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Adding in dapp principles

Signed-off-by: Mary Anthony <mary@blockstack.com>
feat/clarity-updates
Mary Anthony 6 years ago
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      _develop/dapp_principles.md

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# Principles of Blockstack applications
{:.no_toc}
This section explains what There are as many definitions for a decentralized app
(DApp) as there are DApp developers. I don't expect this one will be the
canonical definition, but I'm writing it down anyway since it serves as my
"north star" as I work on the Blockstack platform.
* TOC
{:toc}
## Blockstack DApp principles
An application is considered a Blockstack DApp if it adheres to the three
principles.
### Users own their data
Users own their application data independent of and *outside of* the
application. Moreover, these applications do not store or replicate user data. A
Blockstack application is only considered decentralized if its users control
where their data get hosted and can prove that they created it.
Blockstack applications meet this principle if they use the Gaia storage system.
Users can choose on an app-by-app basis which Gaia hub serves their application
data. Users may sign and/or encrypt their data in Gaia end-to-end. All files in
Gaia are addressed by a user identifier, an application's hostname, and a
filename. Through Gaia, users can prove data ownership and restrict access.
### Users own their identities
Users are the sole administer of their own independent and unique identifiers.
Within an applications, users must be distinguishable by unique identifiers. The
DApp cannot mask or take away a user's identifier, and a user must be able
to bind their identifier to the data they create.
Blockstack applications have this property because each user can own one or more
IDs which are owned by a private key under the user's control. The IDs are
acquired through the Blockstack naming system. First time users that log into
the Blockstack application get a free `.id` in the Blockstack namespace.
Blockstack IDs are replicated to all peers via a blockchain, this means
Blockstack cannot hide IDs. Blockstack IDs each have a public key assigned to
them via the blockchain records that encode their operational history. This
public key allows users to bind data to their Blockstack IDs through
cryptographic signatures.
### Users have free choice of clients
Applications must allow users to interact with their identities and data
independent of the application. For example, a user that creates data in
application 'X' must be able access that data from a different app, 'Y'.
It's not enough that the user owns their identity and data -- the user needs to
also be able to choose which programs they use to interact with them and
administer them. In the limit, the user needs to have the freedom to write
their own client. An application cannot be considered a DApp unless it
allows users to interact with their identities and data such that the user can
later do so via a different DApp.
Blockstack's APIs and SDKs make it easy to build applications that adhere to
this principle. Existing Blockstack applications have this property today simply
because they don't have any irreplaceable server-side logic.
In the future, Blockstack applications must continue to meet the first two
principles but need not meet this one. For example, an application could
encrypt data in-transit between the application's client and the user's chosen
storage provider. Unless the app divulges the encryption key to the user, then
the user does not have free choice of clients; they can only use clients that
the app's servers choose to interact with.
## Non-Principles
You'll notice, the Blockstack principles avoid adherence to a particular network topology or
architecture. Many DApps have defining characteristics that are implementation-specific rather
than expressions of overall DApp design goals. These aspects are mentioned here
as specific non-goals of Blockstack applications.
### DApps have smart contracts
Decentralized apps pre-date blockchains and smart contracts, and even today
there are popular DApps that do not need them. Examples include pre-Microsoft
Skype (which was peer-topeer), Mastadon, IRC, and email. All Blockstack DApps
do not use smart contracts at all.
Another word for "smart contract" is "replicated state machine." Some DApps
need each peer to execute the same sequence of operations in order to fulfill
their business needs (in which case a smart contract would be appropriate),
but many do not.
### DApps have tokens and/or non-fungible assets
Similar to smart contracts, DApps pre-date tokens and non-fungible assets.
While having a crypto token or asset can help incentivize DApp deployment and
usage, they are not strictly necessary for their operation.
### DApps use a blockchain
Blockchains are a new tool for DApp developers to help coordinate peers, but
they are just that -- a tool. Sometimes they're the right tool for the job, and
sometimes they are not.
## Dapps serve users
Fundamentally, DApps should serve users by preserving user autonomy. To do so
the Blockstack principles prevent developers from profiting from either (a)
building abusive features into DApps like ad networks, or (b) neglecting users
by failing to build vital safety features like <a href="https://en.wikipedia.org/wiki/Shadow_banning" target="\_blank">shadowbans</a>. Developers cannot profit from abusive features or neglectful designs.
Because Blockstack applications allow users to own their identity and data and
has free choice of clients, the user can simply stop or avoid using bad DApps
with near-zero switching cost. This isn't to say that DApps can't be profitable.
DApps can still make money for their developers, such as by offering content
subscriptions or paid-for add-ons. They can broker with third parties on behalf
of their users to watch ads or share data in exchange for tokens.
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