prepare first release #2

Merged
muellerr merged 1 commits from prepare-v0.1.0 into main 2024-09-11 10:41:12 +02:00
4 changed files with 39 additions and 10 deletions
Showing only changes of commit de8be20f36 - Show all commits

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@ -7,3 +7,7 @@ The format is based on [Keep a Changelog](http://keepachangelog.com/)
and this project adheres to [Semantic Versioning](http://semver.org/). and this project adheres to [Semantic Versioning](http://semver.org/).
# [unreleased] # [unreleased]
# [v0.1.0] 2024-09-11
Initial release

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@ -20,6 +20,10 @@ crc = "3"
smallvec = "1" smallvec = "1"
derive-new = "0.6" derive-new = "0.6"
[dependencies.spacepackets]
version = "0.12"
default-features = false
[dependencies.thiserror] [dependencies.thiserror]
version = "1" version = "1"
optional = true optional = true
@ -32,10 +36,6 @@ optional = true
version = "1" version = "1"
optional = true optional = true
[dependencies.spacepackets]
version = "0.12"
default-features = false
[dependencies.defmt] [dependencies.defmt]
version = "0.3" version = "0.3"
optional = true optional = true

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@ -13,7 +13,12 @@ The underlying base packet library used to generate the packets to be sent is th
# Features # Features
`cfdp-rs` supports various runtime environments and is also suitable for `no_std` environments. The goal of this library is to be flexible enough to support the use-cases of both on-board
software and of ground software. It has support to make integration on [std] systems as simple
as possible, but also has sufficient abstraction to allow for integration on`no_std` environments.
Currently, the handlers still require the [std] feature until
[thiserror supports `error_in_core`](https://github.com/dtolnay/thiserror/pull/304).
It is recommended to activate the `alloc` feature at the very least to allow using the primary It is recommended to activate the `alloc` feature at the very least to allow using the primary
components provided by this crate. These components will only allocate memory at initialization components provided by this crate. These components will only allocate memory at initialization
time and thus are still viable for systems where run-time allocation is prohibited. time and thus are still viable for systems where run-time allocation is prohibited.

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@ -11,8 +11,17 @@
//! even for unreliable connections, including lost segment detection. As such, it can be compared //! even for unreliable connections, including lost segment detection. As such, it can be compared
//! to a specialized TCP for file transfers with remote systems. //! to a specialized TCP for file transfers with remote systems.
//! //!
//! The core of these high-level components are the [crate::dest::DestinationHandler] and the //! The goal of this library is to be flexible enough to support the use-cases of both on-board
//! [crate::source::SourceHandler] component. These model the CFDP destination and source entity //! software and of ground software. It has support to make integration on [std] systems as simple
//! as possible, but also has sufficient abstraction to allow for integration on `no_std`
//! environments. Currently, the handlers still require the [std] feature until
//! [thiserror supports `error_in_core`](https://github.com/dtolnay/thiserror/pull/304).
//! It is recommended to activate the `alloc` feature at the very least to allow using the primary
//! components provided by this crate. These components will only allocate memory at initialization
//! time and thus are still viable for systems where run-time allocation is prohibited.
//!
//! The core of this library are the [crate::dest::DestinationHandler] and the
//! [crate::source::SourceHandler] components which model the CFDP destination and source entity
//! respectively. You can find high-level and API documentation for both handlers in the respective //! respectively. You can find high-level and API documentation for both handlers in the respective
//! [crate::dest] and [crate::source] module. //! [crate::dest] and [crate::source] module.
//! //!
@ -20,9 +29,6 @@
//! //!
//! This library currently features two example application which showcase how the provided //! This library currently features two example application which showcase how the provided
//! components could be used to provide CFDP services. //! components could be used to provide CFDP services.
//! Both examples feature implementations of the [UserFaultHookProvider] and the [user::CfdpUser]
//! trait which simply print some information to the console to monitor the progress of a file
//! copy operation.
//! //!
//! The [end-to-end test](https://egit.irs.uni-stuttgart.de/rust/cfdp/src/branch/main/tests/end-to-end.rs) //! The [end-to-end test](https://egit.irs.uni-stuttgart.de/rust/cfdp/src/branch/main/tests/end-to-end.rs)
//! is an integration tests which spawns a CFDP source entity and a CFDP destination entity, //! is an integration tests which spawns a CFDP source entity and a CFDP destination entity,
@ -43,6 +49,20 @@
//! The [Python Interoperability](https://egit.irs.uni-stuttgart.de/rust/cfdp/src/branch/main/examples/python-interop) //! The [Python Interoperability](https://egit.irs.uni-stuttgart.de/rust/cfdp/src/branch/main/examples/python-interop)
//! example showcases the interoperability of the CFDP handlers written in Rust with a Python //! example showcases the interoperability of the CFDP handlers written in Rust with a Python
//! implementation. The dedicated example documentation shows how to run this example. //! implementation. The dedicated example documentation shows how to run this example.
//!
//! # Notes on the user hooks and scheduling
//!
//! Both examples feature implementations of the [UserFaultHookProvider] and the [user::CfdpUser]
//! trait which simply print some information to the console to monitor the progress of a file
//! copy operation. These implementations could be adapted for other handler integrations. For
//! example, they could signal a GUI application to display some information for the user.
//!
//! Even though both examples move the newly spawned handlers to dedicated threads, this is not
//! the only way they could be scheduled. For example, to support an arbitrary (or bounded)
//! amount of file copy operations on either source or destination side, those handlers could be
//! moved into a [std::collections::HashMap] structure which is then scheduled inside a thread, or
//! you could schedule a fixed amount of handlers inside a
//! [threadpool](https://docs.rs/threadpool/latest/threadpool/).
#![no_std] #![no_std]
#![cfg_attr(docsrs, feature(doc_auto_cfg))] #![cfg_attr(docsrs, feature(doc_auto_cfg))]
#[cfg(feature = "alloc")] #[cfg(feature = "alloc")]