Leo
GitHub
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35084919e1
15
DAS/block.py
15
DAS/block.py
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@ -1,19 +1,26 @@
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#!/bin/python3
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import random
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from bitarray import bitarray
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from bitarray.util import zeros
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class Block:
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blockSize = 0
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data = []
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data = bitarray()
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def __init__(self, size):
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self.blockSize = size
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self.data = [0] * (self.blockSize*self.blockSize)
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self.data = zeros(self.blockSize*self.blockSize)
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def fill(self):
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for i in range(self.blockSize*self.blockSize):
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self.data[i] = random.randint(1, 9)
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self.data.setall(1)
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def getColumn(self, columnID):
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return self.data[columnID::self.blockSize]
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def getRow(self, rowID):
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return self.data[rowID*self.blockSize:(rowID+1)*self.blockSize]
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def print(self):
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dash = "-" * (self.blockSize+2)
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@ -64,12 +64,12 @@ class Simulator:
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for i in range(1,self.numberValidators):
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self.validators[i].receiveRowsColumns(self.glob.broadcasted)
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#Rows
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self.validators[i].checkRestoreRows(self.glob.goldenData)
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self.validators[i].restoreRows()
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self.validators[i].sendRows(self.glob.broadcasted)
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self.validators[i].logRows()
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self.validators[i].logColumns()
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# Columns
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self.validators[i].checkRestoreColumns(self.glob.goldenData)
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self.validators[i].restoreColumns()
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self.validators[i].sendColumns(self.glob.broadcasted)
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self.validators[i].logRows()
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self.validators[i].logColumns()
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@ -2,6 +2,8 @@
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import random
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from DAS.block import *
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from bitarray import bitarray
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from bitarray.util import zeros
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class Validator:
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@ -36,13 +38,8 @@ class Validator:
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self.columnIDs = []
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if deterministic:
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random.seed(self.ID)
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lr = [i for i in range(self.blockSize)]
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lc = [i for i in range(self.blockSize)]
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random.shuffle(lr)
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random.shuffle(lc)
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for i in range(self.chi): # TODO : Avoid doubles
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self.rowIDs.append(lr.pop())
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self.columnIDs.append(lc.pop())
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self.rowIDs = random.sample(range(self.blockSize), self.chi)
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self.columnIDs = random.sample(range(self.blockSize), self.chi)
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def logIDs(self):
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if self.proposer == 1:
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@ -72,15 +69,11 @@ class Validator:
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#broadcasted.print()
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def getColumn(self, columnID, broadcasted):
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column = [0] * self.blockSize
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for i in range(self.blockSize):
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column[i] = broadcasted.data[(i*self.blockSize)+columnID]
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column = broadcasted.getColumn(columnID)
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self.columns.append(column)
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def getRow(self, rowID, broadcasted):
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row = [0] * self.blockSize
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for i in range(self.blockSize):
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row[i] = broadcasted.data[(rowID*self.blockSize)+i]
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row = broadcasted.getRow(rowID)
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self.rows.append(row)
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def receiveRowsColumns(self, broadcasted):
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@ -96,15 +89,10 @@ class Validator:
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self.getColumn(c, broadcasted)
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def sendColumn(self, c, columnID, broadcasted):
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column = [0] * self.blockSize
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for i in range(self.blockSize):
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if broadcasted.data[(i*self.blockSize)+columnID] == 0:
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broadcasted.data[(i*self.blockSize)+columnID] = self.columns[c][i]
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broadcasted.data[columnID::self.blockSize] |= self.columns[c]
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def sendRow(self, r, rowID, broadcasted):
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for i in range(self.blockSize):
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if broadcasted.data[(rowID*self.blockSize)+i] == 0:
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broadcasted.data[(rowID*self.blockSize)+i] = self.rows[r][i]
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broadcasted.data[rowID*self.blockSize:(rowID+1)*self.blockSize] |= self.rows[r]
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def sendRows(self, broadcasted):
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if self.proposer == 1:
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@ -128,45 +116,24 @@ class Validator:
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def logColumns(self):
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self.logger.debug("Columns: "+str(self.columns), extra=self.format)
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def checkRestoreRows(self, goldenData):
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def restoreRows(self):
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for rid in range(len(self.rows)):
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row = self.rows[rid]
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failures = 0
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success = 0
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for i in row:
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if i == 0:
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failures += 1
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elif i > 0 and i < 10:
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success += 1
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else:
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self.logger.error("Data has been corrupted")
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success = row.count(1)
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if failures > 0:
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if success >= len(row)/2:
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for i in range(len(row)):
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self.rows[rid][i] = goldenData[(self.rowIDs[rid]*self.blockSize)+i]
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self.logger.debug("%d samples restored in row %d" % (failures, self.rowIDs[rid]), extra=self.format )
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self.rows[rid].setall(1)
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self.logger.debug("%d samples restored in row %d" % (len(row)-success, self.rowIDs[rid]), extra=self.format )
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else:
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self.logger.debug("Row %d cannot be restored" % (self.rowIDs[rid]), extra=self.format)
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def checkRestoreColumns(self, goldenData):
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def restoreColumns(self):
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for cid in range(len(self.columns)):
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column = self.columns[cid]
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failures = 0
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success = 0
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for i in column:
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if i == 0:
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failures += 1
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elif i > 0 and i < 10:
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success += 1
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else:
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self.logger.error("Data has been corrupted", extra=self.format)
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if failures > 0:
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success = column.count(1)
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if success >= len(column)/2:
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for i in range(len(column)):
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self.columns[cid][i] = goldenData[(i*self.blockSize)+self.columnIDs[cid]]
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self.logger.debug("%d samples restored in column %d" % (failures, self.columnIDs[cid]), extra=self.format)
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self.columns[cid].setall(1)
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self.logger.debug("%d samples restored in column %d" % (len(column)-success, self.columnIDs[cid]), extra=self.format)
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else:
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self.logger.debug("Column %d cannot be restored" % (self.columnIDs[cid]), extra=self.format)
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