#include <ctype.h>

#include <netdb.h>

#include <poll.h>

#include "talloc.h"

#include "util/util.h"

#include "util/sss_utf8.h"

#include "dhash.h"

int split_on_separator(TALLOC_CTX *mem_ctx, const char *str,

const char sep, bool trim, char ***_list, int *size)

{

const char *t, *p, *n;

size_t l, len;

char **list, **r;

const char sep_str[2] = { sep, '\0'};

if (!str || !*str || !_list) return EINVAL;

t = str;

list = NULL;

l = 0;

/* trim leading whitespace */

if (trim)

while (isspace(*t)) t++;

/* find substrings separated by the separator */

while (t && (p = strpbrk(t, sep_str))) {

len = p - t;

n = p + 1; /* save next string starting point */

if (trim) {

/* strip whitespace after the separator

while (isspace(*t)) {

t++;

len--;

if (len == 0) break;

}

p--;

/* strip whitespace before the separator

while (len > 0 && (isspace(*p))) {

len--;

p--;

}

}

/* Add the token to the array, +2 b/c of the trailing NULL */

r = talloc_realloc(mem_ctx, list, char *, l + 2);

if (!r) {

talloc_free(list);

return ENOMEM;

} else {

list = r;

}

if (len == 0) {

list[l] = talloc_strdup(list, "");

} else {

list[l] = talloc_strndup(list, t, len);

}

if (!list[l]) {

talloc_free(list);

return ENOMEM;

}

l++;

t = n; /* move to next string */

}

/* Handle the last remaining token */

if (t) {

r = talloc_realloc(mem_ctx, list, char *, l + 2);

if (!r) {

talloc_free(list);

return ENOMEM;

} else {

list = r;

}

if (trim) {

/* trim leading whitespace */

len = strlen(t);

while (isspace(*t)) {

t++;

len--;

if (len == 0) break;

}

/* trim trailing whitespace */

p = t + len - 1;

while (len > 0 && (isspace(*p))) {

len--;

p--;

}

if (len == 0) {

list[l] = talloc_strdup(list, "");

} else {

list[l] = talloc_strndup(list, t, len);

}

} else {

list[l] = talloc_strdup(list, t);

}

if (!list[l]) {

talloc_free(list);

return ENOMEM;

}

l++;

}

list[l] = NULL; /* terminate list */

if (size) *size = l;

*_list = list;

return EOK;

}

static void free_args(char **args)

{

int i;

if (args) {

for (i = 0; args[i]; i++) free(args[i]);

free(args);

}

}

char **parse_args(const char *str)

{

const char *p;

char **ret, **r;

char *tmp;

int num;

int i;

bool e, w;

tmp = malloc(strlen(str) + 1);

if (!tmp) return NULL;

ret = NULL;

num = 0;

i = 0;

e = false;

w = false;

p = str;

while (*p) {

if (*p == '\\') {

w = false;

if (e) {

/* if we were already escaping, add a '\' literal */

tmp[i] = '\\';

i++;

e = false;

} else {

/* otherwise just start escaping */

e = true;

}

} else if (isspace(*p)) {

if (e) {

/* Add escaped whitespace literally */

tmp[i] = *p;

i++;

e = false;

} else if (w == false) {

/* If previous character was non-whitespace, arg break */

tmp[i] = '\0';

i++;

w = true;

}

/* previous char was whitespace as well, skip it */

} else {

w = false;

if (e) {

/* Prepend escaped chars with a literal \ */

tmp[i] = '\\';

i++;

e = false;

}

/* Copy character from the source string */

tmp[i] = *p;

i++;

}

p++;

/* check if this was the last char */

if (*p == '\0') {

if (e) {

tmp[i] = '\\';

i++;

e = false;

}

tmp[i] = '\0';

i++;

}

if (tmp[i-1] != '\0' || strlen(tmp) == 0) {

/* check next char and skip multiple spaces */

continue;

}

r = realloc(ret, (num + 2) * sizeof(char *));

if (!r) goto fail;

ret = r;

ret[num+1] = NULL;

ret[num] = strdup(tmp);

if (!ret[num]) goto fail;

num++;

i = 0;

}

free(tmp);

return ret;

fail:

free(tmp);

free_args(ret);

return NULL;

}

char **dup_string_list(TALLOC_CTX *memctx, const char **str_list)

{

int i = 0;

int j = 0;

char **dup_list;

if (!str_list) {

return NULL;

}

/* Find the size of the list */

while (str_list[i]) i++;

dup_list = talloc_array(memctx, char *, i+1);

if (!dup_list) {

return NULL;

}

/* Copy the elements */

for (j = 0; j < i; j++) {

dup_list[j] = talloc_strdup(dup_list, str_list[j]);

if (!dup_list[j]) {

talloc_free(dup_list);

return NULL;

}

}

/* NULL-terminate the list */

dup_list[i] = NULL;

return dup_list;

}

errno_t diff_string_lists(TALLOC_CTX *memctx,

char **_list1,

char **_list2,

char ***_list1_only,

char ***_list2_only,

char ***_both_lists)

{

int error;

errno_t ret;

int i;

int i2 = 0;

int i12 = 0;

hash_table_t *table;

hash_key_t key;

hash_value_t value;

char **list1 = NULL;

char **list2 = NULL;

char **list1_only = NULL;

char **list2_only = NULL;

char **both_lists = NULL;

unsigned long count;

hash_key_t *keys;

TALLOC_CTX *tmp_ctx = talloc_new(memctx);

if (!tmp_ctx) {

return ENOMEM;

}

if (!_list1) {

list1 = talloc_array(tmp_ctx, char *, 1);

if (!list1) {

talloc_free(tmp_ctx);

return ENOMEM;

}

list1[0] = NULL;

}

else {

list1 = _list1;

}

if (!_list2) {

list2 = talloc_array(tmp_ctx, char *, 1);

if (!list2) {

talloc_free(tmp_ctx);

return ENOMEM;

}

list2[0] = NULL;

}

else {

list2 = _list2;

}

error = hash_create(10, &table, NULL, NULL);

if (error != HASH_SUCCESS) {

talloc_free(tmp_ctx);

return EIO;

}

key.type = HASH_KEY_STRING;

value.type = HASH_VALUE_UNDEF;

/* Add all entries from list 1 into a hash table */

i = 0;

while (list1[i]) {

key.str = talloc_strdup(tmp_ctx, list1[i]);

error = hash_enter(table, &key, &value);

if (error != HASH_SUCCESS) {

ret = EIO;

goto done;

}

i++;

}

/* Iterate through list 2 and remove matching items */

i = 0;

while (list2[i]) {

key.str = talloc_strdup(tmp_ctx, list2[i]);

error = hash_delete(table, &key);

if (error == HASH_SUCCESS) {

if (_both_lists) {

/* String was present in both lists */

i12++;

both_lists = talloc_realloc(tmp_ctx, both_lists, char *, i12+1);

if (!both_lists) {

ret = ENOMEM;

goto done;

}

both_lists[i12-1] = talloc_strdup(both_lists, list2[i]);

if (!both_lists[i12-1]) {

ret = ENOMEM;

goto done;

}

both_lists[i12] = NULL;

}

}

else if (error == HASH_ERROR_KEY_NOT_FOUND) {

if (_list2_only) {

/* String was present only in list2 */

i2++;

list2_only = talloc_realloc(tmp_ctx, list2_only,

char *, i2+1);

if (!list2_only) {

ret = ENOMEM;

goto done;

}

list2_only[i2-1] = talloc_strdup(list2_only, list2[i]);

if (!list2_only[i2-1]) {

ret = ENOMEM;

goto done;

}

list2_only[i2] = NULL;

}

}

else {

/* An error occurred */

ret = EIO;

goto done;

}

i++;

}

/* Get the leftover entries in the hash table */

if (_list1_only) {

error = hash_keys(table, &count, &keys);

if (error != HASH_SUCCESS) {

ret = EIO;

goto done;

}

list1_only = talloc_array(tmp_ctx, char *, count+1);

if (!list1_only) {

ret = ENOMEM;

goto done;

}

for (i = 0; i < count; i++) {

list1_only[i] = talloc_strdup(list1_only, keys[i].str);

if (!list1_only[i]) {

ret = ENOMEM;

goto done;

}

}

list1_only[count] = NULL;

free(keys);

*_list1_only = talloc_steal(memctx, list1_only);

}

if (_list2_only) {

if (list2_only) {

*_list2_only = talloc_steal(memctx, list2_only);

}

else {

*_list2_only = talloc_array(memctx, char *, 1);

if (!(*_list2_only)) {

ret = ENOMEM;

goto done;

}

*_list2_only[0] = NULL;

}

}

if (_both_lists) {

if (both_lists) {

*_both_lists = talloc_steal(memctx, both_lists);

}

else {

*_both_lists = talloc_array(memctx, char *, 1);

if (!(*_both_lists)) {

ret = ENOMEM;

goto done;

}

*_both_lists[0] = NULL;

}

}

ret = EOK;

done:

hash_destroy(table);

talloc_free(tmp_ctx);

return ret;

}

static void *hash_talloc(const size_t size, void *pvt)

{

return talloc_size(pvt, size);

}

static void hash_talloc_free(void *ptr, void *pvt)

{

talloc_free(ptr);

}

errno_t sss_hash_create_ex(TALLOC_CTX *mem_ctx,

unsigned long count,

hash_table_t **tbl,

unsigned int directory_bits,

unsigned int segment_bits,

unsigned long min_load_factor,

unsigned long max_load_factor,

hash_delete_callback *delete_callback,

void *delete_private_data)

{

errno_t ret;

hash_table_t *table;

int hret;

TALLOC_CTX *internal_ctx;

internal_ctx = talloc_new(NULL);

if (!internal_ctx) {

return ENOMEM;

}

hret = hash_create_ex(count, &table, directory_bits, segment_bits,

min_load_factor, max_load_factor,

hash_talloc, hash_talloc_free, internal_ctx,

delete_callback, delete_private_data);

switch (hret) {

case HASH_SUCCESS:

/* Steal the table pointer onto the mem_ctx,

*tbl = talloc_steal(mem_ctx, table);

talloc_steal(table, internal_ctx);

return EOK;

case HASH_ERROR_NO_MEMORY:

ret = ENOMEM;

break;

default:

ret = EIO;

}

DEBUG(0, ("Could not create hash table: [%d][%s]\n",

hret, hash_error_string(hret)));

talloc_free(internal_ctx);

return ret;

}

errno_t sss_hash_create(TALLOC_CTX *mem_ctx, unsigned long count,

hash_table_t **tbl)

{

return sss_hash_create_ex(mem_ctx, count, tbl, 0, 0, 0, 0, NULL, NULL);

}

errno_t sss_filter_sanitize(TALLOC_CTX *mem_ctx,

const char *input,

char **sanitized)

{

char *output;

size_t i = 0;

size_t j = 0;

/* Assume the worst-case. We'll resize it later, once */

output = talloc_array(mem_ctx, char, strlen(input) * 3 + 1);

if (!output) {

return ENOMEM;

}

while (input[i]) {

switch(input[i]) {

case '*':

output[j++] = '\\';

output[j++] = '2';

output[j++] = 'a';

break;

case '(':

output[j++] = '\\';

output[j++] = '2';

output[j++] = '8';

break;

case ')':

output[j++] = '\\';

output[j++] = '2';

output[j++] = '9';

break;

case '\\':

output[j++] = '\\';

output[j++] = '5';

output[j++] = 'c';

break;

default:

output[j++] = input[i];

}

i++;

}

output[j] = '\0';

*sanitized = talloc_realloc(mem_ctx, output, char, j+1);

if (!*sanitized) {

talloc_free(output);

return ENOMEM;

}

return EOK;

}

char *

sss_escape_ip_address(TALLOC_CTX *mem_ctx, int family, const char *addr)

{

return family == AF_INET6 ? talloc_asprintf(mem_ctx, "[%s]", addr) :

talloc_strdup(mem_ctx, addr);

}

void to_sized_string(struct sized_string *out, const char *in)

{

out->str = in;

if (out->str) {

out->len = strlen(out->str) + 1;

} else {

out->len = 0;

}

}