1
0
mirror of https://github.com/oceanprotocol/docs.git synced 2024-11-01 15:55:34 +01:00
docs/developers/storage.md
2023-06-13 13:06:59 +03:00

3.9 KiB

title description
Storage Specifications Specification of storage options for assets in Ocean Protocol.

Storage Specifications

Ocean does not handle the actual storage of files directly. The files are stored via other services which are then specified within the DDO.

During the publish process, file URLs must be encrypted with a respective Provider API call before storing the DDO on-chain. For this, you need to send the following object to Provider (where "files" contains one or more storage objects):

{
  "datatokenAddress":"0x1",
  "nftAddress": "0x2",
  "files": [
    ...
  ]
}

The remainder of this document specifies the different types of storage objects that are supported:

Static URLs.

Parameters:

  • url - File url, required
  • method - The HTTP method, required
  • headers - Additional HTTP headers, optional
{
    "type": "url",
    "url": "https://url.com/file1.csv",
    "method": "GET",
    "headers":
    {
        "Authorization": "Bearer 123",
        "APIKEY": "124",
    }
}

Interplanetary File System

IPFS

The Interplanetary File System (IPFS) is a distributed file storage protocol that allows computers all over the globe to store and serve files as part of a giant peer-to-peer network. Any computer, anywhere in the world, can download the IPFS software and start hosting and serving files.

Parameters:

  • hash - The file hash
{
	"type": "ipfs",
	"hash": "XXX"
}

GraphQL

GraphQL

GraphQL is a query language for APIs and a runtime for fulfilling those queries with your existing data.

Parameters:

  • url - Server endpoint url, required
  • query - The query to be executed, required
  • headers - Additional HTTP headers, optional
{
	"type": "graphql",
	"url": "http://172.15.0.15:8000/subgraphs/name/oceanprotocol/ocean-subgraph",
    	"headers":{
        	"Authorization": "Bearer 123",
        	"APIKEY": "124",
    	},
	"query": """query{
            nfts(orderBy: createdTimestamp,orderDirection:desc){
                 id
                 symbol
                 createdTimestamp
            }
          }"""
}

Smart Contract Data

Use a smart contract as data source.

Parameters:

  • chainId - The chainId used to query the contract, required
  • address - The smartcontract address, required
  • abi - The function abi (NOT the entire contract abi), required
{
	"type": "smartcontract",
	"chainId": 1,
	"address": "0x8149276f275EEFAc110D74AFE8AFECEaeC7d1593",
	"abi": {
			"inputs": [],
			"name": "swapOceanFee",
			"outputs": [{"internalType": "uint256", "name": "", "type": "uint256"}],
			"stateMutability": "view",
			"type": "function",
		}
}

Arweave

Arweave is a decentralized data storage that allows to permanently store files over a distributed network of computers.

Parameters:

  • transactionId - The transaction identifier
{
    {
    "type": "arweave",
    "transactionId": "a4qJoQZa1poIv5guEzkfgZYSAD0uYm7Vw4zm_tCswVQ",
  }
}

First class integrations supported in the future : Filecoin Storj SQL

A service can contain multiple files, using multiple storage types.

Example:

{
  "datatokenAddress": "0x1",
  "nftAddress": "0x2",
  "files": [
    {
      "type": "url",
      "url": "https://url.com/file1.csv",
      "method": "GET"
    },
    {
      "type": "ipfs",
      "hash": "XXXX"
    }
  ]
}

To get information about the files after encryption, the /fileinfo endpoint of Provider returns based on a passed DID an array of file metadata (based on the file type):

[
  {
    "type": "url",
    "contentLength": 100,
    "contentType": "application/json"
  },
  {
    "type": "ipfs",
    "contentLength": 130,
    "contentType": "application/text"
  }
]

This only concerns metadata about a file, but never the file URLs. The only way to decrypt them is to exchange at least 1 datatoken based on the respective service pricing scheme.