Inter-blockchain Communication via Merkle Proofs with EOS.IO
Merkle trees are used to enable proofs of user actions to light weight clients. Light weight clients are the foundation of inter-blockchain communication where one blockchain acts as a light-client to another blockchain.
Every user action can be viewed as someone writing a check which gets processed by the bank (blockchain) and if accepted logged. Inter Blockchain communication is about generating proofs that a particular check was accepted and the order of its acceptance relative to other checks written by the same sender or receiver.
Chain A can receive messages from Chain B by following Chain B’s block headers and processing action proofs. Each action proof has one or more sequence numbers which Chain A uses to make sure there are no gaps in processing.
Where as other chains generate a merkle tree over state (account balances), EOS.IO generates a merkle tree over sequenced actions. A light client can derive the balance of a single account by processing all sequenced actions for that account without having to process the actions for other accounts.
In many cases it is not necessary to know the balance of an account, instead all the light client needs to do is verify payment. This can be verified with the proof of a single action.
Blockchains are built on top of deterministic state machines; therefore, inter blockchain communication is most effective when guarantees of completeness and order can be provided. The EOS.IO protocol creates a TCP like communication channel between chains. This means that missing or out of order proofs can be detected.
While you can generates proofs to guarantee no actions are skipped, it is not possible to prove that you have all actions up to the present moment. To prove completeness to the present moment one must generate a transaction, have it included, then generate a proof that the most recent transaction was confirmed with the proper sequence number.
Target Audience
This post is for those curious over the cryptographic design of EOS.IO inter-blockchain communication. With this information you can design and build light weight wallets or integrate with your own blockchain. This text was originally drafted for internal documentation, but we are providing it here for community review and inspection by the curious.
Canonical Trees and Proofs
All of the merkle calculations in EOS.IO share a few conventions that disambiguate entries in a proof without requiring additional space. Given two leaves with respective digests of Da and Db. Their shared parent node in a basic merkle tree would be the digest of the concatenation of Da and Db (Da|Db). However, unless the chosen digest calculation is commutative, Da|Db is not the same as Db|Da. This means that a proof, in the form of a “path” from a leaf to the root of a Merkle tree (sometimes referred to as a “log proof”) must indicate whether the entries in the “path” represent left or right concatenation.
To avoid this extra “path” data in the proof, EOS.IO applies a transform to the leaf digests before concatenating them for the new digest. This transform, indicates whether the digest is on the left or right side of the concatenation. The proof “path” then includes pre-transformed digests making the correct concatenation operation easy to infer.
More precisely, EOS.IO enforces that the first bit of the leaf digest is 0 for “left” digests and 1 for “right” digests. When reading a proof path entry (Dp) and applying it to a given digest (Dn) if the first bit of Dp is 0 then the resulting digest is hash(Dp|Dn) otherwise it is hash(Dn|Dp)
C_HASH(left,right)
LET canonical_left := CLEAR_FIRST_BIT(left),
LET canonical_right := SET_FIRST_BIT(right),
LET data := CONCATENATE(canonical_left,canonical_right),
HASH_FN(data);
(pseudocode for generating a hash form a left and right leaf)
In addition, should construction of a merkle tree require hashing a node with an unknown value, for example in a balanced tree of 3 nodes, the resulting digest is the concatenation of the digest with itself.
Root:
Dabcc
/ \
Dab Dcc <- Dc concatenates with itself
/ \ /
Da Db Dc
The Block Merkle
For any Block N, its header includes the root of a balanced merkle tree where the leaves are the block ids for all preceding blocks 0..N-1: the Block Root. This serves as a commitment to the contents of the blockchain, from genesis on, by each new block.
Given any block id for a block in the blockchain, and the headers a trusted irreversible block. It is possible to prove that the block is included in the blockchain. This proof takes ceil(log2(N)) digests for its path, where N is the number of blocks in the chain. Given a digest method of SHA256, you can prove the existence of any block in a chain which contains 100 million blocks in 864 bytes.
The Action Merkle
For any Block N, the headers include the root of a nearly-balanced merkle tree where the leaves are commitments to data generated while processing actions: the Action Root. This can be used to prove existence and, ordering of actions. Additionally, it can be used to prove completeness of transcripts of actions that affect a given scope.
The data committed to for each action, or Action Commitment, is:
receiver: the account name whose contract received the given action
scope: the scope where this action is defined
name: The name of the action (eg: ‘transfer’)
data: the binary encoded data payload delivered to the contract
data_access: an array of sequence numbers for scopes accessed during the processing of this action
This can be used to prove complete transcripts by providing actions and proofs for the sequence numbers between two given actions
Sequence numbers always increment on write operations and never on reads. There will be exactly one action with a write for a given (sequence, scope, receiver)
region_id: the region this action was processed in
cycle_index: the cycle this action was processed in
This can be used to prove ordering constraints
Shards inside a cycle can execute in parallel; there is no deterministic ordering between actions in the same cycle but different shards.
(Example Action Commitment)
{
receiver:inite,
scope:eosio,
name:transfer,
data:{
"from":"inite",
"to":"inita",
"amount":10000,
"memo":"memo"
},
data_access:[
{"type":"write","scope":"inite","sequence":1},
{"type":"write","scope":"inita","sequence":0}
],
region:0,
cycle:0
}
For each shard (a unit of parallelizable execution in a cycle) a balanced merkle tree is constructed of these action commitments to generate a temporary shared merkle root. This is done for speed of parallel computation. The block header contains the root of a balanced merkle tree whose leaves are the roots of these individual shard merkle trees. This means that the resulting merkle tree represented by the Action Root is not guaranteed to be a perfectly balanced merkle tree, however, it should be very close in most cases.
Given an action, somewhere in the blockchain, it is possible to succinctly prove the retirement of that action by first proving that it was committed to by a block’s Action Root, and then that the given block was committed to by a trusted irreversible block header’s Block Root. These two proofs are referred to as the “Action Path” and the “Block Path” respectively.
The Action Path consists of all the data (sibling digests from the merkle tree) necessary to recalculate the root of a merkle tree with respect to a single Action Commitment. That merkle tree’s root should exactly match the Action Root committed to by the header of the block that retired the action.
The Block Path consists of all the data necessary to recalculate the root of a merkle tree with respect to a single Block ID. That merkle tree’s root should exactly match the Block Root committed to by the header of a trusted irreversible block.
For example,
Given the action above, retired in a block with the ID:
00000033e4f902358b1d43918d197652fc01baaf0e6ca8ee38cda2e8780b7dbd
Whose Action Root was:
067ed979eeff38064f10bd77dcd3630ce104ae2685b5d6c2500552b0172e4c57
And trusted irreversible block whose Block Root is:
1ae092ea41e70982b56b9673f990346876ba535595df16dc1094740c144aaae6
That proof data looks like this:
Action Path:
9b75773cc9e2d8d186c408c3f5cdc55cde5b23addb6f25aa924bd3279bd0ca91
9cb66ff0d78991662c4784afac391a0e5f7104164daed36ba1fd4c6cc4907067
C65abe772ecb192105cd627bcb170eff8ec8f707a5d68d5c8060fee0236b4167
4cf39dfbe8a0fdc2540c8f0b68037484051a20d6ca00b891bbfc66d826503677
A8773db30f3733063352d1abec5fea265115bdf646a69d21545746a4f7cff3f3
Block Path:
8000003418a608c3704f80cdfed2793a055cc13993eea67ccdd018d9df027101
2351ee036c6a4052e18c9ded8d35c1b1dfb330531e163039847797d38e9babd2
De1996e5c23c73fa212abaaf423b9038e289fc7a19be5a7f395c7727a5266168
Ccd7c6e10b398fd27cfc4d29f339806593d614c736ae1af8a47908e44d2fe924
1e95b55e98d329bda8f2c79d1f969650716207a03f13f540931ab5a6a80f4d0b
369d86219b35e493a4fda3649c9f3a546809add40462c4b5ddca185f75cfe05c
9067c63043027831fbc7ba046d5bd7d9a0c23e1baa6fe0ac16a911ff7c3acd74
To verify this proof, first serialize the claimed Action Commitment to EOS.IO’s standard binary format. That results in the following binary representation (in hex):
000000000095dd740000000000ea3055000000572d3ccdcd1d000000000095dd74000000000093dd741027000000000000046d656d6f0000000000000000020100000000000000000000000095dd7401000000000000000100000000000000000000000093dd740000000000000000
EOS.IO currently uses SHA256 for its digest method(HASH_FN), so the leaf digest is the SHA256 of the above binary representation:
1b75773cc9e2d8d186c408c3f5cdc55cde5b23addb6f25aa924bd3279bd0ca91
Using that leaf digest, apply the Block Path, referring to the section on canonical paths and signatures to determine if an entry in the path requires left or right concatenation. After applying the complete path, the resulting root digest should be exactly equal to the Action Root in the header of the block that retired the action:
C_HASH(
1b75773cc9e2d8d186c408c3f5cdc55cde5b23addb6f25aa924bd3279bd0ca91,
9b75773cc9e2d8d186c408c3f5cdc55cde5b23addb6f25aa924bd3279bd0ca91)
=> 1cb66ff0d78991662c4784afac391a0e5f7104164daed36ba1fd4c6cc4907067
C_HASH(
1cb66ff0d78991662c4784afac391a0e5f7104164daed36ba1fd4c6cc4907067,
9cb66ff0d78991662c4784afac391a0e5f7104164daed36ba1fd4c6cc4907067)
=> 465abe772ecb192105cd627bcb170eff8ec8f707a5d68d5c8060fee0236b4167
C_HASH(
465abe772ecb192105cd627bcb170eff8ec8f707a5d68d5c8060fee0236b4167,
C65abe772ecb192105cd627bcb170eff8ec8f707a5d68d5c8060fee0236b4167)
=> dd205c37e3de758120f50060b052736ba903382904a445fae3a371cfb29820ab
C_HASH(
4cf39dfbe8a0fdc2540c8f0b68037484051a20d6ca00b891bbfc66d826503677,
dd205c37e3de758120f50060b052736ba903382904a445fae3a371cfb29820ab)
=> ecce9664089221e351aaedafd967a9e19e25ad03d82949b3953de53f8b3b1996
C_HASH(
ecce9664089221e351aaedafd967a9e19e25ad03d82949b3953de53f8b3b1996,
a8773db30f3733063352d1abec5fea265115bdf646a69d21545746a4f7cff3f3)
=> 067ed979eeff38064f10bd77dcd3630ce104ae2685b5d6c2500552b0172e4c57
Once we have verified that the block has a commitment retiring the action as described, we must also verify that the retiring block is included in the blockchain using the Block Path and the retiring block’s id. After applying the complete path, the resulting root digest should be exactly equal to the Block Root in the header of the trusted irreversible block:
C_HASH(
00000033e4f902358b1d43918d197652fc01baaf0e6ca8ee38cda2e8780b7dbd,
8000003418a608c3704f80cdfed2793a055cc13993eea67ccdd018d9df027101)
=> da16dd856cbb888545c0ed248f2acbbed57037cf407e258849d4600c8f074739
C_HASH(
2351ee036c6a4052e18c9ded8d35c1b1dfb330531e163039847797d38e9babd2,
da16dd856cbb888545c0ed248f2acbbed57037cf407e258849d4600c8f074739)
=> da1a4326c7d83cc86f1154e76000ae94a7579833e75d9378972c6f034e044c11
C_HASH(
da1a4326c7d83cc86f1154e76000ae94a7579833e75d9378972c6f034e044c11,
de1996e5c23c73fa212abaaf423b9038e289fc7a19be5a7f395c7727a5266168)
=> d2d0abf4e6d8b771f8de27413ce7c9ca9e443c89fd10c4d42cb37bcc47cb3598
C_HASH(
d2d0abf4e6d8b771f8de27413ce7c9ca9e443c89fd10c4d42cb37bcc47cb3598,
ccd7c6e10b398fd27cfc4d29f339806593d614c736ae1af8a47908e44d2fe924)
=> c36045ffee9c98eb419077aa356d65fb6a928914c40ec88aadcf634781e56c23
C_HASH(
1e95b55e98d329bda8f2c79d1f969650716207a03f13f540931ab5a6a80f4d0b,
c36045ffee9c98eb419077aa356d65fb6a928914c40ec88aadcf634781e56c23)
=> 4432bce7431f676ed704f2d3367cb33407898b70f51fea2dfa014b97ac37a97b
C_HASH(
369d86219b35e493a4fda3649c9f3a546809add40462c4b5ddca185f75cfe05c,
4432bce7431f676ed704f2d3367cb33407898b70f51fea2dfa014b97ac37a97b)
=> 94f5ba720b886515ada9c0f73ab393dffc43beaeac7be6f7f86bce808834dfde
C_HASH(
94f5ba720b886515ada9c0f73ab393dffc43beaeac7be6f7f86bce808834dfde,
9067c63043027831fbc7ba046d5bd7d9a0c23e1baa6fe0ac16a911ff7c3acd74)
=> 1ae092ea41e70982b56b9673f990346876ba535595df16dc1094740c144aaae6
Thanks
I would like to thank Bart W. for his help in writing this post and implementing this protocol in the eos-noon branch of our github repository.
Disclaimer
block.one is a software company and is producing the EOS.IO software as free, open source software. This software may enable those who deploy it to launch a blockchain or decentralized applications with the features described above. block.one will not be launching a public blockchain based on the EOS.IO software. It will be the sole responsibility of third parties and the community and those who wish to become block producers to implement the features and/or provide the services described above as they see fit. block.one does not guarantee that anyone will implement such features or provide such services or that the EOS.IO software will be adopted and deployed in any way.
All statements in this document, other than statements of historical facts, including any statements regarding block.one’s business strategy, plans, prospects, developments and objectives are forward looking statements. These statements are only predictions and reflect block.one’s current beliefs and expectations with respect to future events and are based on assumptions and are subject to risk, uncertainties and change at any time. We operate in a rapidly changing environment. New risks emerge from time to time. Given these risks and uncertainties, you are cautioned not to rely on these forward-looking statements. Actual results, performance or events may differ materially from those contained in the forward-looking statements. Some of the factors that could cause actual results, performance or events to differ materially from the forward-looking statements contained herein include, without limitation: market volatility; continued availability of capital, financing and personnel; product acceptance; the commercial success of any new products or technologies; competition; government regulation and laws; and general economic, market or business conditions. Any forward-looking statement made by block.one speaks only as of the date on which it is made and block.one is under no obligation to, and expressly disclaims any obligation to, update or alter its forward-looking statements, whether as a result of new information, subsequent events or otherwise.
@dan thanks for explaining in details how EOS protocol works. I am a fan of EOS, i even plan to buy more with my steemit earning as soon as i earn more. I believe in EOS that it will do amazing things. Though the post is technical, but i still understand few things through this post. Thanks
Dan, I will never understand everything you talk about as you know but I believe in you.
I also named the Dan Larimer Effect as I started calling it --- today in this article about you and the EOS project, thinking only you can rescue Ethereum with the CryptoKitties mess it is causing!!
https://steemit.com/bitshares/@barrydutton/will-blockchain-guru-dan-larimer-be-called-in-to-save-ethereum-as-crypto-kitties-grinds-eth-chain-to-a-halt-the-irony
Loving EOS right now :)
Me too. I don't know a ton about crypto currency yet but invested in EOS and I hit big 😉
@dan it is amazing all you are doing with the big 3 (eos, bitshares and steem). As @stan wrote, big funds will continue flowing from FIAT to Bitcoin first, and when Bitcoin makes processing slow and transactions are pending for a long time, people will realize the blockchains that are capable of delivering are the big 3, and all bitcoin funds will flow to bitshares, eos and steem. Incredible, but the dream is coming, everyday closer. This 3 blockchains can do everything that is needed. It is great you are communicating a lot on EOS and Bitshares gets lots of communication here too. This helps everyone know the progress and the features and benefits this blockchains will receive. You are the visionary of the this new disrupted era. @gold84
@gold84 You just laid it all out about how I feel about @dan and his Vision of EOS. You and I know that logic will bring the masses to EOS, Bitshares and Steem. It is So Good to be here so Early on....................
@stokjockey glad we are on the same page about @dan and this 3 amazing blockchains. For some reason we came here early, and know each of us have the chance to contribute and collaborate with what we are able to. upvoted your comment! @gold84
Wow, @dan, what an incredible sharing you just posted for us to learn from and marvel at too! A big high hat tip to Bart W. for his work on this post too.
Thanks a lot for your unwavering dedication, you are empowering the world and us all first.
All for one and one for all! Namaste :)
That's a great Comments @eric-boucher
It looks like you are quite the inquirer. Very amusing
@inquiringtimes
Is it possible that someone could hack into my page and steal my SBD? I got a message from someone and they said @null is stealing SBD. Anyway, this is way beyond my understanding of how this all works. I think it would be worth taking a look at. I promoted my post because I had been gone from Steemit for about a month and needed a little post boost. I think because I promoted the post it went into @null account. Can you check it out? Anyway, wishing you a beautiful and blessed day. I am back online.
When you "promote" a post, the sbd goes to null, which means it's "detroyed" and you get a spot on the promoted page :)
@inquiringtimes
Thanks for the insight I really do appreciate it. Wonderful. Hope everything is going well in your cyber world. :)
@theprettysoul
Very interesting description of Merkle trees in connection with blockchain technology. Never read this before.
THx again... Ohh can't wait for 2018 and the time eos will be the number 2 coin... I only have 100 but I will keep them for such a long time.... I hope these can help me make some dreams come true
Where is the best place to buy EOS? Do you recommend a certain Wallet ?
eos.io all you need is chrome and metamask
I understood about a tenth of that and it was still fascinating to read.
Shards sound especially interesting. If I understand correctly (it's unlikely) each shard represents a unit of information processed by a node in parallel?