117 lines
4.8 KiB
Markdown
117 lines
4.8 KiB
Markdown
# Server
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The `server` package is responsible for providing the mechanisms necessary to
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start an ABCI Tendermint application and providing the CLI framework necessary
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to fully bootstrap an application. The package exposes two core commands, `StartCmd`
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and `ExportCmd`.
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## Preliminary
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The root command of an application typically is constructed with three core
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sub-commands, query commands, tx commands, and auxiliary commands such as genesis
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utilities, and starting an application binary.
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It is vital that the root command of an application set the appropriate `PersistentPreRun(E)`
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function so all child commands have access to the server and client contexts.
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These contexts are set as their default values initially and maybe modified,
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scoped to the command, in their respective `PersistentPreRun(E)` functions. Note,
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the `client.Context` is typically pre-populated with "default" values that may be
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useful for all commands to inherit and override if necessary.
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Example:
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```go
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var (
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rootCmd = &cobra.Command{
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Use: "simd",
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Short: "simulation app",
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PersistentPreRunE: func(cmd *cobra.Command, _ []string) error {
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if err := client.SetCmdClientContextHandler(initClientCtx, cmd); err != nil {
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return err
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}
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return server.InterceptConfigsPreRunHandler(cmd)
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},
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}
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encodingConfig = simapp.MakeTestEncodingConfig()
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initClientCtx = client.Context{}.
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WithJSONMarshaler(encodingConfig.Marshaler).
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WithTxConfig(encodingConfig.TxConfig).
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WithCodec(encodingConfig.Amino).
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WithInput(os.Stdin).
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WithAccountRetriever(types.NewAccountRetriever(encodingConfig.Marshaler)).
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WithBroadcastMode(flags.BroadcastBlock).
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WithHomeDir(simapp.DefaultNodeHome)
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)
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```
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The `SetCmdClientContextHandler` call reads persistent flags via `ReadPersistentCommandFlags`
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which creates a `client.Context` and sets that on the root command's `Context`.
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The `InterceptConfigsPreRunHandler` call creates a viper literal, default `server.Context`,
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and a logger and sets that on the root command's `Context`. The `server.Context`
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will be modified and saved to disk via the internal `interceptConfigs` call, which
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either reads or creates a Tendermint configuration based on the home path provided.
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In addition, `interceptConfigs` also reads and loads the application configuration,
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`app.toml`, and binds that to the `server.Context` viper literal. This is vital
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so the application can get access to not only the CLI flags, but also to the
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application configuration values provided by this file.
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## `StartCmd`
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The `StartCmd` accepts an `AppCreator` function which returns an `Application`.
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The `AppCreator` is responsible for constructing the application based on the
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options provided to it via `AppOptions`. The `AppOptions` interface type defines
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a single method, `Get() interface{}`, and is implemented as a [viper](https://github.com/spf13/viper)
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literal that exists in the `server.Context`. All the possible options an application
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may use and provide to the construction process are defined by the `StartCmd`
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and by the application's config file, `app.toml`.
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The application can either be started in-process or as an external process. The
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former creates a Tendermint service and the latter creates a Tendermint Node.
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Under the hood, `StartCmd` will call `GetServerContextFromCmd`, which provides
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the command access to a `server.Context`. This context provides access to the
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viper literal, the Tendermint config and logger. This allows flags to be bound
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the viper literal and passed to the application construction.
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Example:
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```go
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func newApp(logger log.Logger, db dbm.DB, traceStore io.Writer, appOpts server.AppOptions) server.Application {
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var cache sdk.MultiStorePersistentCache
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if cast.ToBool(appOpts.Get(server.FlagInterBlockCache)) {
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cache = store.NewCommitKVStoreCacheManager()
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}
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skipUpgradeHeights := make(map[int64]bool)
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for _, h := range cast.ToIntSlice(appOpts.Get(server.FlagUnsafeSkipUpgrades)) {
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skipUpgradeHeights[int64(h)] = true
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}
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pruningOpts, err := server.GetPruningOptionsFromFlags(appOpts)
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if err != nil {
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panic(err)
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}
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return simapp.NewSimApp(
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logger, db, traceStore, true, skipUpgradeHeights,
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cast.ToString(appOpts.Get(flags.FlagHome)),
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cast.ToUint(appOpts.Get(server.FlagInvCheckPeriod)),
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baseapp.SetPruning(pruningOpts),
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baseapp.SetMinGasPrices(cast.ToString(appOpts.Get(server.FlagMinGasPrices))),
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baseapp.SetHaltHeight(cast.ToUint64(appOpts.Get(server.FlagHaltHeight))),
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baseapp.SetHaltTime(cast.ToUint64(appOpts.Get(server.FlagHaltTime))),
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baseapp.SetInterBlockCache(cache),
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baseapp.SetTrace(cast.ToBool(appOpts.Get(server.FlagTrace))),
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)
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}
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```
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Note, some of the options provided are exposed via CLI flags in the start command
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and some are also allowed to be set in the application's `app.toml`. It is recommend
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to use the `cast` package for type safety guarantees and due to the limitations of
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CLI flag types.
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