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[tor-commits] [onionperf/develop] Avoid tracebacks when visualizing measurements.
commit fe6ff0874dfd9b18bf5eb71c2394431ca44874bc
Author: Karsten Loesing <karsten.loesing@xxxxxxx>
Date: Tue Nov 24 12:17:21 2020 +0100
Avoid tracebacks when visualizing measurements.
Attempting to visualize analysis files containing only unsuccessful
measurements results in various tracebacks.
With this patch we check more carefully whether a data frame is empty
before adding a plot.
Another related change is that we always include
"time_to_{first,last}_byte" and "mbps" columns in the CSV output,
regardless of whether there are there are any non-null values in the
data. See also #40004 for a previous related change.
And we check whether a Tor stream identifier exists before retrieving
a Tor stream.
Finally, we only include TTFB/TTLB if the usecs value is non-zero.
Fixes #44012.
---
CHANGELOG.md | 5 +++++
onionperf/visualization.py | 37 +++++++++++++++++++++++++------------
2 files changed, 30 insertions(+), 12 deletions(-)
diff --git a/CHANGELOG.md b/CHANGELOG.md
index 2c1f5ca..2655e01 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -1,3 +1,8 @@
+# Changes in version 0.9 - 2020-1?-??
+
+ - Avoid tracebacks when visualizing analysis files containing only
+ unsuccessful measurements. Fixes #44012.
+
# Changes in version 0.8 - 2020-09-16
- Add a new `onionperf filter` mode that takes an OnionPerf analysis
diff --git a/onionperf/visualization.py b/onionperf/visualization.py
index 2cd3161..75ec2b5 100644
--- a/onionperf/visualization.py
+++ b/onionperf/visualization.py
@@ -66,6 +66,7 @@ class TGenVisualization(Visualization):
tgen_streams = analysis.get_tgen_streams(client)
tgen_transfers = analysis.get_tgen_transfers(client)
while tgen_streams or tgen_transfers:
+ stream = {"time_to_first_byte": None, "time_to_last_byte": None, "error_code": None, "mbps": None}
error_code = None
source_port = None
unix_ts_end = None
@@ -76,15 +77,15 @@ class TGenVisualization(Visualization):
# that value with unit megabits per second.
if tgen_streams:
stream_id, stream_data = tgen_streams.popitem()
- stream = {"id": stream_id, "label": label,
- "filesize_bytes": int(stream_data["stream_info"]["recvsize"]),
- "error_code": None}
+ stream["id"] = stream_id
+ stream["label"] = label
+ stream["filesize_bytes"] = int(stream_data["stream_info"]["recvsize"])
stream["server"] = "onion" if ".onion:" in stream_data["transport_info"]["remote"] else "public"
if "time_info" in stream_data:
s = stream_data["time_info"]
- if "usecs-to-first-byte-recv" in s:
+ if "usecs-to-first-byte-recv" in s and float(s["usecs-to-first-byte-recv"]) >= 0:
stream["time_to_first_byte"] = float(s["usecs-to-first-byte-recv"])/1000000
- if "usecs-to-last-byte-recv" in s:
+ if "usecs-to-last-byte-recv" in s and float(s["usecs-to-last-byte-recv"]) >= 0:
stream["time_to_last_byte"] = float(s["usecs-to-last-byte-recv"])/1000000
if "elapsed_seconds" in stream_data:
s = stream_data["elapsed_seconds"]
@@ -100,9 +101,9 @@ class TGenVisualization(Visualization):
stream["start"] = datetime.datetime.utcfromtimestamp(stream_data["unix_ts_start"])
elif tgen_transfers:
transfer_id, transfer_data = tgen_transfers.popitem()
- stream = {"id": transfer_id, "label": label,
- "filesize_bytes": transfer_data["filesize_bytes"],
- "error_code": None}
+ stream["id"] = transfer_id
+ stream["label"] = label
+ stream["filesize_bytes"] = transfer_data["filesize_bytes"]
stream["server"] = "onion" if ".onion:" in transfer_data["endpoint_remote"] else "public"
if "elapsed_seconds" in transfer_data:
s = transfer_data["elapsed_seconds"]
@@ -125,7 +126,7 @@ class TGenVisualization(Visualization):
stream["start"] = datetime.datetime.utcfromtimestamp(transfer_data["unix_ts_start"])
tor_stream = None
tor_circuit = None
- if source_port and unix_ts_end:
+ if source_port and source_port in tor_streams_by_source_port and unix_ts_end:
for s in tor_streams_by_source_port[source_port]:
if abs(unix_ts_end - s["unix_ts_end"]) < 150.0:
tor_stream = s
@@ -233,6 +234,8 @@ class TGenVisualization(Visualization):
def __draw_ecdf(self, x, hue, hue_name, data, title, xlabel, ylabel):
data = data.dropna(subset=[x])
+ if data.empty:
+ return
p0 = data[x].quantile(q=0.0, interpolation="lower")
p99 = data[x].quantile(q=0.99, interpolation="higher")
ranks = data.groupby(hue)[x].rank(pct=True)
@@ -255,8 +258,10 @@ class TGenVisualization(Visualization):
plt.close()
def __draw_timeplot(self, x, y, hue, hue_name, data, title, xlabel, ylabel):
- plt.figure()
data = data.dropna(subset=[y])
+ if data.empty:
+ return
+ plt.figure()
data = data.rename(columns={hue: hue_name})
xmin = data[x].min()
xmax = data[x].max()
@@ -271,8 +276,10 @@ class TGenVisualization(Visualization):
plt.close()
def __draw_boxplot(self, x, y, data, title, xlabel, ylabel):
- plt.figure()
data = data.dropna(subset=[y])
+ if data.empty:
+ return
+ plt.figure()
g = sns.boxplot(data=data, x=x, y=y, sym="")
g.set(title=title, xlabel=xlabel, ylabel=ylabel, ylim=(0, None))
sns.despine()
@@ -280,8 +287,10 @@ class TGenVisualization(Visualization):
plt.close()
def __draw_barplot(self, x, y, data, title, xlabel, ylabel):
- plt.figure()
data = data.dropna(subset=[y])
+ if data.empty:
+ return
+ plt.figure()
g = sns.barplot(data=data, x=x, y=y, ci=None)
g.set(title=title, xlabel=xlabel, ylabel=ylabel)
sns.despine()
@@ -289,6 +298,8 @@ class TGenVisualization(Visualization):
plt.close()
def __draw_countplot(self, x, data, title, xlabel, ylabel, hue=None, hue_name=None):
+ if data.empty:
+ return
plt.figure()
if hue is not None:
data = data.rename(columns={hue: hue_name})
@@ -299,6 +310,8 @@ class TGenVisualization(Visualization):
plt.close()
def __draw_stripplot(self, x, y, hue, hue_name, data, title, xlabel, ylabel):
+ if data.empty:
+ return
plt.figure()
data = data.rename(columns={hue: hue_name})
xmin = data[x].min()
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