new_data
krb5_mkey_aux_node *head_data = NULL, *new_data = NULL,
new_data = (krb5_mkey_aux_node *) malloc(sizeof(krb5_mkey_aux_node));
if (new_data == NULL) {
memset(new_data, 0, sizeof(krb5_mkey_aux_node));
new_data->mkey_kvno = mkey_kvno;
krb5_kdb_decode_int16(curloc, new_data->latest_mkey.key_data_kvno);
krb5_kdb_decode_int16(curloc, new_data->latest_mkey.key_data_type[0]);
krb5_kdb_decode_int16(curloc, new_data->latest_mkey.key_data_length[0]);
new_data->latest_mkey.key_data_contents[0] = (krb5_octet *)
malloc(new_data->latest_mkey.key_data_length[0]);
if (new_data->latest_mkey.key_data_contents[0] == NULL) {
free(new_data);
memcpy(new_data->latest_mkey.key_data_contents[0], curloc,
new_data->latest_mkey.key_data_length[0]);
curloc += new_data->latest_mkey.key_data_length[0];
new_data->latest_mkey.key_data_ver = 1;
new_data->next = NULL;
prev_data->next = new_data;
head_data = new_data;
prev_data = new_data;
krb5_actkvno_node *head_data = NULL, *new_data = NULL, *prev_data = NULL;
new_data = (krb5_actkvno_node *) malloc(sizeof(krb5_actkvno_node));
if (new_data == NULL) {
memset(new_data, 0, sizeof(krb5_actkvno_node));
new_data->act_kvno = (krb5_kvno) tmp_kvno;
krb5_kdb_decode_int32(act_time(next_tuple), new_data->act_time);
prev_data->next = new_data;
head_data = new_data;
prev_data = new_data;
krb5_data *new_data = NULL;
new_data = realloc(data, size * sizeof(krb5_data));
if (new_data) {
data = new_data;
prf_data_t new_data;
new_data = profile_make_prf_data(file->data->filespec);
if (new_data == NULL) {
new_data->root = NULL;
new_data->flags = file->data->flags & ~PROFILE_FILE_SHARED;
new_data->timestamp = 0;
new_data->upd_serial = file->data->upd_serial;
file->data = new_data;
struct data *old_data = cbdata, *new_data;
new_data = malloc(sizeof(*new_data));
new_data->residual = strdup(old_data->residual);
new_data->gen = old_data->gen + 1;
*ret_cbdata = new_data;
buf->data = new_data;
char *new_data;
new_data = malloc(new_space);
if (new_data == NULL)
memcpy(new_data, buf->data, buf->len);
new_data = realloc(buf->data, new_space);
if (new_data == NULL)
char *new_data;
new_data = tohex(sc->x11_fake_data, data_len);
(r = sshpkt_put_cstring(ssh, new_data)) != 0 ||
free(new_data);
(void *)new_data.ctx, LEVEL, (unsigned int)i,
(void *)new_data.ctx, LEVEL, (unsigned int)i,
(void *)new_data.ctx, LEVEL, (unsigned int)i);
(void *)new_data.ctx, LEVEL, (unsigned int)i);
(void *)new_data.ctx, LEVEL, (unsigned int)i);
(void *)new_data.ctx, LEVEL, (unsigned int)i,
new_data.current_decoder_inst_index = i;
new_data.flag_input_structure_checked
new_data.ctx->selection,
decoder_process, &new_data,
&new_data.ctx->pwdata);
(void *)new_data.ctx, LEVEL, (unsigned int)i,
new_data.flag_next_level_called ? "yes" : "no",
new_data.flag_construct_called ? "yes" : "no");
data->flag_construct_called = new_data.flag_construct_called;
if (new_data.flag_next_level_called)
BIO_free(new_data.bio);
struct decoder_process_data_st new_data;
memset(&new_data, 0, sizeof(new_data));
new_data.ctx = data->ctx;
new_data.recursion = data->recursion + 1;
#define LEVEL (new_data.recursion < sizeof(LEVEL_STR) \
? &LEVEL_STR[sizeof(LEVEL_STR) - new_data.recursion - 1] \
(void *)new_data.ctx);
(void *)new_data.ctx, LEVEL);
(void *)new_data.ctx, LEVEL, rv);
new_data.bio = BIO_new_mem_buf(p->data, (int)p->data_size);
if (new_data.bio == NULL)
bio = new_data.bio;
(void *)new_data.ctx, LEVEL, (void *)decoder,
(void *)new_data.ctx, LEVEL, (unsigned int)i,
struct encoder_process_data_st new_data;
memset(&new_data, 0, sizeof(new_data));
new_data.ctx = data->ctx;
new_data.current_encoder_inst_index = i;
new_data.next_encoder_inst = current_encoder_inst;
new_data.count_output_structure = data->count_output_structure;
new_data.level = data->level + 1;
ok = encoder_process(&new_data);
data->prev_encoder_inst = new_data.prev_encoder_inst;
data->running_output = new_data.running_output;
data->running_output_length = new_data.running_output_length;
data->level, new_data.level);
unsigned char *new_data = NULL;
&new_data, &new_data_len, 0))
mem->data = (char *)new_data;
data: IL_DATA { new_data(); }
void new_data(void);
u64 new_data = rd64(hw, reg) & (BIT_ULL(40) - 1);
*prev_stat = new_data;
if (new_data >= *prev_stat)
*cur_stat += new_data - *prev_stat;
*cur_stat += (new_data + BIT_ULL(40)) - *prev_stat;
*prev_stat = new_data;
u32 new_data;
new_data = rd32(hw, reg);
*prev_stat = new_data;
if (new_data >= *prev_stat)
*cur_stat += new_data - *prev_stat;
*cur_stat += (new_data + BIT_ULL(32)) - *prev_stat;
*prev_stat = new_data;
u64 new_data = rd64(hw, reg);
*offset = new_data;
if (new_data >= *offset)
*stat = new_data - *offset;
*stat = (new_data + mask) - *offset + 1;
u32 new_data;
new_data = rd32(hw, reg);
*offset = new_data;
if (new_data >= *offset)
*stat = (u32)(new_data - *offset);
*stat = (u32)((new_data + ((u64)1 << 32)) - *offset);
void *_old_data, void **new_data);
uint8_t *new_data;
new_data = realloc(io->data, new_cap);
if (new_data == NULL)
io->data = new_data;
uint8_t *new_data = (uint8_t *) realloc(provider->data, datalen);
if (new_data == NULL)
memcpy(new_data, data, datalen);
provider->data = new_data;
struct camdd_buf_data *new_data;
new_data = &new_buf->buf_type_spec.data;
if ((new_data->fill_len == new_buf->len)
} else if (new_data->fill_len < buf->len) {
uint16_t *new_data;
new_data = malloc(size);
new_data[i] = strtoul(next, NULL, 16);
if (new_data[i] == 0 && errno == EINVAL) {
if (set_bootvar("BootOrder", (uint8_t*)new_data, size) < 0)
free(new_data);