def main(args):
root, options = parse_args(args)
print(options)
t0 = dt.now()
t = get_directory_tree(root, exclude_dirs=options['exclude-dirs'])
t1 = dt.now()
delta_t = ((t1 - t0).seconds + (t1 - t0).microseconds) / 1e6
print('%f sec to scan %s / %s files' %
(delta_t, format_bytes(t.size), get_total_children(t)))
data = {
'tree': tree_to_dict(t),
'root': os.path.realpath(root),
'host': os.getenv('MACHINE', socket.gethostname())
}
# pprint(data)
# print(jsonpickle.encode(t))
# print_directory_tree(t)
width = 800
height = 600
# rects = compute_rectangles(t, [0, width], [0, height])
# render_tk(rects, width, height, title=os.path.realpath(root))
# render_class(rects, width, height, title=os.path.realpath(root))
render_class(t,
compute_rectangles,
width,
height,
title=os.path.realpath(root))
def update_sharelist(self):
self.sharelist.clear()
self.folders = {}
for (shareid, share) in filesharing.shares.items():
for (sharepath, ftype) in share.list_recursively().items():
size = ''
if ftype == FTYPE_FILE:
nativepath = share.native_path(sharepath)
size = format_bytes(filesize(nativepath))
self.add_item(share.meta, shareid, sharepath, size, ftype == FTYPE_DIRECTORY)
def update_stats(self, stats_dict):
"""Updates the progress_stats dict from the given dictionary."""
assert isinstance(stats_dict, dict)
for key in stats_dict:
if key in self.progress_stats:
value = stats_dict[key]
#if not isinstance(value, basestring) or not value:
# self.progress_stats[key] = self.default_values[key]
#else:
self.progress_stats[key] = value
# Extract extra stuff
if "playlist_index" in stats_dict:
self.playlist_index_changed = True
if "filename" in stats_dict:
# Reset filenames, extensions & filesizes lists when changing playlist item
if self.playlist_index_changed:
self.filenames = []
self.extensions = []
self.filesizes = []
self.playlist_index_changed = False
self.filenames.append(stats_dict["filename"])
if "extension" in stats_dict:
self.extensions.append(stats_dict["extension"])
if "path" in stats_dict:
self.path = stats_dict["path"]
if "filesize" in stats_dict:
if stats_dict["percent"] == "100%" and len(self.filesizes) < len(
self.filenames):
filesize = stats_dict["filesize"].lstrip(
"~") # HLS downloader etc
self.filesizes.append(to_bytes(filesize))
if "status" in stats_dict:
# If we are post processing try to calculate the size of
# the output file since youtube-dl does not
if stats_dict["status"] == self.ACTIVE_STAGES[2] and len(
self.filesizes) == 2:
post_proc_filesize = self.filesizes[0] + self.filesizes[1]
self.filesizes.append(post_proc_filesize)
self.progress_stats["filesize"] = format_bytes(
post_proc_filesize)
self._set_stage(stats_dict["status"])
def __str__(self):
size = format_bytes(self.size)
info_list = [size]
if self.children:
children = '%d children' % len(self.children)
info_list.append(children)
if 'lines' in self.details:
details = '%d lines' % self.details['lines']
info_list.append(details)
info = ', '.join(info_list)
return '<%s: %s>' % (self.name, info)
def query_results(self, user, allresults, metadict, ctx):
if allresults == None:
notification.notify('Unable to query shares from %s' % user.tag(), True)
return
for (shareid, sharepath, fsize, ftype) in allresults:
meta = metadict[shareid]
size = ''
if ftype == FTYPE_FILE:
size = format_bytes(fsize)
self.add_item(meta, user, shareid, sharepath, size, ftype == FTYPE_DIRECTORY)
self.items += 1
self.title.set_text('Showing %d items' % self.items)
# tree stuff
path = abspath(treepath)
t0 = dt.now()
t = gettree(path)
from utils import format_bytes
t1 = dt.now()
# printtree(t)
if isdir(path) & 1:
drawtree(t, canv, [3, w - 4], [3, h - 4])
t2 = dt.now()
delta_t = ((t1 - t0).seconds + (t1 - t0).microseconds)/1e6
print('%f sec to scan %s / %s files' % (delta_t, format_bytes(t[1]), get_total_children(t)))
print('%f sec to draw' % ((t2 - t1).seconds + (t2 - t1).microseconds/1e6))
root.wm_attributes("-topmost", 1)
root.focus_force()
root.lift()
root.after(100, lambda: root.focus_force())
root.mainloop()
else:
print "input is not a directory ???"
if __name__ == '__main__': # if executing standalone, call main
pass
# main()
async def processor(self):
utxo_sequence = 0
stxo_sequence = 0
tx_sequence = 0
best_fee = 1
dbs = set()
dbs_childs = set()
outputs, inputs, transactions = self.refresh_stat()
truncate_dbs_table = True
best_fee_hourly = ListCache(60 * 60)
best_fee_4h = ListCache(60 * 60 * 4)
async with self.db_pool.acquire() as conn:
rows = await conn.fetch(
"SELECT minute, transactions->'feeRate'->'best' as best FROM mempool_analytica "
"order by minute desc LIMIT 240;")
c = 0
for row in rows:
if row["best"] is not None:
if c < 60:
best_fee_hourly.set(float(row["best"]))
best_fee_4h.set(float(row["best"]))
c += 1
while True:
try:
if not self.bootstrap_completed:
async with self.db_pool.acquire() as conn:
v = await conn.fetchval(
"SELECT value FROM service "
"WHERE name = 'bootstrap_completed' LIMIT 1;")
if v == '1':
self.bootstrap_completed = True
self.log.info("Mempool analytica task started")
async with self.db_pool.acquire() as conn:
self.last_day = await conn.fetchval(
"SELECT max(day) FROM mempool_analytica WHERE day IS NOT NULL "
)
self.last_hour = await conn.fetchval(
"SELECT max(hour) FROM mempool_analytica WHERE day IS NOT NULL "
)
if self.last_day is None:
self.last_day = 0
if self.last_hour is None:
self.last_hour = 0
else:
await asyncio.sleep(60)
q = time.time()
await self.load_block_map()
async with self.db_pool.acquire() as conn:
async with conn.transaction():
last_hash = await conn.fetchval(
"SELECT height FROM blocks order by height desc LIMIT 1;"
)
stxo = await conn.fetch(
"SELECT tx_id, out_tx_id, address, amount, pointer, sequence, outpoint, id "
"FROM connector_unconfirmed_stxo "
"WHERE id > $1;", stxo_sequence)
utxo = await conn.fetch(
"SELECT out_tx_id as tx_id, address, amount, id "
"FROM connector_unconfirmed_utxo "
"WHERE id > $1;", utxo_sequence)
tx = await conn.fetch(
"SELECT tx_id, size, b_size, rbf, fee, "
"amount, segwit, timestamp, id FROM unconfirmed_transaction "
"WHERE id > $1;", tx_sequence)
row = await conn.fetchval(
"select min(feerate) "
"from (select feerate, sum((size + b_size * 4)/4) "
"over (order by feerate desc) as block "
"from unconfirmed_transaction) t where block <= 920000;"
)
if row is not None:
best_fee = row
if last_hash != self.last_hash:
self.last_hash = last_hash
outputs, inputs, transactions = self.refresh_stat()
utxo_sequence = 0
stxo_sequence = 0
tx_sequence = 0
dbs = set()
dbs_childs = set()
truncate_dbs_table = True
if not tx:
s_minute = int(time.time()) // 60
if s_minute % 60 == 0 and self.last_hour < s_minute // 60:
s_hour = s_minute // 60
self.last_hour = s_hour
if s_hour % 24 == 0 and self.last_day < s_hour // 24:
s_day = s_hour // 24
self.last_day = s_day
else:
s_day = None
else:
s_hour = None
s_day = None
async with self.db_pool.acquire() as conn:
async with conn.transaction():
await conn.execute(
"INSERT INTO mempool_analytica "
"(minute, hour, day, inputs, outputs, transactions)"
" VALUES "
"($1, $2, $3, $4, $5, $6) "
"ON CONFLICT (minute) "
"DO UPDATE SET "
" inputs = $4,"
" outputs = $5, "
" transactions = $6", s_minute,
s_hour, s_day, json.dumps(inputs),
json.dumps(outputs),
json.dumps(transactions))
txsi = set()
txso = set()
dbs_outs = set()
dbs_set = set()
if tx:
inputs["count"] += len(stxo)
for row in stxo:
if stxo_sequence < row["id"]:
stxo_sequence = row["id"]
if row["sequence"] > 0:
dbs_outs.add(row["outpoint"])
dbs_set.add(row["tx_id"])
txsi.add(row["tx_id"])
inputs["amount"]["total"] += row["amount"]
if inputs["amount"]["max"]["value"] is None or \
inputs["amount"]["max"]["value"] < row["amount"]:
inputs["amount"]["max"]["value"] = row["amount"]
inputs["amount"]["max"]["txId"] = rh2s(
row["tx_id"])
if inputs["amount"]["min"]["value"] is None or \
inputs["amount"]["min"]["value"] > row["amount"]:
inputs["amount"]["min"]["value"] = row["amount"]
inputs["amount"]["min"]["txId"] = rh2s(
row["tx_id"])
try:
inputs["typeMap"][row["address"][0]]["count"] += 1
inputs["typeMap"][row["address"]
[0]]["amount"] += row["amount"]
except:
inputs["typeMap"][row["address"][0]] = {
"count": 1,
"amount": row["amount"]
}
amount = row["amount"]
key = None if amount == 0 else str(
math.floor(math.log10(amount)))
try:
inputs["amountMap"][key]["count"] += 1
inputs["amountMap"][key]["amount"] += row["amount"]
except:
inputs["amountMap"][key] = {
"count": 1,
"amount": row["amount"]
}
try:
key = time.time() - self.block_map_timestamp[
row["pointer"] >> 39]
if key < 3600:
key = "1h"
elif key < 43200:
key = "12h"
elif key < 86400:
key = "1d"
elif key < 259200:
key = "3d"
elif key < 604800:
key = "1w"
elif key < 2592000:
key = "1m"
else:
key = "%sy" % (int(key // 31536000) + 1)
except:
key = None
try:
inputs["ageMap"][key]["count"] += 1
inputs["ageMap"][key]["amount"] += row["amount"]
except:
inputs["ageMap"][key] = {
"count": 1,
"amount": row["amount"]
}
async with self.db_pool.acquire() as conn:
dbs_rows = await conn.fetch(
"SELECT tx_id, outpoint "
"FROM connector_unconfirmed_stxo "
"WHERE outpoint = ANY($1);", dbs_outs)
out_map = set()
for row in dbs_rows:
if row["outpoint"] in out_map:
if row["tx_id"] in dbs_set:
dbs.add(row["tx_id"])
else:
out_map.add(row["outpoint"])
l_dbs_size = 0
while True:
for row in stxo:
if row["out_tx_id"] in dbs or row[
"out_tx_id"] in dbs_childs:
if row["tx_id"] not in dbs:
dbs_childs.add(row["tx_id"])
if l_dbs_size != len(dbs_childs):
l_dbs_size = len(dbs_childs)
else:
break
outputs["count"] += len(utxo)
for row in utxo:
if utxo_sequence < row["id"]:
utxo_sequence = row["id"]
txso.add(row["tx_id"])
outputs["amount"]["total"] += row["amount"]
if outputs["amount"]["max"]["value"] is None or \
outputs["amount"]["max"]["value"] < row["amount"]:
outputs["amount"]["max"]["value"] = row["amount"]
outputs["amount"]["max"]["txId"] = rh2s(
row["tx_id"])
if outputs["amount"]["min"]["value"] is None or \
outputs["amount"]["min"]["value"] > row["amount"]:
if row["amount"] > 0:
outputs["amount"]["min"]["value"] = row[
"amount"]
outputs["amount"]["min"]["txId"] = rh2s(
row["tx_id"])
try:
outputs["typeMap"][row["address"][0]]["count"] += 1
outputs["typeMap"][row["address"]
[0]]["amount"] += row["amount"]
except:
outputs["typeMap"][row["address"][0]] = {
"count": 1,
"amount": row["amount"]
}
amount = row["amount"]
key = None if amount == 0 else str(
math.floor(math.log10(amount)))
try:
outputs["amountMap"][key]["count"] += 1
outputs["amountMap"][key]["amount"] += row[
"amount"]
except:
outputs["amountMap"][key] = {
"count": 1,
"amount": row["amount"]
}
transactions["doublespend"]["count"] = len(dbs)
transactions["doublespendChilds"]["count"] = len(
dbs_childs)
transactions["count"] += len(tx)
dbs_records = deque()
for row in tx:
v_size = math.ceil(
(row["b_size"] * 3 + row["size"]) / 4)
if tx_sequence < row["id"]:
tx_sequence = row["id"]
if row["tx_id"] in dbs:
transactions["doublespend"]["amount"] += row[
"amount"]
transactions["doublespend"]["size"] += row["size"]
transactions["doublespend"]["vSize"] += v_size
dbs_records.append(
(row["tx_id"], row["timestamp"], 0))
if row["tx_id"] in dbs_childs:
transactions["doublespendChilds"]["amount"] += row[
"amount"]
transactions["doublespendChilds"]["size"] += row[
"size"]
transactions["doublespendChilds"][
"vSize"] += v_size
dbs_records.append(
(row["tx_id"], row["timestamp"], 1))
if row["amount"] > 0:
transactions["amount"]["total"] += row["amount"]
if transactions["amount"]["max"]["value"] is None or \
transactions["amount"]["max"]["value"] < row["amount"]:
transactions["amount"]["max"]["value"] = row[
"amount"]
transactions["amount"]["max"]["txId"] = rh2s(
row["tx_id"])
if transactions["amount"]["min"]["value"] is None or \
transactions["amount"]["min"]["value"] > row["amount"]:
transactions["amount"]["min"]["value"] = row[
"amount"]
transactions["amount"]["min"]["txId"] = rh2s(
row["tx_id"])
if row["fee"] is not None:
transactions["fee"]["total"] += row["fee"]
if transactions["fee"]["max"]["value"] is None or \
transactions["fee"]["max"]["value"] < row["fee"]:
transactions["fee"]["max"]["value"] = row[
"fee"]
transactions["fee"]["max"]["txId"] = rh2s(
row["tx_id"])
if transactions["fee"]["min"]["value"] is None or \
transactions["fee"]["min"]["value"] > row["fee"]:
transactions["fee"]["min"]["value"] = row[
"fee"]
transactions["fee"]["min"]["txId"] = rh2s(
row["tx_id"])
fee_rate = math.ceil(row["fee"] / v_size)
if transactions["feeRate"]["max"]["value"] is None or \
transactions["feeRate"]["max"]["value"] < fee_rate:
transactions["feeRate"]["max"][
"value"] = fee_rate
transactions["feeRate"]["max"]["txId"] = rh2s(
row["tx_id"])
if transactions["feeRate"]["min"]["value"] is None or \
transactions["feeRate"]["min"]["value"] > fee_rate:
transactions["feeRate"]["min"][
"value"] = fee_rate
transactions["feeRate"]["min"]["txId"] = rh2s(
row["tx_id"])
key = fee_rate
if key > 10 and key < 20:
key = math.floor(key / 2) * 2
elif key > 20 and key < 200:
key = math.floor(key / 10) * 10
elif key > 200:
key = math.floor(key / 25) * 25
try:
transactions["feeRateMap"][key]["count"] += 1
transactions["feeRateMap"][key]["size"] += row[
"size"]
transactions["feeRateMap"][key][
"vSize"] += v_size
except:
transactions["feeRateMap"][key] = {
"count": 1,
"size": row["size"],
"vSize": v_size
}
if row["rbf"]:
transactions["rbfCount"] += 1
if row["segwit"]:
transactions["segwitCount"] += 1
if row["size"]:
transactions["size"]["total"] += row["size"]
transactions["vSize"]["total"] += v_size
if transactions["size"]["max"]["value"] is None or \
transactions["size"]["max"]["value"] < row["size"]:
transactions["size"]["max"]["value"] = row[
"size"]
transactions["size"]["max"]["txId"] = rh2s(
row["tx_id"])
if transactions["vSize"]["max"]["value"] is None or \
transactions["vSize"]["max"]["value"] < v_size:
transactions["vSize"]["max"]["value"] = v_size
transactions["vSize"]["max"]["txId"] = rh2s(
row["tx_id"])
if transactions["size"]["min"]["value"] is None or \
transactions["size"]["min"]["value"] > row["size"]:
transactions["size"]["min"]["value"] = row[
"size"]
transactions["size"]["min"]["txId"] = rh2s(
row["tx_id"])
if transactions["vSize"]["min"]["value"] is None or \
transactions["vSize"]["min"]["value"] > v_size:
transactions["vSize"]["min"]["value"] = v_size
transactions["vSize"]["min"]["txId"] = rh2s(
row["tx_id"])
if transactions["vSize"]["total"] > 1000000 / 10:
transactions["feeRate"]["best"] = round(best_fee, 2)
else:
transactions["feeRate"]["best"] = 1
async with self.db_pool.acquire() as conn:
async with conn.transaction():
if truncate_dbs_table:
await conn.execute(
"truncate table mempool_dbs;")
truncate_dbs_table = False
await conn.copy_records_to_table(
'mempool_dbs',
columns=["tx_id", "timestamp", "child"],
records=dbs_records)
s_minute = int(time.time()) // 60
if s_minute % 60 == 0 and self.last_hour < s_minute // 60:
s_hour = s_minute // 60
self.last_hour = s_hour
if s_hour % 24 == 0 and self.last_day < s_hour // 24:
s_day = s_hour // 24
self.last_day = s_day
else:
s_day = None
else:
s_hour = None
s_day = None
if self.last_minute != s_minute or transactions[
"feeRate"]["bestHourly"] == 1:
best_fee_hourly.set(
transactions["feeRate"]["best"])
f = 0
for i in best_fee_hourly.items:
f += i
f4 = 0
for i in best_fee_4h.items:
f4 += i
if len(best_fee_hourly.items):
transactions["feeRate"][
"bestHourly"] = round(
f / len(best_fee_hourly.items), 2)
else:
transactions["feeRate"][
"bestHourly"] = transactions[
"feeRate"]["best"]
if len(best_fee_4h.items):
transactions["feeRate"]["best4h"] = round(
f4 / len(best_fee_4h.items), 2)
else:
transactions["feeRate"][
"best4h"] = transactions["feeRate"][
"best"]
await conn.execute(
"INSERT INTO mempool_analytica "
"(minute, hour, day, inputs, outputs, transactions)"
" VALUES "
"($1, $2, $3, $4, $5, $6) "
"ON CONFLICT (minute) "
"DO UPDATE SET "
" inputs = $4,"
" outputs = $5, "
" transactions = $6", s_minute, s_hour, s_day,
json.dumps(inputs), json.dumps(outputs),
json.dumps(transactions))
if s_hour is not None:
self.log.warning(
"Mempool analytica hourly point saved %s" % s_hour)
self.log.info(
"Mempool transactions %s; STXO : %s; UTXO %s; DBS %s; round time %s;"
% (transactions["count"], inputs["count"],
outputs["count"],
transactions["doublespend"]["count"] +
transactions["doublespendChilds"]["count"], q))
q = time.time() - q
if q < 1:
await asyncio.sleep(1 - q)
if q > 10:
self.log.warning("Mempool analytica is to slow %s" % q)
if self.last_minute != s_minute or transactions["feeRate"][
"best4h"] == 1:
self.last_minute = s_minute
self.log.debug(
"Mempool TX %s; STXO %s; UTXO %s; DBS %s; %s; %s; Best fee %s/%s/%s; Round time %s;"
% (transactions["count"], inputs["count"],
outputs["count"],
transactions["doublespend"]["count"] +
transactions["doublespendChilds"]["count"],
format_bytes(transactions["size"]["total"]),
format_vbytes(transactions["vSize"]["total"]),
transactions["feeRate"]["best"],
transactions["feeRate"]["bestHourly"],
transactions["feeRate"]["best4h"], round(q, 4)))
else:
await asyncio.sleep(2)
# assert len(tx) == len(txsi)
# assert len(tx) == len(txso)
#
# async with self.db_pool.acquire() as conn:
# v = await conn.fetch("SELECT invalid_transaction.tx_id FROM invalid_transaction "
# " JOIN connector_unconfirmed_stxo ON connector_unconfirmed_stxo.tx_id = invalid_transaction.tx_id "
# " ;")
# k = [t["tx_id"] for t in v]
# for t in v:
# print(rh2s(t["tx_id"]))
# v = await conn.fetch("SELECT outpoint, sequence FROM connector_unconfirmed_stxo WHERE tx_id = ANY($1);", k)
# print("u", len(v))
# uu = set()
# pp = set()
# for r in v:
# uu.add(r["outpoint"])
# pp.add((r["outpoint"], r["sequence"]))
# v = await conn.fetch("SELECT outpoint, sequence FROM invalid_stxo WHERE tx_id = ANY($1);", k)
# print("i", len(v))
# ii = set()
# for r in v:
# ii.add((r["outpoint"], r["sequence"]))
# e = 0
# for i in ii:
# if i[0] not in uu:
# print("none", i[1])
# else:
# e += 1
# print(">>", e)
#
# v = await conn.fetch("SELECT count(*) from connector_unconfirmed_utxo WHERE out_tx_id = ANY($1);", k)
# print("connector_unconfirmed_utxo", v)
# v = await conn.fetch("SELECT count(*) from unconfirmed_transaction WHERE tx_id = ANY($1);", k)
# print("unconfirmed_transaction", v)
# v = await conn.fetch("SELECT count(*) from unconfirmed_transaction_map WHERE tx_id = ANY($1);", k)
# print("unconfirmed_transaction_map", v)
# ff = 0
# for i in pp:
# v = await conn.fetchval("SELECT count(*) from invalid_stxo WHERE outpoint = $1 and sequence = $2;", i[0], i[1])
# ff += v
# print("ff", ff)
# ll = list()
# v = await conn.fetch("SELECT outpoint, sequence, out_tx_id, tx_id, input_index, address, amount, pointer from connector_unconfirmed_stxo WHERE tx_id = ANY($1);", k)
# for i in v:
# ll.append((i["outpoint"],
# i["sequence"],
# i["out_tx_id"],
# i["tx_id"],
# i["input_index"],
# i["address"],
# i["amount"],
# i["pointer"],
# ))
# print("ll", len(ll))
# try:
# # await conn.copy_records_to_table('invalid_stxo',
# # columns=["outpoint",
# # "sequence",
# # "out_tx_id",
# # "tx_id",
# # "input_index",
# # "address",
# # "amount",
# # "pointer",],
# # records=ll)
# # print("iok")
# ###v = await conn.fetch("DELETE FROM connector_unconfirmed_stxo WHERE tx_id = ANY($1);", k)
# except Exception as err:
# print(err)
# await asyncio.sleep(50000)
# v = await conn.fetch("DELETE FROM unconfirmed_transaction_map WHERE tx_id = ANY($1);", k)
# print(v)
# # v = await conn.fetch("DELETE FROM connector_unconfirmed_stxo WHERE tx_id = ANY($1);", k)
# # print(v)
# v = await conn.fetch("SELECT tx_id FROM connector_unconfirmed_stxo WHERE tx_id = ANY($1);", k)
# print(v)
# v = await conn.fetch("SELECT out_tx_id FROM connector_unconfirmed_utxo WHERE out_tx_id = ANY($1);", k)
# print(v)
# v = await conn.fetch("DELETE FROM connector_unconfirmed_utxo WHERE out_tx_id = ANY($1);", k)
# print(v)
# v = await conn.fetch("SELECT out_tx_id FROM connector_unconfirmed_utxo WHERE out_tx_id = ANY($1);", k)
# print(v)
# if v == []:
# await conn.fetch("DELETE FROM unconfirmed_transaction WHERE tx_id = ANY($1);", k)
except asyncio.CancelledError:
self.log.warning("Mempool analytica task canceled")
break
except Exception as err:
self.log.error("Mempool analytica task error: %s" % err)
print(traceback.format_exc())
await asyncio.sleep(10)
packages.add(arg)
chanko = Chanko()
candidates = chanko.get_package_candidates(packages, nodeps)
if len(candidates) == 0:
print "Nothing to get..."
return
bytes = 0
for candidate in candidates:
bytes += candidate.bytes
print candidate.filename
print "Amount of packages: %i" % len(candidates)
print "Need to get %s of archives" % format_bytes(bytes)
if pretend:
return
if not force:
print "Do you want to continue [y/N]?",
if not raw_input() in ['Y', 'y']:
print "aborted by user"
return
result = chanko.get_packages(candidates=candidates)
if result:
plan_name = "nodeps" if nodeps else "main"
chanko.plan.update(packages, plan_name)
def compute_rectangles(node,
xlim,
ylim,
recurse_level=0,
dir_level=0,
rects=[]):
# this function has to handle 3 cases:
# - single file: return a single rect
# - full directory: return single rect, divide and recurse on child files
# - "file group": return no rect, divide and recurse on child files
#
# tree.path
# tree.size
# tree.children = [tree, tree, ...]
# TODO: need to enforce append order of rects such that
# drawing in iteration order ensures proper z ordering
if (dir_level > max_filesystem_depth or xlim[1] - xlim[0] < min_box_size
or ylim[1] - ylim[0] < min_box_size):
return
if type(node) == list:
node_type = 'file_group'
elif len(node.children) > 0:
node_type = 'directory'
else:
node_type = 'file'
if node_type in ['directory', 'file']:
# - define a box and text
# - if directory, compute new padded bounds for child boxes
txt = node.path if recurse_level == 0 else node.name
txt += ' (%s)' % format_bytes(node.size)
rect = {
'x': xlim[0] + 1,
'y': ylim[0] + 1,
'dx': xlim[1] - xlim[0],
'dy': ylim[1] - ylim[0],
'depth': dir_level,
'text': txt,
'type': node_type,
}
rects.append(rect)
if node_type == 'directory':
# directory padding
ylim[0] = ylim[0] + text_size + dir_text_offset
ylim[1] = ylim[1] - 3
xlim[0] = xlim[0] + 3
xlim[1] = xlim[1] - 3
if node_type in ['file_group', 'directory']:
# - divide children into nearly equal parts,
# - recurse on both halves
if node_type == 'directory':
children = node.children
subdir_level = 1
total_size = node.size
else:
children = node
subdir_level = 0
total_size = sum([x.size for x in node])
groupA, xA, yA, groupB, xB, yB = squarify(children,
xlim,
ylim,
total_size=total_size)
# recurse
compute_rectangles(groupA, xA, yA, recurse_level + 1,
dir_level + subdir_level)
compute_rectangles(groupB, xB, yB, recurse_level + 1,
dir_level + subdir_level)
return rects
def parse_log_file(self):
self.runtime = None
self.sent = None
self.received = None
self.speed = None
logger.debug('Parsing log file for snapshot. %r' % {
'volume_id': self.volume.id,
'snapshot_id': self.id,
})
try:
with open(self.log_path) as log:
start_time = None
line = log.readline()
try:
line_split = shlex.split(line)
if len(line_split) >= 2:
# Get epoch time
epoch = line_split[0] + 'T' + line_split[1]
epoch = datetime.datetime.strptime(epoch,
'%Y/%m/%dT%H:%M:%S')
start_time = int(time.mktime(epoch.timetuple()))
else:
logger.warning('Failed to get snapshot start ' + \
'time from log, line split length invalid. %r' % {
'volume_id': self.volume.id,
'snapshot_id': self.id,
'log_line': line,
})
except ValueError:
logger.warning('Failed to get snapshot start ' + \
'time from log, value error. %r' % {
'volume_id': self.volume.id,
'snapshot_id': self.id,
'log_line': line,
})
# Get last kilobyte of file
log.seek(0, os.SEEK_END)
file_size = log.tell()
log.seek(max(file_size - 1024, 0))
lines = log.readlines()
# Find rsync sent command line output
for line in lines:
try:
line_split = shlex.split(line)
except ValueError:
continue
if len(line_split) < 10:
continue
# Get rsync command
command = line_split[3]
if command == 'sent':
if start_time:
# Get runtime
epoch = line_split[0] + 'T' + line_split[1]
epoch = datetime.datetime.strptime(epoch,
'%Y/%m/%dT%H:%M:%S')
epoch = int(time.mktime(epoch.timetuple()))
self.runtime = utils.format_seconds(
epoch - start_time)
# Get snapshot info
try:
self.sent = utils.format_bytes(line_split[4])
except ValueError:
logger.warning('Failed to get sent bytes ' + \
'from snapshot log, value error. %r' % {
'volume_id': self.volume.id,
'snapshot_id': self.id,
'log_line': line,
})
try:
self.received = utils.format_bytes(line_split[7])
except ValueError:
logger.warning('Failed to get received bytes ' + \
'from snapshot log, value error. %r' % {
'volume_id': self.volume.id,
'snapshot_id': self.id,
'log_line': line,
})
try:
self.speed = utils.format_bytes(
line_split[9]) + '/sec'
except ValueError:
logger.warning('Failed to get transfer speed ' + \
'from snapshot log, value error. %r' % {
'volume_id': self.volume.id,
'snapshot_id': self.id,
'log_line': line,
})
except IOError:
logger.debug('Failed to read log file for ' + \
'snapshot, IOError. %r' % {
'volume_id': self.volume.id,
'snapshot_id': self.id,
})
hasrecord = (len(records) > 0)
if hasrecord:
totalprice = float(bytesin + bytesout) / 1000 / 1000 / 1000 * price_per_gb
starttime = records[-1].time
starthash = records[-1].hashstr
endtime = records[0].time
endhash = records[0].hashstr
log = add_log(title="BillCalc", params=[
("user",username),
("starttime",starttime.strftime(timefmt)),
("starthash",starthash),
("endtime",endtime.strftime(timefmt)),
("endhash",endhash),
("bytesin",bytesin),
("bytesout",bytesout),
("duration",duration),
("totalprice",totalprice)
])
if hasrecord:
print("Usage for user [%s]:" % username)
print(" From <%s> to <%s>" % (starttime.strftime("%Y-%m-%d %H:%M:%S"), endtime.strftime("%Y-%m-%d %H:%M:%S")))
print(" Total upload: " + format_bytes(bytesin))
print(" Total download: " + format_bytes(bytesout))
print(" Total usage: " + format_seconds(duration))
print(" Total price: " + str(totalprice))
print(" Hash code: " + log.hashstr)
else:
print("No usage for user [%s] since <%s>" % (username, datetime.datetime.strptime(starttime,timefmt).strftime("%Y-%m-%d %H:%M:%S") if starttime else "ever"))
