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ufdt_convert.c
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ufdt_convert.c
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/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "libufdt.h"
#include "ufdt_node_pool.h"
#include "ufdt_prop_dict.h"
struct ufdt *ufdt_construct(void *fdtp, struct ufdt_node_pool *pool) {
(void)(pool); /* unused parameter */
/* Inital size is 2, will be exponentially increased when it needed later.
(2 -> 4 -> 8 -> ...) */
const int DEFAULT_MEM_SIZE_FDTPS = 2;
void **fdtps = NULL;
struct ufdt *res_ufdt = NULL;
fdtps = (void **)dto_malloc(sizeof(void *) * DEFAULT_MEM_SIZE_FDTPS);
if (fdtps == NULL) goto error;
fdtps[0] = fdtp;
res_ufdt = dto_malloc(sizeof(struct ufdt));
if (res_ufdt == NULL) goto error;
res_ufdt->fdtps = fdtps;
res_ufdt->mem_size_fdtps = DEFAULT_MEM_SIZE_FDTPS;
res_ufdt->num_used_fdtps = (fdtp != NULL ? 1 : 0);
res_ufdt->root = NULL;
return res_ufdt;
error:
if (res_ufdt) dto_free(res_ufdt);
if (fdtps) dto_free(fdtps);
return NULL;
}
void ufdt_destruct(struct ufdt *tree, struct ufdt_node_pool *pool) {
if (tree == NULL) return;
ufdt_node_destruct(tree->root, pool);
dto_free(tree->fdtps);
dto_free(tree->phandle_table.data);
dto_free(tree);
}
int ufdt_add_fdt(struct ufdt *tree, void *fdtp) {
if (fdtp == NULL) {
return -1;
}
int i = tree->num_used_fdtps;
if (i >= tree->mem_size_fdtps) {
int new_size = tree->mem_size_fdtps * 2;
void **new_fdtps = dto_malloc(sizeof(void *) * new_size);
if (new_fdtps == NULL) return -1;
dto_memcpy(new_fdtps, tree->fdtps, sizeof(void *) * tree->mem_size_fdtps);
dto_free(tree->fdtps);
tree->fdtps = new_fdtps;
tree->mem_size_fdtps = new_size;
}
tree->fdtps[i] = fdtp;
tree->num_used_fdtps = i + 1;
return 0;
}
int ufdt_get_string_off(const struct ufdt *tree, const char *s) {
/* fdt_create() sets the dt_string_off to the end of fdt buffer,
and _ufdt_output_strtab_to_fdt() copy all string tables in reversed order.
So, here the return offset value is base on the end of all string buffers,
and it should be a minus value. */
int res_off = 0;
for (int i = 0; i < tree->num_used_fdtps; i++) {
void *fdt = tree->fdtps[i];
const char *strtab_start = (const char *)fdt + fdt_off_dt_strings(fdt);
int strtab_size = fdt_size_dt_strings(fdt);
const char *strtab_end = strtab_start + strtab_size;
/* Check if the string is in the string table */
if (s >= strtab_start && s < strtab_end) {
res_off += (s - strtab_end);
return res_off;
}
res_off -= strtab_size;
}
/* Can not find the string, return 0 */
return 0;
}
static struct ufdt_node *ufdt_new_node(void *fdtp, int node_offset,
struct ufdt_node_pool *pool) {
if (fdtp == NULL) {
dto_error("Failed to get new_node because tree is NULL\n");
return NULL;
}
fdt32_t *fdt_tag_ptr =
(fdt32_t *)fdt_offset_ptr(fdtp, node_offset, sizeof(fdt32_t));
struct ufdt_node *res = ufdt_node_construct(fdtp, fdt_tag_ptr, pool);
return res;
}
static struct ufdt_node *fdt_to_ufdt_tree(void *fdtp, int cur_fdt_tag_offset,
int *next_fdt_tag_offset, int cur_tag,
struct ufdt_node_pool *pool) {
if (fdtp == NULL) {
return NULL;
}
uint32_t tag;
struct ufdt_node *res, *child_node;
res = NULL;
child_node = NULL;
tag = cur_tag;
switch (tag) {
case FDT_END_NODE:
case FDT_NOP:
case FDT_END:
break;
case FDT_PROP:
res = ufdt_new_node(fdtp, cur_fdt_tag_offset, pool);
break;
case FDT_BEGIN_NODE:
res = ufdt_new_node(fdtp, cur_fdt_tag_offset, pool);
do {
cur_fdt_tag_offset = *next_fdt_tag_offset;
tag = fdt_next_tag(fdtp, cur_fdt_tag_offset, next_fdt_tag_offset);
child_node = fdt_to_ufdt_tree(fdtp, cur_fdt_tag_offset,
next_fdt_tag_offset, tag, pool);
ufdt_node_add_child(res, child_node);
} while (tag != FDT_END_NODE);
break;
default:
break;
}
return res;
}
void ufdt_print(struct ufdt *tree) {
ufdt_node_print(tree->root, 0);
}
struct ufdt_node *ufdt_get_node_by_path_len(struct ufdt *tree, const char *path,
int len) {
/*
* RARE: aliases
* In device tree, we can assign some alias to specific nodes by defining
* these relation in "/aliases" node.
* The node has the form:
* {
* a = "/a_for_apple";
* b = "/b_for_banana";
* };
* So the path "a/subnode_1" should be expanded to "/a_for_apple/subnode_1".
*/
if (*path != '/') {
const char *end = path + len;
const char *next_slash;
next_slash = dto_memchr(path, '/', end - path);
if (!next_slash) next_slash = end;
struct ufdt_node *aliases_node =
ufdt_node_get_node_by_path(tree->root, "/aliases");
aliases_node = ufdt_node_get_property_by_name_len(aliases_node, path,
next_slash - path);
int path_len = 0;
const char *alias_path =
ufdt_node_get_fdt_prop_data(aliases_node, &path_len);
if (alias_path == NULL) {
dto_error("Failed to find alias %s\n", path);
return NULL;
}
struct ufdt_node *target_node =
ufdt_node_get_node_by_path_len(tree->root, alias_path, path_len);
return ufdt_node_get_node_by_path_len(target_node, next_slash,
end - next_slash);
}
return ufdt_node_get_node_by_path_len(tree->root, path, len);
}
struct ufdt_node *ufdt_get_node_by_path(struct ufdt *tree, const char *path) {
return ufdt_get_node_by_path_len(tree, path, dto_strlen(path));
}
struct ufdt_node *ufdt_get_node_by_phandle(struct ufdt *tree,
uint32_t phandle) {
struct ufdt_node *res = NULL;
/*
* Do binary search in phandle_table.data.
* [s, e) means the possible range which contains target node.
*/
int s = 0, e = tree->phandle_table.len;
while (e - s > 1) {
int mid = s + ((e - s) >> 1);
uint32_t mid_phandle = tree->phandle_table.data[mid].phandle;
if (phandle < mid_phandle)
e = mid;
else
s = mid;
}
if (e - s > 0 && tree->phandle_table.data[s].phandle == phandle) {
res = tree->phandle_table.data[s].node;
}
return res;
}
static int count_phandle_node(struct ufdt_node *node) {
if (node == NULL) return 0;
if (ufdt_node_tag(node) != FDT_BEGIN_NODE) return 0;
int res = 0;
if (ufdt_node_get_phandle(node) > 0) res++;
struct ufdt_node **it;
for_each_child(it, node) { res += count_phandle_node(*it); }
return res;
}
static void set_phandle_table_entry(struct ufdt_node *node,
struct ufdt_phandle_table_entry *data,
int *cur) {
if (node == NULL || ufdt_node_tag(node) != FDT_BEGIN_NODE) return;
int ph = ufdt_node_get_phandle(node);
if (ph > 0) {
data[*cur].phandle = ph;
data[*cur].node = node;
(*cur)++;
}
struct ufdt_node **it;
for_each_node(it, node) set_phandle_table_entry(*it, data, cur);
return;
}
int phandle_table_entry_cmp(const void *pa, const void *pb) {
uint32_t ph_a = ((const struct ufdt_phandle_table_entry *)pa)->phandle;
uint32_t ph_b = ((const struct ufdt_phandle_table_entry *)pb)->phandle;
if (ph_a < ph_b)
return -1;
else if (ph_a == ph_b)
return 0;
else
return 1;
}
struct ufdt_static_phandle_table build_phandle_table(struct ufdt *tree) {
struct ufdt_static_phandle_table res;
res.len = count_phandle_node(tree->root);
res.data = dto_malloc(sizeof(struct ufdt_phandle_table_entry) * res.len);
int cur = 0;
set_phandle_table_entry(tree->root, res.data, &cur);
dto_qsort(res.data, res.len, sizeof(struct ufdt_phandle_table_entry),
phandle_table_entry_cmp);
return res;
}
struct ufdt *ufdt_from_fdt(void *fdtp, size_t fdt_size,
struct ufdt_node_pool *pool) {
(void)(fdt_size); /* unused parameter */
int start_offset = fdt_path_offset(fdtp, "/");
if (start_offset < 0) {
return ufdt_construct(NULL, pool);
}
struct ufdt *res_tree = ufdt_construct(fdtp, pool);
int end_offset;
int start_tag = fdt_next_tag(fdtp, start_offset, &end_offset);
res_tree->root =
fdt_to_ufdt_tree(fdtp, start_offset, &end_offset, start_tag, pool);
res_tree->phandle_table = build_phandle_table(res_tree);
return res_tree;
}
static int _ufdt_get_property_nameoff(const struct ufdt *tree, const char *name,
const struct ufdt_prop_dict *dict) {
int res;
const struct fdt_property *same_name_prop = ufdt_prop_dict_find(dict, name);
if (same_name_prop != NULL) {
/* There is a property with same name, just use its string offset */
res = fdt32_to_cpu(same_name_prop->nameoff);
} else {
/* Get the string offset from the string table of the current tree */
res = ufdt_get_string_off(tree, name);
if (res == 0) {
dto_error("Cannot find property name in string table: %s\n", name);
return 0;
}
}
return res;
}
static int _ufdt_output_property_to_fdt(
const struct ufdt *tree, void *fdtp,
const struct ufdt_node_fdt_prop *prop_node, struct ufdt_prop_dict *dict) {
int nameoff = _ufdt_get_property_nameoff(tree, prop_node->name, dict);
if (nameoff == 0) return -1;
int data_len = 0;
void *data = ufdt_node_get_fdt_prop_data(&prop_node->parent, &data_len);
int aligned_data_len = (data_len + (FDT_TAGSIZE - 1)) & ~(FDT_TAGSIZE - 1);
int new_propoff = fdt_size_dt_struct(fdtp);
int new_prop_size = sizeof(struct fdt_property) + aligned_data_len;
struct fdt_property *new_prop =
(struct fdt_property *)((char *)fdtp + fdt_off_dt_struct(fdtp) +
new_propoff);
char *fdt_end = (char *)fdtp + fdt_totalsize(fdtp);
if ((char *)new_prop + new_prop_size > fdt_end) {
dto_error("Not enough space for adding property.\n");
return -1;
}
fdt_set_size_dt_struct(fdtp, new_propoff + new_prop_size);
new_prop->tag = cpu_to_fdt32(FDT_PROP);
new_prop->nameoff = cpu_to_fdt32(nameoff);
new_prop->len = cpu_to_fdt32(data_len);
dto_memcpy(new_prop->data, data, data_len);
ufdt_prop_dict_add(dict, new_prop);
return 0;
}
static int _ufdt_output_node_to_fdt(const struct ufdt *tree, void *fdtp,
const struct ufdt_node *node,
struct ufdt_prop_dict *dict) {
uint32_t tag = ufdt_node_tag(node);
if (tag == FDT_PROP) {
return _ufdt_output_property_to_fdt(
tree, fdtp, (const struct ufdt_node_fdt_prop *)node, dict);
}
int err = fdt_begin_node(fdtp, ufdt_node_name(node));
if (err < 0) return -1;
struct ufdt_node **it;
for_each_prop(it, node) {
err = _ufdt_output_node_to_fdt(tree, fdtp, *it, dict);
if (err < 0) return -1;
}
for_each_node(it, node) {
err = _ufdt_output_node_to_fdt(tree, fdtp, *it, dict);
if (err < 0) return -1;
}
err = fdt_end_node(fdtp);
if (err < 0) return -1;
return 0;
}
static int _ufdt_output_strtab_to_fdt(const struct ufdt *tree, void *fdt) {
/* Currently, we don't know the final dt_struct size, so we copy all
string tables to the end of the target fdt buffer in reversed order.
At last, fdt_finish() will adjust dt_string offset */
const char *struct_top =
(char *)fdt + fdt_off_dt_struct(fdt) + fdt_size_dt_struct(fdt);
char *dest = (char *)fdt + fdt_totalsize(fdt);
int dest_size = 0;
for (int i = 0; i < tree->num_used_fdtps; i++) {
void *src_fdt = tree->fdtps[i];
const char *src_strtab = (const char *)src_fdt + fdt_off_dt_strings(src_fdt);
int strtab_size = fdt_size_dt_strings(src_fdt);
dest -= strtab_size;
if (dest < struct_top) {
dto_error("Not enough space for string table.\n");
return -1;
}
dto_memcpy(dest, src_strtab, strtab_size);
dest_size += strtab_size;
}
fdt_set_size_dt_strings(fdt, dest_size);
return 0;
}
int ufdt_to_fdt(const struct ufdt *tree, void *buf, int buf_size) {
if (tree->num_used_fdtps == 0) return -1;
int err;
err = fdt_create(buf, buf_size);
if (err < 0) return -1;
/* Here we output the memory reserve map of the ONLY FIRST fdt,
to be in compliance with the DTO behavior of libfdt. */
int n_mem_rsv = fdt_num_mem_rsv(tree->fdtps[0]);
for (int i = 0; i < n_mem_rsv; i++) {
uint64_t addr, size;
fdt_get_mem_rsv(tree->fdtps[0], i, &addr, &size);
fdt_add_reservemap_entry(buf, addr, size);
}
err = fdt_finish_reservemap(buf);
if (err < 0) return -1;
err = _ufdt_output_strtab_to_fdt(tree, buf);
if (err < 0) return -1;
struct ufdt_prop_dict dict;
err = ufdt_prop_dict_construct(&dict, buf);
if (err < 0) return -1;
err = _ufdt_output_node_to_fdt(tree, buf, tree->root, &dict);
if (err < 0) return -1;
ufdt_prop_dict_destruct(&dict);
err = fdt_finish(buf);
if (err < 0) return -1;
/*
* IMPORTANT: fdt_totalsize(buf) might be less than buf_size
* so this is needed to make use of remain spaces.
*/
return fdt_open_into(buf, buf, buf_size);
}