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NationTech:master NationTech:feat/postgresqlScore NationTech:feat/cnpgOperator NationTech:feat/multisitePostgreSQL NationTech:feat/unshedulable_control_planes NationTech:feat/worker_okd_install NationTech:feat/cluster_monitoring NationTech:fix/opnsense_update NationTech:feat/brocade_snmp NationTech:doc-and-braindump NationTech:feat/rebuild_inventory NationTech:doc/clone NationTech:feat/opnsenseTopology NationTech:fix/pxe_install NationTech:feat/install_opnsense_node_exporter NationTech:doc/worker-flag NationTech:feat/webappdns 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
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NationTech:feat/postgresqlScore NationTech:feat/cnpgOperator NationTech:feat/multisitePostgreSQL NationTech:master NationTech:feat/unshedulable_control_planes NationTech:feat/worker_okd_install NationTech:feat/cluster_monitoring NationTech:fix/opnsense_update NationTech:feat/brocade_snmp NationTech:doc-and-braindump NationTech:feat/rebuild_inventory NationTech:doc/clone NationTech:feat/opnsenseTopology NationTech:fix/pxe_install NationTech:feat/install_opnsense_node_exporter NationTech:doc/worker-flag NationTech:feat/webappdns 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

12 Commits
doc/worker ... 5142e2dd2d

Author SHA1 Message Date
Jean-Gabriel Gill-Couture
5142e2dd2d fix: Support multiple mac address on static host binding
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2025-09-03 08:40:01 -04:00
Jean-Gabriel Gill-Couture
ceea03d6ce wip minor refactor in okd example
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2025-09-03 00:39:21 -04:00
Jean-Gabriel Gill-Couture
f1209b3823 feat: OKD bootstrap automation pretty much complete with a few prompt for manual steps
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2025-09-03 00:00:35 -04:00
Jean-Gabriel Gill-Couture
6f746d4c88 feat: OKD Installation now generates ignition files, copies them over, also uploads scos images
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2025-09-02 20:48:48 -04:00
Jean-Gabriel Gill-Couture
75f27a2b85 chore: Move opnsense credential secret from example into domain. There is an architectural problem around secrets still but its definitely something we want to manage for the user
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2025-09-02 11:46:43 -04:00
Jean-Gabriel Gill-Couture
d24ea23413 fix: Dhcp static hostname has to have domain specified with dnsmasq, also progress on okd installation automation
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2025-09-02 11:26:07 -04:00
Jean-Gabriel Gill-Couture
0070373714 feat(okd installation): Process works nicely all the way up to setting the bootstrap host binding in opnsense automatically! Next step : generate the mac address boot file for bootstrap host, install ignition files and the cluster will booooooooot
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2025-09-02 00:41:07 -04:00
Jean-Gabriel Gill-Couture
f6e665f990 feat: Can now select a bootstrap host and save the role mapping to database
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2025-09-02 00:10:20 -04:00
Jean-Gabriel Gill-Couture
241980ebec wip: OKd installation, some cleanup of unused and some refactoring
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Jean-Gabriel Gill-Couture
35a459f63c wip: OKD Installation full process automation underway, ready to test bootstrapping very soon
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Jean-Gabriel Gill-Couture
f076d36297 wip: bootstrap step of okd installation required some refactoring, its getting there
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Jean-Gabriel Gill-Couture
138e414727 feat(opnsense-config): dnsmasq dhcp static mappings
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156 changed files with 1444 additions and 5609 deletions
Expand all files Collapse all files

1
.gitignore vendored
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@@ -3,7 +3,6 @@ private_repos/
### Harmony ###
harmony.log
data/okd/installation_files*
### Helm ###
# Chart dependencies

3
.gitmodules vendored
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@@ -1,3 +0,0 @@
[submodule "examples/try_rust_webapp/tryrust.org"]
path = examples/try_rust_webapp/tryrust.org
url = https://github.com/rust-dd/tryrust.org.git

63
Cargo.lock generated
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@@ -1759,7 +1759,6 @@ dependencies = [
"env_logger",
"harmony",
"harmony_macros",
"harmony_secret",
"harmony_tui",
"harmony_types",
"log",
@@ -1858,21 +1857,6 @@ dependencies = [
"url",
]
[[package]]
name = "example-try-rust-webapp"
version = "0.1.0"
dependencies = [
"base64 0.22.1",
"env_logger",
"harmony",
"harmony_cli",
"harmony_macros",
"harmony_types",
"log",
"tokio",
"url",
]
[[package]]
name = "example-tui"
version = "0.1.0"
@@ -2361,7 +2345,6 @@ dependencies = [
"tokio-util",
"url",
"uuid",
"walkdir",
]
[[package]]
@@ -2433,7 +2416,6 @@ dependencies = [
"serde",
"serde_yaml",
"syn 2.0.106",
"url",
]
[[package]]
@@ -2445,7 +2427,6 @@ dependencies = [
"harmony_secret_derive",
"http 1.3.1",
"infisical",
"inquire",
"lazy_static",
"log",
"pretty_assertions",
@@ -3889,7 +3870,6 @@ dependencies = [
"russh-sftp",
"serde",
"serde_json",
"sha2",
"thiserror 1.0.69",
"tokio",
"tokio-stream",
@@ -4664,21 +4644,6 @@ dependencies = [
"subtle",
]
[[package]]
name = "rhob-application-monitoring"
version = "0.1.0"
dependencies = [
"base64 0.22.1",
"env_logger",
"harmony",
"harmony_cli",
"harmony_macros",
"harmony_types",
"log",
"tokio",
"url",
]
[[package]]
name = "ring"
version = "0.17.14"
@@ -5019,15 +4984,6 @@ dependencies = [
"cipher",
]
[[package]]
name = "same-file"
version = "1.0.6"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "93fc1dc3aaa9bfed95e02e6eadabb4baf7e3078b0bd1b4d7b6b0b68378900502"
dependencies = [
"winapi-util",
]
[[package]]
name = "schannel"
version = "0.1.27"
@@ -6565,16 +6521,6 @@ dependencies = [
"libc",
]
[[package]]
name = "walkdir"
version = "2.5.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "29790946404f91d9c5d06f9874efddea1dc06c5efe94541a7d6863108e3a5e4b"
dependencies = [
"same-file",
"winapi-util",
]
[[package]]
name = "want"
version = "0.3.1"
@@ -6757,15 +6703,6 @@ version = "0.4.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "ac3b87c63620426dd9b991e5ce0329eff545bccbbb34f3be09ff6fb6ab51b7b6"
[[package]]
name = "winapi-util"
version = "0.1.10"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "0978bf7171b3d90bac376700cb56d606feb40f251a475a5d6634613564460b22"
dependencies = [
"windows-sys 0.60.2",
]
[[package]]
name = "winapi-x86_64-pc-windows-gnu"
version = "0.4.0"

69
README.md
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@@ -36,59 +36,48 @@ These principles surface as simple, ergonomic Rust APIs that let teams focus on
## 2 · Quick Start
The snippet below spins up a complete **production-grade Rust + Leptos Webapp** with monitoring. Swap it for your own scores to deploy anything from microservices to machine-learning pipelines.
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,
maestro::Maestro,
modules::{
application::{
ApplicationScore, RustWebFramework, RustWebapp,
features::{PackagingDeployment, rhob_monitoring::Monitoring},
},
monitoring::alert_channel::discord_alert_channel::DiscordWebhook,
lamp::{LAMPConfig, LAMPScore},
monitoring::monitoring_alerting::MonitoringAlertingStackScore,
},
topology::K8sAnywhereTopology,
topology::{K8sAnywhereTopology, Url},
};
use harmony_macros::hurl;
use std::{path::PathBuf, sync::Arc};
#[tokio::main]
async fn main() {
let application = Arc::new(RustWebapp {
name: "harmony-example-leptos".to_string(),
project_root: PathBuf::from(".."), // <== Your project root, usually .. if you use the standard `/harmony` folder
framework: Some(RustWebFramework::Leptos),
service_port: 8080,
});
// Define your Application deployment and the features you want
let app = ApplicationScore {
features: vec![
Box::new(PackagingDeployment {
application: application.clone(),
}),
Box::new(Monitoring {
application: application.clone(),
alert_receiver: vec![
Box::new(DiscordWebhook {
name: "test-discord".to_string(),
url: hurl!("https://discord.doesnt.exist.com"), // <== Get your discord webhook url
}),
],
}),
],
application,
// 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(), // <== Deploy to local automatically provisioned local k3d by default or connect to any kubernetes cluster
vec![Box::new(app)],
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();
}
```

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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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@@ -1,8 +0,0 @@
- 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)

132
demos/cncf-k8s-quebec-meetup-september-2025/storyline.md
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@@ -1,132 +0,0 @@
# 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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demos/cncf-k8s-quebec-meetup-september-2025/terraform/.terraform.lock.hcl generated
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@@ -1,40 +0,0 @@
# This file is maintained automatically by "terraform init".
# Manual edits may be lost in future updates.
provider "registry.terraform.io/hashicorp/http" {
version = "3.5.0"
hashes = [
"h1:8bUoPwS4hahOvzCBj6b04ObLVFXCEmEN8T/5eOHmWOM=",
"zh:047c5b4920751b13425efe0d011b3a23a3be97d02d9c0e3c60985521c9c456b7",
"zh:157866f700470207561f6d032d344916b82268ecd0cf8174fb11c0674c8d0736",
"zh:1973eb9383b0d83dd4fd5e662f0f16de837d072b64a6b7cd703410d730499476",
"zh:212f833a4e6d020840672f6f88273d62a564f44acb0c857b5961cdb3bbc14c90",
"zh:2c8034bc039fffaa1d4965ca02a8c6d57301e5fa9fff4773e684b46e3f78e76a",
"zh:5df353fc5b2dd31577def9cc1a4ebf0c9a9c2699d223c6b02087a3089c74a1c6",
"zh:672083810d4185076c81b16ad13d1224b9e6ea7f4850951d2ab8d30fa6e41f08",
"zh:78d5eefdd9e494defcb3c68d282b8f96630502cac21d1ea161f53cfe9bb483b3",
"zh:7b4200f18abdbe39904b03537e1a78f21ebafe60f1c861a44387d314fda69da6",
"zh:843feacacd86baed820f81a6c9f7bd32cf302db3d7a0f39e87976ebc7a7cc2ee",
"zh:a9ea5096ab91aab260b22e4251c05f08dad2ed77e43e5e4fadcdfd87f2c78926",
"zh:d02b288922811739059e90184c7f76d45d07d3a77cc48d0b15fd3db14e928623",
]
}
provider "registry.terraform.io/hashicorp/local" {
version = "2.5.3"
hashes = [
"h1:1Nkh16jQJMp0EuDmvP/96f5Unnir0z12WyDuoR6HjMo=",
"zh:284d4b5b572eacd456e605e94372f740f6de27b71b4e1fd49b63745d8ecd4927",
"zh:40d9dfc9c549e406b5aab73c023aa485633c1b6b730c933d7bcc2fa67fd1ae6e",
"zh:6243509bb208656eb9dc17d3c525c89acdd27f08def427a0dce22d5db90a4c8b",
"zh:78d5eefdd9e494defcb3c68d282b8f96630502cac21d1ea161f53cfe9bb483b3",
"zh:885d85869f927853b6fe330e235cd03c337ac3b933b0d9ae827ec32fa1fdcdbf",
"zh:bab66af51039bdfcccf85b25fe562cbba2f54f6b3812202f4873ade834ec201d",
"zh:c505ff1bf9442a889ac7dca3ac05a8ee6f852e0118dd9a61796a2f6ff4837f09",
"zh:d36c0b5770841ddb6eaf0499ba3de48e5d4fc99f4829b6ab66b0fab59b1aaf4f",
"zh:ddb6a407c7f3ec63efb4dad5f948b54f7f4434ee1a2607a49680d494b1776fe1",
"zh:e0dafdd4500bec23d3ff221e3a9b60621c5273e5df867bc59ef6b7e41f5c91f6",
"zh:ece8742fd2882a8fc9d6efd20e2590010d43db386b920b2a9c220cfecc18de47",
"zh:f4c6b3eb8f39105004cf720e202f04f57e3578441cfb76ca27611139bc116a82",
]
}

10
demos/cncf-k8s-quebec-meetup-september-2025/terraform/main.tf
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@@ -1,10 +0,0 @@
provider "http" {}
data "http" "remote_file" {
url = "http:/example.com/file.txt"
}
resource "local_file" "downloaded_file" {
content = data.http.remote_file.body
filename = "${path.module}/downloaded_file.txt"
}

24
demos/cncf-k8s-quebec-meetup-september-2025/terraform_2/.terraform.lock.hcl generated
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@@ -1,24 +0,0 @@
# This file is maintained automatically by "terraform init".
# Manual edits may be lost in future updates.
provider "registry.terraform.io/kreuzwerker/docker" {
version = "3.0.2"
constraints = "~> 3.0.1"
hashes = [
"h1:cT2ccWOtlfKYBUE60/v2/4Q6Stk1KYTNnhxSck+VPlU=",
"zh:15b0a2b2b563d8d40f62f83057d91acb02cd0096f207488d8b4298a59203d64f",
"zh:23d919de139f7cd5ebfd2ff1b94e6d9913f0977fcfc2ca02e1573be53e269f95",
"zh:38081b3fe317c7e9555b2aaad325ad3fa516a886d2dfa8605ae6a809c1072138",
"zh:4a9c5065b178082f79ad8160243369c185214d874ff5048556d48d3edd03c4da",
"zh:5438ef6afe057945f28bce43d76c4401254073de01a774760169ac1058830ac2",
"zh:60b7fadc287166e5c9873dfe53a7976d98244979e0ab66428ea0dea1ebf33e06",
"zh:61c5ec1cb94e4c4a4fb1e4a24576d5f39a955f09afb17dab982de62b70a9bdd1",
"zh:a38fe9016ace5f911ab00c88e64b156ebbbbfb72a51a44da3c13d442cd214710",
"zh:c2c4d2b1fd9ebb291c57f524b3bf9d0994ff3e815c0cd9c9bcb87166dc687005",
"zh:d567bb8ce483ab2cf0602e07eae57027a1a53994aba470fa76095912a505533d",
"zh:e83bf05ab6a19dd8c43547ce9a8a511f8c331a124d11ac64687c764ab9d5a792",
"zh:e90c934b5cd65516fbcc454c89a150bfa726e7cf1fe749790c7480bbeb19d387",
"zh:f05f167d2eaf913045d8e7b88c13757e3cf595dd5cd333057fdafc7c4b7fed62",
"zh:fcc9c1cea5ce85e8bcb593862e699a881bd36dffd29e2e367f82d15368659c3d",
]
}

17
demos/cncf-k8s-quebec-meetup-september-2025/terraform_2/main.tf
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@@ -1,17 +0,0 @@
terraform {
required_providers {
docker = {
source = "kreuzwerker/docker"
version = "~> 3.0.1" # Adjust version as needed
}
}
}
provider "docker" {}
resource "docker_network" "invalid_network" {
name = "my-invalid-network"
ipam_config {
subnet = "172.17.0.0/33"
}
}

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8
docs/OKD_Host_preparation.md
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@@ -1,8 +0,0 @@
## Bios settings
1. CSM : Disabled (compatibility support to boot gpt formatted drives)
2. Secure boot : disabled
3. Boot order :
1. Local Hard drive
2. PXE IPv4
4. System clock, make sure it is adjusted, otherwise you will get invalid certificates error

56
docs/doc-remove-worker-flag.md
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@@ -1,56 +0,0 @@
## **Remove Worker flag from OKD Control Planes**
### **Context**
On OKD user provisioned infrastructure the control plane nodes can have the flag node-role.kubernetes.io/worker which allows non critical workloads to be scheduled on the control-planes
### **Observed Symptoms**
- After adding HAProxy servers to the backend each back end appears down
- Traffic is redirected to the control planes instead of workers
- The pods router-default are incorrectly applied on the control planes rather than on the workers
- Pods are being scheduled on the control planes causing cluster instability
```
ss -tlnp | grep 80
```
- shows process haproxy is listening at 0.0.0.0:80 on cps
- same problem for port 443
- In namespace rook-ceph certain pods are deploted on cps rather than on worker nodes
### **Cause**
- when intalling UPI, the roles (master, worker) are not managed by the Machine Config operator and the cps are made schedulable by default.
### **Diagnostic**
check node labels:
```
oc get nodes --show-labels | grep control-plane
```
Inspecter kubelet configuration:
```
cat /etc/systemd/system/kubelet.service
```
find the line:
```
--node-labels=node-role.kubernetes.io/control-plane,node-role.kubernetes.io/master,node-role.kubernetes.io/worker
```
→ presence of label worker confirms the problem.
Verify the flag doesnt come from MCO
```
oc get machineconfig | grep rendered-master
```
**Solution:**
To make the control planes non schedulable you must patch the cluster scheduler resource
```
oc patch scheduler cluster --type merge -p '{"spec":{"mastersSchedulable":false}}'
```
after the patch is applied the workloads can be deplaced by draining the nodes
```
oc adm cordon <cp-node>
oc adm drain <cp-node> --ignore-daemonsets delete-emptydir-data
```

2
examples/application_monitoring_with_tenant/src/main.rs
View File

@@ -27,9 +27,9 @@ async fn main() {
};
let application = Arc::new(RustWebapp {
name: "example-monitoring".to_string(),
domain: Url::Url(url::Url::parse("https://rustapp.harmony.example.com").unwrap()),
project_root: PathBuf::from("./examples/rust/webapp"),
framework: Some(RustWebFramework::Leptos),
service_port: 3000,
});
let webhook_receiver = WebhookReceiver {

1
examples/nanodc/Cargo.toml
View File

@@ -13,7 +13,6 @@ harmony_types = { path = "../../harmony_types" }
cidr = { workspace = true }
tokio = { workspace = true }
harmony_macros = { path = "../../harmony_macros" }
harmony_secret = { path = "../../harmony_secret" }
log = { workspace = true }
env_logger = { workspace = true }
url = { workspace = true }

15
examples/nanodc/src/main.rs
View File

@@ -5,8 +5,6 @@ use std::{
use cidr::Ipv4Cidr;
use harmony::{
config::secret::SshKeyPair,
data::{FileContent, FilePath},
hardware::{HostCategory, Location, PhysicalHost, SwitchGroup},
infra::opnsense::OPNSenseManagementInterface,
inventory::Inventory,
@@ -15,14 +13,13 @@ use harmony::{
okd::{
bootstrap_dhcp::OKDBootstrapDhcpScore,
bootstrap_load_balancer::OKDBootstrapLoadBalancerScore, dhcp::OKDDhcpScore,
dns::OKDDnsScore, ipxe::OKDIpxeScore,
dns::OKDDnsScore, ipxe::OkdIpxeScore,
},
tftp::TftpScore,
},
topology::{LogicalHost, UnmanagedRouter},
};
use harmony_macros::{ip, mac_address};
use harmony_secret::SecretManager;
use harmony_types::net::Url;
#[tokio::main]
@@ -126,8 +123,6 @@ async fn main() {
let load_balancer_score =
harmony::modules::okd::load_balancer::OKDLoadBalancerScore::new(&topology);
let ssh_key = SecretManager::get_or_prompt::<SshKeyPair>().await.unwrap();
let tftp_score = TftpScore::new(Url::LocalFolder("./data/watchguard/tftpboot".to_string()));
let http_score = StaticFilesHttpScore {
folder_to_serve: Some(Url::LocalFolder(
@@ -138,15 +133,13 @@ async fn main() {
};
let kickstart_filename = "inventory.kickstart".to_string();
let cluster_pubkey_filename = "cluster_ssh_key.pub".to_string();
let harmony_inventory_agent = "harmony_inventory_agent".to_string();
let ipxe_score = OKDIpxeScore {
let ipxe_score = OkdIpxeScore {
kickstart_filename,
harmony_inventory_agent,
cluster_pubkey: FileContent {
path: FilePath::Relative("cluster_ssh_key.pub".to_string()),
content: ssh_key.public,
},
cluster_pubkey_filename,
};
harmony_tui::run(

26
examples/okd_installation/src/main.rs
View File

@@ -2,32 +2,24 @@ mod topology;
use crate::topology::{get_inventory, get_topology};
use harmony::{
config::secret::SshKeyPair,
data::{FileContent, FilePath},
modules::okd::{installation::OKDInstallationPipeline, ipxe::OKDIpxeScore},
modules::okd::{installation::OKDInstallationScore, ipxe::OkdIpxeScore},
score::Score,
topology::HAClusterTopology,
};
use harmony_secret::SecretManager;
#[tokio::main]
async fn main() {
let inventory = get_inventory();
let topology = get_topology().await;
let ssh_key = SecretManager::get_or_prompt::<SshKeyPair>().await.unwrap();
let mut scores: Vec<Box<dyn Score<HAClusterTopology>>> = vec![Box::new(OKDIpxeScore {
kickstart_filename: "inventory.kickstart".to_string(),
harmony_inventory_agent: "harmony_inventory_agent".to_string(),
cluster_pubkey: FileContent {
path: FilePath::Relative("cluster_ssh_key.pub".to_string()),
content: ssh_key.public,
},
})];
scores.append(&mut OKDInstallationPipeline::get_all_scores().await);
let scores: Vec<Box<dyn Score<HAClusterTopology>>> = vec![
Box::new(OkdIpxeScore {
kickstart_filename: "inventory.kickstart".to_string(),
harmony_inventory_agent: "cluster_ssh_key.pub".to_string(),
cluster_pubkey_filename: "harmony_inventory_agent".to_string(),
}),
Box::new(OKDInstallationScore {}),
];
harmony_cli::run(inventory, topology, scores, None)
.await
.unwrap();

2
examples/okd_installation/src/topology.rs
View File

@@ -22,7 +22,7 @@ pub async fn get_topology() -> HAClusterTopology {
name: String::from("opnsense-1"),
};
let config = SecretManager::get_or_prompt::<OPNSenseFirewallConfig>().await;
let config = SecretManager::get::<OPNSenseFirewallConfig>().await;
let config = config.unwrap();
let opnsense = Arc::new(

16
examples/okd_pxe/src/main.rs
View File

@@ -1,12 +1,7 @@
mod topology;
use crate::topology::{get_inventory, get_topology};
use harmony::{
config::secret::SshKeyPair,
data::{FileContent, FilePath},
modules::okd::ipxe::OKDIpxeScore,
};
use harmony_secret::SecretManager;
use harmony::modules::okd::ipxe::OkdIpxeScore;
#[tokio::main]
async fn main() {
@@ -14,16 +9,13 @@ async fn main() {
let topology = get_topology().await;
let kickstart_filename = "inventory.kickstart".to_string();
let cluster_pubkey_filename = "cluster_ssh_key.pub".to_string();
let harmony_inventory_agent = "harmony_inventory_agent".to_string();
let ssh_key = SecretManager::get_or_prompt::<SshKeyPair>().await.unwrap();
let ipxe_score = OKDIpxeScore {
let ipxe_score = OkdIpxeScore {
kickstart_filename,
harmony_inventory_agent,
cluster_pubkey: FileContent {
path: FilePath::Relative("cluster_ssh_key.pub".to_string()),
content: ssh_key.public,
},
cluster_pubkey_filename,
};
harmony_cli::run(inventory, topology, vec![Box::new(ipxe_score)], None)

2
examples/okd_pxe/src/topology.rs
View File

@@ -16,7 +16,7 @@ pub async fn get_topology() -> HAClusterTopology {
name: String::from("opnsense-1"),
};
let config = SecretManager::get_or_prompt::<OPNSenseFirewallCredentials>().await;
let config = SecretManager::get::<OPNSenseFirewallCredentials>().await;
let config = config.unwrap();
let opnsense = Arc::new(

2
examples/opnsense/src/main.rs
View File

@@ -5,7 +5,7 @@ use std::{
use cidr::Ipv4Cidr;
use harmony::{
hardware::{HostCategory, Location, PhysicalHost, SwitchGroup},
hardware::{FirewallGroup, HostCategory, Location, PhysicalHost, SwitchGroup},
infra::opnsense::OPNSenseManagementInterface,
inventory::Inventory,
modules::{

17
examples/rhob_application_monitoring/Cargo.toml
View File

@@ -1,17 +0,0 @@
[package]
name = "rhob-application-monitoring"
edition = "2024"
version.workspace = true
readme.workspace = true
license.workspace = true
[dependencies]
harmony = { path = "../../harmony" }
harmony_cli = { path = "../../harmony_cli" }
harmony_types = { path = "../../harmony_types" }
harmony_macros = { path = "../../harmony_macros" }
tokio = { workspace = true }
log = { workspace = true }
env_logger = { workspace = true }
url = { workspace = true }
base64.workspace = true

48
examples/rhob_application_monitoring/src/main.rs
View File

@@ -1,48 +0,0 @@
use std::{path::PathBuf, sync::Arc};
use harmony::{
inventory::Inventory,
modules::{
application::{
ApplicationScore, RustWebFramework, RustWebapp, features::rhob_monitoring::Monitoring,
},
monitoring::alert_channel::discord_alert_channel::DiscordWebhook,
},
topology::K8sAnywhereTopology,
};
use harmony_types::net::Url;
#[tokio::main]
async fn main() {
let application = Arc::new(RustWebapp {
name: "test-rhob-monitoring".to_string(),
project_root: PathBuf::from("./webapp"), // Relative from 'harmony-path' param
framework: Some(RustWebFramework::Leptos),
service_port: 3000,
});
let discord_receiver = DiscordWebhook {
name: "test-discord".to_string(),
url: Url::Url(url::Url::parse("https://discord.doesnt.exist.com").unwrap()),
};
let app = ApplicationScore {
features: vec![
Box::new(Monitoring {
application: application.clone(),
alert_receiver: vec![Box::new(discord_receiver)],
}),
// TODO add backups, multisite ha, etc
],
application,
};
harmony_cli::run(
Inventory::autoload(),
K8sAnywhereTopology::from_env(),
vec![Box::new(app)],
None,
)
.await
.unwrap();
}

14
examples/rust/src/main.rs
View File

@@ -5,7 +5,7 @@ use harmony::{
modules::{
application::{
ApplicationScore, RustWebFramework, RustWebapp,
features::{Monitoring, PackagingDeployment},
features::{ContinuousDelivery, Monitoring},
},
monitoring::alert_channel::{
discord_alert_channel::DiscordWebhook, webhook_receiver::WebhookReceiver,
@@ -13,30 +13,30 @@ use harmony::{
},
topology::K8sAnywhereTopology,
};
use harmony_macros::hurl;
use harmony_types::net::Url;
#[tokio::main]
async fn main() {
let application = Arc::new(RustWebapp {
name: "harmony-example-rust-webapp".to_string(),
project_root: PathBuf::from("./webapp"),
domain: Url::Url(url::Url::parse("https://rustapp.harmony.example.com").unwrap()),
project_root: PathBuf::from("./webapp"), // Relative from 'harmony-path' param
framework: Some(RustWebFramework::Leptos),
service_port: 3000,
});
let discord_receiver = DiscordWebhook {
name: "test-discord".to_string(),
url: hurl!("https://discord.doesnt.exist.com"),
url: Url::Url(url::Url::parse("https://discord.doesnt.exist.com").unwrap()),
};
let webhook_receiver = WebhookReceiver {
name: "sample-webhook-receiver".to_string(),
url: hurl!("https://webhook-doesnt-exist.com"),
url: Url::Url(url::Url::parse("https://webhook-doesnt-exist.com").unwrap()),
};
let app = ApplicationScore {
features: vec![
Box::new(PackagingDeployment {
Box::new(ContinuousDelivery {
application: application.clone(),
}),
Box::new(Monitoring {

17
examples/try_rust_webapp/Cargo.toml
View File

@@ -1,17 +0,0 @@
[package]
name = "example-try-rust-webapp"
edition = "2024"
version.workspace = true
readme.workspace = true
license.workspace = true
[dependencies]
harmony = { path = "../../harmony" }
harmony_cli = { path = "../../harmony_cli" }
harmony_types = { path = "../../harmony_types" }
harmony_macros = { path = "../../harmony_macros" }
tokio = { workspace = true }
log = { workspace = true }
env_logger = { workspace = true }
url = { workspace = true }
base64.workspace = true

1
examples/try_rust_webapp/files_to_add/.dockerignore
View File

@@ -1 +0,0 @@
harmony

20
examples/try_rust_webapp/files_to_add/Cargo.toml.to_add
View File

@@ -1,20 +0,0 @@
[package]
name = "harmony-tryrust"
edition = "2024"
version = "0.1.0"
[dependencies]
harmony = { path = "../../../nationtech/harmony/harmony" }
harmony_cli = { path = "../../../nationtech/harmony/harmony_cli" }
harmony_types = { path = "../../../nationtech/harmony/harmony_types" }
harmony_macros = { path = "../../../nationtech/harmony/harmony_macros" }
tokio = { version = "1.40", features = [
"io-std",
"fs",
"macros",
"rt-multi-thread",
] }
log = { version = "0.4", features = ["kv"] }
env_logger = "0.11"
url = "2.5"
base64 = "0.22.1"

50
examples/try_rust_webapp/files_to_add/main.rs
View File

@@ -1,50 +0,0 @@
use harmony::{
inventory::Inventory,
modules::{
application::{
ApplicationScore, RustWebFramework, RustWebapp,
features::{PackagingDeployment, rhob_monitoring::Monitoring},
},
monitoring::alert_channel::discord_alert_channel::DiscordWebhook,
},
topology::K8sAnywhereTopology,
};
use harmony_macros::hurl;
use std::{path::PathBuf, sync::Arc};
#[tokio::main]
async fn main() {
let application = Arc::new(RustWebapp {
name: "tryrust".to_string(),
project_root: PathBuf::from(".."),
framework: Some(RustWebFramework::Leptos),
service_port: 8080,
});
let discord_webhook = DiscordWebhook {
name: "harmony_demo".to_string(),
url: hurl!("http://not_a_url.com"),
};
let app = ApplicationScore {
features: vec![
Box::new(PackagingDeployment {
application: application.clone(),
}),
Box::new(Monitoring {
application: application.clone(),
alert_receiver: vec![Box::new(discord_webhook)],
}),
],
application,
};
harmony_cli::run(
Inventory::autoload(),
K8sAnywhereTopology::from_env(),
vec![Box::new(app)],
None,
)
.await
.unwrap();
}

50
examples/try_rust_webapp/src/main.rs
View File

@@ -1,50 +0,0 @@
use harmony::{
inventory::Inventory,
modules::{
application::{
ApplicationScore, RustWebFramework, RustWebapp,
features::{PackagingDeployment, rhob_monitoring::Monitoring},
},
monitoring::alert_channel::discord_alert_channel::DiscordWebhook,
},
topology::K8sAnywhereTopology,
};
use harmony_macros::hurl;
use std::{path::PathBuf, sync::Arc};
#[tokio::main]
async fn main() {
let application = Arc::new(RustWebapp {
name: "harmony-example-tryrust".to_string(),
project_root: PathBuf::from("./tryrust.org"), // <== Project root, in this case it is a
// submodule
framework: Some(RustWebFramework::Leptos),
service_port: 8080,
});
// Define your Application deployment and the features you want
let app = ApplicationScore {
features: vec![
Box::new(PackagingDeployment {
application: application.clone(),
}),
Box::new(Monitoring {
application: application.clone(),
alert_receiver: vec![Box::new(DiscordWebhook {
name: "test-discord".to_string(),
url: hurl!("https://discord.doesnt.exist.com"),
})],
}),
],
application,
};
harmony_cli::run(
Inventory::autoload(),
K8sAnywhereTopology::from_env(), // <== Deploy to local automatically provisioned k3d by default or connect to any kubernetes cluster
vec![Box::new(app)],
None,
)
.await
.unwrap();
}

1
examples/try_rust_webapp/tryrust.org

Submodule examples/try_rust_webapp/tryrust.org deleted from 0f9ba14517

2
examples/tui/src/main.rs
View File

@@ -9,7 +9,6 @@ use harmony::{
},
topology::{
BackendServer, DummyInfra, HealthCheck, HttpMethod, HttpStatusCode, LoadBalancerService,
SSL,
},
};
use harmony_macros::ipv4;
@@ -48,7 +47,6 @@ fn build_large_score() -> LoadBalancerScore {
.to_string(),
HttpMethod::GET,
HttpStatusCode::Success2xx,
SSL::Disabled,
)),
};
LoadBalancerScore {

7
harmony/Cargo.toml
View File

@@ -10,11 +10,7 @@ testing = []
[dependencies]
hex = "0.4"
reqwest = { version = "0.11", features = [
"blocking",
"json",
"rustls-tls",
], default-features = false }
reqwest = { version = "0.11", features = ["blocking", "json", "rustls-tls"], default-features = false }
russh = "0.45.0"
rust-ipmi = "0.1.1"
semver = "1.0.23"
@@ -70,7 +66,6 @@ tar.workspace = true
base64.workspace = true
thiserror.workspace = true
once_cell = "1.21.3"
walkdir = "2.5.0"
harmony_inventory_agent = { path = "../harmony_inventory_agent" }
harmony_secret_derive = { path = "../harmony_secret_derive" }
harmony_secret = { path = "../harmony_secret" }

97
harmony/src/domain/hardware/mod.rs
View File

@@ -1,3 +1,5 @@
use std::sync::Arc;
use derive_new::new;
use harmony_inventory_agent::hwinfo::{CPU, MemoryModule, NetworkInterface, StorageDrive};
use harmony_types::net::MacAddress;
@@ -149,98 +151,6 @@ impl PhysicalHost {
parts.join(" | ")
}
pub fn parts_list(&self) -> String {
let PhysicalHost {
id,
category,
network,
storage,
labels,
memory_modules,
cpus,
} = self;
let mut parts_list = String::new();
parts_list.push_str("\n\n=====================");
parts_list.push_str(&format!("\nHost ID {id}"));
parts_list.push_str("\n=====================");
parts_list.push_str("\n\n=====================");
parts_list.push_str(&format!("\nCPU count {}", cpus.len()));
parts_list.push_str("\n=====================");
cpus.iter().for_each(|c| {
let CPU {
model,
vendor,
cores,
threads,
frequency_mhz,
} = c;
parts_list.push_str(&format!(
"\n{vendor} {model}, {cores}/{threads} {}Ghz",
*frequency_mhz as f64 / 1000.0
));
});
parts_list.push_str("\n\n=====================");
parts_list.push_str(&format!("\nNetwork Interfaces count {}", network.len()));
parts_list.push_str("\n=====================");
network.iter().for_each(|nic| {
parts_list.push_str(&format!(
"\nNic({} {}Gbps mac({}) ipv4({}), ipv6({})",
nic.name,
nic.speed_mbps.unwrap_or(0) / 1000,
nic.mac_address,
nic.ipv4_addresses.join(","),
nic.ipv6_addresses.join(",")
));
});
parts_list.push_str("\n\n=====================");
parts_list.push_str(&format!("\nStorage drives count {}", storage.len()));
parts_list.push_str("\n=====================");
storage.iter().for_each(|drive| {
let StorageDrive {
name,
model,
serial,
size_bytes,
logical_block_size: _,
physical_block_size: _,
rotational: _,
wwn: _,
interface_type,
smart_status,
} = drive;
parts_list.push_str(&format!(
"\n{name} {}Gb {model} {interface_type} smart({smart_status:?}) {serial}",
size_bytes / 1000 / 1000 / 1000
));
});
parts_list.push_str("\n\n=====================");
parts_list.push_str(&format!("\nMemory modules count {}", memory_modules.len()));
parts_list.push_str("\n=====================");
memory_modules.iter().for_each(|mem| {
let MemoryModule {
size_bytes,
speed_mhz,
manufacturer,
part_number,
serial_number,
rank,
} = mem;
parts_list.push_str(&format!(
"\n{}Gb, {}Mhz, Manufacturer ({}), Part Number ({})",
size_bytes / 1000 / 1000 / 1000,
speed_mhz.unwrap_or(0),
manufacturer.as_ref().unwrap_or(&String::new()),
part_number.as_ref().unwrap_or(&String::new()),
));
});
parts_list
}
pub fn cluster_mac(&self) -> MacAddress {
self.network
.first()
@@ -365,6 +275,9 @@ pub enum HostCategory {
Switch,
}
#[cfg(test)]
use harmony_macros::mac_address;
use harmony_types::id::Id;
#[derive(Debug, Clone, Serialize)]

27
harmony/src/domain/interpret/mod.rs
View File

@@ -33,8 +33,6 @@ pub enum InterpretName {
DiscoverInventoryAgent,
CephClusterHealth,
Custom(&'static str),
RHOBAlerting,
K8sIngress,
}
impl std::fmt::Display for InterpretName {
@@ -64,8 +62,6 @@ impl std::fmt::Display for InterpretName {
InterpretName::DiscoverInventoryAgent => f.write_str("DiscoverInventoryAgent"),
InterpretName::CephClusterHealth => f.write_str("CephClusterHealth"),
InterpretName::Custom(name) => f.write_str(name),
InterpretName::RHOBAlerting => f.write_str("RHOBAlerting"),
InterpretName::K8sIngress => f.write_str("K8sIngress"),
}
}
}
@@ -84,15 +80,13 @@ pub trait Interpret<T>: std::fmt::Debug + Send {
pub struct Outcome {
pub status: InterpretStatus,
pub message: String,
pub details: Vec<String>,
}
impl Outcome {
pub fn noop(message: String) -> Self {
pub fn noop() -> Self {
Self {
status: InterpretStatus::NOOP,
message,
details: vec![],
message: String::new(),
}
}
@@ -100,23 +94,6 @@ impl Outcome {
Self {
status: InterpretStatus::SUCCESS,
message,
details: vec![],
}
}
pub fn success_with_details(message: String, details: Vec<String>) -> Self {
Self {
status: InterpretStatus::SUCCESS,
message,
details,
}
}
pub fn running(message: String) -> Self {
Self {
status: InterpretStatus::RUNNING,
message,
details: vec![],
}
}
}

5
harmony/src/domain/inventory/mod.rs
View File

@@ -18,13 +18,12 @@ impl InventoryFilter {
use derive_new::new;
use log::info;
use serde::{Deserialize, Serialize};
use strum::EnumIter;
use crate::hardware::{ManagementInterface, ManualManagementInterface};
use super::{
filter::Filter,
hardware::{HostGroup, Location, SwitchGroup},
hardware::{FirewallGroup, HostGroup, Location, SwitchGroup},
};
#[derive(Debug)]
@@ -64,7 +63,7 @@ impl Inventory {
}
}
#[derive(Debug, Serialize, Deserialize, sqlx::Type, Clone, EnumIter)]
#[derive(Debug, Serialize, Deserialize, sqlx::Type)]
pub enum HostRole {
Bootstrap,
ControlPlane,

2
harmony/src/domain/inventory/repository.rs
View File

@@ -29,7 +29,7 @@ pub trait InventoryRepository: Send + Sync + 'static {
async fn save(&self, host: &PhysicalHost) -> Result<(), RepoError>;
async fn get_latest_by_id(&self, host_id: &str) -> Result<Option<PhysicalHost>, RepoError>;
async fn get_all_hosts(&self) -> Result<Vec<PhysicalHost>, RepoError>;
async fn get_host_for_role(&self, role: &HostRole) -> Result<Vec<PhysicalHost>, RepoError>;
async fn get_host_for_role(&self, role: HostRole) -> Result<Vec<PhysicalHost>, RepoError>;
async fn save_role_mapping(
&self,
role: &HostRole,

7
harmony/src/domain/topology/ingress.rs
View File

@@ -1,7 +0,0 @@
use crate::topology::PreparationError;
use async_trait::async_trait;
#[async_trait]
pub trait Ingress {
async fn get_domain(&self, service: &str) -> Result<String, PreparationError>;
}

71
harmony/src/domain/topology/k8s.rs
View File

@@ -1,19 +1,13 @@
use std::time::Duration;
use derive_new::new;
use k8s_openapi::{
ClusterResourceScope, NamespaceResourceScope,
api::{
apps::v1::Deployment,
core::v1::{Pod, PodStatus},
},
api::{apps::v1::Deployment, core::v1::Pod},
};
use kube::{
Client, Config, Error, Resource,
api::{Api, AttachParams, DeleteParams, ListParams, Patch, PatchParams, ResourceExt},
config::{KubeConfigOptions, Kubeconfig},
core::ErrorResponse,
error::DiscoveryError,
runtime::reflector::Lookup,
};
use kube::{api::DynamicObject, runtime::conditions};
@@ -23,9 +17,9 @@ use kube::{
};
use log::{debug, error, trace};
use serde::{Serialize, de::DeserializeOwned};
use serde_json::{Value, json};
use serde_json::json;
use similar::TextDiff;
use tokio::{io::AsyncReadExt, time::sleep};
use tokio::io::AsyncReadExt;
#[derive(new, Clone)]
pub struct K8sClient {
@@ -59,21 +53,6 @@ impl K8sClient {
})
}
pub async fn get_resource_json_value(
&self,
name: &str,
namespace: Option<&str>,
gvk: &GroupVersionKind,
) -> Result<DynamicObject, Error> {
let gvk = ApiResource::from_gvk(gvk);
let resource: Api<DynamicObject> = if let Some(ns) = namespace {
Api::namespaced_with(self.client.clone(), ns, &gvk)
} else {
Api::default_namespaced_with(self.client.clone(), &gvk)
};
Ok(resource.get(name).await?)
}
pub async fn get_deployment(
&self,
name: &str,
@@ -159,41 +138,6 @@ impl K8sClient {
}
}
pub async fn wait_for_pod_ready(
&self,
pod_name: &str,
namespace: Option<&str>,
) -> Result<(), Error> {
let mut elapsed = 0;
let interval = 5; // seconds between checks
let timeout_secs = 120;
loop {
let pod = self.get_pod(pod_name, namespace).await?;
if let Some(p) = pod {
if let Some(status) = p.status {
if let Some(phase) = status.phase {
if phase.to_lowercase() == "running" {
return Ok(());
}
}
}
}
if elapsed >= timeout_secs {
return Err(Error::Discovery(DiscoveryError::MissingResource(format!(
"'{}' in ns '{}' did not become ready within {}s",
pod_name,
namespace.unwrap(),
timeout_secs
))));
}
sleep(Duration::from_secs(interval)).await;
elapsed += interval;
}
}
/// Will execute a commond in the first pod found that matches the specified label
/// '{label}={name}'
pub async fn exec_app_capture_output(
@@ -460,12 +404,9 @@ impl K8sClient {
.as_str()
.expect("couldn't get kind as str");
let mut it = api_version.splitn(2, '/');
let first = it.next().unwrap();
let (g, v) = match it.next() {
Some(second) => (first, second),
None => ("", first),
};
let split: Vec<&str> = api_version.splitn(2, "/").collect();
let g = split[0];
let v = split[1];
let gvk = GroupVersionKind::gvk(g, v, kind);
let api_resource = ApiResource::from_gvk(&gvk);

177
harmony/src/domain/topology/k8s_anywhere.rs
View File

@@ -1,7 +1,6 @@
use std::{process::Command, sync::Arc};
use async_trait::async_trait;
use kube::api::GroupVersionKind;
use log::{debug, info, warn};
use serde::Serialize;
use tokio::sync::OnceCell;
@@ -15,15 +14,13 @@ use crate::{
monitoring::kube_prometheus::crd::{
crd_alertmanager_config::CRDPrometheus,
prometheus_operator::prometheus_operator_helm_chart_score,
rhob_alertmanager_config::RHOBObservability,
},
prometheus::{
k8s_prometheus_alerting_score::K8sPrometheusCRDAlertingScore,
prometheus::PrometheusApplicationMonitoring, rhob_alerting_score::RHOBAlertingScore,
prometheus::PrometheusApplicationMonitoring,
},
},
score::Score,
topology::ingress::Ingress,
};
use super::{
@@ -111,43 +108,6 @@ impl PrometheusApplicationMonitoring<CRDPrometheus> for K8sAnywhereTopology {
}
}
#[async_trait]
impl PrometheusApplicationMonitoring<RHOBObservability> for K8sAnywhereTopology {
async fn install_prometheus(
&self,
sender: &RHOBObservability,
inventory: &Inventory,
receivers: Option<Vec<Box<dyn AlertReceiver<RHOBObservability>>>>,
) -> Result<PreparationOutcome, PreparationError> {
let po_result = self.ensure_cluster_observability_operator(sender).await?;
if po_result == PreparationOutcome::Noop {
debug!("Skipping Prometheus CR installation due to missing operator.");
return Ok(po_result);
}
let result = self
.get_cluster_observability_operator_prometheus_application_score(
sender.clone(),
receivers,
)
.await
.interpret(inventory, self)
.await;
match result {
Ok(outcome) => match outcome.status {
InterpretStatus::SUCCESS => Ok(PreparationOutcome::Success {
details: outcome.message,
}),
InterpretStatus::NOOP => Ok(PreparationOutcome::Noop),
_ => Err(PreparationError::new(outcome.message)),
},
Err(err) => Err(PreparationError::new(err.to_string())),
}
}
}
impl Serialize for K8sAnywhereTopology {
fn serialize<S>(&self, _serializer: S) -> Result<S::Ok, S::Error>
where
@@ -174,19 +134,6 @@ impl K8sAnywhereTopology {
}
}
async fn get_cluster_observability_operator_prometheus_application_score(
&self,
sender: RHOBObservability,
receivers: Option<Vec<Box<dyn AlertReceiver<RHOBObservability>>>>,
) -> RHOBAlertingScore {
RHOBAlertingScore {
sender,
receivers: receivers.unwrap_or_default(),
service_monitors: vec![],
prometheus_rules: vec![],
}
}
async fn get_k8s_prometheus_application_score(
&self,
sender: CRDPrometheus,
@@ -200,26 +147,6 @@ impl K8sAnywhereTopology {
}
}
async fn openshift_ingress_operator_available(&self) -> Result<(), PreparationError> {
let client = self.k8s_client().await?;
let gvk = GroupVersionKind {
group: "operator.openshift.io".into(),
version: "v1".into(),
kind: "IngressController".into(),
};
let ic = client
.get_resource_json_value("default", Some("openshift-ingress-operator"), &gvk)
.await?;
let ready_replicas = ic.data["status"]["availableReplicas"].as_i64().unwrap_or(0);
if ready_replicas >= 1 {
return Ok(());
} else {
return Err(PreparationError::new(
"openshift-ingress-operator not available".to_string(),
));
}
}
fn is_helm_available(&self) -> Result<(), String> {
let version_result = Command::new("helm")
.arg("version")
@@ -359,64 +286,6 @@ impl K8sAnywhereTopology {
}
}
async fn ensure_cluster_observability_operator(
&self,
sender: &RHOBObservability,
) -> Result<PreparationOutcome, PreparationError> {
let status = Command::new("sh")
.args(["-c", "kubectl get crd -A | grep -i rhobs"])
.status()
.map_err(|e| PreparationError::new(format!("could not connect to cluster: {}", e)))?;
if !status.success() {
if let Some(Some(k8s_state)) = self.k8s_state.get() {
match k8s_state.source {
K8sSource::LocalK3d => {
warn!(
"Installing observability operator is not supported on LocalK3d source"
);
return Ok(PreparationOutcome::Noop);
debug!("installing cluster observability operator");
todo!();
let op_score =
prometheus_operator_helm_chart_score(sender.namespace.clone());
let result = op_score.interpret(&Inventory::empty(), self).await;
return match result {
Ok(outcome) => match outcome.status {
InterpretStatus::SUCCESS => Ok(PreparationOutcome::Success {
details: "installed cluster observability operator".into(),
}),
InterpretStatus::NOOP => Ok(PreparationOutcome::Noop),
_ => Err(PreparationError::new(
"failed to install cluster observability operator (unknown error)".into(),
)),
},
Err(err) => Err(PreparationError::new(err.to_string())),
};
}
K8sSource::Kubeconfig => {
debug!(
"unable to install cluster observability operator, contact cluster admin"
);
return Ok(PreparationOutcome::Noop);
}
}
} else {
warn!(
"Unable to detect k8s_state. Skipping Cluster Observability Operator install."
);
return Ok(PreparationOutcome::Noop);
}
}
debug!("Cluster Observability Operator is already present, skipping install");
Ok(PreparationOutcome::Success {
details: "cluster observability operator present in cluster".into(),
})
}
async fn ensure_prometheus_operator(
&self,
sender: &CRDPrometheus,
@@ -554,7 +423,7 @@ impl MultiTargetTopology for K8sAnywhereTopology {
match self.config.harmony_profile.to_lowercase().as_str() {
"staging" => DeploymentTarget::Staging,
"production" => DeploymentTarget::Production,
_ => todo!("HARMONY_PROFILE must be set when use_local_k3d is false"),
_ => todo!("HARMONY_PROFILE must be set when use_local_k3d is not set"),
}
}
}
@@ -576,45 +445,3 @@ impl TenantManager for K8sAnywhereTopology {
.await
}
}
#[async_trait]
impl Ingress for K8sAnywhereTopology {
//TODO this is specifically for openshift/okd which violates the k8sanywhere idea
async fn get_domain(&self, service: &str) -> Result<String, PreparationError> {
let client = self.k8s_client().await?;
if let Some(Some(k8s_state)) = self.k8s_state.get() {
match k8s_state.source {
K8sSource::LocalK3d => Ok(format!("{service}.local.k3d")),
K8sSource::Kubeconfig => {
self.openshift_ingress_operator_available().await?;
let gvk = GroupVersionKind {
group: "operator.openshift.io".into(),
version: "v1".into(),
kind: "IngressController".into(),
};
let ic = client
.get_resource_json_value(
"default",
Some("openshift-ingress-operator"),
&gvk,
)
.await
.map_err(|_| {
PreparationError::new("Failed to fetch IngressController".to_string())
})?;
match ic.data["status"]["domain"].as_str() {
Some(domain) => Ok(format!("{service}.{domain}")),
None => Err(PreparationError::new("Could not find domain".to_string())),
}
}
}
} else {
Err(PreparationError::new(
"Cannot get domain: unable to detect K8s state".to_string(),
))
}
}
}

11
harmony/src/domain/topology/load_balancer.rs
View File

@@ -102,17 +102,8 @@ pub enum HttpStatusCode {
ServerError5xx,
}
#[derive(Debug, Clone, PartialEq, Serialize)]
pub enum SSL {
SSL,
Disabled,
Default,
SNI,
Other(String),
}
#[derive(Debug, Clone, PartialEq, Serialize)]
pub enum HealthCheck {
HTTP(String, HttpMethod, HttpStatusCode, SSL),
HTTP(String, HttpMethod, HttpStatusCode),
TCP(Option<u16>),
}

3
harmony/src/domain/topology/localhost.rs
View File

@@ -1,10 +1,9 @@
use async_trait::async_trait;
use derive_new::new;
use serde::{Deserialize, Serialize};
use super::{HelmCommand, PreparationError, PreparationOutcome, Topology};
#[derive(new, Clone, Debug, Serialize, Deserialize)]
#[derive(new)]
pub struct LocalhostTopology;
#[async_trait]

1
harmony/src/domain/topology/mod.rs
View File

@@ -1,5 +1,4 @@
mod ha_cluster;
pub mod ingress;
use harmony_types::net::IpAddress;
mod host_binding;
mod http;

3
harmony/src/infra/inventory/sqlite.rs
View File

@@ -108,8 +108,7 @@ impl InventoryRepository for SqliteInventoryRepository {
Ok(())
}
async fn get_host_for_role(&self, role: &HostRole) -> Result<Vec<PhysicalHost>, RepoError> {
async fn get_host_for_role(&self, role: HostRole) -> Result<Vec<PhysicalHost>, RepoError> {
struct HostIdRow {
host_id: String,
}

1
harmony/src/infra/opnsense/dns.rs
View File

@@ -1,3 +1,4 @@
use crate::infra::opnsense::Host;
use crate::infra::opnsense::LogicalHost;
use crate::{
executors::ExecutorError,

35
harmony/src/infra/opnsense/load_balancer.rs
View File

@@ -1,15 +1,13 @@
use async_trait::async_trait;
use log::{debug, error, info, warn};
use opnsense_config_xml::{
Frontend, HAProxy, HAProxyBackend, HAProxyHealthCheck, HAProxyServer, MaybeString,
};
use log::{debug, info, warn};
use opnsense_config_xml::{Frontend, HAProxy, HAProxyBackend, HAProxyHealthCheck, HAProxyServer};
use uuid::Uuid;
use crate::{
executors::ExecutorError,
topology::{
BackendServer, HealthCheck, HttpMethod, HttpStatusCode, LoadBalancer, LoadBalancerService,
LogicalHost, SSL,
LogicalHost,
},
};
use harmony_types::net::IpAddress;
@@ -208,22 +206,7 @@ pub(crate) fn get_health_check_for_backend(
.unwrap_or_default()
.into();
let status_code: HttpStatusCode = HttpStatusCode::Success2xx;
let ssl = match haproxy_health_check
.ssl
.content_string()
.to_uppercase()
.as_str()
{
"SSL" => SSL::SSL,
"SSLNI" => SSL::SNI,
"NOSSL" => SSL::Disabled,
"" => SSL::Default,
other => {
error!("Unknown haproxy health check ssl config {other}");
SSL::Other(other.to_string())
}
};
Some(HealthCheck::HTTP(path, method, status_code, ssl))
Some(HealthCheck::HTTP(path, method, status_code))
}
_ => panic!("Received unsupported health check type {}", uppercase),
}
@@ -258,14 +241,7 @@ pub(crate) fn harmony_load_balancer_service_to_haproxy_xml(
// frontend points to backend
let healthcheck = if let Some(health_check) = &service.health_check {
match health_check {
HealthCheck::HTTP(path, http_method, _http_status_code, ssl) => {
let ssl: MaybeString = match ssl {
SSL::SSL => "ssl".into(),
SSL::SNI => "sslni".into(),
SSL::Disabled => "nossl".into(),
SSL::Default => "".into(),
SSL::Other(other) => other.as_str().into(),
};
HealthCheck::HTTP(path, http_method, _http_status_code) => {
let haproxy_check = HAProxyHealthCheck {
name: format!("HTTP_{http_method}_{path}"),
uuid: Uuid::new_v4().to_string(),
@@ -273,7 +249,6 @@ pub(crate) fn harmony_load_balancer_service_to_haproxy_xml(
health_check_type: "http".to_string(),
http_uri: path.clone().into(),
interval: "2s".to_string(),
ssl,
..Default::default()
};

67
harmony/src/modules/application/feature.rs
View File

@@ -1,10 +1,7 @@
use std::error::Error;
use async_trait::async_trait;
use derive_new::new;
use serde::Serialize;
use crate::{executors::ExecutorError, topology::Topology};
use crate::topology::Topology;
/// An ApplicationFeature provided by harmony, such as Backups, Monitoring, MultisiteAvailability,
/// ContinuousIntegration, ContinuousDelivery
@@ -12,10 +9,7 @@ use crate::{executors::ExecutorError, topology::Topology};
pub trait ApplicationFeature<T: Topology>:
std::fmt::Debug + Send + Sync + ApplicationFeatureClone<T>
{
async fn ensure_installed(
&self,
topology: &T,
) -> Result<InstallationOutcome, InstallationError>;
async fn ensure_installed(&self, topology: &T) -> Result<(), String>;
fn name(&self) -> String;
}
@@ -46,60 +40,3 @@ impl<T: Topology> Clone for Box<dyn ApplicationFeature<T>> {
self.clone_box()
}
}
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum InstallationOutcome {
Success { details: Vec<String> },
Noop,
}
impl InstallationOutcome {
pub fn success() -> Self {
Self::Success { details: vec![] }
}
pub fn success_with_details(details: Vec<String>) -> Self {
Self::Success { details }
}
pub fn noop() -> Self {
Self::Noop
}
}
#[derive(Debug, Clone, new)]
pub struct InstallationError {
msg: String,
}
impl std::fmt::Display for InstallationError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.write_str(&self.msg)
}
}
impl Error for InstallationError {}
impl From<ExecutorError> for InstallationError {
fn from(value: ExecutorError) -> Self {
Self {
msg: format!("InstallationError : {value}"),
}
}
}
impl From<kube::Error> for InstallationError {
fn from(value: kube::Error) -> Self {
Self {
msg: format!("InstallationError : {value}"),
}
}
}
impl From<String> for InstallationError {
fn from(value: String) -> Self {
Self {
msg: format!("PreparationError : {value}"),
}
}
}

44
harmony/src/modules/application/features/packaging_deployment.rs → harmony/src/modules/application/features/continuous_delivery.rs
View File

@@ -10,13 +10,11 @@ use crate::{
data::Version,
inventory::Inventory,
modules::application::{
ApplicationFeature, HelmPackage, InstallationError, InstallationOutcome, OCICompliant,
ApplicationFeature, HelmPackage, OCICompliant,
features::{ArgoApplication, ArgoHelmScore},
},
score::Score,
topology::{
DeploymentTarget, HelmCommand, K8sclient, MultiTargetTopology, Topology, ingress::Ingress,
},
topology::{DeploymentTarget, HelmCommand, K8sclient, MultiTargetTopology, Topology},
};
/// ContinuousDelivery in Harmony provides this functionality :
@@ -47,11 +45,11 @@ use crate::{
/// - ArgoCD to install/upgrade/rollback/inspect k8s resources
/// - Kubernetes for runtime orchestration
#[derive(Debug, Default, Clone)]
pub struct PackagingDeployment<A: OCICompliant + HelmPackage> {
pub struct ContinuousDelivery<A: OCICompliant + HelmPackage> {
pub application: Arc<A>,
}
impl<A: OCICompliant + HelmPackage> PackagingDeployment<A> {
impl<A: OCICompliant + HelmPackage> ContinuousDelivery<A> {
async fn deploy_to_local_k3d(
&self,
app_name: String,
@@ -138,28 +136,18 @@ impl<A: OCICompliant + HelmPackage> PackagingDeployment<A> {
#[async_trait]
impl<
A: OCICompliant + HelmPackage + Clone + 'static,
T: Topology + HelmCommand + MultiTargetTopology + K8sclient + Ingress + 'static,
> ApplicationFeature<T> for PackagingDeployment<A>
T: Topology + HelmCommand + MultiTargetTopology + K8sclient + 'static,
> ApplicationFeature<T> for ContinuousDelivery<A>
{
async fn ensure_installed(
&self,
topology: &T,
) -> Result<InstallationOutcome, InstallationError> {
async fn ensure_installed(&self, topology: &T) -> Result<(), String> {
let image = self.application.image_name();
let domain = topology
.get_domain(&self.application.name())
.await
.map_err(|e| e.to_string())?;
// TODO Write CI/CD workflow files
// we can autotedect the CI type using the remote url (default to github action for github
// url, etc..)
// Or ask for it when unknown
let helm_chart = self
.application
.build_push_helm_package(&image, &domain)
.await?;
let helm_chart = self.application.build_push_helm_package(&image).await?;
// TODO: Make building image configurable/skippable if image already exists (prompt)")
// https://git.nationtech.io/NationTech/harmony/issues/104
@@ -188,18 +176,18 @@ impl<
}
target => {
info!("Deploying {} to target {target:?}", self.application.name());
let score = ArgoHelmScore {
namespace: format!("{}", self.application.name()),
namespace: "harmony-example-rust-webapp".to_string(),
openshift: true,
domain: "argo.harmonydemo.apps.ncd0.harmony.mcd".to_string(),
argo_apps: vec![ArgoApplication::from(CDApplicationConfig {
// helm pull oci://hub.nationtech.io/harmony/harmony-example-rust-webapp-chart --version 0.1.0
version: Version::from("0.1.0").unwrap(),
helm_chart_repo_url: "hub.nationtech.io/harmony".to_string(),
helm_chart_name: format!("{}-chart", self.application.name()),
helm_chart_name: "harmony-example-rust-webapp-chart".to_string(),
values_overrides: None,
name: format!("{}", self.application.name()),
namespace: format!("{}", self.application.name()),
name: "harmony-demo-rust-webapp".to_string(),
namespace: "harmony-example-rust-webapp".to_string(),
})],
};
score
@@ -208,11 +196,7 @@ impl<
.unwrap();
}
};
Ok(InstallationOutcome::success_with_details(vec![format!(
"{}: http://{domain}",
self.application.name()
)]))
Ok(())
}
fn name(&self) -> String {
"ContinuousDelivery".to_string()

7
harmony/src/modules/application/features/endpoint.rs
View File

@@ -2,7 +2,7 @@ use async_trait::async_trait;
use log::info;
use crate::{
modules::application::{ApplicationFeature, InstallationError, InstallationOutcome},
modules::application::ApplicationFeature,
topology::{K8sclient, Topology},
};
@@ -29,10 +29,7 @@ impl Default for PublicEndpoint {
/// For now we only suport K8s ingress, but we will support more stuff at some point
#[async_trait]
impl<T: Topology + K8sclient + 'static> ApplicationFeature<T> for PublicEndpoint {
async fn ensure_installed(
&self,
_topology: &T,
) -> Result<InstallationOutcome, InstallationError> {
async fn ensure_installed(&self, _topology: &T) -> Result<(), String> {
info!(
"Making sure public endpoint is installed for port {}",
self.application_port

92
harmony/src/modules/application/features/helm_argocd_score.rs
View File

@@ -1,10 +1,7 @@
use async_trait::async_trait;
use kube::{Api, api::GroupVersionKind};
use log::{debug, warn};
use non_blank_string_rs::NonBlankString;
use serde::Serialize;
use serde::de::DeserializeOwned;
use std::{process::Command, str::FromStr, sync::Arc};
use std::str::FromStr;
use crate::{
data::Version,
@@ -12,10 +9,7 @@ use crate::{
inventory::Inventory,
modules::helm::chart::{HelmChartScore, HelmRepository},
score::Score,
topology::{
HelmCommand, K8sclient, PreparationError, PreparationOutcome, Topology, ingress::Ingress,
k8s::K8sClient,
},
topology::{HelmCommand, K8sclient, Topology},
};
use harmony_types::id::Id;
@@ -25,13 +19,15 @@ use super::ArgoApplication;
pub struct ArgoHelmScore {
pub namespace: String,
pub openshift: bool,
pub domain: String,
pub argo_apps: Vec<ArgoApplication>,
}
impl<T: Topology + HelmCommand + K8sclient + Ingress> Score<T> for ArgoHelmScore {
impl<T: Topology + HelmCommand + K8sclient> Score<T> for ArgoHelmScore {
fn create_interpret(&self) -> Box<dyn crate::interpret::Interpret<T>> {
let helm_score = argo_helm_chart_score(&self.namespace, self.openshift, &self.domain);
Box::new(ArgoInterpret {
score: self.clone(),
score: helm_score,
argo_apps: self.argo_apps.clone(),
})
}
@@ -43,41 +39,33 @@ impl<T: Topology + HelmCommand + K8sclient + Ingress> Score<T> for ArgoHelmScore
#[derive(Debug)]
pub struct ArgoInterpret {
score: ArgoHelmScore,
score: HelmChartScore,
argo_apps: Vec<ArgoApplication>,
}
#[async_trait]
impl<T: Topology + K8sclient + HelmCommand + Ingress> Interpret<T> for ArgoInterpret {
impl<T: Topology + K8sclient + HelmCommand> Interpret<T> for ArgoInterpret {
async fn execute(
&self,
inventory: &Inventory,
topology: &T,
) -> Result<Outcome, InterpretError> {
self.score.interpret(inventory, topology).await?;
let k8s_client = topology.k8s_client().await?;
let svc = format!("argo-{}", self.score.namespace.clone());
let domain = topology.get_domain(&svc).await?;
let helm_score =
argo_helm_chart_score(&self.score.namespace, self.score.openshift, &domain);
helm_score.interpret(inventory, topology).await?;
k8s_client
.apply_yaml_many(&self.argo_apps.iter().map(|a| a.to_yaml()).collect(), None)
.await
.unwrap();
Ok(Outcome::success_with_details(
format!(
"ArgoCD {} {}",
self.argo_apps.len(),
match self.argo_apps.len() {
1 => "application",
_ => "applications",
}
),
vec![format!("argo application: http://{}", domain)],
))
Ok(Outcome::success(format!(
"ArgoCD installed with {} {}",
self.argo_apps.len(),
match self.argo_apps.len() {
1 => "application",
_ => "applications",
}
)))
}
fn get_name(&self) -> InterpretName {
@@ -97,38 +85,6 @@ impl<T: Topology + K8sclient + HelmCommand + Ingress> Interpret<T> for ArgoInter
}
}
impl ArgoInterpret {
pub async fn get_host_domain(
&self,
client: Arc<K8sClient>,
openshift: bool,
) -> Result<String, InterpretError> {
//This should be the job of the topology to determine if we are in
//openshift, potentially we need on openshift topology the same way we create a
//localhosttopology
match openshift {
true => {
let gvk = GroupVersionKind {
group: "operator.openshift.io".into(),
version: "v1".into(),
kind: "IngressController".into(),
};
let ic = client
.get_resource_json_value("default", Some("openshift-ingress-operator"), &gvk)
.await?;
match ic.data["status"]["domain"].as_str() {
Some(domain) => return Ok(domain.to_string()),
None => return Err(InterpretError::new("Could not find domain".to_string())),
}
}
false => {
todo!()
}
};
}
}
pub fn argo_helm_chart_score(namespace: &str, openshift: bool, domain: &str) -> HelmChartScore {
let values = format!(
r#"
@@ -160,9 +116,6 @@ global:
## Used for ingresses, certificates, SSO, notifications, etc.
domain: {domain}
securityContext:
runAsUser: null
# -- Runtime class name for all components
runtimeClassName: ""
@@ -474,13 +427,6 @@ redis:
# -- Redis name
name: redis
serviceAccount:
create: true
securityContext:
runAsUser: null
## Redis image
image:
# -- Redis repository
@@ -714,7 +660,7 @@ server:
# nginx.ingress.kubernetes.io/ssl-passthrough: "true"
# -- Defines which ingress controller will implement the resource
ingressClassName: "openshift-default"
ingressClassName: ""
# -- Argo CD server hostname
# @default -- `""` (defaults to global.domain)

5
harmony/src/modules/application/features/mod.rs
View File

@@ -1,12 +1,11 @@
mod endpoint;
pub mod rhob_monitoring;
pub use endpoint::*;
mod monitoring;
pub use monitoring::*;
mod packaging_deployment;
pub use packaging_deployment::*;
mod continuous_delivery;
pub use continuous_delivery::*;
mod helm_argocd_score;
pub use helm_argocd_score::*;

43
harmony/src/modules/application/features/monitoring.rs
View File

@@ -1,10 +1,10 @@
use crate::modules::application::{
Application, ApplicationFeature, InstallationError, InstallationOutcome,
};
use std::sync::Arc;
use crate::modules::application::{Application, ApplicationFeature};
use crate::modules::monitoring::application_monitoring::application_monitoring_score::ApplicationMonitoringScore;
use crate::modules::monitoring::kube_prometheus::crd::crd_alertmanager_config::CRDPrometheus;
use crate::topology::MultiTargetTopology;
use crate::topology::ingress::Ingress;
use crate::{
inventory::Inventory,
modules::monitoring::{
@@ -19,12 +19,8 @@ use crate::{
};
use async_trait::async_trait;
use base64::{Engine as _, engine::general_purpose};
use harmony_secret::SecretManager;
use harmony_secret_derive::Secret;
use harmony_types::net::Url;
use log::{debug, info};
use serde::{Deserialize, Serialize};
use std::sync::Arc;
#[derive(Debug, Clone)]
pub struct Monitoring {
@@ -40,22 +36,17 @@ impl<
+ TenantManager
+ K8sclient
+ MultiTargetTopology
+ PrometheusApplicationMonitoring<CRDPrometheus>
+ Ingress
+ std::fmt::Debug,
+ std::fmt::Debug
+ PrometheusApplicationMonitoring<CRDPrometheus>,
> ApplicationFeature<T> for Monitoring
{
async fn ensure_installed(
&self,
topology: &T,
) -> Result<InstallationOutcome, InstallationError> {
async fn ensure_installed(&self, topology: &T) -> Result<(), String> {
info!("Ensuring monitoring is available for application");
let namespace = topology
.get_tenant_config()
.await
.map(|ns| ns.name.clone())
.unwrap_or_else(|| self.application.name());
let domain = topology.get_domain("ntfy").await.unwrap();
let mut alerting_score = ApplicationMonitoringScore {
sender: CRDPrometheus {
@@ -67,17 +58,19 @@ impl<
};
let ntfy = NtfyScore {
namespace: namespace.clone(),
host: domain,
host: "ntfy.harmonydemo.apps.ncd0.harmony.mcd".to_string(),
};
ntfy.interpret(&Inventory::empty(), topology)
.await
.map_err(|e| e.to_string())?;
let config = SecretManager::get_or_prompt::<NtfyAuth>().await.unwrap();
let ntfy_default_auth_username = "harmony";
let ntfy_default_auth_password = "harmony";
let ntfy_default_auth_header = format!(
"Basic {}",
general_purpose::STANDARD.encode(format!("{}:{}", config.username, config.password))
general_purpose::STANDARD.encode(format!(
"{ntfy_default_auth_username}:{ntfy_default_auth_password}"
))
);
debug!("ntfy_default_auth_header: {ntfy_default_auth_header}");
@@ -107,17 +100,9 @@ impl<
.interpret(&Inventory::empty(), topology)
.await
.map_err(|e| e.to_string())?;
Ok(InstallationOutcome::success())
Ok(())
}
fn name(&self) -> String {
"Monitoring".to_string()
}
}
#[derive(Secret, Serialize, Deserialize, Clone, Debug)]
struct NtfyAuth {
username: String,
password: String,
}

126
harmony/src/modules/application/features/rhob_monitoring.rs
View File

@@ -1,126 +0,0 @@
use std::sync::Arc;
use crate::modules::application::{
Application, ApplicationFeature, InstallationError, InstallationOutcome,
};
use crate::modules::monitoring::application_monitoring::application_monitoring_score::ApplicationMonitoringScore;
use crate::modules::monitoring::application_monitoring::rhobs_application_monitoring_score::ApplicationRHOBMonitoringScore;
use crate::modules::monitoring::kube_prometheus::crd::rhob_alertmanager_config::RHOBObservability;
use crate::topology::MultiTargetTopology;
use crate::topology::ingress::Ingress;
use crate::{
inventory::Inventory,
modules::monitoring::{
alert_channel::webhook_receiver::WebhookReceiver, ntfy::ntfy::NtfyScore,
},
score::Score,
topology::{HelmCommand, K8sclient, Topology, tenant::TenantManager},
};
use crate::{
modules::prometheus::prometheus::PrometheusApplicationMonitoring,
topology::oberservability::monitoring::AlertReceiver,
};
use async_trait::async_trait;
use base64::{Engine as _, engine::general_purpose};
use harmony_types::net::Url;
use log::{debug, info};
#[derive(Debug, Clone)]
pub struct Monitoring {
pub application: Arc<dyn Application>,
pub alert_receiver: Vec<Box<dyn AlertReceiver<RHOBObservability>>>,
}
#[async_trait]
impl<
T: Topology
+ HelmCommand
+ 'static
+ TenantManager
+ K8sclient
+ MultiTargetTopology
+ Ingress
+ std::fmt::Debug
+ PrometheusApplicationMonitoring<RHOBObservability>,
> ApplicationFeature<T> for Monitoring
{
async fn ensure_installed(
&self,
topology: &T,
) -> Result<InstallationOutcome, InstallationError> {
info!("Ensuring monitoring is available for application");
let namespace = topology
.get_tenant_config()
.await
.map(|ns| ns.name.clone())
.unwrap_or_else(|| self.application.name());
let mut alerting_score = ApplicationRHOBMonitoringScore {
sender: RHOBObservability {
namespace: namespace.clone(),
client: topology.k8s_client().await.unwrap(),
},
application: self.application.clone(),
receivers: self.alert_receiver.clone(),
};
let domain = topology
.get_domain("ntfy")
.await
.map_err(|e| format!("could not get domain {e}"))?;
let ntfy = NtfyScore {
namespace: namespace.clone(),
host: domain.clone(),
};
ntfy.interpret(&Inventory::empty(), topology)
.await
.map_err(|e| e.to_string())?;
let ntfy_default_auth_username = "harmony";
let ntfy_default_auth_password = "harmony";
let ntfy_default_auth_header = format!(
"Basic {}",
general_purpose::STANDARD.encode(format!(
"{ntfy_default_auth_username}:{ntfy_default_auth_password}"
))
);
debug!("ntfy_default_auth_header: {ntfy_default_auth_header}");
let ntfy_default_auth_param = general_purpose::STANDARD
.encode(ntfy_default_auth_header)
.replace("=", "");
debug!("ntfy_default_auth_param: {ntfy_default_auth_param}");
let ntfy_receiver = WebhookReceiver {
name: "ntfy-webhook".to_string(),
url: Url::Url(
url::Url::parse(
format!(
"http://{domain}/{}?auth={ntfy_default_auth_param}",
self.application.name()
)
.as_str(),
)
.unwrap(),
),
};
debug!(
"ntfy webhook receiver \n{:#?}\nntfy topic: {}",
ntfy_receiver.clone(),
self.application.name()
);
alerting_score.receivers.push(Box::new(ntfy_receiver));
alerting_score
.interpret(&Inventory::empty(), topology)
.await
.map_err(|e| e.to_string())?;
Ok(InstallationOutcome::success_with_details(vec![format!(
"ntfy topic: {}",
self.application.name()
)]))
}
fn name(&self) -> String {
"Monitoring".to_string()
}
}

19
harmony/src/modules/application/mod.rs
View File

@@ -24,8 +24,8 @@ use harmony_types::id::Id;
#[derive(Clone, Debug)]
pub enum ApplicationFeatureStatus {
Installing,
Installed { details: Vec<String> },
Failed { message: String },
Installed,
Failed { details: String },
}
pub trait Application: std::fmt::Debug + Send + Sync {
@@ -65,32 +65,27 @@ impl<A: Application, T: Topology + std::fmt::Debug> Interpret<T> for Application
.unwrap();
let _ = match feature.ensure_installed(topology).await {
Ok(outcome) => {
Ok(()) => {
instrumentation::instrument(HarmonyEvent::ApplicationFeatureStateChanged {
topology: topology.name().into(),
application: self.application.name(),
feature: feature.name(),
status: ApplicationFeatureStatus::Installed {
details: match outcome {
InstallationOutcome::Success { details } => details,
InstallationOutcome::Noop => vec![],
},
},
status: ApplicationFeatureStatus::Installed,
})
.unwrap();
}
Err(error) => {
Err(msg) => {
instrumentation::instrument(HarmonyEvent::ApplicationFeatureStateChanged {
topology: topology.name().into(),
application: self.application.name(),
feature: feature.name(),
status: ApplicationFeatureStatus::Failed {
message: error.to_string(),
details: msg.clone(),
},
})
.unwrap();
return Err(InterpretError::new(format!(
"Application Interpret failed to install feature : {error}"
"Application Interpret failed to install feature : {msg}"
)));
}
};

10
harmony/src/modules/application/oci.rs
View File

@@ -1,6 +1,7 @@
use super::Application;
use async_trait::async_trait;
use super::Application;
#[async_trait]
pub trait OCICompliant: Application {
async fn build_push_oci_image(&self) -> Result<String, String>; // TODO consider using oci-spec and friends crates here
@@ -16,10 +17,5 @@ pub trait HelmPackage: Application {
///
/// # Arguments
/// * `image_url` - The full URL of the OCI container image to be used in the Deployment.
/// * `domain` - The domain where the application is hosted.
async fn build_push_helm_package(
&self,
image_url: &str,
domain: &str,
) -> Result<String, String>;
async fn build_push_helm_package(&self, image_url: &str) -> Result<String, String>;
}

334
harmony/src/modules/application/rust.rs
View File

@@ -1,4 +1,4 @@
use std::fs::{self};
use std::fs;
use std::path::{Path, PathBuf};
use std::process;
use std::sync::Arc;
@@ -10,13 +10,13 @@ use dockerfile_builder::Dockerfile;
use dockerfile_builder::instruction::{CMD, COPY, ENV, EXPOSE, FROM, RUN, USER, WORKDIR};
use dockerfile_builder::instruction_builder::CopyBuilder;
use futures_util::StreamExt;
use log::{debug, error, info, log_enabled, trace, warn};
use log::{debug, info, log_enabled};
use serde::Serialize;
use tar::{Builder, Header};
use walkdir::WalkDir;
use tar::Archive;
use crate::config::{REGISTRY_PROJECT, REGISTRY_URL};
use crate::{score::Score, topology::Topology};
use harmony_types::net::Url;
use super::{Application, ApplicationFeature, ApplicationInterpret, HelmPackage, OCICompliant};
@@ -56,9 +56,9 @@ pub enum RustWebFramework {
#[derive(Debug, Clone, Serialize)]
pub struct RustWebapp {
pub name: String,
pub domain: Url,
/// The path to the root of the Rust project to be containerized.
pub project_root: PathBuf,
pub service_port: u32,
pub framework: Option<RustWebFramework>,
}
@@ -70,17 +70,12 @@ impl Application for RustWebapp {
#[async_trait]
impl HelmPackage for RustWebapp {
async fn build_push_helm_package(
&self,
image_url: &str,
domain: &str,
) -> Result<String, String> {
async fn build_push_helm_package(&self, image_url: &str) -> Result<String, String> {
info!("Starting Helm chart build and push for '{}'", self.name);
// 1. Create the Helm chart files on disk.
let chart_dir = self
.create_helm_chart_files(image_url, domain)
.await
.create_helm_chart_files(image_url)
.map_err(|e| format!("Failed to create Helm chart files: {}", e))?;
info!("Successfully created Helm chart files in {:?}", chart_dir);
@@ -162,135 +157,46 @@ impl RustWebapp {
&self,
image_name: &str,
) -> Result<String, Box<dyn std::error::Error>> {
info!("Generating Dockerfile for '{}'", self.name);
let dockerfile = self.get_or_build_dockerfile();
debug!("Generating Dockerfile for '{}'", self.name);
let _dockerfile_path = self.build_dockerfile()?;
let docker = Docker::connect_with_socket_defaults().unwrap();
let quiet = !log_enabled!(log::Level::Debug);
match dockerfile
let build_image_options = bollard::query_parameters::BuildImageOptionsBuilder::default()
.dockerfile("Dockerfile.harmony")
.t(image_name)
.q(quiet)
.version(bollard::query_parameters::BuilderVersion::BuilderV1)
.platform("linux/x86_64");
let mut temp_tar_builder = tar::Builder::new(Vec::new());
temp_tar_builder
.append_dir_all("", self.project_root.clone())
.unwrap();
let archive = temp_tar_builder
.into_inner()
.expect("couldn't finish creating tar");
let archived_files = Archive::new(archive.as_slice())
.entries()
.unwrap()
.file_name()
.and_then(|os_str| os_str.to_str())
{
Some(path_str) => {
debug!("Building from dockerfile {}", path_str);
.map(|entry| entry.unwrap().path().unwrap().into_owned())
.collect::<Vec<_>>();
let tar_data = self
.create_deterministic_tar(&self.project_root.clone())
.await
.unwrap();
debug!("files in docker tar: {:#?}", archived_files);
let docker = Docker::connect_with_socket_defaults().unwrap();
let mut image_build_stream = docker.build_image(
build_image_options.build(),
None,
Some(body_full(archive.into())),
);
let build_image_options =
bollard::query_parameters::BuildImageOptionsBuilder::default()
.dockerfile(path_str)
.t(image_name)
.q(quiet)
.version(bollard::query_parameters::BuilderVersion::BuilderV1)
.platform("linux/x86_64");
let mut image_build_stream = docker.build_image(
build_image_options.build(),
None,
Some(body_full(tar_data.into())),
);
while let Some(mut msg) = image_build_stream.next().await {
trace!("Got bollard msg {msg:?}");
match msg {
Ok(mut msg) => {
if let Some(progress) = msg.progress_detail {
info!(
"Build progress {}/{}",
progress.current.unwrap_or(0),
progress.total.unwrap_or(0)
);
}
if let Some(mut log) = msg.stream {
if log.ends_with('\n') {
log.pop();
if log.ends_with('\r') {
log.pop();
}
}
info!("{log}");
}
if let Some(error) = msg.error {
warn!("Build error : {error:?}");
}
if let Some(error) = msg.error_detail {
warn!("Build error : {error:?}");
}
}
Err(e) => {
error!("Build failed : {e}");
return Err(format!("Build failed : {e}").into());
}
}
}
Ok(image_name.to_string())
}
None => Err(Box::new(std::io::Error::new(
std::io::ErrorKind::InvalidData,
"Path is not valid UTF-8",
))),
while let Some(msg) = image_build_stream.next().await {
debug!("Message: {msg:?}");
}
}
///normalizes timestamp and ignores files that will bust the docker cach
async fn create_deterministic_tar(
&self,
project_root: &std::path::Path,
) -> Result<Vec<u8>, Box<dyn std::error::Error>> {
debug!("building tar file from project root {:#?}", project_root);
let mut tar_data = Vec::new();
{
let mut builder = Builder::new(&mut tar_data);
let ignore_prefixes = [
"target",
".git",
".github",
".harmony_generated",
"harmony",
"node_modules",
"Dockerfile.harmony",
];
let mut entries: Vec<_> = WalkDir::new(project_root)
.into_iter()
.filter_map(Result::ok)
.filter(|e| e.file_type().is_file())
.filter(|e| {
let rel_path = e.path().strip_prefix(project_root).unwrap();
!ignore_prefixes
.iter()
.any(|prefix| rel_path.starts_with(prefix))
})
.collect();
entries.sort_by_key(|e| e.path().to_owned());
for entry in entries {
let path = entry.path();
let rel_path = path.strip_prefix(project_root).unwrap();
let mut file = fs::File::open(path)?;
let mut header = Header::new_gnu();
header.set_size(entry.metadata()?.len());
header.set_mode(0o644);
header.set_mtime(0);
header.set_uid(0);
header.set_gid(0);
builder.append_data(&mut header, rel_path, &mut file)?;
}
builder.finish()?;
}
Ok(tar_data)
Ok(image_name.to_string())
}
/// Tags and pushes a Docker image to the configured remote registry.
@@ -302,6 +208,8 @@ impl RustWebapp {
let docker = Docker::connect_with_socket_defaults().unwrap();
// let push_options = PushImageOptionsBuilder::new().tag(tag);
let mut push_image_stream = docker.push_image(
image_tag,
Some(PushImageOptionsBuilder::new().build()),
@@ -309,8 +217,6 @@ impl RustWebapp {
);
while let Some(msg) = push_image_stream.next().await {
// let msg = msg?;
// TODO this fails silently, for some reason bollard cannot push to hub.nationtech.io
debug!("Message: {msg:?}");
}
@@ -366,11 +272,8 @@ impl RustWebapp {
"groupadd -r appgroup && useradd -r -s /bin/false -g appgroup appuser",
));
dockerfile.push(ENV::from(format!(
"LEPTOS_SITE_ADDR=0.0.0.0:{}",
self.service_port
)));
dockerfile.push(EXPOSE::from(format!("{}/tcp", self.service_port)));
dockerfile.push(ENV::from("LEPTOS_SITE_ADDR=0.0.0.0:3000"));
dockerfile.push(EXPOSE::from("3000/tcp"));
dockerfile.push(WORKDIR::from("/home/appuser"));
// Copy static files
@@ -445,10 +348,9 @@ impl RustWebapp {
}
/// Creates all necessary files for a basic Helm chart.
async fn create_helm_chart_files(
fn create_helm_chart_files(
&self,
image_url: &str,
domain: &str,
) -> Result<PathBuf, Box<dyn std::error::Error>> {
let chart_name = format!("{}-chart", self.name);
let chart_dir = self
@@ -492,137 +394,132 @@ image:
service:
type: ClusterIP
port: {}
port: 3000
ingress:
enabled: true
# Annotations for cert-manager to handle SSL.
annotations:
cert-manager.io/cluster-issuer: "letsencrypt-prod"
# Add other annotations like nginx ingress class if needed
# kubernetes.io/ingress.class: nginx
hosts:
- host: {}
- host: chart-example.local
paths:
- path: /
pathType: ImplementationSpecific
tls:
- secretName: {}-tls
hosts:
- chart-example.local
"#,
chart_name, image_repo, image_tag, self.service_port, domain,
chart_name, image_repo, image_tag, self.name
);
fs::write(chart_dir.join("values.yaml"), values_yaml)?;
// Create templates/_helpers.tpl
let helpers_tpl = format!(
r#"
{{{{/*
let helpers_tpl = r#"
{{/*
Expand the name of the chart.
*/}}}}
{{{{- define "chart.name" -}}}}
{{{{- default .Chart.Name $.Values.nameOverride | trunc 63 | trimSuffix "-" }}}}
{{{{- end }}}}
*/}}
{{- define "chart.name" -}}
{{- default .Chart.Name $.Values.nameOverride | trunc 63 | trimSuffix "-" }}
{{- end }}
{{{{/*
{{/*
Create a default fully qualified app name.
We truncate at 63 chars because some Kubernetes name fields are limited to this (by the DNS naming spec).
*/}}}}
{{{{- define "chart.fullname" -}}}}
{{{{- $name := default .Chart.Name $.Values.nameOverride }}}}
{{{{- printf "%s-%s" .Release.Name $name | trunc 63 | trimSuffix "-" }}}}
{{{{- end }}}}
"#
);
*/}}
{{- define "chart.fullname" -}}
{{- $name := default .Chart.Name $.Values.nameOverride }}
{{- printf "%s-%s" .Release.Name $name | trunc 63 | trimSuffix "-" }}
{{- end }}
"#;
fs::write(templates_dir.join("_helpers.tpl"), helpers_tpl)?;
// Create templates/service.yaml
let service_yaml = format!(
r#"
let service_yaml = r#"
apiVersion: v1
kind: Service
metadata:
name: {{{{ include "chart.fullname" . }}}}
name: {{ include "chart.fullname" . }}
spec:
type: {{{{ $.Values.service.type }}}}
type: {{ $.Values.service.type }}
ports:
- name: main
port: {{{{ $.Values.service.port | default {} }}}}
targetPort: {{{{ $.Values.service.port | default {} }}}}
port: {{ $.Values.service.port | default 3000 }}
targetPort: {{ $.Values.service.port | default 3000 }}
protocol: TCP
selector:
app: {{{{ include "chart.name" . }}}}
"#,
self.service_port, self.service_port
);
app: {{ include "chart.name" . }}
"#;
fs::write(templates_dir.join("service.yaml"), service_yaml)?;
// Create templates/deployment.yaml
let deployment_yaml = format!(
r#"
let deployment_yaml = r#"
apiVersion: apps/v1
kind: Deployment
metadata:
name: {{{{ include "chart.fullname" . }}}}
name: {{ include "chart.fullname" . }}
spec:
replicas: {{{{ $.Values.replicaCount }}}}
replicas: {{ $.Values.replicaCount }}
selector:
matchLabels:
app: {{{{ include "chart.name" . }}}}
app: {{ include "chart.name" . }}
template:
metadata:
labels:
app: {{{{ include "chart.name" . }}}}
app: {{ include "chart.name" . }}
spec:
containers:
- name: {{{{ .Chart.Name }}}}
image: "{{{{ $.Values.image.repository }}}}:{{{{ $.Values.image.tag | default .Chart.AppVersion }}}}"
imagePullPolicy: {{{{ $.Values.image.pullPolicy }}}}
- name: {{ .Chart.Name }}
image: "{{ $.Values.image.repository }}:{{ $.Values.image.tag | default .Chart.AppVersion }}"
imagePullPolicy: {{ $.Values.image.pullPolicy }}
ports:
- name: main
containerPort: {{{{ $.Values.service.port | default {} }}}}
containerPort: {{ $.Values.service.port | default 3000 }}
protocol: TCP
"#,
self.service_port
);
"#;
fs::write(templates_dir.join("deployment.yaml"), deployment_yaml)?;
// Create templates/ingress.yaml
let ingress_yaml = format!(
r#"
{{{{- if $.Values.ingress.enabled -}}}}
let ingress_yaml = r#"
{{- if $.Values.ingress.enabled -}}
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: {{{{ include "chart.fullname" . }}}}
name: {{ include "chart.fullname" . }}
annotations:
{{{{- toYaml $.Values.ingress.annotations | nindent 4 }}}}
{{- toYaml $.Values.ingress.annotations | nindent 4 }}
spec:
{{{{- if $.Values.ingress.tls }}}}
{{- if $.Values.ingress.tls }}
tls:
{{{{- range $.Values.ingress.tls }}}}
{{- range $.Values.ingress.tls }}
- hosts:
{{{{- range .hosts }}}}
- {{{{ . | quote }}}}
{{{{- end }}}}
secretName: {{{{ .secretName }}}}
{{{{- end }}}}
{{{{- end }}}}
{{- range .hosts }}
- {{ . | quote }}
{{- end }}
secretName: {{ .secretName }}
{{- end }}
{{- end }}
rules:
{{{{- range $.Values.ingress.hosts }}}}
- host: {{{{ .host | quote }}}}
{{- range $.Values.ingress.hosts }}
- host: {{ .host | quote }}
http:
paths:
{{{{- range .paths }}}}
- path: {{{{ .path }}}}
pathType: {{{{ .pathType }}}}
{{- range .paths }}
- path: {{ .path }}
pathType: {{ .pathType }}
backend:
service:
name: {{{{ include "chart.fullname" $ }}}}
name: {{ include "chart.fullname" $ }}
port:
number: {{{{ $.Values.service.port | default {} }}}}
{{{{- end }}}}
{{{{- end }}}}
{{{{- end }}}}
"#,
self.service_port
);
number: {{ $.Values.service.port | default 3000 }}
{{- end }}
{{- end }}
{{- end }}
"#;
fs::write(templates_dir.join("ingress.yaml"), ingress_yaml)?;
Ok(chart_dir)
@@ -674,6 +571,7 @@ spec:
let chart_file_name = packaged_chart_path.file_stem().unwrap().to_str().unwrap();
let oci_push_url = format!("oci://{}/{}", *REGISTRY_URL, *REGISTRY_PROJECT);
let oci_pull_url = format!("{oci_push_url}/{}-chart", self.name);
debug!(
"Pushing Helm chart {} to {}",
packaged_chart_path.to_string_lossy(),
@@ -692,20 +590,4 @@ spec:
debug!("push url {oci_push_url}");
Ok(format!("{}:{}", oci_pull_url, version))
}
fn get_or_build_dockerfile(&self) -> Result<PathBuf, Box<dyn std::error::Error>> {
let existing_dockerfile = self.project_root.join("Dockerfile");
debug!("project_root = {:?}", self.project_root);
debug!("checking = {:?}", existing_dockerfile);
if existing_dockerfile.exists() {
debug!(
"Checking path {:#?} for existing Dockerfile",
self.project_root.clone()
);
return Ok(existing_dockerfile);
}
self.build_dockerfile()
}
}

41
harmony/src/modules/dhcp.rs
View File

@@ -69,14 +69,17 @@ impl DhcpInterpret {
dhcp_server.set_pxe_options(pxe_options).await?;
Ok(Outcome::success(format!(
"Dhcp Interpret Set next boot to [{:?}], boot_filename to [{:?}], filename to [{:?}], filename64 to [{:?}], filenameipxe to [:{:?}]",
self.score.boot_filename,
self.score.boot_filename,
self.score.filename,
self.score.filename64,
self.score.filenameipxe
)))
Ok(Outcome::new(
InterpretStatus::SUCCESS,
format!(
"Dhcp Interpret Set next boot to [{:?}], boot_filename to [{:?}], filename to [{:?}], filename64 to [{:?}], filenameipxe to [:{:?}]",
self.score.boot_filename,
self.score.boot_filename,
self.score.filename,
self.score.filename64,
self.score.filenameipxe
),
))
}
}
@@ -119,7 +122,8 @@ impl<T: Topology + DhcpServer> Interpret<T> for DhcpInterpret {
topology.commit_config().await?;
Ok(Outcome::success(
Ok(Outcome::new(
InterpretStatus::SUCCESS,
"Dhcp Interpret execution successful".to_string(),
))
}
@@ -193,10 +197,10 @@ impl DhcpHostBindingInterpret {
}
}
Ok(Outcome::success(format!(
"Dhcp Interpret registered {} entries",
number_new_entries
)))
Ok(Outcome::new(
InterpretStatus::SUCCESS,
format!("Dhcp Interpret registered {} entries", number_new_entries),
))
}
}
@@ -232,9 +236,12 @@ impl<T: DhcpServer> Interpret<T> for DhcpHostBindingInterpret {
topology.commit_config().await?;
Ok(Outcome::success(format!(
"Dhcp Host Binding Interpret execution successful on {} hosts",
self.score.host_binding.len()
)))
Ok(Outcome::new(
InterpretStatus::SUCCESS,
format!(
"Dhcp Host Binding Interpret execution successful on {} hosts",
self.score.host_binding.len()
),
))
}
}

17
harmony/src/modules/dns.rs
View File

@@ -55,7 +55,8 @@ impl DnsInterpret {
dns.register_dhcp_leases(register).await?;
}
Ok(Outcome::success(
Ok(Outcome::new(
InterpretStatus::SUCCESS,
"DNS Interpret execution successfull".to_string(),
))
}
@@ -67,10 +68,13 @@ impl DnsInterpret {
let entries = &self.score.dns_entries;
dns_server.ensure_hosts_registered(entries.clone()).await?;
Ok(Outcome::success(format!(
"DnsInterpret registered {} hosts successfully",
entries.len()
)))
Ok(Outcome::new(
InterpretStatus::SUCCESS,
format!(
"DnsInterpret registered {} hosts successfully",
entries.len()
),
))
}
}
@@ -107,7 +111,8 @@ impl<T: Topology + DnsServer> Interpret<T> for DnsInterpret {
topology.commit_config().await?;
Ok(Outcome::success(
Ok(Outcome::new(
InterpretStatus::SUCCESS,
"Dns Interpret execution successful".to_string(),
))
}

39
harmony/src/modules/helm/chart.rs
View File

@@ -153,10 +153,6 @@ impl<T: Topology + HelmCommand> Interpret<T> for HelmChartInterpret {
let yaml_path: Option<&Path> = match self.score.values_yaml.as_ref() {
Some(yaml_str) => {
tf = temp_file::with_contents(yaml_str.as_bytes());
debug!(
"values yaml string for chart {} :\n {yaml_str}",
self.score.chart_name
);
Some(tf.path())
}
None => None,
@@ -197,10 +193,13 @@ impl<T: Topology + HelmCommand> Interpret<T> for HelmChartInterpret {
self.score.release_name, ns
);
return Ok(Outcome::success(format!(
"Helm Chart '{}' already installed to namespace {ns} and install_only=true",
self.score.release_name
)));
return Ok(Outcome::new(
InterpretStatus::SUCCESS,
format!(
"Helm Chart '{}' already installed to namespace {ns} and install_only=true",
self.score.release_name
),
));
} else {
info!(
"Release '{}' not found in namespace '{}'. Proceeding with installation.",
@@ -225,18 +224,18 @@ impl<T: Topology + HelmCommand> Interpret<T> for HelmChartInterpret {
};
match status {
helm_wrapper_rs::HelmDeployStatus::Deployed => Ok(Outcome::success(format!(
"Helm Chart {} deployed",
self.score.release_name
))),
helm_wrapper_rs::HelmDeployStatus::PendingInstall => Ok(Outcome::running(format!(
"Helm Chart {} pending install...",
self.score.release_name
))),
helm_wrapper_rs::HelmDeployStatus::PendingUpgrade => Ok(Outcome::running(format!(
"Helm Chart {} pending upgrade...",
self.score.release_name
))),
helm_wrapper_rs::HelmDeployStatus::Deployed => Ok(Outcome::new(
InterpretStatus::SUCCESS,
format!("Helm Chart {} deployed", self.score.release_name),
)),
helm_wrapper_rs::HelmDeployStatus::PendingInstall => Ok(Outcome::new(
InterpretStatus::RUNNING,
format!("Helm Chart {} pending install...", self.score.release_name),
)),
helm_wrapper_rs::HelmDeployStatus::PendingUpgrade => Ok(Outcome::new(
InterpretStatus::RUNNING,
format!("Helm Chart {} pending upgrade...", self.score.release_name),
)),
helm_wrapper_rs::HelmDeployStatus::Failed => Err(InterpretError::new(format!(
"Helm Chart {} installation failed",
self.score.release_name

122
harmony/src/modules/inventory/discovery.rs
View File

@@ -1,122 +0,0 @@
use async_trait::async_trait;
use harmony_types::id::Id;
use log::{error, info};
use serde::{Deserialize, Serialize};
use crate::{
data::Version,
hardware::PhysicalHost,
infra::inventory::InventoryRepositoryFactory,
interpret::{Interpret, InterpretError, InterpretName, InterpretStatus, Outcome},
inventory::{HostRole, Inventory},
modules::inventory::LaunchDiscoverInventoryAgentScore,
score::Score,
topology::Topology,
};
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct DiscoverHostForRoleScore {
pub role: HostRole,
}
impl<T: Topology> Score<T> for DiscoverHostForRoleScore {
fn name(&self) -> String {
"DiscoverInventoryAgentScore".to_string()
}
fn create_interpret(&self) -> Box<dyn Interpret<T>> {
Box::new(DiscoverHostForRoleInterpret {
score: self.clone(),
})
}
}
#[derive(Debug)]
pub struct DiscoverHostForRoleInterpret {
score: DiscoverHostForRoleScore,
}
#[async_trait]
impl<T: Topology> Interpret<T> for DiscoverHostForRoleInterpret {
async fn execute(
&self,
inventory: &Inventory,
topology: &T,
) -> Result<Outcome, InterpretError> {
info!(
"Launching discovery agent, make sure that your nodes are successfully PXE booted and running inventory agent. They should answer on `http://<node_ip>:8080/inventory`"
);
LaunchDiscoverInventoryAgentScore {
discovery_timeout: None,
}
.interpret(inventory, topology)
.await?;
let host: PhysicalHost;
let host_repo = InventoryRepositoryFactory::build().await?;
loop {
let all_hosts = host_repo.get_all_hosts().await?;
if all_hosts.is_empty() {
info!("No discovered hosts found yet. Waiting for hosts to appear...");
// Sleep to avoid spamming the user and logs while waiting for nodes.
tokio::time::sleep(std::time::Duration::from_secs(3)).await;
continue;
}
let ans = inquire::Select::new(
&format!("Select the node to be used for role {:?}:", self.score.role),
all_hosts,
)
.with_help_message("Press Esc to refresh the list of discovered hosts")
.prompt();
match ans {
Ok(choice) => {
info!("Selected {} as the bootstrap node.", choice.summary());
host_repo
.save_role_mapping(&self.score.role, &choice)
.await?;
host = choice;
break;
}
Err(inquire::InquireError::OperationCanceled) => {
info!("Refresh requested. Fetching list of discovered hosts again...");
continue;
}
Err(e) => {
error!(
"Failed to select node for role {:?} : {}",
self.score.role, e
);
return Err(InterpretError::new(format!(
"Could not select host : {}",
e.to_string()
)));
}
}
}
Ok(Outcome::success(format!(
"Successfully discovered host {} for role {:?}",
host.summary(),
self.score.role
)))
}
fn get_name(&self) -> InterpretName {
InterpretName::Custom("DiscoverHostForRoleScore")
}
fn get_version(&self) -> Version {
todo!()
}
fn get_status(&self) -> InterpretStatus {
todo!()
}
fn get_children(&self) -> Vec<Id> {
todo!()
}
}

72
harmony/src/modules/inventory/inspect.rs
View File

@@ -1,72 +0,0 @@
use async_trait::async_trait;
use harmony_types::id::Id;
use log::info;
use serde::{Deserialize, Serialize};
use strum::IntoEnumIterator;
use crate::{
data::Version,
infra::inventory::InventoryRepositoryFactory,
interpret::{Interpret, InterpretError, InterpretName, InterpretStatus, Outcome},
inventory::{HostRole, Inventory},
score::Score,
topology::Topology,
};
#[derive(Debug, Serialize, Deserialize, Clone)]
pub struct InspectInventoryScore {}
impl<T: Topology> Score<T> for InspectInventoryScore {
fn name(&self) -> String {
"InspectInventoryScore".to_string()
}
#[doc(hidden)]
fn create_interpret(&self) -> Box<dyn Interpret<T>> {
Box::new(InspectInventoryInterpret {})
}
}
#[derive(Debug)]
pub struct InspectInventoryInterpret;
#[async_trait]
impl<T: Topology> Interpret<T> for InspectInventoryInterpret {
async fn execute(
&self,
_inventory: &Inventory,
_topology: &T,
) -> Result<Outcome, InterpretError> {
let repo = InventoryRepositoryFactory::build().await?;
for role in HostRole::iter() {
info!("Inspecting hosts for role {role:?}");
let hosts = repo.get_host_for_role(&role).await?;
info!("Hosts with role {role:?} : {}", hosts.len());
hosts.iter().enumerate().for_each(|(idx, h)| {
info!(
"Found host index {idx} with role {role:?} => \n{}\n{}",
h.summary(),
h.parts_list()
)
});
}
Ok(Outcome::success(
"Inventory inspection complete".to_string(),
))
}
fn get_name(&self) -> InterpretName {
InterpretName::Custom("InspectInventoryInterpret")
}
fn get_version(&self) -> Version {
todo!()
}
fn get_status(&self) -> InterpretStatus {
todo!()
}
fn get_children(&self) -> Vec<Id> {
todo!()
}
}

11
harmony/src/modules/inventory/mod.rs
View File

@@ -1,7 +1,3 @@
mod discovery;
pub mod inspect;
pub use discovery::*;
use async_trait::async_trait;
use harmony_inventory_agent::local_presence::DiscoveryEvent;
use log::{debug, info, trace};
@@ -133,9 +129,10 @@ impl<T: Topology> Interpret<T> for DiscoverInventoryAgentInterpret {
},
)
.await;
Ok(Outcome::success(
"Discovery process completed successfully".to_string(),
))
Ok(Outcome {
status: InterpretStatus::SUCCESS,
message: "Discovery process completed successfully".to_string(),
})
}
fn get_name(&self) -> InterpretName {

83
harmony/src/modules/k8s/ingress.rs
View File

@@ -1,15 +1,11 @@
use async_trait::async_trait;
use harmony_macros::ingress_path;
use harmony_types::id::Id;
use k8s_openapi::api::networking::v1::Ingress;
use log::{debug, trace};
use serde::Serialize;
use serde_json::json;
use crate::{
data::Version,
interpret::{Interpret, InterpretError, InterpretName, InterpretStatus, Outcome},
inventory::Inventory,
interpret::Interpret,
score::Score,
topology::{K8sclient, Topology},
};
@@ -44,7 +40,6 @@ pub struct K8sIngressScore {
pub path: Option<IngressPath>,
pub path_type: Option<PathType>,
pub namespace: Option<fqdn::FQDN>,
pub ingress_class_name: Option<String>,
}
impl<T: Topology + K8sclient> Score<T> for K8sIngressScore {
@@ -59,18 +54,12 @@ impl<T: Topology + K8sclient> Score<T> for K8sIngressScore {
None => PathType::Prefix,
};
let ingress_class = match self.ingress_class_name.clone() {
Some(ingress_class_name) => ingress_class_name,
None => "\"default\"".to_string(),
};
let ingress = json!(
{
"metadata": {
"name": self.name.to_string(),
},
"spec": {
"ingressClassName": ingress_class.as_str(),
"rules": [
{ "host": self.host.to_string(),
"http": {
@@ -101,12 +90,11 @@ impl<T: Topology + K8sclient> Score<T> for K8sIngressScore {
"Successfully built Ingress for host {:?}",
ingress.metadata.name
);
Box::new(K8sIngressInterpret {
ingress,
service: self.name.to_string(),
namespace: self.namespace.clone().map(|f| f.to_string()),
host: self.host.clone(),
Box::new(K8sResourceInterpret {
score: K8sResourceScore::single(
ingress.clone(),
self.namespace.clone().map(|f| f.to_string()),
),
})
}
@@ -114,62 +102,3 @@ impl<T: Topology + K8sclient> Score<T> for K8sIngressScore {
format!("{} K8sIngressScore", self.name)
}
}
#[derive(std::fmt::Debug)]
struct K8sIngressInterpret {
ingress: Ingress,
service: String,
namespace: Option<String>,
host: fqdn::FQDN,
}
#[async_trait]
impl<T: Topology + K8sclient> Interpret<T> for K8sIngressInterpret {
async fn execute(
&self,
inventory: &Inventory,
topology: &T,
) -> Result<Outcome, InterpretError> {
let result = K8sResourceInterpret {
score: K8sResourceScore::single(self.ingress.clone(), self.namespace.clone()),
}
.execute(inventory, topology)
.await;
match result {
Ok(outcome) => match outcome.status {
InterpretStatus::SUCCESS => {
let details = match &self.namespace {
Some(namespace) => {
vec![format!(
"{} ({namespace}): http://{}",
self.service, self.host
)]
}
None => vec![format!("{}: {}", self.service, self.host)],
};
Ok(Outcome::success_with_details(outcome.message, details))
}
_ => Ok(outcome),
},
Err(e) => Err(e),
}
}
fn get_name(&self) -> InterpretName {
InterpretName::K8sIngress
}
fn get_version(&self) -> Version {
Version::from("0.0.1").unwrap()
}
fn get_status(&self) -> InterpretStatus {
todo!()
}
fn get_children(&self) -> Vec<Id> {
vec![]
}
}

1
harmony/src/modules/lamp.rs
View File

@@ -147,7 +147,6 @@ impl<T: Topology + K8sclient + HelmCommand> Interpret<T> for LAMPInterpret {
port: 8080,
path: Some(ingress_path),
path_type: None,
ingress_class_name: None,
namespace: self
.get_namespace()
.map(|nbs| fqdn!(nbs.to_string().as_str())),

90
harmony/src/modules/monitoring/alert_channel/discord_alert_channel.rs
View File

@@ -4,7 +4,6 @@ use std::collections::BTreeMap;
use async_trait::async_trait;
use k8s_openapi::api::core::v1::Secret;
use kube::api::ObjectMeta;
use log::debug;
use serde::Serialize;
use serde_json::json;
use serde_yaml::{Mapping, Value};
@@ -12,7 +11,6 @@ use serde_yaml::{Mapping, Value};
use crate::modules::monitoring::kube_prometheus::crd::crd_alertmanager_config::{
AlertmanagerConfig, AlertmanagerConfigSpec, CRDPrometheus,
};
use crate::modules::monitoring::kube_prometheus::crd::rhob_alertmanager_config::RHOBObservability;
use crate::{
interpret::{InterpretError, Outcome},
modules::monitoring::{
@@ -32,94 +30,6 @@ pub struct DiscordWebhook {
pub url: Url,
}
#[async_trait]
impl AlertReceiver<RHOBObservability> for DiscordWebhook {
async fn install(&self, sender: &RHOBObservability) -> Result<Outcome, InterpretError> {
let ns = sender.namespace.clone();
let secret_name = format!("{}-secret", self.name.clone());
let webhook_key = format!("{}", self.url.clone());
let mut string_data = BTreeMap::new();
string_data.insert("webhook-url".to_string(), webhook_key.clone());
let secret = Secret {
metadata: kube::core::ObjectMeta {
name: Some(secret_name.clone()),
..Default::default()
},
string_data: Some(string_data),
type_: Some("Opaque".to_string()),
..Default::default()
};
let _ = sender.client.apply(&secret, Some(&ns)).await;
let spec = crate::modules::monitoring::kube_prometheus::crd::rhob_alertmanager_config::AlertmanagerConfigSpec {
data: json!({
"route": {
"receiver": self.name,
},
"receivers": [
{
"name": self.name,
"discordConfigs": [
{
"apiURL": {
"name": secret_name,
"key": "webhook-url",
},
"title": "{{ template \"discord.default.title\" . }}",
"message": "{{ template \"discord.default.message\" . }}"
}
]
}
]
}),
};
let alertmanager_configs = crate::modules::monitoring::kube_prometheus::crd::rhob_alertmanager_config::AlertmanagerConfig {
metadata: ObjectMeta {
name: Some(self.name.clone()),
labels: Some(std::collections::BTreeMap::from([(
"alertmanagerConfig".to_string(),
"enabled".to_string(),
)])),
namespace: Some(sender.namespace.clone()),
..Default::default()
},
spec,
};
debug!(
"alertmanager_configs yaml:\n{:#?}",
serde_yaml::to_string(&alertmanager_configs)
);
debug!(
"alert manager configs: \n{:#?}",
alertmanager_configs.clone()
);
sender
.client
.apply(&alertmanager_configs, Some(&sender.namespace))
.await?;
Ok(Outcome::success(format!(
"installed rhob-alertmanagerconfigs for {}",
self.name
)))
}
fn name(&self) -> String {
"webhook-receiver".to_string()
}
fn clone_box(&self) -> Box<dyn AlertReceiver<RHOBObservability>> {
Box::new(self.clone())
}
fn as_any(&self) -> &dyn Any {
self
}
}
#[async_trait]
impl AlertReceiver<CRDPrometheus> for DiscordWebhook {
async fn install(&self, sender: &CRDPrometheus) -> Result<Outcome, InterpretError> {

75
harmony/src/modules/monitoring/alert_channel/webhook_receiver.rs
View File

@@ -11,8 +11,8 @@ use crate::{
interpret::{InterpretError, Outcome},
modules::monitoring::{
kube_prometheus::{
crd::{
crd_alertmanager_config::CRDPrometheus, rhob_alertmanager_config::RHOBObservability,
crd::crd_alertmanager_config::{
AlertmanagerConfig, AlertmanagerConfigSpec, CRDPrometheus,
},
prometheus::{KubePrometheus, KubePrometheusReceiver},
types::{AlertChannelConfig, AlertManagerChannelConfig},
@@ -29,76 +29,10 @@ pub struct WebhookReceiver {
pub url: Url,
}
#[async_trait]
impl AlertReceiver<RHOBObservability> for WebhookReceiver {
async fn install(&self, sender: &RHOBObservability) -> Result<Outcome, InterpretError> {
let spec = crate::modules::monitoring::kube_prometheus::crd::rhob_alertmanager_config::AlertmanagerConfigSpec {
data: json!({
"route": {
"receiver": self.name,
},
"receivers": [
{
"name": self.name,
"webhookConfigs": [
{
"url": self.url,
"httpConfig": {
"tlsConfig": {
"insecureSkipVerify": true
}
}
}
]
}
]
}),
};
let alertmanager_configs = crate::modules::monitoring::kube_prometheus::crd::rhob_alertmanager_config::AlertmanagerConfig {
metadata: ObjectMeta {
name: Some(self.name.clone()),
labels: Some(std::collections::BTreeMap::from([(
"alertmanagerConfig".to_string(),
"enabled".to_string(),
)])),
namespace: Some(sender.namespace.clone()),
..Default::default()
},
spec,
};
debug!(
"alert manager configs: \n{:#?}",
alertmanager_configs.clone()
);
sender
.client
.apply(&alertmanager_configs, Some(&sender.namespace))
.await?;
Ok(Outcome::success(format!(
"installed rhob-alertmanagerconfigs for {}",
self.name
)))
}
fn name(&self) -> String {
"webhook-receiver".to_string()
}
fn clone_box(&self) -> Box<dyn AlertReceiver<RHOBObservability>> {
Box::new(self.clone())
}
fn as_any(&self) -> &dyn Any {
self
}
}
#[async_trait]
impl AlertReceiver<CRDPrometheus> for WebhookReceiver {
async fn install(&self, sender: &CRDPrometheus) -> Result<Outcome, InterpretError> {
let spec = crate::modules::monitoring::kube_prometheus::crd::crd_alertmanager_config::AlertmanagerConfigSpec {
let spec = AlertmanagerConfigSpec {
data: json!({
"route": {
"receiver": self.name,
@@ -116,7 +50,7 @@ impl AlertReceiver<CRDPrometheus> for WebhookReceiver {
}),
};
let alertmanager_configs = crate::modules::monitoring::kube_prometheus::crd::crd_alertmanager_config::AlertmanagerConfig {
let alertmanager_configs = AlertmanagerConfig {
metadata: ObjectMeta {
name: Some(self.name.clone()),
labels: Some(std::collections::BTreeMap::from([(
@@ -181,7 +115,6 @@ impl PrometheusReceiver for WebhookReceiver {
self.get_config().await
}
}
#[async_trait]
impl AlertReceiver<KubePrometheus> for WebhookReceiver {
async fn install(&self, sender: &KubePrometheus) -> Result<Outcome, InterpretError> {

4
harmony/src/modules/monitoring/application_monitoring/application_monitoring_score.rs
View File

@@ -68,9 +68,7 @@ impl<T: Topology + PrometheusApplicationMonitoring<CRDPrometheus>> Interpret<T>
PreparationOutcome::Success { details: _ } => {
Ok(Outcome::success("Prometheus installed".into()))
}
PreparationOutcome::Noop => {
Ok(Outcome::noop("Prometheus installation skipped".into()))
}
PreparationOutcome::Noop => Ok(Outcome::noop()),
},
Err(err) => Err(InterpretError::from(err)),
}

1
harmony/src/modules/monitoring/application_monitoring/mod.rs
View File

@@ -1,2 +1 @@
pub mod application_monitoring_score;
pub mod rhobs_application_monitoring_score;

96
harmony/src/modules/monitoring/application_monitoring/rhobs_application_monitoring_score.rs
View File

@@ -1,96 +0,0 @@
use std::sync::Arc;
use async_trait::async_trait;
use serde::Serialize;
use crate::{
data::Version,
interpret::{Interpret, InterpretError, InterpretName, InterpretStatus, Outcome},
inventory::Inventory,
modules::{
application::Application,
monitoring::kube_prometheus::crd::{
crd_alertmanager_config::CRDPrometheus, rhob_alertmanager_config::RHOBObservability,
},
prometheus::prometheus::PrometheusApplicationMonitoring,
},
score::Score,
topology::{PreparationOutcome, Topology, oberservability::monitoring::AlertReceiver},
};
use harmony_types::id::Id;
#[derive(Debug, Clone, Serialize)]
pub struct ApplicationRHOBMonitoringScore {
pub sender: RHOBObservability,
pub application: Arc<dyn Application>,
pub receivers: Vec<Box<dyn AlertReceiver<RHOBObservability>>>,
}
impl<T: Topology + PrometheusApplicationMonitoring<RHOBObservability>> Score<T>
for ApplicationRHOBMonitoringScore
{
fn create_interpret(&self) -> Box<dyn Interpret<T>> {
Box::new(ApplicationRHOBMonitoringInterpret {
score: self.clone(),
})
}
fn name(&self) -> String {
format!(
"{} monitoring [ApplicationRHOBMonitoringScore]",
self.application.name()
)
}
}
#[derive(Debug)]
pub struct ApplicationRHOBMonitoringInterpret {
score: ApplicationRHOBMonitoringScore,
}
#[async_trait]
impl<T: Topology + PrometheusApplicationMonitoring<RHOBObservability>> Interpret<T>
for ApplicationRHOBMonitoringInterpret
{
async fn execute(
&self,
inventory: &Inventory,
topology: &T,
) -> Result<Outcome, InterpretError> {
let result = topology
.install_prometheus(
&self.score.sender,
inventory,
Some(self.score.receivers.clone()),
)
.await;
match result {
Ok(outcome) => match outcome {
PreparationOutcome::Success { details: _ } => {
Ok(Outcome::success("Prometheus installed".into()))
}
PreparationOutcome::Noop => {
Ok(Outcome::noop("Prometheus installation skipped".into()))
}
},
Err(err) => Err(InterpretError::from(err)),
}
}
fn get_name(&self) -> InterpretName {
InterpretName::ApplicationMonitoring
}
fn get_version(&self) -> Version {
todo!()
}
fn get_status(&self) -> InterpretStatus {
todo!()
}
fn get_children(&self) -> Vec<Id> {
todo!()
}
}

10
harmony/src/modules/monitoring/kube_prometheus/crd/mod.rs
View File

@@ -7,15 +7,5 @@ pub mod crd_prometheuses;
pub mod grafana_default_dashboard;
pub mod grafana_operator;
pub mod prometheus_operator;
pub mod rhob_alertmanager_config;
pub mod rhob_alertmanagers;
pub mod rhob_cluster_observability_operator;
pub mod rhob_default_rules;
pub mod rhob_grafana;
pub mod rhob_monitoring_stack;
pub mod rhob_prometheus_rules;
pub mod rhob_prometheuses;
pub mod rhob_role;
pub mod rhob_service_monitor;
pub mod role;
pub mod service_monitor;

50
harmony/src/modules/monitoring/kube_prometheus/crd/rhob_alertmanager_config.rs
View File

@@ -1,50 +0,0 @@
use std::sync::Arc;
use kube::CustomResource;
use schemars::JsonSchema;
use serde::{Deserialize, Serialize};
use crate::topology::{
k8s::K8sClient,
oberservability::monitoring::{AlertReceiver, AlertSender},
};
#[derive(CustomResource, Serialize, Deserialize, Debug, Clone, JsonSchema)]
#[kube(
group = "monitoring.rhobs",
version = "v1alpha1",
kind = "AlertmanagerConfig",
plural = "alertmanagerconfigs",
namespaced
)]
pub struct AlertmanagerConfigSpec {
#[serde(flatten)]
pub data: serde_json::Value,
}
#[derive(Debug, Clone, Serialize)]
pub struct RHOBObservability {
pub namespace: String,
pub client: Arc<K8sClient>,
}
impl AlertSender for RHOBObservability {
fn name(&self) -> String {
"RHOBAlertManager".to_string()
}
}
impl Clone for Box<dyn AlertReceiver<RHOBObservability>> {
fn clone(&self) -> Self {
self.clone_box()
}
}
impl Serialize for Box<dyn AlertReceiver<RHOBObservability>> {
fn serialize<S>(&self, _serializer: S) -> Result<S::Ok, S::Error>
where
S: serde::Serializer,
{
todo!()
}
}

52
harmony/src/modules/monitoring/kube_prometheus/crd/rhob_alertmanagers.rs
View File

@@ -1,52 +0,0 @@
use kube::CustomResource;
use schemars::JsonSchema;
use serde::{Deserialize, Serialize};
use super::crd_prometheuses::LabelSelector;
/// Rust CRD for `Alertmanager` from Prometheus Operator
#[derive(CustomResource, Serialize, Deserialize, Debug, Clone, JsonSchema)]
#[kube(
group = "monitoring.rhobs",
version = "v1",
kind = "Alertmanager",
plural = "alertmanagers",
namespaced
)]
#[serde(rename_all = "camelCase")]
pub struct AlertmanagerSpec {
/// Number of replicas for HA
pub replicas: i32,
/// Selectors for AlertmanagerConfig CRDs
#[serde(default, skip_serializing_if = "Option::is_none")]
pub alertmanager_config_selector: Option<LabelSelector>,
#[serde(default, skip_serializing_if = "Option::is_none")]
pub alertmanager_config_namespace_selector: Option<LabelSelector>,
/// Optional pod template metadata (annotations, labels)
#[serde(default, skip_serializing_if = "Option::is_none")]
pub pod_metadata: Option<LabelSelector>,
/// Optional topology spread settings
#[serde(default, skip_serializing_if = "Option::is_none")]
pub version: Option<String>,
}
impl Default for AlertmanagerSpec {
fn default() -> Self {
AlertmanagerSpec {
replicas: 1,
// Match all AlertmanagerConfigs in the same namespace
alertmanager_config_namespace_selector: None,
// Empty selector matches all AlertmanagerConfigs in that namespace
alertmanager_config_selector: Some(LabelSelector::default()),
pod_metadata: None,
version: None,
}
}
}

22
harmony/src/modules/monitoring/kube_prometheus/crd/rhob_cluster_observability_operator.rs
View File

@@ -1,22 +0,0 @@
use std::str::FromStr;
use non_blank_string_rs::NonBlankString;
use crate::modules::helm::chart::HelmChartScore;
//TODO package chart or something for COO okd
pub fn rhob_cluster_observability_operator() -> HelmChartScore {
HelmChartScore {
namespace: None,
release_name: NonBlankString::from_str("").unwrap(),
chart_name: NonBlankString::from_str(
"oci://hub.nationtech.io/harmony/nt-prometheus-operator",
)
.unwrap(),
chart_version: None,
values_overrides: None,
values_yaml: None,
create_namespace: true,
install_only: true,
repository: None,
}
}

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