You deploy and execute smart contracts on the blockchain. A record of each transaction is immutably stored on the blockchain and smart contracts store and update state on the blockchain. A blockchain application consists of client code which calls smart contract actions. The smart contract actions execute on the blockchain.
Let's start with a simple smart contract that produces the traditional Hello World.
This tutorial introduces the following key concepts:
- EOSIO Contract Development Toolkit - Toolchain and libraries used to build smart contracts
- Webassembly (WASM) - The virtual machine used to execute a portable binary-code format. Hosted in nodeos.
- Application Binary Interfaces (ABI) - The interface that defines how data is marshalled to and from the webassembly virtual machine
- Smart Contracts - Code that defines actions and transactions which may be executed on a blockchain
This tutorial shows how to:
- Create a simple smart contract with a simple "hi" action to the smart contract
- Compile and deploy the smart contract to an EOSIO blockchain
- Use the command line to call the "hi" action of the smart contract
Before you begin
This tutorial requires the following:
- Knowledge of the C++ programming language
- A code editor or an IDE
- A fully configured local development environment
Once you complete the tutorial, you should have created a Hello World smart contract and deployed the smart contract on a blockchain.
EOSIO Contract Development Toolkit
Create EOSIO smart contracts using the C++ programming language. The EOSIO Contract Development Toolkit or EOSIO.CDT provides the libraries and tools required to build a smart contract. See the EOSIO.CDT manual for more details on how to get started with the EOSIO.CDT
.
To deploy the smart contract to the blockchain, first use the eosio-cpp tool to compile the smart contract. The compilation builds a webassembly file and a corresponding application binary interface (ABI) file.
The webassembly or .wasm
file is the binary code that the webassembly engine in the blockchain executes. The webassembly engine
or wasm engine
is hosted in the nodeos daemon and executes the smart contract code. The application binary interface or .abi
file defines how data is marshalled to and from the wasm engine.
Create the Contract
Follow this procedure to create the Hello World smart contract. Normally you create two files - the header or .hpp
file which contains the declarations for the smart contract class and the .cpp
file, which contains the implementation of the smart contract actions. In this simple example, you only use a .cpp
file.
Procedure to create hello.cpp
- Create a new directory called hello to store your smart contract file:
mkdir hello
Go to the new directory
cd hello
- Create a new file,
hello.cpp
, and open it in your preferred text editor:
touch hello.cpp
- Write the smart contract code:
Follow these four steps and add this code to the hello.cpp
file.
a. Import the eosio base library with the include directive. Add the line:
#include <eosio/eosio.hpp>
b. The eosio.hpp
contains classes required to write a smart contract, including eosio::contract
. Create a standard C++11 class and inherit from the eosio::contract
class. Use the [[eosio::contract]]
attribute to inform the EOSIO.CDT compiler this is a smart contract.
Add the line:
class [[eosio::contract]] hello : public eosio::contract {};
The EOSIO.CDT
compiler automatically generates the main dispatcher and the ABI file
.
The dispatcher routes action calls to the correct smart contract action. The compiler will create one when using the eosio::contract
attribute. Advanced programmers can customize this behaviour by defining their own dispatcher.
c. Add a public access specifier and a using-declaration to introduce base class members from eosio::contract
. You can now use the default base class constructor.
Add these lines:
public:
using eosio::contract::contract;
d. Add a hi
public action. This action accepts an eosio::name
parameter, and prints Hello concatenated with the eosio::name
parameter.
Add these lines:
[[eosio::action]] void hi( eosio::name user ) {
print( "Hello, ", user);
}
The [[eosio::action]]
attribute lets the compiler know this is an action.
The hello.cpp
file should now look like this:
#include <eosio/eosio.hpp>
class [[eosio::contract]] hello : public eosio::contract {
public:
using eosio::contract::contract;
[[eosio::action]] void hi( eosio::name user ) {
print( "Hello, ", user);
}
};
eosio::print
is included by eosio/eosio.hpp. The smart contract uses this function to print Hello and concatenate the string
Hello with the passed in user.
- Save the file.
Compile and Deploy
Now that the smart contract is successfully created, follow this section to
compile and deploy the smart contract to the blockchain. Use the EOSIO.CDT eosio-cpp command to build the .wasm
file and a corresponding .abi
file.
Procedure to Compile and Deploy
- Use the
eosio-cpp
command to compile thehello.cpp
file. Run theeosio-cpp
command in the same folder as the hello.cpp file (or refer to the file with an absolute or relative path):
eosio-cpp -abigen -o hello.wasm hello.cpp
The eosio-cpp command creates two new files - hello.wasm
and hello.abi
.
- Deploy the compiled
hello.wasm
andhello.abi
files to a hello account on the blockchain. If you do not have a "hello" account see accounts and permissions. Run the command outside the folder containing thehello.wasm
andhello.abi
and use thecontract-dir
positional to specify the path to the directory containing the.wasm
and the.abi
:
cleos set contract hello ./hello -p hello@active
Calling a Smart Contract Action
Once the smart contract is successfully deployed, follow this section to push smart contract actions to the blockchain and test the hi
action.
Procedure to call the Hi Action
- Use
cleos push action
:
cleos push action hello hi '["bob"]' -p bob@active
This should produce:
executed transaction: 4c10c1426c16b1656e802f3302677594731b380b18a44851d38e8b5275072857 244 bytes 1000 cycles
# hello.code <= hello.code::hi {"user":"bob"}
>> Hello, bob
- The contract allows any account to say hi to any user, push the action using a different account:
cleos push action hello hi '["alice"]' -p alice@active
This should produce:
executed transaction: 28d92256c8ffd8b0255be324e4596b7c745f50f85722d0c4400471bc184b9a16 244 bytes 1000 cycles
# hello.code <= hello.code::hi {"user":"alice"}
>> Hello, alice
This version of the Hello World smart contract is a simple example. The hi
action may be called by any user. Smart contracts should be secure so extend the code to add authorization. This forces the smart contract to check which account is used to call the action.
Authorization
The EOSIO blockchain uses asymmetric cryptography to verify that the account pushing a transaction has signed the transaction with the matching private key. EOSIO blockchains use account authority tables to check the account has the required authority to perform an action. Using authorization is the first step towards securing your smart contract. Follow this link for more information about authorization checks.
Add require_auth to the smart contract, the require_auth
function checks authorization and ensures the name parameter matches the user executing and authorizing the action.
Procedure to add authorization
- Update the "hi" action in the
hello.cpp
to userequire_auth
:
void hi( name user ) {
require_auth( user );
print( "Hello, ", name{user} );
}
- Recompile the contract (remember to run the
eosio-cpp
command in the same folder as thehello.cpp
file, or refer to the file with an absolute or relative path):
eosio-cpp -abigen -o hello.wasm hello.cpp
- Redeploy the updated smart contract to the blockchain (run this command outside the folder containing the
hello.wasm
andhello.abi
):
cleos set contract hello ./hello -p hello@active
- Call the action again, but this time with mismatched authorization. This command tells the action that bob is saying hi, whilst alice is signing the transaction:
cleos push action hello hi '["bob"]' -p alice@active
require_auth
should halt the transaction and the output should be:
Error 3090004: Missing required authority
Ensure that you have the related authority inside your transaction!;
The contract now verifies the provided user name is the same as the authorizing user.
- Try it again, but this time, but make alice say hi, with the authority of the alice account:
cleos push action hello hi '["alice"]' -p alice@active
This should now produce:
235bd766c2097f4a698cfb948eb2e709532df8d18458b92c9c6aae74ed8e4518 244 bytes 1000 cycles
# hello <= hello::hi {"user":"alice"}
>> Hello, alice
The action should execute successfully, after checking that the account calling the action has the same authorizing account as the user name passed to the action.
What's Next?
You have looked at how to write and deploy smart contracts. In the Smart Contract Guides we will look at writing and using more complex smart contracts.