103 lines
3.1 KiB
Go
103 lines
3.1 KiB
Go
package kit
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import (
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"testing"
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"time"
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)
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// EnsembleMinimal creates and starts an Ensemble with a single full node and a single miner.
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// It does not interconnect nodes nor does it begin mining.
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//
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// This function supports passing both ensemble and node functional options.
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// Functional options are applied to all nodes.
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func EnsembleMinimal(t *testing.T, opts ...interface{}) (*TestFullNode, *TestMiner, *Ensemble) {
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opts = append(opts, WithAllSubsystems())
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eopts, nopts := siftOptions(t, opts)
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var (
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full TestFullNode
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miner TestMiner
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)
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ens := NewEnsemble(t, eopts...).FullNode(&full, nopts...).Miner(&miner, &full, nopts...).Start()
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return &full, &miner, ens
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}
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func EnsembleWithMinerAndMarketNodes(t *testing.T, opts ...interface{}) (*TestFullNode, *TestMiner, *TestMiner, *Ensemble) {
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eopts, nopts := siftOptions(t, opts)
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var (
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fullnode TestFullNode
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main, market TestMiner
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)
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mainNodeOpts := []NodeOpt{WithSubsystems(SSealing, SSectorStorage, SMining), DisableLibp2p()}
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mainNodeOpts = append(mainNodeOpts, nopts...)
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blockTime := 100 * time.Millisecond
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ens := NewEnsemble(t, eopts...).FullNode(&fullnode, nopts...).Miner(&main, &fullnode, mainNodeOpts...).Start()
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ens.BeginMining(blockTime)
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marketNodeOpts := []NodeOpt{OwnerAddr(fullnode.DefaultKey), MainMiner(&main), WithSubsystems(SMarkets)}
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marketNodeOpts = append(marketNodeOpts, nopts...)
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ens.Miner(&market, &fullnode, marketNodeOpts...).Start().Connect(market, fullnode)
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return &fullnode, &main, &market, ens
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}
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// EnsembleTwoOne creates and starts an Ensemble with two full nodes and one miner.
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// It does not interconnect nodes nor does it begin mining.
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//
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// This function supports passing both ensemble and node functional options.
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// Functional options are applied to all nodes.
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func EnsembleTwoOne(t *testing.T, opts ...interface{}) (*TestFullNode, *TestFullNode, *TestMiner, *Ensemble) {
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opts = append(opts, WithAllSubsystems())
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eopts, nopts := siftOptions(t, opts)
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var (
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one, two TestFullNode
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miner TestMiner
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)
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ens := NewEnsemble(t, eopts...).FullNode(&one, nopts...).FullNode(&two, nopts...).Miner(&miner, &one, nopts...).Start()
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return &one, &two, &miner, ens
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}
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// EnsembleOneTwo creates and starts an Ensemble with one full node and two miners.
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// It does not interconnect nodes nor does it begin mining.
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//
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// This function supports passing both ensemble and node functional options.
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// Functional options are applied to all nodes.
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func EnsembleOneTwo(t *testing.T, opts ...interface{}) (*TestFullNode, *TestMiner, *TestMiner, *Ensemble) {
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opts = append(opts, WithAllSubsystems())
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eopts, nopts := siftOptions(t, opts)
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var (
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full TestFullNode
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one, two TestMiner
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)
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ens := NewEnsemble(t, eopts...).
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FullNode(&full, nopts...).
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Miner(&one, &full, nopts...).
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Miner(&two, &full, nopts...).
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Start()
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return &full, &one, &two, ens
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}
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func siftOptions(t *testing.T, opts []interface{}) (eopts []EnsembleOpt, nopts []NodeOpt) {
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for _, v := range opts {
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switch o := v.(type) {
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case EnsembleOpt:
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eopts = append(eopts, o)
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case NodeOpt:
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nopts = append(nopts, o)
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default:
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t.Fatalf("invalid option type: %T", o)
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}
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}
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return eopts, nopts
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}
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