointer(imdr);
root_offset = -(ssize_t)root_size;
/* Set root pointer. */
- imd->r = relative_pointer((void *)imd->limit, root_offset);
- r = imd_root(imd);
+ imdr->r = relative_pointer((void *)imdr->limit, root_offset);
+ r = imdr_root(imdr);
imd_link_root(rp, r);
memset(r, 0, sizeof(*r));
r->entry_align = entry_align;
/* Calculate size left for entries. */
- entries_size = root_size;
- entries_size -= sizeof(*rp);
- entries_size -= sizeof(*r);
-
- r->max_entries = entries_size / sizeof(r->entries[0]);
+ r->max_entries = root_num_entries(root_size);
/* Fill in first entry covering the root region. */
r->num_entries = 1;
@@ -190,41 +202,17 @@ int imd_create_empty(struct imd *imd, size_t root_size, size_t entry_align)
return 0;
}
-int imd_limit_size(struct imd *imd, size_t max_size)
-{
- struct imd_root *r;
- ssize_t smax_size;
- size_t root_size;
-
- r = imd_root(imd);
- if (r == NULL)
- return -1;
-
- root_size = imd->limit - (uintptr_t)r;
-
- if (max_size < root_size)
- return -1;
-
- /* Take into account the root size. */
- smax_size = max_size - root_size;
- smax_size = -smax_size;
-
- r->max_offset = smax_size;
-
- return 0;
-}
-
-int imd_recover(struct imd *imd)
+static int imdr_recover(struct imdr *imdr)
{
struct imd_root_pointer *rp;
struct imd_root *r;
uintptr_t low_limit;
size_t i;
- if (!imd->limit);
+ if (!imdr->limit)
return -1;
- rp = imd_get_root_pointer(imd);
+ rp = imdr_get_root_pointer(imdr);
if (!imd_root_pointer_valid(rp))
return -1;
@@ -233,7 +221,7 @@ int imd_recover(struct imd *imd)
/* Confirm the root and root pointer are just under the limit. */
if (ALIGN_UP((uintptr_t)&r->entries[r->max_entries], LIMIT_ALIGN) !=
- imd->limit)
+ imdr->limit)
return -1;
if (r->num_entries > r->max_entries)
@@ -259,57 +247,74 @@ int imd_recover(struct imd *imd)
start_addr = (uintptr_t)relative_pointer(r, e->start_offset);
if (start_addr < low_limit)
return -1;
- if (start_addr >= imd->limit ||
- (start_addr + e->size) > imd->limit)
+ if (start_addr >= imdr->limit ||
+ (start_addr + e->size) > imdr->limit)
return -1;
}
/* Set root pointer. */
- imd->r = r;
+ imdr->r = r;
return 0;
}
-int imd_lockdown(struct imd *imd)
+static const struct imd_entry *imdr_entry_find(const struct imdr *imdr,
+ uint32_t id)
{
struct imd_root *r;
+ struct imd_entry *e;
+ size_t i;
+
+ r = imdr_root(imdr);
- r = imd_root(imd);
if (r == NULL)
- return -1;
+ return NULL;
- r->flags |= IMD_FLAG_LOCKED;
+ e = NULL;
+ /* Skip first entry covering the root. */
+ for (i = 1; i < r->num_entries; i++) {
+ if (id != r->entries[i].id)
+ continue;
+ e = &r->entries[i];
+ break;
+ }
- return 0;
+ return e;
}
-int imd_region_used(struct imd *imd, void **base, size_t *size)
+static int imdr_limit_size(struct imdr *imdr, size_t max_size)
{
struct imd_root *r;
- struct imd_entry *e;
- void *low_addr;
- size_t sz_used;
+ ssize_t smax_size;
+ size_t root_size;
- if (!imd->limit)
+ r = imdr_root(imdr);
+ if (r == NULL)
return -1;
- r = imd_root(imd);
+ root_size = imdr->limit - (uintptr_t)r;
- if (r == NULL)
+ if (max_size < root_size)
return -1;
- /* Use last entry to obtain lowest address. */
- e = root_last_entry(r);
+ /* Take into account the root size. */
+ smax_size = max_size - root_size;
+ smax_size = -smax_size;
- low_addr = relative_pointer(r, e->start_offset);
+ r->max_offset = smax_size;
- /* Total size used is the last entry's base up to the limit. */
- sz_used = imd->limit - (uintptr_t)low_addr;
+ return 0;
+}
- *base = low_addr;
- *size = sz_used;
+static size_t imdr_entry_size(const struct imdr *imdr,
+ const struct imd_entry *e)
+{
+ return e->size;
+}
- return 0;
+static void *imdr_entry_at(const struct imdr *imdr, const struct imd_entry *e)
+{
+ return relative_pointer(imdr_root(imdr), e->start_offset);
}
static struct imd_entry *imd_entry_add_to_root(struct imd_root *r, uint32_t id,
@@ -326,20 +331,15 @@ static struct imd_entry *imd_entry_add_to_root(struct imd_root *r, uint32_t id,
/* Determine total size taken up by entry. */
used_size = ALIGN_UP(size, r->entry_align);
- last_entry = root_last_entry(r);
-
/* See if size overflows imd total size. */
- if (r->max_offset != 0) {
- size_t remaining = last_entry->start_offset - r->max_offset;
-
- if (used_size > remaining)
- return NULL;
- }
+ if (used_size > imd_root_data_left(r))
+ return NULL;
/*
* Determine if offset field overflows. All offsets should be lower
* than the previous one.
*/
+ last_entry = root_last_entry(r);
e_offset = last_entry->start_offset;
e_offset -= (ssize_t)used_size;
if (e_offset > last_entry->start_offset)
@@ -353,12 +353,12 @@ static struct imd_entry *imd_entry_add_to_root(struct imd_root *r, uint32_t id,
return entry;
}
-const struct imd_entry *imd_entry_add(const struct imd *imd, uint32_t id,
- size_t size)
+static const struct imd_entry *imdr_entry_add(const struct imdr *imdr,
+ uint32_t id, size_t size)
{
struct imd_root *r;
- r = imd_root(imd);
+ r = imdr_root(imdr);
if (r == NULL)
return NULL;
@@ -369,25 +369,227 @@ const struct imd_entry *imd_entry_add(const struct imd *imd, uint32_t id,
return imd_entry_add_to_root(r, id, size);
}
-const struct imd_entry *imd_entry_find(const struct imd *imd, uint32_t id)
+static bool imdr_has_entry(const struct imdr *imdr, const struct imd_entry *e)
+{
+ struct imd_root *r;
+ size_t idx;
+
+ r = imdr_root(imdr);
+ if (r == NULL)
+ return false;
+
+ /* Determine if the entry is within this root structure. */
+ idx = e - &r->entries[0];
+ if (idx >= r->num_entries)
+ return false;
+
+ return true;
+}
+
+static const struct imdr *imd_entry_to_imdr(const struct imd *imd,
+ const struct imd_entry *entry)
+{
+ if (imdr_has_entry(&imd->lg, entry))
+ return &imd->lg;
+
+ if (imdr_has_entry(&imd->sm, entry))
+ return &imd->sm;
+
+ return NULL;
+}
+
+/* Initialize imd handle. */
+void imd_handle_init(struct imd *imd, void *upper_limit)
+{
+ imdr_init(&imd->lg, upper_limit);
+ imdr_init(&imd->sm, NULL);
+}
+
+void imd_handle_init_partial_recovery(struct imd *imd)
+{
+ const struct imd_entry *e;
+ struct imd_root_pointer *rp;
+ struct imdr *imdr;
+
+ imd_handle_init(imd, (void *)imd->lg.limit);
+
+ /* Initialize root pointer for the large regions. */
+ imdr = &imd->lg;
+ rp = imdr_get_root_pointer(imdr);
+ imdr->r = relative_pointer(rp, rp->root_offset);
+
+ e = imdr_entry_find(imdr, SMALL_REGION_ID);
+
+ if (e == NULL)
+ return;
+
+ imd->sm.limit = (uintptr_t)imdr_entry_at(imdr, e);
+ imd->sm.limit += imdr_entry_size(imdr, e);
+ imdr = &imd->sm;
+ rp = imdr_get_root_pointer(imdr);
+ imdr->r = relative_pointer(rp, rp->root_offset);
+}
+
+int imd_create_empty(struct imd *imd, size_t root_size, size_t entry_align)
+{
+ return imdr_create_empty(&imd->lg, root_size, entry_align);
+}
+
+int imd_create_tiered_empty(struct imd *imd,
+ size_t lg_root_size, size_t lg_entry_align,
+ size_t sm_root_size, size_t sm_entry_align)
+{
+ size_t sm_region_size;;
+ const struct imd_entry *e;
+ struct imdr *imdr;
+
+ imdr = &imd->lg;
+
+ if (imdr_create_empty(imdr, lg_root_size, lg_entry_align) != 0)
+ return -1;
+
+ /* Calculate the size of the small region to request. */
+ sm_region_size = root_num_entries(sm_root_size) * sm_entry_align;
+ sm_region_size += sm_root_size;
+ sm_region_size = ALIGN_UP(sm_region_size, lg_entry_align);
+
+ /* Add a new entry to the large region to cover the root and entries. */
+ e = imdr_entry_add(imdr, SMALL_REGION_ID, sm_region_size);
+
+ if (e == NULL)
+ goto fail;
+
+ imd->sm.limit = (uintptr_t)imdr_entry_at(imdr, e);
+ imd->sm.limit += sm_region_size;
+
+ if (imdr_create_empty(&imd->sm, sm_root_size, sm_entry_align) != 0 ||
+ imdr_limit_size(&imd->sm, sm_region_size))
+ goto fail;
+
+ return 0;
+fail:
+ imd_handle_init(imd, (void *)imdr->limit);
+ return -1;
+}
+
+int imd_recover(struct imd *imd)
+{
+ const struct imd_entry *e;
+ uintptr_t small_upper_limit;
+ struct imdr *imdr;
+
+ imdr = &imd->lg;
+ if (imdr_recover(imdr) != 0)
+ return -1;
+
+ /* Determine if small region is region is present. */
+ e = imdr_entry_find(imdr, SMALL_REGION_ID);
+
+ if (e == NULL)
+ return 0;
+
+ small_upper_limit = (uintptr_t)imdr_entry_at(imdr, e);
+ small_upper_limit += imdr_entry_size(imdr, e);
+
+ imd->sm.limit = small_upper_limit;
+
+ /* Tear down any changes on failure. */
+ if (imdr_recover(&imd->sm) != 0) {
+ imd_handle_init(imd, (void *)imd->lg.limit);
+ return -1;
+ }
+
+ return 0;
+}
+
+int imd_limit_size(struct imd *imd, size_t max_size)
+{
+ return imdr_limit_size(&imd->lg, max_size);
+}
+
+int imd_lockdown(struct imd *imd)
+{
+ struct imd_root *r;
+
+ r = imdr_root(&imd->lg);
+ if (r == NULL)
+ return -1;
+
+ r->flags |= IMD_FLAG_LOCKED;
+
+ r = imdr_root(&imd->sm);
+ if (r != NULL)
+ r->flags |= IMD_FLAG_LOCKED;
+
+ return 0;
+}
+
+int imd_region_used(struct imd *imd, void **base, size_t *size)
{
struct imd_root *r;
struct imd_entry *e;
- size_t i;
+ void *low_addr;
+ size_t sz_used;
- r = imd_root(imd);
+ if (!imd->lg.limit)
+ return -1;
+
+ r = imdr_root(&imd->lg);
if (r == NULL)
- return NULL;
+ return -1;
- e = NULL;
- /* Skip first entry covering the root. */
- for (i = 1; i < r->num_entries; i++) {
- if (id == r->entries[i].id) {
- e = &r->entries[i];
- break;
- }
- }
+ /* Use last entry to obtain lowest address. */
+ e = root_last_entry(r);
+
+ low_addr = relative_pointer(r, e->start_offset);
+
+ /* Total size used is the last entry's base up to the limit. */
+ sz_used = imd->lg.limit - (uintptr_t)low_addr;
+
+ *base = low_addr;
+ *size = sz_used;
+
+ return 0;
+}
+
+const struct imd_entry *imd_entry_add(const struct imd *imd, uint32_t id,
+ size_t size)
+{
+ struct imd_root *r;
+ const struct imdr *imdr;
+ const struct imd_entry *e = NULL;
+
+ /*
+ * Determine if requested size is less than 1/4 of small data
+ * region is left.
+ */
+ imdr = &imd->sm;
+ r = imdr_root(imdr);
+
+ /* No small region. Use the large region. */
+ if (r == NULL)
+ return imdr_entry_add(&imd->lg, id, size);
+ else if (size <= r->entry_align || size <= imd_root_data_left(r) / 4)
+ e = imdr_entry_add(imdr, id, size);
+
+ /* Fall back on large region allocation. */
+ if (e == NULL)
+ e = imdr_entry_add(&imd->lg, id, size);
+
+ return e;
+}
+
+const struct imd_entry *imd_entry_find(const struct imd *imd, uint32_t id)
+{
+ const struct imd_entry *e;
+
+ /* Many of the smaller allocations are used a lot. Therefore, try
+ * the small region first. */
+ e = imdr_entry_find(&imd->sm, id);
+
+ if (e == NULL)
+ e = imdr_entry_find(&imd->lg, id);
return e;
}
@@ -407,26 +609,32 @@ const struct imd_entry *imd_entry_find_or_add(const struct imd *imd,
size_t imd_entry_size(const struct imd *imd, const struct imd_entry *entry)
{
- return entry->size;
+ return imdr_entry_size(NULL, entry);
}
void *imd_entry_at(const struct imd *imd, const struct imd_entry *entry)
{
- struct imd_root *r;
+ const struct imdr *imdr;
- r = imd_root(imd);
+ imdr = imd_entry_to_imdr(imd, entry);
- if (r == NULL)
+ if (imdr == NULL)
return NULL;
- return relative_pointer(r, entry->start_offset);
+ return imdr_entry_at(imdr, entry);
}
int imd_entry_remove(const struct imd *imd, const struct imd_entry *entry)
{
struct imd_root *r;
+ const struct imdr *imdr;
+
+ imdr = imd_entry_to_imdr(imd, entry);
- r = imd_root(imd);
+ if (imdr == NULL)
+ return - 1;
+
+ r = imdr_root(imdr);
if (r == NULL)
return -1;
@@ -442,20 +650,17 @@ int imd_entry_remove(const struct imd *imd, const struct imd_entry *entry)
return 0;
}
-int imd_print_entries(const struct imd *imd, const struct imd_lookup *lookup,
- size_t size)
+static void imdr_print_entries(const struct imdr *imdr, const char *indent,
+ const struct imd_lookup *lookup, size_t size)
{
struct imd_root *r;
size_t i;
size_t j;
- if (imd == NULL)
- return -1;
-
- r = imd_root(imd);
+ if (imdr == NULL)
+ return;
- if (r == NULL)
- return -1;
+ r = imdr_root(imdr);
for (i = 0; i < r->num_entries; i++) {
const char *name = NULL;
@@ -468,13 +673,28 @@ int imd_print_entries(const struct imd *imd, const struct imd_lookup *lookup,
}
}
+ printk(BIOS_DEBUG, "%s", indent);
+
if (name == NULL)
printk(BIOS_DEBUG, "%08x ", e->id);
else
printk(BIOS_DEBUG, "%s", name);
printk(BIOS_DEBUG, "%2zu. ", i);
- printk(BIOS_DEBUG, "%p ", imd_entry_at(imd, e));
- printk(BIOS_DEBUG, "%08zx\n", imd_entry_size(imd, e));
+ printk(BIOS_DEBUG, "%p ", imdr_entry_at(imdr, e));
+ printk(BIOS_DEBUG, "%08zx\n", imdr_entry_size(imdr, e));
+ }
+}
+
+int imd_print_entries(const struct imd *imd, const struct imd_lookup *lookup,
+ size_t size)
+{
+ if (imdr_root(&imd->lg) == NULL)
+ return -1;
+
+ imdr_print_entries(&imd->lg, "", lookup, size);
+ if (imdr_root(&imd->sm) != NULL) {
+ printk(BIOS_DEBUG, "IMD small region:\n");
+ imdr_print_entries(&imd->sm, " ", lookup, size);
}
return 0;