Try solving TRNG Attack
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1 changed files with 5 additions and 5 deletions
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@ -13,15 +13,15 @@ if __name__ == '__main__':
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traces = np.fromfile("data.bin", dtype='uint8') # reading traces for individual ROs
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traces = np.fromfile("data.bin", dtype='uint8') # reading traces for individual ROs
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traces = np.reshape(traces, (traces.size//tracelen, tracelen)) # reshape of matrix, each row contains the trace for one RO
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traces = np.reshape(traces, (traces.size//tracelen, tracelen)) # reshape of matrix, each row contains the trace for one RO
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traces_bin = ??? # conversion of waveforms to rectangles - everything below threshold is 0, otherwise 1 (they are boolean values actually)
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traces_bin = traces > 128 # conversion of waveforms to rectangles - everything below threshold is 0, otherwise 1 (they are boolean values actually)
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rising_edges = np.logical_not(???) & ??? # finding rising edges, each rising edge is represented by True
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rising_edges = np.logical_not(traces[:,0:-2] & traces[:,1:-1]) & traces[:,2:] # finding rising edges, each rising edge is represented by True
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cnt = np.count_nonzero(???, axis=1) # count the number of rising edges in rows
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cnt = np.count_nonzero(rising_edges, axis=1) # count the number of rising edges in rows
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# cnt is now a 1D vector
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# cnt is now a 1D vector
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cnt = cnt.reshape(TRNG_PAIR_CNT,2).min(axis=1) # Reshape of the count array into matrix, where each row contains 2 values - the number of rising edges for two ROs in a pair. Then we select the smaller value.
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cnt = cnt.reshape(TRNG_PAIR_CNT,2).min(axis=1) # Reshape of the count array into matrix, where each row contains 2 values - the number of rising edges for two ROs in a pair. Then we select the smaller value.
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cnt_sel = cnt & ?x???? # select only the two least significant bits
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#cnt_sel = cnt & ?x???? # select only the two least significant bits
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estimate = ''.join([np.binary_repr(x, width=2) for x in cnt_sel]) # binary representation of the values (the last 2 bits) and joining them into one string
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#estimate = ''.join([np.binary_repr(x, width=2) for x in cnt_sel]) # binary representation of the values (the last 2 bits) and joining them into one string
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print('{0:0>32x}'.format(int(estimate, 2)))
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print('{0:0>32x}'.format(int(estimate, 2)))
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print(trng_val) # from data_info, output of the RNG in FPGA
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print(trng_val) # from data_info, output of the RNG in FPGA
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