170 lines
6.2 KiB
Python
170 lines
6.2 KiB
Python
#!/bin/python3
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import random
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import collections
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import logging
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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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ID = 0
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amIproposer = 0
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shape = []
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format = {}
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logger = []
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def __init__(self, ID, amIproposer, logger, shape, rows, columns):
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self.shape = shape
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FORMAT = "%(levelname)s : %(entity)s : %(message)s"
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self.ID = ID
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self.format = {"entity": "Val "+str(self.ID)}
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self.block = Block(self.shape.blockSize)
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self.receivedBlock = Block(self.shape.blockSize)
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self.amIproposer = amIproposer
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self.logger = logger
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if self.shape.chi < 1:
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self.logger.error("Chi has to be greater than 0", extra=self.format)
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elif self.shape.chi > self.shape.blockSize:
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self.logger.error("Chi has to be smaller than %d" % blockSize, extra=self.format)
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else:
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if amIproposer:
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self.rowIDs = range(shape.blockSize)
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self.columnIDs = range(shape.blockSize)
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else:
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self.rowIDs = rows[(self.ID*self.shape.chi):(self.ID*self.shape.chi + self.shape.chi)]
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self.columnIDs = rows[(self.ID*self.shape.chi):(self.ID*self.shape.chi + self.shape.chi)]
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#if shape.deterministic:
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# random.seed(self.ID)
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#self.rowIDs = random.sample(range(self.shape.blockSize), self.shape.chi)
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#self.columnIDs = random.sample(range(self.shape.blockSize), self.shape.chi)
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self.rowNeighbors = collections.defaultdict(list)
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self.columnNeighbors = collections.defaultdict(list)
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def logIDs(self):
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if self.amIproposer == 1:
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self.logger.warning("I am a block proposer."% self.ID)
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else:
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self.logger.debug("Selected rows: "+str(self.rowIDs), extra=self.format)
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self.logger.debug("Selected columns: "+str(self.columnIDs), extra=self.format)
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def initBlock(self):
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self.logger.debug("I am a block proposer.", extra=self.format)
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self.block = Block(self.shape.blockSize)
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self.block.fill()
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#self.block.print()
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def broadcastBlock(self):
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if self.amIproposer == 0:
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self.logger.error("I am NOT a block proposer", extra=self.format)
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else:
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self.logger.debug("Broadcasting my block...", extra=self.format)
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order = [i for i in range(self.shape.blockSize * self.shape.blockSize)]
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random.shuffle(order)
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while(order):
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i = order.pop()
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if (random.randint(0,99) >= self.shape.failureRate):
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self.block.data[i] = 1
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else:
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self.block.data[i] = 0
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nbFailures = self.block.data.count(0)
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measuredFailureRate = nbFailures * 100 / (self.shape.blockSize * self.shape.blockSize)
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self.logger.debug("Number of failures: %d (%0.02f %%)", nbFailures, measuredFailureRate, extra=self.format)
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#broadcasted.print()
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for id in range(self.shape.blockSize):
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self.sendColumn(id)
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for id in range(self.shape.blockSize):
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self.sendRow(id)
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def getColumn(self, index):
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return self.block.getColumn(index)
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def getRow(self, index):
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return self.block.getRow(index)
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def receiveColumn(self, id, column):
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if id in self.columnIDs:
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self.receivedBlock.mergeColumn(id, column)
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else:
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pass
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def receiveRow(self, id, row):
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if id in self.rowIDs:
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self.receivedBlock.mergeRow(id, row)
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else:
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pass
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def receiveRowsColumns(self):
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if self.amIproposer == 1:
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self.logger.error("I am a block proposer", extra=self.format)
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else:
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self.logger.debug("Receiving the data...", extra=self.format)
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#self.logger.debug("%s -> %s", self.block.data, self.receivedBlock.data, extra=self.format)
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self.block.merge(self.receivedBlock)
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def sendColumn(self, columnID):
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line = self.getColumn(columnID)
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if line.any():
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self.logger.debug("col %d -> %s", columnID, self.columnNeighbors[columnID] , extra=self.format)
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for n in self.columnNeighbors[columnID]:
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n.receiveColumn(columnID, line)
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def sendRow(self, rowID):
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line = self.getRow(rowID)
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if line.any():
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self.logger.debug("row %d -> %s", rowID, self.rowNeighbors[rowID], extra=self.format)
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for n in self.rowNeighbors[rowID]:
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n.receiveRow(rowID, line)
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def sendRows(self):
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if self.amIproposer == 1:
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self.logger.error("I am a block proposer", extra=self.format)
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else:
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self.logger.debug("Sending restored rows...", extra=self.format)
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for r in self.rowIDs:
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self.sendRow(r)
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def sendColumns(self):
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if self.amIproposer == 1:
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self.logger.error("I am a block proposer", extra=self.format)
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else:
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self.logger.debug("Sending restored columns...", extra=self.format)
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for c in self.columnIDs:
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self.sendColumn(c)
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def logRows(self):
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if self.logger.isEnabledFor(logging.DEBUG):
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for id in self.rowIDs:
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self.logger.debug("Row %d: %s", id, self.getRow(id), extra=self.format)
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def logColumns(self):
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if self.logger.isEnabledFor(logging.DEBUG):
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for id in self.columnIDs:
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self.logger.debug("Column %d: %s", id, self.getColumn(id), extra=self.format)
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def restoreRows(self):
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for id in self.rowIDs:
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self.block.repairRow(id)
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def restoreColumns(self):
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for id in self.columnIDs:
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self.block.repairColumn(id)
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def checkStatus(self):
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arrived = 0
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expected = 0
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for id in self.columnIDs:
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line = self.getColumn(id)
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arrived += line.count(1)
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expected += len(line)
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for id in self.rowIDs:
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line = self.getRow(id)
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arrived += line.count(1)
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expected += len(line)
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self.logger.debug("status: %d / %d", arrived, expected, extra=self.format)
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return (arrived, expected)
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