/*
* Copyright (c) 2012 Red Hat Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above
* copyright notice, this list of conditions and the
* following disclaimer.
* * Redistributions in binary form must reproduce the
* above copyright notice, this list of conditions and
* the following disclaimer in the documentation and/or
* other materials provided with the distribution.
* * The names of contributors to this software may not be
* used to endorse or promote products derived from this
* software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
* THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
* DAMAGE.
*
* Author: Stef Walter <stefw@gnome.org>
*/
#include "config.h"
#include "test.h"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include "attrs.h"
#include "debug.h"
static void
test_terminator (void)
{
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_LABEL, NULL, 0 },
{ CKA_INVALID },
};
assert_num_eq (true, p11_attrs_terminator (attrs + 2));
assert_num_eq (true, p11_attrs_terminator (NULL));
assert_num_eq (false, p11_attrs_terminator (attrs));
assert_num_eq (false, p11_attrs_terminator (attrs + 1));
}
static void
test_count (void)
{
CK_BBOOL vtrue = CK_TRUE;
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_TOKEN, &vtrue, sizeof (vtrue) },
{ CKA_INVALID },
};
CK_ATTRIBUTE empty[] = {
{ CKA_INVALID },
};
assert_num_eq (2, p11_attrs_count (attrs));
assert_num_eq (0, p11_attrs_count (NULL));
assert_num_eq (0, p11_attrs_count (empty));
}
static void
test_build_one (void)
{
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE add = { CKA_LABEL, "yay", 3 };
attrs = p11_attrs_build (NULL, &add, NULL);
/* Test the first attribute */
assert_ptr_not_null (attrs);
assert (attrs->type == CKA_LABEL);
assert_num_eq (3, attrs->ulValueLen);
assert (memcmp (attrs->pValue, "yay", 3) == 0);
assert (attrs[1].type == CKA_INVALID);
p11_attrs_free (attrs);
}
static void
test_build_two (void)
{
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE one = { CKA_LABEL, "yay", 3 };
CK_ATTRIBUTE two = { CKA_VALUE, "eight", 5 };
attrs = p11_attrs_build (NULL, &one, &two, NULL);
assert_ptr_not_null (attrs);
assert (attrs[0].type == CKA_LABEL);
assert_num_eq (3, attrs[0].ulValueLen);
assert (memcmp (attrs[0].pValue, "yay", 3) == 0);
assert_ptr_not_null (attrs);
assert (attrs[1].type == CKA_VALUE);
assert_num_eq (5, attrs[1].ulValueLen);
assert (memcmp (attrs[1].pValue, "eight", 5) == 0);
assert (attrs[2].type == CKA_INVALID);
p11_attrs_free (attrs);
}
static void
test_build_invalid (void)
{
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE one = { CKA_LABEL, "yay", 3 };
CK_ATTRIBUTE invalid = { CKA_INVALID };
CK_ATTRIBUTE two = { CKA_VALUE, "eight", 5 };
attrs = p11_attrs_build (NULL, &one, &invalid, &two, NULL);
assert_ptr_not_null (attrs);
assert (attrs[0].type == CKA_LABEL);
assert_num_eq (3, attrs[0].ulValueLen);
assert (memcmp (attrs[0].pValue, "yay", 3) == 0);
assert_ptr_not_null (attrs);
assert (attrs[1].type == CKA_VALUE);
assert_num_eq (5, attrs[1].ulValueLen);
assert (memcmp (attrs[1].pValue, "eight", 5) == 0);
assert (attrs[2].type == CKA_INVALID);
p11_attrs_free (attrs);
}
static void
test_buildn_two (void)
{
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE add[] = {
{ CKA_LABEL, "yay", 3 },
{ CKA_VALUE, "eight", 5 }
};
attrs = p11_attrs_buildn (NULL, add, 2);
/* Test the first attribute */
assert_ptr_not_null (attrs);
assert (attrs->type == CKA_LABEL);
assert_num_eq (3, attrs->ulValueLen);
assert (memcmp (attrs->pValue, "yay", 3) == 0);
assert_ptr_not_null (attrs);
assert (attrs[1].type == CKA_VALUE);
assert_num_eq (5, attrs[1].ulValueLen);
assert (memcmp (attrs[1].pValue, "eight", 5) == 0);
assert (attrs[2].type == CKA_INVALID);
p11_attrs_free (attrs);
}
static void
test_buildn_one (void)
{
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE add = { CKA_LABEL, "yay", 3 };
attrs = p11_attrs_buildn (NULL, &add, 1);
/* Test the first attribute */
assert_ptr_not_null (attrs);
assert (attrs->type == CKA_LABEL);
assert_num_eq (3, attrs->ulValueLen);
assert (memcmp (attrs->pValue, "yay", 3) == 0);
assert (attrs[1].type == CKA_INVALID);
p11_attrs_free (attrs);
}
static void
test_build_add (void)
{
CK_ATTRIBUTE initial[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_VALUE, "nine", 4 },
};
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE one = { CKA_LABEL, "yay", 3 };
CK_ATTRIBUTE two = { CKA_TOKEN, "\x01", 1 };
attrs = p11_attrs_buildn (NULL, initial, 2);
attrs = p11_attrs_build (attrs, &one, &two, NULL);
assert_ptr_not_null (attrs);
assert (attrs[0].type == CKA_LABEL);
assert_num_eq (3, attrs[0].ulValueLen);
assert (memcmp (attrs[0].pValue, "yay", 3) == 0);
assert_ptr_not_null (attrs);
assert (attrs[1].type == CKA_VALUE);
assert_num_eq (4, attrs[1].ulValueLen);
assert (memcmp (attrs[1].pValue, "nine", 4) == 0);
assert_ptr_not_null (attrs);
assert (attrs[2].type == CKA_TOKEN);
assert_num_eq (1, attrs[2].ulValueLen);
assert (memcmp (attrs[2].pValue, "\x01", 1) == 0);
assert (attrs[3].type == CKA_INVALID);
p11_attrs_free (attrs);
}
static void
test_build_null (void)
{
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE add = { CKA_LABEL, NULL, (CK_ULONG)-1 };
attrs = p11_attrs_build (NULL, &add, NULL);
/* Test the first attribute */
assert_ptr_not_null (attrs);
assert (attrs->type == CKA_LABEL);
assert (attrs->ulValueLen == (CK_ULONG)-1);
assert_ptr_eq (NULL, attrs->pValue);
p11_attrs_free (attrs);
}
static void
test_dup (void)
{
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE original[] = {
{ CKA_LABEL, "yay", 3 },
{ CKA_VALUE, "eight", 5 },
{ CKA_INVALID }
};
attrs = p11_attrs_dup (original);
/* Test the first attribute */
assert_ptr_not_null (attrs);
assert (attrs->type == CKA_LABEL);
assert_num_eq (3, attrs->ulValueLen);
assert (memcmp (attrs->pValue, "yay", 3) == 0);
assert_ptr_not_null (attrs);
assert (attrs[1].type == CKA_VALUE);
assert_num_eq (5, attrs[1].ulValueLen);
assert (memcmp (attrs[1].pValue, "eight", 5) == 0);
assert (attrs[2].type == CKA_INVALID);
p11_attrs_free (attrs);
}
static void
test_take (void)
{
CK_ATTRIBUTE initial[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_VALUE, "nine", 4 },
};
CK_ATTRIBUTE *attrs;
attrs = p11_attrs_buildn (NULL, initial, 2);
attrs = p11_attrs_take (attrs, CKA_LABEL, strdup ("boooyah"), 7);
attrs = p11_attrs_take (attrs, CKA_TOKEN, strdup ("\x01"), 1);
assert_ptr_not_null (attrs);
assert (attrs[0].type == CKA_LABEL);
assert_num_eq (7, attrs[0].ulValueLen);
assert (memcmp (attrs[0].pValue, "boooyah", 7) == 0);
assert_ptr_not_null (attrs);
assert (attrs[1].type == CKA_VALUE);
assert_num_eq (4, attrs[1].ulValueLen);
assert (memcmp (attrs[1].pValue, "nine", 4) == 0);
assert_ptr_not_null (attrs);
assert (attrs[2].type == CKA_TOKEN);
assert_num_eq (1, attrs[2].ulValueLen);
assert (memcmp (attrs[2].pValue, "\x01", 1) == 0);
assert (attrs[3].type == CKA_INVALID);
p11_attrs_free (attrs);
}
static void
test_merge_replace (void)
{
CK_ATTRIBUTE initial[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_VALUE, "nine", 4 },
};
CK_ATTRIBUTE extra[] = {
{ CKA_LABEL, "boooyah", 7 },
{ CKA_APPLICATION, "disco", 5 },
};
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE *merge;
attrs = p11_attrs_buildn (NULL, initial, 2);
merge = p11_attrs_buildn (NULL, extra, 2);
attrs = p11_attrs_merge (attrs, merge, true);
assert_ptr_not_null (attrs);
assert (attrs[0].type == CKA_LABEL);
assert_num_eq (7, attrs[0].ulValueLen);
assert (memcmp (attrs[0].pValue, "boooyah", 7) == 0);
assert_ptr_not_null (attrs);
assert (attrs[1].type == CKA_VALUE);
assert_num_eq (4, attrs[1].ulValueLen);
assert (memcmp (attrs[1].pValue, "nine", 4) == 0);
assert_ptr_not_null (attrs);
assert (attrs[2].type == CKA_APPLICATION);
assert_num_eq (5, attrs[2].ulValueLen);
assert (memcmp (attrs[2].pValue, "disco", 5) == 0);
assert (attrs[3].type == CKA_INVALID);
p11_attrs_free (attrs);
}
static void
test_merge_empty (void)
{
CK_ATTRIBUTE extra[] = {
{ CKA_LABEL, "boooyah", 7 },
{ CKA_APPLICATION, "disco", 5 },
};
CK_ATTRIBUTE *attrs = NULL;
CK_ATTRIBUTE *merge;
merge = p11_attrs_buildn (NULL, extra, 2);
attrs = p11_attrs_merge (attrs, merge, true);
assert_ptr_not_null (attrs);
assert_ptr_eq (merge, attrs);
p11_attrs_free (attrs);
}
static void
test_merge_augment (void)
{
CK_ATTRIBUTE initial[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_VALUE, "nine", 4 },
};
CK_ATTRIBUTE extra[] = {
{ CKA_LABEL, "boooyah", 7 },
{ CKA_APPLICATION, "disco", 5 },
};
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE *merge;
attrs = p11_attrs_buildn (NULL, initial, 2);
merge = p11_attrs_buildn (NULL, extra, 2);
attrs = p11_attrs_merge (attrs, merge, false);
assert_ptr_not_null (attrs);
assert (attrs[0].type == CKA_LABEL);
assert_num_eq (5, attrs[0].ulValueLen);
assert (memcmp (attrs[0].pValue, "label", 5) == 0);
assert_ptr_not_null (attrs);
assert (attrs[1].type == CKA_VALUE);
assert_num_eq (4, attrs[1].ulValueLen);
assert (memcmp (attrs[1].pValue, "nine", 4) == 0);
assert_ptr_not_null (attrs);
assert (attrs[2].type == CKA_APPLICATION);
assert_num_eq (5, attrs[2].ulValueLen);
assert (memcmp (attrs[2].pValue, "disco", 5) == 0);
assert (attrs[3].type == CKA_INVALID);
p11_attrs_free (attrs);
}
static void
test_free_null (void)
{
p11_attrs_free (NULL);
}
static void
test_equal (void)
{
char *data = "extra attribute";
CK_ATTRIBUTE one = { CKA_LABEL, "yay", 3 };
CK_ATTRIBUTE null = { CKA_LABEL, NULL, 3 };
CK_ATTRIBUTE two = { CKA_VALUE, "yay", 3 };
CK_ATTRIBUTE other = { CKA_VALUE, data, 5 };
CK_ATTRIBUTE overflow = { CKA_VALUE, data, 5 };
CK_ATTRIBUTE content = { CKA_VALUE, "conte", 5 };
assert (p11_attr_equal (&one, &one));
assert (!p11_attr_equal (&one, NULL));
assert (!p11_attr_equal (NULL, &one));
assert (!p11_attr_equal (&one, &two));
assert (!p11_attr_equal (&two, &other));
assert (p11_attr_equal (&other, &overflow));
assert (!p11_attr_equal (&one, &null));
assert (!p11_attr_equal (&one, &null));
assert (!p11_attr_equal (&other, &content));
}
static void
test_hash (void)
{
char *data = "extra attribute";
CK_ATTRIBUTE one = { CKA_LABEL, "yay", 3 };
CK_ATTRIBUTE null = { CKA_LABEL, NULL, 3 };
CK_ATTRIBUTE two = { CKA_VALUE, "yay", 3 };
CK_ATTRIBUTE other = { CKA_VALUE, data, 5 };
CK_ATTRIBUTE overflow = { CKA_VALUE, data, 5 };
CK_ATTRIBUTE content = { CKA_VALUE, "conte", 5 };
unsigned int hash;
hash = p11_attr_hash (&one);
assert (hash != 0);
assert (p11_attr_hash (&one) == hash);
assert (p11_attr_hash (&two) != hash);
assert (p11_attr_hash (&other) != hash);
assert (p11_attr_hash (&overflow) != hash);
assert (p11_attr_hash (&null) != hash);
assert (p11_attr_hash (&content) != hash);
hash = p11_attr_hash (NULL);
assert (hash == 0);
}
static void
test_to_string (void)
{
char *data = "extra attribute";
CK_ATTRIBUTE one = { CKA_LABEL, "yay", 3 };
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, "yay", 3 },
{ CKA_VALUE, data, 5 },
{ CKA_INVALID },
};
char *string;
string = p11_attr_to_string (&one, CKA_INVALID);
assert_str_eq ("{ CKA_LABEL = (3) \"yay\" }", string);
free (string);
string = p11_attrs_to_string (attrs, -1);
assert_str_eq ("(2) [ { CKA_LABEL = (3) \"yay\" }, { CKA_VALUE = (5) NOT-PRINTED } ]", string);
free (string);
string = p11_attrs_to_string (attrs, 1);
assert_str_eq ("(1) [ { CKA_LABEL = (3) \"yay\" } ]", string);
free (string);
}
static void
test_find (void)
{
CK_BBOOL vtrue = CK_TRUE;
CK_ATTRIBUTE *attr;
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_TOKEN, &vtrue, sizeof (vtrue) },
{ CKA_INVALID },
};
attr = p11_attrs_find (attrs, CKA_LABEL);
assert_ptr_eq (attrs + 0, attr);
attr = p11_attrs_find (attrs, CKA_TOKEN);
assert_ptr_eq (attrs + 1, attr);
attr = p11_attrs_find (attrs, CKA_VALUE);
assert_ptr_eq (NULL, attr);
}
static void
test_findn (void)
{
CK_BBOOL vtrue = CK_TRUE;
CK_ATTRIBUTE *attr;
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_TOKEN, &vtrue, sizeof (vtrue) },
};
attr = p11_attrs_findn (attrs, 2, CKA_LABEL);
assert_ptr_eq (attrs + 0, attr);
attr = p11_attrs_findn (attrs, 2, CKA_TOKEN);
assert_ptr_eq (attrs + 1, attr);
attr = p11_attrs_findn (attrs, 2, CKA_VALUE);
assert_ptr_eq (NULL, attr);
attr = p11_attrs_findn (attrs, 1, CKA_TOKEN);
assert_ptr_eq (NULL, attr);
}
static void
test_remove (void)
{
CK_BBOOL vtrue = CK_TRUE;
CK_ATTRIBUTE *attr;
CK_ATTRIBUTE *attrs;
CK_BBOOL ret;
CK_ATTRIBUTE initial[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_TOKEN, &vtrue, sizeof (vtrue) },
};
attrs = p11_attrs_buildn (NULL, initial, 2);
assert_ptr_not_null (attrs);
attr = p11_attrs_find (attrs, CKA_LABEL);
assert_ptr_eq (attrs + 0, attr);
ret = p11_attrs_remove (attrs, CKA_LABEL);
assert_num_eq (CK_TRUE, ret);
attr = p11_attrs_find (attrs, CKA_LABEL);
assert_ptr_eq (NULL, attr);
ret = p11_attrs_remove (attrs, CKA_LABEL);
assert_num_eq (CK_FALSE, ret);
p11_attrs_free (attrs);
}
static void
test_purge (void)
{
CK_BBOOL vtrue = CK_TRUE;
CK_ATTRIBUTE *attr;
CK_ATTRIBUTE *attrs;
CK_ATTRIBUTE initial[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_TOKEN, &vtrue, sizeof (vtrue) },
};
attrs = p11_attrs_buildn (NULL, initial, 2);
assert_ptr_not_null (attrs);
attr = p11_attrs_find (attrs, CKA_LABEL);
assert_ptr_eq (attrs + 0, attr);
attr[0].ulValueLen = (CK_ULONG) -1;
p11_attrs_purge (attrs);
attr = p11_attrs_find (attrs, CKA_LABEL);
assert_ptr_eq (NULL, attr);
p11_attrs_free (attrs);
}
static void
test_match (void)
{
CK_BBOOL vtrue = CK_TRUE;
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_TOKEN, &vtrue, sizeof (vtrue) },
{ CKA_INVALID },
};
CK_ATTRIBUTE subset[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_INVALID },
};
CK_ATTRIBUTE different[] = {
{ CKA_LABEL, "other", 5 },
{ CKA_INVALID },
};
CK_ATTRIBUTE extra[] = {
{ CKA_VALUE, "the value", 9 },
{ CKA_LABEL, "other", 5 },
{ CKA_TOKEN, &vtrue, sizeof (vtrue) },
{ CKA_INVALID },
};
assert (p11_attrs_match (attrs, attrs));
assert (p11_attrs_match (attrs, subset));
assert (!p11_attrs_match (attrs, different));
assert (!p11_attrs_match (attrs, extra));
}
static void
test_matchn (void)
{
CK_BBOOL vtrue = CK_TRUE;
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, "label", 5 },
{ CKA_TOKEN, &vtrue, sizeof (vtrue) },
{ CKA_INVALID },
};
CK_ATTRIBUTE subset[] = {
{ CKA_LABEL, "label", 5 },
};
CK_ATTRIBUTE different[] = {
{ CKA_TOKEN, &vtrue, sizeof (vtrue) },
{ CKA_LABEL, "other", 5 },
};
CK_ATTRIBUTE extra[] = {
{ CKA_VALUE, "the value", 9 },
{ CKA_LABEL, "other", 5 },
{ CKA_TOKEN, &vtrue, sizeof (vtrue) },
};
assert (p11_attrs_matchn (attrs, subset, 1));
assert (!p11_attrs_matchn (attrs, different, 2));
assert (!p11_attrs_matchn (attrs, extra, 3));
}
static void
test_find_bool (void)
{
CK_BBOOL vtrue = CK_TRUE;
CK_BBOOL vfalse = CK_FALSE;
CK_BBOOL value;
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, "\x01yy", 3 },
{ CKA_VALUE, &vtrue, (CK_ULONG)-1 },
{ CKA_TOKEN, &vtrue, sizeof (CK_BBOOL) },
{ CKA_TOKEN, &vfalse, sizeof (CK_BBOOL) },
{ CKA_INVALID },
};
assert (p11_attrs_find_bool (attrs, CKA_TOKEN, &value) && value == CK_TRUE);
assert (!p11_attrs_find_bool (attrs, CKA_LABEL, &value));
assert (!p11_attrs_find_bool (attrs, CKA_VALUE, &value));
}
static void
test_find_ulong (void)
{
CK_ULONG v33 = 33UL;
CK_ULONG v45 = 45UL;
CK_ULONG value;
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, &v33, 2 },
{ CKA_VALUE, &v45, (CK_ULONG)-1 },
{ CKA_BITS_PER_PIXEL, &v33, sizeof (CK_ULONG) },
{ CKA_BITS_PER_PIXEL, &v45, sizeof (CK_ULONG) },
{ CKA_INVALID },
};
assert (p11_attrs_find_ulong (attrs, CKA_BITS_PER_PIXEL, &value) && value == v33);
assert (!p11_attrs_find_ulong (attrs, CKA_LABEL, &value));
assert (!p11_attrs_find_ulong (attrs, CKA_VALUE, &value));
}
static void
test_find_value (void)
{
void *value;
size_t length;
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, "", (CK_ULONG)-1 },
{ CKA_LABEL, NULL, 5 },
{ CKA_LABEL, "", 0 },
{ CKA_LABEL, "test", 4 },
{ CKA_VALUE, NULL, 0 },
{ CKA_INVALID },
};
value = p11_attrs_find_value (attrs, CKA_LABEL, &length);
assert_ptr_eq (attrs[3].pValue, value);
assert_num_eq (4, length);
value = p11_attrs_find_value (attrs, CKA_LABEL, NULL);
assert_ptr_eq (attrs[3].pValue, value);
value = p11_attrs_find_value (attrs, CKA_VALUE, &length);
assert_ptr_eq (NULL, value);
value = p11_attrs_find_value (attrs, CKA_TOKEN, &length);
assert_ptr_eq (NULL, value);
}
static void
test_find_valid (void)
{
CK_ATTRIBUTE *attr;
CK_ATTRIBUTE attrs[] = {
{ CKA_LABEL, "", (CK_ULONG)-1 },
{ CKA_LABEL, NULL, 5 },
{ CKA_LABEL, "", 0 },
{ CKA_LABEL, "test", 4 },
{ CKA_VALUE, "value", 5 },
{ CKA_INVALID },
};
attr = p11_attrs_find_valid (attrs, CKA_LABEL);
assert_ptr_eq (attrs + 3, attr);
attr = p11_attrs_find_valid (attrs, CKA_VALUE);
assert_ptr_eq (attrs + 4, attr);
attr = p11_attrs_find_valid (attrs, CKA_TOKEN);
assert_ptr_eq (NULL, attr);
}
int
main (int argc,
char *argv[])
{
p11_test (test_equal, "/attrs/equal");
p11_test (test_hash, "/attrs/hash");
p11_test (test_to_string, "/attrs/to-string");
p11_test (test_terminator, "/attrs/terminator");
p11_test (test_count, "/attrs/count");
p11_test (test_build_one, "/attrs/build-one");
p11_test (test_build_two, "/attrs/build-two");
p11_test (test_build_invalid, "/attrs/build-invalid");
p11_test (test_buildn_one, "/attrs/buildn-one");
p11_test (test_buildn_two, "/attrs/buildn-two");
p11_test (test_build_add, "/attrs/build-add");
p11_test (test_build_null, "/attrs/build-null");
p11_test (test_dup, "/attrs/dup");
p11_test (test_take, "/attrs/take");
p11_test (test_merge_replace, "/attrs/merge-replace");
p11_test (test_merge_augment, "/attrs/merge-augment");
p11_test (test_merge_empty, "/attrs/merge-empty");
p11_test (test_free_null, "/attrs/free-null");
p11_test (test_match, "/attrs/match");
p11_test (test_matchn, "/attrs/matchn");
p11_test (test_find, "/attrs/find");
p11_test (test_findn, "/attrs/findn");
p11_test (test_find_bool, "/attrs/find-bool");
p11_test (test_find_ulong, "/attrs/find-ulong");
p11_test (test_find_value, "/attrs/find-value");
p11_test (test_find_valid, "/attrs/find-valid");
p11_test (test_remove, "/attrs/remove");
p11_test (test_purge, "/attrs/purge");
return p11_test_run (argc, argv);
}