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Diffstat (limited to 'src/rps/test_service_rps_sampler_elem.c')
-rw-r--r--src/rps/test_service_rps_sampler_elem.c224
1 files changed, 114 insertions, 110 deletions
diff --git a/src/rps/test_service_rps_sampler_elem.c b/src/rps/test_service_rps_sampler_elem.c
index b6e3e36bf..706abf4f9 100644
--- a/src/rps/test_service_rps_sampler_elem.c
+++ b/src/rps/test_service_rps_sampler_elem.c
@@ -25,12 +25,13 @@
25#include "gnunet_util_lib.h" 25#include "gnunet_util_lib.h"
26#include "gnunet-service-rps_sampler_elem.h" 26#include "gnunet-service-rps_sampler_elem.h"
27 27
28#define ABORT() { fprintf(stderr, "Error at %s:%d\n", __FILE__, __LINE__); return 1; } 28#define ABORT() { fprintf (stderr, "Error at %s:%d\n", __FILE__, __LINE__); \
29#define CHECK(c) { if (!(c)) ABORT (); } 29 return 1; }
30#define CHECK(c) { if (! (c)) ABORT (); }
30 31
31 32
32static int 33static int
33check() 34check ()
34{ 35{
35 struct GNUNET_PeerIdentity pid0; 36 struct GNUNET_PeerIdentity pid0;
36 struct GNUNET_PeerIdentity pid1; 37 struct GNUNET_PeerIdentity pid1;
@@ -40,152 +41,155 @@ check()
40 struct GNUNET_HashCode hash_code; 41 struct GNUNET_HashCode hash_code;
41 struct GNUNET_HashCode hash_code2; 42 struct GNUNET_HashCode hash_code2;
42 43
43 memset(&pid0, 1, sizeof(pid0)); 44 memset (&pid0, 1, sizeof(pid0));
44 memset(&pid1, 0, sizeof(pid1)); 45 memset (&pid1, 0, sizeof(pid1));
45 46
46 /* Check if creation and destruction of an 47 /* Check if creation and destruction of an
47 * (empty) sampler element works */ 48 * (empty) sampler element works */
48 s_elem = RPS_sampler_elem_create(); 49 s_elem = RPS_sampler_elem_create ();
49 CHECK(NULL != s_elem); 50 CHECK (NULL != s_elem);
50 CHECK(EMPTY == s_elem->is_empty); 51 CHECK (EMPTY == s_elem->is_empty);
51 CHECK(NULL != &s_elem->auth_key); 52 CHECK (NULL != &s_elem->auth_key);
52 auth_key = s_elem->auth_key; 53 auth_key = s_elem->auth_key;
53 RPS_sampler_elem_destroy(s_elem); 54 RPS_sampler_elem_destroy (s_elem);
54 55
55 56
56 /* Check creation of another sampler element 57 /* Check creation of another sampler element
57 * yields another (random) key */ 58 * yields another (random) key */
58 s_elem = RPS_sampler_elem_create(); 59 s_elem = RPS_sampler_elem_create ();
59 CHECK(NULL != s_elem); 60 CHECK (NULL != s_elem);
60 CHECK(EMPTY == s_elem->is_empty); 61 CHECK (EMPTY == s_elem->is_empty);
61 CHECK(NULL != &s_elem->auth_key); 62 CHECK (NULL != &s_elem->auth_key);
62 CHECK(auth_key.key != s_elem->auth_key.key); 63 CHECK (auth_key.key != s_elem->auth_key.key);
63 CHECK(0 != memcmp(auth_key.key, s_elem->auth_key.key, GNUNET_CRYPTO_HASH_LENGTH)); 64 CHECK (0 != memcmp (auth_key.key, s_elem->auth_key.key,
65 GNUNET_CRYPTO_HASH_LENGTH));
64 auth_key = s_elem->auth_key; 66 auth_key = s_elem->auth_key;
65 67
66 /* Check that reinitialisation 68 /* Check that reinitialisation
67 * yields another (random) key */ 69 * yields another (random) key */
68 RPS_sampler_elem_reinit(s_elem); 70 RPS_sampler_elem_reinit (s_elem);
69 CHECK(NULL != s_elem); 71 CHECK (NULL != s_elem);
70 CHECK(EMPTY == s_elem->is_empty); 72 CHECK (EMPTY == s_elem->is_empty);
71 CHECK(NULL != &s_elem->auth_key); 73 CHECK (NULL != &s_elem->auth_key);
72 CHECK(auth_key.key != s_elem->auth_key.key); 74 CHECK (auth_key.key != s_elem->auth_key.key);
73 CHECK(0 != memcmp(auth_key.key, s_elem->auth_key.key, GNUNET_CRYPTO_HASH_LENGTH)); 75 CHECK (0 != memcmp (auth_key.key, s_elem->auth_key.key,
74 RPS_sampler_elem_destroy(s_elem); 76 GNUNET_CRYPTO_HASH_LENGTH));
77 RPS_sampler_elem_destroy (s_elem);
75 78
76 79
77 /* Check that input of single peer id 80 /* Check that input of single peer id
78 * sets valid values */ 81 * sets valid values */
79 s_elem = RPS_sampler_elem_create(); 82 s_elem = RPS_sampler_elem_create ();
80 CHECK(EMPTY == s_elem->is_empty); 83 CHECK (EMPTY == s_elem->is_empty);
81 CHECK(NULL != &s_elem->auth_key); 84 CHECK (NULL != &s_elem->auth_key);
82 CHECK(auth_key.key != s_elem->auth_key.key); 85 CHECK (auth_key.key != s_elem->auth_key.key);
83 /* This fails only with minimal chance */ 86 /* This fails only with minimal chance */
84 CHECK(0 != memcmp(auth_key.key, s_elem->auth_key.key, GNUNET_CRYPTO_HASH_LENGTH)); 87 CHECK (0 != memcmp (auth_key.key, s_elem->auth_key.key,
88 GNUNET_CRYPTO_HASH_LENGTH));
85 auth_key = s_elem->auth_key; 89 auth_key = s_elem->auth_key;
86 90
87 /* Check also that the hash of the peer id changed 91 /* Check also that the hash of the peer id changed
88 * Also fails with minimal probability */ 92 * Also fails with minimal probability */
89 hash_code = s_elem->peer_id_hash; 93 hash_code = s_elem->peer_id_hash;
90 RPS_sampler_elem_next(s_elem, &pid0); 94 RPS_sampler_elem_next (s_elem, &pid0);
91 CHECK(0 == memcmp(&pid0, 95 CHECK (0 == memcmp (&pid0,
92 &s_elem->peer_id, 96 &s_elem->peer_id,
93 sizeof(struct GNUNET_PeerIdentity))); 97 sizeof(struct GNUNET_PeerIdentity)));
94 CHECK(0 != memcmp(&hash_code, 98 CHECK (0 != memcmp (&hash_code,
95 &s_elem->peer_id_hash, 99 &s_elem->peer_id_hash,
96 sizeof(struct GNUNET_HashCode))); 100 sizeof(struct GNUNET_HashCode)));
97 hash_code = s_elem->peer_id_hash; 101 hash_code = s_elem->peer_id_hash;
98 102
99 /* We can only check that the peer id is one of both inputs */ 103 /* We can only check that the peer id is one of both inputs */
100 RPS_sampler_elem_next(s_elem, &pid1); 104 RPS_sampler_elem_next (s_elem, &pid1);
101 CHECK((0 == memcmp(&pid0, 105 CHECK ((0 == memcmp (&pid0,
102 &s_elem->peer_id, 106 &s_elem->peer_id,
103 sizeof(struct GNUNET_PeerIdentity))) || 107 sizeof(struct GNUNET_PeerIdentity))) ||
104 (0 == memcmp(&pid1, 108 (0 == memcmp (&pid1,
105 &s_elem->peer_id, 109 &s_elem->peer_id,
106 sizeof(struct GNUNET_PeerIdentity)))); 110 sizeof(struct GNUNET_PeerIdentity))));
107 111
108 /* Check that hash stayed the same when peer id did not change */ 112 /* Check that hash stayed the same when peer id did not change */
109 if (0 == memcmp(&pid0, 113 if (0 == memcmp (&pid0,
110 &s_elem->peer_id, 114 &s_elem->peer_id,
111 sizeof(struct GNUNET_PeerIdentity))) 115 sizeof(struct GNUNET_PeerIdentity)))
112 { 116 {
113 CHECK(0 == memcmp(&hash_code, 117 CHECK (0 == memcmp (&hash_code,
114 &s_elem->peer_id_hash, 118 &s_elem->peer_id_hash,
115 sizeof(struct GNUNET_HashCode))); 119 sizeof(struct GNUNET_HashCode)));
116 } 120 }
117 else /* Check that hash changed */ 121 else /* Check that hash changed */
118 { 122 {
119 CHECK(0 != memcmp(&hash_code, 123 CHECK (0 != memcmp (&hash_code,
120 &s_elem->peer_id_hash, 124 &s_elem->peer_id_hash,
121 sizeof(struct GNUNET_HashCode))); 125 sizeof(struct GNUNET_HashCode)));
122 } 126 }
123 127
124 /* Check multiple inputs of same id 128 /* Check multiple inputs of same id
125 * hash should not change anymore */ 129 * hash should not change anymore */
126 hash_code2 = s_elem->peer_id_hash; 130 hash_code2 = s_elem->peer_id_hash;
127 RPS_sampler_elem_next(s_elem, &pid0); 131 RPS_sampler_elem_next (s_elem, &pid0);
128 CHECK(0 == memcmp(&hash_code2, 132 CHECK (0 == memcmp (&hash_code2,
129 &s_elem->peer_id_hash, 133 &s_elem->peer_id_hash,
130 sizeof(struct GNUNET_HashCode))); 134 sizeof(struct GNUNET_HashCode)));
131 RPS_sampler_elem_next(s_elem, &pid1); 135 RPS_sampler_elem_next (s_elem, &pid1);
132 CHECK(0 == memcmp(&hash_code2, 136 CHECK (0 == memcmp (&hash_code2,
133 &s_elem->peer_id_hash, 137 &s_elem->peer_id_hash,
134 sizeof(struct GNUNET_HashCode))); 138 sizeof(struct GNUNET_HashCode)));
135 RPS_sampler_elem_next(s_elem, &pid0); 139 RPS_sampler_elem_next (s_elem, &pid0);
136 CHECK(0 == memcmp(&hash_code2, 140 CHECK (0 == memcmp (&hash_code2,
137 &s_elem->peer_id_hash, 141 &s_elem->peer_id_hash,
138 sizeof(struct GNUNET_HashCode))); 142 sizeof(struct GNUNET_HashCode)));
139 RPS_sampler_elem_next(s_elem, &pid0); 143 RPS_sampler_elem_next (s_elem, &pid0);
140 CHECK(0 == memcmp(&hash_code2, 144 CHECK (0 == memcmp (&hash_code2,
141 &s_elem->peer_id_hash, 145 &s_elem->peer_id_hash,
142 sizeof(struct GNUNET_HashCode))); 146 sizeof(struct GNUNET_HashCode)));
143 RPS_sampler_elem_next(s_elem, &pid0); 147 RPS_sampler_elem_next (s_elem, &pid0);
144 CHECK(0 == memcmp(&hash_code2, 148 CHECK (0 == memcmp (&hash_code2,
145 &s_elem->peer_id_hash, 149 &s_elem->peer_id_hash,
146 sizeof(struct GNUNET_HashCode))); 150 sizeof(struct GNUNET_HashCode)));
147 RPS_sampler_elem_next(s_elem, &pid1); 151 RPS_sampler_elem_next (s_elem, &pid1);
148 CHECK(0 == memcmp(&hash_code2, 152 CHECK (0 == memcmp (&hash_code2,
149 &s_elem->peer_id_hash, 153 &s_elem->peer_id_hash,
150 sizeof(struct GNUNET_HashCode))); 154 sizeof(struct GNUNET_HashCode)));
151 RPS_sampler_elem_next(s_elem, &pid1); 155 RPS_sampler_elem_next (s_elem, &pid1);
152 CHECK(0 == memcmp(&hash_code2, 156 CHECK (0 == memcmp (&hash_code2,
153 &s_elem->peer_id_hash, 157 &s_elem->peer_id_hash,
154 sizeof(struct GNUNET_HashCode))); 158 sizeof(struct GNUNET_HashCode)));
155 RPS_sampler_elem_next(s_elem, &pid1); 159 RPS_sampler_elem_next (s_elem, &pid1);
156 CHECK(0 == memcmp(&hash_code2, 160 CHECK (0 == memcmp (&hash_code2,
157 &s_elem->peer_id_hash, 161 &s_elem->peer_id_hash,
158 sizeof(struct GNUNET_HashCode))); 162 sizeof(struct GNUNET_HashCode)));
159 163
160 /* Check whether pid stayed the same all the time */ 164 /* Check whether pid stayed the same all the time */
161 if (0 == memcmp(&hash_code, 165 if (0 == memcmp (&hash_code,
162 &hash_code2, 166 &hash_code2,
163 sizeof(struct GNUNET_HashCode))) 167 sizeof(struct GNUNET_HashCode)))
164 { 168 {
165 CHECK(0 == memcmp(&pid0, 169 CHECK (0 == memcmp (&pid0,
166 &s_elem->peer_id, 170 &s_elem->peer_id,
167 sizeof(struct GNUNET_PeerIdentity))); 171 sizeof(struct GNUNET_PeerIdentity)));
168 } 172 }
169 else 173 else
170 { 174 {
171 CHECK(0 == memcmp(&pid1, 175 CHECK (0 == memcmp (&pid1,
172 &s_elem->peer_id, 176 &s_elem->peer_id,
173 sizeof(struct GNUNET_PeerIdentity))); 177 sizeof(struct GNUNET_PeerIdentity)));
174 } 178 }
175 RPS_sampler_elem_destroy(s_elem); 179 RPS_sampler_elem_destroy (s_elem);
176 180
177 /* Check _set() */ 181 /* Check _set() */
178 s_elem = RPS_sampler_elem_create(); 182 s_elem = RPS_sampler_elem_create ();
179 CHECK(NULL != s_elem); 183 CHECK (NULL != s_elem);
180 CHECK(EMPTY == s_elem->is_empty); 184 CHECK (EMPTY == s_elem->is_empty);
181 CHECK(NULL != &s_elem->auth_key); 185 CHECK (NULL != &s_elem->auth_key);
182 auth_key = s_elem->auth_key; 186 auth_key = s_elem->auth_key;
183 memset(&auth_key2, 0, sizeof(auth_key2)); 187 memset (&auth_key2, 0, sizeof(auth_key2));
184 RPS_sampler_elem_set(s_elem, auth_key2); 188 RPS_sampler_elem_set (s_elem, auth_key2);
185 CHECK(0 == memcmp(auth_key2.key, 189 CHECK (0 == memcmp (auth_key2.key,
186 s_elem->auth_key.key, 190 s_elem->auth_key.key,
187 GNUNET_CRYPTO_HASH_LENGTH)); 191 GNUNET_CRYPTO_HASH_LENGTH));
188 RPS_sampler_elem_destroy(s_elem); 192 RPS_sampler_elem_destroy (s_elem);
189 193
190 194
191 /* TODO: deterministic tests (use _set() to set auth_key) */ 195 /* TODO: deterministic tests (use _set() to set auth_key) */
@@ -194,15 +198,15 @@ check()
194 198
195 199
196int 200int
197main(int argc, char *argv[]) 201main (int argc, char *argv[])
198{ 202{
199 (void)argc; 203 (void) argc;
200 (void)argv; 204 (void) argv;
201 205
202 GNUNET_log_setup("test_service_rps_peers", 206 GNUNET_log_setup ("test_service_rps_peers",
203 "WARNING", 207 "WARNING",
204 NULL); 208 NULL);
205 return check(); 209 return check ();
206} 210}
207 211
208/* end of test_service_rps_peers.c */ 212/* end of test_service_rps_peers.c */