From ecf7008c3b825bf188dbf67a6c1441f2cd86cfbc Mon Sep 17 00:00:00 2001 From: filippoweb3 Date: Fri, 22 Sep 2023 14:21:16 +0200 Subject: [PATCH] better page structure --- docs/general/web3-and-polkadot.md | 114 ++++++++++++++++-------------- 1 file changed, 60 insertions(+), 54 deletions(-) diff --git a/docs/general/web3-and-polkadot.md b/docs/general/web3-and-polkadot.md index c1252dcd8f7a..cc4cd99ffa95 100644 --- a/docs/general/web3-and-polkadot.md +++ b/docs/general/web3-and-polkadot.md @@ -7,21 +7,22 @@ keywords: [web3, polkadot, light clients, decentralization] slug: ../web3-and-polkadot --- -Back in the early 2000's, when the internet was gaining popularity for the first time, the internet -featured read-only, static, basic web pages. The online connected world at the time was only the -beginning of virtual data, identities, and more. The internet during this time was also called the -Web 1.0. +Back in the early 2000's the internet featured read-only, static, basic web pages. The online +connected world at the time was only the beginning of virtual data, identities, and more. The +internet during this time was also called the Web1. As social media platforms and online businesses began to emerge, the internet transformed into the -Web 2.0. This upgraded internet, which we still use today, features dynamic, interactive web pages, -where users can read and write information plus publish their own for others to see. However, this +Web2. This upgraded internet, which we still use today, features dynamic, interactive web pages, +where users can read and write information, publish their own for others to see. However, this version of the web comes with downsides, dealing with data control, privacy issues, and the -consequences of trust. This is where the WEB3 comes into the picture. +consequences of trusting centralized entities storing our data in their servers. This is where Web3 +comes into the picture. -The Web 3.0 is taking centralized infrastructure and applications and turning them into -decentralized, trust-free protocols. The goal is to transform the internet into a decentralized web, -where users control their own data and identity in a trust-free environment. The Web3 movement aims -to remove intermediaries and build trustless infrastructure. +Web3 is taking centralized infrastructure and applications and turning them into decentralized, +trust-free protocols. The goal is to transform the internet into a decentralized web, where users +control their own data and identity in a trust-free environment. The Web3 movement aims to remove +intermediaries and build trustless infrastructure. Web3 is an interactive and collaborative web +where users can read, write and **own** data. :::note The Web3 Movement @@ -30,34 +31,27 @@ To learn more of the Web3 movement, check out this video from the ::: -Web3 is an interactive and collaborative web where users can read, write and **own** data. - ## Data Ownership In web3, ownership is achieved through cryptography. Each user has a digital identity bound to a set of cryptographic keys usually based on the public key cryptographic scheme, i.e. the famous **public and private key pair**. -Users onboarding into the web3 journey must generate a key pair. The public key is the identity that -can be shared with anybody to send you messages, while the private key is used to access your -account, sign messages, transfer funds, edit identity details, etc. -[Keeping your private key secure](./scams.md) and inaccessible to third parties is essential to -avoid identity theft with consequent loss of funds, and it is one of the main factors hindering web3 -adoption. - -Nobody will ever ask you to share your private key, and who will attempts to do so will likely -attempt to steal your digital identity and anything you own related to it. +Users onboarding into the web3 must generate a key pair. The public key is the identity that can be +shared with anybody to send you messages, while the private key is used to access your account, sign +messages, transfer funds, edit identity details, etc. [Keeping your private key secure](./scams.md) +from third parties is essential to avoid identity theft with consequent loss of funds, and it is one +of the main factors hindering web3 adoption. Nobody will ever ask you to share your private key, and +who will attempts to do so will likely attempt to steal your digital identity and anything you own +related to it. To mitigate risks of key mismanagement (for **non-custodial** accounts, i.e. when you have custody -of your keys) there are the following two main options: - -- account abstraction solutions that separate the key management from the user experience -- cold wallet solutions where the private key is generated on dedicated devices that cannot connect - to the internet (see [Ledger](./ledger.md)), or dedicated applications that can be installed on - air-gapped devices such as phones (see [Polkadot Vault](./polkadot-vault.md)) - -For **custodial** option you trust third parties to manage your keys and give you access to them -whenever you need. +of your keys) there are account abstraction solutions that separate the key management from the user +experience. To mitigate key hacks there are cold wallet solutions where the private key is generated +on dedicated devices that cannot connect to the internet (see [Ledger](./ledger.md)), or dedicated +applications that can be installed on air-gapped devices such as phones (see +[Polkadot Vault](./polkadot-vault.md)). For **custodial** accounts you trust third parties to manage +your keys and give you access to them whenever you need. To sum up, data ownership comes from the fact that any message you sign with your private key comes from your digital identity, and the signature proof can be cryptographically verified. Unless @@ -67,7 +61,7 @@ essentially a transfer of ownership. ## Trustless Environment -Cryptography also bring the possibility to build a trustless environment where we do not have to +Cryptography also brings the possibility to build a trustless environment where we do not have to trust third parties, or have any kind of relationship between the sender and receiver of a message. Since we can verify who wrote the message and who owns what just using cryptography, we do not need trust centralized entities. The trust is essentially embedded in the code. Well-audited and reviewed @@ -82,9 +76,10 @@ Here is where **blockchain** plays and important role. In fact, blockchains are databases where data are stored within blocks concatenated using hash functions, where for example the hash of block `N + 1` contains data of that block together with the hash of the previous block `N`. This creates the situation where if you modify the content of block `N` you will change the -hash of block `N + 1`, `N + 2`, etc. You will need to modify quite a lot of data and in -proof-of-stake blockchains like Polkadot such attack is financially expensive, and attempting doing -it will get you slashed and lose your stake. +hash of block `N + 1`, `N + 2`, etc. You will need to modify quite a lot of data, and in +proof-of-stake blockchains like {{ polkadot: Polkadot :polkadot }}{{ kusama: Kusama :kusama }} such +attack is financially expensive, and attempting doing it will get you +[slashed](../learn/learn-staking-advanced.md#slashing). So, with blockchain as a mean of storing data permanently without any option to modify them we can make sure that what we sign with our digital identity will not be modified in the future. @@ -95,44 +90,55 @@ But what if our data are stored into a blockchain, but that blockchain is run on server or by different computers belonging to the same operator? That server or those computers can be easily shut down, the blockchain can be stopped from running -(from the inside by the malicious network participants or from the outside by regulatory rules and -other forces) and its data wiped out. So, we would own our data, those data would be immutable -because stored on a blockchain, but that blockchain would be easily stopped. There would little -sense in owning something that in the future can easily cease to exist. +and its data wiped out. This can be achieved from the inside by the malicious network participants +or from the outside by regulatory rules and other forces. So, we would own our data, those data +would be immutable because stored on a blockchain, but that blockchain would be easily stopped. +There would little sense in owning something that in the future can easily cease to exist. -Data availability is dependent on how resilient the blockchain is. Resiliency is only partly -achieved with decentralization. Having multiple nodes belonging to multiple independent identities -increases network resiliency, and thus data availability. +Data availability is dependent on how resilient the blockchain is. Resiliency is achieved through +decentralization, economic incentives, on-chain governance, and on-chain treasury funds to ensure +the network can run and upgrade on its own. + +### Decentralization + +Having multiple nodes belonging to multiple independent identities increases network resiliency, and +thus data availability. Blockchain is a state machine and ultimately consensus must be achieved on one and only one possible state transition. Having an overly decentralized network will creates the situation in which -consensus achieved after a long period of time, and energy might be wasted to unnecessarily run +consensus is achieved after a long period of time, and energy might be wasted to unnecessarily run nodes that add little resiliency and slow down network throughput. A trade-off between few centralized nodes and too many of them must be considered. But this is only a small piece of the puzzle. +Nowadays, most of the nodes are not run at people's homes. Equipment is rented through service +providers. Resiliency is also achieved by making sure nodes runs on as many different providers as +possible, and avoid that a big share of the nodes is run under the same provider, maybe in the same +country. A legislation change could undermine a big fraction of the nodes, and potentially stop the +network. + +### Stake Allocation + +In Proof-of-Stake blockchains security is dictated by how much stake is locked on-chain (financial +security). In a decentralized network you want to make sure that the level of difficulty for a +financial attack to happen is equal across all nodes. This implies that all nodes have similar +locked stake to avoid targeted attacks or collusion of multiple nodes that are financially weak. + +### Economic Incentives + Strong economic incentives promote good behavior and punish malicious one through game theory. Strong incentives are possible because blockchain is a trustless system where there are no intermediaries between who sends a message and who receives it. Such incentives ensures that most of the participants make the interest of the network and work together to improve it. +### Governance and Treasury + An on-chain [treasury](../learn/learn-polkadot-opengov-treasury.md) together with an [open governance](../learn/learn-polkadot-opengov.md) model allow to access funds in a fully decentralized manner without any bank transaction whatsoever. This opens up the possibility to come to a decision through on-chain voting mechanism, promoting a sense of community and creating an independent socio-economical environment. -In Proof-of-Stake blockchains security is dictated by how much stake is locked on-chain (financial -security). In a decentralized network you want to make sure that the level of difficulty for a -financial attack to happen is equal across all nodes. This implies that all nodes have similar -locked stake to avoid targeted attacks or collusion of multiple nodes that are financially weak. - -Nowadays, most of the nodes are not run at people's homes. Equipment is rented through service -providers. Resiliency is also achieved by making sure nodes runs on as many different providers as -possible, and avoid that a big share of the nodes is run under the same provider, maybe in the same -country. A legislation change could undermine a big fraction of the nodes, and potentially stop the -network. - ## Decentralized Access Points But what if we have data we own stored on a resilient blockchain, but the only way to access the