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index.c
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index.c
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/* index.c: module index file shared functions for modprobe and depmod
Copyright (C) 2008 Alan Jenkins <[email protected]>.
These programs are 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; either version 2 of the License, or
(at your option) any later version.
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.
You should have received a copy of the GNU General Public License
along with these programs. If not, see <http://www.gnu.org/licenses/>.
*/
#include <arpa/inet.h> /* htonl */
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <fnmatch.h>
#include "util.h"
#include "logging.h"
#include "index.h"
#include "testing.h"
/*
* Index abstract data type (used only by depmod)
*/
struct index_node *index_create()
{
struct index_node *node;
node = NOFAIL(calloc(sizeof(struct index_node), 1));
node->prefix = NOFAIL(strdup(""));
node->first = INDEX_CHILDMAX;
return node;
}
void index_values_free(struct index_value *values)
{
while (values) {
struct index_value *value = values;
values = value->next;
free(value);
}
}
void index_destroy(struct index_node *node)
{
int c;
for (c = node->first; c <= node->last; c++) {
struct index_node *child = node->children[c];
if (child)
index_destroy(child);
}
index_values_free(node->values);
free(node->prefix);
free(node);
}
static void index__checkstring(const char *str)
{
int i;
for (i = 0; str[i]; i++) {
int ch = str[i];
if (ch >= INDEX_CHILDMAX)
fatal("Module index: bad character '%c'=0x%x - only 7-bit ASCII is supported:"
"\n%s\n", (char) ch, (int) ch, str);
}
}
static int add_value(struct index_value **values,
const char *value, unsigned int priority)
{
struct index_value *v;
int duplicate = 0;
int len;
/* report the presence of duplicate values */
for (v = *values; v; v = v->next) {
if (streq(v->value, value))
duplicate = 1;
}
/* find position to insert value */
while (*values && (*values)->priority < priority)
values = &(*values)->next;
len = strlen(value);
v = NOFAIL(calloc(sizeof(struct index_value) + len + 1, 1));
v->next = *values;
v->priority = priority;
memcpy(v->value, value, len + 1);
*values = v;
return duplicate;
}
int index_insert(struct index_node *node, const char *key,
const char *value, unsigned int priority)
{
int i = 0; /* index within str */
int ch;
index__checkstring(key);
index__checkstring(value);
while(1) {
int j; /* index within node->prefix */
/* Ensure node->prefix is a prefix of &str[i].
If it is not already, then we must split node. */
for (j = 0; node->prefix[j]; j++) {
ch = node->prefix[j];
if (ch != key[i+j]) {
char *prefix = node->prefix;
struct index_node *n;
/* New child is copy of node with prefix[j+1..N] */
n = NOFAIL(calloc(sizeof(struct index_node), 1));
memcpy(n, node, sizeof(struct index_node));
n->prefix = NOFAIL(strdup(&prefix[j+1]));
/* Parent has prefix[0..j], child at prefix[j] */
memset(node, 0, sizeof(struct index_node));
prefix[j] = '\0';
node->prefix = prefix;
node->first = ch;
node->last = ch;
node->children[ch] = n;
break;
}
}
/* j is now length of node->prefix */
i += j;
ch = key[i];
if(ch == '\0')
return add_value(&node->values, value, priority);
if (!node->children[ch]) {
struct index_node *child;
if (ch < node->first)
node->first = ch;
if (ch > node->last)
node->last = ch;
node->children[ch] = NOFAIL(calloc(sizeof(struct index_node), 1));
child = node->children[ch];
child->prefix = NOFAIL(strdup(&key[i+1]));
child->first = INDEX_CHILDMAX;
add_value(&child->values, value, priority);
return 0;
}
/* Descend into child node and continue */
node = node->children[ch];
i++;
}
}
static int index__haschildren(const struct index_node *node)
{
return node->first < INDEX_CHILDMAX;
}
/* Recursive post-order traversal
Pre-order would make for better read-side buffering / readahead / caching.
(post-order means you go backwards in the file as you descend the tree).
However, index reading is already fast enough.
Pre-order is simpler for writing, and depmod is already slow.
*/
static uint32_t index_write__node(const struct index_node *node, FILE *out)
{
uint32_t *child_offs = NULL;
int child_count = 0;
long offset;
if (!node)
return 0;
/* Write children and save their offsets */
if (index__haschildren(node)) {
const struct index_node *child;
int i;
child_count = node->last - node->first + 1;
child_offs = NOFAIL(malloc(child_count * sizeof(uint32_t)));
for (i = 0; i < child_count; i++) {
child = node->children[node->first + i];
child_offs[i] = htonl(index_write__node(child, out));
}
}
/* Now write this node */
offset = ftell(out);
if (node->prefix[0]) {
fputs(node->prefix, out);
fputc('\0', out);
offset |= INDEX_NODE_PREFIX;
}
if (child_count) {
fputc(node->first, out);
fputc(node->last, out);
fwrite(child_offs, sizeof(uint32_t), child_count, out);
free(child_offs);
offset |= INDEX_NODE_CHILDS;
}
if (node->values) {
const struct index_value *v;
unsigned int value_count;
uint32_t u;
value_count = 0;
for (v = node->values; v != NULL; v = v->next)
value_count++;
u = htonl(value_count);
fwrite(&u, sizeof(u), 1, out);
for (v = node->values; v != NULL; v = v->next) {
u = htonl(v->priority);
fwrite(&u, sizeof(u), 1, out);
fputs(v->value, out);
fputc('\0', out);
}
offset |= INDEX_NODE_VALUES;
}
return offset;
}
void index_write(const struct index_node *node, FILE *out)
{
long initial_offset, final_offset;
uint32_t u;
u = htonl(INDEX_MAGIC);
fwrite(&u, sizeof(u), 1, out);
u = htonl(INDEX_VERSION);
fwrite(&u, sizeof(u), 1, out);
/* Second word is reserved for the offset of the root node */
initial_offset = ftell(out);
u = 0;
fwrite(&u, sizeof(uint32_t), 1, out);
/* Dump trie */
u = htonl(index_write__node(node, out));
/* Update first word */
final_offset = ftell(out);
fseek(out, initial_offset, SEEK_SET);
fwrite(&u, sizeof(uint32_t), 1, out);
fseek(out, final_offset, SEEK_SET);
}
static void read_error()
{
fatal("Module index: unexpected error: %s\n"
"Try re-running depmod\n", errno ? strerror(errno) : "EOF");
}
static int read_char(FILE *in)
{
int ch;
errno = 0;
ch = getc_unlocked(in);
if (ch == EOF)
read_error();
return ch;
}
static uint32_t read_long(FILE *in)
{
uint32_t l;
errno = 0;
if (fread(&l, sizeof(uint32_t), 1, in) <= 0)
read_error();
return ntohl(l);
}
/*
* Buffer abstract data type
*
* Used internally to store the current path during tree traversal.
* They help build wildcard key strings to pass to fnmatch(),
* as well as building values of matching keys.
*/
struct buffer {
char *bytes;
unsigned size;
unsigned used;
};
static void buf__realloc(struct buffer *buf, unsigned size)
{
if (size > buf->size) {
buf->bytes = NOFAIL(realloc(buf->bytes, size));
buf->size = size;
}
}
static struct buffer *buf_create()
{
struct buffer *buf;
buf = NOFAIL(calloc(sizeof(struct buffer), 1));
buf__realloc(buf, 256);
return buf;
}
static void buf_destroy(struct buffer *buf)
{
free(buf->bytes);
free(buf);
}
/* Destroy buffer and return a copy as a C string */
static char *buf_detach(struct buffer *buf)
{
char *bytes;
bytes = NOFAIL(realloc(buf->bytes, buf->used + 1));
bytes[buf->used] = '\0';
free(buf);
return bytes;
}
/* Return a C string owned by the buffer
(invalidated if the buffer is changed).
*/
static const char *buf_str(struct buffer *buf)
{
buf__realloc(buf, buf->used + 1);
buf->bytes[buf->used] = '\0';
return buf->bytes;
}
static int buf_fwrite(struct buffer *buf, FILE *out)
{
return fwrite(buf->bytes, 1, buf->used, out);
}
static void buf_pushchar(struct buffer *buf, char ch)
{
buf__realloc(buf, buf->used + 1);
buf->bytes[buf->used] = ch;
buf->used++;
}
static unsigned buf_pushchars(struct buffer *buf, const char *str)
{
unsigned i = 0;
int ch;
while ((ch = str[i])) {
buf_pushchar(buf, ch);
i++;
}
return i;
}
/* like buf_pushchars(), but the string comes from a file */
static unsigned buf_freadchars(struct buffer *buf, FILE *in)
{
unsigned i = 0;
int ch;
while ((ch = read_char(in))) {
buf_pushchar(buf, ch);
i++;
}
return i;
}
static void buf_popchar(struct buffer *buf)
{
buf->used--;
}
static void buf_popchars(struct buffer *buf, unsigned n)
{
buf->used -= n;
}
static void buf_clear(struct buffer *buf)
{
buf->used = 0;
}
/*
* Index file searching (used only by modprobe)
*/
struct index_node_f {
FILE *file;
char *prefix; /* path compression */
struct index_value *values;
unsigned char first; /* range of child nodes */
unsigned char last;
uint32_t children[0];
};
static struct index_node_f *index_read(FILE *in, uint32_t offset)
{
struct index_node_f *node;
char *prefix;
int i, child_count = 0;
if ((offset & INDEX_NODE_MASK) == 0)
return NULL;
fseek(in, offset & INDEX_NODE_MASK, SEEK_SET);
if (offset & INDEX_NODE_PREFIX) {
struct buffer *buf = buf_create();
buf_freadchars(buf, in);
prefix = buf_detach(buf);
} else
prefix = NOFAIL(strdup(""));
if (offset & INDEX_NODE_CHILDS) {
char first = read_char(in);
char last = read_char(in);
child_count = last - first + 1;
node = NOFAIL(malloc(sizeof(struct index_node_f) +
sizeof(uint32_t) * child_count));
node->first = first;
node->last = last;
for (i = 0; i < child_count; i++)
node->children[i] = read_long(in);
} else {
node = NOFAIL(malloc(sizeof(struct index_node_f)));
node->first = INDEX_CHILDMAX;
node->last = 0;
}
node->values = NULL;
if (offset & INDEX_NODE_VALUES) {
int value_count;
struct buffer *buf = buf_create();
const char *value;
unsigned int priority;
value_count = read_long(in);
while (value_count--) {
priority = read_long(in);
buf_freadchars(buf, in);
value = buf_str(buf);
add_value(&node->values, value, priority);
buf_clear(buf);
}
buf_destroy(buf);
}
node->prefix = prefix;
node->file = in;
return node;
}
static void index_close(struct index_node_f *node)
{
free(node->prefix);
index_values_free(node->values);
free(node);
}
struct index_file {
FILE *file;
uint32_t root_offset;
};
/* Failures are silent; modprobe will fall back to text files */
struct index_file *index_file_open(const char *filename)
{
FILE *file;
uint32_t magic, version;
struct index_file *new;
file = fopen(filename, "r");
if (!file)
return NULL;
errno = EINVAL;
magic = read_long(file);
if (magic != INDEX_MAGIC)
return NULL;
version = read_long(file);
if (version >> 16 != INDEX_VERSION_MAJOR)
return NULL;
new = NOFAIL(malloc(sizeof(struct index_file)));
new->file = file;
new->root_offset = read_long(new->file);
errno = 0;
return new;
}
void index_file_close(struct index_file *index)
{
fclose(index->file);
free(index);
}
static struct index_node_f *index_readroot(struct index_file *in)
{
return index_read(in->file, in->root_offset);
}
static struct index_node_f *index_readchild(const struct index_node_f *parent,
int ch)
{
if (parent->first <= ch && ch <= parent->last)
return index_read(parent->file,
parent->children[ch - parent->first]);
else
return NULL;
}
/*
* Dump all strings as lines in a plain text file.
*/
static void index_dump_node(struct index_node_f *node,
struct buffer *buf,
FILE *out,
const char *prefix)
{
struct index_value *v;
int ch, pushed;
pushed = buf_pushchars(buf, node->prefix);
for (v = node->values; v != NULL; v = v->next) {
fputs(prefix, out);
buf_fwrite(buf, out);
fputc(' ', out);
fputs(v->value, out);
fputc('\n', out);
}
for (ch = node->first; ch <= node->last; ch++) {
struct index_node_f *child = index_readchild(node, ch);
if (!child)
continue;
buf_pushchar(buf, ch);
index_dump_node(child, buf, out, prefix);
buf_popchar(buf);
}
buf_popchars(buf, pushed);
index_close(node);
}
void index_dump(struct index_file *in, FILE *out, const char *prefix)
{
struct index_node_f *root;
struct buffer *buf;
buf = buf_create();
root = index_readroot(in);
index_dump_node(root, buf, out, prefix);
buf_destroy(buf);
}
/*
* Search the index for a key
*
* Returns the value of the first match
*
* The recursive functions free their node argument (using index_close).
*/
char *index_search(struct index_file *in, const char *key);
static char *index_search__node(struct index_node_f *node, const char *key, int i);
char *index_search(struct index_file *in, const char *key)
{
struct index_node_f *root;
char *value;
root = index_readroot(in);
value = index_search__node(root, key, 0);
return value;
}
static char *index_search__node(struct index_node_f *node, const char *key, int i)
{
char *value;
struct index_node_f *child;
int ch;
int j;
while(node) {
for (j = 0; node->prefix[j]; j++) {
ch = node->prefix[j];
if (ch != key[i+j]) {
index_close(node);
return NULL;
}
}
i += j;
if (key[i] == '\0') {
if (node->values) {
value = strdup(node->values[0].value);
index_close(node);
return value;
} else {
return NULL;
}
}
child = index_readchild(node, key[i]);
index_close(node);
node = child;
i++;
}
return NULL;
}
/*
* Search the index for a key. The index may contain wildcards.
*
* Returns a list of all the values of matching keys.
*/
/* Level 1: interface function */
struct index_value *index_searchwild(struct index_file *in, const char *key);
/* Level 2: descend the tree (until we hit a wildcard) */
static void index_searchwild__node(struct index_node_f *node,
struct buffer *buf,
const char *key, int i,
struct index_value **out);
/* Level 3: traverse a sub-keyspace which starts with a wildcard,
looking for matches.
*/
static void index_searchwild__all(struct index_node_f *node, int j,
struct buffer *buf,
const char *subkey,
struct index_value **out);
/* Level 4: add all the values from a matching node */
static void index_searchwild__allvalues(struct index_node_f *node,
struct index_value **out);
struct index_value *index_searchwild(struct index_file *in, const char *key)
{
struct index_node_f *root = index_readroot(in);
struct buffer *buf = buf_create();
struct index_value *out = NULL;
index_searchwild__node(root, buf, key, 0, &out);
buf_destroy(buf);
return out;
}
static void index_searchwild__node(struct index_node_f *node,
struct buffer *buf,
const char *key, int i,
struct index_value **out)
{
struct index_node_f *child;
int j;
int ch;
while(node) {
for (j = 0; node->prefix[j]; j++) {
ch = node->prefix[j];
if (ch == '*' || ch == '?' || ch == '[') {
index_searchwild__all(node, j, buf,
&key[i+j], out);
return;
}
if (ch != key[i+j]) {
index_close(node);
return;
}
}
i += j;
child = index_readchild(node, '*');
if (child) {
buf_pushchar(buf, '*');
index_searchwild__all(child, 0, buf, &key[i], out);
buf_popchar(buf);
}
child = index_readchild(node, '?');
if (child) {
buf_pushchar(buf, '?');
index_searchwild__all(child, 0, buf, &key[i], out);
buf_popchar(buf);
}
child = index_readchild(node, '[');
if (child) {
buf_pushchar(buf, '[');
index_searchwild__all(child, 0, buf, &key[i], out);
buf_popchar(buf);
}
if (key[i] == '\0') {
index_searchwild__allvalues(node, out);
return;
}
child = index_readchild(node, key[i]);
index_close(node);
node = child;
i++;
}
}
static void index_searchwild__all(struct index_node_f *node, int j,
struct buffer *buf,
const char *subkey,
struct index_value **out)
{
int pushed = 0;
int ch;
while (node->prefix[j]) {
ch = node->prefix[j];
buf_pushchar(buf, ch);
pushed++;
j++;
}
for (ch = node->first; ch <= node->last; ch++) {
struct index_node_f *child = index_readchild(node, ch);
if (!child)
continue;
buf_pushchar(buf, ch);
index_searchwild__all(child, 0, buf, subkey, out);
buf_popchar(buf);
}
if (node->values) {
if (fnmatch(buf_str(buf), subkey, 0) == 0)
index_searchwild__allvalues(node, out);
} else {
index_close(node);
}
buf_popchars(buf, pushed);
}
static void index_searchwild__allvalues(struct index_node_f *node,
struct index_value **out)
{
struct index_value *v;
for (v = node->values; v != NULL; v = v->next)
add_value(out, v->value, v->priority);
index_close(node);
}