From c4e9ba925ffd758aaa3feee2ccfc0b76f26fe207 Mon Sep 17 00:00:00 2001 From: Christian Grothoff Date: Sat, 5 Oct 2019 15:09:28 +0200 Subject: global reindent, now with uncrustify hook enabled --- src/rps/test_service_rps_sampler_elem.c | 224 ++++++++++++++++---------------- 1 file changed, 114 insertions(+), 110 deletions(-) (limited to 'src/rps/test_service_rps_sampler_elem.c') 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 @@ #include "gnunet_util_lib.h" #include "gnunet-service-rps_sampler_elem.h" -#define ABORT() { fprintf(stderr, "Error at %s:%d\n", __FILE__, __LINE__); return 1; } -#define CHECK(c) { if (!(c)) ABORT (); } +#define ABORT() { fprintf (stderr, "Error at %s:%d\n", __FILE__, __LINE__); \ + return 1; } +#define CHECK(c) { if (! (c)) ABORT (); } static int -check() +check () { struct GNUNET_PeerIdentity pid0; struct GNUNET_PeerIdentity pid1; @@ -40,152 +41,155 @@ check() struct GNUNET_HashCode hash_code; struct GNUNET_HashCode hash_code2; - memset(&pid0, 1, sizeof(pid0)); - memset(&pid1, 0, sizeof(pid1)); + memset (&pid0, 1, sizeof(pid0)); + memset (&pid1, 0, sizeof(pid1)); /* Check if creation and destruction of an * (empty) sampler element works */ - s_elem = RPS_sampler_elem_create(); - CHECK(NULL != s_elem); - CHECK(EMPTY == s_elem->is_empty); - CHECK(NULL != &s_elem->auth_key); + s_elem = RPS_sampler_elem_create (); + CHECK (NULL != s_elem); + CHECK (EMPTY == s_elem->is_empty); + CHECK (NULL != &s_elem->auth_key); auth_key = s_elem->auth_key; - RPS_sampler_elem_destroy(s_elem); + RPS_sampler_elem_destroy (s_elem); /* Check creation of another sampler element * yields another (random) key */ - s_elem = RPS_sampler_elem_create(); - CHECK(NULL != s_elem); - CHECK(EMPTY == s_elem->is_empty); - CHECK(NULL != &s_elem->auth_key); - CHECK(auth_key.key != s_elem->auth_key.key); - CHECK(0 != memcmp(auth_key.key, s_elem->auth_key.key, GNUNET_CRYPTO_HASH_LENGTH)); + s_elem = RPS_sampler_elem_create (); + CHECK (NULL != s_elem); + CHECK (EMPTY == s_elem->is_empty); + CHECK (NULL != &s_elem->auth_key); + CHECK (auth_key.key != s_elem->auth_key.key); + CHECK (0 != memcmp (auth_key.key, s_elem->auth_key.key, + GNUNET_CRYPTO_HASH_LENGTH)); auth_key = s_elem->auth_key; /* Check that reinitialisation * yields another (random) key */ - RPS_sampler_elem_reinit(s_elem); - CHECK(NULL != s_elem); - CHECK(EMPTY == s_elem->is_empty); - CHECK(NULL != &s_elem->auth_key); - CHECK(auth_key.key != s_elem->auth_key.key); - CHECK(0 != memcmp(auth_key.key, s_elem->auth_key.key, GNUNET_CRYPTO_HASH_LENGTH)); - RPS_sampler_elem_destroy(s_elem); + RPS_sampler_elem_reinit (s_elem); + CHECK (NULL != s_elem); + CHECK (EMPTY == s_elem->is_empty); + CHECK (NULL != &s_elem->auth_key); + CHECK (auth_key.key != s_elem->auth_key.key); + CHECK (0 != memcmp (auth_key.key, s_elem->auth_key.key, + GNUNET_CRYPTO_HASH_LENGTH)); + RPS_sampler_elem_destroy (s_elem); /* Check that input of single peer id * sets valid values */ - s_elem = RPS_sampler_elem_create(); - CHECK(EMPTY == s_elem->is_empty); - CHECK(NULL != &s_elem->auth_key); - CHECK(auth_key.key != s_elem->auth_key.key); + s_elem = RPS_sampler_elem_create (); + CHECK (EMPTY == s_elem->is_empty); + CHECK (NULL != &s_elem->auth_key); + CHECK (auth_key.key != s_elem->auth_key.key); /* This fails only with minimal chance */ - CHECK(0 != memcmp(auth_key.key, s_elem->auth_key.key, GNUNET_CRYPTO_HASH_LENGTH)); + CHECK (0 != memcmp (auth_key.key, s_elem->auth_key.key, + GNUNET_CRYPTO_HASH_LENGTH)); auth_key = s_elem->auth_key; /* Check also that the hash of the peer id changed * Also fails with minimal probability */ hash_code = s_elem->peer_id_hash; - RPS_sampler_elem_next(s_elem, &pid0); - CHECK(0 == memcmp(&pid0, - &s_elem->peer_id, - sizeof(struct GNUNET_PeerIdentity))); - CHECK(0 != memcmp(&hash_code, - &s_elem->peer_id_hash, - sizeof(struct GNUNET_HashCode))); + RPS_sampler_elem_next (s_elem, &pid0); + CHECK (0 == memcmp (&pid0, + &s_elem->peer_id, + sizeof(struct GNUNET_PeerIdentity))); + CHECK (0 != memcmp (&hash_code, + &s_elem->peer_id_hash, + sizeof(struct GNUNET_HashCode))); hash_code = s_elem->peer_id_hash; /* We can only check that the peer id is one of both inputs */ - RPS_sampler_elem_next(s_elem, &pid1); - CHECK((0 == memcmp(&pid0, - &s_elem->peer_id, - sizeof(struct GNUNET_PeerIdentity))) || - (0 == memcmp(&pid1, - &s_elem->peer_id, - sizeof(struct GNUNET_PeerIdentity)))); + RPS_sampler_elem_next (s_elem, &pid1); + CHECK ((0 == memcmp (&pid0, + &s_elem->peer_id, + sizeof(struct GNUNET_PeerIdentity))) || + (0 == memcmp (&pid1, + &s_elem->peer_id, + sizeof(struct GNUNET_PeerIdentity)))); /* Check that hash stayed the same when peer id did not change */ - if (0 == memcmp(&pid0, - &s_elem->peer_id, - sizeof(struct GNUNET_PeerIdentity))) - { - CHECK(0 == memcmp(&hash_code, + if (0 == memcmp (&pid0, + &s_elem->peer_id, + sizeof(struct GNUNET_PeerIdentity))) + { + CHECK (0 == memcmp (&hash_code, &s_elem->peer_id_hash, sizeof(struct GNUNET_HashCode))); - } + } else /* Check that hash changed */ - { - CHECK(0 != memcmp(&hash_code, + { + CHECK (0 != memcmp (&hash_code, &s_elem->peer_id_hash, sizeof(struct GNUNET_HashCode))); - } + } /* Check multiple inputs of same id * hash should not change anymore */ hash_code2 = s_elem->peer_id_hash; - RPS_sampler_elem_next(s_elem, &pid0); - CHECK(0 == memcmp(&hash_code2, - &s_elem->peer_id_hash, - sizeof(struct GNUNET_HashCode))); - RPS_sampler_elem_next(s_elem, &pid1); - CHECK(0 == memcmp(&hash_code2, - &s_elem->peer_id_hash, - sizeof(struct GNUNET_HashCode))); - RPS_sampler_elem_next(s_elem, &pid0); - CHECK(0 == memcmp(&hash_code2, - &s_elem->peer_id_hash, - sizeof(struct GNUNET_HashCode))); - RPS_sampler_elem_next(s_elem, &pid0); - CHECK(0 == memcmp(&hash_code2, - &s_elem->peer_id_hash, - sizeof(struct GNUNET_HashCode))); - RPS_sampler_elem_next(s_elem, &pid0); - CHECK(0 == memcmp(&hash_code2, - &s_elem->peer_id_hash, - sizeof(struct GNUNET_HashCode))); - RPS_sampler_elem_next(s_elem, &pid1); - CHECK(0 == memcmp(&hash_code2, - &s_elem->peer_id_hash, - sizeof(struct GNUNET_HashCode))); - RPS_sampler_elem_next(s_elem, &pid1); - CHECK(0 == memcmp(&hash_code2, - &s_elem->peer_id_hash, - sizeof(struct GNUNET_HashCode))); - RPS_sampler_elem_next(s_elem, &pid1); - CHECK(0 == memcmp(&hash_code2, - &s_elem->peer_id_hash, - sizeof(struct GNUNET_HashCode))); + RPS_sampler_elem_next (s_elem, &pid0); + CHECK (0 == memcmp (&hash_code2, + &s_elem->peer_id_hash, + sizeof(struct GNUNET_HashCode))); + RPS_sampler_elem_next (s_elem, &pid1); + CHECK (0 == memcmp (&hash_code2, + &s_elem->peer_id_hash, + sizeof(struct GNUNET_HashCode))); + RPS_sampler_elem_next (s_elem, &pid0); + CHECK (0 == memcmp (&hash_code2, + &s_elem->peer_id_hash, + sizeof(struct GNUNET_HashCode))); + RPS_sampler_elem_next (s_elem, &pid0); + CHECK (0 == memcmp (&hash_code2, + &s_elem->peer_id_hash, + sizeof(struct GNUNET_HashCode))); + RPS_sampler_elem_next (s_elem, &pid0); + CHECK (0 == memcmp (&hash_code2, + &s_elem->peer_id_hash, + sizeof(struct GNUNET_HashCode))); + RPS_sampler_elem_next (s_elem, &pid1); + CHECK (0 == memcmp (&hash_code2, + &s_elem->peer_id_hash, + sizeof(struct GNUNET_HashCode))); + RPS_sampler_elem_next (s_elem, &pid1); + CHECK (0 == memcmp (&hash_code2, + &s_elem->peer_id_hash, + sizeof(struct GNUNET_HashCode))); + RPS_sampler_elem_next (s_elem, &pid1); + CHECK (0 == memcmp (&hash_code2, + &s_elem->peer_id_hash, + sizeof(struct GNUNET_HashCode))); /* Check whether pid stayed the same all the time */ - if (0 == memcmp(&hash_code, - &hash_code2, - sizeof(struct GNUNET_HashCode))) - { - CHECK(0 == memcmp(&pid0, + if (0 == memcmp (&hash_code, + &hash_code2, + sizeof(struct GNUNET_HashCode))) + { + CHECK (0 == memcmp (&pid0, &s_elem->peer_id, sizeof(struct GNUNET_PeerIdentity))); - } + } else - { - CHECK(0 == memcmp(&pid1, + { + CHECK (0 == memcmp (&pid1, &s_elem->peer_id, sizeof(struct GNUNET_PeerIdentity))); - } - RPS_sampler_elem_destroy(s_elem); + } + RPS_sampler_elem_destroy (s_elem); /* Check _set() */ - s_elem = RPS_sampler_elem_create(); - CHECK(NULL != s_elem); - CHECK(EMPTY == s_elem->is_empty); - CHECK(NULL != &s_elem->auth_key); + s_elem = RPS_sampler_elem_create (); + CHECK (NULL != s_elem); + CHECK (EMPTY == s_elem->is_empty); + CHECK (NULL != &s_elem->auth_key); auth_key = s_elem->auth_key; - memset(&auth_key2, 0, sizeof(auth_key2)); - RPS_sampler_elem_set(s_elem, auth_key2); - CHECK(0 == memcmp(auth_key2.key, - s_elem->auth_key.key, - GNUNET_CRYPTO_HASH_LENGTH)); - RPS_sampler_elem_destroy(s_elem); + memset (&auth_key2, 0, sizeof(auth_key2)); + RPS_sampler_elem_set (s_elem, auth_key2); + CHECK (0 == memcmp (auth_key2.key, + s_elem->auth_key.key, + GNUNET_CRYPTO_HASH_LENGTH)); + RPS_sampler_elem_destroy (s_elem); /* TODO: deterministic tests (use _set() to set auth_key) */ @@ -194,15 +198,15 @@ check() int -main(int argc, char *argv[]) +main (int argc, char *argv[]) { - (void)argc; - (void)argv; + (void) argc; + (void) argv; - GNUNET_log_setup("test_service_rps_peers", - "WARNING", - NULL); - return check(); + GNUNET_log_setup ("test_service_rps_peers", + "WARNING", + NULL); + return check (); } /* end of test_service_rps_peers.c */ -- cgit v1.2.3