Understanding rebuilds

As packages are processed in order (based off of detected dependencies, if any), each package will go through their respective stages:

  1. Fetching

  2. Extraction

  3. Patching

  4. Configuration

  5. Building

  6. Installation

While a package may not take advantage of each stage, the releng-tool will step through each stage to track its progress. Due to the vast number of ways a package can be defined, the ability for releng-tool to determine when a previously executed stage is „stale“ is non-trivial. Instead of attempting to manage „stale“ package stages, releng-tool leaves the responsibility to the builder to deal with these scenarios. This idea is important for developers to understand how it is possible to perform rebuilds of packages to avoid a full rebuild of the entire project.

Consider the following example: a project has three packages which are C++-based packages:

└── my-releng-tool-project/
    ├── package/
    │   ├── module-a/
    │   │   └── ...
    │   ├── module-b/
    │   │   └── ...
    │   └── module-c/
    │       └── ...
    └── releng-tool.rt

For this example, project module-b depends on module-a and project module-c depends on module-b. Therefore, releng-tool will process packages in the order module-a -> module-b -> module-c. In this example, the project is built until a failure is detected in package module-c:

$ releng-tool
[module-a built]
[module-b built]
ERROR: unable to build module-c

A developer notices that it is due to an issue found in module-b; however, instead of attempting to redo everything from a fresh start, the developer wishes to test the process by manually making local changes in module-b to complete the build process. The developer makes the change, re-invokes releng-tool but still notices the build error occurs:

$ releng-tool
ERROR: unable to build module-c

The issue here is that since module-b has already been processed, none of the interim changes made will be available for module-c to use. To take advantage of the new implementation in module-b, the builder can signal for the updated package to be rebuilt:

$ releng-tool module-b-rebuild
[module-b rebuilt]

With module-b in a more desired state, a re-invoke of releng-tool can allow module-c to be built.

$ releng-tool
[module-c built]

This is a very simple example to consider, and attempts to rebuild can vary based on the packages, changes made and languages used.