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VEP-5: Remove Explicit Snapshot Block Hash as Timestamps
In Section 6.2.2(Resource Quantification) of Vite White Paper Version 1.0, it mentions
Because snapshot chain is equivalent to a global clock, we can use it to quantify the resource usage of an account accurately. In each transaction, the Hash of a snapshot block is quoted, the height of the snapshot block is took as the timestamp of the transaction. Therefore, according to the difference between the two transaction timestamps, we can judge whether the interval between the two transactions is long enough.
Figure 1. explicit timestamps
In Figure 1, each transaction contains an explicit hash reference to snapshot block as transaction creation time. The main purpose of this timestamp is to calculate whether the resource consumption of an account exceeds quota.
In addition to "explicit" timestamp, there is another "implicit" timestamp in the system, which is the latest transaction hash for each account recorded in snapshot block, representing the "confirmation time" of a transaction.
The two types of timestamp cause two-way dependency between transactions and snapshot chain, as shown in Figure 2:
Figure 2. explicit timestamps and implicit timestamps
The red arrows indicate the references from transaction to snapshot block, representing explicit timestamps (the creation time of transaction)
The blue arrows indicate the references from snapshot block to transaction, representing implicit timestamps (the confirmation time of transaction) .
In structure, snapshot chain is actually a tree due to the possibility of fork.
The newer the snapshot block is, the more probably it could be rolled back. Both types of timestamps will be impacted when rollback occurs.
However, explicit timestamps will receive bigger impact, as explained below
Figure 3. explicit timestamps with snapshot chain forks
In Figure 3,
the right-side snapshot block #N is rolled back and replaced by another forked snapshot block(left side).
All transactions referring to this snapshot block must be rolled back as well, including the last transactions in account A and B.
This is because the hash value of snapshot block was involved in signing, as part of the transaction data.
The transactions have to be re-signed and re-sent by the original users since the previously referenced snapshot block is invalid.
However, re-signing transaction is very expensive and therefore should be avoided in practice.
An alternative strategy is to reference an older snapshot block, which means the "trunk" part of the snapshot chain. Unfortunately, this approach deviates from the purpose of explicit timestamp as transaction creation time and also is hard to tell which block is most appropriate.
A conclusion can be reached now that except the benefit, explicit timestamps have problem.
In contrast, implicit timestamps do not have this problem.
Figure 4. implicit timestamps with snapshot chain forks
Implicit timestamps are simply discarded along with the snapshot block during a rollback. In the example of Figure 4, the second transaction of account A and first transaction of account B will be re-marked as unconfirmed.
A forked snapshot block #N will produce a set of new implicit timestamps, but not necessarily the same as those in the original block.
Since implicit timestamp is reversed reference, transactions in DAG ledger do not have to change.
Therefore, it is not necessary for users to re-sign their transactions any more, making fork resolution simple.
So, using implicit timestamps, is it still possible to accurately measure the resource usage of each account and calculate quota consumption? The answer is yes.
As shown in Figure 2, if explicit timestamps are used as the original manner, in two consecutive time slots from snapshot #N-2 to snapshot #N, account A created 4 transactions, and account B created 2.
With implicit timestamps, in one time slot between snapshot #N-1 and snapshot #N, 2 transactions were confirmed for account A, and 1 transaction for account B.
In this way, according to the total amount of resources consumed by transactions confirmed in each account within fixed period, average resource consumption can still be accurately measured, thereby finding out whether a new transaction will exceed quota or not.
Indeed, since the creation and confirmation of transaction is asynchronous in Vite, as well as transaction propagation and account state calculation consumes time, a small calculation gap may be caused by using transaction confirmation time.
However, it is reasonable to reduce the gap by extending statistical cycle, in other words, calculating average resource consumption for a longer period of time.
In the system of Vite, as long as the calculation scheme of resource consumption for different accounts are kept the same, this quota model based on confirmation time is feasible.
Based on above discussion, this proposal suggests to remove all explicit timestamps from Vite's ledger and keep only implicit timestamps.
In this proposal, although the exact creation time of transaction is no longer saved on chain and as consequence losing some semantics depending on timestamp, in general the impact is very limited.
Particularly, quota model and related resource consumption calculation can still be implemented with implicit timestamp, aka "confirmation time".
This proposal can bring the following optimizations:
- Remove two-way dependency between DAG ledger and snapshot chain, so they can be constructed asynchronously
- Simplify rollback processing to increase system throughput
- No need to re-sign transaction after rollback, and therefore simplifying client processing logic
- Reduce the size of DAG ledger
RE: Questions regarding the upcoming Vite DEX
The design of Vite DEX is open and anyone can share the order pool through DEX API, but DEX API is not available in the first version.
We are working with existing stable coin issuers and USDO (https://usdo.com/) may be the first stable coin to be issued on Vite.