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NationTech:master NationTech:feat/cluster-dashboard NationTech:feat/opnsense-codegen NationTech:feat/brocade-client-add-vlans NationTech:worktree-bridge-cse_012j1jB37XfjXvDGHUjHrKSj NationTech:chore/leftover-adr NationTech:feat/config_e2e_zitadel_openbao NationTech:example/vllm NationTech:feat/config_sqlite NationTech:chore/roadmap NationTech:feature/kvm-module NationTech:feat/rustfs NationTech:feat/harmony_assets NationTech:feat/brocade_assisted_setup NationTech:feat/cluster_alerting_score NationTech:e2e-tests-multicluster NationTech:fix/refactor_alert_receivers NationTech:feat/change-node-readiness-strategy NationTech:feat/zitadel NationTech:feat/improve-inventory-discovery NationTech:fix/monitoring_abstractions_openshift NationTech:feat/nats-jetstream NationTech:adr-nats-creds NationTech:feat/st_test NationTech:feat/dockerAutoinstall NationTech:chore/cleanup_hacluster NationTech:doc/cert-management NationTech:feat/certificate_management NationTech:adr/017-staleness-failover NationTech:fix/nats_non_root NationTech:feat/rebuild_inventory NationTech:fix/opnsense_update NationTech:feat/unshedulable_control_planes NationTech:feat/worker_okd_install NationTech:doc-and-braindump NationTech:fix/pxe_install NationTech:switch-client NationTech:okd_enable_user_workload_monitoring NationTech:configure-switch NationTech:fix/clippy NationTech:feat/gen-ca-cert NationTech:feat/okd_default_ingress_class NationTech:fix/add_routes_to_domain NationTech:secrets-prompt-editor NationTech:feat/multisiteApplication NationTech:feat/ceph-install-score NationTech:feat/ceph-osd-score NationTech:feat/ceph_validate_health NationTech:better-indicatif-progress-grouped NationTech:feat/crd-alertmanager-configs NationTech:better-cli NationTech:opnsense_upgrade NationTech:feat/monitoring-application-feature NationTech:dev/postgres NationTech:feat/cd/localdeploymentdemo NationTech:feat/webhook_receiver NationTech:feat/kube-prometheus NationTech:feat/init_k8s_tenant NationTech:feat/discord-webhook-receiver NationTech:feat/kube-prometheus-monitor NationTech:feat/tenantScore NationTech:feat/teams-integration NationTech:feat/slack-notifs NationTech:monitoring NationTech:runtime-profiles
NationTech:snapshot-latest
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compare: NationTech:feat/ceph-install-score
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NationTech:feat/cluster-dashboard NationTech:feat/opnsense-codegen NationTech:master NationTech:feat/brocade-client-add-vlans NationTech:worktree-bridge-cse_012j1jB37XfjXvDGHUjHrKSj NationTech:chore/leftover-adr NationTech:feat/config_e2e_zitadel_openbao NationTech:example/vllm NationTech:feat/config_sqlite NationTech:chore/roadmap NationTech:feature/kvm-module NationTech:feat/rustfs NationTech:feat/harmony_assets NationTech:feat/brocade_assisted_setup NationTech:feat/cluster_alerting_score NationTech:e2e-tests-multicluster NationTech:fix/refactor_alert_receivers NationTech:feat/change-node-readiness-strategy NationTech:feat/zitadel NationTech:feat/improve-inventory-discovery NationTech:fix/monitoring_abstractions_openshift NationTech:feat/nats-jetstream NationTech:adr-nats-creds NationTech:feat/st_test NationTech:feat/dockerAutoinstall NationTech:chore/cleanup_hacluster NationTech:doc/cert-management NationTech:feat/certificate_management NationTech:adr/017-staleness-failover NationTech:fix/nats_non_root NationTech:feat/rebuild_inventory NationTech:fix/opnsense_update NationTech:feat/unshedulable_control_planes NationTech:feat/worker_okd_install NationTech:doc-and-braindump NationTech:fix/pxe_install NationTech:switch-client NationTech:okd_enable_user_workload_monitoring NationTech:configure-switch NationTech:fix/clippy NationTech:feat/gen-ca-cert NationTech:feat/okd_default_ingress_class NationTech:fix/add_routes_to_domain NationTech:secrets-prompt-editor NationTech:feat/multisiteApplication NationTech:feat/ceph-install-score NationTech:feat/ceph-osd-score NationTech:feat/ceph_validate_health NationTech:better-indicatif-progress-grouped NationTech:feat/crd-alertmanager-configs NationTech:better-cli NationTech:opnsense_upgrade NationTech:feat/monitoring-application-feature NationTech:dev/postgres NationTech:feat/cd/localdeploymentdemo NationTech:feat/webhook_receiver NationTech:feat/kube-prometheus NationTech:feat/init_k8s_tenant NationTech:feat/discord-webhook-receiver NationTech:feat/kube-prometheus-monitor NationTech:feat/tenantScore NationTech:feat/teams-integration NationTech:feat/slack-notifs NationTech:monitoring NationTech:runtime-profiles
NationTech:snapshot-latest

1 Commits
feat/broca ... feat/ceph-

Author SHA1 Message Date
Willem
ac7fd53d5e wip: rook-ceph install score
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Run Check Script / check (pull_request) Failing after 20s
Details
2025-08-25 15:25:10 -04:00
592 changed files with 6419 additions and 51577 deletions
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target/
Dockerfile
.git
data
target
demos
Dockerfile

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@@ -2,5 +2,3 @@ bootx64.efi filter=lfs diff=lfs merge=lfs -text
grubx64.efi filter=lfs diff=lfs merge=lfs -text
initrd filter=lfs diff=lfs merge=lfs -text
linux filter=lfs diff=lfs merge=lfs -text
data/okd/bin/* filter=lfs diff=lfs merge=lfs -text
data/okd/installer_image/* filter=lfs diff=lfs merge=lfs -text

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### Harmony ###
harmony.log
data/okd/installation_files*
### Helm ###
# Chart dependencies
@@ -24,11 +23,3 @@ Cargo.lock
# MSVC Windows builds of rustc generate these, which store debugging information
*.pdb
.harmony_generated
# Useful to create ignore folders for temp files and notes
ignore
# Generated book
book

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[submodule "examples/try_rust_webapp/tryrust.org"]
path = examples/try_rust_webapp/tryrust.org
url = https://github.com/rust-dd/tryrust.org.git

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{
"db_name": "SQLite",
"query": "SELECT host_id, installation_device FROM host_role_mapping WHERE role = ?",
"describe": {
"columns": [
{
"name": "host_id",
"ordinal": 0,
"type_info": "Text"
},
{
"name": "installation_device",
"ordinal": 1,
"type_info": "Text"
}
],
"parameters": {
"Right": 1
},
"nullable": [
false,
true
]
},
"hash": "24f719d57144ecf4daa55f0aa5836c165872d70164401c0388e8d625f1b72d7b"
}

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{
"db_name": "SQLite",
"query": "\n INSERT INTO host_role_mapping (host_id, role, installation_device)\n VALUES (?, ?, ?)\n ",
"describe": {
"columns": [],
"parameters": {
"Right": 3
},
"nullable": []
},
"hash": "6fcc29cfdbdf3b2cee94a4844e227f09b245dd8f079832a9a7b774151cb03af6"
}

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{
"db_name": "SQLite",
"query": "\n SELECT\n p1.id,\n p1.version_id,\n p1.data as \"data: Json<PhysicalHost>\"\n FROM\n physical_hosts p1\n INNER JOIN (\n SELECT\n id,\n MAX(version_id) AS max_version\n FROM\n physical_hosts\n GROUP BY\n id\n ) p2 ON p1.id = p2.id AND p1.version_id = p2.max_version\n ",
"describe": {
"columns": [
{
"name": "id",
"ordinal": 0,
"type_info": "Text"
},
{
"name": "version_id",
"ordinal": 1,
"type_info": "Text"
},
{
"name": "data: Json<PhysicalHost>",
"ordinal": 2,
"type_info": "Blob"
}
],
"parameters": {
"Right": 0
},
"nullable": [
false,
false,
false
]
},
"hash": "8d247918eca10a88b784ee353db090c94a222115c543231f2140cba27bd0f067"
}

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{
"db_name": "SQLite",
"query": "SELECT id, version_id, data as \"data: Json<PhysicalHost>\" FROM physical_hosts WHERE id = ? ORDER BY version_id DESC LIMIT 1",
"describe": {
"columns": [
{
"name": "id",
"ordinal": 0,
"type_info": "Text"
},
{
"name": "version_id",
"ordinal": 1,
"type_info": "Text"
},
{
"name": "data: Json<PhysicalHost>",
"ordinal": 2,
"type_info": "Null"
}
],
"parameters": {
"Right": 1
},
"nullable": [
false,
false,
false
]
},
"hash": "934035c7ca6e064815393e4e049a7934b0a7fac04a4fe4b2a354f0443d630990"
}

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{
"db_name": "SQLite",
"query": "INSERT INTO physical_hosts (id, version_id, data) VALUES (?, ?, ?)",
"describe": {
"columns": [],
"parameters": {
"Right": 3
},
"nullable": []
},
"hash": "f10f615ee42129ffa293e46f2f893d65a237d31d24b74a29c6a8d8420d255ab8"
}

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[workspace]
resolver = "2"
members = [
"examples/*",
"private_repos/*",
"examples/*",
"harmony",
"harmony_types",
"harmony_macros",
"harmony_tui",
"harmony_execution",
"opnsense-config",
"opnsense-config-xml",
"harmony_cli",
@@ -16,13 +15,6 @@ members = [
"harmony_inventory_agent",
"harmony_secret_derive",
"harmony_secret",
"harmony_config_derive",
"harmony_config",
"brocade",
"harmony_agent",
"harmony_agent/deploy",
"harmony_node_readiness",
"harmony-k8s",
]
[workspace.package]
@@ -41,12 +33,10 @@ tokio = { version = "1.40", features = [
"macros",
"rt-multi-thread",
] }
tokio-retry = "0.3.0"
tokio-util = "0.7.15"
cidr = { features = ["serde"], version = "0.2" }
russh = "0.45"
russh-keys = "0.45"
rand = "0.9"
rand = "0.8"
url = "2.5"
kube = { version = "1.1.0", features = [
"config",
@@ -57,7 +47,6 @@ kube = { version = "1.1.0", features = [
"jsonpatch",
] }
k8s-openapi = { version = "0.25", features = ["v1_30"] }
# TODO replace with https://github.com/bourumir-wyngs/serde-saphyr as serde_yaml is deprecated https://github.com/sebastienrousseau/serde_yml
serde_yaml = "0.9"
serde-value = "0.7"
http = "1.2"
@@ -76,13 +65,3 @@ directories = "6.0.0"
thiserror = "2.0.14"
serde = { version = "1.0.209", features = ["derive", "rc"] }
serde_json = "1.0.127"
askama = "0.14"
sqlx = { version = "0.8", features = ["runtime-tokio", "sqlite"] }
reqwest = { version = "0.12", features = [
"blocking",
"stream",
"rustls-tls",
"http2",
"json",
], default-features = false }
assertor = "0.0.4"

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# Harmony
**Infrastructure orchestration that treats your platform like first-class code.**
Harmony is an open-source framework that brings the rigor of software engineering to infrastructure management. Write Rust code to define what you want, and Harmony handles the rest — from local development to production clusters.
# Harmony : Open-source infrastructure orchestration that treats your platform like first-class code
_By [NationTech](https://nationtech.io)_
[![Build](https://git.nationtech.io/NationTech/harmony/actions/workflows/check.yml/badge.svg)](https://git.nationtech.io/NationTech/harmony)
[![Build](https://git.nationtech.io/NationTech/harmony/actions/workflows/check.yml/badge.svg)](https://git.nationtech.io/nationtech/harmony)
[![License](https://img.shields.io/badge/license-AGPLv3-blue?style=flat-square)](LICENSE)
---
### Unify
## The Problem Harmony Solves
- **Project Scaffolding**
- **Infrastructure Provisioning**
- **Application Deployment**
- **Day-2 operations**
Modern infrastructure is messy. Your Kubernetes cluster needs monitoring. Your bare-metal servers need provisioning. Your applications need deployments. Each comes with its own tooling, its own configuration format, and its own failure modes.
All in **one strongly-typed Rust codebase**.
**What if you could describe your entire platform in one consistent language?**
### Deploy anywhere
That's Harmony. It unifies project scaffolding, infrastructure provisioning, application deployment, and day-2 operations into a single strongly-typed Rust codebase.
From a **developer laptop** to a **global production cluster**, a single **source of truth** drives the **full software lifecycle.**
---
## Three Principles That Make the Difference
## 1 · The Harmony Philosophy
| Principle | What It Means |
|-----------|---------------|
| **Infrastructure as Resilient Code** | Stop fighting with YAML and bash. Write type-safe Rust that you can test, version, and refactor like any other code. |
| **Prove It Works Before You Deploy** | Harmony verifies at _compile time_ that your application can actually run on your target infrastructure. No more "the config looks right but it doesn't work" surprises. |
| **One Unified Model** | Software and infrastructure are one system. Deploy from laptop to production cluster without switching contexts or tools. |
Infrastructure is essential, but it shouldnt be your core business. Harmony is built on three guiding principles that make modern platforms reliable, repeatable, and easy to reason about.
| Principle | What it means for you |
| -------------------------------------- | ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ |
| **Infrastructure as Resilient Code** | Replace sprawling YAML and bash scripts with type-safe Rust. Test, refactor, and version your platform just like application code. |
| **Prove It Works — Before You Deploy** | Harmony uses the compiler to verify that your applications needs match the target environments capabilities at **compile-time**, eliminating an entire class of runtime outages. |
| **One Unified Model** | Software and infrastructure are a single system. Harmony models them together, enabling deep automation—from bare-metal servers to Kubernetes workloads—with zero context switching. |
These principles surface as simple, ergonomic Rust APIs that let teams focus on their product while trusting the platform underneath.
---
## How It Works: The Core Concepts
## 2 · Quick Start
Harmony is built around three concepts that work together:
### Score — "What You Want"
A `Score` is a declarative description of desired state. Think of it as a "recipe" that says _what_ you want without specifying _how_ to get there.
```rust
// "I want a PostgreSQL cluster running with default settings"
let postgres = PostgreSQLScore {
config: PostgreSQLConfig {
cluster_name: "harmony-postgres-example".to_string(),
namespace: "harmony-postgres-example".to_string(),
..Default::default()
},
};
```
### Topology — "Where It Goes"
A `Topology` represents your infrastructure environment and its capabilities. It answers the question: "What can this environment actually do?"
```rust
// Deploy to a local K3D cluster, or any Kubernetes cluster via environment variables
K8sAnywhereTopology::from_env()
```
### Interpret — "How It Happens"
An `Interpret` is the execution logic that connects your `Score` to your `Topology`. It translates "what you want" into "what the infrastructure does."
**The Compile-Time Check:** Before your code ever runs, Harmony verifies that your `Score` is compatible with your `Topology`. If your application needs a feature your infrastructure doesn't provide, you get a compile error — not a runtime failure.
---
## What You Can Deploy
Harmony ships with ready-made Scores for:
**Data Services**
- PostgreSQL clusters (via CloudNativePG operator)
- Multi-site PostgreSQL with failover
**Kubernetes**
- Namespaces, Deployments, Ingress
- Helm charts
- cert-manager for TLS
- Monitoring (Prometheus, alerting, ntfy)
**Bare Metal / Infrastructure**
- OKD clusters from scratch
- OPNsense firewalls
- Network services (DNS, DHCP, TFTP)
- Brocade switch configuration
**And more:** Application deployment, tenant management, load balancing, and more.
---
## Quick Start: Deploy a PostgreSQL Cluster
This example provisions a local Kubernetes cluster (K3D) and deploys a PostgreSQL cluster on it — no external infrastructure required.
The snippet below spins up a complete **production-grade LAMP stack** with monitoring. Swap it for your own scores to deploy anything from microservices to machine-learning pipelines.
```rust
use harmony::{
data::Version,
inventory::Inventory,
modules::postgresql::{PostgreSQLScore, capability::PostgreSQLConfig},
topology::K8sAnywhereTopology,
maestro::Maestro,
modules::{
lamp::{LAMPConfig, LAMPScore},
monitoring::monitoring_alerting::MonitoringAlertingStackScore,
},
topology::{K8sAnywhereTopology, Url},
};
#[tokio::main]
async fn main() {
let postgres = PostgreSQLScore {
config: PostgreSQLConfig {
cluster_name: "harmony-postgres-example".to_string(),
namespace: "harmony-postgres-example".to_string(),
// 1. Describe what you want
let lamp_stack = LAMPScore {
name: "harmony-lamp-demo".into(),
domain: Url::Url(url::Url::parse("https://lampdemo.example.com").unwrap()),
php_version: Version::from("8.3.0").unwrap(),
config: LAMPConfig {
project_root: "./php".into(),
database_size: "4Gi".into(),
..Default::default()
},
};
// 2. Enhance with extra scores (monitoring, CI/CD, …)
let mut monitoring = MonitoringAlertingStackScore::new();
monitoring.namespace = Some(lamp_stack.config.namespace.clone());
// 3. Run your scores on the desired topology & inventory
harmony_cli::run(
Inventory::autoload(),
K8sAnywhereTopology::from_env(),
vec![Box::new(postgres)],
None,
)
.await
.unwrap();
Inventory::autoload(), // auto-detect hardware / kube-config
K8sAnywhereTopology::from_env(), // local k3d, CI, staging, prod…
vec![
Box::new(lamp_stack),
Box::new(monitoring)
],
None
).await.unwrap();
}
```
### What this actually does
When you compile and run this program:
1. **Compiles** the Harmony Score into an executable
2. **Connects** to `K8sAnywhereTopology` — which auto-provisions a local K3D cluster if none exists
3. **Installs** the CloudNativePG operator into the cluster (one-time setup)
4. **Creates** a PostgreSQL cluster with 1 instance and 1 GiB of storage
5. **Exposes** the PostgreSQL instance as a Kubernetes Service
### Prerequisites
- [Rust](https://rust-lang.org/tools/install) (edition 2024)
- [Docker](https://docs.docker.com/get-docker/) (for the local K3D cluster)
- [kubectl](https://kubernetes.io/docs/tasks/tools/install-kubectl/) (optional, for inspecting the cluster)
### Run it
Run it:
```bash
cargo run
```
Harmony analyses the code, shows an execution plan in a TUI, and applies it once you confirm. Same code, same binary—every environment.
---
## 3 · Core Concepts
| Term | One-liner |
| ---------------- | ---------------------------------------------------------------------------------------------------- |
| **Score<T>** | Declarative description of the desired state (e.g., `LAMPScore`). |
| **Interpret<T>** | Imperative logic that realises a `Score` on a specific environment. |
| **Topology** | An environment (local k3d, AWS, bare-metal) exposing verified _Capabilities_ (Kubernetes, DNS, …). |
| **Maestro** | Orchestrator that compiles Scores + Topology, ensuring all capabilities line up **at compile-time**. |
| **Inventory** | Optional catalogue of physical assets for bare-metal and edge deployments. |
A visual overview is in the diagram below.
[Harmony Core Architecture](docs/diagrams/Harmony_Core_Architecture.drawio.svg)
---
## 4 · Install
Prerequisites:
- Rust
- Docker (if you deploy locally)
- `kubectl` / `helm` for Kubernetes-based topologies
```bash
# Clone the repository
git clone https://git.nationtech.io/nationtech/harmony
cd harmony
# Build the project
cargo build --release
# Run the example
cargo run -p example-postgresql
```
Harmony will print its progress as it sets up the cluster and deploys PostgreSQL. When complete, you can inspect the deployment:
```bash
kubectl get pods -n harmony-postgres-example
kubectl get secret -n harmony-postgres-example harmony-postgres-example-db-user -o jsonpath='{.data.password}' | base64 -d
```
To connect to the database, forward the port:
```bash
kubectl port-forward -n harmony-postgres-example svc/harmony-postgres-example-rw 5432:5432
psql -h localhost -p 5432 -U postgres
```
To clean up, delete the K3D cluster:
```bash
k3d cluster delete harmony-postgres-example
cargo build --release # builds the CLI, TUI and libraries
```
---
## Environment Variables
## 5 · Learning More
`K8sAnywhereTopology::from_env()` reads the following environment variables to determine where and how to connect:
- **Architectural Decision Records** dive into the rationale
- [ADR-001 · Why Rust](adr/001-rust.md)
- [ADR-003 · Infrastructure Abstractions](adr/003-infrastructure-abstractions.md)
- [ADR-006 · Secret Management](adr/006-secret-management.md)
- [ADR-011 · Multi-Tenant Cluster](adr/011-multi-tenant-cluster.md)
| Variable | Default | Description |
|----------|---------|-------------|
| `KUBECONFIG` | `~/.kube/config` | Path to your kubeconfig file |
| `HARMONY_AUTOINSTALL` | `true` | Auto-provision a local K3D cluster if none found |
| `HARMONY_USE_LOCAL_K3D` | `true` | Always prefer local K3D over remote clusters |
| `HARMONY_PROFILE` | `dev` | Deployment profile: `dev`, `staging`, or `prod` |
| `HARMONY_K8S_CONTEXT` | _none_ | Use a specific kubeconfig context |
| `HARMONY_PUBLIC_DOMAIN` | _none_ | Public domain for ingress endpoints |
- **Extending Harmony** write new Scores / Interprets, add hardware like OPNsense firewalls, or embed Harmony in your own tooling (`/docs`).
To connect to an existing Kubernetes cluster instead of provisioning K3D:
```bash
# Point to your kubeconfig
export KUBECONFIG=/path/to/your/kubeconfig
export HARMONY_USE_LOCAL_K3D=false
export HARMONY_AUTOINSTALL=false
# Then run
cargo run -p example-postgresql
```
- **Community** discussions and roadmap live in [GitLab issues](https://git.nationtech.io/nationtech/harmony/-/issues). PRs, ideas, and feedback are welcome!
---
## Documentation
| I want to... | Start here |
|--------------|------------|
| Understand the core concepts | [Core Concepts](./docs/concepts.md) |
| Deploy my first application | [Getting Started Guide](./docs/guides/getting-started.md) |
| Explore available components | [Scores Catalog](./docs/catalogs/scores.md) · [Topologies Catalog](./docs/catalogs/topologies.md) |
| See a complete bare-metal deployment | [OKD on Bare Metal](./docs/use-cases/okd-on-bare-metal.md) |
| Build my own Score or Topology | [Developer Guide](./docs/guides/developer-guide.md) |
---
## Why Rust?
We chose Rust for the same reason you might: **reliability through type safety**.
Infrastructure code runs in production. It needs to be correct. Rust's ownership model and type system let us build a framework where:
- Invalid configurations fail at compile time, not at 3 AM
- Refactoring infrastructure is as safe as refactoring application code
- The compiler verifies that your platform can actually fulfill your requirements
See [ADR-001 · Why Rust](./adr/001-rust.md) for our full rationale.
---
## Architecture Decisions
Harmony's design is documented through Architecture Decision Records (ADRs):
- [ADR-001 · Why Rust](./adr/001-rust.md)
- [ADR-003 · Infrastructure Abstractions](./adr/003-infrastructure-abstractions.md)
- [ADR-006 · Secret Management](./adr/006-secret-management.md)
- [ADR-011 · Multi-Tenant Cluster](./adr/011-multi-tenant-cluster.md)
---
## License
## 6 · License
Harmony is released under the **GNU AGPL v3**.
> We choose a strong copyleft license to ensure the project—and every improvement to it—remains open and benefits the entire community.
> We choose a strong copyleft license to ensure the project—and every improvement to it—remains open and benefits the entire community. Fork it, enhance it, even out-innovate us; just keep it open.
See [LICENSE](LICENSE) for the full text.
---
_Made with ❤️ & 🦀 by NationTech and the Harmony community_
_Made with ❤️ & 🦀 by the NationTech and the Harmony community_

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docs/adr/000-ADR-Template.md → adr/000-ADR-Template.md
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docs/adr/001-rust.md → adr/001-rust.md
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docs/adr/002-hexagonal-architecture.md → adr/002-hexagonal-architecture.md
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docs/adr/003-abstractions/topology/src/main.rs → adr/003-abstractions/topology/src/main.rs
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docs/adr/003-abstractions/topology/src/main_claude37_2.rs → adr/003-abstractions/topology/src/main_claude37_2.rs
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docs/adr/003-abstractions/topology/src/main_claudev1.rs → adr/003-abstractions/topology/src/main_claudev1.rs
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docs/adr/003-abstractions/topology/src/main_gemini25pro.rs → adr/003-abstractions/topology/src/main_gemini25pro.rs
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docs/adr/003-abstractions/topology/src/main_geminifail.rs → adr/003-abstractions/topology/src/main_geminifail.rs
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docs/adr/003-abstractions/topology/src/main_right.rs → adr/003-abstractions/topology/src/main_right.rs
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docs/adr/003-abstractions/topology2/src/main_capabilities.rs → adr/003-abstractions/topology2/src/main_capabilities.rs
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docs/adr/003-abstractions/topology2/src/main_v4.rs → adr/003-abstractions/topology2/src/main_v4.rs
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docs/adr/003-infrastructure-abstractions.md → adr/003-infrastructure-abstractions.md
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docs/adr/005-interactive-project.md → adr/005-interactive-project.md
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docs/adr/006-secret-management.md → adr/006-secret-management.md
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## Status
Rejected : See ADR 020 ./020-interactive-configuration-crate.md
Proposed
### TODO [#3](https://git.nationtech.io/NationTech/harmony/issues/3):

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book.toml
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@@ -1,9 +0,0 @@
[book]
title = "Harmony"
description = "Infrastructure orchestration that treats your platform like first-class code"
src = "docs"
build-dir = "book"
authors = ["NationTech"]
[output.html]
mathjax-support = false

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brocade/Cargo.toml
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@@ -1,19 +0,0 @@
[package]
name = "brocade"
edition = "2024"
version.workspace = true
readme.workspace = true
license.workspace = true
[dependencies]
async-trait.workspace = true
harmony_types = { path = "../harmony_types" }
russh.workspace = true
russh-keys.workspace = true
tokio.workspace = true
log.workspace = true
env_logger.workspace = true
regex = "1.11.3"
harmony_secret = { path = "../harmony_secret" }
serde.workspace = true
schemars = "0.8"

75
brocade/examples/main.rs
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@@ -1,75 +0,0 @@
use std::net::{IpAddr, Ipv4Addr};
use brocade::{BrocadeOptions, ssh};
use harmony_secret::{Secret, SecretManager};
use harmony_types::switch::PortLocation;
use schemars::JsonSchema;
use serde::{Deserialize, Serialize};
#[derive(Secret, Clone, Debug, JsonSchema, Serialize, Deserialize)]
struct BrocadeSwitchAuth {
username: String,
password: String,
}
#[tokio::main]
async fn main() {
env_logger::Builder::from_env(env_logger::Env::default().default_filter_or("info")).init();
// let ip = IpAddr::V4(Ipv4Addr::new(10, 0, 0, 250)); // old brocade @ ianlet
let ip = IpAddr::V4(Ipv4Addr::new(127, 0, 0, 1)); // brocade @ sto1
// let ip = IpAddr::V4(Ipv4Addr::new(192, 168, 4, 11)); // brocade @ st
let switch_addresses = vec![ip];
let config = SecretManager::get_or_prompt::<BrocadeSwitchAuth>()
.await
.unwrap();
let brocade = brocade::init(
&switch_addresses,
&config.username,
&config.password,
&BrocadeOptions {
dry_run: true,
ssh: ssh::SshOptions {
port: 2222,
..Default::default()
},
..Default::default()
},
)
.await
.expect("Brocade client failed to connect");
let entries = brocade.get_stack_topology().await.unwrap();
println!("Stack topology: {entries:#?}");
let entries = brocade.get_interfaces().await.unwrap();
println!("Interfaces: {entries:#?}");
let version = brocade.version().await.unwrap();
println!("Version: {version:?}");
println!("--------------");
let mac_adddresses = brocade.get_mac_address_table().await.unwrap();
println!("VLAN\tMAC\t\t\tPORT");
for mac in mac_adddresses {
println!("{}\t{}\t{}", mac.vlan, mac.mac_address, mac.port);
}
println!("--------------");
todo!();
let channel_name = "1";
brocade.clear_port_channel(channel_name).await.unwrap();
println!("--------------");
let channel_id = brocade.find_available_channel_id().await.unwrap();
println!("--------------");
let channel_name = "HARMONY_LAG";
let ports = [PortLocation(2, 0, 35)];
brocade
.create_port_channel(channel_id, channel_name, &ports)
.await
.unwrap();
}

228
brocade/src/fast_iron.rs
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@@ -1,228 +0,0 @@
use super::BrocadeClient;
use crate::{
BrocadeInfo, Error, ExecutionMode, InterSwitchLink, InterfaceInfo, MacAddressEntry,
PortChannelId, PortOperatingMode, parse_brocade_mac_address, shell::BrocadeShell,
};
use async_trait::async_trait;
use harmony_types::switch::{PortDeclaration, PortLocation};
use log::{debug, info};
use regex::Regex;
use std::{collections::HashSet, str::FromStr};
#[derive(Debug)]
pub struct FastIronClient {
shell: BrocadeShell,
version: BrocadeInfo,
}
impl FastIronClient {
pub fn init(mut shell: BrocadeShell, version_info: BrocadeInfo) -> Self {
shell.before_all(vec!["skip-page-display".into()]);
shell.after_all(vec!["page".into()]);
Self {
shell,
version: version_info,
}
}
fn parse_mac_entry(&self, line: &str) -> Option<Result<MacAddressEntry, Error>> {
debug!("[Brocade] Parsing mac address entry: {line}");
let parts: Vec<&str> = line.split_whitespace().collect();
if parts.len() < 3 {
return None;
}
let (vlan, mac_address, port) = match parts.len() {
3 => (
u16::from_str(parts[0]).ok()?,
parse_brocade_mac_address(parts[1]).ok()?,
parts[2].to_string(),
),
_ => (
1,
parse_brocade_mac_address(parts[0]).ok()?,
parts[1].to_string(),
),
};
let port =
PortDeclaration::parse(&port).map_err(|e| Error::UnexpectedError(format!("{e}")));
match port {
Ok(p) => Some(Ok(MacAddressEntry {
vlan,
mac_address,
port: p,
})),
Err(e) => Some(Err(e)),
}
}
fn parse_stack_port_entry(&self, line: &str) -> Option<Result<InterSwitchLink, Error>> {
debug!("[Brocade] Parsing stack port entry: {line}");
let parts: Vec<&str> = line.split_whitespace().collect();
if parts.len() < 10 {
return None;
}
let local_port = PortLocation::from_str(parts[0]).ok()?;
Some(Ok(InterSwitchLink {
local_port,
remote_port: None,
}))
}
fn build_port_channel_commands(
&self,
channel_id: PortChannelId,
channel_name: &str,
ports: &[PortLocation],
) -> Vec<String> {
let mut commands = vec![
"configure terminal".to_string(),
format!("lag {channel_name} static id {channel_id}"),
];
for port in ports {
commands.push(format!("ports ethernet {port}"));
}
commands.push(format!("primary-port {}", ports[0]));
commands.push("deploy".into());
commands.push("exit".into());
commands.push("write memory".into());
commands.push("exit".into());
commands
}
}
#[async_trait]
impl BrocadeClient for FastIronClient {
async fn version(&self) -> Result<BrocadeInfo, Error> {
Ok(self.version.clone())
}
async fn get_mac_address_table(&self) -> Result<Vec<MacAddressEntry>, Error> {
info!("[Brocade] Showing MAC address table...");
let output = self
.shell
.run_command("show mac-address", ExecutionMode::Regular)
.await?;
output
.lines()
.skip(2)
.filter_map(|line| self.parse_mac_entry(line))
.collect()
}
async fn get_stack_topology(&self) -> Result<Vec<InterSwitchLink>, Error> {
let output = self
.shell
.run_command("show interface stack-ports", crate::ExecutionMode::Regular)
.await?;
output
.lines()
.skip(1)
.filter_map(|line| self.parse_stack_port_entry(line))
.collect()
}
async fn get_interfaces(&self) -> Result<Vec<InterfaceInfo>, Error> {
todo!()
}
async fn configure_interfaces(
&self,
_interfaces: &Vec<(String, PortOperatingMode)>,
) -> Result<(), Error> {
todo!()
}
async fn find_available_channel_id(&self) -> Result<PortChannelId, Error> {
info!("[Brocade] Finding next available channel id...");
let output = self
.shell
.run_command("show lag", ExecutionMode::Regular)
.await?;
let re = Regex::new(r"=== LAG .* ID\s+(\d+)").expect("Invalid regex");
let used_ids: HashSet<u8> = output
.lines()
.filter_map(|line| {
re.captures(line)
.and_then(|c| c.get(1))
.and_then(|id_match| id_match.as_str().parse().ok())
})
.collect();
let mut next_id: u8 = 1;
loop {
if !used_ids.contains(&next_id) {
break;
}
next_id += 1;
}
info!("[Brocade] Found channel id: {next_id}");
Ok(next_id)
}
async fn create_port_channel(
&self,
channel_id: PortChannelId,
channel_name: &str,
ports: &[PortLocation],
) -> Result<(), Error> {
info!(
"[Brocade] Configuring port-channel '{channel_name} {channel_id}' with ports: {ports:?}"
);
let commands = self.build_port_channel_commands(channel_id, channel_name, ports);
self.shell
.run_commands(commands, ExecutionMode::Privileged)
.await?;
info!("[Brocade] Port-channel '{channel_name}' configured.");
Ok(())
}
async fn clear_port_channel(&self, channel_name: &str) -> Result<(), Error> {
info!("[Brocade] Clearing port-channel: {channel_name}");
let commands = vec![
"configure terminal".to_string(),
format!("no lag {channel_name}"),
"write memory".to_string(),
];
self.shell
.run_commands(commands, ExecutionMode::Privileged)
.await?;
info!("[Brocade] Port-channel '{channel_name}' cleared.");
Ok(())
}
async fn enable_snmp(&self, user_name: &str, auth: &str, des: &str) -> Result<(), Error> {
let commands = vec![
"configure terminal".into(),
"snmp-server view ALL 1 included".into(),
"snmp-server group public v3 priv read ALL".into(),
format!(
"snmp-server user {user_name} groupname public auth md5 auth-password {auth} priv des priv-password {des}"
),
"exit".into(),
];
self.shell
.run_commands(commands, ExecutionMode::Regular)
.await?;
Ok(())
}
}

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brocade/src/lib.rs
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@@ -1,352 +0,0 @@
use std::net::IpAddr;
use std::{
fmt::{self, Display},
time::Duration,
};
use crate::network_operating_system::NetworkOperatingSystemClient;
use crate::{
fast_iron::FastIronClient,
shell::{BrocadeSession, BrocadeShell},
};
use async_trait::async_trait;
use harmony_types::net::MacAddress;
use harmony_types::switch::{PortDeclaration, PortLocation};
use regex::Regex;
use serde::Serialize;
mod fast_iron;
mod network_operating_system;
mod shell;
pub mod ssh;
#[derive(Default, Clone, Debug)]
pub struct BrocadeOptions {
pub dry_run: bool,
pub ssh: ssh::SshOptions,
pub timeouts: TimeoutConfig,
}
#[derive(Clone, Debug)]
pub struct TimeoutConfig {
pub shell_ready: Duration,
pub command_execution: Duration,
pub command_output: Duration,
pub cleanup: Duration,
pub message_wait: Duration,
}
impl Default for TimeoutConfig {
fn default() -> Self {
Self {
shell_ready: Duration::from_secs(10),
command_execution: Duration::from_secs(60), // Commands like `deploy` (for a LAG) can take a while
command_output: Duration::from_secs(5), // Delay to start logging "waiting for command output"
cleanup: Duration::from_secs(10),
message_wait: Duration::from_millis(500),
}
}
}
enum ExecutionMode {
Regular,
Privileged,
}
#[derive(Clone, Debug)]
pub struct BrocadeInfo {
os: BrocadeOs,
_version: String,
}
#[derive(Clone, Debug)]
pub enum BrocadeOs {
NetworkOperatingSystem,
FastIron,
Unknown,
}
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Clone)]
pub struct MacAddressEntry {
pub vlan: u16,
pub mac_address: MacAddress,
pub port: PortDeclaration,
}
pub type PortChannelId = u8;
/// Represents a single physical or logical link connecting two switches within a stack or fabric.
///
/// This structure provides a standardized view of the topology regardless of the
/// underlying Brocade OS configuration (stacking vs. fabric).
#[derive(Debug, PartialEq, Eq, Clone)]
pub struct InterSwitchLink {
/// The local port on the switch where the topology command was run.
pub local_port: PortLocation,
/// The port on the directly connected neighboring switch.
pub remote_port: Option<PortLocation>,
}
/// Represents the key running configuration status of a single switch interface.
#[derive(Debug, PartialEq, Eq, Clone)]
pub struct InterfaceInfo {
/// The full configuration name (e.g., "TenGigabitEthernet 1/0/1", "FortyGigabitEthernet 2/0/2").
pub name: String,
/// The physical location of the interface.
pub port_location: PortLocation,
/// The parsed type and name prefix of the interface.
pub interface_type: InterfaceType,
/// The primary configuration mode defining the interface's behavior (L2, L3, Fabric).
pub operating_mode: Option<PortOperatingMode>,
/// Indicates the current state of the interface.
pub status: InterfaceStatus,
}
/// Categorizes the functional type of a switch interface.
#[derive(Debug, PartialEq, Eq, Clone)]
pub enum InterfaceType {
/// Physical or virtual Ethernet interface (e.g., TenGigabitEthernet, FortyGigabitEthernet).
Ethernet(String),
}
impl fmt::Display for InterfaceType {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
InterfaceType::Ethernet(name) => write!(f, "{name}"),
}
}
}
/// Defines the primary configuration mode of a switch interface, representing mutually exclusive roles.
#[derive(Debug, PartialEq, Eq, Clone, Serialize)]
pub enum PortOperatingMode {
/// The interface is explicitly configured for Brocade fabric roles (ISL or Trunk enabled).
Fabric,
/// The interface is configured for standard Layer 2 switching as Trunk port (`switchport mode trunk`).
Trunk,
/// The interface is configured for standard Layer 2 switching as Access port (`switchport` without trunk mode).
Access,
}
/// Defines the possible status of an interface.
#[derive(Debug, PartialEq, Eq, Clone)]
pub enum InterfaceStatus {
/// The interface is connected.
Connected,
/// The interface is not connected and is not expected to be.
NotConnected,
/// The interface is not connected but is expected to be (configured with `no shutdown`).
SfpAbsent,
}
pub async fn init(
ip_addresses: &[IpAddr],
username: &str,
password: &str,
options: &BrocadeOptions,
) -> Result<Box<dyn BrocadeClient + Send + Sync>, Error> {
let shell = BrocadeShell::init(ip_addresses, username, password, options).await?;
let version_info = shell
.with_session(ExecutionMode::Regular, |session| {
Box::pin(get_brocade_info(session))
})
.await?;
Ok(match version_info.os {
BrocadeOs::FastIron => Box::new(FastIronClient::init(shell, version_info)),
BrocadeOs::NetworkOperatingSystem => {
Box::new(NetworkOperatingSystemClient::init(shell, version_info))
}
BrocadeOs::Unknown => todo!(),
})
}
#[async_trait]
pub trait BrocadeClient: std::fmt::Debug {
/// Retrieves the operating system and version details from the connected Brocade switch.
///
/// This is typically the first call made after establishing a connection to determine
/// the switch OS family (e.g., FastIron, NOS) for feature compatibility.
///
/// # Returns
///
/// A `BrocadeInfo` structure containing parsed OS type and version string.
async fn version(&self) -> Result<BrocadeInfo, Error>;
/// Retrieves the dynamically learned MAC address table from the switch.
///
/// This is crucial for discovering where specific network endpoints (MAC addresses)
/// are currently located on the physical ports.
///
/// # Returns
///
/// A vector of `MacAddressEntry`, where each entry typically contains VLAN, MAC address,
/// and the associated port name/index.
async fn get_mac_address_table(&self) -> Result<Vec<MacAddressEntry>, Error>;
/// Derives the physical connections used to link multiple switches together
/// to form a single logical entity (stack, fabric, etc.).
///
/// This abstracts the underlying configuration (e.g., stack ports, fabric ports)
/// to return a standardized view of the topology.
///
/// # Returns
///
/// A vector of `InterSwitchLink` structs detailing which ports are used for stacking/fabric.
/// If the switch is not stacked, returns an empty vector.
async fn get_stack_topology(&self) -> Result<Vec<InterSwitchLink>, Error>;
/// Retrieves the status for all interfaces
///
/// # Returns
///
/// A vector of `InterfaceInfo` structures.
async fn get_interfaces(&self) -> Result<Vec<InterfaceInfo>, Error>;
/// Configures a set of interfaces to be operated with a specified mode (access ports, ISL, etc.).
async fn configure_interfaces(
&self,
interfaces: &Vec<(String, PortOperatingMode)>,
) -> Result<(), Error>;
/// Scans the existing configuration to find the next available (unused)
/// Port-Channel ID (`lag` or `trunk`) for assignment.
///
/// # Returns
///
/// The smallest, unassigned `PortChannelId` within the supported range.
async fn find_available_channel_id(&self) -> Result<PortChannelId, Error>;
/// Creates and configures a new Port-Channel (Link Aggregation Group or LAG)
/// using the specified channel ID and ports.
///
/// The resulting configuration must be persistent (saved to startup-config).
/// Assumes a static LAG configuration mode unless specified otherwise by the implementation.
///
/// # Parameters
///
/// * `channel_id`: The ID (e.g., 1-128) for the logical port channel.
/// * `channel_name`: A descriptive name for the LAG (used in configuration context).
/// * `ports`: A slice of `PortLocation` structs defining the physical member ports.
async fn create_port_channel(
&self,
channel_id: PortChannelId,
channel_name: &str,
ports: &[PortLocation],
) -> Result<(), Error>;
/// Enables Simple Network Management Protocol (SNMP) server for switch
///
/// # Parameters
///
/// * `user_name`: The user name for the snmp server
/// * `auth`: The password for authentication process for verifying the identity of a device
/// * `des`: The Data Encryption Standard algorithm key
async fn enable_snmp(&self, user_name: &str, auth: &str, des: &str) -> Result<(), Error>;
/// Removes all configuration associated with the specified Port-Channel name.
///
/// This operation should be idempotent; attempting to clear a non-existent
/// channel should succeed (or return a benign error).
///
/// # Parameters
///
/// * `channel_name`: The name of the Port-Channel (LAG) to delete.
///
async fn clear_port_channel(&self, channel_name: &str) -> Result<(), Error>;
}
async fn get_brocade_info(session: &mut BrocadeSession) -> Result<BrocadeInfo, Error> {
let output = session.run_command("show version").await?;
if output.contains("Network Operating System") {
let re = Regex::new(r"Network Operating System Version:\s*(?P<version>[a-zA-Z0-9.\-]+)")
.expect("Invalid regex");
let version = re
.captures(&output)
.and_then(|cap| cap.name("version"))
.map(|m| m.as_str().to_string())
.unwrap_or_default();
return Ok(BrocadeInfo {
os: BrocadeOs::NetworkOperatingSystem,
_version: version,
});
} else if output.contains("ICX") {
let re = Regex::new(r"(?m)^\s*SW: Version\s*(?P<version>[a-zA-Z0-9.\-]+)")
.expect("Invalid regex");
let version = re
.captures(&output)
.and_then(|cap| cap.name("version"))
.map(|m| m.as_str().to_string())
.unwrap_or_default();
return Ok(BrocadeInfo {
os: BrocadeOs::FastIron,
_version: version,
});
}
Err(Error::UnexpectedError("Unknown Brocade OS version".into()))
}
fn parse_brocade_mac_address(value: &str) -> Result<MacAddress, String> {
let cleaned_mac = value.replace('.', "");
if cleaned_mac.len() != 12 {
return Err(format!("Invalid MAC address: {value}"));
}
let mut bytes = [0u8; 6];
for (i, pair) in cleaned_mac.as_bytes().chunks(2).enumerate() {
let byte_str = std::str::from_utf8(pair).map_err(|_| "Invalid UTF-8")?;
bytes[i] =
u8::from_str_radix(byte_str, 16).map_err(|_| format!("Invalid hex in MAC: {value}"))?;
}
Ok(MacAddress(bytes))
}
#[derive(Debug)]
pub enum SecurityLevel {
AuthPriv(String),
}
#[derive(Debug)]
pub enum Error {
NetworkError(String),
AuthenticationError(String),
ConfigurationError(String),
TimeoutError(String),
UnexpectedError(String),
CommandError(String),
}
impl Display for Error {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Error::NetworkError(msg) => write!(f, "Network error: {msg}"),
Error::AuthenticationError(msg) => write!(f, "Authentication error: {msg}"),
Error::ConfigurationError(msg) => write!(f, "Configuration error: {msg}"),
Error::TimeoutError(msg) => write!(f, "Timeout error: {msg}"),
Error::UnexpectedError(msg) => write!(f, "Unexpected error: {msg}"),
Error::CommandError(msg) => write!(f, "{msg}"),
}
}
}
impl From<Error> for String {
fn from(val: Error) -> Self {
format!("{val}")
}
}
impl std::error::Error for Error {}
impl From<russh::Error> for Error {
fn from(value: russh::Error) -> Self {
Error::NetworkError(format!("Russh client error: {value}"))
}
}

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brocade/src/network_operating_system.rs
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@@ -1,352 +0,0 @@
use std::str::FromStr;
use async_trait::async_trait;
use harmony_types::switch::{PortDeclaration, PortLocation};
use log::{debug, info};
use regex::Regex;
use crate::{
BrocadeClient, BrocadeInfo, Error, ExecutionMode, InterSwitchLink, InterfaceInfo,
InterfaceStatus, InterfaceType, MacAddressEntry, PortChannelId, PortOperatingMode,
parse_brocade_mac_address, shell::BrocadeShell,
};
#[derive(Debug)]
pub struct NetworkOperatingSystemClient {
shell: BrocadeShell,
version: BrocadeInfo,
}
impl NetworkOperatingSystemClient {
pub fn init(mut shell: BrocadeShell, version_info: BrocadeInfo) -> Self {
shell.before_all(vec!["terminal length 0".into()]);
Self {
shell,
version: version_info,
}
}
fn parse_mac_entry(&self, line: &str) -> Option<Result<MacAddressEntry, Error>> {
debug!("[Brocade] Parsing mac address entry: {line}");
let parts: Vec<&str> = line.split_whitespace().collect();
if parts.len() < 5 {
return None;
}
let (vlan, mac_address, port) = match parts.len() {
5 => (
u16::from_str(parts[0]).ok()?,
parse_brocade_mac_address(parts[1]).ok()?,
parts[4].to_string(),
),
_ => (
u16::from_str(parts[0]).ok()?,
parse_brocade_mac_address(parts[1]).ok()?,
parts[5].to_string(),
),
};
let port =
PortDeclaration::parse(&port).map_err(|e| Error::UnexpectedError(format!("{e}")));
match port {
Ok(p) => Some(Ok(MacAddressEntry {
vlan,
mac_address,
port: p,
})),
Err(e) => Some(Err(e)),
}
}
fn parse_inter_switch_link_entry(&self, line: &str) -> Option<Result<InterSwitchLink, Error>> {
debug!("[Brocade] Parsing inter switch link entry: {line}");
let parts: Vec<&str> = line.split_whitespace().collect();
if parts.len() < 10 {
return None;
}
let local_port = PortLocation::from_str(parts[2]).ok()?;
let remote_port = PortLocation::from_str(parts[5]).ok()?;
Some(Ok(InterSwitchLink {
local_port,
remote_port: Some(remote_port),
}))
}
fn parse_interface_status_entry(&self, line: &str) -> Option<Result<InterfaceInfo, Error>> {
debug!("[Brocade] Parsing interface status entry: {line}");
let parts: Vec<&str> = line.split_whitespace().collect();
if parts.len() < 6 {
return None;
}
let interface_type = match parts[0] {
"Fo" => InterfaceType::Ethernet("FortyGigabitEthernet".to_string()),
"Te" => InterfaceType::Ethernet("TenGigabitEthernet".to_string()),
_ => return None,
};
let port_location = PortLocation::from_str(parts[1]).ok()?;
let status = match parts[2] {
"connected" => InterfaceStatus::Connected,
"notconnected" => InterfaceStatus::NotConnected,
"sfpAbsent" => InterfaceStatus::SfpAbsent,
_ => return None,
};
let operating_mode = match parts[3] {
"ISL" => Some(PortOperatingMode::Fabric),
"Trunk" => Some(PortOperatingMode::Trunk),
"Access" => Some(PortOperatingMode::Access),
"--" => None,
_ => return None,
};
Some(Ok(InterfaceInfo {
name: format!("{interface_type} {port_location}"),
port_location,
interface_type,
operating_mode,
status,
}))
}
fn map_configure_interfaces_error(&self, err: Error) -> Error {
debug!("[Brocade] {err}");
if let Error::CommandError(message) = &err {
if message.contains("switchport")
&& message.contains("Cannot configure aggregator member")
{
let re = Regex::new(r"\(conf-if-([a-zA-Z]+)-([\d/]+)\)#").unwrap();
if let Some(caps) = re.captures(message) {
let interface_type = &caps[1];
let port_location = &caps[2];
let interface = format!("{interface_type} {port_location}");
return Error::CommandError(format!(
"Cannot configure interface '{interface}', it is a member of a port-channel (LAG)"
));
}
}
}
err
}
}
#[async_trait]
impl BrocadeClient for NetworkOperatingSystemClient {
async fn version(&self) -> Result<BrocadeInfo, Error> {
Ok(self.version.clone())
}
async fn get_mac_address_table(&self) -> Result<Vec<MacAddressEntry>, Error> {
let output = self
.shell
.run_command("show mac-address-table", ExecutionMode::Regular)
.await?;
output
.lines()
.skip(1)
.filter_map(|line| self.parse_mac_entry(line))
.collect()
}
async fn get_stack_topology(&self) -> Result<Vec<InterSwitchLink>, Error> {
let output = self
.shell
.run_command("show fabric isl", ExecutionMode::Regular)
.await?;
output
.lines()
.skip(6)
.filter_map(|line| self.parse_inter_switch_link_entry(line))
.collect()
}
async fn get_interfaces(&self) -> Result<Vec<InterfaceInfo>, Error> {
let output = self
.shell
.run_command(
"show interface status rbridge-id all",
ExecutionMode::Regular,
)
.await?;
output
.lines()
.skip(2)
.filter_map(|line| self.parse_interface_status_entry(line))
.collect()
}
async fn configure_interfaces(
&self,
interfaces: &Vec<(String, PortOperatingMode)>,
) -> Result<(), Error> {
info!("[Brocade] Configuring {} interface(s)...", interfaces.len());
let mut commands = vec!["configure terminal".to_string()];
for interface in interfaces {
commands.push(format!("interface {}", interface.0));
match interface.1 {
PortOperatingMode::Fabric => {
commands.push("fabric isl enable".into());
commands.push("fabric trunk enable".into());
}
PortOperatingMode::Trunk => {
commands.push("switchport".into());
commands.push("switchport mode trunk".into());
commands.push("switchport trunk allowed vlan all".into());
commands.push("no switchport trunk tag native-vlan".into());
commands.push("spanning-tree shutdown".into());
commands.push("no fabric isl enable".into());
commands.push("no fabric trunk enable".into());
commands.push("no shutdown".into());
}
PortOperatingMode::Access => {
commands.push("switchport".into());
commands.push("switchport mode access".into());
commands.push("switchport access vlan 1".into());
commands.push("no spanning-tree shutdown".into());
commands.push("no fabric isl enable".into());
commands.push("no fabric trunk enable".into());
}
}
commands.push("no shutdown".into());
commands.push("exit".into());
}
self.shell
.run_commands(commands, ExecutionMode::Regular)
.await
.map_err(|err| self.map_configure_interfaces_error(err))?;
info!("[Brocade] Interfaces configured.");
Ok(())
}
async fn find_available_channel_id(&self) -> Result<PortChannelId, Error> {
info!("[Brocade] Finding next available channel id...");
let output = self
.shell
.run_command("show port-channel summary", ExecutionMode::Regular)
.await?;
let used_ids: Vec<u8> = output
.lines()
.skip(6)
.filter_map(|line| {
let parts: Vec<&str> = line.split_whitespace().collect();
if parts.len() < 8 {
return None;
}
u8::from_str(parts[0]).ok()
})
.collect();
let mut next_id: u8 = 1;
loop {
if !used_ids.contains(&next_id) {
break;
}
next_id += 1;
}
info!("[Brocade] Found channel id: {next_id}");
Ok(next_id)
}
async fn create_port_channel(
&self,
channel_id: PortChannelId,
channel_name: &str,
ports: &[PortLocation],
) -> Result<(), Error> {
info!(
"[Brocade] Configuring port-channel '{channel_id} {channel_name}' with ports: {}",
ports
.iter()
.map(|p| format!("{p}"))
.collect::<Vec<String>>()
.join(", ")
);
let interfaces = self.get_interfaces().await?;
let mut commands = vec![
"configure terminal".into(),
format!("interface port-channel {}", channel_id),
"no shutdown".into(),
"exit".into(),
];
for port in ports {
let interface = interfaces.iter().find(|i| i.port_location == *port);
let Some(interface) = interface else {
continue;
};
commands.push(format!("interface {}", interface.name));
commands.push("no switchport".into());
commands.push("no ip address".into());
commands.push("no fabric isl enable".into());
commands.push("no fabric trunk enable".into());
commands.push(format!("channel-group {channel_id} mode active"));
commands.push("no shutdown".into());
commands.push("exit".into());
}
self.shell
.run_commands(commands, ExecutionMode::Regular)
.await?;
info!("[Brocade] Port-channel '{channel_name}' configured.");
Ok(())
}
async fn clear_port_channel(&self, channel_name: &str) -> Result<(), Error> {
info!("[Brocade] Clearing port-channel: {channel_name}");
let commands = vec![
"configure terminal".into(),
format!("no interface port-channel {}", channel_name),
"exit".into(),
];
self.shell
.run_commands(commands, ExecutionMode::Regular)
.await?;
info!("[Brocade] Port-channel '{channel_name}' cleared.");
Ok(())
}
async fn enable_snmp(&self, user_name: &str, auth: &str, des: &str) -> Result<(), Error> {
let commands = vec![
"configure terminal".into(),
"snmp-server view ALL 1 included".into(),
"snmp-server group public v3 priv read ALL".into(),
format!(
"snmp-server user {user_name} groupname public auth md5 auth-password {auth} priv des priv-password {des}"
),
"exit".into(),
];
self.shell
.run_commands(commands, ExecutionMode::Regular)
.await?;
Ok(())
}
}

367
brocade/src/shell.rs
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@@ -1,367 +0,0 @@
use std::net::IpAddr;
use std::time::Duration;
use std::time::Instant;
use crate::BrocadeOptions;
use crate::Error;
use crate::ExecutionMode;
use crate::TimeoutConfig;
use crate::ssh;
use log::debug;
use log::info;
use russh::ChannelMsg;
use tokio::time::timeout;
#[derive(Debug)]
pub struct BrocadeShell {
ip: IpAddr,
username: String,
password: String,
options: BrocadeOptions,
before_all_commands: Vec<String>,
after_all_commands: Vec<String>,
}
impl BrocadeShell {
pub async fn init(
ip_addresses: &[IpAddr],
username: &str,
password: &str,
options: &BrocadeOptions,
) -> Result<Self, Error> {
let ip = ip_addresses
.first()
.ok_or_else(|| Error::ConfigurationError("No IP addresses provided".to_string()))?;
let brocade_ssh_client_options =
ssh::try_init_client(username, password, ip, options).await?;
Ok(Self {
ip: *ip,
username: username.to_string(),
password: password.to_string(),
before_all_commands: vec![],
after_all_commands: vec![],
options: brocade_ssh_client_options,
})
}
pub async fn open_session(&self, mode: ExecutionMode) -> Result<BrocadeSession, Error> {
BrocadeSession::open(
self.ip,
self.options.ssh.port,
&self.username,
&self.password,
self.options.clone(),
mode,
)
.await
}
pub async fn with_session<F, R>(&self, mode: ExecutionMode, callback: F) -> Result<R, Error>
where
F: FnOnce(
&mut BrocadeSession,
) -> std::pin::Pin<
Box<dyn std::future::Future<Output = Result<R, Error>> + Send + '_>,
>,
{
let mut session = self.open_session(mode).await?;
let _ = session.run_commands(self.before_all_commands.clone()).await;
let result = callback(&mut session).await;
let _ = session.run_commands(self.after_all_commands.clone()).await;
session.close().await?;
result
}
pub async fn run_command(&self, command: &str, mode: ExecutionMode) -> Result<String, Error> {
let mut session = self.open_session(mode).await?;
let _ = session.run_commands(self.before_all_commands.clone()).await;
let result = session.run_command(command).await;
let _ = session.run_commands(self.after_all_commands.clone()).await;
session.close().await?;
result
}
pub async fn run_commands(
&self,
commands: Vec<String>,
mode: ExecutionMode,
) -> Result<(), Error> {
let mut session = self.open_session(mode).await?;
let _ = session.run_commands(self.before_all_commands.clone()).await;
let result = session.run_commands(commands).await;
let _ = session.run_commands(self.after_all_commands.clone()).await;
session.close().await?;
result
}
pub fn before_all(&mut self, commands: Vec<String>) {
self.before_all_commands = commands;
}
pub fn after_all(&mut self, commands: Vec<String>) {
self.after_all_commands = commands;
}
}
pub struct BrocadeSession {
pub channel: russh::Channel<russh::client::Msg>,
pub mode: ExecutionMode,
pub options: BrocadeOptions,
}
impl BrocadeSession {
pub async fn open(
ip: IpAddr,
port: u16,
username: &str,
password: &str,
options: BrocadeOptions,
mode: ExecutionMode,
) -> Result<Self, Error> {
let client = ssh::create_client(ip, port, username, password, &options).await?;
let mut channel = client.channel_open_session().await?;
channel
.request_pty(false, "vt100", 80, 24, 0, 0, &[])
.await?;
channel.request_shell(false).await?;
wait_for_shell_ready(&mut channel, &options.timeouts).await?;
if let ExecutionMode::Privileged = mode {
try_elevate_session(&mut channel, username, password, &options.timeouts).await?;
}
Ok(Self {
channel,
mode,
options,
})
}
pub async fn close(&mut self) -> Result<(), Error> {
debug!("[Brocade] Closing session...");
self.channel.data(&b"exit\n"[..]).await?;
if let ExecutionMode::Privileged = self.mode {
self.channel.data(&b"exit\n"[..]).await?;
}
let start = Instant::now();
while start.elapsed() < self.options.timeouts.cleanup {
match timeout(self.options.timeouts.message_wait, self.channel.wait()).await {
Ok(Some(ChannelMsg::Close)) => break,
Ok(Some(_)) => continue,
Ok(None) | Err(_) => break,
}
}
debug!("[Brocade] Session closed.");
Ok(())
}
pub async fn run_command(&mut self, command: &str) -> Result<String, Error> {
if self.should_skip_command(command) {
return Ok(String::new());
}
debug!("[Brocade] Running command: '{command}'...");
self.channel
.data(format!("{}\n", command).as_bytes())
.await?;
tokio::time::sleep(Duration::from_millis(100)).await;
let output = self.collect_command_output().await?;
let output = String::from_utf8(output)
.map_err(|_| Error::UnexpectedError("Invalid UTF-8 in command output".to_string()))?;
self.check_for_command_errors(&output, command)?;
Ok(output)
}
pub async fn run_commands(&mut self, commands: Vec<String>) -> Result<(), Error> {
for command in commands {
self.run_command(&command).await?;
}
Ok(())
}
fn should_skip_command(&self, command: &str) -> bool {
if (command.starts_with("write") || command.starts_with("deploy")) && self.options.dry_run {
info!("[Brocade] Dry-run mode enabled, skipping command: {command}");
return true;
}
false
}
async fn collect_command_output(&mut self) -> Result<Vec<u8>, Error> {
let mut output = Vec::new();
let start = Instant::now();
let read_timeout = Duration::from_millis(500);
let log_interval = Duration::from_secs(5);
let mut last_log = Instant::now();
loop {
if start.elapsed() > self.options.timeouts.command_execution {
return Err(Error::TimeoutError(
"Timeout waiting for command completion.".into(),
));
}
if start.elapsed() > self.options.timeouts.command_output
&& last_log.elapsed() > log_interval
{
info!("[Brocade] Waiting for command output...");
last_log = Instant::now();
}
match timeout(read_timeout, self.channel.wait()).await {
Ok(Some(ChannelMsg::Data { data } | ChannelMsg::ExtendedData { data, .. })) => {
output.extend_from_slice(&data);
let current_output = String::from_utf8_lossy(&output);
if current_output.contains('>') || current_output.contains('#') {
return Ok(output);
}
}
Ok(Some(ChannelMsg::Eof | ChannelMsg::Close)) => return Ok(output),
Ok(Some(ChannelMsg::ExitStatus { exit_status })) => {
debug!("[Brocade] Command exit status: {exit_status}");
}
Ok(Some(_)) => continue,
Ok(None) | Err(_) => {
if output.is_empty() {
if let Ok(None) = timeout(read_timeout, self.channel.wait()).await {
break;
}
continue;
}
tokio::time::sleep(Duration::from_millis(100)).await;
let current_output = String::from_utf8_lossy(&output);
if current_output.contains('>') || current_output.contains('#') {
return Ok(output);
}
}
}
}
Ok(output)
}
fn check_for_command_errors(&self, output: &str, command: &str) -> Result<(), Error> {
const ERROR_PATTERNS: &[&str] = &[
"invalid input",
"syntax error",
"command not found",
"unknown command",
"permission denied",
"access denied",
"authentication failed",
"configuration error",
"failed to",
"error:",
];
let output_lower = output.to_lowercase();
if ERROR_PATTERNS.iter().any(|&p| output_lower.contains(p)) {
return Err(Error::CommandError(format!(
"Command error: {}",
output.trim()
)));
}
if !command.starts_with("show") && output.trim().is_empty() {
return Err(Error::CommandError(format!(
"Command '{command}' produced no output"
)));
}
Ok(())
}
}
async fn wait_for_shell_ready(
channel: &mut russh::Channel<russh::client::Msg>,
timeouts: &TimeoutConfig,
) -> Result<(), Error> {
let mut buffer = Vec::new();
let start = Instant::now();
while start.elapsed() < timeouts.shell_ready {
match timeout(timeouts.message_wait, channel.wait()).await {
Ok(Some(ChannelMsg::Data { data })) => {
buffer.extend_from_slice(&data);
let output = String::from_utf8_lossy(&buffer);
let output = output.trim();
if output.ends_with('>') || output.ends_with('#') {
debug!("[Brocade] Shell ready");
return Ok(());
}
}
Ok(Some(_)) => continue,
Ok(None) => break,
Err(_) => continue,
}
}
Ok(())
}
async fn try_elevate_session(
channel: &mut russh::Channel<russh::client::Msg>,
username: &str,
password: &str,
timeouts: &TimeoutConfig,
) -> Result<(), Error> {
channel.data(&b"enable\n"[..]).await?;
let start = Instant::now();
let mut buffer = Vec::new();
while start.elapsed() < timeouts.shell_ready {
match timeout(timeouts.message_wait, channel.wait()).await {
Ok(Some(ChannelMsg::Data { data })) => {
buffer.extend_from_slice(&data);
let output = String::from_utf8_lossy(&buffer);
if output.ends_with('#') {
debug!("[Brocade] Privileged mode established");
return Ok(());
}
if output.contains("User Name:") {
channel.data(format!("{}\n", username).as_bytes()).await?;
buffer.clear();
} else if output.contains("Password:") {
channel.data(format!("{}\n", password).as_bytes()).await?;
buffer.clear();
} else if output.contains('>') {
return Err(Error::AuthenticationError(
"Enable authentication failed".into(),
));
}
}
Ok(Some(_)) => continue,
Ok(None) => break,
Err(_) => continue,
}
}
let output = String::from_utf8_lossy(&buffer);
if output.ends_with('#') {
debug!("[Brocade] Privileged mode established");
Ok(())
} else {
Err(Error::AuthenticationError(format!(
"Enable failed. Output:\n{output}"
)))
}
}

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brocade/src/ssh.rs
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@@ -1,131 +0,0 @@
use std::borrow::Cow;
use std::sync::Arc;
use async_trait::async_trait;
use log::debug;
use russh::client::Handler;
use russh::kex::DH_G1_SHA1;
use russh::kex::ECDH_SHA2_NISTP256;
use russh_keys::key::SSH_RSA;
use super::BrocadeOptions;
use super::Error;
#[derive(Clone, Debug)]
pub struct SshOptions {
pub preferred_algorithms: russh::Preferred,
pub port: u16,
}
impl Default for SshOptions {
fn default() -> Self {
Self {
preferred_algorithms: Default::default(),
port: 22,
}
}
}
impl SshOptions {
fn ecdhsa_sha2_nistp256(port: u16) -> Self {
Self {
preferred_algorithms: russh::Preferred {
kex: Cow::Borrowed(&[ECDH_SHA2_NISTP256]),
key: Cow::Borrowed(&[SSH_RSA]),
..Default::default()
},
port,
..Default::default()
}
}
fn legacy(port: u16) -> Self {
Self {
preferred_algorithms: russh::Preferred {
kex: Cow::Borrowed(&[DH_G1_SHA1]),
key: Cow::Borrowed(&[SSH_RSA]),
..Default::default()
},
port,
..Default::default()
}
}
}
pub struct Client;
#[async_trait]
impl Handler for Client {
type Error = Error;
async fn check_server_key(
&mut self,
_server_public_key: &russh_keys::key::PublicKey,
) -> Result<bool, Self::Error> {
Ok(true)
}
}
pub async fn try_init_client(
username: &str,
password: &str,
ip: &std::net::IpAddr,
base_options: &BrocadeOptions,
) -> Result<BrocadeOptions, Error> {
let mut default = SshOptions::default();
default.port = base_options.ssh.port;
let ssh_options = vec![
default,
SshOptions::ecdhsa_sha2_nistp256(base_options.ssh.port),
SshOptions::legacy(base_options.ssh.port),
];
for ssh in ssh_options {
let opts = BrocadeOptions {
ssh: ssh.clone(),
..base_options.clone()
};
debug!("Creating client {ip}:{} {username}", ssh.port);
let client = create_client(*ip, ssh.port, username, password, &opts).await;
match client {
Ok(_) => {
return Ok(opts);
}
Err(e) => match e {
Error::NetworkError(e) => {
if e.contains("No common key exchange algorithm") {
continue;
} else {
return Err(Error::NetworkError(e));
}
}
_ => return Err(e),
},
}
}
Err(Error::NetworkError(
"Could not establish ssh connection: wrong key exchange algorithm)".to_string(),
))
}
pub async fn create_client(
ip: std::net::IpAddr,
port: u16,
username: &str,
password: &str,
options: &BrocadeOptions,
) -> Result<russh::client::Handle<Client>, Error> {
let config = russh::client::Config {
preferred: options.ssh.preferred_algorithms.clone(),
..Default::default()
};
let mut client = russh::client::connect(Arc::new(config), (ip, port), Client {}).await?;
if !client.authenticate_password(username, password).await? {
return Err(Error::AuthenticationError(
"ssh authentication failed".to_string(),
));
}
Ok(client)
}

11
build/book.sh
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@@ -1,11 +0,0 @@
#!/bin/sh
set -e
cd "$(dirname "$0")/.."
cargo install mdbook --locked
mdbook build
test -f book/index.html || (echo "ERROR: book/index.html not found" && exit 1)
test -f book/concepts.html || (echo "ERROR: book/concepts.html not found" && exit 1)
test -f book/guides/getting-started.html || (echo "ERROR: book/guides/getting-started.html not found" && exit 1)

10
build/check.sh
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@@ -1,10 +0,0 @@
#!/bin/sh
set -e
cd "$(dirname "$0")/.."
rustc --version
cargo check --all-targets --all-features --keep-going
cargo fmt --check
cargo clippy
cargo test

16
build/ci.sh
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@@ -1,16 +0,0 @@
#!/bin/sh
set -e
cd "$(dirname "$0")/.."
BRANCH="${1:-main}"
echo "=== Running CI for branch: $BRANCH ==="
echo "--- Checking code ---"
./build/check.sh
echo "--- Building book ---"
./build/book.sh
echo "=== CI passed ==="

1
check.sh
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@@ -1 +0,0 @@
build/check.sh

7
check.sh Executable file
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@@ -0,0 +1,7 @@
#!/bin/sh
set -e
cargo check --all-targets --all-features --keep-going
cargo fmt --check
cargo clippy
cargo test

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Here lies all the data files required for an OKD cluster PXE boot setup.
This inclues ISO files, binary boot files, ipxe, etc.
TODO as of august 2025 :
- `harmony_inventory_agent` should be downloaded from official releases, this embedded version is practical for now though
- The cluster ssh key should be generated and handled by harmony with the private key saved in a secret store

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harmony_inventory_agent filter=lfs diff=lfs merge=lfs -text
os filter=lfs diff=lfs merge=lfs -text
os/centos-stream-9 filter=lfs diff=lfs merge=lfs -text
os/centos-stream-9/images filter=lfs diff=lfs merge=lfs -text
os/centos-stream-9/initrd.img filter=lfs diff=lfs merge=lfs -text
os/centos-stream-9/vmlinuz filter=lfs diff=lfs merge=lfs -text
os/centos-stream-9/images/efiboot.img filter=lfs diff=lfs merge=lfs -text
os/centos-stream-9/images/install.img filter=lfs diff=lfs merge=lfs -text
os/centos-stream-9/images/pxeboot filter=lfs diff=lfs merge=lfs -text

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ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAAIBx6bDylvC68cVpjKfEFtLQJ/dOFi6PVS2vsIOqPDJIc jeangab@liliane2

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.terraform
*.tfstate
venv

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To build :
```bash
npx @marp-team/marp-cli@latest -w slides.md
```

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To run this :
```bash
virtualenv venv
source venv/bin/activate
pip install ansible ansible-dev-tools
ansible-lint download.yml
ansible-playbook -i localhost download.yml
```

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- name: Test Ansible URL Validation
hosts: localhost
tasks:
- name: Download a file
ansible.builtin.get_url:
url: "http:/wikipedia.org/"
dest: "/tmp/ansible-test/wikipedia.html"
mode: '0900'

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---
theme: uncover
---
# Voici l'histoire de Petit Poisson
---
<img src="./Happy_swimmer.jpg" width="600"/>
---
<img src="./happy_landscape_swimmer.jpg" width="1000"/>
---
<img src="./Happy_swimmer.jpg" width="200"/>
<img src="./tryrust.org.png" width="600"/>
[https://tryrust.org](https://tryrust.org)
---
<img src="./texto_deploy_prod_1.png" width="600"/>
---
<img src="./texto_deploy_prod_2.png" width="600"/>
---
<img src="./texto_deploy_prod_3.png" width="600"/>
---
<img src="./texto_deploy_prod_4.png" width="600"/>
---
## Demo time
---
<img src="./Happy_swimmer_sunglasses.jpg" width="1000"/>
---
<img src="./texto_download_wikipedia.png" width="600"/>
---
<img src="./ansible.jpg" width="200"/>
## Ansible❓
---
<img src="./Happy_swimmer.jpg" width="200"/>
```yaml
- name: Download wikipedia
hosts: localhost
tasks:
- name: Download a file
ansible.builtin.get_url:
url: "https:/wikipedia.org/"
dest: "/tmp/ansible-test/wikipedia.html"
mode: '0900'
```
---
<img src="./Happy_swimmer.jpg" width="200"/>
```
ansible-lint download.yml
Passed: 0 failure(s), 0 warning(s) on 1 files. Last profile that met the validation criteria was 'production'.
```
---
```
git push
```
---
<img src="./75_years_later.jpg" width="1100"/>
---
<img src="./texto_download_wikipedia_fail.png" width="600"/>
---
<img src="./Happy_swimmer_reversed.jpg" width="600"/>
---
<img src="./ansible_output_fail.jpg" width="1100"/>
---
<img src="./Happy_swimmer_reversed_1hit.jpg" width="600"/>
---
<img src="./ansible_crossed_out.jpg" width="400"/>
---
<img src="./terraform.jpg" width="400"/>
## Terraform❓❗
---
<img src="./Happy_swimmer_reversed_1hit.jpg" width="200"/>
<img src="./terraform.jpg" width="200"/>
```tf
provider "docker" {}
resource "docker_network" "invalid_network" {
name = "my-invalid-network"
ipam_config {
subnet = "172.17.0.0/33"
}
}
```
---
<img src="./Happy_swimmer_reversed_1hit.jpg" width="100"/>
<img src="./terraform.jpg" width="200"/>
```
terraform plan
Terraform used the selected providers to generate the following execution plan.
Resource actions are indicated with the following symbols:
+ create
Terraform will perform the following actions:
# docker_network.invalid_network will be created
+ resource "docker_network" "invalid_network" {
+ driver = (known after apply)
+ id = (known after apply)
+ internal = (known after apply)
+ ipam_driver = "default"
+ name = "my-invalid-network"
+ options = (known after apply)
+ scope = (known after apply)
+ ipam_config {
+ subnet = "172.17.0.0/33"
# (2 unchanged attributes hidden)
}
}
Plan: 1 to add, 0 to change, 0 to destroy.
```
---
---
```
terraform apply
```
---
```
Plan: 1 to add, 0 to change, 0 to destroy.
Do you want to perform these actions?
Terraform will perform the actions described above.
Only 'yes' will be accepted to approve.
Enter a value: yes
```
---
```
docker_network.invalid_network: Creating...
│ Error: Unable to create network: Error response from daemon: invalid network config:
│ invalid subnet 172.17.0.0/33: invalid CIDR block notation
│ with docker_network.invalid_network,
│ on main.tf line 11, in resource "docker_network" "invalid_network":
│ 11: resource "docker_network" "invalid_network" {
```
---
<img src="./Happy_swimmer_reversed_fullhit.jpg" width="1100"/>
---
<img src="./ansible_crossed_out.jpg" width="300"/>
<img src="./terraform_crossed_out.jpg" width="400"/>
<img src="./Happy_swimmer_reversed_fullhit.jpg" width="300"/>
---
## Harmony❓❗
---
Demo time
---
<img src="./Happy_swimmer.jpg" width="300"/>
---
# 🎼
Harmony : [https://git.nationtech.io/nationtech/harmony](https://git.nationtech.io/nationtech/harmony)
<img src="./qrcode_gitea_nationtech.png" width="120"/>
LinkedIn : [https://www.linkedin.com/in/jean-gabriel-gill-couture/](https://www.linkedin.com/in/jean-gabriel-gill-couture/)
Courriel : [jg@nationtech.io](mailto:jg@nationtech.io)

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# Harmony, Orchestrateur d'infrastructure open-source
**Target Duration:** 25 minutes\
**Tone:** Friendly, expert-to-expert, inspiring.
---
#### **Slide 1: Title Slide**
- **Visual:** Clean and simple. Your company logo (NationTech) and the Harmony logo.
---
#### **Slide 2: The YAML Labyrinth**
**Goal:** Get every head in the room nodding in agreement. Start with their world, not yours.
- **Visual:**
- Option A: "The Pull Request from Hell". A screenshot of a GitHub pull request for a seemingly minor change that touches dozens of YAML files across multiple directories. A sea of red and green diffs that is visually overwhelming.
- Option B: A complex flowchart connecting dozens of logos: Terraform, Ansible, K8s, Helm, etc.
- **Narration:**\
[...ADD SOMETHING FOR INTRODUCTION...]\
"We love the power that tools like Kubernetes and the CNCF landscape have given us. But let's be honest... when did our infrastructure code start looking like _this_?"\
"We have GitOps, which is great. But it often means we're managing this fragile cathedral of YAML, Helm charts, and brittle scripts. We spend more time debugging indentation and tracing variables than we do building truly resilient systems."
---
#### **Slide 3: The Real Cost of Infrastructure**
- **Visual:** "The Jenga Tower of Tools". A tall, precarious Jenga tower where each block is the logo of a different tool (Terraform, K8s, Helm, Ansible, Prometheus, ArgoCD, etc.). One block near the bottom is being nervously pulled out.
- **Narration:**
"The real cost isn't just complexity; it's the constant need to choose, learn, integrate, and operate a dozen different tools, each with its own syntax and failure modes. It's the nagging fear that a tiny typo in a config file could bring everything down. Click-ops isn't the answer, but the current state of IaC feels like we've traded one problem for another."
---
#### **Slide 4: The Broken Promise of "Code"**
**Goal:** Introduce the core idea before introducing the product. This makes the solution feel inevitable.
- **(Initial Visual):** A two-panel slide.
- **Left Panel Title: "The Plan"** - A terminal showing a green, successful `terraform plan` output.
- **Right Panel Title: "The Reality"** - The _next_ screen in the terminal, showing the `terraform apply` failing with a cascade of red error text.
- **Narration:**
"We call our discipline **Infrastructure as Code**. And we've all been here. Our 'compiler' is a `terraform plan` that says everything looks perfect. We get the green light."
(Pause for a beat)
"And then we `apply`, and reality hits. It fails halfway through, at runtime, when it's most expensive and painful to fix."
**(Click to transition the slide)**
- **(New Visual):** The entire slide is replaced by a clean screenshot of a code editor (like nvim 😉) showing Harmony's Rust DSL. A red squiggly line is under a config line. The error message is clear in the "Problems" panel: `error: Incompatible deployment. Production target 'gcp-prod-cluster' requires a StorageClass with 'snapshots' capability, but 'standard-sc' does not provide it.`
- **Narration (continued):**
"In software development, we solved these problems years ago. We don't accept 'it compiled, but crashed on startup'. We have real tools, type systems, compilers, test frameworks, and IDEs that catch our mistakes before they ever reach production. **So, what if we could treat our entire infrastructure... like a modern, compiled application?**"
"What if your infrastructure code could get compile-time checks, straight into the editor... instead of runtime panics and failures at 3 AM in production?"
---
#### **Slide 5: Introducing Harmony**
**Goal:** Introduce Harmony as the answer to the "What If?" question.
- **Visual:** The Harmony logo, large and centered.
- **Tagline:** `Infrastructure in type-safe Rust. No YAML required.`
- **Narration:**
"This is Harmony. It's an open-source orchestrator that lets you define your entire stack — from a dev laptop to a multi-site bare-metal cluster—in a single, type-safe Rust codebase."
---
#### **Slide 6: Before & After**
- **Visual:** A side-by-side comparison. Left side: A screen full of complex, nested YAML. Right side: 10-15 lines of clean, readable Harmony Rust DSL that accomplishes the same thing.
- **Narration:**
"This is the difference. On the left, the fragile world of strings and templates. On the right, a portable, verifiable program that describes your apps, your infra, and your operations. We unify scaffolding, provisioning, and Day-2 ops, all verified by the Rust compiler. But enough slides... let's see it in action."
---
#### **Slide 7: Live Demo: Zero to Monitored App**
**Goal:** Show, don't just tell. Make it look effortless. This is where you build the "dream."
- **Visual:** Your terminal/IDE, ready to go.
- **Narration Guide:**
"Okay, for this demo, we're going to take a standard web app from GitHub. Nothing special about it."
_(Show the repo)_
"Now, let's bring it into Harmony. This is the entire definition we need to describe the application and its needs."
_(Show the Rust DSL)_
"First, let's run it locally on k3d. The exact same definition for dev as for prod."
_(Deploy locally, show it works)_
"Cool. But a real app needs monitoring. In Harmony, that's just adding a feature to our code."
_(Uncomment one line: `.with_feature(Monitoring)` and redeploy)_
"And just like that, we have a fully configured Prometheus and Grafana stack, scraping our app. No YAML, no extra config."
"Finally, let's push this to our production staging cluster. We just change the target and specify our multi-site Ceph storage."
_(Deploy to the remote cluster)_
"And there it is. We've gone from a simple web app to a monitored, enterprise-grade service in minutes."
---
#### **Slide 8: Live Demo: Embracing Chaos**
**Goal:** Prove the "predictable" and "resilient" claims in the most dramatic way possible.
- **Visual:** A slide showing a map or diagram of your distributed infrastructure (the different data centers). Then switch back to your terminal.
- **Narration Guide:**
"This is great when things are sunny. But production is chaos. So... let's break things. On purpose."
"First, a network failure." _(Kill a switch/link, show app is still up)_
"Now, let's power off a storage server." _(Force off a server, show Ceph healing and the app is unaffected)_
"How about a control plane node?" _(Force off a k8s control plane, show the cluster is still running)_
"Okay, for the grand finale. What if we have a cascading failure? I'm going to kill _another_ storage server. This should cause a total failure in this data center."
_(Force off the second server, narrate what's happening)_
"And there it is... Ceph has lost quorum in this site... and Harmony has automatically failed everything over to our other datacenter. The app is still running."
---
#### **Slide 9: The New Reality**
**Goal:** Summarize the dream and tell the audience what you want them to do.
- **Visual:** The clean, simple Harmony Rust DSL code from Slide 6. A summary of what was just accomplished is listed next to it: `✓ GitHub to Prod in minutes`, `✓ Type-Safe Validation`, `✓ Built-in Monitoring`, `✓ Automated Multi-Site Failover`.
- **Narration:**
"So, in just a few minutes, we went from a simple web app to a multi-site, monitored, and chaos-proof production deployment. We did it with a small amount of code that is easy to read, easy to verify, and completely portable. This is our vision: to offload the complexity, and make infrastructure simple, predictable, and even fun again."
---
#### **Slide 10: Join Us**
- **Visual:** A clean, final slide with QR codes and links.
- GitHub Repo (`github.com/nation-tech/harmony`)
- Website (`harmony.sh` or similar)
- Your contact info (`jg@nation.tech` / LinkedIn / Twitter)
- **Narration:**
"Harmony is open-source, AGPLv3. We believe this is the future, but we're just getting started. We know this crowd has great infrastructure minds out there, and we need your feedback. Please, check out the project on GitHub. Star it if you like what you see. Tell us what's missing. Let's build this future together. Thank you."
**(Open for Q&A)**

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