netsurf/test/nsurl.c

1408 lines
30 KiB
C

/*
* Copyright 2015 Vincent Sanders <vince@netsurf-browser.org>
* Copyright 2011 John Mark Bell <jmb@netsurf-browser.org>
*
* This file is part of NetSurf, http://www.netsurf-browser.org/
*
* NetSurf is 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; version 2 of the License.
*
* NetSurf 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 this program. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* \file
* Test nsurl operations.
*/
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <check.h>
#include <libwapcaplet/libwapcaplet.h>
#include "utils/corestrings.h"
#include "utils/nsurl.h"
#define NELEMS(x) (sizeof(x) / sizeof((x)[0]))
struct test_pairs {
const char* test;
const char* res;
};
struct test_triplets {
const char* test1;
const char* test2;
const char* res;
};
struct test_compare {
const char* test1;
const char* test2;
nsurl_component parts;
bool res;
};
static void netsurf_lwc_iterator(lwc_string *str, void *pw)
{
fprintf(stderr,
"[%3u] %.*s",
str->refcnt,
(int)lwc_string_length(str),
lwc_string_data(str));
}
static const char *base_str = "http://a/b/c/d;p?q";
static const struct test_pairs create_tests[] = {
{ "", NULL },
{ "http:", NULL },
{ "http:/", NULL },
{ "http://", NULL },
{ "http:a", "http://a/" },
{ "http:a/", "http://a/" },
{ "http:a/b", "http://a/b" },
{ "http:/a", "http://a/" },
{ "http:/a/b", "http://a/b" },
{ "http://a", "http://a/" },
{ "http://a/b", "http://a/b" },
{ "www.example.org", "http://www.example.org/" },
{ "www.example.org/x", "http://www.example.org/x" },
{ "about:", "about:" },
{ "about:blank", "about:blank" },
{ "http://www.ns-b.org:8080/",
"http://www.ns-b.org:8080/" },
{ "http://user@www.ns-b.org:8080/hello",
"http://user@www.ns-b.org:8080/hello" },
{ "http://user:pass@www.ns-b.org:8080/hello",
"http://user:pass@www.ns-b.org:8080/hello" },
{ "http://www.ns-b.org:80/",
"http://www.ns-b.org/" },
{ "http://user@www.ns-b.org:80/hello",
"http://user@www.ns-b.org/hello" },
{ "http://user:pass@www.ns-b.org:80/hello",
"http://user:pass@www.ns-b.org/hello" },
{ "http://www.ns-b.org:/",
"http://www.ns-b.org/" },
{ "http://u@www.ns-b.org:/hello",
"http://u@www.ns-b.org/hello" },
{ "http://u:p@www.ns-b.org:/hello",
"http://u:p@www.ns-b.org/hello" },
{ "http:a/", "http://a/" },
{ "http:/a/", "http://a/" },
{ "http://u@a", "http://u@a/" },
{ "http://@a", "http://a/" },
{ "mailto:u@a", "mailto:u@a" },
{ "mailto:@a", "mailto:a" },
/* test case insensitivity */
{ "HTTP://a/b", "http://a/b" },
{ "ftp://a/b", "ftp://a/b" },
{ "FTP://a/b", "ftp://a/b" },
};
/**
* url creation test
*/
START_TEST(nsurl_create_test)
{
nserror err;
nsurl *res;
const struct test_pairs *tst = &create_tests[_i];
err = nsurl_create(tst->test, &res);
if (tst->res == NULL) {
/* result must be invalid */
ck_assert(err != NSERROR_OK);
} else {
/* result must be valid */
ck_assert(err == NSERROR_OK);
ck_assert_str_eq(nsurl_access(res), tst->res);
nsurl_unref(res);
}
}
END_TEST
static const struct test_triplets access_tests[] = {
{ "http://www.netsurf-browser.org/a/big/tree",
"http://www.netsurf-browser.org/a/big/tree",
"tree" },
{ "HTTP://ci.netsurf-browser.org/jenkins/view/Unit Tests/job/coverage-netsurf/11/cobertura/utils/nsurl_c/",
"http://ci.netsurf-browser.org/jenkins/view/Unit%20Tests/job/coverage-netsurf/11/cobertura/utils/nsurl_c/",
"" },
{ "FILE:///",
"file:///",
"/" },
};
/**
* url access test
*/
START_TEST(nsurl_access_test)
{
nserror err;
nsurl *res_url;
const struct test_triplets *tst = &access_tests[_i];
/* not testing create, this should always succeed */
err = nsurl_create(tst->test1, &res_url);
ck_assert(err == NSERROR_OK);
/* The url accessed string must match the input */
ck_assert_str_eq(nsurl_access(res_url), tst->test2);
nsurl_unref(res_url);
}
END_TEST
/**
* url access leaf test
*/
START_TEST(nsurl_access_leaf_test)
{
nserror err;
nsurl *res_url;
const struct test_triplets *tst = &access_tests[_i];
/* not testing create, this should always succeed */
err = nsurl_create(tst->test1, &res_url);
ck_assert(err == NSERROR_OK);
ck_assert_str_eq(nsurl_access_leaf(res_url), tst->res);
nsurl_unref(res_url);
}
END_TEST
/**
* url length test
*
* uses access dataset and test unit
*/
START_TEST(nsurl_length_test)
{
nserror err;
nsurl *res_url;
const struct test_triplets *tst = &access_tests[_i];
/* not testing create, this should always succeed */
err = nsurl_create(tst->test1, &res_url);
ck_assert(err == NSERROR_OK);
ck_assert_int_eq(nsurl_length(res_url), strlen(tst->test2));
nsurl_unref(res_url);
}
END_TEST
static const struct test_pairs nice_tests[] = {
{ "about:", NULL },
{ "www.foo.org", "www_foo_org" },
{ "www.foo.org/index.html", "www_foo_org" },
{ "www.foo.org/default.en", "www_foo_org" },
{ "www.foo.org/about", "about" },
{ "www.foo.org/about.jpg", "about.jpg" },
{ "www.foo.org/moose/index.en", "moose" },
{ "www.foo.org/a//index.en", "www_foo_org" },
{ "www.foo.org/a//index.en", "www_foo_org" },
{ "http://www.f.org//index.en", "www_f_org" },
};
/**
* url nice filename without stripping
*/
START_TEST(nsurl_nice_nostrip_test)
{
nserror err;
nsurl *res_url;
char *res_str;
const struct test_pairs *tst = &nice_tests[_i];
/* not testing create, this should always succeed */
err = nsurl_create(tst->test, &res_url);
ck_assert(err == NSERROR_OK);
err = nsurl_nice(res_url, &res_str, false);
if (tst->res == NULL) {
/* result must be invalid (bad input) */
ck_assert(err != NSERROR_OK);
} else {
/* result must be valid */
ck_assert(err == NSERROR_OK);
ck_assert_str_eq(res_str, tst->res);
free(res_str);
}
nsurl_unref(res_url);
}
END_TEST
static const struct test_pairs nice_strip_tests[] = {
{ "about:", NULL },
{ "www.foo.org", "www_foo_org" },
{ "www.foo.org/index.html", "www_foo_org" },
{ "www.foo.org/default.en", "www_foo_org" },
{ "www.foo.org/about", "about" },
{ "www.foo.org/about.jpg", "about" },
{ "www.foo.org/moose/index.en", "moose" },
{ "www.foo.org/a//index.en", "www_foo_org" },
{ "www.foo.org/a//index.en", "www_foo_org" },
{ "http://www.f.org//index.en", "www_f_org" },
};
/**
* url nice filename with stripping
*/
START_TEST(nsurl_nice_strip_test)
{
nserror err;
nsurl *res_url;
char *res_str;
const struct test_pairs *tst = &nice_strip_tests[_i];
/* not testing create, this should always succeed */
err = nsurl_create(tst->test, &res_url);
ck_assert(err == NSERROR_OK);
err = nsurl_nice(res_url, &res_str, true);
if (tst->res == NULL) {
/* result must be invalid (bad input) */
ck_assert(err != NSERROR_OK);
} else {
/* result must be valid */
ck_assert(err == NSERROR_OK);
ck_assert_str_eq(res_str, tst->res);
free(res_str);
}
nsurl_unref(res_url);
}
END_TEST
/**
* simple joins that all use http://a/b/c/d;p?q as a base
*/
static const struct test_pairs join_tests[] = {
/* Normal Examples rfc3986 5.4.1 */
{ "g:h", "g:h" },
{ "g", "http://a/b/c/g" },
{ "./g", "http://a/b/c/g" },
{ "g/", "http://a/b/c/g/" },
{ "/g", "http://a/g" },
{ "//g", "http://g" /* [1] */ "/" },
{ "?y", "http://a/b/c/d;p?y" },
{ "g?y", "http://a/b/c/g?y" },
{ "#s", "http://a/b/c/d;p?q#s" },
{ "g#s", "http://a/b/c/g#s" },
{ "g?y#s", "http://a/b/c/g?y#s" },
{ ";x", "http://a/b/c/;x" },
{ "g;x", "http://a/b/c/g;x" },
{ "g;x?y#s", "http://a/b/c/g;x?y#s" },
{ "", "http://a/b/c/d;p?q" },
{ ".", "http://a/b/c/" },
{ "./", "http://a/b/c/" },
{ "..", "http://a/b/" },
{ "../", "http://a/b/" },
{ "../g", "http://a/b/g" },
{ "../..", "http://a/" },
{ "../../", "http://a/" },
{ "../../g", "http://a/g" },
/* Abnormal Examples rfc3986 5.4.2 */
{ "../../../g", "http://a/g" },
{ "../../../../g", "http://a/g" },
{ "/./g", "http://a/g" },
{ "/../g", "http://a/g" },
{ "g.", "http://a/b/c/g." },
{ ".g", "http://a/b/c/.g" },
{ "g..", "http://a/b/c/g.." },
{ "..g", "http://a/b/c/..g" },
{ "./../g", "http://a/b/g" },
{ "./g/.", "http://a/b/c/g/" },
{ "g/./h", "http://a/b/c/g/h" },
{ "g/../h", "http://a/b/c/h" },
{ "g;x=1/./y", "http://a/b/c/g;x=1/y" },
{ "g;x=1/../y", "http://a/b/c/y" },
{ "g?y/./x", "http://a/b/c/g?y/./x" },
{ "g?y/../x", "http://a/b/c/g?y/../x" },
{ "g#s/./x", "http://a/b/c/g#s/./x" },
{ "g#s/../x", "http://a/b/c/g#s/../x" },
{ "http:g", "http:g" /* [2] */ },
/* Extra tests */
{ " g", "http://a/b/c/g" },
{ "g ", "http://a/b/c/g" },
{ " g ", "http://a/b/c/g" },
{ "http:/b/c", "http://b/c" },
{ "http://", "http:" },
{ "http:/", "http:" },
{ "http:", "http:" },
{ " ", "http://a/b/c/d;p?q" },
{ " ", "http://a/b/c/d;p?q" },
{ "/", "http://a/" },
{ " / ", "http://a/" },
{ " ? ", "http://a/b/c/d;p?" },
{ " h ", "http://a/b/c/h" },
{ "http://<!--#echo var=", "http://<!--/#echo%20var="},
/* [1] Extra slash beyond rfc3986 5.4.1 example, since we're
* testing normalisation in addition to joining */
/* [2] Using the strict parsers option */
};
/**
* url joining
*/
START_TEST(nsurl_join_test)
{
nserror err;
nsurl *base_url;
nsurl *joined;
char *string;
size_t len;
const struct test_pairs *tst = &join_tests[_i];
/* not testing create, this should always succeed */
err = nsurl_create(base_str, &base_url);
ck_assert(err == NSERROR_OK);
err = nsurl_join(base_url, tst->test, &joined);
if (tst->res == NULL) {
/* result must be invalid (bad input) */
ck_assert(err != NSERROR_OK);
} else {
/* result must be valid */
ck_assert(err == NSERROR_OK);
err = nsurl_get(joined, NSURL_WITH_FRAGMENT, &string, &len);
ck_assert(err == NSERROR_OK);
ck_assert_str_eq(string, tst->res);
free(string);
nsurl_unref(joined);
}
nsurl_unref(base_url);
}
END_TEST
/**
* more complex joins that specify a base to join to
*/
static const struct test_triplets join_complex_tests[] = {
/* problematic real world urls for regression */
{ "http://www.bridgetmckenna.com/blog/self-editing-for-everyone-part-1-the-most-hated-writing-advice-ever",
"http://The%20Old%20Organ%20Trail%20http://www.amazon.com/gp/product/B007B57MCQ/ref=as_li_tf_tl?ie=UTF8&camp=1789&creative=9325&creativeASIN=B007B57MCQ&linkCode=as2&tag=brimck0f-20",
"http://the old organ trail http:" },
};
/**
* complex url joining
*/
START_TEST(nsurl_join_complex_test)
{
nserror err;
nsurl *base_url;
nsurl *joined;
char *string;
size_t len;
const struct test_triplets *tst = &join_complex_tests[_i];
/* not testing create, this should always succeed */
err = nsurl_create(tst->test1, &base_url);
ck_assert(err == NSERROR_OK);
err = nsurl_join(base_url, tst->test2, &joined);
if (tst->res == NULL) {
/* result must be invalid (bad input) */
ck_assert(err != NSERROR_OK);
} else {
/* result must be valid */
ck_assert(err == NSERROR_OK);
err = nsurl_get(joined, NSURL_WITH_FRAGMENT, &string, &len);
ck_assert(err == NSERROR_OK);
ck_assert_str_eq(string, tst->res);
free(string);
nsurl_unref(joined);
}
nsurl_unref(base_url);
}
END_TEST
/**
* query replacement tests
*/
static const struct test_triplets replace_query_tests[] = {
{ "http://netsurf-browser.org/?magical=true",
"?magical=true&result=win",
"http://netsurf-browser.org/?magical=true&result=win"},
{ "http://netsurf-browser.org/?magical=true#fragment",
"?magical=true&result=win",
"http://netsurf-browser.org/?magical=true&result=win#fragment"},
{ "http://netsurf-browser.org/#fragment",
"?magical=true&result=win",
"http://netsurf-browser.org/?magical=true&result=win#fragment"},
{ "http://netsurf-browser.org/path",
"?magical=true",
"http://netsurf-browser.org/path?magical=true"},
};
/**
* replace query
*/
START_TEST(nsurl_replace_query_test)
{
nserror err;
nsurl *res_url;
nsurl *joined;
const struct test_triplets *tst = &replace_query_tests[_i];
/* not testing create, this should always succeed */
err = nsurl_create(tst->test1, &res_url);
ck_assert(err == NSERROR_OK);
err = nsurl_replace_query(res_url, tst->test2, &joined);
if (tst->res == NULL) {
/* result must be invalid (bad input) */
ck_assert(err != NSERROR_OK);
} else {
/* result must be valid */
ck_assert(err == NSERROR_OK);
ck_assert_str_eq(nsurl_access(joined), tst->res);
nsurl_unref(joined);
}
nsurl_unref(res_url);
}
END_TEST
/**
* url comparison tests
*/
static const struct test_compare compare_tests[] = {
{ "http://a/b/c/d;p?q",
"http://a/b/c/d;p?q",
NSURL_WITH_FRAGMENT,
true },
{ "http://a.b.c/d?a",
"http://a.b.c/e?a",
NSURL_WITH_FRAGMENT,
false },
{ "http://a.b.c/",
"http://g.h.i/",
NSURL_WITH_FRAGMENT,
false },
{ "http://a.b.c/d?a",
"http://a.b.c/d?b",
NSURL_WITH_FRAGMENT,
false },
{ "http://a.b.c/d?a",
"https://a.b.c/d?a",
NSURL_WITH_FRAGMENT,
false },
};
/**
* compare
*/
START_TEST(nsurl_compare_test)
{
nserror err;
nsurl *url1;
nsurl *url2;
const struct test_compare *tst = &compare_tests[_i];
bool status;
/* not testing create, this should always succeed */
err = nsurl_create(tst->test1, &url1);
ck_assert(err == NSERROR_OK);
/* not testing create, this should always succeed */
err = nsurl_create(tst->test2, &url2);
ck_assert(err == NSERROR_OK);
status = nsurl_compare(url1, url2, tst->parts);
ck_assert(status == tst->res);
nsurl_unref(url1);
nsurl_unref(url2);
}
END_TEST
/**
* url component tests
*
* each test1 parameter is converted to a url and
* nsurl[get|has]_component called on it with the given part. The
* result is checked against test1 and res as approprite.
*/
static const struct test_compare component_tests[] = {
{ "http://a/b/c/d;p?q",
"http",
NSURL_SCHEME,
true },
{ "file:///",
NULL,
NSURL_HOST,
false },
};
/**
* get component
*/
START_TEST(nsurl_get_component_test)
{
nserror err;
nsurl *url1;
const struct test_compare *tst = &component_tests[_i];
lwc_string *cmpnt;
/* not testing create, this should always succeed */
err = nsurl_create(tst->test1, &url1);
ck_assert(err == NSERROR_OK);
cmpnt = nsurl_get_component(url1, tst->parts);
if (cmpnt == NULL) {
ck_assert(tst->test2 == NULL);
} else {
ck_assert_str_eq(lwc_string_data(cmpnt), tst->test2);
lwc_string_unref(cmpnt);
}
nsurl_unref(url1);
}
END_TEST
/**
* has component
*/
START_TEST(nsurl_has_component_test)
{
nserror err;
nsurl *url1;
const struct test_compare *tst = &component_tests[_i];
bool status;
/* not testing create, this should always succeed */
err = nsurl_create(tst->test1, &url1);
ck_assert(err == NSERROR_OK);
status = nsurl_has_component(url1, tst->parts);
ck_assert(status == tst->res);
nsurl_unref(url1);
}
END_TEST
static const struct test_pairs fragment_tests[] = {
{ "http://www.f.org/a/b/c#def", "http://www.f.org/a/b/c" },
};
/**
* defragment url
*/
START_TEST(nsurl_defragment_test)
{
nserror err;
nsurl *url;
nsurl *res_url;
const struct test_pairs *tst = &fragment_tests[_i];
/* not testing create, this should always succeed */
err = nsurl_create(tst->test, &url);
ck_assert(err == NSERROR_OK);
err = nsurl_defragment(url, &res_url);
if (tst->res == NULL) {
/* result must be invalid (bad input) */
ck_assert(err != NSERROR_OK);
} else {
/* result must be valid */
ck_assert(err == NSERROR_OK);
ck_assert_str_eq(nsurl_access(res_url), tst->res);
nsurl_unref(res_url);
}
nsurl_unref(url);
}
END_TEST
/**
* refragment url
*/
START_TEST(nsurl_refragment_test)
{
nserror err;
nsurl *url;
nsurl *res_url;
const struct test_pairs *tst = &fragment_tests[_i];
lwc_string *frag;
/* not testing create, this should always succeed */
err = nsurl_create(tst->test, &url);
ck_assert(err == NSERROR_OK);
/* grab the fragment - not testing should succeed */
frag = nsurl_get_component(url, NSURL_FRAGMENT);
ck_assert(frag != NULL);
nsurl_unref(url);
/* not testing create, this should always succeed */
err = nsurl_create(tst->res, &url);
ck_assert(err == NSERROR_OK);
err = nsurl_refragment(url, frag, &res_url);
if (tst->res == NULL) {
/* result must be invalid (bad input) */
ck_assert(err != NSERROR_OK);
} else {
/* result must be valid */
ck_assert(err == NSERROR_OK);
ck_assert_str_eq(nsurl_access(res_url), tst->test);
nsurl_unref(res_url);
}
lwc_string_unref(frag);
nsurl_unref(url);
}
END_TEST
static const struct test_pairs parent_tests[] = {
{ "http://www.f.org/a/b/c", "http://www.f.org/a/b/" },
};
/**
* generate parent url
*/
START_TEST(nsurl_parent_test)
{
nserror err;
nsurl *url;
nsurl *res_url;
const struct test_pairs *tst = &parent_tests[_i];
/* not testing create, this should always succeed */
err = nsurl_create(tst->test, &url);
ck_assert(err == NSERROR_OK);
err = nsurl_parent(url, &res_url);
if (tst->res == NULL) {
/* result must be invalid (bad input) */
ck_assert(err != NSERROR_OK);
} else {
/* result must be valid */
ck_assert(err == NSERROR_OK);
ck_assert_str_eq(nsurl_access(res_url), tst->res);
nsurl_unref(res_url);
}
nsurl_unref(url);
}
END_TEST
/**
* url reference (copy) and unreference(free)
*/
START_TEST(nsurl_ref_test)
{
nserror err;
nsurl *res1;
nsurl *res2;
err = nsurl_create(base_str, &res1);
/* result must be valid */
ck_assert(err == NSERROR_OK);
res2 = nsurl_ref(res1);
ck_assert_str_eq(nsurl_access(res1), nsurl_access(res2));
nsurl_unref(res2);
nsurl_unref(res1);
}
END_TEST
/**
* check creation asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_create_test)
{
nserror err;
nsurl *res1;
err = nsurl_create(NULL, &res1);
ck_assert(err != NSERROR_OK);
}
END_TEST
/**
* check ref asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_ref_test)
{
nsurl_ref(NULL);
}
END_TEST
/**
* check unref asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_unref_test)
{
nsurl_unref(NULL);
}
END_TEST
/**
* check compare asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_compare1_test)
{
nserror err;
nsurl *res;
bool same;
err = nsurl_create(base_str, &res);
ck_assert(err == NSERROR_OK);
same = nsurl_compare(NULL, res, NSURL_PATH);
ck_assert(same == false);
nsurl_unref(res);
}
END_TEST
/**
* check compare asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_compare2_test)
{
nserror err;
nsurl *res;
bool same;
err = nsurl_create(base_str, &res);
ck_assert(err == NSERROR_OK);
same = nsurl_compare(res, NULL, NSURL_PATH);
ck_assert(same == false);
}
END_TEST
/**
* check get asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_get_test)
{
nserror err;
char *url_s = NULL;
size_t url_l = 0;
err = nsurl_get(NULL, NSURL_PATH, &url_s, &url_l);
ck_assert(err != NSERROR_OK);
ck_assert(url_s == NULL);
ck_assert(url_l == 0);
}
END_TEST
/**
* check get component asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_get_component1_test)
{
lwc_string *lwcs;
lwcs = nsurl_get_component(NULL, NSURL_PATH);
ck_assert(lwcs == NULL);
}
END_TEST
/**
* check get component asserts on bad component parameter
*/
START_TEST(nsurl_api_assert_get_component2_test)
{
nserror err;
nsurl *res;
lwc_string *lwcs;
err = nsurl_create(base_str, &res);
ck_assert(err == NSERROR_OK);
lwcs = nsurl_get_component(res, -1);
ck_assert(lwcs == NULL);
nsurl_unref(res);
}
END_TEST
/**
* check has component asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_has_component1_test)
{
bool has;
has = nsurl_has_component(NULL, NSURL_PATH);
ck_assert(has == false);
}
END_TEST
/**
* check has component asserts on bad component parameter
*/
START_TEST(nsurl_api_assert_has_component2_test)
{
nserror err;
nsurl *res;
bool has;
err = nsurl_create(base_str, &res);
ck_assert(err == NSERROR_OK);
has = nsurl_has_component(res, -1);
ck_assert(has == false);
nsurl_unref(res);
}
END_TEST
/**
* check access asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_access_test)
{
const char *res_s = NULL;
res_s = nsurl_access(NULL);
ck_assert(res_s == NULL);
}
END_TEST
/**
* check access asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_access_leaf_test)
{
const char *res_s = NULL;
res_s = nsurl_access_leaf(NULL);
ck_assert(res_s == NULL);
}
END_TEST
/**
* check length asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_length_test)
{
size_t res = 0;
res = nsurl_length(NULL);
ck_assert(res == 0);
}
END_TEST
/**
* check hash asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_hash_test)
{
uint32_t res = 0;
res = nsurl_hash(NULL);
ck_assert(res == 0);
}
END_TEST
/**
* check join asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_join1_test)
{
const char *rel = "moo";
nsurl *res;
nserror err;
err = nsurl_join(NULL, rel, &res);
ck_assert(err != NSERROR_OK);
}
END_TEST
/**
* check join asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_join2_test)
{
nsurl *url;
nsurl *res;
nserror err;
err = nsurl_create(base_str, &url);
ck_assert(err == NSERROR_OK);
err = nsurl_join(url, NULL, &res);
ck_assert(err != NSERROR_OK);
nsurl_unref(url);
}
END_TEST
/**
* check defragment asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_defragment_test)
{
nsurl *res;
nserror err;
err = nsurl_defragment(NULL, &res);
ck_assert(err != NSERROR_OK);
}
END_TEST
/**
* check refragment join asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_refragment1_test)
{
nsurl *res;
nserror err;
err = nsurl_refragment(NULL, corestring_lwc_http, &res);
ck_assert(err != NSERROR_OK);
}
END_TEST
/**
* check refragment asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_refragment2_test)
{
nsurl *url;
nsurl *res;
nserror err;
err = nsurl_create(base_str, &url);
ck_assert(err == NSERROR_OK);
err = nsurl_refragment(url, NULL, &res);
ck_assert(err != NSERROR_OK);
nsurl_unref(url);
}
END_TEST
/**
* check query replacement asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_replace_query1_test)
{
const char *rel = "moo";
nsurl *res;
nserror err;
err = nsurl_replace_query(NULL, rel, &res);
ck_assert(err != NSERROR_OK);
}
END_TEST
/**
* check query replacement asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_replace_query2_test)
{
nsurl *url;
nsurl *res;
nserror err;
err = nsurl_create(base_str, &url);
ck_assert(err == NSERROR_OK);
err = nsurl_replace_query(url, NULL, &res);
ck_assert(err != NSERROR_OK);
nsurl_unref(url);
}
END_TEST
/**
* check query replacement asserts on bad parameter
*/
START_TEST(nsurl_api_assert_replace_query3_test)
{
nsurl *url;
nsurl *res;
nserror err;
const char *rel = "moo";
err = nsurl_create(base_str, &url);
ck_assert(err == NSERROR_OK);
err = nsurl_replace_query(url, rel, &res);
ck_assert(err != NSERROR_OK);
nsurl_unref(url);
}
END_TEST
/**
* check nice asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_nice_test)
{
char *res_s = NULL;
nserror err;
err = nsurl_nice(NULL, &res_s, false);
ck_assert(err != NSERROR_OK);
ck_assert(res_s == NULL);
}
END_TEST
/**
* check parent asserts on NULL parameter
*/
START_TEST(nsurl_api_assert_parent_test)
{
nsurl *res;
nserror err;
err = nsurl_parent(NULL, &res);
ck_assert(err != NSERROR_OK);
}
END_TEST
/* Fixtures */
static void corestring_create(void)
{
ck_assert(corestrings_init() == NSERROR_OK);
}
static void corestring_teardown(void)
{
corestrings_fini();
lwc_iterate_strings(netsurf_lwc_iterator, NULL);
}
/* suite generation */
Suite *nsurl_suite(void)
{
Suite *s;
TCase *tc_api_assert;
TCase *tc_create;
TCase *tc_access;
TCase *tc_nice_nostrip;
TCase *tc_nice_strip;
TCase *tc_replace_query;
TCase *tc_join;
TCase *tc_compare;
TCase *tc_fragment;
TCase *tc_component;
TCase *tc_parent;
s = suite_create("nsurl");
/* Basic API operation assert checks */
tc_api_assert = tcase_create("API asserts");
tcase_add_unchecked_fixture(tc_api_assert,
corestring_create,
corestring_teardown);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_create_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_ref_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_unref_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_compare1_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_compare2_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_get_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_get_component1_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_get_component2_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_has_component1_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_has_component2_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_access_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_access_leaf_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_length_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_hash_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_join1_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_join2_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_defragment_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_refragment1_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_refragment2_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_replace_query1_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_replace_query2_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_replace_query3_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_nice_test, 6);
tcase_add_test_raise_signal(tc_api_assert,
nsurl_api_assert_parent_test, 6);
suite_add_tcase(s, tc_api_assert);
/* url creation */
tc_create = tcase_create("Create");
tcase_add_unchecked_fixture(tc_create,
corestring_create,
corestring_teardown);
tcase_add_loop_test(tc_create,
nsurl_create_test,
0, NELEMS(create_tests));
tcase_add_test(tc_create, nsurl_ref_test);
suite_add_tcase(s, tc_create);
/* url access and length */
tc_access = tcase_create("Access");
tcase_add_unchecked_fixture(tc_access,
corestring_create,
corestring_teardown);
tcase_add_loop_test(tc_access,
nsurl_access_test,
0, NELEMS(access_tests));
tcase_add_loop_test(tc_access,
nsurl_access_leaf_test,
0, NELEMS(access_tests));
tcase_add_loop_test(tc_access,
nsurl_length_test,
0, NELEMS(access_tests));
suite_add_tcase(s, tc_access);
/* nice filename without strip */
tc_nice_nostrip = tcase_create("Nice (nostrip)");
tcase_add_unchecked_fixture(tc_nice_nostrip,
corestring_create,
corestring_teardown);
tcase_add_loop_test(tc_nice_nostrip,
nsurl_nice_nostrip_test,
0, NELEMS(nice_tests));
suite_add_tcase(s, tc_nice_nostrip);
/* nice filename with strip */
tc_nice_strip = tcase_create("Nice (strip)");
tcase_add_unchecked_fixture(tc_nice_strip,
corestring_create,
corestring_teardown);
tcase_add_loop_test(tc_nice_strip,
nsurl_nice_strip_test,
0, NELEMS(nice_strip_tests));
suite_add_tcase(s, tc_nice_strip);
/* replace query */
tc_replace_query = tcase_create("Replace Query");
tcase_add_unchecked_fixture(tc_replace_query,
corestring_create,
corestring_teardown);
tcase_add_loop_test(tc_replace_query,
nsurl_replace_query_test,
0, NELEMS(replace_query_tests));
suite_add_tcase(s, tc_replace_query);
/* url join */
tc_join = tcase_create("Join");
tcase_add_unchecked_fixture(tc_join,
corestring_create,
corestring_teardown);
tcase_add_loop_test(tc_join,
nsurl_join_test,
0, NELEMS(join_tests));
tcase_add_loop_test(tc_join,
nsurl_join_complex_test,
0, NELEMS(join_complex_tests));
suite_add_tcase(s, tc_join);
/* url compare */
tc_compare = tcase_create("Compare");
tcase_add_unchecked_fixture(tc_compare,
corestring_create,
corestring_teardown);
tcase_add_loop_test(tc_compare,
nsurl_compare_test,
0, NELEMS(compare_tests));
suite_add_tcase(s, tc_compare);
/* fragment */
tc_fragment = tcase_create("Fragment");
tcase_add_unchecked_fixture(tc_fragment,
corestring_create,
corestring_teardown);
tcase_add_loop_test(tc_fragment,
nsurl_defragment_test,
0, NELEMS(parent_tests));
tcase_add_loop_test(tc_fragment,
nsurl_refragment_test,
0, NELEMS(parent_tests));
suite_add_tcase(s, tc_fragment);
/* component */
tc_component = tcase_create("Component");
tcase_add_unchecked_fixture(tc_component,
corestring_create,
corestring_teardown);
tcase_add_loop_test(tc_component,
nsurl_get_component_test,
0, NELEMS(component_tests));
tcase_add_loop_test(tc_component,
nsurl_has_component_test,
0, NELEMS(component_tests));
suite_add_tcase(s, tc_component);
/* parent */
tc_parent = tcase_create("Parent");
tcase_add_unchecked_fixture(tc_parent,
corestring_create,
corestring_teardown);
tcase_add_loop_test(tc_parent,
nsurl_parent_test,
0, NELEMS(parent_tests));
suite_add_tcase(s, tc_parent);
return s;
}
int main(int argc, char **argv)
{
int number_failed;
Suite *s;
SRunner *sr;
s = nsurl_suite();
sr = srunner_create(s);
srunner_run_all(sr, CK_ENV);
number_failed = srunner_ntests_failed(sr);
srunner_free(sr);
return (number_failed == 0) ? EXIT_SUCCESS : EXIT_FAILURE;
}