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Copy pathconsole.py
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140 lines (113 loc) · 6.17 KB
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import sys
import re
from all_estimator import *
def help():
print(
"============================================input error ================================================")
print("input format of exact LPN: console.py N=1024 k=652 t=57 exact")
print("============================================================================================")
# print(
# "or console.py N=1024 k=652 t=57 lambda=13 exact #(bit security of exact LPN with ring size 2^lambda)")
print("or console.py N=1024 k=652 t=57 q=13 exact #(bit security of exact LPN with field size q")
print("or console.py n=1024 N=4096 t=88 exact #(bit security of dual exact LPN)")
# print(
# "or console.py n=1024 N=4096 t=88 lambda=13 exact #(bit security of dual exact LPN with ring size 2^lambda)")
print("or console.py n=1024 N=4096 t=88 q=13 exact #(bit security of dual exact LPN with field size q")
print(" ============================================================================================")
print("input format of regular LPN: console.py N=1024 k=652 t=57 regular")
# print(
# "or console.py N=1024 k=652 t=57 lambda=13 regular #(bit security of regular LPN with ring size 2^lambda)")
print("or console.py N=1024 k=652 t=57 q=13 regular #(bit security of regular LPN with field size q")
print("or console.py n=1024 N=4096 t=88 regular #(bit security of dual regular LPN)")
# print(
# "or console.py n=1024 N=4096 t=88 lambda=13 regular #(bit security of dual regular LPN with ring size 2^lambda)")
print("or console.py n=1024 N=4096 t=88 q=13 regular #(bit security of dual regular LPN with field size q")
print(" ============================================================================================")
# print("or console.py n=82 k=41 t=4 q=2 m=41")
print()
##################### main() function ###########################
def main():
# print(len(sys.argv))
if len(sys.argv) < 4 or len(sys.argv) > 6:
help()
elif 'n' in sys.argv[1] and 'N' in sys.argv[2] and 't' in sys.argv[3]:
n = int(re.findall(r"\d+", sys.argv[1]).pop())
N = int(re.findall(r"\d+", sys.argv[2]).pop())
t = int(re.findall(r"\d+", sys.argv[3]).pop())
if len(sys.argv) == 5 and 'x' in sys.argv[-1]:
print("bit security of dual exact LPN (n=" + str(n) + ", N=" + str(N) + ", t=" + str(t) + "):")
print(analysisfordual2(n, N, t))
print()
elif len(sys.argv) == 5 and 'r' in sys.argv[-1]:
print("bit security of dual regular LPN (n=" + str(n) + ", N=" + str(N) + ", t=" + str(t) + "):")
print(analysisfordual2regular(n, N, t))
print()
elif 'q' in sys.argv[-2] and 'x' in sys.argv[-1]:
q = int(re.findall(r"\d+", sys.argv[-2]).pop())
print("bit security of dual exact LPN (n=" + str(n) + ", N=" + str(N) + ", t=" + str(t) + ", q=" + str(
q) + "):")
print(analysisfordualq(n, N, t, q))
print()
elif 'q' in sys.argv[-2] and 'r' in sys.argv[-1]:
q = int(re.findall(r"\d+", sys.argv[-2]).pop())
print(
"bit security of regular LPN (n=" + str(n) + ", N=" + str(N) + ", t=" + str(t) + ", q=" + str(q) + "):")
print(analysisfordualqregular(n, N, t, q))
print()
elif 'lambda' in sys.argv[-2] and 'x' in sys.argv[-1]:
lam = int(re.findall(r"\d+", sys.argv[-2]).pop())
print("bit security of dual exact LPN (n=" + str(n) + ", N=" + str(N) + ", t=" + str(t) + ", lambda=" + str(
lam) + "):")
print(analysisfordual2lambda(n, N, t, lam))
print()
elif 'lambda' in sys.argv[-2] and 'r' in sys.argv[-1]:
lam = int(re.findall(r"\d+", sys.argv[-2]).pop())
print(
"bit security of dual regular LPN (n=" + str(n) + ", N=" + str(N) + ", t=" + str(t) + ", lambda=" + str(
lam) + "):")
print(analysisfordual2lambdaregular(n, N, t, lam))
print()
else:
help()
elif 'N' in sys.argv[1] and 'k' in sys.argv[2] and 't' in sys.argv[3]:
N = int(re.findall(r"\d+", sys.argv[1]).pop())
k = int(re.findall(r"\d+", sys.argv[2]).pop())
t = int(re.findall(r"\d+", sys.argv[3]).pop())
if len(sys.argv) == 5 and 'x' in sys.argv[-1]:
print("bit security of exact LPN (N=" + str(N) + ", k=" + str(k) + ", t=" + str(t) + "):")
print(analysisfor2(N, k, t))
print()
elif len(sys.argv) == 5 and 'r' in sys.argv[-1]:
print("bit security of regular LPN (N=" + str(N) + ", k=" + str(k) + ", t=" + str(t) + "):")
print(analysisfor2regular(N, k, t))
print()
elif 'q' in sys.argv[-2] and 'x' in sys.argv[-1]:
q = int(re.findall(r"\d+", sys.argv[-2]).pop())
print("bit security of exact LPN (N=" + str(N) + ", k=" + str(k) + ", t=" + str(t) + ", q=" + str(
q) + "):")
print(analysisforq(N, k, t, q))
print()
elif 'q' in sys.argv[-2] and 'r' in sys.argv[-1]:
q = int(re.findall(r"\d+", sys.argv[-2]).pop())
print("bit security of regular LPN (N=" + str(N) + ", k=" + str(k) + ", t=" + str(t) + ", q=" + str(
q) + "):")
print(analysisforqregular(N, k, t, q))
print()
elif 'lambda' in sys.argv[-2] and 'x' in sys.argv[-1]:
lam = int(re.findall(r"\d+", sys.argv[-2]).pop())
print("bit security of exact LPN (N=" + str(N) + ", k=" + str(k) + ", t=" + str(t) + ", lambda=" + str(
lam) + "):")
print(analysisfor2lambda(N, k, t, lam))
print()
elif 'lambda' in sys.argv[-2] and 'r' in sys.argv[-1]:
lam = int(re.findall(r"\d+", sys.argv[-2]).pop())
print("bit security of regular LPN (N=" + str(N) + ", k=" + str(k) + ", t=" + str(t) + ", lambda=" + str(
lam) + "):")
print(analysisfor2lambdaregular(N, k, t, lam))
print()
else:
help()
else:
help()
if __name__ == '__main__':
main()