tree: 70e0b123eafc468c42889ff5223469e0783539d3 [path history] [tgz]
  1. build/
  2. builders/
  3. runner/
  4. testdata/
  5. BUILD.gn
  6. build_darwin_framework.py
  7. build_examples.py
  8. default.sh
  9. glob_matcher.py
  10. gn_bootstrap.sh
  11. gn_gen.sh
  12. gn_gen_cirque.sh
  13. README.md
  14. setup.py
  15. test.py
  16. test_glob_matcher.py
scripts/build/README.md

CHIP automated builds scripts

CHIP compilation is generally split into two steps

  1. Generate ninja/makefile for out-of-source builds
  2. Compilation using ninja/makefiles

Building manually

Manual building is generally platform-dependent. All build steps would require a bootstrapped environment (loads a pigweed build environment) and will then be followed by platform-specific instructions.

The file BUILDING.md describes general requirements and examples. Typical usage is:

source scripts/activate
gn gen out/host
ninja -C out/host

Unified build script

The script build_examples.py provides a single entry point for generating and executing the build.

Build environment MUST be properly configured for build_examples to succeed. For example ESP32 builds requite IDF_PATH to be set. Building in the corresponding build image or the chip vscode image satisfy the build environment requirement.

Usage examples:

  1. Compile the all clusters app for a ESP32 DevKitC

    ./scripts/build/build_examples.py --target esp32-devkitc-all-clusters build
    
  2. Generate all the makefiles (but do not compile) using a specific output root

    ./scripts/build/build_examples.py --target linux-x64-chip-tool --out-prefix ./mydir gen
    
  3. Compile the qpg lock app and copy the output in a ‘artifact’ folder. Note the argument order (artifact copying is an argument for the build command)

    ./scripts/build/build_examples.py --target qpg-lock build --copy-artifacts-to /tmp/artifacts
    
  4. Find out possible target choices:

    ./scripts/build/build_examples.py--log-level fatal targets