podman_autogen_api/models/linux_resources.rs
1/*
2 * supports a RESTful API for the Libpod library
3 *
4 * This documentation describes the Podman v2.x+ RESTful API. It consists of a Docker-compatible API and a Libpod API providing support for Podman’s unique features such as pods. To start the service and keep it running for 5,000 seconds (-t 0 runs forever): podman system service -t 5000 & You can then use cURL on the socket using requests documented below. NOTE: if you install the package podman-docker, it will create a symbolic link for /run/docker.sock to /run/podman/podman.sock NOTE: Some fields in the API response JSON are encoded as omitempty, which means that if said field has a zero value, they will not be encoded in the API response. This is a feature to help reduce the size of the JSON responses returned via the API. NOTE: Due to the limitations of [go-swagger](https://github.com/go-swagger/go-swagger), some field values that have a complex type show up as null in the docs as well as in the API responses. This is because the zero value for the field type is null. The field description in the docs will state what type the field is expected to be for such cases. See podman-system-service(1) for more information. Quick Examples: 'podman info' curl --unix-socket /run/podman/podman.sock http://d/v5.0.0/libpod/info 'podman pull quay.io/containers/podman' curl -XPOST --unix-socket /run/podman/podman.sock -v 'http://d/v5.0.0/images/create?fromImage=quay.io%2Fcontainers%2Fpodman' 'podman list images' curl --unix-socket /run/podman/podman.sock -v 'http://d/v5.0.0/libpod/images/json' | jq
5 *
6 * The version of the OpenAPI document: 5.0.0
7 * Contact: podman@lists.podman.io
8 * Generated by: https://openapi-generator.tech
9 */
10
11use crate::models;
12use serde::{Deserialize, Serialize};
13
14/// LinuxResources : LinuxResources has container runtime resource constraints
15#[derive(Clone, Default, Debug, PartialEq, Serialize, Deserialize)]
16pub struct LinuxResources {
17 #[serde(rename = "blockIO", skip_serializing_if = "Option::is_none")]
18 pub block_io: Option<Box<models::LinuxBlockIo>>,
19 #[serde(rename = "cpu", skip_serializing_if = "Option::is_none")]
20 pub cpu: Option<Box<models::LinuxCpu>>,
21 /// Devices configures the device allowlist.
22 #[serde(rename = "devices", skip_serializing_if = "Option::is_none")]
23 pub devices: Option<Vec<models::LinuxDeviceCgroup>>,
24 /// Hugetlb limits (in bytes). Default to reservation limits if supported.
25 #[serde(rename = "hugepageLimits", skip_serializing_if = "Option::is_none")]
26 pub hugepage_limits: Option<Vec<models::LinuxHugepageLimit>>,
27 #[serde(rename = "memory", skip_serializing_if = "Option::is_none")]
28 pub memory: Option<Box<models::LinuxMemory>>,
29 #[serde(rename = "network", skip_serializing_if = "Option::is_none")]
30 pub network: Option<Box<models::LinuxNetwork>>,
31 #[serde(rename = "pids", skip_serializing_if = "Option::is_none")]
32 pub pids: Option<Box<models::LinuxPids>>,
33 /// Rdma resource restriction configuration. Limits are a set of key value pairs that define RDMA resource limits, where the key is device name and value is resource limits.
34 #[serde(rename = "rdma", skip_serializing_if = "Option::is_none")]
35 pub rdma: Option<std::collections::HashMap<String, models::LinuxRdma>>,
36 /// Unified resources.
37 #[serde(rename = "unified", skip_serializing_if = "Option::is_none")]
38 pub unified: Option<std::collections::HashMap<String, String>>,
39}
40
41impl LinuxResources {
42 /// LinuxResources has container runtime resource constraints
43 pub fn new() -> LinuxResources {
44 LinuxResources {
45 block_io: None,
46 cpu: None,
47 devices: None,
48 hugepage_limits: None,
49 memory: None,
50 network: None,
51 pids: None,
52 rdma: None,
53 unified: None,
54 }
55 }
56}