selinux-policy/refpolicy/support/fc_sort.c

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/* Copyright 2005, Tresys Technology */
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#include <stdio.h>
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typedef unsigned char bool_t;
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/* file_context_node
* A node used in a linked list of file contexts.
* Each node contains the regular expression, the type and
* the context, as well as information about the regular
* expression. The regular expression data (meta, stem_len
* and str_len) can be filled in by using the fc_fill_data
* function after the regular expression has been loaded.
* next points to the next node in the linked list.
*/
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typedef struct file_context_node {
char *regex;
char *file_type;
char *context;
bool_t meta;
int stem_len;
int str_len;
struct file_context_node *next;
} file_context_node_t;
void file_context_node_destroy(file_context_node_t *x)
{
free(x->regex);
free(x->file_type);
free(x->context);
}
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/* file_context_bucket
* A node used in a linked list of buckets that contain
* file_context_node's.
* Each node contains a pointer to a file_context_node which
* is the header of its linked list. This linked list is the
* content of this bucket.
* next points to the next bucket in the linked list.
*/
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typedef struct file_context_bucket {
file_context_node_t *data;
struct file_context_bucket *next;
} file_context_bucket_t;
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/* fc_merge
* Merges two sorted file context linked lists into one
* sorted one.
* Pass two lists a and b, and after the completion of fc_merge,
* the final list is contained in a, and b is empty.
*/
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file_context_node_t *fc_merge(file_context_node_t *a,
file_context_node_t *b)
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{
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file_context_node_t *a_current;
file_context_node_t *b_current;
file_context_node_t *temp;
file_context_node_t *jumpto;
/* If a is a empty list, and b is not,
* set a as b and proceed to the end. */
if (!a && b)
a = b;
/* If b is an empty list, leave a as it is. */
else if (!b) {
} else {
/* Make it so the list a has the lesser
* first element always. */
if (fc_compare(a, b) == 1) {
temp = a;
a = b;
b = temp;
}
a_current = a;
b_current = b;
/* Merge by inserting b's nodes inbetween a's nodes. */
while (a_current->next && b_current) {
jumpto = a_current->next;
/* Insert b's nodes inbetween the current a node
* and the next a node.*/
while (b_current && a_current->next &&
fc_compare(a_current->next,
b_current) != -1) {
temp = a_current->next;
a_current->next = b_current;
b_current = b_current->next;
a_current->next->next = temp;
a_current = a_current->next;
}
/* Skip all the inserted node from b to the
* next node in the original a. */
a_current = jumpto;
}
/* if there is anything left in b to be inserted,
put it on the end */
if (b_current) {
a_current->next = b_current;
}
}
b = NULL;
return a;
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}
/* fc_merge_sort
* Sorts file contexts from least specific to more specific.
* The bucket linked list is passed and after the completion
* of the fc_merge_sort function, there is only one bucket
* (pointed to by master) that contains a linked list
* of all the file contexts, in sorted order.
* Explanation of the algorithm:
* The algorithm implemented in fc_merge_sort is an iterative
* implementation of merge sort.
* At first, each bucket has a linked list of file contexts
* that are 1 element each.
* Each pass, each odd numbered bucket is merged into the bucket
* before it. This halves the number of buckets each pass.
* It will continue passing over the buckets (as described above)
* until there is only one bucket left, containing the list of
* file contexts, sorted.
*/
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void fc_merge_sort(file_context_bucket_t *master)
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{
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int i;
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file_context_bucket_t *current;
file_context_bucket_t *temp;
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file_context_node_t *ncurrent;
file_context_node_t *ntemp;
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/* Loop until master is the only bucket left
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* so that this will stop when master contains
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* the sorted list. */
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while (master->next) {
current = master;
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/* This loop merges buckets two-by-two. */
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while (current) {
if (current->next) {
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/* Merge the next one into the current one. */
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current->data =
fc_merge(current->data,
current->next->data);
/* remove the next bucket that is now empty. */
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temp = current->next;
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current->next = current->next->next;
free(temp);
}
current = current->next;
}
}
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}
/* fc_compare
* Compares two file contexts' regular expressions and returns:
* -1 if a is less specific than b
* 0 if a and be are equally specific
* 1 if a is more specific than b
* The comparison is based on the following statements,
* in order from most important to least important, given a and b:
* If a is a regular expression and b is not,
* -> a is less specific than b.
* If a's stem length is shorter than b's stem length,
* -> a is less specific than b.
* If a's string length is shorter than b's string length,
* -> a is less specific than b.
* If a does not have a specified type and b does not,
* -> a is less specific than b.
*/
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int fc_compare(file_context_node_t *a, file_context_node_t *b)
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{
/* Check to see if either a or b have meta characters
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* and the other doesn't. */
if (a->meta && !b->meta)
return -1;
if (b->meta && !a->meta)
return 1;
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/* Check to see if either a or b have a shorter stem
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* length than the other. */
if (a->stem_len < b->stem_len)
return -1;
if (b->stem_len < a->stem_len)
return 1;
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/* Check to see if either a or b have a shorter string
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* length than the other. */
if (a->str_len < b->str_len)
return -1;
if (b->str_len < b->str_len)
return 1;
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/* Check to see if either a or b has a specified type
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* and the other doesn't. */
if (!a->type && b->type)
return -1;
if (!b->type && a->type)
return 1;
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/* If none of the above conditions were satisfied,
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* then a and b are equally specific. */
return 0;
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}
/* fc_fill_data
* This processes a regular expression in a file context
* and sets the data held in file_context_node, namely
* meta, str_len and stem_len.
* The following changes are made to fc_node after the
* the completion of the function:
* fc_node->meta = 1 if regex has a meta character,
* 0 if not.
* fc_node->str_len = The string length of the regular
* expression.
* fc_node->stem_len = The number of characters up until
* the first meta character.
*/
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void fc_fill_data(file_context_node_t *fc_node)
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{
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int c = 0;
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fc_node->meta = 0;
fc_node->stem_len = 0;
fc_node->str_len = 0;
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/* Process until the string termination character
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* has been reached.
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* Note: this while loop has been adapted from
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* spec_hasMetaChars in matchpathcon.c from
* libselinux-1.22. */
while (fc_node->regex[c] != 0) {
switch (fc_node->regex[c]) {
case '.':
case '^':
case '$':
case '?':
case '*':
case '+':
case '|':
case '[':
case '(':
case '{':
/* If a meta character is found,
* set meta to one */
fc_node->meta = 1;
break;
case '\\':
/* If a escape character is found,
* skip the next character. */
c++;
default:
/* If no meta character has been found yet,
* add one to the stem length. */
if (!fc_node->meta)
fc_node->stem_len++;
break;
}
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fc_node->str_len++;
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c++;
}
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}
/* main
* This program takes in two arguments, the input filename and the
* output filename. The input file should be syntactically correct.
* Overall what is done in the main is read in the file and store each
* line of code, sort it, then output it to the output file.
*/
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int main(int argc, char *argv[])
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{
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int lines;
size_t start, finish, regex_len;
size_t line_len, i, j;
char *str, *input_name, *output_name, *line_buf;
file_context_node_t *temp;
file_context_node_t *head;
file_context_node_t *current;
file_context_node_t *array;
file_context_bucket_t *master;
file_context_bucket_t *bcurrent;
FILE *in_file, *out_file;
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/* Check for the correct number of command line arguments. */
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if (argc != 3) {
fprintf(stderr, "Error: invalid number of command line arguments.\n");
return 1;
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}
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input_name = argv[1];
output_name = argv[2];
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i = j = lines = 0;
/* Make sure to have a terminating character, always. */
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line_buf[BUF_SIZE - 1] = '\0';
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/* Open the input file. */
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if (!(in_file = fopen(input_name), "r")) {
fprintf(stderr, "Error: failure opening input file for read.\n");
return 1;
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}
/* Parse the file into a file_context linked list. */
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buf = NULL;
while (getline(&line_buf, &line_len, in_file) {
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/* Get rid of whitespace from the front of the line. */
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for (i = 0; i < line_len; i++) {
if (line_buf[i] != ' ' || line_buf[i] != '\t')
break;
}
if (i >= line_len)
continue;
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/* Check if the line isn't empty and isn't a comment */
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if (line_buf[i] == '#')
continue;
/* We have a valid line - allocate a new node. */
temp = (file_context_node_t *)malloc(sizeof(file_context_node_t));
if (!temp) {
fprintf(stderr, "Error: failure allocating memory.\n");
return 1;
}
memset(temp, 0, sizeof(file_context_node_t));
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/* Parse out the regular expression from the line. */
start = i;
while (i < line_len && (line_buf[i] != ' ' || line_buf[i] != '\t'))
i++;
finish = i;
regex_len = start - finish;
if (regex_len == 0) {
file_context_node_destroy(temp);
free(temp);
continue;
}
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temp->path = strndup(&line_buf[start], regex_len);
if (!temp->path) {
file_context_node_destroy(temp);
free(temp);
fprintf(stderr, "Memory error\n");
return 1;
}
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/* Get rid of whitespace after the regular expression. */
for (; i < line_len; i++) {
if (line_buf[i] != ' ' || line_buf[i] != '\t')
break;
}
if (i == line_len) {
file_context_node_destroy(temp);
free(temp);
continue;
}
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/* Parse out the type from the line (if it
* is there). */
if (line_buf[i] == '-') {
temp->type = (char *)malloc(sizeof(char) * 3);
if (!(temp->type)) {
fprintf(stderr, "Error: failure allocating memory.\n");
return 1;
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}
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/* Fill the type into the array. */
temp->type[0] = line_buf[i];
temp->type[1] = line_buf[i + 1];
i += 2;
temp->type[2] = 0;
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/* Get rid of whitespace after the type. */
while (line_buf[i] <= ' ')
i++;
}
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/* Parse out the context from the line. */
start = i;
while (line_buf[i] > ' ')
i++;
finish = i;
/* Allocate a character array to hold the context. */
temp->context =
(char *) malloc(sizeof(char) *
(finish - start + 1));
if (!(temp->context)) {
printf
("Error: failure allocating memory.\n");
return -1;
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}
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temp->context[0] = 0;
/* Fill the context array. */
temp->context[(finish - start)] = 0;
for (j = 0; j < finish - start; j++) {
temp->context[j] = line_buf[j + start];
}
/* Set all the data about the regular
* expression. */
fc_fill_data(temp);
/* Link this line of code at the end of
* the linked list. */
current->next = temp;
current = current->next;
lines++;
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}
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free(buf);
fclose(path);
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/* Create the bucket linked list from the earlier linked list. */
current = head->next;
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bcurrent = master =
(file_context_bucket_t *)
malloc(sizeof(file_context_bucket_t));
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/* Go until all the nodes have been put in individual buckets. */
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while (current) {
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/* Copy over the file context line into the bucket. */
bcurrent->data = current;
current = current->next;
/* Detatch the node in the bucket from the old list. */
bcurrent->data->next = NULL;
/* If there should be another bucket, put one at the end. */
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if (current) {
bcurrent->next =
(file_context_bucket_t *)
malloc(sizeof(file_context_bucket_t));
if (!(bcurrent->next)) {
printf
("Error: failure allocating memory.\n");
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return -1;
}
/* Make sure the new bucket thinks it's the end of the
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* list. */
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bcurrent->next->next = NULL;
bcurrent = bcurrent->next;
}
}
/* Sort the bucket list. */
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fc_merge_sort(master);
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/* Open the output file. */
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if (!(path = fopen(argv[2], "w"))) {
printf("Error: failure opening output file for write.\n");
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return -1;
}
/* Output the sorted file_context linked list to the output file. */
current = master->data;
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while (current) {
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/* Output the regular expression. */
i = 0;
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while (current->regex[i] != 0) {
fprintf(path, "%c", current->regex[i]);
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i++;
}
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fprintf(path, "\t");
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/* Output the type, if there is one. */
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if (current->type) {
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i = 0;
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while (current->type[i] != 0) {
fprintf(path, "%c", current->type[i]);
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i++;
}
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fprintf(path, "\t");
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}
/* Output the context. */
i = 0;
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while (current->context[i] != 0) {
fprintf(path, "%c", current->context[i]);
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i++;
}
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fprintf(path, "\n");
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/* Remove the node. */
temp = current;
current = current->next;
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free(temp->regex);
if (temp->type)
free(temp->type);
free(temp->context);
free(temp);
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}
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free(master);
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fclose(path);
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return 0;
}