package client_test import ( "bytes" "fmt" "log" "github.com/tendermint/tendermint/abci/example/kvstore" "github.com/tendermint/tendermint/rpc/client" ctypes "github.com/tendermint/tendermint/rpc/core/types" rpctest "github.com/tendermint/tendermint/rpc/test" ) func ExampleHTTP_simple() { // Start a tendermint node (and kvstore) in the background to test against app := kvstore.NewApplication() node := rpctest.StartTendermint(app, rpctest.SuppressStdout, rpctest.RecreateConfig) defer rpctest.StopTendermint(node) // Create our RPC client rpcAddr := rpctest.GetConfig().RPC.ListenAddress c, err := client.NewHTTP(rpcAddr, "/websocket") if err != nil { log.Fatal(err) } // Create a transaction k := []byte("name") v := []byte("satoshi") tx := append(k, append([]byte("="), v...)...) // Broadcast the transaction and wait for it to commit (rather use // c.BroadcastTxSync though in production). bres, err := c.BroadcastTxCommit(tx) if err != nil { log.Fatal(err) } if bres.CheckTx.IsErr() || bres.DeliverTx.IsErr() { log.Fatal("BroadcastTxCommit transaction failed") } // Now try to fetch the value for the key qres, err := c.ABCIQuery("/key", k) if err != nil { log.Fatal(err) } if qres.Response.IsErr() { log.Fatal("ABCIQuery failed") } if !bytes.Equal(qres.Response.Key, k) { log.Fatal("returned key does not match queried key") } if !bytes.Equal(qres.Response.Value, v) { log.Fatal("returned value does not match sent value") } fmt.Println("Sent tx :", string(tx)) fmt.Println("Queried for :", string(qres.Response.Key)) fmt.Println("Got value :", string(qres.Response.Value)) // Output: // Sent tx : name=satoshi // Queried for : name // Got value : satoshi } func ExampleHTTP_batching() { // Start a tendermint node (and kvstore) in the background to test against app := kvstore.NewApplication() node := rpctest.StartTendermint(app, rpctest.SuppressStdout, rpctest.RecreateConfig) defer rpctest.StopTendermint(node) // Create our RPC client rpcAddr := rpctest.GetConfig().RPC.ListenAddress c, err := client.NewHTTP(rpcAddr, "/websocket") if err != nil { log.Fatal(err) } // Create our two transactions k1 := []byte("firstName") v1 := []byte("satoshi") tx1 := append(k1, append([]byte("="), v1...)...) k2 := []byte("lastName") v2 := []byte("nakamoto") tx2 := append(k2, append([]byte("="), v2...)...) txs := [][]byte{tx1, tx2} // Create a new batch batch := c.NewBatch() // Queue up our transactions for _, tx := range txs { // Broadcast the transaction and wait for it to commit (rather use // c.BroadcastTxSync though in production). if _, err := batch.BroadcastTxCommit(tx); err != nil { log.Fatal(err) } } // Send the batch of 2 transactions if _, err := batch.Send(); err != nil { log.Fatal(err) } // Now let's query for the original results as a batch keys := [][]byte{k1, k2} for _, key := range keys { if _, err := batch.ABCIQuery("/key", key); err != nil { log.Fatal(err) } } // Send the 2 queries and keep the results results, err := batch.Send() if err != nil { log.Fatal(err) } // Each result in the returned list is the deserialized result of each // respective ABCIQuery response for _, result := range results { qr, ok := result.(*ctypes.ResultABCIQuery) if !ok { log.Fatal("invalid result type from ABCIQuery request") } fmt.Println(string(qr.Response.Key), "=", string(qr.Response.Value)) } // Output: // firstName = satoshi // lastName = nakamoto }