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compare: tuxmain:5d4d3e86720dfb5318bfc5480d7cbea6c185f673
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tuxmain:main

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752055866f ... 5d4d3e8672

Author SHA1 Message Date
Pascal Engélibert
5d4d3e8672 Remove rpxy 2026-02-06 17:27:56 +01:00
Pascal Engélibert
b9a57aa2e8 plot titles 2026-02-04 10:31:50 +01:00
4 changed files with 399 additions and 469 deletions
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2
.gitignore vendored
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@ -1,4 +1,4 @@
netreplay netreplay*
powercap powercap
__pycache__ __pycache__
rpxy_* rpxy_*

12
README.md
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@ -204,7 +204,9 @@ sudo make install
### Record ### Record
Authorize rpxy and netreplay to bind to ports 80 and 443: #### Installation
Authorize netreplay to bind to ports 80 and 443:
```bash ```bash
sudo setcap CAP_NET_BIND_SERVICE=+eip netreplay sudo setcap CAP_NET_BIND_SERVICE=+eip netreplay
``` ```
@ -217,11 +219,7 @@ firefox -P tlsbench
In settings, disable DNS security. In settings, disable DNS security.
In `about:config`, set: In `about:config`, set `network.dns.forceResolve` to `127.0.0.1`.
* `devtools.chrome.enabled` to `true`
* `network.dns.forceResolve` to `127.0.0.1`
In the `about:config` tab, open the console, execute this script to override DNS for the selected names, and redirect them to localhost:
Run the shell commands: Run the shell commands:
@ -232,6 +230,8 @@ python exp.py update-certs debug
In Firefox, go to security settings, Certificates, import `/dev/shm/exp/certs/prime256v1/ca.crt` and trust it for identifying websites. In Firefox, go to security settings, Certificates, import `/dev/shm/exp/certs/prime256v1/ca.crt` and trust it for identifying websites.
#### After installation
Stop anything running on ports 80 or 443. Stop anything running on ports 80 or 443.
Start the record proxy: Start the record proxy:

725
exp.py
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File diff suppressed because it is too large Load diff

53
plots.py
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@ -77,6 +77,9 @@ def gnuplot_histogram(**kwargs):
kwargs["machine"] = ", " + kwargs["machine"] kwargs["machine"] = ", " + kwargs["machine"]
else: else:
kwargs["machine"] = "" kwargs["machine"] = ""
titleline = ""
if kwargs["maketitle"]:
titleline = 'set title font "CMU Sans Serif,12" "{object_title} by {criterion_title} ({record}, {side}{machine}) ({unit})"'.format(**kwargs)
cluster = "" cluster = ""
for i in range(kwargs["nb_impls"]-1): for i in range(kwargs["nb_impls"]-1):
cluster += """, "" using {}:xticlabels(1) title col""".format(i+4) cluster += """, "" using {}:xticlabels(1) title col""".format(i+4)
@ -88,7 +91,7 @@ set boxwidth 0.9 absolute
set style fill solid 1.0 border lt -1 set style fill solid 1.0 border lt -1
set style histogram clustered gap 1 title textcolor lt -1 set style histogram clustered gap 1 title textcolor lt -1
set style data histograms set style data histograms
set title font "CMU Sans Serif,12" "{object_title} by {criterion_title} ({record}, {side}{machine}) ({unit})" {titleline}
#set xtics border in scale 0,0 nomirror rotate by -45 autojustify #set xtics border in scale 0,0 nomirror rotate by -45 autojustify
set xtics border in scale 0,0 nomirror autojustify set xtics border in scale 0,0 nomirror autojustify
#set key fixed right top vertical Right noreverse noenhanced autotitle nobox #set key fixed right top vertical Right noreverse noenhanced autotitle nobox
@ -103,7 +106,7 @@ plot \
set term cairolatex pdf set term cairolatex pdf
set output "{plots_dir}/{object}_by_{criterion}_{side}_{record}.tex" set output "{plots_dir}/{object}_by_{criterion}_{side}_{record}.tex"
replot replot
""".format(plots_dir=PLOTS_DIR, cluster=cluster, **kwargs)) """.format(plots_dir=PLOTS_DIR, cluster=cluster, titleline=titleline, **kwargs))
f.close() f.close()
os.system("gnuplot {plots_dir}/{object}_by_{criterion}_{side}_{record}.gnuplot".format(plots_dir=PLOTS_DIR, **kwargs)) os.system("gnuplot {plots_dir}/{object}_by_{criterion}_{side}_{record}.gnuplot".format(plots_dir=PLOTS_DIR, **kwargs))
@ -112,6 +115,8 @@ def gnuplot_stacked_histogram(**kwargs):
kwargs["machine"] = ", " + kwargs["machine"] kwargs["machine"] = ", " + kwargs["machine"]
else: else:
kwargs["machine"] = "" kwargs["machine"] = ""
if kwargs["maketitle"]:
titleline = 'set title font "CMU Sans Serif,12" "{object_title} by {criterion_title} ({record}, {side}{machine}) ({unit})"'.format(**kwargs)
cluster = "" cluster = ""
#for i in range(kwargs["nb_impls"]-1): #for i in range(kwargs["nb_impls"]-1):
# cluster += """, "" using {}:xticlabels(1) title col""".format(i+4) # cluster += """, "" using {}:xticlabels(1) title col""".format(i+4)
@ -123,7 +128,7 @@ set boxwidth 0.9 absolute
set style fill solid 1.0 border lt -1 set style fill solid 1.0 border lt -1
set style histogram rowstacked set style histogram rowstacked
set style data histograms set style data histograms
set title font "CMU Sans Serif,12" "{object_title} by {criterion_title} ({record}, {side}{machine}) ({unit})" {titleline}
set xtics border in scale 0,0 nomirror noenhanced rotate by 30 right set xtics border in scale 0,0 nomirror noenhanced rotate by 30 right
set lmargin 9 set lmargin 9
set rmargin 1 set rmargin 1
@ -140,11 +145,11 @@ set term pict2e font ",10"
set output "{plots_dir}/{object}_by_{criterion}_{side}_{record}.tex" set output "{plots_dir}/{object}_by_{criterion}_{side}_{record}.tex"
set key font ",10" spacing 0.8 set key font ",10" spacing 0.8
replot replot
""".format(plots_dir=PLOTS_DIR, cluster=cluster, **kwargs).replace("aws_lc", "aws-lc")) """.format(plots_dir=PLOTS_DIR, cluster=cluster, titleline=titleline, **kwargs).replace("aws_lc", "aws-lc"))
f.close() f.close()
os.system("gnuplot {plots_dir}/{object}_by_{criterion}_{side}_{record}.gnuplot".format(plots_dir=PLOTS_DIR, **kwargs)) os.system("gnuplot {plots_dir}/{object}_by_{criterion}_{side}_{record}.gnuplot".format(plots_dir=PLOTS_DIR, **kwargs))
def make_log_plot(logs, exp, criterion, side, obj, record, machine=None, version=None): def make_log_plot(logs, exp, criterion, side, obj, record, machine=None, version=None, maketitle=True):
f = open(f"/dev/shm/plots/{obj}_by_{criterion}_{side}_{record}.dat", "w") f = open(f"/dev/shm/plots/{obj}_by_{criterion}_{side}_{record}.dat", "w")
ciphers = {} ciphers = {}
impls = [] impls = []
@ -156,14 +161,14 @@ def make_log_plot(logs, exp, criterion, side, obj, record, machine=None, version
idle_val = float(log[COL[obj]]) / float(log["time"]) idle_val = float(log[COL[obj]]) / float(log["time"])
if log["exp"] != exp or log["record"] != record: if log["exp"] != exp or log["record"] != record:
continue continue
if log["setup"] == "none": if log["side"] == side and log["tls"] == "0":
plain_line = "plain {}".format(float(log[COL[obj]]) - idle_val * float(log["time"])) plain_line = "plain {}".format(float(log[COL[obj]]) - idle_val * float(log["time"]))
if plain_line == None: if plain_line == None:
return return
for log in logs: for log in logs:
if log["exp"] == exp and log["record"] == record and log["setup"] == side: if log["exp"] == exp and log["record"] == record and log["side"] == side:
#ver = VER_LABEL[log["cipher"]] #ver = VER_LABEL[log["cipher"]]
#if log[COL[criterion]]+"/"+ver not in ciphers: #if log[COL[criterion]]+"/"+ver not in ciphers:
# ciphers[log[COL[criterion]]+"/"+ver] = {} # ciphers[log[COL[criterion]]+"/"+ver] = {}
@ -208,10 +213,11 @@ def make_log_plot(logs, exp, criterion, side, obj, record, machine=None, version
unit=UNIT[obj], unit=UNIT[obj],
nb_impls=len(impls), nb_impls=len(impls),
record=record, record=record,
machine=machine machine=machine,
maketitle=maketitle
) )
def make_profile_plot(logs, exp, criterion, side, record, no_flamegraph=False, machine=None): def make_profile_plot(logs, exp, criterion, side, record, no_flamegraph=False, machine=None, maketitle=False):
f = open(f"/dev/shm/plots/profile_by_{criterion}_{side}_{record}.dat", "w") f = open(f"/dev/shm/plots/profile_by_{criterion}_{side}_{record}.dat", "w")
runs = [] runs = []
functions = [] functions = []
@ -264,7 +270,8 @@ def make_profile_plot(logs, exp, criterion, side, record, no_flamegraph=False, m
unit=UNIT["profile"], unit=UNIT["profile"],
record=record, record=record,
nb_functions=len(functions)+1, nb_functions=len(functions)+1,
machine=machine machine=machine,
maketitle=maketitle
) )
# Are CPU and energy proportional # Are CPU and energy proportional
@ -384,27 +391,27 @@ if __name__ == "__main__":
os.makedirs("/dev/shm/plots", exist_ok=True) os.makedirs("/dev/shm/plots", exist_ok=True)
no_flamegraph = "-f" in sys.argv no_flamegraph = "-f" in sys.argv
machine = getargv("-m", None) machine = getargv("-m", None)
maketitle = "-t" not in sys.argv
if cmd == "log": if cmd == "log":
cmp_versions(logs, ["impl-cipher-ver", "impl-cert-ver", "impl-kex-ver"], ["side", "cipher", "cert", "kex", "record"], ["cpu", "energy"])
for side in ["client", "server"]: for side in ["client", "server"]:
for record in records: for record in records:
make_log_plot(logs, "impl-cipher-ver", "cipher", side, "cpu", record, machine=machine, version="1.3") make_log_plot(logs, "impl-cipher-ver", "cipher", side, "cpu", record, machine=machine, maketitle=maketitle, version="1.3")
make_log_plot(logs, "impl-cipher-ver", "cipher", side, "energy", record, machine=machine, version="1.3") make_log_plot(logs, "impl-cipher-ver", "cipher", side, "energy", record, machine=machine, maketitle=maketitle, version="1.3")
make_log_plot(logs, "impl-cert-ver", "cert", side, "cpu", record, machine=machine, version="1.3") make_log_plot(logs, "impl-cert-ver", "cert", side, "cpu", record, machine=machine, maketitle=maketitle, version="1.3")
make_log_plot(logs, "impl-cert-ver", "cert", side, "energy", record, machine=machine, version="1.3") make_log_plot(logs, "impl-cert-ver", "cert", side, "energy", record, machine=machine, maketitle=maketitle, version="1.3")
make_log_plot(logs, "impl-kex-ver", "kex", side, "cpu", record, machine=machine, version="1.3") make_log_plot(logs, "impl-kex-ver", "kex", side, "cpu", record, machine=machine, maketitle=maketitle, version="1.3")
make_log_plot(logs, "impl-kex-ver", "kex", side, "energy", record, machine=machine, version="1.3") make_log_plot(logs, "impl-kex-ver", "kex", side, "energy", record, machine=machine, maketitle=maketitle, version="1.3")
make_log_plot(logs, "zrtt", "ed", side, "cpu", record, machine=machine, version="1.3") make_log_plot(logs, "zrtt", "ed", side, "cpu", record, machine=machine, maketitle=maketitle, version="1.3")
make_log_plot(logs, "zrtt", "ed", side, "energy", record, machine=machine, version="1.3") make_log_plot(logs, "zrtt", "ed", side, "energy", record, machine=machine, maketitle=maketitle, version="1.3")
#cmp_versions(logs, ["impl-cipher-ver", "impl-cert-ver", "impl-kex-ver"], ["side", "cipher", "cert", "kex", "record"], ["cpu", "energy"])
elif cmd == "prof": elif cmd == "prof":
for side in ["client-local", "server-local"]: for side in ["client-local", "server-local"]:
for record in records: for record in records:
make_profile_plot(logs, "impl-cipher-ver", "cipher", side, record, no_flamegraph=no_flamegraph, machine=machine) make_profile_plot(logs, "impl-cipher-ver", "cipher", side, record, no_flamegraph=no_flamegraph, machine=machine, maketitle=maketitle)
make_profile_plot(logs, "impl-cert-ver", "cert", side, record, no_flamegraph=no_flamegraph, machine=machine) make_profile_plot(logs, "impl-cert-ver", "cert", side, record, no_flamegraph=no_flamegraph, machine=machine, maketitle=maketitle)
make_profile_plot(logs, "impl-kex-ver", "kex", side, record, no_flamegraph=no_flamegraph, machine=machine) make_profile_plot(logs, "impl-kex-ver", "kex", side, record, no_flamegraph=no_flamegraph, machine=machine, maketitle=maketitle)
elif cmd == "correl": elif cmd == "correl":
from scipy import stats from scipy import stats
import matplotlib.pyplot as plt import matplotlib.pyplot as plt