Git's internal data structure is a tree of data objects, wherein each objects only points to its predecessor. Each data block is hashed. Modifying (bit error or attack) an intermediate block will be noticed when the saved hash and the actual hash deviate.

How is this concept different from block chain?
Git is not listed as an example of block chains, but at least in summaries, both data structure descriptions look alike: data block, single direction reverse linking, hashes, ...).

So where is the difference, that Git isn't called a block chain?

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    Git is not listed as an example of block chains When I first tried to learn what a blockchain was, I was referred to git as the most prominent example (I don't have the exact link now, but it was from the top of the list returned by Google search for "blockchain") – Leon Sep 13 '17 at 8:58
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    Both Git and blockchain are using merkle trees as their fundamental underlying data structure. But that alone does not make Git a blockchain, or the other way around. – If you do know Git (and its internals), you do know merkle trees though, which can be a very helpful revelation to understand how blockchains work. – poke Sep 13 '17 at 10:06
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    Dear close voters, can you explain your reasons? I see 2 likes, good comments and an answer. Why is it opinion based? It's about data structures and algorithms, which seam to not qualify Git as a block chain. – Paebbels Sep 13 '17 at 10:09
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    It's your opinion that "it is NOT considered..." bitcoin.stackexchange.com/a/43627/77469 – v.oddou Feb 22 '18 at 8:37
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    @v.oddou Merkle trees exist since 1979. Just because two technologies are using Merkle trees prominently as part of their concept, that does not make them the same. It is incorrect to reduce either Git or block chains to just merkle trees as neither of them are merkle trees. They only use them. That makes the linked post completely irrelevant since it is actually talking about merkle trees, and not block chains. – poke Feb 22 '18 at 9:26

git is not an example of blockchain technology for several reasons (these were the first that came to mind):

  1. In a blockchain implementation, every block is verified independently multiple times before it is added to the blockchain. This is indeed one of the most important things about blockchain technology and is what ensures its "unhackability." On the other hand, many git projects do not require independent verification and, when they do, they only require one person to sign off on a change before it is committed to the repository. Hence, with at most one point of validation that you must trust, git breaks one of the core tenets of blockchain technology.

  2. A git repository is not necessarily duplicated on many servers. You can work from a git repository locally and if your local disk were corrupted, you would lose everything. Blockchain technology implies the reproduction of the ledger across servers.

  3. You can rewrite git history. A git push <remote> <branch> --force where <branch> is set to a previous state than that at <remote> would rewrite the history. In blockchains, the ledger is an immutable history.

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    "In blockchains, the ledger is an immutable history." - So is the git history. When "rewriting history", you start from a point in the past and add new commits. The same is possible with block chains and in fact, it happens every time a fork occurs, even if it is later abandoned. – Holger Just Sep 13 '17 at 10:06
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    As far as I understand block chains vs. Git, you can also rewrite block chains, unless you solve the hash collision problem. And for Git, yes you can rewrite, but all remotes still have the original history. Rewriting history creates new hashes and a different tree. If block chain doesn't over such an operation, that's not a valid argument, because I could implement it if I want to. Or in reverse I can reject forced pushes by setting a branch as protected. – Paebbels Sep 13 '17 at 10:08
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    @HolgerJust the git history is mutable. In doing a push --force on a single branch you are losing references to commits that are cleaned up by the garbage collector. This is different than a fork which is not a rewriting of history but rather an alternative development path. – houtanb Sep 13 '17 at 11:08
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    Can we summarize, that Git could be operated in a block chain mode by applying a special workflow and forbidding several operations? – Paebbels Sep 13 '17 at 13:09
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    @Paebbels yes, I would agree with that. By default and in regular use it isn't, but with a special workflow it would be. – houtanb Sep 13 '17 at 13:14

The reason why Git and blockchains appear similar is because they are both using merkle trees as their underlying data structure. A merkle tree is a tree where each node is labeled with the cryptographic hash value of their contents, which includes the labels of its children.

Git’s directed acyclic graph is exactly that, a merkle tree where each node (tag, commit, tree, or blob object) is labeled with the hash of its content and the label of its “child”. Note that for commits, the “child” term conflicts a bit with Git’s understanding of parents: Parent commits are the children of commits, you just need to look at the graph as a tree that keeps growing by re-rooting it.

Blockchains are very similar to this, since they also keep growing that way, and they are also using its merkle tree property to ensure data integrity. But usually, blockchains are understood as way more than just merkle trees which is where they are separating from the “stupid content tracker” Git. For example, blockchains usually also means having a highly decentralized system on a block level (not all blocks need to be in the same place).

Understanding blockchains is kind of difficult (personally, I’m still far away from understanding everything about it), but I consider understanding Git internals as a good way to understand merkle trees which definitely helps understanding a fundamental part about blockchains.

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    I'm sorry but nowhere blockchains bring anything more than git does. blockchains are exactly as stupid as git. If you don't believe so, you are overhyped. The peer network and the consensus systems are a separate thing. – v.oddou Feb 22 '18 at 8:23
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    private ledgers (blockchains) are conceptually identical to git – Munhitsu Mar 29 '18 at 11:09

Cyber Currencies like Bitcoin, use a distributed consensuses cryptographic chain of blocks (merkle tree). Common usage has shortened this to 'blockchain'

While git uses a chain of blocks (merkle tree), it lacks the distributed consensuses cryptographic components that common usage of the term 'BlockChain' imply.

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Blockchain is not just any chain of any blocks.

Blockchain is when there is a way of determining the main chain when two or more are diverted, and when no central authority is needed for that determination.

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Unlike cryptocurrency blockchains; git doesn't have a p2p trustless consensus mechanism.

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  • Why do you consider a trustless consensus system as part of a block chain? There are many ways to create trust in a block chain, for git it is just that you know that everything in your local copy cannot be removed by the next pull and you specifiy that you want the changes in the remote copy. You only need trustless consensus when it would otherwise be unclear what's right. In git multiple branches can be "right" and get eventuell merged together. – allo May 18 '18 at 14:45
  • @allo GitHub is typically used as the central source of truth but what's stopping an admin from force pushing and overriding history? If there was no GitHub and you pulled from your peers then how do you handle merge conflicts? How do you determine whose right? – Miguel Mota May 18 '18 at 17:02
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    Nothing stops you from force pushing. But like a blockchain guarantees me, I can detect it because my chain cannot verify these commits as being based on it. That's the point with a blockchain, not the decentral consent. And in git I explicitely do not want to have a consent protocol for what I merge (development is not a democracy), but I actually read the new commits when merging them into my chain. So my copy is right, because it consists of stuff I already have and thus can verify (i.e. by seeing merge conflicts) and stuff I review and then accept into it. – allo May 19 '18 at 18:08
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    @allo you're correct in that regard, however I stated in the answer "cryptocurrency blockchains", not blockchains in general, but I now that I think about it my answer doesn't really seem to fit the question being asked because I was thinking about the system as a whole rather than the underlying data structures – Miguel Mota May 24 '18 at 22:25
  • You're completely right about the difference of the block chains used in git and cryptocurrencies. It is just not an answer to the question why (or if) git is not considered a block chain, when using the term rigorouly. Even the currently accepted answer is similar to your answer. I still prefer the answer which got the bounty. – allo May 25 '18 at 10:26

The Goals are different for blockchain and git although both use merkle trees as data structure.

A blockchain is typically managed by a peer-to-peer network adhering to a protocol for inter-node communication and validating new blocks. Once recorded, the data in any given block cannot be altered retroactively without alteration of all subsequent blocks, which requires consensus of the network majority.

As According to Bitcoin whitepaper :

A purely peer-to-peer version of electronic cash would allow online payments to be sent directly from one party to another without going through a financial institution. Digital signatures provide part of the solution, but the main benefits are lost if a trusted third party is still required to prevent double-spending. We propose a solution to the double-spending problem using a peer-to-peer network. The network timestamps transactions by hashing them into an ongoing chain of hash-based proof-of-work, forming a record that cannot be changed without redoing the proof-of-work. The longest chain not only serves as proof of the sequence of events witnessed, but proof that it came from the largest pool of CPU power. As long as a majority of CPU power is controlled by nodes that are not cooperating to attack the network, they'll generate the longest chain and outpace attackers. The network itself requires minimal structure. Messages are broadcast on a best effort basis, and nodes can leave and rejoin the network at will, accepting the longest proof-of-work chain as proof of what happened while they were gone

While Git is a distributed version-control system for tracking changes in source code during software development.It is designed for coordinating work among programmers, but it can be used to track changes in any set of files. Its goals include speed, data integrity, and support for distributed, non-linear workflows.

As according to Linus Torvalds:

In many ways you can just see git as a filesystem – it's content-addressable, and it has a notion of versioning, but I really designed it coming at the problem from the viewpoint of a filesystem person (hey, kernels is what I do), and I actually have absolutely zero interest in creating a traditional SCM system.

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Block chain is Distributed ledger

  • Block chain allows autonomous clients to perform transactions.

  • Block chain provides a fool-proof method of validating any transaction between any pair of peers.

  • Block chain does not allow the participating member to have its own version of truth.

  • Truth is immutable (unchangeable) and can be validated independently by every participating member in the block chain system.

Git is Centralized data repository

  • Git allows contributions to central repository from autonomous clients.

  • Git provides freedom to each client to maintain its own version of truth.

  • Git does not provide any trust model for transactions between clients.

  • Git does not provide a method to verify or validate any transaction.

  • Git does not provide a means for one client to validate the authenticity of transaction performed by another client.

  • Git allows the server in the GIT system to maintain a history of changes to truth. Changes to truth can be rolled back, but never be validated and the client that changed the truth can never be challenged.

Therefore, it can be proved that Git is not an example of 'block chain'.

More information on block chain:




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As poke said:

Git and Blockchains appear similar because they are both using Merkle Trees to store ordered timestamped transactions. A merkle tree is a tree data structure where each node is labeled with the cryptographic hash value of their contents, which includes the labels of its children.

The first difference is the Hash function: Blockchain has a very expensive hash function so that each block has to be mined, wheras a Git "block" can be created with a simple commit message.

The purpose of Bitcoin is to add trust to the order of transactions. The focus is on the longest chain, since that is most expensive to compute and thus most likely to be the truth.

Bitcoin accomplishes this by requiring that the hash meets certain parameters (begins with a specific number of 0s), by incrementing a value ("nonce") in the message until a satisfactory hash is found. This takes effort to find, but only 1 calculation to verify for a nonce; and if multiple nonces produce a satisfactory hash, then one will be lower and taken as the truth. Other authentication schemes make the hash trustworthy by centralizing the issuing of the hash to an authority, perhaps voted by network agreement, or some other method.

Blockchain data is limited to transactions, which must must conform to validation. Transaction must be valid to be included in the next block. A Bitcoin transaction corresponds to something important in the real world that justifies using an expensive block to record this transfer, like exchange of money value. We don't actually care about the final ledger, it's a metaphor for something in the real world.

By contrast, Git blocks are arbitrary, as a commit can contain any amount of data. The value lies in the changes of data being organized into the git tree because we care about the final product, it's validated by the existence of the git repository.

The purpose of Git is to allow cheap "ledgers" to track multiple product alternatives. The "ledger" in Git is what we care about, it's our final product; the transactions data just record how the product was built. We want to make it very cheap to make multiple versions of final products, just enough overhead to require the creator to record how they built this product. No explicit validation is done on the data, you maintain the end-product if it looks good, and that existence makes it useful to have the chain of this product's creation. If the end-product is bad or the order of commits is invalid, this "ledger" gets deleted during garbage collection.

The second difference is that Blockchain transactions must come from a prior valid source. In Git, we don't care what data you use to extend the tree. In Blockchain, the transactions must come from a prior valid source. In that sense, Git tracks the extension of our environment, whereas Blockchain tracks the exchange of value within a closed environment.

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