4 releases
0.0.13 | Feb 3, 2024 |
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0.0.12 | Dec 29, 2023 |
0.0.11 | Jun 27, 2023 |
0.0.10 | Jun 3, 2023 |
#1745 in Asynchronous
220KB
886 lines
🕊️ peace – zero stress automation
peace
is a framework to build empathetic and forgiving software automation.
See:
- peace.mk for the project vision.
- Background for the motivation to create this framework.
- Operations UX for a book about the dimensions considered during
peace
's design and development.
Guiding Principles
- A joy to use.
- Ergonomic API and guidance to do the right thing.
- Understandable output.
Features
Symbol | Meaning |
---|---|
🟢 | Works well |
🟡 | Partial support |
⚫ | Planned |
🔵 | Compatible by design |
🟣 | Works, "fun idea" |
- 🟢 Idempotent: Multiple invocations result in the goal outcome.
- 🟢 Clean: Every item creation is paired with how it is cleaned up.
- 🟢 Understandable: Progress is shown at an understandable level of detail.
- 🔵 Understandable: Error reporting is compatible with
miette
. - 🟡 Interruptible: Execution can be interrupted.
- 🟢 Resumable: Automation resumes where it was interrupted.
- 🟢 Diffable: States and diffs are serialized as YAML.
- 🟢 Efficient: Tasks are concurrently executed via
fn_graph
. - 🟢 Namespaced: Profile directories isolate environments from each other.
- 🟢 Type Safe: Items and parameters are defined in code, not configuration.
Roadmap
- 🟢 Define items to manage with automation.
- 🟢 Define dependencies between items.
- 🟢 Define "apply" logic.
- 🟢 Define "clean up" logic.
- 🟢 Discover current and goal states.
- 🟢 Define diff calculation between states.
- 🟢 Store and recall parameters across commands.
- 🟢 Diff states between multiple profiles.
- 🟢 Type-safe referential parameters -- specify usage of values generated during automation as parameters to subsequent items.
- 🟡 Feature-gated incremental functionality.
- 🟡 Off-the-shelf support for common items.
- 🟡 Dry run.
- 🟣 WASM support.
- ⚫ Cancel-safe interruption via
tokio-graceful-shutdown
. - ⚫ Secure-by-design Support: Encrypted value storage, decrypted per execution / time based agent.
- ⚫ Tutorial for writing a software lifecycle management tool.
- ⚫ Built-in application execution methods -- CLI, web service.
- ⚫
peace
binary for configuration based workflows. - ⚫ Web based UI with interactive graph.
- ⚫ Agent mode to run
peace
on servers (Web API invocation).
Further ideas:
- Back up current state.
- Restore previous state.
- Telemetry / metrics logging for analysis.
Examples
Examples are run using --package
instead of --example
, as each example is organized as its own crate.
cargo run --package $example_name --all-features
# e.g.
cargo build --package download --all-features
cargo run -q --package download --all-features -- init https://ifconfig.me ip.json
for cmd in status goal diff ensure ensure diff clean clean diff
do
printf "=== ${cmd} ===\n"
cargo run -q --package download --all-features -- --format text $cmd
printf '\n'
done
# Look at metadata that Peace has saved
find .peace -type f -exec bash -c 'echo \# {}; cat {}; echo' \;
# Clean up the metadata directory
rm -rf .peace
WASM
The download
example can be built as a web assembly application using wasm-pack
:
cd examples/download
wasm-pack build --target web
In the examples/download
directory, start an HTTP server, and open http://localhost:8000/:
python3 -m http.server 8000 # or
simple-http-server --nocache --port 8000 -i
License
Licensed under either of
- Apache License, Version 2.0, (LICENSE-APACHE or https://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or https://opensource.org/licenses/MIT)
at your option.
Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.
Dependencies
~0–14MB
~190K SLoC