This is a 32-hour course on blockchain, Solidity, and full stack Web3 development with JavaScript.
The course is suitable for beginners and experienced programmers alike, with an emphasis on JavaScript as the programming language.
The course covers the basics of blockchain, smart contracts, and decentralized applications, and provides deep fundamentals in these areas.
π‘ Blockchain technology allows for decentralized trust minimized agreements through smart contracts, which eliminates the need for intermediaries and promotes transparency.
π° Decentralized finance (DeFi) is revolutionizing the financial world by providing a fair, accountable, and transparent system, with over $200 billion already invested.
π Smart contracts offer security benefits, such as immutability and protection against hacking, as well as privacy and efficiency advantages.
Blockchain transactions can be viewed on platforms like Etherscan with transaction details such as sender and recipient addresses, transaction amount, and status.
Gas fees are paid for processing transactions on the blockchain and vary based on the complexity of the transaction.
Blockchains are decentralized networks where multiple nodes work together to validate transactions and maintain the integrity of the blockchain.
π Public and private keys are used in blockchain to sign and verify transactions.
βοΈ Blockchain is a decentralized database that uses consensus mechanisms like proof of work to reach agreement on the state of the blockchain.
π Proof of work ensures that transactions on the blockchain are secure and resistant to attacks.
π Proof of Work uses a lot of electricity and has an environmental impact.
π Proof of Stake is a more environmentally friendly consensus mechanism.
βοΈ Sharding and roll-ups are solutions to blockchain scalability issues.
π Deploying contracts on the blockchain modifies the state of the blockchain and requires spending gas.
πΎ The visibility specifiers in Solidity determine who can access functions and variables. Public is visible externally and internally, private is only visible within the contract, external is only visible externally, and internal is visible within the contract and its child contracts.
π₯ Using a dynamic array or mapping in Solidity allows for storing and accessing multiple values efficiently.
π The video is about learning blockchain, Solidity, and Full Stack Web3 Development with JavaScript in a 32-hour course.
π The video explains how to deploy a contract to a test net and interact with it using Remix.
π» The video also covers topics such as mappings, arrays, struct, functions, and importing contracts.
The video is about learning blockchain, Solidity, and full stack Web3 development with JavaScript in a 32-hour course.
The course covers topics like storing and retrieving data from smart contracts, deploying contracts, creating child contracts, and overview of decentralized Oracle networks.
The video also introduces the concept of minimum funding value, using require statements for validation, and using Chainlink Oracle networks to get external data into smart contracts.
π‘ Chainlink provides several out-of-the-box decentralized features, including price feeds, verifiable randomness, event-driven execution, and API access.
π Price feeds allow decentralized applications to access real-time pricing information from various sources.
π² Verifiable randomness function enables the generation of provably random numbers in smart contracts.
π° The video introduces the concept of funding contracts and explains how to keep track of funders and the amount of funds each funder has contributed.
π The video demonstrates the use of libraries in Solidity to simplify code and make math operations more efficient.
π The video shows how to restrict access to certain functions in a contract to only the contract owner.
π‘ Modifiers are used to modify the functionality of a function in Solidity.
βοΈ Modifiers can be added to function declarations to specify actions that should be performed before or after the function's code.
π Modifiers can be used to restrict access to certain functions, such as allowing only the owner to withdraw funds.
π The video discusses the use of different functions in Solidity, such as receive, fallback, and constructor.
π‘ There are keywords like constant and immutable that can help save gas in Solidity.
π The video provides guidance on how to effectively ask questions, search documentation, and use forums for problem-solving.
π Knowing how to get unblocked is crucial in the blockchain and web3 space, as it is a collaborative community where helping others contributes to your own growth as a software engineer.
π» Remix IDE is a powerful web-based tool for developing and testing smart contracts, but it has limitations in terms of integration and advanced functionality.
βοΈ Hardhat is a JavaScript-based smart contract developer framework that provides comprehensive functionality for compilation, deployment, testing, and debugging.
π This video is a 32-hour course on learning blockchain, Solidity, and full stack Web3 development with JavaScript. It covers topics such as Node.js, TypeScript, and setting up a local development environment.
π» The course focuses on using JavaScript to write code for the back end using Node.js and explains the differences between front end JavaScript and Node.js JavaScript.
π The code examples in the course can be done in TypeScript as well, but TypeScript is optional and adds type safety to JavaScript code.
π We compiled our contract using solc-js and ran the compilation command to output the compiled binary and ABI files.
π» We learned how to connect to a local blockchain using Ganache and how to deploy our contract to the JavaScript VM.
π We explored using transaction data to create and sign transactions and saw the importance of specifying the correct nonce.
π The importance of private key security and the use of encrypted keys to protect against unauthorized access.
π» Using environment variables to store sensitive information like private keys and RPC URLs.
π‘ Guidelines and precautions for handling private keys and avoiding the exposure of sensitive information.
π The video discusses the importance of private keys and how to handle them securely.
π The video explains how to connect to a blockchain using an RPC URL and interact with smart contracts programmatically.
π» The video introduces Hardhat, a popular smart contract development framework, and highlights its features and benefits.
βοΈ Hard Hat is an extensible and feature-rich tool for blockchain development with nice debugging features.
π» Setting up the environment for Hard Hat development involves creating a new project and configuring the network and private key.
π§ Deploying a smart contract using Hard Hat involves compiling the contract, getting the contract factory, and deploying the contract to the network.
π‘ We can automatically verify our contracts after deploying them using the Hardhat EtherScan plugin.
π To verify our contracts, we need an API key from EtherScan, which we can obtain by signing up and creating an account.
π οΈ Hardhat provides a powerful environment for developing and testing smart contracts, allowing us to deploy, verify, and interact with contracts on a local network.
The console is a JavaScript environment that allows us to interact with any blockchain using JavaScript commands.
We can use the console to deploy and interact with smart contracts. Everything is automatically imported, making it easy to work with.
Hardhat provides useful tools for testing our smart contracts, such as running tests and checking gas costs.
π Importing and configuring ethers and hardhat for blockchain development with JavaScript.
π» Using hardhat deploy and deploying contracts to local and test networks.
π Creating a mock price feed contract for local testing and parameterizing contract addresses for different networks.
β¨ Refactoring the constructor function to take a parameter for the price feed address
π Creating a global variable for the price feed address based on the chain and using it in the code
π Deploying a mock contract for testing purposes on local development chains
The video is about learning blockchain, Solidity, and Full Stack Web3 Development with JavaScript in a 32-hour course.
The transcript covers the process of deploying a contract to a test network, verifying the contract, and making updates to the contract to improve its functionality and formatting.
The transcript also includes information on writing unit tests and conducting withdrawal operations in the contract.
β¨ The video discusses the process of running the withdrawal function in a blockchain smart contract.
π° The importance of considering gas costs and optimizing storage usage in smart contracts is highlighted.
π§ A more efficient withdrawal method, called 'cheaper withdraw', is introduced to reduce gas costs.
The video is about learning blockchain, Solidity, and Full Stack Web3 Development with JavaScript.
The video covers connecting to Metamask using window.Aetherium and interacting with smart contracts.
The video demonstrates how to build a front-end website using HTML and JavaScript in conjunction with smart contracts.
π‘ We learn how to work with front-end code in raw JavaScript using imports and avoid using yarn and node modules.
π» We create a function called 'fund' that takes an 'ethAmount' as a parameter and logs a string interpolation with the amount.
π We import the necessary libraries and set up a connection to the blockchain using ethers and Metamask.
π₯ The video tutorial guides the viewer on how to create a smart contract lottery using Solidity and hardhat.
π° Users are able to enter the lottery by paying a certain amount of eath.
π The contract picks a random winner and automatically triggers the selection process at regular intervals.
π ABI encoded non-index parameters are encoded using an algorithm for easy decoding if the API is available
π Layout of events and more information can be found in the Solidity documentation
βοΈ Chainlink VRF and Chainlink Keepers are introduced as tools for picking random winners in the lottery
The video is about learning blockchain, Solidity, and Full Stack Web3 development with JavaScript.
The video discusses how to use Chainlink Keepers to automate smart contracts.
The video demonstrates how to implement check upkeep and perform upkeep functions in a smart contract.
π The video is a 32-hour course on learning blockchain, Solidity, and Full Stack Web3 development using JavaScript.
π₯οΈ The course covers topics such as deploying scripts, updating config files, deploying mock contracts, and writing unit tests.
π» There is a focus on hands-on learning, with examples of code and explanations of different functions and variables used in the process.
π The video explains how to test and manipulate blockchain using Hard Hat, including emitting events, changing time, and mining new blocks.
β° The video demonstrates how to wait for a specific event to be emitted by setting up a listener and using promises in JavaScript.
πΌ The video also covers topics like performing upkeep, fulfilling random words, and testing various scenarios in solidity smart contracts.
π The goal is to create a decentralized raffle contract using Chainlink VRF and Keepers.
π The contract has various functions such as entering the raffle, picking a winner, and resetting the contract.
π‘ The staging test is important to ensure that the contract works correctly on a test network.
π The video is about learning blockchain, Solidity, and full stack Web3 development with JavaScript in a 32-hour course.
π» The course covers topics such as creating smart contracts, building front-end applications with React and Next.js, connecting wallets to interact with smart contracts, and deploying websites in a decentralized context.
π The video introduces the React Morales library, which provides additional functionality and makes development easier for React projects involving blockchain and Ethereum.
π Hooks are used to work with state and automatically rerender when something changes in the front end.
π‘ Use the 'enable Web3' hook to connect to Metamask and other wallets.
π» The 'useEffect' hook can be used to keep track of values and trigger functions when they change.
π The video discusses how to update the front end of a blockchain application by creating a script that deploys contracts and updates the constants folder.
π» The script uses the raffle contract to update contract addresses and API files, making it easier to maintain and work with different chains.
π The video also demonstrates how to connect Metamask to the blockchain and handle transaction notifications using the web3 UI Kit.
π Learn blockchain, Solidity, and full stack Web3 development with JavaScript in a 32-hour course.
π» Deploy a decentralized lottery application using IPFS, and learn how to update the UI automatically.
π Improve the appearance of the front end using component and CSS libraries like Web3 UI Kit and Tailwind CSS.
π IPFS and filecoin provide decentralized and persistent data storage solutions.
β‘οΈ IPFS is a distributed system for storing and accessing files, folders, websites, and data, using content addressing to ensure verifiability.
π» Filecoin is a blockchain that leverages a crypto-economic incentive model and cryptographic proofs to ensure persistent and reliable data storage.
π‘ ERC 20/ EIP 20 tokens are smart contracts on the blockchain that represent tokens and follow a specific token standard.
π‘ Improvement proposals (EIPs) are ideas to enhance blockchain protocols like Ethereum, and EIPs can lead to the creation of ERC 20 tokens.
π‘ To create an ERC 20 token, a smart contract needs to be developed that follows the token standard, with functions for transfer, balance, and other operations.
π‘ OpenZeppelin is an open source library that provides boilerplate code for creating ERC 20 tokens and other Solidity contracts.
π‘ Defi (decentralized finance) protocols like Aave allow users to deposit collateral and borrow assets programmatically, offering higher yields and transparency compared to traditional financial institutions.
Depositing collateral such as ETH and obtaining stable coins like DAI through lending protocols.
Using decentralized exchanges like Uniswap for trading and acquiring assets like wrapped ETH and DAI.
Interacting with smart contracts and approving tokens for transactions.
The AVI protocol allows users to borrow assets based on their collateral and gain interest on deposited tokens.
Users can borrow assets, such as dye, by providing collateral and can be liquidated if their borrowed amount exceeds the liquidation threshold.
The course covers topics like depositing, borrowing, repaying, and using smart contracts to interact with the AVI protocol.
π₯ NF T's are hot right now and have gained a lot of attention due to their uniqueness and value.
πΌοΈ NF T's are non fungible tokens that are like digital pieces of art with a permanent history.
π‘ NF T's can be used for more than just art, such as creating games or giving them unique attributes.
π The video is about a 32-hour course on learning blockchain, Solidity, and full-stack Web3 development with JavaScript.
π» The course covers topics such as VRF, coordinators, subscriptions, gas limit, token URI, and mint fee.
π The contract allows users to mint a random NF T with different rarities and pay a mint fee, while the owner can withdraw funds.
The video is about learning blockchain, Solidity, and Full Stack Web3 Development with JavaScript.
The video covers topics such as creating functions, uploading code to pinata, storing images and metadata in IPFS, and deploying a smart contract.
The video also discusses the use of SVG files and dynamic NFTs.
π This video explains how to encode and decode data in Solidity using ABI encoding.
π’ ABI encoding allows for converting data types like strings and numbers into a binary format.
π» By populating the data field of a transaction with the appropriate encoded function call, you can interact with the contract directly.
π Understanding the importance of the ABI and contract address when sending a function call.
π Exploring how to populate the data field of a transaction to call specific functions.
π‘ Learning about low-level keywords like call and static call in Solidity.
Create a decentralized NFT marketplace.
Functions: list item, buy item, cancel listing, update listing, withdraw proceeds, and mint NFTs.
Front-end features: Connect with Metamask, update listing price, buy NFT, withdraw proceeds, and relist NFT.
The video is about learning blockchain, Solidity, and Full Stack Web3 Development with JavaScript in a 32-hour course.
The instructor explains how to create a new file and set up the boilerplate code for a NFT marketplace contract in Solidity.
The video covers listing items, checking for approval, creating a data structure, and implementing the buy and cancel listing functions.
π The video is about learning blockchain, Solidity, and full stack Web3 development with JavaScript in a 32-hour course.
βοΈ The transcription discusses using components, header files, and web3 UI kits to build a front-end application for blockchain development.
π The video introduces Morales and React Morales as tools for integrating with a Morales server and leveraging its capabilities for web3 development.
To make the server listen for events, we need to connect it to the blockchain and specify which events to listen to.
To connect the server to the blockchain, we can use a reverse proxy and configure it using a config file.
We can use the Morales admin CLI to run scripts and connect the server to the blockchain.
π₯ This video is a 32-hour course on learning Blockchain, Solidity, and Full Stack Web3 Development with JavaScript.
πΌ The video covers setting up an indexer with a Morales database and troubleshooting tips for using the Hardhead NFT marketplace repository.
π The video also explains how to create and use Cloud Functions in Morales to add additional functionality to the front end and handle events like item listings, cancellations, and purchases.
π The video covers the process of canceling a listing for a token on an NFT marketplace using JavaScript and Solidity.
π» The video demonstrates how to interact with the smart contract using ethers.js and how to integrate it with the back-end using Cloud Functions.
π The video also explains how to fetch and display the recently listed NFTs on the marketplace using React and IPFS gateway to get the token image.
π This video is about learning blockchain, Solidity, and full-stack Web3 development with JavaScript in a 32-hour course.
𧩠The video covers topics such as converting image URIs, using IPFS, rendering images with Next.js, creating clickable cards, and updating NFT listings on a marketplace.
β¨ The instructor demonstrates how to implement these concepts step-by-step, providing code examples and explanations.
π The video discusses the process of moving blocks in an NFT marketplace to confirm transactions and update listings.
π° The tutorial covers how to update and list NFTs for sale in the marketplace, including buying and selling functionality.
π The video introduces the concept of using the Graph to index events from smart contracts and enables efficient querying of data for decentralized applications.
π The video is a tutorial on blockchain development with JavaScript, focusing on Solidity and full-stack Web3 development.
π» The tutorial covers topics such as creating subgraphs, building a subgraph locally, and deploying it to the subgraph studio.
π The tutorial explains how to handle events like item bought, item cancelled, and item listed, and update the corresponding objects in the subgraph.
π In a decentralized context, there is an off-chain service that indexes events for a contract, allowing for decentralized updates.
π Instead of reading from a database, we can read from a graph using Apollo client and GraphQL.
π§ To update the code to read from the graph, we create a new file called 'graph example.js' and use the 'useQuery' hook.
β We learned about using delegate call to borrow functions between contracts.
π§ Delegate call allows us to change the storage of one contract using the functions of another contract.
π We saw examples of upgrading contracts by changing the implementation contract behind a proxy contract.
π This video is a 32-hour course on learning blockchain, Solidity, and full stack Web3 development with JavaScript.
βοΈ The video covers topics such as upgrading smart contracts programmatically, proxy patterns, decentralized autonomous organizations (DAOs), and voting mechanisms.
π οΈ Various tools and frameworks like ethers, hardhat, snapshot, and Gnosis Safe are introduced to help with development and implementation of DAOs.
π The video is a 32-hour course on blockchain, Solidity, and Full Stack Web3 Development with JavaScript.
ποΈ The video demonstrates how to create a governance platform using the ERC-20 token standard and Solidity.
π¦ The video teaches how to deploy and interact with smart contracts, create proposals, and execute them using a time-lock mechanism.
β The video demonstrates the process of setting up a governance process using blockchain technology.
π οΈ The process involves deploying and configuring smart contracts for governance, including a governance token, a time lock, and a governor contract.
π The video also covers proposing, voting, queuing, and executing changes in the governance process.
π The video explains how to use Solidity and Full Stack Web3 Development with JavaScript to create a decentralized application (DApp) with governance functionality.
π The importance of security in smart contract development is highlighted, including the need for audits, static analysis, and proper documentation.
β³ The video demonstrates how to propose, vote, and execute changes using a governance contract in a decentralized manner, showing the power of blockchain technology.
π Creating secure smart contracts is essential to prevent common vulnerabilities like reentrancy and Oracle manipulation.
π The Slither tool is a fast static analysis tool that can detect high-impact issues in smart contracts, such as uninitialized variables and reentrancy vulnerabilities.
π The Mythril tool is a symbolic execution tool that can be used for fuzz testing to find vulnerabilities by providing unexpected data as inputs to the contract.
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