/* log supplementary groups */
sup_gids_size = 64;
- sup_gids = tor_malloc(sizeof(gid_t) * 64);
+ sup_gids = tor_calloc(sizeof(gid_t), 64);
while ((ngids = getgroups(sup_gids_size, sup_gids)) < 0 &&
errno == EINVAL &&
sup_gids_size < NGROUPS_MAX) {
sup_gids_size *= 2;
- sup_gids = tor_realloc(sup_gids, sizeof(gid_t) * sup_gids_size);
+ sup_gids = tor_reallocarray(sup_gids, sizeof(gid_t), sup_gids_size);
}
if (ngids < 0) {
smartlist_t *sl = tor_malloc(sizeof(smartlist_t));
sl->num_used = 0;
sl->capacity = SMARTLIST_DEFAULT_CAPACITY;
- sl->list = tor_malloc(sizeof(void *) * sl->capacity);
+ sl->list = tor_calloc(sizeof(void *), sl->capacity);
return sl;
}
higher *= 2;
}
sl->capacity = higher;
- sl->list = tor_realloc(sl->list, sizeof(void*)*((size_t)sl->capacity));
+ sl->list = tor_reallocarray(sl->list, sizeof(void *),
+ ((size_t)sl->capacity));
}
}
{
/* round up to the next int. */
size_t sz = (n_bits+BITARRAY_MASK) >> BITARRAY_SHIFT;
- return tor_malloc_zero(sz*sizeof(unsigned int));
+ return tor_calloc(sz, sizeof(unsigned int));
}
/** Expand <b>ba</b> from holding <b>n_bits_old</b> to <b>n_bits_new</b>,
* clearing all new bits. Returns a possibly changed pointer to the
char *ptr;
if (sz_new <= sz_old)
return ba;
- ptr = tor_realloc(ba, sz_new*sizeof(unsigned int));
+ ptr = tor_reallocarray(ba, sz_new, sizeof(unsigned int));
/* This memset does nothing to the older excess bytes. But they were
* already set to 0 by bitarry_init_zero. */
memset(ptr+sz_old*sizeof(unsigned int), 0,
goto done;
}
- base64_encoded_dh = tor_malloc_zero(len * 2); /* should be enough */
+ base64_encoded_dh = tor_calloc(len, 2); /* should be enough */
new_len = base64_encode(base64_encoded_dh, len * 2,
(char *)dh_string_repr, len);
if (new_len < 0) {
int i;
int n = CRYPTO_num_locks();
n_openssl_mutexes_ = n;
- openssl_mutexes_ = tor_malloc(n*sizeof(tor_mutex_t *));
+ openssl_mutexes_ = tor_calloc(n, sizeof(tor_mutex_t *));
for (i=0; i < n; ++i)
openssl_mutexes_[i] = tor_mutex_new();
CRYPTO_set_locking_callback(openssl_locking_cb_);
smartlist_add(arg_chars, (void*)&backslash);
/* Allocate space for argument, quotes (if needed), and terminator */
- formatted_arg = tor_malloc(sizeof(char) *
- (smartlist_len(arg_chars) + (need_quotes?2:0) + 1));
+ formatted_arg = tor_calloc(sizeof(char),
+ (smartlist_len(arg_chars) + (need_quotes ? 2 : 0) + 1));
/* Add leading quote */
i=0;
for each smartlist element (one for "-p" and one for the
ports), and one for the final NULL. */
args_n = 1 + 2*smartlist_len(ports_to_forward) + 1;
- argv = tor_malloc_zero(sizeof(char*)*args_n);
+ argv = tor_calloc(sizeof(char *), args_n);
argv[argv_index++] = filename;
SMARTLIST_FOREACH_BEGIN(ports_to_forward, const char *, port) {
* -1 means "Don't use this router at all."
*/
the_nodes = nodelist_get_list();
- n_supported = tor_malloc(sizeof(int)*smartlist_len(the_nodes));
+ n_supported = tor_calloc(sizeof(int), smartlist_len(the_nodes));
SMARTLIST_FOREACH_BEGIN(the_nodes, const node_t *, node) {
const int i = node_sl_idx;
if (router_digest_is_me(node->identity)) {
* distress anyway, so memory correctness here is paramount over
* doing acrobatics to preserve the array.
*/
- recent_circs = tor_malloc_zero(sizeof(int8_t)*num);
+ recent_circs = tor_calloc(sizeof(int8_t), num);
if (cbt->liveness.timeouts_after_firsthop &&
cbt->liveness.num_recent_circs > 0) {
memcpy(recent_circs, cbt->liveness.timeouts_after_firsthop,
cbt->liveness.num_recent_circs =
circuit_build_times_recent_circuit_count(NULL);
cbt->liveness.timeouts_after_firsthop =
- tor_malloc_zero(sizeof(int8_t)*cbt->liveness.num_recent_circs);
+ tor_calloc(sizeof(int8_t), cbt->liveness.num_recent_circs);
} else {
cbt->liveness.num_recent_circs = 0;
cbt->liveness.timeouts_after_firsthop = NULL;
int i, c;
*nbins = 1 + (max_build_time / CBT_BIN_WIDTH);
- histogram = tor_malloc_zero(*nbins * sizeof(build_time_t));
+ histogram = tor_calloc(*nbins, sizeof(build_time_t));
// calculate histogram
for (i = 0; i < CBT_NCIRCUITS_TO_OBSERVE; i++) {
if (cbt->total_build_times < CBT_NCIRCUITS_TO_OBSERVE)
num_modes = 1;
- nth_max_bin = (build_time_t*)tor_malloc_zero(num_modes*sizeof(build_time_t));
+ nth_max_bin = (build_time_t*)tor_calloc(num_modes, sizeof(build_time_t));
/* Determine the N most common build times */
for (i = 0; i < nbins; i++) {
}
/* build_time_t 0 means uninitialized */
- loaded_times = tor_malloc_zero(sizeof(build_time_t)*state->TotalBuildTimes);
+ loaded_times = tor_calloc(sizeof(build_time_t), state->TotalBuildTimes);
for (line = state->BuildtimeHistogram; line; line = line->next) {
smartlist_t *args = smartlist_new();
if (!validate_only && !is_useless_proxy) {
proxy_argc = line_length-2;
tor_assert(proxy_argc > 0);
- proxy_argv = tor_malloc_zero(sizeof(char*)*(proxy_argc+1));
+ proxy_argv = tor_calloc(sizeof(char *), (proxy_argc + 1));
tmp = proxy_argv;
for (i=0;i<proxy_argc;i++) { /* store arguments */
*tmp++ = smartlist_get(items, 2);
if (!validate_only) {
proxy_argc = line_length-2;
tor_assert(proxy_argc > 0);
- proxy_argv = tor_malloc_zero(sizeof(char*)*(proxy_argc+1));
+ proxy_argv = tor_calloc(sizeof(char *), (proxy_argc + 1));
tmp = proxy_argv;
for (i=0;i<proxy_argc;i++) { /* store arguments */
connection_t *conn;
int err;
- fdarray = tor_malloc(sizeof(tor_socket_t)*2);
+ fdarray = tor_calloc(sizeof(tor_socket_t), 2);
if ((err = tor_socketpair(AF_UNIX, SOCK_STREAM, 0, fdarray)) < 0) {
log_warn(LD_NET, "Couldn't construct socketpair for cpuworker: %s",
tor_socket_strerror(-err));
* sort them and use that to compute thresholds. */
n_active = n_active_nonexit = 0;
/* Uptime for every active router. */
- uptimes = tor_malloc(sizeof(uint32_t)*smartlist_len(rl->routers));
+ uptimes = tor_calloc(sizeof(uint32_t), smartlist_len(rl->routers));
/* Bandwidth for every active router. */
- bandwidths_kb = tor_malloc(sizeof(uint32_t)*smartlist_len(rl->routers));
+ bandwidths_kb = tor_calloc(sizeof(uint32_t), smartlist_len(rl->routers));
/* Bandwidth for every active non-exit router. */
bandwidths_excluding_exits_kb =
- tor_malloc(sizeof(uint32_t)*smartlist_len(rl->routers));
+ tor_calloc(sizeof(uint32_t), smartlist_len(rl->routers));
/* Weighted mean time between failure for each active router. */
- mtbfs = tor_malloc(sizeof(double)*smartlist_len(rl->routers));
+ mtbfs = tor_calloc(sizeof(double), smartlist_len(rl->routers));
/* Time-known for each active router. */
- tks = tor_malloc(sizeof(long)*smartlist_len(rl->routers));
+ tks = tor_calloc(sizeof(long), smartlist_len(rl->routers));
/* Weighted fractional uptime for each active router. */
- wfus = tor_malloc(sizeof(double)*smartlist_len(rl->routers));
+ wfus = tor_calloc(sizeof(double), smartlist_len(rl->routers));
nodelist_assert_ok();
between INT32_MIN and INT32_MAX inclusive. This should be guaranteed by
the parsing code. */
- vals = tor_malloc(sizeof(int)*n_votes);
+ vals = tor_calloc(sizeof(int), n_votes);
SMARTLIST_FOREACH_BEGIN(votes, networkstatus_t *, v) {
if (!v->net_params)
* routers we might need to talk about. */
{
int n_votes = smartlist_len(votes);
- time_t *va_times = tor_malloc(n_votes * sizeof(time_t));
- time_t *fu_times = tor_malloc(n_votes * sizeof(time_t));
- time_t *vu_times = tor_malloc(n_votes * sizeof(time_t));
- int *votesec_list = tor_malloc(n_votes * sizeof(int));
- int *distsec_list = tor_malloc(n_votes * sizeof(int));
+ time_t *va_times = tor_calloc(n_votes, sizeof(time_t));
+ time_t *fu_times = tor_calloc(n_votes, sizeof(time_t));
+ time_t *vu_times = tor_calloc(n_votes, sizeof(time_t));
+ int *votesec_list = tor_calloc(n_votes, sizeof(int));
+ int *distsec_list = tor_calloc(n_votes, sizeof(int));
int n_versioning_clients = 0, n_versioning_servers = 0;
smartlist_t *combined_client_versions = smartlist_new();
smartlist_t *combined_server_versions = smartlist_new();
smartlist_t *chosen_flags = smartlist_new();
smartlist_t *versions = smartlist_new();
smartlist_t *exitsummaries = smartlist_new();
- uint32_t *bandwidths_kb = tor_malloc(sizeof(uint32_t) *
+ uint32_t *bandwidths_kb = tor_calloc(sizeof(uint32_t),
smartlist_len(votes));
- uint32_t *measured_bws_kb = tor_malloc(sizeof(uint32_t) *
+ uint32_t *measured_bws_kb = tor_calloc(sizeof(uint32_t),
smartlist_len(votes));
int num_bandwidths;
int num_mbws;
memset(conflict, 0, sizeof(conflict));
memset(unknown, 0xff, sizeof(conflict));
- index = tor_malloc_zero(sizeof(int)*smartlist_len(votes));
- size = tor_malloc_zero(sizeof(int)*smartlist_len(votes));
- n_voter_flags = tor_malloc_zero(sizeof(int) * smartlist_len(votes));
- n_flag_voters = tor_malloc_zero(sizeof(int) * smartlist_len(flags));
- flag_map = tor_malloc_zero(sizeof(int*) * smartlist_len(votes));
- named_flag = tor_malloc_zero(sizeof(int) * smartlist_len(votes));
- unnamed_flag = tor_malloc_zero(sizeof(int) * smartlist_len(votes));
+ index = tor_calloc(sizeof(int), smartlist_len(votes));
+ size = tor_calloc(sizeof(int), smartlist_len(votes));
+ n_voter_flags = tor_calloc(sizeof(int), smartlist_len(votes));
+ n_flag_voters = tor_calloc(sizeof(int), smartlist_len(flags));
+ flag_map = tor_calloc(sizeof(int *), smartlist_len(votes));
+ named_flag = tor_calloc(sizeof(int), smartlist_len(votes));
+ unnamed_flag = tor_calloc(sizeof(int), smartlist_len(votes));
for (i = 0; i < smartlist_len(votes); ++i)
unnamed_flag[i] = named_flag[i] = -1;
chosen_named_idx = smartlist_string_pos(flags, "Named");
* that they're actually set before doing U64_LITERAL(1) << index with
* them.*/
SMARTLIST_FOREACH_BEGIN(votes, networkstatus_t *, v) {
- flag_map[v_sl_idx] = tor_malloc_zero(
- sizeof(int)*smartlist_len(v->known_flags));
+ flag_map[v_sl_idx] = tor_calloc(sizeof(int),
+ smartlist_len(v->known_flags));
if (smartlist_len(v->known_flags) > MAX_KNOWN_FLAGS_IN_VOTE) {
log_warn(LD_BUG, "Somehow, a vote has %d entries in known_flags",
smartlist_len(v->known_flags));
);
/* Now go through all the votes */
- flag_counts = tor_malloc(sizeof(int) * smartlist_len(flags));
+ flag_counts = tor_calloc(sizeof(int), smartlist_len(flags));
while (1) {
vote_routerstatus_t *rs;
routerstatus_t rs_out;
/* We may have rounded 'completed' up. Here we want to use the
* real value. */
complete = smartlist_len(dirreq_completed);
- dltimes = tor_malloc_zero(sizeof(uint32_t) * complete);
+ dltimes = tor_calloc(sizeof(uint32_t), complete);
SMARTLIST_FOREACH_BEGIN(dirreq_completed, dirreq_map_entry_t *, ent) {
uint32_t bytes_per_second;
uint32_t time_diff = (uint32_t) tv_mdiff(&ent->request_time,
if (!geoip_is_loaded(AF_INET) && !geoip_is_loaded(AF_INET6))
return -1;
- counts = tor_malloc_zero(sizeof(unsigned)*n_countries);
+ counts = tor_calloc(sizeof(unsigned), n_countries);
HT_FOREACH(ent, clientmap, &client_history) {
int country;
if ((*ent)->action != (int)action)
return -1;
}
/* Base64-encode introduction points. */
- ipos_base64 = tor_malloc_zero(ipos_len * 2);
+ ipos_base64 = tor_calloc(ipos_len, 2);
if (base64_encode(ipos_base64, ipos_len * 2, ipos, ipos_len)<0) {
log_warn(LD_REND, "Could not encode introduction point string to "
"base64. length=%d", (int)ipos_len);
rep_hist_exit_stats_init(time_t now)
{
start_of_exit_stats_interval = now;
- exit_bytes_read = tor_malloc_zero(EXIT_STATS_NUM_PORTS *
- sizeof(uint64_t));
- exit_bytes_written = tor_malloc_zero(EXIT_STATS_NUM_PORTS *
- sizeof(uint64_t));
- exit_streams = tor_malloc_zero(EXIT_STATS_NUM_PORTS *
- sizeof(uint32_t));
+ exit_bytes_read = tor_calloc(EXIT_STATS_NUM_PORTS, sizeof(uint64_t));
+ exit_bytes_written = tor_calloc(EXIT_STATS_NUM_PORTS, sizeof(uint64_t));
+ exit_streams = tor_calloc(EXIT_STATS_NUM_PORTS, sizeof(uint32_t));
}
/** Reset counters for exit port statistics. */
size = digestmap_size(served_descs);
if (size > 0) {
- vals = tor_malloc(size * sizeof(int));
+ vals = tor_calloc(size, sizeof(int));
for (iter = digestmap_iter_init(served_descs);
!digestmap_iter_done(iter);
iter = digestmap_iter_next(served_descs, iter)) {
u64_dbl_t *weights;
const dir_server_t *ds;
- weights = tor_malloc(sizeof(u64_dbl_t) * n);
+ weights = tor_calloc(sizeof(u64_dbl_t), n);
for (i = 0; i < n; ++i) {
ds = smartlist_get(servers, i);
weights[i].dbl = ds->weight;
Web /= weight_scale;
Wdb /= weight_scale;
- bandwidths = tor_malloc_zero(sizeof(u64_dbl_t)*smartlist_len(sl));
+ bandwidths = tor_calloc(sizeof(u64_dbl_t), smartlist_len(sl));
// Cycle through smartlist and total the bandwidth.
SMARTLIST_FOREACH_BEGIN(sl, const node_t *, node) {
/* First count the total bandwidth weight, and make a list
* of each value. We use UINT64_MAX to indicate "unknown". */
- bandwidths = tor_malloc_zero(sizeof(u64_dbl_t)*smartlist_len(sl));
+ bandwidths = tor_calloc(sizeof(u64_dbl_t), smartlist_len(sl));
fast_bits = bitarray_init_zero(smartlist_len(sl));
exit_bits = bitarray_init_zero(smartlist_len(sl));
guard_bits = bitarray_init_zero(smartlist_len(sl));
n_extra = n - mdpr;
}
- lifespans = tor_malloc_zero(sizeof(struct duration_idx_t)*n);
- rmv = tor_malloc_zero(sizeof(uint8_t)*n);
- must_keep = tor_malloc_zero(sizeof(uint8_t)*n);
+ lifespans = tor_calloc(sizeof(struct duration_idx_t), n);
+ rmv = tor_calloc(sizeof(uint8_t), n);
+ must_keep = tor_calloc(sizeof(uint8_t), n);
/* Set lifespans to contain the lifespan and index of each server. */
/* Set rmv[i-lo]=1 if we're going to remove a server for being too old. */
for (i = lo; i <= hi; ++i) {
managed_proxy_t *mp = tor_malloc_zero(sizeof(managed_proxy_t));
mp->conf_state = PT_PROTO_LAUNCHED;
mp->transports = smartlist_new();
- mp->argv = tor_malloc_zero(sizeof(char*)*2);
+ mp->argv = tor_calloc(sizeof(char *), 2);
mp->argv[0] = tor_strdup("<testcase>");
/* various wrong protocol runs: */
/* Check whether we can uncompress concatenated, compressed strings. */
tor_free(buf3);
- buf2 = tor_realloc(buf2, len1*2);
+ buf2 = tor_reallocarray(buf2, len1, 2);
memcpy(buf2+len1, buf2, len1);
test_assert(!tor_gzip_uncompress(&buf3, &len2, buf2, len1*2,
ZLIB_METHOD, 1, LOG_INFO));
projects / thirdparty / tor.git / commitdiff
