Irishub Chain GO SDK makes a simple package of API provided by Irishub, which provides great convenience for users to quickly develop applications based on irishub chain.
Go version above 1.13.5
require (
github.com/irisnet/irishub-sdk-go latest
)
replace github.com/gogo/protobuf => github.com/regen-network/protobuf v1.3.3-alpha.regen.1
The initialization SDK code is as follows:
options := []types.Option{
types.KeyDAOOption(store.NewMemory(nil)),
types.TimeoutOption(10),
}
cfg, err := types.NewClientConfig(nodeURI, chainID, options...)
if err != nil {
panic(err)
}
client := sdk.NewIRISHUBClient(cfg)
The ClientConfig
component mainly contains the parameters used in the SDK, the specific meaning is shown in the table below
Iterm | Type | Description |
---|---|---|
NodeURI | string | The RPC address of the irishub node connected to the SDK, for example: localhost: 26657 |
GRPCAddr | string | The GRPC address of the irishub node connected to the SDK, for example: localhost: 9090 |
Network | enum | irishub network type, value: Testnet ,Mainnet |
ChainID | string | ChainID of irishub, for example: irishub |
Gas | uint64 | The maximum gas to be paid for the transaction, for example: 20000 |
Fee | DecCoins | Transaction fees to be paid for transactions |
KeyDAO | KeyDAO | Private key management interface, If the user does not provide it, the default LevelDB will be used |
Mode | enum | Transaction broadcast mode, value: Sync ,Async , Commit |
StoreType | enum | Private key storage method, value: Keystore ,PrivKey |
Timeout | time.Duration | Transaction timeout, for example: 5s |
Level | string | Log output level, for example: info |
If you want to use SDK
to send a transfer transaction, the example is as follows:
There is more example of query and send tx
coins, err := types.ParseDecCoins("0.1iris")
to := "iaa1hp29kuh22vpjjlnctmyml5s75evsnsd8r4x0mm"
baseTx := types.BaseTx{
From: "username",
Gas: 20000,
Memo: "test",
Mode: types.Commit,
Password: "password",
}
result, err := client.Bank.Send(to, coins, baseTx)
query Latest Block info
block, err := client.BaseClient.Block(context.Background(),nil)
query Tx from specify TxHash
txHash := "D9280C9217B5626107DF9BC97A44C42357537806343175F869F0D8A5A0D94ADD"
txResult, err := client.BaseClient.QueryTx(txHash)
get TxHash before sending transactions
baseTx := types.BaseTx{
From: "username",
Gas: 20000,
Memo: "test",
Mode: types.Commit,
Password: "password",
}
amt, err := types.ParseCoins("10iris")
from := "iaa12py6r8hhzpwdhat93cde4p3rfl6w4qnmwcqfhn"
to := "iaa1hp29kuh22vpjjlnctmyml5s75evsnsd8r4x0mm"
msg := &bank.MsgSend{
FromAddress: addr,
ToAddress: to,
Amount: amt,
}
txhash, err := s.BuildTxHash([]sdk.Msg{msg}, baseTx)
Note: If you use the relevant API for sending transactions, you should implement the KeyDAO
interface. Use the NewKeyDaoWithAES
method to initialize a KeyDAO
instance, which will use the AES
encryption method by default.
The interface definition is as follows:
type KeyDAO interface {
AccountAccess
Crypto
}
type AccountAccess interface {
Write(name string, store Store) error
Read(name string) (Store,error)
Delete(name string) error
}
type Crypto interface {
Encrypt(data string, password string) (string, error)
Decrypt(data string, password string) (string, error)
}
Among them, Store
includes two storage methods, one is based on the private key, which is defined as follows:
type KeyInfo struct {
PrivKey string `json:"priv_key"`
Address string `json:"address"`
}
The other is based on the keystore, defined as follows:
type KeystoreInfo struct {
Keystore string `json:"keystore"`
}
You can flexibly choose any of the private key management methods. The Encrypt
and Decrypt
interfaces are used to encrypt and decrypt the key. If the user does not implement it, the default is to use AES
. Examples are as follows:
KeyDao
implements the AccountAccess
interface:
// Use memory as storage, use with caution in build environment
type MemoryDB struct {
store map[string]Store
AES
}
func NewMemoryDB() MemoryDB {
return MemoryDB{
store: make(map[string]Store),
}
}
func (m MemoryDB) Write(name string, store Store) error {
m.store[name] = store
return nil
}
func (m MemoryDB) Read(name string) (Store, error) {
return m.store[name], nil
}
func (m MemoryDB) Delete(name string) error {
delete(m.store, name)
return nil
}
func (m MemoryDB) Has(name string) bool {
_, ok := m.store[name]
return ok
}
If your keystore generated before irishub V0.16, you can see package keystore to convert
For more API usage documentation, please check documentation。