This is a Decentralized Autonomous Organization built on the HIVE ecosystem. Customize it as you need
Powering: dlux.io (DLUX), and the 3speak.tv (SPK Claim Chain)
This software builds a network of peers that use HIVE to post and interpret transactions. This allows these peers to come to a consensus and elect peers to run tasks. Distributing computing in this way allows a vast amount of potential applications, DeFi, and oracle services. By distributing authority to perform transactions we can have a frictionless(no intermediate tokens, no central authority, no intrinsic fees) way to cross asset boundaries(HIVE/COMB) with no information asymmetries, ie Finance without securities by definition... just free speech: As no party is required to perfom any function, or prevented from performing any function, no promises are made by peers. Network Incentives (COMB) alone are enough to maintain trust.
- Send: Use custom_json with active permission, "ACJ" to send OPEN_TOEK tokens
- Illiquid voting state. Power up and down TOKEN for voting and delegation with ACJ
- Illiquid governance token for determining consensus and collateral.
- Chron to execute virtual operations: expire trades, powerdown stake, enforce penalties etc...
- Hive posts that benefit the configured account at > the configured % are:
- entered into a voting eligible content pool
- optionally have their IPFS content pinned with rtrades(3rd party service)
- can be programmed for any other function
- Users can vote on content with weight, using custom json with posting permissions.
- Have a daily pool of 10 full votes, and 1 in 10000 fine control of voting stake.
- State is saved to IPFS every 5 minutes for fast automatic starts and restarts, also used to determine consensus
- LevelDB with custom transactional handlers for transactional writes
- JSON express server API
- Token sales from the configured account with HIVE transfers
- Token sales set with pricing feedback.
- 2/3rds consensus algorithm
- automatic messaging to join network ad-hoc
- ability to delete node from list(turn off escrow queue)
- report consensus
- distribute TOKENS to configured account delegators and keep running total
- Used for auto voting on content with delegation
- pay nodes for processing trusted state, facilitating an escrow/dex transaction or running a smart contract.
- Effectively mining TOKENS with Hive Resource Credits
- establishes a 5%(configurable) inflation rate and distributes rewards to run the network
- Automated accounting post from configured account or mirrors
- Track interactions on a rolling feed via block_num and TXID.
- Automates IPFS pinning for OPEN_TOKEN votable content from configured account or mirrors
- 2 way DEX
- HIVE:OPEN_TOKEN & HBD:OPEN_TOKEN pairs
- On state trade history with daily reductions to high/low/volume
- Price/collateral controls from Volume Weighted Moving Average
- Enforcement of collateral
- Partial fills of DEX orders
1.0.0
- Multi-signature deterministic control of community capital
- NFT/smart contract system
This software is meant to be run as a public API for decentralized token data.
While it runs it verifies other nodes are operating correctly and confirms this by posting a customJson transaction to Hive. 288(configurable) messages will be required per day per node operator. More Resource Credits will be required to handle escrow transactions and transfers.
Deploy from heroku or similar and set ENV variables with a hive name and active key. Deploy from home computer for maximum account security.
account
- dlux-ioactive
- active posting key (will run escrow transactions for rewards) !! caution while in testing !!domain
-https://<token-api>.<a-domain>.com
orhttp://<static-ip>:<port>
- This software has been tested on Node.js version 10 through 15
- Node.js and git are required
Detailed Instructions also at /docs/setup.md Which include Docker and IPFS linking
- Clone this repository
git clone https://github.com/disregardfiat/honeycomb.git
- Navigate to the root directory of token
cd honeycomb
- Set configuration variables
nano .env
or your favorite editor
account=hiveaccount active=hiveactivekey
-
Quit editor and save changes
-
Install
npm install
- Start
npm start
- Script a way to automatically git pull to stay up to date with daily changes.
- Setup a system service to restart on quits to keep your node online.
- Choose a cloud provider
- Fork this repository
- Connect your fork to the cloud server
- Set configuration variables
account=hiveaccount
active=hiveactivekey
Branch this and find this part of config.js
TOKEN CONFIGS -- ALL COMMUNITY RUNNERS NEED THESE SAME VALUES
const starting_block = 49988008;
//from what block does your token start
const prefix = 'dlux_'
//Community token name for Custom Json IDs
const TOKEN = 'DLUX'
//Token name
const tag = 'dlux'
//https://the-front-end.com/`tag`/@`leader`/`permlink`
const jsonTokenName = 'dlux'
//what customJSON in Escrows and sends is looking for
const leader = 'dlux-io'
//Default account to pull state from, will post daily
const ben = 'dlux-io'
//Account where comment benifits trigger token action
const delegation = 'dlux-io'
//account people can delegate to for rewards
const msaccount = 'dac.escrow'
//account controlled by community leaders
const mainAPI = 'token.dlux.io'
//leaders API probably
const mainFE = 'dlux.io'
//frontend for content
const mainIPFS = 'a.ipfs.dlux.io'
//IPFS service
const mainICO = 'robotolux'
//Account collecting ICO HIVE
Then alter the state.js
with balances and other starting information
DLUX offers a decentralized protocol for minting and trading NFT's. These tokens can be minted, auctioned, transferred, sold, bought, held in escrow, bid on, or deleted.
This action transfers an NFT from one wallet to another.
- set = string representing the name of the NFT set
- uid = string representing the unique ID of the NFT to be transferred
- to = string representing the wallet to receive the transfer
json:{ set: 'dlux', uid: 'aa', to: 'somebody' }
This action builds a token escrow contract with payment price and expiration. Seller uses this action to create a contract for specific wallet to pay for and receive the NFT. As opposed to listing it publicly on the market which would allow any buyer to buy the token.
- set = string representing the name of the NFT set
- uid = string representing the unique ID of the NFT to be transferred
- to = string representing the wallet to receive the transfer
- price = integer representing price to complete the contract, with 3 precision.
json:{ set: 'dlux', uid: 'aa', to: 'somebody', price: 1000 // 1.000 DLUX }
This action fulfills an NFT escrow transfer via complete payment. Recipient of NFT uses this action to complete the contract and receive the NFT. If successfully, the price defined in the contract will be deducted from the wallet.
- set = string representing the name of the NFT set
- uid = string representing the unique ID of the NFT to be transferred
json:{ set: 'dlux', uid: 'aa' }
This action cancels an NFT transfer escrow contract.
- set = string representing the name of the NFT set
- uid = string representing the unique ID of the NFT to be transferred
json:{ set: 'dlux', uid: 'AA' }
This action will permanently delete an NFT. Cannot be undone. Changes NFT's owner to D.
- set = string representing the name of the NFT set
- uid = string representing the unique ID of the NFT to be transferred
json:{ set: 'dlux', uid: 'AA' }
This action defines a new NFT set.
- name = string
- type = integer
- script = string. see below example.
- permlink = string representing Hive content permlink pointing to NFT set announcement post
- start = string. Base-64 encoded, controls how many editions can be minted for this set
- end = string. Base-64 encoded, controls how many editions can be minted for this set.
- royalty = integer
- handling = string
- max_fee = integer
- bond = integer representing a burn value that can be preloaded into the contract
json: { "name":"dlux", "type": 1, "script": "QmPsxgySUZibuojuUWCMQJpT2uZhijY4Cf7tuJKR8gpZqq", // see example below "permlink": "disregardfiat/nft-announcement", "start": "00", "end": "==", // 4,096 unique mints for this set "royalty": 100, "handling": "svg", "max_fee": 10000000, "bond": 1000, //A burn value that can be preloaded into the contract }
//<html><head><script>
function compile (message, display) {
const colors = ['#000000', '#AA0000', '#00AA00', '#AA5500', '#0000AA', '#AA00AA', '#00AAAA', '#AAAAAA', '#555555', '#FF5555', '#55FF55', '#FFFF55', '#5555FF', '#FF55FF', '#55FFFF', '#FFFFFF']
const Base64 = {
_Rixits :
"0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz+=",
toFlags : function (rixits) {
var result = []
rixits = rixits.split('');
for (j = 0; j < rixits.length; j++) {
for (var i = 32; i >= 1; i = i/2){
if (this._Rixits.indexOf(rixits[j]) >= i){
result.unshift(1)
rixits[j] = this._Rixits[this._Rixits.indexOf(rixits[j]) - i]
} else {
result.unshift(0)
}
}
}
return result
}
}
const flags = Base64.toFlags(message)
var uColors = []
var picker = 0
for(var i = 0; i < 3; i++){
for(var j = 0; j < 4; j++){
if(flags[i*4 + j]){
picker += Math.pow(2,j)
}
}
uColors.push(colors[picker])
picker = 0
}
const SVG = '<svg id="Layer_1" data-name="Layer 1" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 333 333"><defs><style>.cls-1{fill:#393d49;}.cls-2' + uColors[0].replace('#', '') + '{fill:' + uColors[0] + ';}.cls-3' + uColors[1].replace('#', '') + '{fill:' + uColors[1] + ';}.cls-4' + uColors[2].replace('#', '') + '{fill:' + uColors[2] + ';}</style></defs><rect class="cls-1" width="333" height="333" rx="33.3"/><polygon class="cls-2' + uColors[0].replace('#', '') + '" points="180.51 142.86 180.22 142.86 123.17 46.14 207.53 44.57 214.82 56.49 144.19 57.9 151.11 69.33 165.81 93.63 180.52 117.94 187.66 129.75 201.54 129.74 229.98 129.74 257.94 129.74 271.94 129.74 236.41 68.54 249.57 68.67 292.68 142.08 180.51 142.86"/><polygon class="cls-3' + uColors[1].replace('#', '') + '" points="123.17 46.14 180.22 142.86 180.51 142.86 173.73 154.38 173.48 154.38 116.46 58.51 123.17 46.14"/><polygon class="cls-4' + uColors[2].replace('#', '') + '" points="180.06 68.94 151.11 69.33 144.19 57.9 214.82 56.49 180.52 117.94 173.07 105.61 193.51 68.76 180.11 68.94 180.06 68.94"/><polygon class="cls-2' + uColors[0].replace('#', '') + '" points="81.49 69.81 95.22 69.9 152.32 166.28 137.95 166.24 81.49 69.81"/><polygon class="cls-3' + uColors[1].replace('#', '') + '" points="103.73 203.78 117.29 178.81 123.88 166.69 116.86 154.7 102.5 130.16 88.38 106.03 81.31 93.94 46.42 155.51 39.89 144.09 81.49 69.81 137.95 166.24 84.27 264.56 40.32 192.55 46.93 180.23 83.81 240.48 90.18 228.75 103.73 203.78"/><polygon class="cls-3' + uColors[1].replace('#', '') + '" points="180.11 68.94 193.51 68.76 173.07 105.61 180.52 117.94 165.81 93.63 180.06 68.94 180.11 68.94"/><polygon class="cls-3' + uColors[1].replace('#', '') + '" points="201.54 129.53 236.29 68.47 236.41 68.54 271.94 129.74 257.94 129.74 257.94 129.68 243.57 105.23 236.13 92.56 215.68 129.32 201.54 129.53"/><polygon class="cls-4' + uColors[2].replace('#', '') + '" points="81.31 93.94 88.38 106.03 88.33 106.06 74.48 130.81 67.31 143.63 109.36 142.71 116.68 154.81 46.42 155.66 46.42 155.51 81.31 93.94"/><polygon class="cls-4' + uColors[2].replace('#', '') + '" points="236.13 92.56 243.57 105.23 243.35 105.36 229.98 129.25 229.98 129.74 201.54 129.74 201.54 129.53 215.68 129.32 236.13 92.56"/><polygon class="cls-2' + uColors[0].replace('#', '') + '" points="102.5 130.16 116.86 154.7 116.68 154.81 109.36 142.71 67.31 143.63 74.48 130.81 74.71 130.93 102.07 130.41 102.5 130.16"/><polygon class="cls-4' + uColors[2].replace('#', '') + '" points="173.73 154.38 180.51 142.86 292.68 142.08 285.67 153.89 173.73 154.38"/><polygon class="cls-4' + uColors[2].replace('#', '') + '" points="137.95 166.24 152.32 166.28 152.47 166.52 98.34 264.11 84.27 264.56 137.95 166.24"/><polygon class="cls-2' + uColors[0].replace('#', '') + '" points="75.22 203.95 90.18 228.75 83.81 240.48 46.93 180.23 117.29 178.81 110.41 191.47 68.27 192.43 75.2 203.91 75.22 203.95"/><polygon class="cls-4' + uColors[2].replace('#', '') + '" points="117.29 178.81 103.73 203.78 75.22 203.95 75.2 203.91 68.27 192.43 110.41 191.47 117.29 178.81"/><polygon class="cls-2' + uColors[0].replace('#', '') + '" points="173.73 178.97 284.69 177.27 293.11 190.05 181.29 191.19 173.73 178.97 173.73 178.97"/><polygon class="cls-3' + uColors[1].replace('#', '') + '" points="173.45 178.98 173.73 178.97 173.73 178.97 181.29 191.19 125.66 288.43 118.67 276.21 173.45 178.98"/><polygon class="cls-4' + uColors[2].replace('#', '') + '" points="230.69 203.13 216.31 203.23 202.17 203.32 188.28 203.42 181.41 215.38 167.24 240.01 153.07 264.63 146.42 276.21 217.06 276.06 210.03 288.14 125.66 288.43 181.29 191.19 293.11 190.05 251.53 263.12 238.38 263.54 272.65 202.84 257.89 202.95 230.69 203.13"/><polygon class="cls-3' + uColors[1].replace('#', '') + '" points="202.17 203.32 216.31 203.23 237.56 239.53 244.7 226.68 257.89 202.95 272.65 202.84 238.38 263.54 238.25 263.61 202.17 203.32"/><polygon class="cls-2' + uColors[0].replace('#', '') + '" points="216.31 203.23 230.69 203.13 244.5 226.57 244.7 226.68 237.56 239.53 216.31 203.23"/><polygon class="cls-3' + uColors[1].replace('#', '') + '" points="167.24 240.01 181.41 215.38 174.24 227.88 195.49 264.27 182.08 264.38 182.03 264.38 167.24 240.01"/><polygon class="cls-2' + uColors[0].replace('#', '') + '" points="182.03 264.38 182.08 264.38 195.49 264.27 174.24 227.88 181.41 215.38 217.06 276.06 146.42 276.21 153.07 264.63 182.03 264.38"/></svg>'
if(display){
document.getElementById('body').innerHTML = SVG
} else {
return {HTML:SVG, attributes:[{name:'Color 1', value: uColors[0]},{name:'Color 2', value: uColors[1]},{name:'Color 3', value: uColors[2]}], sealed:''}
}
}
//</script>
/*
//<script>
if (window.addEventListener) {
window.addEventListener("message", onMessage, false);
}
else if (window.attachEvent) {
window.attachEvent("onmessage", onMessage, false);
}
function onMessage(event) {
var data = event.data;
if (typeof(window[data.func]) == "function") {
const got = window[data.func].call(null, data.message);
window.parent.postMessage({
'func': 'compiled',
'message': got
}, "*");
}
}
function onLoad(id){
window.parent.postMessage({
'func': 'loaded',
'message': id
}, "*");
}
//</script>
*/
//</head>
//<body id="body">Append ?NFT_UID to the address bar to see that NFT. "...html?A6"<script>const uid = location.href.split('?')[1]; if(uid){compile(uid, true)}else{onLoad(uid)}</script></body></html>
The script should return:
{HTML:SVG, attributes:[{name:'Color 1', value: uColors[0]},{name:'Color 2', value: uColors[1]},{name:'Color 3', value: uColors[2]}], sealed:''} HTML, which may include Base64 Imgs, GTLF, etc... plus an array of attributes, and optionally a sealed picture
This action mints a new NFT
- set = string representing the name of the NFT set
json:{ set: "dlux" }
This action lists an NFT for auction on the market. Temporarily changes owner to 'ah'.
- set = string representing the name of the NFT set
- uid = string representing the unique ID of the NFT to be transferred
- price = integer with 3 precision represent the starting price
- now = integer representing 'buy it now' price. Not implemented.
- time = integer representing the number of days before auction is closed
json:{ set: 'dlux', uid: 'AA', price: 1000, // 1.000 DLUX now: 10000, // not implemented time: 7 //integer days }
This action makes a bid for an active NFT action
- set = string representing the name of the NFT set
- uid = string representing the unique ID of the NFT to be transferred
- bid_amount = integer representing amount to bid, with 3 precision. i.e. to bid 10.000 tokens, use 10000.
json:{ set: 'dlux', uid: 'AA', bid_amount: 1000 }
This lists an NFT for sale on the market.
- set = string representing the name of the NFT set
- uid = string representing the unique ID of the NFT to be transferred
- price = integer representing amount to sell the NFT for, with 3 precision. i.e. to list for 10.000 tokens, use 10000. Default value = 1000.
json:{ set: 'dlux', uid: 'AA', price: 1000 // 1.000 DLUX }
- set = string representing the name of the NFT set
- uid = string representing the unique ID of the NFT to be transferred
- price = integer representing amount to sell the NFT for, with 3 precision. i.e. to list for 10.000 tokens, use 10000.
json:{ set: 'dlux', uid: 'AA', price: 1000 // 1.000 DLUX }
This action cancels an NFT market sale listing
- set = string representing the name of the NFT set
- uid = string representing the unique ID of the NFT to be transferred
json:{ set: 'dlux', uid: 'AA' }
Similar to NFTs, DLUX offers a decentralized protocol for creating and trading NFT's. These tokens can be airdropped, auctioned, transferred, sold, bought, held in escrow, or bid on.
This action transfers a FT from wallet to wallet.
- set = string representing the name of the NFT set
- to = string representing wallet to transfer to
json:{ set: 'dlux', to: 'somebody' }
This action airdrops tokens to a list of wallets.
- set = string representing the name of the NFT set
- to = List of string representing wallet to airdrop to
json:{ set: 'dlux', to: ['somebody','someother'] }
This action creates escrow contract for a token.
- set = string representing the name of the NFT set
Not implemented
This action completes escrow for a token.
- set = string representing the name of the NFT set
Not implemented
This action cancels escrow for a token.
- set = string representing the name of the NFT set
Not implemented
This action lists a token for sale on the market.
- set = string representing the name of the NFT set
Not implemented
This action places a buy order for token on the market.
- set = string representing the name of the NFT set
Not implemented
This action cancels the sale for a token on the market.
- set = string representing the name of the NFT set
Not implemented
This action lists a token up for action.
- set = string representing the name of the NFT set
Not implemented
This action enters an auction bid for a token.
- set = string representing the name of the NFT set
Not implemented