package e2e import ( "fmt" "os" "sort" "github.com/BurntSushi/toml" ) // Manifest represents a TOML testnet manifest. type Manifest struct { // IPv6 uses IPv6 networking instead of IPv4. Defaults to IPv4. IPv6 bool `toml:"ipv6"` // InitialHeight specifies the initial block height, set in genesis. Defaults to 1. InitialHeight int64 `toml:"initial_height"` // InitialState is an initial set of key/value pairs for the application, // set in genesis. Defaults to nothing. InitialState map[string]string `toml:"initial_state"` // Validators is the initial validator set in genesis, given as node names // and power: // // validators = { validator01 = 10; validator02 = 20; validator03 = 30 } // // Defaults to all nodes that have mode=validator at power 100. Explicitly // specifying an empty set will start with no validators in genesis, and // the application must return the validator set in InitChain via the // setting validator_update.0 (see below). Validators *map[string]int64 `toml:"validators"` // ValidatorUpdates is a map of heights to validator names and their power, // and will be returned by the ABCI application. For example, the following // changes the power of validator01 and validator02 at height 1000: // // [validator_update.1000] // validator01 = 20 // validator02 = 10 // // Specifying height 0 returns the validator update during InitChain. The // application returns the validator updates as-is, i.e. removing a // validator must be done by returning it with power 0, and any validators // not specified are not changed. ValidatorUpdates map[string]map[string]int64 `toml:"validator_update"` // Nodes specifies the network nodes. At least one node must be given. Nodes map[string]*ManifestNode `toml:"node"` // KeyType sets the curve that will be used by validators. // Options are ed25519 & secp256k1 KeyType string `toml:"key_type"` // Evidence indicates the amount of evidence that will be injected into the // testnet via the RPC endpoint of a random node. Default is 0 Evidence int `toml:"evidence"` // LogLevel sets the log level of the entire testnet. This can be overridden // by individual nodes. LogLevel string `toml:"log_level"` // QueueType describes the type of queue that the system uses internally QueueType string `toml:"queue_type"` // Number of bytes per tx. Default is 1kb (1024) TxSize int64 } // ManifestNode represents a node in a testnet manifest. type ManifestNode struct { // Mode specifies the type of node: "validator", "full", "light" or "seed". // Defaults to "validator". Full nodes do not get a signing key (a dummy key // is generated), and seed nodes run in seed mode with the PEX reactor enabled. Mode string `toml:"mode"` // Seeds is the list of node names to use as P2P seed nodes. Defaults to none. Seeds []string `toml:"seeds"` // PersistentPeers is a list of node names to maintain persistent P2P // connections to. If neither seeds nor persistent peers are specified, // this defaults to all other nodes in the network. For light clients, // this relates to the providers the light client is connected to. PersistentPeers []string `toml:"persistent_peers"` // Database specifies the database backend: "goleveldb", "cleveldb", // "rocksdb", "boltdb", or "badgerdb". Defaults to goleveldb. Database string `toml:"database"` // ABCIProtocol specifies the protocol used to communicate with the ABCI // application: "unix", "tcp", "grpc", or "builtin". Defaults to unix. // builtin will build a complete Tendermint node into the application and // launch it instead of launching a separate Tendermint process. ABCIProtocol string `toml:"abci_protocol"` // PrivvalProtocol specifies the protocol used to sign consensus messages: // "file", "unix", "tcp", or "grpc". Defaults to "file". For tcp and unix, the ABCI // application will launch a remote signer client in a separate goroutine. // For grpc the ABCI application will launch a remote signer server. // Only nodes with mode=validator will actually make use of this. PrivvalProtocol string `toml:"privval_protocol"` // StartAt specifies the block height at which the node will be started. The // runner will wait for the network to reach at least this block height. StartAt int64 `toml:"start_at"` // BlockSync specifies the block sync mode: "" (disable), "v0" or "v2". // Defaults to disabled. BlockSync string `toml:"block_sync"` // Mempool specifies which version of mempool to use. Either "v0" or "v1" Mempool string `toml:"mempool_version"` // StateSync enables state sync. The runner automatically configures trusted // block hashes and RPC servers. At least one node in the network must have // SnapshotInterval set to non-zero, and the state syncing node must have // StartAt set to an appropriate height where a snapshot is available. // StateSync can either be "p2p" or "rpc" or an empty string to disable StateSync string `toml:"state_sync"` // PersistInterval specifies the height interval at which the application // will persist state to disk. Defaults to 1 (every height), setting this to // 0 disables state persistence. PersistInterval *uint64 `toml:"persist_interval"` // SnapshotInterval specifies the height interval at which the application // will take state sync snapshots. Defaults to 0 (disabled). SnapshotInterval uint64 `toml:"snapshot_interval"` // RetainBlocks specifies the number of recent blocks to retain. Defaults to // 0, which retains all blocks. Must be greater that PersistInterval, // SnapshotInterval and EvidenceAgeHeight. RetainBlocks uint64 `toml:"retain_blocks"` // Perturb lists perturbations to apply to the node after it has been // started and synced with the network: // // disconnect: temporarily disconnects the node from the network // kill: kills the node with SIGKILL then restarts it // pause: temporarily pauses (freezes) the node // restart: restarts the node, shutting it down with SIGTERM Perturb []string `toml:"perturb"` // Log level sets the log level of the specific node i.e. "info". // This is helpful when debugging a specific problem. This overrides the network // level. LogLevel string `toml:"log_level"` // UseLegacyP2P enables use of the legacy p2p layer for this node. UseLegacyP2P bool `toml:"use_legacy_p2p"` } // Save saves the testnet manifest to a file. func (m Manifest) Save(file string) error { f, err := os.Create(file) if err != nil { return fmt.Errorf("failed to create manifest file %q: %w", file, err) } return toml.NewEncoder(f).Encode(m) } // LoadManifest loads a testnet manifest from a file. func LoadManifest(file string) (Manifest, error) { manifest := Manifest{} _, err := toml.DecodeFile(file, &manifest) if err != nil { return manifest, fmt.Errorf("failed to load testnet manifest %q: %w", file, err) } return manifest, nil } // SortManifests orders (in-place) a list of manifests such that the // manifests will be ordered (vaguely) from least complex to most // complex. func SortManifests(manifests []Manifest) { sort.SliceStable(manifests, func(i, j int) bool { left, right := manifests[i], manifests[j] if len(left.Nodes) < len(right.Nodes) { return true } if left.InitialHeight < right.InitialHeight { return true } if left.TxSize < right.TxSize { return true } if left.Evidence < right.Evidence { return true } var ( leftPerturb int rightPerturb int ) for _, n := range left.Nodes { leftPerturb += len(n.Perturb) } for _, n := range right.Nodes { rightPerturb += len(n.Perturb) } return leftPerturb < rightPerturb }) }