static PyObject* cdb_py_write_header(PyObject* self) {
cdb_t *cdb = ((StorageObject*)self)->cdb;
if (cdb_write_header(cdb) != CDB_SUCCESS) {
PyErr_SetFromErrno(PyExc_IOError);
}
return self;
}
int cdb_discard_records_in_time_range(cdb_t *cdb, cdb_request_t *request, uint64_t *num_recs) {
uint64_t i = 0;
int64_t lrec;
off_t offset = RECORD_SIZE;
*num_recs = 0;
if (cdb_read_header(cdb) != CDB_SUCCESS) {
return cdb_error();
}
if (_cdb_is_writable(cdb) == false) {
return CDB_ERDONLY;
}
lrec = _logical_record_for_time(cdb, request->start, 0, 0);
if (lrec >= 1) {
lrec -= 1;
}
for (i = lrec; i < cdb->header->num_records; i++) {
cdb_time_t rtime = _time_for_logical_record(cdb, i);
if (rtime >= request->start && rtime <= request->end) {
cdb_record_t record[RECORD_SIZE];
record->time = rtime;
record->value = CDB_NAN;
if (pwrite(cdb->fd, &record, RECORD_SIZE, offset) != RECORD_SIZE) {
return cdb_error();
}
*num_recs += 1;
}
}
if (*num_recs > 0) {
cdb->synced = false;
}
if (cdb_write_header(cdb) != CDB_SUCCESS) {
return cdb_error();
}
return CDB_SUCCESS;
}
static int Storage_init(PyObject *self, PyObject *args, PyObject *kwdict) {
static char *kwlist[] = {
"filename", "flags", "mode", "name", "desc", "max_records", "type", "units", "min_value", "max_value", NULL,
};
char *filename;
int flags = -1;
int mode = -1;
char *name = NULL;
char *desc = "";
char *type = (char*)_string_from_cdb_type(CDB_DEFAULT_DATA_TYPE);
char *units = CDB_DEFAULT_DATA_UNIT;
uint64_t max_records = 0;
double min_value = 0;
double max_value = 0;
if (!PyArg_ParseTupleAndKeywords(args, kwdict, "s|iiszlzzlli:new", kwlist,
&filename, &flags, &mode, &name, &desc, &max_records, &type, &units, &min_value, &max_value)) {
return -1;
}
PyObject *header = ((StorageObject*)self)->header;
cdb_t *cdb = ((StorageObject*)self)->cdb;
cdb->filename = filename;
cdb->flags = flags;
cdb->mode = mode;
// Try the open
if (cdb_open(cdb) != CDB_SUCCESS) {
PyErr_SetFromErrno(PyExc_IOError);
return -1;
}
// Try and read a header, if it doesn't exist, create one
if (name == NULL) {
if (cdb_read_header(cdb) != CDB_SUCCESS) {
PyErr_SetFromErrno(PyExc_IOError);
return -1;
}
} else {
cdb_generate_header(cdb, name, desc, max_records, _cdb_type_from_string(type), units, min_value, max_value);
if (cdb_write_header(cdb) != CDB_SUCCESS) {
PyErr_SetFromErrno(PyExc_IOError);
return -1;
}
}
PyDict_SetItemString(header, "filename", PyString_FromString(filename));
PyDict_SetItemString(header, "name", PyString_FromString(cdb->header->name));
PyDict_SetItemString(header, "desc", PyString_FromString(cdb->header->desc));
PyDict_SetItemString(header, "type", PyString_FromString(_string_from_cdb_type(cdb->header->type)));
PyDict_SetItemString(header, "units", PyString_FromString(cdb->header->units));
PyDict_SetItemString(header, "num_records", PyInt_FromLong(cdb->header->num_records));
PyDict_SetItemString(header, "max_records", PyInt_FromLong(cdb->header->max_records));
PyDict_SetItemString(header, "min_value", PyInt_FromLong(cdb->header->min_value));
PyDict_SetItemString(header, "max_value", PyInt_FromLong(cdb->header->max_value));
return 0;
}
int cdb_update_records(cdb_t *cdb, cdb_record_t *records, uint64_t len, uint64_t *num_recs) {
int ret = CDB_SUCCESS;
*num_recs = 0;
uint64_t i = 0;
if (cdb_read_header(cdb) != CDB_SUCCESS) {
return cdb_error();
}
if (_cdb_is_writable(cdb) == false) {
return CDB_ERDONLY;
}
#ifdef DEBUG
printf("in update_records with [%"PRIu64"] num_recs\n", cdb->header->num_records);
#endif
for (i = 0; i < len; i++) {
cdb_time_t time = records[i].time;
cdb_time_t rtime;
uint64_t lrec;
lrec = _logical_record_for_time(cdb, time, 0, 0);
if (lrec >= 1) {
lrec -= 1;
/* DRK things like this are extremely confusing. some logical
functions are zero based? some are one? or you're trying to back up? */
}
rtime = _time_for_logical_record(cdb, lrec);
while (rtime < time && lrec < cdb->header->num_records - 1) {
/* DRK is this true? or is the condition (lrec - start_lrec) <
num_recs -- seems you can't wrap here (i.e. what if the initial
lrec was num_recs - 1) */
lrec += 1;
rtime = _time_for_logical_record(cdb, lrec);
}
#ifdef DEBUG
printf("update_records: value: lrec [%"PRIu64"] time [%d] rtime [%d]\n", lrec, (int)time, (int)rtime);
#endif
while (time == rtime && lrec < cdb->header->num_records - 1) {
_seek_to_logical_record(cdb, lrec);
if (write(cdb->fd, &records[0], RECORD_SIZE) != RECORD_SIZE) {
ret = cdb_error();
break;
}
lrec += 1;
rtime = _time_for_logical_record(cdb, lrec);
}
}
if (ret == CDB_SUCCESS) {
if (i > 0) {
cdb->synced = false;
*num_recs = i;
}
if (cdb_write_header(cdb) != CDB_SUCCESS) {
ret = cdb_error();
}
}
return ret;
}
int cdb_write_records(cdb_t *cdb, cdb_record_t *records, uint64_t len, uint64_t *num_recs) {
/* read old header if it exists.
write a header out, since the db may not have existed.
*/
uint64_t i = 0;
uint64_t j = 0;
off_t offset = 0;
*num_recs = 0;
if (cdb_read_header(cdb) != CDB_SUCCESS) {
return cdb_error();
}
if (_cdb_is_writable(cdb) == false) {
return CDB_ERDONLY;
}
if (cdb->header->max_records <= 0) {
return CDB_EINVMAX;
}
/* Logic for writes:
cdb is 5 records.
try to write 7 records
len = 7
len + 0 > 5
j = (7 + 0) - 5
j = 2
i = 7 - 2
i = 5
need to write j records at offset: HEADER_SIZE + (cdb->header->start_record * RECORD_SIZE)
index into records is i
need to write i records at offset: HEADER_SIZE + (cdb->header->num_records * RECORD_SIZE)
index into records is 0;
*/
/* Calculate our indicies into the records array. */
if (len + cdb->header->num_records >= cdb->header->max_records) {
j = (len + cdb->header->num_records) - cdb->header->max_records;
i = (len - j);
} else {
i = len;
}
/* If we need to wrap around */
if (j > 0) {
offset = HEADER_SIZE + (cdb->header->start_record * RECORD_SIZE);
cdb->header->start_record += j;
cdb->header->start_record %= cdb->header->max_records;
if (pwrite(cdb->fd, &records[i], (RECORD_SIZE * j), offset) != (RECORD_SIZE * j)) {
return cdb_error();
}
cdb->synced = false;
/* start_record is no longer 0, so update the header */
if (cdb_write_header(cdb) != CDB_SUCCESS) {
return cdb_error();
}
}
/* Normal case */
offset = HEADER_SIZE + (cdb->header->num_records * RECORD_SIZE);
cdb->header->num_records += i;
if (pwrite(cdb->fd, &records[0], (RECORD_SIZE * i), offset) != (RECORD_SIZE * i)) {
return cdb_error();
}
*num_recs += len;
#ifdef DEBUG
printf("write_records: wrote [%"PRIu64"] records\n", *num_recs);
#endif
return CDB_SUCCESS;
}
