package rfwp import ( "bufio" "fmt" "os" "sort" "sync" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/go-state-types/big" "github.com/filecoin-project/lotus/testplans/lotus-soup/testkit" ) type ChainState struct { sync.Mutex PrevHeight abi.ChainEpoch DiffHeight map[string]map[string]map[abi.ChainEpoch]big.Int // height -> value DiffValue map[string]map[string]map[string][]abi.ChainEpoch // value -> []height DiffCmp map[string]map[string]map[string][]abi.ChainEpoch // difference (height, height-1) -> []height valueTypes []string } func NewChainState() *ChainState { cs := &ChainState{} cs.PrevHeight = abi.ChainEpoch(-1) cs.DiffHeight = make(map[string]map[string]map[abi.ChainEpoch]big.Int) // height -> value cs.DiffValue = make(map[string]map[string]map[string][]abi.ChainEpoch) // value -> []height cs.DiffCmp = make(map[string]map[string]map[string][]abi.ChainEpoch) // difference (height, height-1) -> []height cs.valueTypes = []string{"MinerPower", "CommittedBytes", "ProvingBytes", "Balance", "PreCommitDeposits", "LockedFunds", "AvailableFunds", "WorkerBalance", "MarketEscrow", "MarketLocked", "Faults", "ProvenSectors", "Recoveries"} return cs } var ( cs *ChainState ) func init() { cs = NewChainState() } func printDiff(t *testkit.TestEnvironment, mi *MinerInfo, height abi.ChainEpoch) { maddr := mi.MinerAddr.String() filename := fmt.Sprintf("%s%cdiff-%s-%d", t.TestOutputsPath, os.PathSeparator, maddr, height) f, err := os.Create(filename) if err != nil { panic(err) } defer f.Close() w := bufio.NewWriter(f) defer w.Flush() keys := make([]string, 0, len(cs.DiffCmp[maddr])) for k := range cs.DiffCmp[maddr] { keys = append(keys, k) } sort.Strings(keys) fmt.Fprintln(w, "=====", maddr, "=====") for i, valueName := range keys { fmt.Fprintln(w, toCharStr(i), "=====", valueName, "=====") if len(cs.DiffCmp[maddr][valueName]) > 0 { fmt.Fprintf(w, "%s diff of |\n", toCharStr(i)) } for difference, heights := range cs.DiffCmp[maddr][valueName] { fmt.Fprintf(w, "%s diff of %30v at heights %v\n", toCharStr(i), difference, heights) } } } func recordDiff(mi *MinerInfo, ps *ProvingInfoState, height abi.ChainEpoch) { maddr := mi.MinerAddr.String() if _, ok := cs.DiffHeight[maddr]; !ok { cs.DiffHeight[maddr] = make(map[string]map[abi.ChainEpoch]big.Int) cs.DiffValue[maddr] = make(map[string]map[string][]abi.ChainEpoch) cs.DiffCmp[maddr] = make(map[string]map[string][]abi.ChainEpoch) for _, v := range cs.valueTypes { cs.DiffHeight[maddr][v] = make(map[abi.ChainEpoch]big.Int) cs.DiffValue[maddr][v] = make(map[string][]abi.ChainEpoch) cs.DiffCmp[maddr][v] = make(map[string][]abi.ChainEpoch) } } { value := big.Int(mi.MinerPower.MinerPower.RawBytePower) cs.DiffHeight[maddr]["MinerPower"][height] = value cs.DiffValue[maddr]["MinerPower"][value.String()] = append(cs.DiffValue[maddr]["MinerPower"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["MinerPower"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["MinerPower"][cmp.String()] = append(cs.DiffCmp[maddr]["MinerPower"][cmp.String()], height) } } } { value := big.Int(mi.CommittedBytes) cs.DiffHeight[maddr]["CommittedBytes"][height] = value cs.DiffValue[maddr]["CommittedBytes"][value.String()] = append(cs.DiffValue[maddr]["CommittedBytes"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["CommittedBytes"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["CommittedBytes"][cmp.String()] = append(cs.DiffCmp[maddr]["CommittedBytes"][cmp.String()], height) } } } { value := big.Int(mi.ProvingBytes) cs.DiffHeight[maddr]["ProvingBytes"][height] = value cs.DiffValue[maddr]["ProvingBytes"][value.String()] = append(cs.DiffValue[maddr]["ProvingBytes"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["ProvingBytes"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["ProvingBytes"][cmp.String()] = append(cs.DiffCmp[maddr]["ProvingBytes"][cmp.String()], height) } } } { value := big.Int(mi.Balance) roundBalance(&value) cs.DiffHeight[maddr]["Balance"][height] = value cs.DiffValue[maddr]["Balance"][value.String()] = append(cs.DiffValue[maddr]["Balance"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["Balance"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["Balance"][cmp.String()] = append(cs.DiffCmp[maddr]["Balance"][cmp.String()], height) } } } { value := big.Int(mi.PreCommitDeposits) cs.DiffHeight[maddr]["PreCommitDeposits"][height] = value cs.DiffValue[maddr]["PreCommitDeposits"][value.String()] = append(cs.DiffValue[maddr]["PreCommitDeposits"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["PreCommitDeposits"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["PreCommitDeposits"][cmp.String()] = append(cs.DiffCmp[maddr]["PreCommitDeposits"][cmp.String()], height) } } } { value := big.Int(mi.LockedFunds) roundBalance(&value) cs.DiffHeight[maddr]["LockedFunds"][height] = value cs.DiffValue[maddr]["LockedFunds"][value.String()] = append(cs.DiffValue[maddr]["LockedFunds"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["LockedFunds"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["LockedFunds"][cmp.String()] = append(cs.DiffCmp[maddr]["LockedFunds"][cmp.String()], height) } } } { value := big.Int(mi.AvailableFunds) roundBalance(&value) cs.DiffHeight[maddr]["AvailableFunds"][height] = value cs.DiffValue[maddr]["AvailableFunds"][value.String()] = append(cs.DiffValue[maddr]["AvailableFunds"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["AvailableFunds"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["AvailableFunds"][cmp.String()] = append(cs.DiffCmp[maddr]["AvailableFunds"][cmp.String()], height) } } } { value := big.Int(mi.WorkerBalance) cs.DiffHeight[maddr]["WorkerBalance"][height] = value cs.DiffValue[maddr]["WorkerBalance"][value.String()] = append(cs.DiffValue[maddr]["WorkerBalance"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["WorkerBalance"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["WorkerBalance"][cmp.String()] = append(cs.DiffCmp[maddr]["WorkerBalance"][cmp.String()], height) } } } { value := big.Int(mi.MarketEscrow) cs.DiffHeight[maddr]["MarketEscrow"][height] = value cs.DiffValue[maddr]["MarketEscrow"][value.String()] = append(cs.DiffValue[maddr]["MarketEscrow"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["MarketEscrow"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["MarketEscrow"][cmp.String()] = append(cs.DiffCmp[maddr]["MarketEscrow"][cmp.String()], height) } } } { value := big.Int(mi.MarketLocked) cs.DiffHeight[maddr]["MarketLocked"][height] = value cs.DiffValue[maddr]["MarketLocked"][value.String()] = append(cs.DiffValue[maddr]["MarketLocked"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["MarketLocked"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["MarketLocked"][cmp.String()] = append(cs.DiffCmp[maddr]["MarketLocked"][cmp.String()], height) } } } { value := big.NewInt(int64(ps.Faults)) cs.DiffHeight[maddr]["Faults"][height] = value cs.DiffValue[maddr]["Faults"][value.String()] = append(cs.DiffValue[maddr]["Faults"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["Faults"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["Faults"][cmp.String()] = append(cs.DiffCmp[maddr]["Faults"][cmp.String()], height) } } } { value := big.NewInt(int64(ps.ProvenSectors)) cs.DiffHeight[maddr]["ProvenSectors"][height] = value cs.DiffValue[maddr]["ProvenSectors"][value.String()] = append(cs.DiffValue[maddr]["ProvenSectors"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["ProvenSectors"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["ProvenSectors"][cmp.String()] = append(cs.DiffCmp[maddr]["ProvenSectors"][cmp.String()], height) } } } { value := big.NewInt(int64(ps.Recoveries)) cs.DiffHeight[maddr]["Recoveries"][height] = value cs.DiffValue[maddr]["Recoveries"][value.String()] = append(cs.DiffValue[maddr]["Recoveries"][value.String()], height) if cs.PrevHeight != -1 { prevValue := cs.DiffHeight[maddr]["Recoveries"][cs.PrevHeight] cmp := big.Zero() cmp.Sub(value.Int, prevValue.Int) // value - prevValue if big.Cmp(cmp, big.Zero()) != 0 { cs.DiffCmp[maddr]["Recoveries"][cmp.String()] = append(cs.DiffCmp[maddr]["Recoveries"][cmp.String()], height) } } } } func roundBalance(i *big.Int) { *i = big.Div(*i, big.NewInt(1000000000000000)) *i = big.Mul(*i, big.NewInt(1000000000000000)) } func toCharStr(i int) string { return string('a' + i) }