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278 lines
7.6 KiB
278 lines
7.6 KiB
# Harmony blockchain test plan
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We list the major testing area and the test cases.
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For each test case, it should have a description of the test case, expected behavior and passing criteria.
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## test case template
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### template
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* test case # :
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* description :
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* test procedure :
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* passing criteria
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* dependency
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* note
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* automated?
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---
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## functional test
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Functional test is used to validate the function of each component in the blockchain.
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It should cover the basic function to pass, to fail, and error conditions.
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### peer discovery
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* test case # : PD1
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* description : find peers using rendezvous string
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* test procedure : a new node connected to bootnode and call FindPeers function to return a list of peers using different rendezvous strings
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* passing criteria : new node can get a list of peers using the same rendezvous string
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* dependency
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* note
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* automated? N
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---
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* test case # : PD2
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* description : boot node recovery
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* test procedure : start a bootnode, start a few new node to connect to bootnode, restart the bootnode, start a few new node to discover peers
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* passing criteria : bootnode should be able to store previously connected peers
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* dependency
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* note
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* automated? N
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---
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* test case # : PD3
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* description : multiple boot nodes
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* test procedure : start 3-5 bootnode, start a few new node to connect to all the bootnodes for peer discovery
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* passing criteria : new node can get a list of peers using the same rendezvous string
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* dependency : redundant peers maybe returned and we should handle the reduanancy (or not)
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* note
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* automated? N
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---
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* test case # : PD4
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* description : number of peers supported in bootnode
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* test procedure : start a bootnode, connect up to 5000 new node using the same rendezvous string
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* passing criteria : each new node should get a list of peers, not sure how many though
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* dependency
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* note
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* automated? N
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---
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### state syncing
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* test case # : SS1
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* description : node state sync basic
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* test procedure : node joins network and is able to sync to latest block
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* passing criteria : blockheight of node is equal to that of the shards blockchain and node has joined consensus.
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* dependency
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* note
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* automated? N
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---
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* test case # : SS2
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* description : network connectivity issues
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* test procedure : node experiences network connectivity issues or is down and then regains connectivity
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* passing criteria : the node is able to sync back to current state of blockchain from the point where it dropped off
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* dependency
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* note
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* automated? N
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---
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* test case # : SS1
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* description : beacon chain node ss
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* test procedure : one new beacon node join in the beacon chain after beacon chain reach a few consensuses
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* passing criteria : the new node can join in the consensus after state syncing
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* dependency
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* note
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* automated? N
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---
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### consensus
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* test case # : CS1
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* description : beacon chain reach consensus
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* test procedure : start beacon chain with 50, 100, 150, 200, 250, 300 nodes, start txgen for 300 seconds, check leader log on number of consensuses
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* passing criteria
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* dependency
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* note
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* automated?
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---
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### drand
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* test case # : DR1
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* description : drand generate random number
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* test procedure : start beacon chain with 50, 150, 300 nodes, start txgen for 300 seconds, check leader log on the success of generating random number
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* passing criteria : random number genreated
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* dependency
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* note
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* automated?
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---
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* test case # : DR2
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* description :
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* test procedure :
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* passing criteria
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* dependency
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* note
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* automated?
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---
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### smartcontract
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* test case # : SC1
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* description : deploy ERC20 smart contract in 1 shard
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* test procedure : smart contract is deployed in a automated fashion e.g. erc20 (utility) token contract
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* passing criteria: ability to interact with smart contract e.g. transfer erc20 tokens from one address to another
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* dependency
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* note
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* automated?
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---
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* test case # : SC2
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* description : deploy ERC721 (non-fungible tokens) smart contract in 1 shard
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* test procedure : smart contract is deployed in a automated fashion e.g. smart contract like Cryptokitties
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* passing criteria: ability to succesfully transfer the non-fungible token from one address to another via transaction
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* dependency
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* note
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* automated?
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---
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### staking
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* test case # : SK1
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* description :
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* test procedure :
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* passing criteria
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* dependency
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* note
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* automated?
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---
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* test case # : SK2
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* description :
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* test procedure :
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* passing criteria
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* dependency
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* note
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* automated?
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---
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### resharding
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* test case # : RS1
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* description : reshard with 1 shard only
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* test procedure : start beacon chain with 50 nodes, wait for resharding after 5 blocks
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* passing criteria : a new leader should be selected
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* dependency
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* note
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* automated?
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---
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* test case # : RS2
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* description : reshard with 2 shards
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* test procedure : 0 new nodes join the network for the new epoch
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* passing criteria : a new leader should be selected
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* dependency
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* note
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* automated?
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* test case # : RS3
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* description : reshard with 2 shards with 250 nodes each
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* test procedure : 50 to 250 new nodes join the network for the new epoch
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* passing criteria : a new leader should be selected
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* dependency
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* note
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* automated?
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---
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### transaction
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* test case # : TX1
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* description : wallet send transaction to blockchain
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* test procedure : start beacon chain with 50 nodes, send one transaction from wallet
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* passing criteria : transaction is recorded in blockchain
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* dependency
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* note
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* automated?
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---
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### view change
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* test case # : VC1
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* description : change leader after resharding
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* test procedure : after resharding, new leader was selected and changed
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* passing criteria : consensus keeps going
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* dependency : resharding
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* note
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* automated?
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* test case # : VC2
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* description : change malicious leader
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* test procedure : started beacon chain with 50 nodes, leader started consensus and offline, after sometime, a new leader is selected
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* passing criteria : new leader keeps the consensus going
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* dependency : resharding
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* note
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* automated?
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---
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## stress test
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### protocol level stress
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* test case # : STP1
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* description :
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* test procedure : increase number of txns in block from 1000 to 10,000, stepwise
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* evaluation: change in block latency per shard/change in transactions per sec, per shard.
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* dependency
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* note
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* automated?
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---
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* test case # : STP2
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* description : increasing number of nodes in a shard
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* test procedure : increase number of nodes in a shard from 100 to 1000
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* evaluation: change in latency per shard/change in transactions per sec, per shard.
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* dependency
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* note
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* automated?
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---
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* test case # : STP3
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* description : epoch change with increasing number of nodes in shard
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* test procedure : initiate epoch change with increasing number of nodes in a shard from 100 to 1000
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* evaluation: latency in leader election
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* dependency
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* note
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* automated?
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---
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## epoch change stress
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* test case # : EC1
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* description : hight waiting nodes
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* test procedure : for 5 shards having 200 nodes each initiate epoch change with 10,000 nodes waiting
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* evaluation: latency in leader election/resharding
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* dependency
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* note
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* automated?
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---
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### networking level stress
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* test case # : NT1
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* description :
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* test procedure : start consensus with a peer-p2p network of 50 peers, increase it to 1000 peers, send 1 ping message every 100 ms.
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* evaluation: change in latency per shard/change in transactions per sec, per shard.
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* dependency
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* note
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* automated?
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---
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### transaction stress
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* test case # : STX1
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* description : txgen send transaction to shard
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* test procedure : started beacon chain with 50 nodes, start txgen to send 1,000, 10,000 tx to the shard
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* passing criteria
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* dependency
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* note
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* automated?
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---
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### long running stress
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### storage
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## security test
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### malicious node
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### DoS attack
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## stability test
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###
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