kevacoin/contrib/linearize/linearize-data.py

#!/usr/bin/env python3
#
# linearize-data.py: Construct a linear, no-fork version of the chain.
#
# Copyright (c) 2013-2016 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
#

from __future__ import print_function, division
try: # Python 3
    import http.client as httplib
except ImportError: # Python 2
    import httplib
import json
import struct
import re
import os
import os.path
import base64
import sys
import hashlib
import datetime
import time
from collections import namedtuple
from binascii import hexlify, unhexlify

settings = {}

##### Switch endian-ness #####
def hex_switchEndian(s):
	""" Switches the endianness of a hex string (in pairs of hex chars) """
	pairList = [s[i:i+2].encode() for i in range(0, len(s), 2)]
	return b''.join(pairList[::-1]).decode()

def uint32(x):
	return x & 0xffffffff

def bytereverse(x):
	return uint32(( ((x) << 24) | (((x) << 8) & 0x00ff0000) |
		       (((x) >> 8) & 0x0000ff00) | ((x) >> 24) ))

def bufreverse(in_buf):
	out_words = []
	for i in range(0, len(in_buf), 4):
		word = struct.unpack('@I', in_buf[i:i+4])[0]
		out_words.append(struct.pack('@I', bytereverse(word)))
	return b''.join(out_words)

def wordreverse(in_buf):
	out_words = []
	for i in range(0, len(in_buf), 4):
		out_words.append(in_buf[i:i+4])
	out_words.reverse()
	return b''.join(out_words)

def calc_hdr_hash(blk_hdr):
	hash1 = hashlib.sha256()
	hash1.update(blk_hdr)
	hash1_o = hash1.digest()

	hash2 = hashlib.sha256()
	hash2.update(hash1_o)
	hash2_o = hash2.digest()

	return hash2_o

def calc_hash_str(blk_hdr):
	hash = calc_hdr_hash(blk_hdr)
	hash = bufreverse(hash)
	hash = wordreverse(hash)
	hash_str = hexlify(hash).decode('utf-8')
	return hash_str

def get_blk_dt(blk_hdr):
	members = struct.unpack("<I", blk_hdr[68:68+4])
	nTime = members[0]
	dt = datetime.datetime.fromtimestamp(nTime)
	dt_ym = datetime.datetime(dt.year, dt.month, 1)
	return (dt_ym, nTime)

# When getting the list of block hashes, undo any byte reversals.
def get_block_hashes(settings):
	blkindex = []
	f = open(settings['hashlist'], "r")
	for line in f:
		line = line.rstrip()
		if settings['rev_hash_bytes'] == 'true':
			line = hex_switchEndian(line)
		blkindex.append(line)

	print("Read " + str(len(blkindex)) + " hashes")

	return blkindex

# The block map shouldn't give or receive byte-reversed hashes.
def mkblockmap(blkindex):
	blkmap = {}
	for height,hash in enumerate(blkindex):
		blkmap[hash] = height
	return blkmap

# Block header and extent on disk
BlockExtent = namedtuple('BlockExtent', ['fn', 'offset', 'inhdr', 'blkhdr', 'size'])

class BlockDataCopier:
	def __init__(self, settings, blkindex, blkmap):
		self.settings = settings
		self.blkindex = blkindex
		self.blkmap = blkmap

		self.inFn = 0
		self.inF = None
		self.outFn = 0
		self.outsz = 0
		self.outF = None
		self.outFname = None
		self.blkCountIn = 0
		self.blkCountOut = 0

		self.lastDate = datetime.datetime(2000, 1, 1)
		self.highTS = 1408893517 - 315360000
		self.timestampSplit = False
		self.fileOutput = True
		self.setFileTime = False
		self.maxOutSz = settings['max_out_sz']
		if 'output' in settings:
			self.fileOutput = False
		if settings['file_timestamp'] != 0:
			self.setFileTime = True
		if settings['split_timestamp'] != 0:
			self.timestampSplit = True
		# Extents and cache for out-of-order blocks
		self.blockExtents = {}
		self.outOfOrderData = {}
		self.outOfOrderSize = 0 # running total size for items in outOfOrderData

	def writeBlock(self, inhdr, blk_hdr, rawblock):
		blockSizeOnDisk = len(inhdr) + len(blk_hdr) + len(rawblock)
		if not self.fileOutput and ((self.outsz + blockSizeOnDisk) > self.maxOutSz):
			self.outF.close()
			if self.setFileTime:
				os.utime(outFname, (int(time.time()), highTS))
			self.outF = None
			self.outFname = None
			self.outFn = self.outFn + 1
			self.outsz = 0

		(blkDate, blkTS) = get_blk_dt(blk_hdr)
		if self.timestampSplit and (blkDate > self.lastDate):
			print("New month " + blkDate.strftime("%Y-%m") + " @ " + hash_str)
			lastDate = blkDate
			if outF:
				outF.close()
				if setFileTime:
					os.utime(outFname, (int(time.time()), highTS))
				self.outF = None
				self.outFname = None
				self.outFn = self.outFn + 1
				self.outsz = 0

		if not self.outF:
			if self.fileOutput:
				outFname = self.settings['output_file']
			else:
				outFname = os.path.join(self.settings['output'], "blk%05d.dat" % self.outFn)
			print("Output file " + outFname)
			self.outF = open(outFname, "wb")

		self.outF.write(inhdr)
		self.outF.write(blk_hdr)
		self.outF.write(rawblock)
		self.outsz = self.outsz + len(inhdr) + len(blk_hdr) + len(rawblock)

		self.blkCountOut = self.blkCountOut + 1
		if blkTS > self.highTS:
			self.highTS = blkTS

		if (self.blkCountOut % 1000) == 0:
			print('%i blocks scanned, %i blocks written (of %i, %.1f%% complete)' % 
					(self.blkCountIn, self.blkCountOut, len(self.blkindex), 100.0 * self.blkCountOut / len(self.blkindex)))

	def inFileName(self, fn):
		return os.path.join(self.settings['input'], "blk%05d.dat" % fn)

	def fetchBlock(self, extent):
		'''Fetch block contents from disk given extents'''
		with open(self.inFileName(extent.fn), "rb") as f:
			f.seek(extent.offset)
			return f.read(extent.size)

	def copyOneBlock(self):
		'''Find the next block to be written in the input, and copy it to the output.'''
		extent = self.blockExtents.pop(self.blkCountOut)
		if self.blkCountOut in self.outOfOrderData:
			# If the data is cached, use it from memory and remove from the cache
			rawblock = self.outOfOrderData.pop(self.blkCountOut)
			self.outOfOrderSize -= len(rawblock)
		else: # Otherwise look up data on disk
			rawblock = self.fetchBlock(extent)

		self.writeBlock(extent.inhdr, extent.blkhdr, rawblock)

	def run(self):
		while self.blkCountOut < len(self.blkindex):
			if not self.inF:
				fname = self.inFileName(self.inFn)
				print("Input file " + fname)
				try:
					self.inF = open(fname, "rb")
				except IOError:
					print("Premature end of block data")
					return

			inhdr = self.inF.read(8)
			if (not inhdr or (inhdr[0] == "\0")):
				self.inF.close()
				self.inF = None
				self.inFn = self.inFn + 1
				continue

			inMagic = inhdr[:4]
			if (inMagic != self.settings['netmagic']):
				print("Invalid magic: " + hexlify(inMagic).decode('utf-8'))
				return
			inLenLE = inhdr[4:]
			su = struct.unpack("<I", inLenLE)
			inLen = su[0] - 80 # length without header
			blk_hdr = self.inF.read(80)
			inExtent = BlockExtent(self.inFn, self.inF.tell(), inhdr, blk_hdr, inLen)

			hash_str = calc_hash_str(blk_hdr)
			if not hash_str in blkmap:
				print("Skipping unknown block " + hash_str)
				self.inF.seek(inLen, os.SEEK_CUR)
				continue

			blkHeight = self.blkmap[hash_str]
			self.blkCountIn += 1

			if self.blkCountOut == blkHeight:
				# If in-order block, just copy
				rawblock = self.inF.read(inLen)
				self.writeBlock(inhdr, blk_hdr, rawblock)

				# See if we can catch up to prior out-of-order blocks
				while self.blkCountOut in self.blockExtents:
					self.copyOneBlock()

			else: # If out-of-order, skip over block data for now
				self.blockExtents[blkHeight] = inExtent
				if self.outOfOrderSize < self.settings['out_of_order_cache_sz']:
					# If there is space in the cache, read the data
					# Reading the data in file sequence instead of seeking and fetching it later is preferred,
					# but we don't want to fill up memory
					self.outOfOrderData[blkHeight] = self.inF.read(inLen)
					self.outOfOrderSize += inLen
				else: # If no space in cache, seek forward
					self.inF.seek(inLen, os.SEEK_CUR)

		print("Done (%i blocks written)" % (self.blkCountOut))

if __name__ == '__main__':
	if len(sys.argv) != 2:
		print("Usage: linearize-data.py CONFIG-FILE")
		sys.exit(1)

	f = open(sys.argv[1])
	for line in f:
		# skip comment lines
		m = re.search('^\s*#', line)
		if m:
			continue

		# parse key=value lines
		m = re.search('^(\w+)\s*=\s*(\S.*)$', line)
		if m is None:
			continue
		settings[m.group(1)] = m.group(2)
	f.close()

	# Force hash byte format setting to be lowercase to make comparisons easier.
	# Also place upfront in case any settings need to know about it.
	if 'rev_hash_bytes' not in settings:
		settings['rev_hash_bytes'] = 'false'
	settings['rev_hash_bytes'] = settings['rev_hash_bytes'].lower()

	if 'netmagic' not in settings:
		settings['netmagic'] = 'f9beb4d9'
	if 'genesis' not in settings:
		settings['genesis'] = '000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f'
	if 'input' not in settings:
		settings['input'] = 'input'
	if 'hashlist' not in settings:
		settings['hashlist'] = 'hashlist.txt'
	if 'file_timestamp' not in settings:
		settings['file_timestamp'] = 0
	if 'split_timestamp' not in settings:
		settings['split_timestamp'] = 0
	if 'max_out_sz' not in settings:
		settings['max_out_sz'] = 1000 * 1000 * 1000
	if 'out_of_order_cache_sz' not in settings:
		settings['out_of_order_cache_sz'] = 100 * 1000 * 1000

	settings['max_out_sz'] = int(settings['max_out_sz'])
	settings['split_timestamp'] = int(settings['split_timestamp'])
	settings['file_timestamp'] = int(settings['file_timestamp'])
	settings['netmagic'] = unhexlify(settings['netmagic'].encode('utf-8'))
	settings['out_of_order_cache_sz'] = int(settings['out_of_order_cache_sz'])

	if 'output_file' not in settings and 'output' not in settings:
		print("Missing output file / directory")
		sys.exit(1)

	blkindex = get_block_hashes(settings)
	blkmap = mkblockmap(blkindex)

	# Block hash map won't be byte-reversed. Neither should the genesis hash.
	if not settings['genesis'] in blkmap:
		print("Genesis block not found in hashlist")
	else:
		BlockDataCopier(settings, blkindex, blkmap).run()