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blockparser

Credits:
--------

    Written by [email protected]
    If you find this useful: 1ZnortsoStC1zSTXbW6CUtkvqew8czMMG

What:
-----

    A fairly fast, quick and dirty bitcoin whole blockchain parser.

Why:
----

    . Few dependencies: openssl-dev, boost

    . Very quickly extract information from the entire blockchain.

    . Code is simple and helps to understand how the data structure underlying bitcoin works.

Build it:
---------

    . Turn your x86-64 Ubuntu box on

    . Make sure you have an up to date satoshi client blockchain in ~/.bitcoin

    . Run this:

        sudo apt-get install libssl-dev build-essential g++-4.4 libboost-all-dev libsparsehash-dev git-core perl
        git clone git://github.com/znort987/blockparser.git
        cd blockparser
        make

Try it:
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    . Compute simple blockchain stats, full chain parse (< 1 second)

        ./parser simpleStats

    . Extract all transactions for popular address 1dice6wBxymYi3t94heUAG6MpG5eceLG1 (20 seconds)

        ./parser transactions 06f1b66fa14429389cbffa656966993eab656f37

    . Compute the closure of an address, that is the list of addresses that provably belong to the same person (20 seconds):

        ./parser closure 06f1b66fa14429389cbffa656966993eab656f37

    . Compute and print the balance for all keys ever used in a TX since the beginning of time (30 seconds):

        ./parser allBalances >allBalances.txt

    . See how much of the BTC 10K pizza tainted each of the TX in the chain

        ./parser taint >pizzaTaint.txt

    . See all the block rewards and fees:

        ./parser rewards >rewards.txt

    . See a greatly detailed dump of the pizza transaction

        ./parser show

Caveats:
--------

    . You need an x86-84 ubuntu box and a recent version of GCC(>=4.4), recent versions of boost
      and openssl-dev. The whole thing is very unlikely to work or even compile on anything else.

    . It needs quite a bit of RAM to work. Never exactly measured how much, but the hash maps will
      grow quite fat. I might switch them to something different that spills over to disk at some
      point. For now: it works fine with 8 Gigs.

    . The code isn't particularly clean or well architected. It was just a quick way for me to learn
      about bitcoin. There isnt much in the way of comments either.

    . OTOH, it is fairly simple, short, and efficient. If you want to understand how the blockchain
      data structure works, the code in parser.cpp is a solid way to start.

Hacking the code:
-----------------

    . parser.cpp contains a generic parser that mmaps the blockchain, parses it and calls
      "user-defined" callbacks as it hits interesting bits of information.

    . util.cpp contains a grab-bag of useful bitcoin related routines. Interesting examples include:

        showScript
        getBaseReward
        solveOutputScript
        decompressPublicKey

    . cb/allBalances.cpp    :   code to all balance of all addresses.
    . cb/closure.cpp        :   code to compute the transitive closure of an address
    . cb/dumpTX.cpp         :   code to display a transaction in very great detail
    . cb/help.cpp           :   code to dump detailed help for all other commands
    . cb/pristine.cpp       :   code to show all "pristine" (i.e. unspent) blocks
    . cb/rewards.cpp        :   code to show all block rewards (including fees)
    . cb/simpleStats.cpp    :   code to compute simple stats.
    . cb/sql.cpp            :   code to product an SQL dump of the blockchain
    . cb/taint.cpp          :   code to compute the taint from a given TX to all TXs.
    . cb/transactions.cpp   :   code to extract all transactions pertaining to an address.


    . You can very easily add your own custom command. You can use the existing callbacks in
      directory ./cb/ as a template to build your own:

            cp cb/allBalances.cpp cb/myExtractor.cpp
            Add to Makefile
            Hack away
            Recompile
            Run

    . You can also read the file callback.h (the base class from which you derive to implement your
      own new commands). It has been heavily commented and should provide a good basis to pick what
      to overload to achieve your goal.

    . The code makes heavy use of the google dense hash maps. You can switch it to use sparse hash
      maps (see util.h, search for: DENSE, undef it). Sparse hash maps are slower but save quite a
      bit of RAM.

License:
--------

    Code is in the public domain.