blockfrost_openapi/models/block_content.rs
1/*
2 * Blockfrost.io ~ API Documentation
3 *
4 * Blockfrost is an API as a service that allows users to interact with the Cardano blockchain and parts of its ecosystem. ## Tokens After signing up on https://blockfrost.io, a `project_id` token is automatically generated for each project. HTTP header of your request MUST include this `project_id` in order to authenticate against Blockfrost servers. ## Available networks At the moment, you can use the following networks. Please, note that each network has its own `project_id`. <table> <tbody> <tr> <td> <b>Network</b> </td> <td> <b>Endpoint</b> </td> </tr> <tr> <td>Cardano mainnet</td> <td> <code>https://cardano-mainnet.blockfrost.io/api/v0</code> </td> </tr> <tr> <td>Cardano preprod</td> <td> <code>https://cardano-preprod.blockfrost.io/api/v0</code> </td> </tr> <tr> <td>Cardano preview</td> <td> <code>https://cardano-preview.blockfrost.io/api/v0</code> </td> </tr> <tr> <td>InterPlanetary File System</td> <td> <code>https://ipfs.blockfrost.io/api/v0</code> </td> </tr> <tr> <td>Milkomeda mainnet</td> <td> <code>https://milkomeda-mainnet.blockfrost.io/api/v0</code> </td> </tr> <tr> <td>Milkomeda testnet</td> <td> <code>https://milkomeda-testnet.blockfrost.io/api/v0</code> </td> </tr> </tbody> </table> ## Milkomeda <p> <span> For more information about how to use Milkomeda as well as the list of available endpoints, see the <a href=\"https://blockfrost.dev/start-building/milkomeda\" target=\"_blank\">Milkomeda section</a>. </span> </p> ## Concepts * All endpoints return either a JSON object or an array. * Data is returned in *ascending* (oldest first, newest last) order, if not stated otherwise. * You might use the `?order=desc` query parameter to reverse this order. * By default, we return 100 results at a time. You have to use `?page=2` to list through the results. * All time and timestamp related fields (except `server_time`) are in seconds of UNIX time. * All amounts are returned in Lovelaces, where 1 ADA = 1 000 000 Lovelaces. * Addresses, accounts and pool IDs are in Bech32 format. * All values are case sensitive. * All hex encoded values are lower case. * Examples are not based on real data. Any resemblance to actual events is purely coincidental. * We allow to upload files up to 100MB of size to IPFS. This might increase in the future. * Only pinned IPFS files are counted towards the IPFS quota. * Non-pinned IPFS files are subject to regular garbage collection and will be removed unless pinned. * We allow maximum of 100 queued pins per IPFS user. ## Errors ### HTTP Status codes The following are HTTP status code your application might receive when reaching Blockfrost endpoints and it should handle all of these cases. * HTTP `400` return code is used when the request is not valid. * HTTP `402` return code is used when the projects exceed their daily request limit. * HTTP `403` return code is used when the request is not authenticated. * HTTP `404` return code is used when the resource doesn't exist. * HTTP `418` return code is used when the user has been auto-banned for flooding too much after previously receiving error code `402` or `429`. * HTTP `425` return code is used in Cardano networks, when the user has submitted a transaction when the mempool is already full, not accepting new txs straight away. * HTTP `425` return code is used in IPFS network, when the user has submitted a pin when the pin queue is already full, not accepting new pins straight away. * HTTP `429` return code is used when the user has sent too many requests in a given amount of time and therefore has been rate-limited. * HTTP `500` return code is used when our endpoints are having a problem. ### Error codes An internal error code number is used for better indication of the error in question. It is passed using the following payload. ```json { \"status_code\": 403, \"error\": \"Forbidden\", \"message\": \"Invalid project token.\" } ``` ## Limits There are two types of limits we are enforcing: The first depends on your plan and is the number of request we allow per day. We defined the day from midnight to midnight of UTC time. The second is rate limiting. We limit an end user, distinguished by IP address, to 10 requests per second. On top of that, we allow each user to send burst of 500 requests, which cools off at rate of 10 requests per second. In essence, a user is allowed to make another whole burst after (currently) 500/10 = 50 seconds. E.g. if a user attempts to make a call 3 seconds after whole burst, 30 requests will be processed. We believe this should be sufficient for most of the use cases. If it is not and you have a specific use case, please get in touch with us, and we will make sure to take it into account as much as we can. ## SDKs We support a number of SDKs that will help you in developing your application on top of Blockfrost. <table> <tbody> <tr> <td><b>Programming language</b></td> <td><b>SDK</b></td> </tr> <tr> <td>JavaScript</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-js\">blockfrost-js</a> </td> </tr> <tr> <td>Haskell</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-haskell\">blockfrost-haskell</a> </td> </tr> <tr> <td>Python</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-python\">blockfrost-python</a> </td> </tr> <tr> <td>Rust</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-rust\">blockfrost-rust</a> </td> </tr> <tr> <td>Golang</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-go\">blockfrost-go</a> </td> </tr> <tr> <td>Ruby</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-ruby\">blockfrost-ruby</a> </td> </tr> <tr> <td>Java</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-java\">blockfrost-java</a> </td> </tr> <tr> <td>Scala</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-scala\">blockfrost-scala</a> </td> </tr> <tr> <td>Swift</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-swift\">blockfrost-swift</a> </td> </tr> <tr> <td>Kotlin</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-kotlin\">blockfrost-kotlin</a> </td> </tr> <tr> <td>Elixir</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-elixir\">blockfrost-elixir</a> </td> </tr> <tr> <td>.NET</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-dotnet\">blockfrost-dotnet</a> </td> </tr> <tr> <td>Arduino</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-arduino\">blockfrost-arduino</a> </td> </tr> <tr> <td>PHP</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-php\">blockfrost-php</a> </td> </tr> <tr> <td>Crystal</td> <td> <a href=\"https://github.com/blockfrost/blockfrost-crystal\">blockfrost-crystal</a> </td> </tr> </tbody> </table>
5 *
6 * The version of the OpenAPI document: 0.1.69
7 * Contact: contact@blockfrost.io
8 * Generated by: https://openapi-generator.tech
9 */
10
11use crate::models;
12use serde::{Deserialize, Serialize};
13
14#[derive(Clone, Default, Debug, PartialEq, Serialize, Deserialize)]
15pub struct BlockContent {
16 /// Block creation time in UNIX time
17 #[serde(rename = "time")]
18 pub time: i32,
19 /// Block number
20 #[serde(rename = "height", deserialize_with = "Option::deserialize")]
21 pub height: Option<i32>,
22 /// Hash of the block
23 #[serde(rename = "hash")]
24 pub hash: String,
25 /// Slot number
26 #[serde(rename = "slot", deserialize_with = "Option::deserialize")]
27 pub slot: Option<i32>,
28 /// Epoch number
29 #[serde(rename = "epoch", deserialize_with = "Option::deserialize")]
30 pub epoch: Option<i32>,
31 /// Slot within the epoch
32 #[serde(rename = "epoch_slot", deserialize_with = "Option::deserialize")]
33 pub epoch_slot: Option<i32>,
34 /// Bech32 ID of the slot leader or specific block description in case there is no slot leader
35 #[serde(rename = "slot_leader")]
36 pub slot_leader: String,
37 /// Block size in Bytes
38 #[serde(rename = "size")]
39 pub size: i32,
40 /// Number of transactions in the block
41 #[serde(rename = "tx_count")]
42 pub tx_count: i32,
43 /// Total output within the block in Lovelaces
44 #[serde(rename = "output", deserialize_with = "Option::deserialize")]
45 pub output: Option<String>,
46 /// Total fees within the block in Lovelaces
47 #[serde(rename = "fees", deserialize_with = "Option::deserialize")]
48 pub fees: Option<String>,
49 /// VRF key of the block
50 #[serde(rename = "block_vrf", deserialize_with = "Option::deserialize")]
51 pub block_vrf: Option<String>,
52 /// The hash of the operational certificate of the block producer
53 #[serde(rename = "op_cert", deserialize_with = "Option::deserialize")]
54 pub op_cert: Option<String>,
55 /// The value of the counter used to produce the operational certificate
56 #[serde(rename = "op_cert_counter", deserialize_with = "Option::deserialize")]
57 pub op_cert_counter: Option<String>,
58 /// Hash of the previous block
59 #[serde(rename = "previous_block", deserialize_with = "Option::deserialize")]
60 pub previous_block: Option<String>,
61 /// Hash of the next block
62 #[serde(rename = "next_block", deserialize_with = "Option::deserialize")]
63 pub next_block: Option<String>,
64 /// Number of block confirmations
65 #[serde(rename = "confirmations")]
66 pub confirmations: i32,
67}
68
69impl BlockContent {
70 pub fn new(time: i32, height: Option<i32>, hash: String, slot: Option<i32>, epoch: Option<i32>, epoch_slot: Option<i32>, slot_leader: String, size: i32, tx_count: i32, output: Option<String>, fees: Option<String>, block_vrf: Option<String>, op_cert: Option<String>, op_cert_counter: Option<String>, previous_block: Option<String>, next_block: Option<String>, confirmations: i32) -> BlockContent {
71 BlockContent {
72 time,
73 height,
74 hash,
75 slot,
76 epoch,
77 epoch_slot,
78 slot_leader,
79 size,
80 tx_count,
81 output,
82 fees,
83 block_vrf,
84 op_cert,
85 op_cert_counter,
86 previous_block,
87 next_block,
88 confirmations,
89 }
90 }
91}
92