static void
nick_2_cont (void *cls, int32_t success, const char *emsg)
{
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Nick added : %s\n",
(success == GNUNET_OK) ? "SUCCESS" : "FAIL");
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Created record 1\n");
GNUNET_asprintf(&s_name_1, "dummy1");
s_rd_1 = create_record(1);
GNUNET_NAMESTORE_records_store (nsh, privkey, s_name_1,
1, s_rd_1,
&put_cont, NULL);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Created record 2 \n");
GNUNET_asprintf(&s_name_2, "dummy2");
s_rd_2 = create_record(1);
GNUNET_NAMESTORE_records_store (nsh, privkey, s_name_2,
1, s_rd_2, &put_cont, NULL);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Created record 3\n");
/* name in different zone */
GNUNET_asprintf(&s_name_3, "dummy3");
s_rd_3 = create_record(1);
GNUNET_NAMESTORE_records_store (nsh, privkey2, s_name_3,
1, s_rd_3,
&put_cont, NULL);
}
static void
run (void *cls,
const struct GNUNET_CONFIGURATION_Handle *cfg,
struct GNUNET_TESTING_Peer *peer)
{
char *hostkey_file;
struct GNUNET_TIME_Absolute et;
endbadly_task = GNUNET_SCHEDULER_add_delayed(TIMEOUT,&endbadly, NULL);
GNUNET_asprintf(&hostkey_file,"zonefiles%s%s",DIR_SEPARATOR_STR,
"N0UJMP015AFUNR2BTNM3FKPBLG38913BL8IDMCO2H0A1LIB81960.zkey");
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Using zonekey file `%s' \n", hostkey_file);
privkey = GNUNET_CRYPTO_rsa_key_create_from_file(hostkey_file);
GNUNET_free (hostkey_file);
GNUNET_assert (privkey != NULL);
GNUNET_CRYPTO_rsa_key_get_public(privkey, &pubkey);
GNUNET_CRYPTO_hash(&pubkey, sizeof (pubkey), &zone);
GNUNET_asprintf(&hostkey_file,"zonefiles%s%s",DIR_SEPARATOR_STR,
"HGU0A0VCU334DN7F2I9UIUMVQMM7JMSD142LIMNUGTTV9R0CF4EG.zkey");
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Using zonekey file `%s' \n", hostkey_file);
privkey2 = GNUNET_CRYPTO_rsa_key_create_from_file(hostkey_file);
GNUNET_free (hostkey_file);
GNUNET_assert (privkey2 != NULL);
GNUNET_CRYPTO_rsa_key_get_public(privkey2, &pubkey2);
GNUNET_CRYPTO_hash(&pubkey2, sizeof (pubkey), &zone2);
nsh = GNUNET_NAMESTORE_connect (cfg);
GNUNET_break (NULL != nsh);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Created record 1\n");
GNUNET_asprintf(&s_name_1, "dummy1");
s_rd_1 = create_record(1);
et.abs_value = s_rd_1[0].expiration_time;
sig_1 = GNUNET_NAMESTORE_create_signature(privkey, et, s_name_1, s_rd_1, 1);
GNUNET_NAMESTORE_record_create(nsh, privkey, s_name_1, s_rd_1, &put_cont, NULL);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Created record 2 \n");
GNUNET_asprintf(&s_name_2, "dummy2");
s_rd_2 = create_record(1);
et.abs_value = s_rd_2[0].expiration_time;
sig_2 = GNUNET_NAMESTORE_create_signature(privkey, et, s_name_2, s_rd_2, 1);
GNUNET_NAMESTORE_record_create(nsh, privkey, s_name_2, s_rd_2, &put_cont, NULL);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Created record 3\n");
/* name in different zone */
GNUNET_asprintf(&s_name_3, "dummy3");
s_rd_3 = create_record(1);
et.abs_value = s_rd_3[0].expiration_time;
sig_3 = GNUNET_NAMESTORE_create_signature(privkey2, et, s_name_3, s_rd_3, 1);
GNUNET_NAMESTORE_record_put (nsh, &pubkey2, s_name_3, GNUNET_TIME_UNIT_FOREVER_ABS, 1, s_rd_3, sig_3, &put_cont, NULL);
}
static void
run (void *cls, char *const *args, const char *cfgfile,
const struct GNUNET_CONFIGURATION_Handle *cfg)
{
struct GNUNET_GNSRECORD_Block *block;
struct GNUNET_CRYPTO_EcdsaPublicKey pubkey;
/* load privat key */
char *hostkey_file;
GNUNET_asprintf(&hostkey_file,
"zonefiles%s%s",
DIR_SEPARATOR_STR,
"N0UJMP015AFUNR2BTNM3FKPBLG38913BL8IDMCO2H0A1LIB81960.zkey");
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Using zonekey file `%s'\n",
hostkey_file);
privkey = GNUNET_CRYPTO_ecdsa_key_create_from_file(hostkey_file);
GNUNET_free (hostkey_file);
GNUNET_assert (privkey != NULL);
struct GNUNET_TIME_Absolute expire = GNUNET_TIME_absolute_get();
/* get public key */
GNUNET_CRYPTO_ecdsa_key_get_public(privkey, &pubkey);
/* create record */
s_name = "DUMMY.dummy.gnunet";
s_rd = create_record (RECORDS);
/* Create block */
GNUNET_assert (NULL != (block = GNUNET_GNSRECORD_block_create (privkey, expire,s_name, s_rd, RECORDS)));
GNUNET_assert (GNUNET_OK == GNUNET_GNSRECORD_block_verify (block));
GNUNET_assert (GNUNET_OK == GNUNET_GNSRECORD_block_decrypt (block, &pubkey, s_name, &rd_decrypt_cb, s_name));
GNUNET_free (block);
}
static struct a2dp_sep *a2dp_add_sep(DBusConnection *conn, uint8_t type,
uint8_t codec)
{
struct a2dp_sep *sep;
GSList **l;
sdp_record_t *(*create_record)(void);
uint32_t *record_id;
sdp_record_t *record;
struct avdtp_sep_ind *ind;
sep = g_new0(struct a2dp_sep, 1);
ind = (codec == A2DP_CODEC_MPEG12) ? &mpeg_ind : &sbc_ind;
sep->sep = avdtp_register_sep(type, AVDTP_MEDIA_TYPE_AUDIO, codec,
ind, &cfm, sep);
if (sep->sep == NULL) {
g_free(sep);
return NULL;
}
sep->codec = codec;
sep->type = type;
if (type == AVDTP_SEP_TYPE_SOURCE) {
l = &sources;
create_record = a2dp_source_record;
record_id = &source_record_id;
} else {
l = &sinks;
create_record = a2dp_sink_record;
record_id = &sink_record_id;
}
if (*record_id != 0)
goto add;
record = create_record();
if (!record) {
error("Unable to allocate new service record");
avdtp_unregister_sep(sep->sep);
g_free(sep);
return NULL;
}
if (add_record_to_server(BDADDR_ANY, record) < 0) {
error("Unable to register A2DP service record");\
sdp_record_free(record);
avdtp_unregister_sep(sep->sep);
g_free(sep);
return NULL;
}
*record_id = record->handle;
add:
*l = g_slist_append(*l, sep);
return sep;
}
bool GqRecordALSA::start_record() {
create_record();
snd_pcm_hw_params_free(m_hw_params);
int err = -1;
if ((err = snd_pcm_prepare(m_pcapture_handle)) < 0) {
fprintf(stderr, "cannot prepare audio interface for use (%s)\n",
snd_strerror(err));
exit(1);
}
pthread_create(&m_ptd_record, NULL, fn_record, this);
return true;
}
static void
run (void *cls, char *const *args, const char *cfgfile,
const struct GNUNET_CONFIGURATION_Handle *cfg)
{
delete_existing_db(cfg);
endbadly_task = GNUNET_SCHEDULER_add_delayed(TIMEOUT,endbadly, NULL);
size_t rd_ser_len;
/* load privat key from file not included in zonekey dir */
privkey = GNUNET_CRYPTO_rsa_key_create_from_file("test_hostkey");
GNUNET_assert (privkey != NULL);
/* get public key */
GNUNET_CRYPTO_rsa_key_get_public(privkey, &pubkey);
/* create record */
s_name = "dummy.dummy.gnunet";
s_rd = create_record (RECORDS);
rd_ser_len = GNUNET_NAMESTORE_records_get_size(RECORDS, s_rd);
char rd_ser[rd_ser_len];
GNUNET_NAMESTORE_records_serialize(RECORDS, s_rd, rd_ser_len, rd_ser);
/* sign */
s_signature = GNUNET_NAMESTORE_create_signature(privkey, s_rd[0].expiration, s_name, s_rd, RECORDS);
/* create random zone hash */
GNUNET_CRYPTO_short_hash (&pubkey, sizeof (struct GNUNET_CRYPTO_RsaPublicKeyBinaryEncoded), &s_zone);
start_arm (cfgfile);
GNUNET_assert (arm != NULL);
nsh = GNUNET_NAMESTORE_connect (cfg);
GNUNET_break (NULL != nsh);
GNUNET_break (s_rd != NULL);
GNUNET_break (s_name != NULL);
GNUNET_NAMESTORE_record_put (nsh, &pubkey, s_name,
GNUNET_TIME_UNIT_FOREVER_ABS,
RECORDS, s_rd, s_signature, put_cont, s_name);
}
/*
void add_mime_media_record(stru_message *message, char *mimeType, unsigned char *payload)
{
unsigned char payloadBytes[strlen(payload) + 1];
memcpy(payloadBytes, payload,strlen(payload));
stru_record *record = create_record();
set_tnf(record, TNF_MIME_MEDIA);
unsigned char type[strlen(mimeType) + 1];
memcpy(type, mimeType, strlen(mimeType));
set_type(record, type, strlen(mimeType));
set_payload(record, payloadBytes, strlen(payload));
add_record(message, record);
}
*/
void add_text_record(stru_message *message, char *text)
{
stru_record *record = create_record();
set_tnf(record, TNF_WELL_KNOWN);
unsigned char RTD_TEXT[1] = { 0x54 }; // this should be a constant or preprocessor
set_type(record, RTD_TEXT, sizeof(RTD_TEXT));
// X is a placeholder for encoding length
// is it more efficient to build w/o string concatenation?
unsigned char payload[strlen(text) + 4];
payload[strlen(text) + 3] = '\0';
memcpy(payload, "Xen", 3);
memcpy(payload + 3, text, strlen(text));
// replace X with the real encoding length
payload[0] = 2;
set_payload(record, payload, strlen(text) + 3);
add_record(message, record);
}
/**
* Callback called from the zone iterator when we iterate over
* the empty zone. Check that we got no records and then
* start the actual tests by filling the zone.
*/
static void
empty_zone_proc (void *cls,
const struct GNUNET_CRYPTO_EcdsaPrivateKey *zone,
const char *label,
unsigned int rd_count,
const struct GNUNET_GNSRECORD_Data *rd)
{
char *hostkey_file;
GNUNET_assert (nsh == cls);
if (NULL != zone)
{
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
_("Expected empty zone but received zone private key\n"));
GNUNET_break (0);
if (endbadly_task != NULL)
GNUNET_SCHEDULER_cancel (endbadly_task);
endbadly_task = GNUNET_SCHEDULER_add_now (&endbadly, NULL);
return;
}
if ((NULL != label) || (NULL != rd) || (0 != rd_count))
{
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
_("Expected no zone content but received data\n"));
GNUNET_break (0);
if (endbadly_task != NULL)
GNUNET_SCHEDULER_cancel (endbadly_task);
endbadly_task = GNUNET_SCHEDULER_add_now (&endbadly, NULL);
return;
}
zi = NULL;
GNUNET_asprintf(&hostkey_file,"zonefiles%s%s",DIR_SEPARATOR_STR,
"N0UJMP015AFUNR2BTNM3FKPBLG38913BL8IDMCO2H0A1LIB81960.zkey");
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Using zonekey file `%s' \n", hostkey_file);
privkey = GNUNET_CRYPTO_ecdsa_key_create_from_file(hostkey_file);
GNUNET_free (hostkey_file);
GNUNET_assert (privkey != NULL);
GNUNET_asprintf(&hostkey_file,"zonefiles%s%s",DIR_SEPARATOR_STR,
"HGU0A0VCU334DN7F2I9UIUMVQMM7JMSD142LIMNUGTTV9R0CF4EG.zkey");
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Using zonekey file `%s' \n", hostkey_file);
privkey2 = GNUNET_CRYPTO_ecdsa_key_create_from_file(hostkey_file);
GNUNET_free (hostkey_file);
GNUNET_assert (privkey2 != NULL);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Created record 1\n");
GNUNET_asprintf(&s_name_1, "dummy1");
s_rd_1 = create_record(1);
GNUNET_NAMESTORE_records_store(nsh, privkey, s_name_1,
1, s_rd_1, &put_cont, NULL);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Created record 2 \n");
GNUNET_asprintf(&s_name_2, "dummy2");
s_rd_2 = create_record(1);
GNUNET_NAMESTORE_records_store(nsh, privkey, s_name_2,
1, s_rd_2, &put_cont, NULL);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Created record 3\n");
/* name in different zone */
GNUNET_asprintf(&s_name_3, "dummy3");
s_rd_3 = create_record(1);
GNUNET_NAMESTORE_records_store(nsh, privkey2, s_name_3,
1, s_rd_3, &put_cont, NULL);
}
int main(int argc, char *argv[])
{
MI_INFO *file;
int i,j;
MY_INIT(argv[0]);
get_options(argc,argv);
bzero((char*)recinfo,sizeof(recinfo));
/* First define 2 columns */
recinfo[0].type=FIELD_SKIP_ENDSPACE;
recinfo[0].length=docid_length;
recinfo[1].type=FIELD_BLOB;
recinfo[1].length= 4+portable_sizeof_char_ptr;
/* Define a key over the first column */
keyinfo[0].seg=keyseg;
keyinfo[0].keysegs=1;
keyinfo[0].block_length= 0; /* Default block length */
keyinfo[0].seg[0].type= HA_KEYTYPE_TEXT;
keyinfo[0].seg[0].flag= HA_BLOB_PART;
keyinfo[0].seg[0].start=recinfo[0].length;
keyinfo[0].seg[0].length=key_length;
keyinfo[0].seg[0].null_bit=0;
keyinfo[0].seg[0].null_pos=0;
keyinfo[0].seg[0].bit_start=4;
keyinfo[0].seg[0].language=MY_CHARSET_CURRENT;
keyinfo[0].flag = HA_FULLTEXT;
if (!silent)
printf("- Creating isam-file\n");
if (mi_create(filename,1,keyinfo,2,recinfo,0,NULL,(MI_CREATE_INFO*) 0,0))
goto err;
if (!(file=mi_open(filename,2,0)))
goto err;
if (!silent)
printf("Initializing stopwords\n");
ft_init_stopwords(stopwordlist);
if (!silent)
printf("- Writing key:s\n");
my_errno=0;
i=0;
while (create_record(record,df))
{
error=mi_write(file,record);
if (error)
printf("I= %2d mi_write: %d errno: %d\n",i,error,my_errno);
i++;
}
fclose(df);
if (mi_close(file)) goto err;
if (!silent)
printf("- Reopening file\n");
if (!(file=mi_open(filename,2,0))) goto err;
if (!silent)
printf("- Reading rows with key\n");
for (i=1;create_record(record,qf);i++)
{
FT_DOCLIST *result;
double w;
int t, err;
result=ft_nlq_init_search(file,0,blob_record,(uint) strlen(blob_record),1);
if (!result)
{
printf("Query %d failed with errno %3d\n",i,my_errno);
goto err;
}
if (!silent)
printf("Query %d. Found: %d.\n",i,result->ndocs);
for (j=0;(err=ft_nlq_read_next(result, read_record))==0;j++)
{
t=uint2korr(read_record);
w=ft_nlq_get_relevance(result);
printf("%d %.*s %f\n",i,t,read_record+2,w);
}
if (err != HA_ERR_END_OF_FILE)
{
printf("ft_read_next %d failed with errno %3d\n",j,my_errno);
goto err;
}
ft_nlq_close_search(result);
}
if (mi_close(file)) goto err;
my_end(MY_CHECK_ERROR);
return (0);
err:
printf("got error: %3d when using myisam-database\n",my_errno);
return 1; /* skip warning */
}
ERRORCODE Database::new_record(DB_RECORD_TYPE type, VOIDPTR creation_data, DatabaseRecordPtr far *record)
{
ERRORCODE error;
DB_RECORD_NUMBER number;
// Always want to be exclusive.
storage_manager.SetExclusive(TRUE);
/* The record should start out as NULL as an additional check. */
*record = NULL;
/* Allocate a new entry. */
if ((error = table_manager.allocate_entry(&number, type)) == ERRORCODE_None)
{
RECORD_FILE_ENTRY far *fentry;
RECORD_MEMORY_ENTRY far *mentry;
/* Lock the entry. */
if ((error = table_manager.lock_entry(number, &fentry, &mentry)) == ERRORCODE_None)
{
if ((error = create_record(type, number, creation_data, &fentry->position, record)) == ERRORCODE_None)
{
/* Remember this for later. */
// TRACE("new_record allocated entry %ld (%d)\n", (*record)->Id(), (*record)->type());
mentry->data = *record;
/* Start us off right. */
if (storage_manager.IsSharing())
{
error = mentry->data->write();
}
if (error == ERRORCODE_None)
{
mentry->data->ModifyLock();
mentry->data->ElementModified();
}
else
{
/* Unable to write. */
delete mentry->data;
mentry->data = *record = NULL;
}
}
if (error != ERRORCODE_None)
{
/* Error clean up. */
table_manager.unlock_entry(number);
table_manager.deallocate_entry(number);
}
}
}
storage_manager.SetExclusive(FALSE);
#ifdef DATABASE_STATISTICS
if (error == ERRORCODE_None)
{
if( type < RECORD_TYPE_ProjectPreview || type > RECORD_TYPE_Component )
{
m_lCreateRecord[0]++;
}
else
{
m_lCreateRecord[type]++;
}
}
#endif
return error;
}
stru_message *create_message_b(const unsigned char* data, const int numBytes)
{
stru_message *message = &message_buffer;
//message = (stru_message *)malloc(sizeof(stru_message));
int index = 0;
message->recordCount = 0;
while(index <= numBytes)
{
// decode tnf - first byte is tnf with bit flags
// see the NFDEF spec for more info
unsigned char tnf_byte = data[index];
bool mb = (tnf_byte & 0x80) != 0;
bool me = (tnf_byte & 0x40) != 0;
bool cf = (tnf_byte & 0x20) != 0;
bool sr = (tnf_byte & 0x10) != 0;
bool il = (tnf_byte & 0x8) != 0;
unsigned char tnf = (tnf_byte & 0x7);
stru_record *record = create_record();
set_tnf(record, tnf);
index++;
int typeLength = data[index];
int payloadLength = 0;
if(sr)
{
index++;
payloadLength = data[index];
}
else
{
payloadLength =((0xFF & data[++index]) << 24) | ((0xFF & data[++index]) << 16) | ((0xFF & data[++index]) << 8) | (0xFF & data[++index]);
}
int idLength = 0;
if(il)
{
index++;
idLength = data[index];
}
index++;
set_type(record, &data[index], typeLength);
index += typeLength;
if(il)
{
set_id(record, &data[index], idLength);
index += idLength;
}
set_payload(record, &data[index], payloadLength);
index += payloadLength;
add_record(message, record);
if(me)break; // last message
}
return message;
}
/*
void add_uri_record(stru_message *message, char *uri)
{
stru_record *record = create_record();
set_tnf(record, TNF_WELL_KNOWN);
unsigned char RTD_URI[1] = { 0x55 }; // this should be a constant or preprocessor
set_type(record, RTD_URI, sizeof(RTD_URI));
// X is a placeholder for identifier code
unsigned char payload[strlen(uri) + 2];
memcpy(payload, "X", 1);
memcpy(payload + 1, uri, strlen(uri));
// add identifier code 0x0, meaning no prefix substitution
payload[0] = 0x0;
set_payload(record, payload, strlen(uri) + 1);
add_record(message, record);
}
*/
void add_empty_record(stru_message *message)
{
stru_record *record = create_record();
set_tnf(record, TNF_EMPTY);
add_record(message, record);
}
static int run_test(const char *filename)
{
MARIA_HA *file;
int i,j= 0,error,deleted,rec_length,uniques=0;
uint offset_to_key;
ha_rows found,row_count;
uchar record[MAX_REC_LENGTH],key[MAX_REC_LENGTH],read_record[MAX_REC_LENGTH];
MARIA_UNIQUEDEF uniquedef;
MARIA_CREATE_INFO create_info;
if (die_in_middle_of_transaction)
null_fields= 1;
bzero((char*) recinfo,sizeof(recinfo));
bzero((char*) &create_info,sizeof(create_info));
/* First define 2 columns */
create_info.null_bytes= 1;
recinfo[0].type= key_field;
recinfo[0].length= (key_field == FIELD_BLOB ? 4+portable_sizeof_char_ptr :
key_length);
if (key_field == FIELD_VARCHAR)
recinfo[0].length+= HA_VARCHAR_PACKLENGTH(key_length);
recinfo[1].type=extra_field;
recinfo[1].length= (extra_field == FIELD_BLOB ? 4 + portable_sizeof_char_ptr : 24);
if (extra_field == FIELD_VARCHAR)
recinfo[1].length+= HA_VARCHAR_PACKLENGTH(recinfo[1].length);
recinfo[1].null_bit= null_fields ? 2 : 0;
if (opt_unique)
{
recinfo[2].type=FIELD_CHECK;
recinfo[2].length=MARIA_UNIQUE_HASH_LENGTH;
}
rec_length= recinfo[0].length + recinfo[1].length + recinfo[2].length +
create_info.null_bytes;
if (key_type == HA_KEYTYPE_VARTEXT1 &&
key_length > 255)
key_type= HA_KEYTYPE_VARTEXT2;
/* Define a key over the first column */
keyinfo[0].seg=keyseg;
keyinfo[0].keysegs=1;
keyinfo[0].block_length= 0; /* Default block length */
keyinfo[0].key_alg=HA_KEY_ALG_BTREE;
keyinfo[0].seg[0].type= key_type;
keyinfo[0].seg[0].flag= pack_seg;
keyinfo[0].seg[0].start=1;
keyinfo[0].seg[0].length=key_length;
keyinfo[0].seg[0].null_bit= null_fields ? 2 : 0;
keyinfo[0].seg[0].null_pos=0;
keyinfo[0].seg[0].language= default_charset_info->number;
if (pack_seg & HA_BLOB_PART)
{
keyinfo[0].seg[0].bit_start=4; /* Length of blob length */
}
keyinfo[0].flag = (uint8) (pack_keys | unique_key);
bzero((uchar*) flags,sizeof(flags));
if (opt_unique)
{
uint start;
uniques=1;
bzero((char*) &uniquedef,sizeof(uniquedef));
bzero((char*) uniqueseg,sizeof(uniqueseg));
uniquedef.seg=uniqueseg;
uniquedef.keysegs=2;
/* Make a unique over all columns (except first NULL fields) */
for (i=0, start=1 ; i < 2 ; i++)
{
uniqueseg[i].start=start;
start+=recinfo[i].length;
uniqueseg[i].length=recinfo[i].length;
uniqueseg[i].language= default_charset_info->number;
}
uniqueseg[0].type= key_type;
uniqueseg[0].null_bit= null_fields ? 2 : 0;
uniqueseg[1].type= HA_KEYTYPE_TEXT;
if (extra_field == FIELD_BLOB)
{
uniqueseg[1].length=0; /* The whole blob */
uniqueseg[1].bit_start=4; /* long blob */
uniqueseg[1].flag|= HA_BLOB_PART;
}
else if (extra_field == FIELD_VARCHAR)
{
uniqueseg[1].flag|= HA_VAR_LENGTH_PART;
uniqueseg[1].type= (HA_VARCHAR_PACKLENGTH(recinfo[1].length-1) == 1 ?
HA_KEYTYPE_VARTEXT1 : HA_KEYTYPE_VARTEXT2);
}
}
else
uniques=0;
offset_to_key= MY_TEST(null_fields);
if (key_field == FIELD_BLOB || key_field == FIELD_VARCHAR)
offset_to_key+= 2;
if (!silent)
printf("- Creating maria file\n");
create_info.max_rows=(ulong) (rec_pointer_size ?
(1L << (rec_pointer_size*8))/40 :
0);
create_info.transactional= transactional;
if (maria_create(filename, record_type, 1, keyinfo,2+opt_unique,recinfo,
uniques, &uniquedef, &create_info,
create_flag))
goto err;
if (!(file=maria_open(filename,2,HA_OPEN_ABORT_IF_LOCKED)))
goto err;
if (!silent)
printf("- Writing key:s\n");
if (maria_begin(file))
goto err;
if (opt_versioning)
maria_versioning(file, 1);
my_errno=0;
row_count=deleted=0;
for (i=49 ; i>=1 ; i-=2 )
{
if (insert_count-- == 0)
{
if (testflag)
break;
maria_close(file);
exit(0);
}
j=i%25 +1;
create_record(record,j);
error=maria_write(file,record);
if (!error)
row_count++;
flags[j]=1;
if (verbose || error)
printf("J= %2d maria_write: %d errno: %d\n", j,error,my_errno);
}
if (maria_commit(file) || maria_begin(file))
goto err;
if (checkpoint == 1 && ma_checkpoint_execute(CHECKPOINT_MEDIUM, FALSE))
goto err;
if (testflag == 1)
goto end;
/* Insert 2 rows with null values */
if (null_fields)
{
create_record(record,0);
error=maria_write(file,record);
if (!error)
row_count++;
if (verbose || error)
printf("J= NULL maria_write: %d errno: %d\n", error,my_errno);
error=maria_write(file,record);
if (!error)
row_count++;
if (verbose || error)
printf("J= NULL maria_write: %d errno: %d\n", error,my_errno);
flags[0]=2;
}
if (checkpoint == 2 && ma_checkpoint_execute(CHECKPOINT_MEDIUM, FALSE))
goto err;
if (testflag == 2)
{
printf("Terminating after inserts\n");
goto end;
}
if (maria_commit(file) || maria_begin(file))
goto err;
if (!skip_update)
{
if (opt_unique)
{
if (!silent)
printf("- Checking unique constraint\n");
create_record(record,j); /* Check last created row */
if (!maria_write(file,record) || my_errno != HA_ERR_FOUND_DUPP_UNIQUE)
{
printf("unique check failed\n");
}
}
if (!silent)
printf("- Updating rows\n");
/* Update first last row to force extend of file */
if (maria_rsame(file,read_record,-1))
{
printf("Can't find last row with maria_rsame\n");
}
else
{
memcpy(record,read_record,rec_length);
update_record(record);
if (maria_update(file,read_record,record))
{
printf("Can't update last row: %.*s\n",
keyinfo[0].seg[0].length,read_record+1);
}
}
/* Read through all rows and update them */
maria_scan_init(file);
found=0;
while ((error= maria_scan(file,read_record)) == 0)
{
if (--update_count == 0) { maria_close(file); exit(0) ; }
memcpy(record,read_record,rec_length);
update_record(record);
if (maria_update(file,read_record,record))
{
printf("Can't update row: %.*s, error: %d\n",
keyinfo[0].seg[0].length,record+1,my_errno);
}
found++;
}
if (found != row_count)
printf("Found %ld of %ld rows\n", (ulong) found, (ulong) row_count);
maria_scan_end(file);
}
if (checkpoint == 3 && ma_checkpoint_execute(CHECKPOINT_MEDIUM, FALSE))
goto err;
if (testflag == 3)
{
printf("Terminating after updates\n");
goto end;
}
if (!silent)
printf("- Reopening file\n");
if (maria_commit(file))
goto err;
if (maria_close(file))
goto err;
if (!(file=maria_open(filename,2,HA_OPEN_ABORT_IF_LOCKED)))
goto err;
if (maria_begin(file))
goto err;
if (opt_versioning)
maria_versioning(file, 1);
if (!skip_delete)
{
if (!silent)
printf("- Removing keys\n");
for (i=0 ; i <= 10 ; i++)
{
/*
If you want to debug the problem in ma_test_recovery with BLOBs
(see @todo there), you can break out of the loop after just one
delete, it is enough, like this:
if (i==1) break;
*/
/* testing */
if (remove_count-- == 0)
{
fprintf(stderr,
"delete-rows number of rows deleted; Going down hard!\n");
goto end;
}
j=i*2;
if (!flags[j])
continue;
create_key(key,j);
my_errno=0;
if ((error = maria_rkey(file, read_record, 0, key,
HA_WHOLE_KEY, HA_READ_KEY_EXACT)))
{
if (verbose || (flags[j] >= 1 ||
(error && my_errno != HA_ERR_KEY_NOT_FOUND)))
printf("key: '%.*s' maria_rkey: %3d errno: %3d\n",
(int) key_length,key+offset_to_key,error,my_errno);
}
else
{
error=maria_delete(file,read_record);
if (verbose || error)
printf("key: '%.*s' maria_delete: %3d errno: %3d\n",
(int) key_length, key+offset_to_key, error, my_errno);
if (! error)
{
deleted++;
flags[j]--;
}
}
}
}
if (checkpoint == 4 && ma_checkpoint_execute(CHECKPOINT_MEDIUM, FALSE))
goto err;
if (testflag == 4)
{
printf("Terminating after deletes\n");
goto end;
}
if (!silent)
printf("- Reading rows with key\n");
record[1]= 0; /* For nicer printf */
if (record_type == NO_RECORD)
maria_extra(file, HA_EXTRA_KEYREAD, 0);
for (i=0 ; i <= 25 ; i++)
{
create_key(key,i);
my_errno=0;
error=maria_rkey(file,read_record,0,key,HA_WHOLE_KEY,HA_READ_KEY_EXACT);
if (verbose ||
(error == 0 && flags[i] == 0 && unique_key) ||
(error && (flags[i] != 0 || my_errno != HA_ERR_KEY_NOT_FOUND)))
{
printf("key: '%.*s' maria_rkey: %3d errno: %3d record: %s\n",
(int) key_length,key+offset_to_key,error,my_errno,record+1);
}
}
if (record_type == NO_RECORD)
{
maria_extra(file, HA_EXTRA_NO_KEYREAD, 0);
goto end;
}
if (!silent)
printf("- Reading rows with position\n");
if (maria_scan_init(file))
{
fprintf(stderr, "maria_scan_init failed\n");
goto err;
}
for (i=1,found=0 ; i <= 30 ; i++)
{
my_errno=0;
if ((error= maria_scan(file, read_record)) == HA_ERR_END_OF_FILE)
{
if (found != row_count-deleted)
printf("Found only %ld of %ld rows\n", (ulong) found,
(ulong) (row_count - deleted));
break;
}
if (!error)
found++;
if (verbose || (error != 0 && error != HA_ERR_RECORD_DELETED &&
error != HA_ERR_END_OF_FILE))
{
printf("pos: %2d maria_rrnd: %3d errno: %3d record: %s\n",
i-1,error,my_errno,read_record+1);
}
}
maria_scan_end(file);
end:
if (die_in_middle_of_transaction)
{
/* As commit record is not done, UNDO entries needs to be rolled back */
switch (die_in_middle_of_transaction) {
case 1:
/*
Flush changed pages go to disk. That will also flush log. Recovery
will skip REDOs and apply UNDOs.
*/
_ma_flush_table_files(file, MARIA_FLUSH_DATA | MARIA_FLUSH_INDEX,
FLUSH_RELEASE, FLUSH_RELEASE);
break;
case 2:
/*
Just flush log. Pages are likely to not be on disk. Recovery will
then execute REDOs and UNDOs.
*/
if (translog_flush(file->trn->undo_lsn))
goto err;
break;
case 3:
/*
Flush nothing. Pages and log are likely to not be on disk. Recovery
will then do nothing.
*/
break;
case 4:
/*
Flush changed data pages go to disk. Changed index pages are not
flushed. Recovery will skip some REDOs and apply UNDOs.
*/
_ma_flush_table_files(file, MARIA_FLUSH_DATA, FLUSH_RELEASE,
FLUSH_RELEASE);
/*
We have to flush log separately as the redo for the last key page
may not be flushed
*/
if (translog_flush(file->trn->undo_lsn))
goto err;
break;
}
printf("Dying on request without maria_commit()/maria_close()\n");
sf_leaking_memory= 1;
exit(0);
}
if (maria_commit(file))
goto err;
if (maria_close(file))
goto err;
maria_end();
my_uuid_end();
my_end(MY_CHECK_ERROR);
return (0);
err:
printf("got error: %3d when using maria-database\n",my_errno);
return 1; /* skip warning */
}
DatabaseRecordPtr Database::get_record(DB_RECORD_NUMBER number, LPERRORCODE e, DB_RECORD_TYPE type, BOOL read_only)
{
RECORD_FILE_ENTRY far *fentry;
RECORD_MEMORY_ENTRY far *mentry;
ERRORCODE error;
DatabaseRecordPtr record = NULL;
// Always want to be exclusive.
storage_manager.SetExclusive(TRUE);
// TRACE("get_record: %ld, %d, %d\n", number, type, read_only);
/* Lock the entry. */
if ((error = table_manager.lock_entry(number, &fentry, &mentry, read_only)) == ERRORCODE_None)
{
/* Do some type checking. */
if (type != DB_ANY_TYPE && type != fentry->type)
{
table_manager.unlock_entry(number, read_only, FALSE);
error = ERRORCODE_TypeMismatch;
}
else
{
/*
// Make sure we have the record in memory.
*/
if (mentry->data == NULL)
{
DatabaseRecordPtr new_record;
/* Create the new record and read it into memory. */
if ((error = create_record(fentry->type, number, NULL, &fentry->position, &new_record)) == ERRORCODE_None)
{
/* Read the record from its position. */
if ((error = new_record->read()) == ERRORCODE_None)
{
/* Success! Use this record now. */
mentry->data = new_record;
}
else
{
/* We failed to read the record. Unlock and delete it. */
delete new_record;
}
}
}
/* Handle the lock if successful. */
if ((record = mentry->data) != NULL)
{
if (read_only)
{
error = record->ReadLock();
}
else
{
error = record->ModifyLock();
}
}
if (error != ERRORCODE_None)
{
record = NULL;
table_manager.unlock_entry(number, read_only, FALSE);
}
}
}
if (e != NULL)
{
*e = error;
}
storage_manager.SetExclusive(FALSE);
#ifdef DATABASE_STATISTICS
if (record != NULL)
{
if (read_only)
{
if( type == DB_ANY_TYPE )
{
m_lGetRORecord[fentry->type]++;
}
else if( type < RECORD_TYPE_ProjectPreview || type > RECORD_TYPE_Component )
{
m_lGetRORecord[0]++;
}
else
{
m_lGetRORecord[type]++;
}
}
else
{
if( type == DB_ANY_TYPE )
{
m_lGetRecord[fentry->type]++;
}
else if( type < RECORD_TYPE_ProjectPreview || type > RECORD_TYPE_Component )
{
m_lGetRecord[0]++;
}
else
{
m_lGetRecord[type]++;
}
}
}
#endif
return record;
}
void UpdateState(Matrix * m_matrix, char * dest ,int begin, int end)
{
//300/128 + 1 =3, 3*300=900
unsigned size_sse_row = m_matrix->width/128 + 1; //3
unsigned size_sse_ar=size_sse_row * (end - begin);
__m128i X[906], A[900], B[900], C[900];
char * mas = m_matrix->data;
for( unsigned i=0; i<size_sse_ar; ++i)
{
A[i].m128i_u32[0]=0;A[i].m128i_u32[1]=0;A[i].m128i_u32[2]=0;A[i].m128i_u32[3]=0;
B[i].m128i_u32[0]=0;B[i].m128i_u32[1]=0;B[i].m128i_u32[2]=0;B[i].m128i_u32[3]=0;
C[i].m128i_u32[0]=0;C[i].m128i_u32[1]=0;C[i].m128i_u32[2]=0;C[i].m128i_u32[3]=0;
}
for( unsigned i=0; i<size_sse_ar+6; ++i)
{
X[i].m128i_u32[0]=0;X[i].m128i_u32[1]=0;X[i].m128i_u32[2]=0;X[i].m128i_u32[3]=0;
}
// create X[] with bounds
unsigned height = end - begin;
unsigned width = m_matrix->width;
for( unsigned b = 0 ; b < height; ++b )
{
char* src = &mas[(b + begin)*width];
unsigned* dst = (unsigned*)&X[(b+1)*size_sse_row];
create_record(src, dst, width);
}
// create high row in X[]
char * src;
if(begin == 0)
{
src = &mas[(m_matrix->height-1)*width];
}
else
{
src = &mas[(begin-1)*width];
}
unsigned* dst = (unsigned*)X;
create_record(src, dst, width);
//create lower row in X[]
if(end == m_matrix->height )
{
src = mas;
}
else
{
src = &mas[end*width];
}
dst = (unsigned*)&X[(height+1)*size_sse_row];
create_record(src, dst, width);
//sum( C, B, A, X+offset_for_upwards ); high-left friend
sum_offset(X,A,B,C,size_sse_ar, 0);
//sum( C, B, A, X+offset_for_no_vertical_shift );
sum_offset(X,A,B,C,size_sse_ar, size_sse_row);
//sum( C, B, A, X+offset_for_downwards );
sum_offset(X,A,B,C,size_sse_ar, 2*size_sse_row);
//shift_left( X ); (when view 2D) in our logic it is in right
height = end - begin + 2;
shift_left2D( X, height, size_sse_row);
//sum( C, B, A, X+offset_for_upwards ); high-left friend
sum_offset(X,A,B,C,size_sse_ar, 0);
//sum( C, B, A, X+offset_for_downwards );
sum_offset(X,A,B,C,size_sse_ar, 2*size_sse_row);
//shift_left( X ); (view in 2D) in our logic it is right shift
height = end - begin + 2;
shift_left2D( X, height, size_sse_row);
//sum( C, B, A, X+offset_for_upwards ); high-right friend
sum_offset(X,A,B,C,size_sse_ar, 0);
//sum( C, B, A, X+offset_for_no_vertical_shift ); right friend
sum_offset(X,A,B,C,size_sse_ar, size_sse_row);
//sum( C, B, A, X+offset_for_downwards ); right down friend
sum_offset(X,A,B,C,size_sse_ar, 2*size_sse_row);
//shift_right( X ); (when view in 2D) in our case it left shift.
height = end - begin + 2;
shift_right2D( X, height, size_sse_row);
//X = (X|A)&B&~C (done bitwise over the arrays)
unsigned shift = size_sse_row;
for(unsigned i=0; i<size_sse_ar; ++i)
{
C[i].m128i_u32[0] = ~C[i].m128i_u32[0];
C[i].m128i_u32[1] = ~C[i].m128i_u32[1];
C[i].m128i_u32[2] = ~C[i].m128i_u32[2];
C[i].m128i_u32[3] = ~C[i].m128i_u32[3];
X[shift + i] = _mm_and_si128(_mm_and_si128(_mm_or_si128(X[shift + i],
A[i]),B[i]),C[i]);
}
height = end - begin;
width=m_matrix->width;
for( unsigned b=0; b<height; ++b )
{
char* dst = &dest[(b+begin)*width];
unsigned* src = (unsigned*)&X[(b+1)*size_sse_row];
for( unsigned a=0; a<width; ++a )
{
unsigned c = src[a/32u] & 1<<(a%32u);
dst[a] = c>>(a%32u);
}
}
}
int
run_test(const char *filename)
{
MI_INFO *file;
int i , j, error, deleted, rec_length, uniques = 0;
ha_rows found , row_count;
my_off_t pos;
char record [MAX_REC_LENGTH], key[MAX_REC_LENGTH], read_record[MAX_REC_LENGTH];
MI_UNIQUEDEF uniquedef;
MI_CREATE_INFO create_info;
bzero((char *)recinfo, sizeof(recinfo));
/* First define 2 columns */
recinfo[0].type = FIELD_NORMAL;
recinfo[0].length = 1; /* For NULL bits */
recinfo[1].type = key_field;
recinfo[1].length = (key_field == FIELD_BLOB ? 4 + mi_portable_sizeof_char_ptr :
key_length);
if (key_field == FIELD_VARCHAR)
recinfo[1].length += 2;
recinfo[2].type = extra_field;
recinfo[2].length = (extra_field == FIELD_BLOB ? 4 + mi_portable_sizeof_char_ptr : 24);
if (extra_field == FIELD_VARCHAR)
recinfo[2].length += 2;
if (opt_unique) {
recinfo[3].type = FIELD_CHECK;
recinfo[3].length = MI_UNIQUE_HASH_LENGTH;
}
rec_length = recinfo[0].length + recinfo[1].length + recinfo[2].length +
recinfo[3].length;
/* Define a key over the first column */
keyinfo[0].seg = keyseg;
keyinfo[0].keysegs = 1;
keyinfo[0].seg[0].type = key_type;
keyinfo[0].seg[0].flag = pack_seg;
keyinfo[0].seg[0].start = 1;
keyinfo[0].seg[0].length = key_length;
keyinfo[0].seg[0].null_bit = null_fields ? 2 : 0;
keyinfo[0].seg[0].null_pos = 0;
keyinfo[0].seg[0].language = MY_CHARSET_CURRENT;
if (pack_seg & HA_BLOB_PART) {
keyinfo[0].seg[0].bit_start = 4; /* Length of blob length */
}
keyinfo[0].flag = (uint8) (pack_keys | unique_key);
bzero((byte *) flags, sizeof(flags));
if (opt_unique) {
uint start;
uniques = 1;
bzero((char *)&uniquedef, sizeof(uniquedef));
bzero((char *)uniqueseg, sizeof(uniqueseg));
uniquedef.seg = uniqueseg;
uniquedef.keysegs = 2;
/* Make a unique over all columns (except first NULL fields) */
for (i = 0, start = 1; i < 2; i++) {
uniqueseg[i].start = start;
start += recinfo[i + 1].length;
uniqueseg[i].length = recinfo[i + 1].length;
uniqueseg[i].language = MY_CHARSET_CURRENT;
}
uniqueseg[0].type = key_type;
uniqueseg[0].null_bit = null_fields ? 2 : 0;
uniqueseg[1].type = HA_KEYTYPE_TEXT;
if (extra_field == FIELD_BLOB) {
uniqueseg[1].length = 0; /* The whole blob */
uniqueseg[1].bit_start = 4; /* long blob */
uniqueseg[1].flag |= HA_BLOB_PART;
} else if (extra_field == FIELD_VARCHAR)
uniqueseg[1].flag |= HA_VAR_LENGTH;
} else
uniques = 0;
if (!silent)
printf("- Creating isam-file\n");
bzero((char *)&create_info, sizeof(create_info));
create_info.max_rows = (ulong) (rec_pointer_size ?
(1L << (rec_pointer_size * 8)) / 40 :
0);
if (mi_create(filename, 1, keyinfo, 3 + opt_unique, recinfo,
uniques, &uniquedef, &create_info,
create_flag))
goto err;
if (!(file = mi_open(filename, 2, HA_OPEN_ABORT_IF_LOCKED)))
goto err;
if (!silent)
printf("- Writing key:s\n");
my_errno = 0;
row_count = deleted = 0;
for (i = 49; i >= 1; i -= 2) {
if (insert_count-- == 0) {
VOID(mi_close(file));
exit(0);
}
j = i % 25 + 1;
create_record(record, j);
error = mi_write(file, record);
if (!error)
row_count++;
flags[j] = 1;
if (verbose || error)
printf("J= %2d mi_write: %d errno: %d\n", j, error, my_errno);
}
/* Insert 2 rows with null values */
if (null_fields) {
create_record(record, 0);
error = mi_write(file, record);
if (!error)
row_count++;
if (verbose || error)
printf("J= NULL mi_write: %d errno: %d\n", error, my_errno);
error = mi_write(file, record);
if (!error)
row_count++;
if (verbose || error)
printf("J= NULL mi_write: %d errno: %d\n", error, my_errno);
flags[0] = 2;
}
if (!skip_update) {
if (opt_unique) {
if (!silent)
printf("- Checking unique constraint\n");
create_record(record, j);
if (!mi_write(file, record) || my_errno != HA_ERR_FOUND_DUPP_UNIQUE) {
printf("unique check failed\n");
}
}
if (!silent)
printf("- Updating rows\n");
/* Update first last row to force extend of file */
if (mi_rsame(file, read_record, -1)) {
printf("Can't find last row with mi_rsame\n");
} else {
memcpy(record, read_record, rec_length);
update_record(record);
if (mi_update(file, read_record, record)) {
printf("Can't update last row: %.*s\n",
keyinfo[0].seg[0].length, read_record + 1);
}
}
/* Read through all rows and update them */
pos = (my_off_t) 0;
found = 0;
while ((error = mi_rrnd(file, read_record, pos)) == 0) {
if (update_count-- == 0) {
VOID(mi_close(file));
exit(0);
}
memcpy(record, read_record, rec_length);
update_record(record);
if (mi_update(file, read_record, record)) {
printf("Can't update row: %.*s, error: %d\n",
keyinfo[0].seg[0].length, record + 1, my_errno);
}
found++;
pos = HA_OFFSET_ERROR;
}
if (found != row_count)
printf("Found %ld of %ld rows\n", found, row_count);
}
if (!silent)
printf("- Reopening file\n");
if (mi_close(file))
goto err;
if (!(file = mi_open(filename, 2, HA_OPEN_ABORT_IF_LOCKED)))
goto err;
if (!skip_update) {
if (!silent)
printf("- Removing keys\n");
for (i = 0; i <= 10; i++) {
/* testing */
if (remove_count-- == 0) {
VOID(mi_close(file));
exit(0);
}
j = i * 2;
if (!flags[j])
continue;
create_key(key, j);
my_errno = 0;
if ((error = mi_rkey(file, read_record, 0, key, 0, HA_READ_KEY_EXACT))) {
if (verbose || (flags[j] >= 1 ||
(error && my_errno != HA_ERR_KEY_NOT_FOUND)))
printf("key: '%.*s' mi_rkey: %3d errno: %3d\n",
(int)key_length, key + test(null_fields), error, my_errno);
} else {
error = mi_delete(file, read_record);
if (verbose || error)
printf("key: '%.*s' mi_delete: %3d errno: %3d\n",
(int)key_length, key + test(null_fields), error, my_errno);
if (!error) {
deleted++;
flags[j]--;
}
}
}
}
if (!silent)
printf("- Reading rows with key\n");
for (i = 0; i <= 25; i++) {
create_key(key, i);
my_errno = 0;
error = mi_rkey(file, read_record, 0, key, 0, HA_READ_KEY_EXACT);
if (verbose ||
(error == 0 && flags[i] == 0 && unique_key) ||
(error && (flags[i] != 0 || my_errno != HA_ERR_KEY_NOT_FOUND))) {
printf("key: '%.*s' mi_rkey: %3d errno: %3d record: %s\n",
(int)key_length, key + test(null_fields), error, my_errno, record + 1);
}
}
if (!silent)
printf("- Reading rows with position\n");
for (i = 1, found = 0; i <= 30; i++) {
my_errno = 0;
if ((error = mi_rrnd(file, read_record, i == 1 ? 0L : HA_OFFSET_ERROR)) == -1) {
if (found != row_count - deleted)
printf("Found only %ld of %ld rows\n", found, row_count - deleted);
break;
}
if (!error)
found++;
if (verbose || (error != 0 && error != HA_ERR_RECORD_DELETED &&
error != HA_ERR_END_OF_FILE)) {
printf("pos: %2d mi_rrnd: %3d errno: %3d record: %s\n",
i - 1, error, my_errno, read_record + 1);
}
}
if (mi_close(file))
goto err;
my_end(MY_CHECK_ERROR);
return (0);
err:
printf("got error: %3d when using myisam-database\n", my_errno);
return 1; /* skipp warning */
}
static void
run (void *cls,
const struct GNUNET_CONFIGURATION_Handle *mycfg,
struct GNUNET_TESTING_Peer *peer)
{
char *hostkey_file;
directory = NULL;
GNUNET_assert (GNUNET_OK ==
GNUNET_CONFIGURATION_get_value_string(mycfg, "PATHS", "GNUNET_TEST_HOME", &directory));
GNUNET_DISK_directory_remove (directory);
res = 1;
GNUNET_asprintf(&hostkey_file,
"zonefiles%s%s",
DIR_SEPARATOR_STR,
"N0UJMP015AFUNR2BTNM3FKPBLG38913BL8IDMCO2H0A1LIB81960.zkey");
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Using zonekey file `%s' \n", hostkey_file);
privkey = GNUNET_CRYPTO_ecdsa_key_create_from_file(hostkey_file);
GNUNET_free (hostkey_file);
GNUNET_assert (privkey != NULL);
cfg = mycfg;
endbadly_task = GNUNET_SCHEDULER_add_delayed (TIMEOUT, &endbadly, NULL);
/* Connect to namestore */
nsh = GNUNET_NAMESTORE_connect (cfg);
if (NULL == nsh)
{
GNUNET_log (GNUNET_ERROR_TYPE_ERROR, "Connect to namestore\n");
GNUNET_break (0);
endbadly_task = GNUNET_SCHEDULER_add_now (&endbadly, NULL);
return;
}
GNUNET_asprintf(&hostkey_file,"zonefiles%s%s",
DIR_SEPARATOR_STR,
"HGU0A0VCU334DN7F2I9UIUMVQMM7JMSD142LIMNUGTTV9R0CF4EG.zkey");
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Using zonekey file `%s' \n", hostkey_file);
privkey2 = GNUNET_CRYPTO_ecdsa_key_create_from_file(hostkey_file);
GNUNET_free (hostkey_file);
GNUNET_assert (privkey2 != NULL);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Created record 3\n");
/* name in different zone */
GNUNET_asprintf(&s_name_3, "dummy3");
s_rd_3 = create_record(1);
GNUNET_assert (NULL != (ns_ops[2] = GNUNET_NAMESTORE_records_store (nsh, privkey2, s_name_3,
1, s_rd_3, &put_cont, s_name_3)));
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Created record 1\n");
GNUNET_asprintf(&s_name_1, "dummy1");
s_rd_1 = create_record(1);
GNUNET_assert (NULL != (ns_ops[0] = GNUNET_NAMESTORE_records_store(nsh, privkey, s_name_1,
1, s_rd_1, &put_cont, s_name_1)));
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Created record 2 \n");
GNUNET_asprintf(&s_name_2, "dummy2");
s_rd_2 = create_record(1);
GNUNET_assert (NULL != (ns_ops[1] = GNUNET_NAMESTORE_records_store(nsh, privkey, s_name_2,
1, s_rd_2, &put_cont, s_name_2)));
}
