/* $OpenBSD: test_iterate.c,v 1.6 2018/07/16 03:09:59 djm Exp $ */
/*
* Regress test for hostfile.h hostkeys_foreach()
*
* Placed in the public domain
*/
#include "includes.h"
#include <sys/types.h>
#include <sys/param.h>
#include <stdio.h>
#ifdef HAVE_STDINT_H
#include <stdint.h>
#endif
#include <stdlib.h>
#include <string.h>
#include "../test_helper/test_helper.h"
#include "sshkey.h"
#include "authfile.h"
#include "hostfile.h"
struct expected {
const char *key_file; /* Path for key, NULL for none */
int no_parse_status; /* Expected status w/o key parsing */
int no_parse_keytype; /* Expected keytype w/o key parsing */
int match_host_p; /* Match 'prometheus.example.com' */
int match_host_s; /* Match 'sisyphus.example.com' */
int match_ipv4; /* Match '192.0.2.1' */
int match_ipv6; /* Match '2001:db8::1' */
int match_flags; /* Expected flags from match */
struct hostkey_foreach_line l; /* Expected line contents */
};
struct cbctx {
const struct expected *expected;
size_t nexpected;
size_t i;
int flags;
int match_host_p;
int match_host_s;
int match_ipv4;
int match_ipv6;
};
/*
* hostkeys_foreach() iterator callback that verifies the line passed
* against an array of expected entries.
*/
static int
check(struct hostkey_foreach_line *l, void *_ctx)
{
struct cbctx *ctx = (struct cbctx *)_ctx;
const struct expected *expected;
int parse_key = (ctx->flags & HKF_WANT_PARSE_KEY) != 0;
const int matching = (ctx->flags & HKF_WANT_MATCH) != 0;
u_int expected_status, expected_match;
int expected_keytype;
test_subtest_info("entry %zu/%zu, file line %ld",
ctx->i + 1, ctx->nexpected, l->linenum);
for (;;) {
ASSERT_SIZE_T_LT(ctx->i, ctx->nexpected);
expected = ctx->expected + ctx->i++;
/* If we are matching host/IP then skip entries that don't */
if (!matching)
break;
if (ctx->match_host_p && expected->match_host_p)
break;
if (ctx->match_host_s && expected->match_host_s)
break;
if (ctx->match_ipv4 && expected->match_ipv4)
break;
if (ctx->match_ipv6 && expected->match_ipv6)
break;
}
expected_status = (parse_key || expected->no_parse_status < 0) ?
expected->l.status : (u_int)expected->no_parse_status;
expected_match = expected->l.match;
#define UPDATE_MATCH_STATUS(x) do { \
if (ctx->x && expected->x) { \
expected_match |= expected->x; \
if (expected_status == HKF_STATUS_OK) \
expected_status = HKF_STATUS_MATCHED; \
} \
} while (0)
expected_keytype = (parse_key || expected->no_parse_keytype < 0) ?
expected->l.keytype : expected->no_parse_keytype;
#ifndef OPENSSL_HAS_ECC
if (expected->l.keytype == KEY_ECDSA ||
expected->no_parse_keytype == KEY_ECDSA) {
expected_status = HKF_STATUS_INVALID;
expected_keytype = KEY_UNSPEC;
parse_key = 0;
}
#endif
UPDATE_MATCH_STATUS(match_host_p);
UPDATE_MATCH_STATUS(match_host_s);
UPDATE_MATCH_STATUS(match_ipv4);
UPDATE_MATCH_STATUS(match_ipv6);
ASSERT_PTR_NE(l->path, NULL); /* Don't care about path */
ASSERT_LONG_LONG_EQ(l->linenum, expected->l.linenum);
ASSERT_U_INT_EQ(l->status, expected_status);
ASSERT_U_INT_EQ(l->match, expected_match);
/* Not all test entries contain fulltext */
if (expected->l.line != NULL)
ASSERT_STRING_EQ(l->line, expected->l.line);
ASSERT_INT_EQ(l->marker, expected->l.marker);
/* XXX we skip hashed hostnames for now; implement checking */
if (expected->l.hosts != NULL)
ASSERT_STRING_EQ(l->hosts, expected->l.hosts);
/* Not all test entries contain raw keys */
if (expected->l.rawkey != NULL)
ASSERT_STRING_EQ(l->rawkey, expected->l.rawkey);
/* XXX synthesise raw key for cases lacking and compare */
ASSERT_INT_EQ(l->keytype, expected_keytype);
if (parse_key) {
if (expected->l.key == NULL)
ASSERT_PTR_EQ(l->key, NULL);
if (expected->l.key != NULL) {
ASSERT_PTR_NE(l->key, NULL);
ASSERT_INT_EQ(sshkey_equal(l->key, expected->l.key), 1);
}
}
if (parse_key && !(l->comment == NULL && expected->l.comment == NULL))
ASSERT_STRING_EQ(l->comment, expected->l.comment);
return 0;
}
/* Loads public keys for a set of expected results */
static void
prepare_expected(struct expected *expected, size_t n)
{
size_t i;
for (i = 0; i < n; i++) {
if (expected[i].key_file == NULL)
continue;
#ifndef OPENSSL_HAS_ECC
if (expected[i].l.keytype == KEY_ECDSA)
continue;
#endif
ASSERT_INT_EQ(sshkey_load_public(
test_data_file(expected[i].key_file), &expected[i].l.key,
NULL), 0);
}
}
static void
cleanup_expected(struct expected *expected, size_t n)
{
size_t i;
for (i = 0; i < n; i++) {
sshkey_free(expected[i].l.key);
expected[i].l.key = NULL;
}
}
struct expected expected_full[] = {
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL, /* path, don't care */
1, /* line number */
HKF_STATUS_COMMENT, /* status */
0, /* match flags */
"# Plain host keys, plain host names", /* full line, optional */
MRK_NONE, /* marker (CA / revoked) */
NULL, /* hosts text */
NULL, /* raw key, optional */
KEY_UNSPEC, /* key type */
NULL, /* deserialised key */
NULL, /* comment */
} },
{ "dsa_1.pub" , -1, -1, 0, HKF_MATCH_HOST, 0, 0, -1, {
NULL,
2,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"sisyphus.example.com",
NULL,
KEY_DSA,
NULL, /* filled at runtime */
"DSA #1",
} },
{ "ecdsa_1.pub" , -1, -1, 0, HKF_MATCH_HOST, 0, 0, -1, {
NULL,
3,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"sisyphus.example.com",
NULL,
KEY_ECDSA,
NULL, /* filled at runtime */
"ECDSA #1",
} },
{ "ed25519_1.pub" , -1, -1, 0, HKF_MATCH_HOST, 0, 0, -1, {
NULL,
4,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"sisyphus.example.com",
NULL,
KEY_ED25519,
NULL, /* filled at runtime */
"ED25519 #1",
} },
{ "rsa_1.pub" , -1, -1, 0, HKF_MATCH_HOST, 0, 0, -1, {
NULL,
5,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"sisyphus.example.com",
NULL,
KEY_RSA,
NULL, /* filled at runtime */
"RSA #1",
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
6,
HKF_STATUS_COMMENT,
0,
"",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
7,
HKF_STATUS_COMMENT,
0,
"# Plain host keys, hostnames + addresses",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ "dsa_2.pub" , -1, -1, HKF_MATCH_HOST, 0, HKF_MATCH_IP, HKF_MATCH_IP, -1, {
NULL,
8,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"prometheus.example.com,192.0.2.1,2001:db8::1",
NULL,
KEY_DSA,
NULL, /* filled at runtime */
"DSA #2",
} },
{ "ecdsa_2.pub" , -1, -1, HKF_MATCH_HOST, 0, HKF_MATCH_IP, HKF_MATCH_IP, -1, {
NULL,
9,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"prometheus.example.com,192.0.2.1,2001:db8::1",
NULL,
KEY_ECDSA,
NULL, /* filled at runtime */
"ECDSA #2",
} },
{ "ed25519_2.pub" , -1, -1, HKF_MATCH_HOST, 0, HKF_MATCH_IP, HKF_MATCH_IP, -1, {
NULL,
10,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"prometheus.example.com,192.0.2.1,2001:db8::1",
NULL,
KEY_ED25519,
NULL, /* filled at runtime */
"ED25519 #2",
} },
{ "rsa_2.pub" , -1, -1, HKF_MATCH_HOST, 0, HKF_MATCH_IP, HKF_MATCH_IP, -1, {
NULL,
11,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"prometheus.example.com,192.0.2.1,2001:db8::1",
NULL,
KEY_RSA,
NULL, /* filled at runtime */
"RSA #2",
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
12,
HKF_STATUS_COMMENT,
0,
"",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
13,
HKF_STATUS_COMMENT,
0,
"# Some hosts with wildcard names / IPs",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ "dsa_3.pub" , -1, -1, HKF_MATCH_HOST, HKF_MATCH_HOST, HKF_MATCH_IP, HKF_MATCH_IP, -1, {
NULL,
14,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"*.example.com,192.0.2.*,2001:*",
NULL,
KEY_DSA,
NULL, /* filled at runtime */
"DSA #3",
} },
{ "ecdsa_3.pub" , -1, -1, HKF_MATCH_HOST, HKF_MATCH_HOST, HKF_MATCH_IP, HKF_MATCH_IP, -1, {
NULL,
15,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"*.example.com,192.0.2.*,2001:*",
NULL,
KEY_ECDSA,
NULL, /* filled at runtime */
"ECDSA #3",
} },
{ "ed25519_3.pub" , -1, -1, HKF_MATCH_HOST, HKF_MATCH_HOST, HKF_MATCH_IP, HKF_MATCH_IP, -1, {
NULL,
16,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"*.example.com,192.0.2.*,2001:*",
NULL,
KEY_ED25519,
NULL, /* filled at runtime */
"ED25519 #3",
} },
{ "rsa_3.pub" , -1, -1, HKF_MATCH_HOST, HKF_MATCH_HOST, HKF_MATCH_IP, HKF_MATCH_IP, -1, {
NULL,
17,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
"*.example.com,192.0.2.*,2001:*",
NULL,
KEY_RSA,
NULL, /* filled at runtime */
"RSA #3",
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
18,
HKF_STATUS_COMMENT,
0,
"",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
19,
HKF_STATUS_COMMENT,
0,
"# Hashed hostname and address entries",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ "dsa_5.pub" , -1, -1, 0, HKF_MATCH_HOST|HKF_MATCH_HOST_HASHED, 0, 0, -1, {
NULL,
20,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_DSA,
NULL, /* filled at runtime */
"DSA #5",
} },
{ "ecdsa_5.pub" , -1, -1, 0, HKF_MATCH_HOST|HKF_MATCH_HOST_HASHED, 0, 0, -1, {
NULL,
21,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_ECDSA,
NULL, /* filled at runtime */
"ECDSA #5",
} },
{ "ed25519_5.pub" , -1, -1, 0, HKF_MATCH_HOST|HKF_MATCH_HOST_HASHED, 0, 0, -1, {
NULL,
22,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_ED25519,
NULL, /* filled at runtime */
"ED25519 #5",
} },
{ "rsa_5.pub" , -1, -1, 0, HKF_MATCH_HOST|HKF_MATCH_HOST_HASHED, 0, 0, -1, {
NULL,
23,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_RSA,
NULL, /* filled at runtime */
"RSA #5",
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
24,
HKF_STATUS_COMMENT,
0,
"",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
/*
* The next series have each key listed multiple times, as the
* hostname and addresses in the pre-hashed known_hosts are split
* to separate lines.
*/
{ "dsa_6.pub" , -1, -1, HKF_MATCH_HOST|HKF_MATCH_HOST_HASHED, 0, 0, 0, -1, {
NULL,
25,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_DSA,
NULL, /* filled at runtime */
"DSA #6",
} },
{ "dsa_6.pub" , -1, -1, 0, 0, HKF_MATCH_IP|HKF_MATCH_IP_HASHED, 0, -1, {
NULL,
26,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_DSA,
NULL, /* filled at runtime */
"DSA #6",
} },
{ "dsa_6.pub" , -1, -1, 0, 0, 0, HKF_MATCH_IP|HKF_MATCH_IP_HASHED, -1, {
NULL,
27,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_DSA,
NULL, /* filled at runtime */
"DSA #6",
} },
{ "ecdsa_6.pub" , -1, -1, HKF_MATCH_HOST|HKF_MATCH_HOST_HASHED, 0, 0, 0, -1, {
NULL,
28,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_ECDSA,
NULL, /* filled at runtime */
"ECDSA #6",
} },
{ "ecdsa_6.pub" , -1, -1, 0, 0, HKF_MATCH_IP|HKF_MATCH_IP_HASHED, 0, -1, {
NULL,
29,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_ECDSA,
NULL, /* filled at runtime */
"ECDSA #6",
} },
{ "ecdsa_6.pub" , -1, -1, 0, 0, 0, HKF_MATCH_IP|HKF_MATCH_IP_HASHED, -1, {
NULL,
30,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_ECDSA,
NULL, /* filled at runtime */
"ECDSA #6",
} },
{ "ed25519_6.pub" , -1, -1, HKF_MATCH_HOST|HKF_MATCH_HOST_HASHED, 0, 0, 0, -1, {
NULL,
31,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_ED25519,
NULL, /* filled at runtime */
"ED25519 #6",
} },
{ "ed25519_6.pub" , -1, -1, 0, 0, HKF_MATCH_IP|HKF_MATCH_IP_HASHED, 0, -1, {
NULL,
32,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_ED25519,
NULL, /* filled at runtime */
"ED25519 #6",
} },
{ "ed25519_6.pub" , -1, -1, 0, 0, 0, HKF_MATCH_IP|HKF_MATCH_IP_HASHED, -1, {
NULL,
33,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_ED25519,
NULL, /* filled at runtime */
"ED25519 #6",
} },
{ "rsa_6.pub" , -1, -1, HKF_MATCH_HOST|HKF_MATCH_HOST_HASHED, 0, 0, 0, -1, {
NULL,
34,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_RSA,
NULL, /* filled at runtime */
"RSA #6",
} },
{ "rsa_6.pub" , -1, -1, 0, 0, HKF_MATCH_IP|HKF_MATCH_IP_HASHED, 0, -1, {
NULL,
35,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_RSA,
NULL, /* filled at runtime */
"RSA #6",
} },
{ "rsa_6.pub" , -1, -1, 0, 0, 0, HKF_MATCH_IP|HKF_MATCH_IP_HASHED, -1, {
NULL,
36,
HKF_STATUS_OK,
0,
NULL,
MRK_NONE,
NULL,
NULL,
KEY_RSA,
NULL, /* filled at runtime */
"RSA #6",
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
37,
HKF_STATUS_COMMENT,
0,
"",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
38,
HKF_STATUS_COMMENT,
0,
"",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
39,
HKF_STATUS_COMMENT,
0,
"# Revoked and CA keys",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ "ed25519_4.pub" , -1, -1, 0, HKF_MATCH_HOST, 0, 0, -1, {
NULL,
40,
HKF_STATUS_OK,
0,
NULL,
MRK_REVOKE,
"sisyphus.example.com",
NULL,
KEY_ED25519,
NULL, /* filled at runtime */
"ED25519 #4",
} },
{ "ecdsa_4.pub" , -1, -1, HKF_MATCH_HOST, 0, 0, 0, -1, {
NULL,
41,
HKF_STATUS_OK,
0,
NULL,
MRK_CA,
"prometheus.example.com",
NULL,
KEY_ECDSA,
NULL, /* filled at runtime */
"ECDSA #4",
} },
{ "dsa_4.pub" , -1, -1, HKF_MATCH_HOST, HKF_MATCH_HOST, 0, 0, -1, {
NULL,
42,
HKF_STATUS_OK,
0,
NULL,
MRK_CA,
"*.example.com",
NULL,
KEY_DSA,
NULL, /* filled at runtime */
"DSA #4",
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
43,
HKF_STATUS_COMMENT,
0,
"",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
44,
HKF_STATUS_COMMENT,
0,
"# Some invalid lines",
MRK_NONE,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, 0, 0, 0, 0, -1, {
NULL,
45,
HKF_STATUS_INVALID,
0,
NULL,
MRK_ERROR,
NULL,
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, 0, HKF_MATCH_HOST, 0, 0, -1, {
NULL,
46,
HKF_STATUS_INVALID,
0,
NULL,
MRK_NONE,
"sisyphus.example.com",
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, HKF_MATCH_HOST, 0, 0, 0, -1, {
NULL,
47,
HKF_STATUS_INVALID,
0,
NULL,
MRK_NONE,
"prometheus.example.com",
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, 0, HKF_MATCH_HOST, 0, 0, -1, {
NULL,
48,
HKF_STATUS_INVALID, /* Would be ok if key not parsed */
0,
NULL,
MRK_NONE,
"sisyphus.example.com",
NULL,
KEY_UNSPEC,
NULL,
NULL,
} },
{ NULL, -1, -1, 0, HKF_MATCH_HOST, 0, 0, -1, {
NULL,
49,
HKF_STATUS_INVALID,
0,
NULL,
MRK_NONE,
"sisyphus.example.com",
NULL,
KEY_UNSPEC,
NULL, /* filled at runtime */
NULL,
} },
{ NULL, HKF_STATUS_OK, KEY_RSA, HKF_MATCH_HOST, 0, 0, 0, -1, {
NULL,
50,
HKF_STATUS_INVALID, /* Would be ok if key not parsed */
0,
NULL,
MRK_NONE,
"prometheus.example.com",
NULL,
KEY_UNSPEC,
NULL, /* filled at runtime */
NULL,
} },
};
void test_iterate(void);
void
test_iterate(void)
{
struct cbctx ctx;
TEST_START("hostkeys_iterate all with key parse");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = HKF_WANT_PARSE_KEY;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, NULL, NULL, ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate all without key parse");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = 0;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, NULL, NULL, ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate specify host 1");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = 0;
ctx.match_host_p = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "prometheus.example.com", NULL, ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate specify host 2");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = 0;
ctx.match_host_s = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "sisyphus.example.com", NULL, ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate match host 1");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = HKF_WANT_MATCH;
ctx.match_host_p = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "prometheus.example.com", NULL, ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate match host 2");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = HKF_WANT_MATCH;
ctx.match_host_s = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "sisyphus.example.com", NULL, ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate specify host missing");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = 0;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "actaeon.example.org", NULL, ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate match host missing");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = HKF_WANT_MATCH;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "actaeon.example.org", NULL, ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate specify IPv4");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = 0;
ctx.match_ipv4 = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "tiresias.example.org", "192.0.2.1", ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate specify IPv6");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = 0;
ctx.match_ipv6 = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "tiresias.example.org", "2001:db8::1", ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate match IPv4");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = HKF_WANT_MATCH;
ctx.match_ipv4 = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "tiresias.example.org", "192.0.2.1", ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate match IPv6");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = HKF_WANT_MATCH;
ctx.match_ipv6 = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "tiresias.example.org", "2001:db8::1", ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate specify addr missing");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = 0;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "tiresias.example.org", "192.168.0.1", ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate match addr missing");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = HKF_WANT_MATCH;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "tiresias.example.org", "::1", ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate specify host 2 and IPv4");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = 0;
ctx.match_host_s = 1;
ctx.match_ipv4 = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "sisyphus.example.com", "192.0.2.1", ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate match host 1 and IPv6");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = HKF_WANT_MATCH;
ctx.match_host_p = 1;
ctx.match_ipv6 = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "prometheus.example.com",
"2001:db8::1", ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate specify host 2 and IPv4 w/ key parse");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = HKF_WANT_PARSE_KEY;
ctx.match_host_s = 1;
ctx.match_ipv4 = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "sisyphus.example.com", "192.0.2.1", ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
TEST_START("hostkeys_iterate match host 1 and IPv6 w/ key parse");
memset(&ctx, 0, sizeof(ctx));
ctx.expected = expected_full;
ctx.nexpected = sizeof(expected_full)/sizeof(*expected_full);
ctx.flags = HKF_WANT_MATCH|HKF_WANT_PARSE_KEY;
ctx.match_host_p = 1;
ctx.match_ipv6 = 1;
prepare_expected(expected_full, ctx.nexpected);
ASSERT_INT_EQ(hostkeys_foreach(test_data_file("known_hosts"),
check, &ctx, "prometheus.example.com",
"2001:db8::1", ctx.flags), 0);
cleanup_expected(expected_full, ctx.nexpected);
TEST_DONE();
}