circuitpython/.travis.yml

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# global options
dist: xenial
language:
- c
compiler:
- gcc
cache:
directories:
- "${HOME}/persist"
env:
global:
- MAKEOPTS="-j4"
git:
submodules: false
# define the successive stages
stages:
- name: test
# define the jobs for the stages
# order of the jobs has longest running first to optimise total time
jobs:
include:
# stm32 port
- stage: test
env: NAME="stm32 port build"
install:
# need newer gcc version for Cortex-M7 support
- sudo add-apt-repository -y ppa:team-gcc-arm-embedded/ppa
- sudo apt-get update -qq || true
- sudo apt-get install gcc-arm-embedded
- sudo apt-get install libnewlib-arm-none-eabi
- arm-none-eabi-gcc --version
script:
- make ${MAKEOPTS} -C mpy-cross
- make ${MAKEOPTS} -C ports/stm32 submodules
- make ${MAKEOPTS} -C ports/stm32 BOARD=NUCLEO_F091RC
- make ${MAKEOPTS} -C ports/stm32 BOARD=PYBV11 MICROPY_PY_WIZNET5K=5200 MICROPY_PY_CC3K=1
- make ${MAKEOPTS} -C ports/stm32 BOARD=PYBD_SF2
- make ${MAKEOPTS} -C ports/stm32 BOARD=NUCLEO_H743ZI CFLAGS_EXTRA='-DMICROPY_PY_THREAD=1'
- make ${MAKEOPTS} -C ports/stm32 BOARD=B_L072Z_LRWAN1
- make ${MAKEOPTS} -C ports/stm32 BOARD=STM32L476DISC
- make ${MAKEOPTS} -C ports/stm32 BOARD=NUCLEO_WB55
- make ${MAKEOPTS} -C ports/stm32/mboot BOARD=PYBD_SF6
# qemu-arm port
- stage: test
env: NAME="qemu-arm port build and tests"
install:
- sudo apt-get install gcc-arm-none-eabi
- sudo apt-get install libnewlib-arm-none-eabi
- sudo apt-get install qemu-system
- arm-none-eabi-gcc --version
- qemu-system-arm --version
script:
- make ${MAKEOPTS} -C mpy-cross
- make ${MAKEOPTS} -C ports/qemu-arm -f Makefile.test test
after_failure:
- grep "FAIL" ports/qemu-arm/build/console.out
# unix coverage
- stage: test
env: NAME="unix coverage build and tests"
install:
- sudo apt-get install python3-pip
- sudo pip install cpp-coveralls
- sudo pip3 install setuptools
- sudo pip3 install pyelftools
- gcc --version
- python3 --version
script:
- make ${MAKEOPTS} -C mpy-cross
- make ${MAKEOPTS} -C ports/unix submodules
- make ${MAKEOPTS} -C ports/unix deplibs
- make ${MAKEOPTS} -C ports/unix coverage
# run the main test suite
- (cd tests && MICROPY_CPYTHON3=python3 MICROPY_MICROPYTHON=../ports/unix/micropython_coverage ./run-tests)
- (cd tests && MICROPY_CPYTHON3=python3 MICROPY_MICROPYTHON=../ports/unix/micropython_coverage ./run-tests -d thread)
- (cd tests && MICROPY_CPYTHON3=python3 MICROPY_MICROPYTHON=../ports/unix/micropython_coverage ./run-tests --emit native)
- (cd tests && MICROPY_CPYTHON3=python3 MICROPY_MICROPYTHON=../ports/unix/micropython_coverage ./run-tests --via-mpy -d basics float micropython)
- (cd tests && MICROPY_CPYTHON3=python3 MICROPY_MICROPYTHON=../ports/unix/micropython_coverage ./run-tests --via-mpy --emit native -d basics float micropython)
# test when input script comes from stdin
- cat tests/basics/0prelim.py | ports/unix/micropython_coverage | grep -q 'abc'
# test building native mpy modules
- make -C examples/natmod/features1 ARCH=x64
- make -C examples/natmod/features2 ARCH=x64
- make -C examples/natmod/btree ARCH=x64
- make -C examples/natmod/framebuf ARCH=x64
- make -C examples/natmod/uheapq ARCH=x64
- make -C examples/natmod/ure ARCH=x64
- make -C examples/natmod/uzlib ARCH=x64
# test importing .mpy generated by mpy_ld.py
- MICROPYPATH=examples/natmod/features2 ./ports/unix/micropython_coverage -m features2
- (cd tests && ./run-natmodtests.py extmod/{btree*,framebuf*,uheapq*,ure*,uzlib*}.py)
# run coveralls coverage analysis (try to, even if some builds/tests failed)
- (cd ports/unix && coveralls --root ../.. --build-root . --gcov $(which gcov) --gcov-options '\-o build-coverage/' --include py --include extmod)
after_failure:
- (cd tests && for exp in *.exp; do testbase=$(basename $exp .exp); echo -e "\nFAILURE $testbase"; diff -u $testbase.exp $testbase.out; done)
# standard unix port
- stage: test
env: NAME="unix port build and tests"
script:
- make ${MAKEOPTS} -C mpy-cross
- make ${MAKEOPTS} -C ports/unix submodules
- make ${MAKEOPTS} -C ports/unix deplibs
- make ${MAKEOPTS} -C ports/unix
- make ${MAKEOPTS} -C ports/unix test
- (cd tests && MICROPY_CPYTHON3=python3 MICROPY_MICROPYTHON=../ports/unix/micropython ./run-perfbench.py 1000 1000)
# unix nanbox (and using Python 2 to check it can run the build scripts)
- stage: test
env: NAME="unix nanbox port build and tests"
install:
- sudo apt-get install gcc-multilib libffi-dev:i386
script:
- make ${MAKEOPTS} -C mpy-cross PYTHON=python2
- make ${MAKEOPTS} -C ports/unix submodules
- make ${MAKEOPTS} -C ports/unix PYTHON=python2 deplibs
- make ${MAKEOPTS} -C ports/unix PYTHON=python2 nanbox
- (cd tests && MICROPY_CPYTHON3=python3 MICROPY_MICROPYTHON=../ports/unix/micropython_nanbox ./run-tests)
# unix stackless
- stage: test
env: NAME="unix stackless port build and tests with clang"
install:
- sudo apt-get install clang
script:
- make ${MAKEOPTS} -C mpy-cross CC=clang
- make ${MAKEOPTS} -C ports/unix submodules
- make ${MAKEOPTS} -C ports/unix CC=clang CFLAGS_EXTRA="-DMICROPY_STACKLESS=1 -DMICROPY_STACKLESS_STRICT=1"
- make ${MAKEOPTS} -C ports/unix CC=clang test
# unix with sys.settrace
- stage: test
env: NAME="unix port with sys.settrace build and tests"
script:
- make ${MAKEOPTS} -C mpy-cross
- make ${MAKEOPTS} -C ports/unix MICROPY_PY_BTREE=0 MICROPY_PY_FFI=0 MICROPY_PY_USSL=0 CFLAGS_EXTRA="-DMICROPY_PY_SYS_SETTRACE=1" test
- make ${MAKEOPTS} -C ports/unix clean
- make ${MAKEOPTS} -C ports/unix MICROPY_PY_BTREE=0 MICROPY_PY_FFI=0 MICROPY_PY_USSL=0 CFLAGS_EXTRA="-DMICROPY_STACKLESS=1 -DMICROPY_STACKLESS_STRICT=1 -DMICROPY_PY_SYS_SETTRACE=1" test
after_failure:
- (cd tests && for exp in *.exp; do testbase=$(basename $exp .exp); echo -e "\nFAILURE $testbase"; diff -u $testbase.exp $testbase.out; done)
# minimal unix port with tests
- stage: test
env: NAME="minimal unix port build and tests"
script:
- make ${MAKEOPTS} -C ports/unix minimal
- (cd tests && MICROPY_CPYTHON3=python3 MICROPY_MICROPYTHON=../ports/unix/micropython_minimal ./run-tests -e exception_chain -e self_type_check -e subclass_native_init -d basics)
# windows port via mingw
- stage: test
env: NAME="windows port build via mingw"
install:
- sudo apt-get install gcc-mingw-w64
script:
- make ${MAKEOPTS} -C mpy-cross
- make ${MAKEOPTS} -C ports/windows CROSS_COMPILE=i686-w64-mingw32-
# esp32 port
- stage: test
env: NAME="esp32 port build"
install:
- sudo apt-get install python3-pip
- sudo pip3 install 'pyparsing<2.4'
- wget https://dl.espressif.com/dl/xtensa-esp32-elf-linux64-1.22.0-80-g6c4433a-5.2.0.tar.gz
- zcat xtensa-esp32-elf-linux64-1.22.0-80-g6c4433a-5.2.0.tar.gz | tar x
- export PATH=$(pwd)/xtensa-esp32-elf/bin:$PATH
- git clone https://github.com/espressif/esp-idf.git
- export IDF_PATH=$(pwd)/esp-idf
script:
- make ${MAKEOPTS} -C mpy-cross
# IDF v3 build
- git -C esp-idf checkout $(grep "ESPIDF_SUPHASH_V3 :=" ports/esp32/Makefile | cut -d " " -f 3)
- git -C esp-idf submodule update --init components/json/cJSON components/esp32/lib components/esptool_py/esptool components/expat/expat components/lwip/lwip components/mbedtls/mbedtls components/micro-ecc/micro-ecc components/nghttp/nghttp2
- make ${MAKEOPTS} -C ports/esp32 submodules
- make ${MAKEOPTS} -C ports/esp32
# clean
- git -C esp-idf clean -f -f -d components/json/cJSON components/esp32/lib components/expat/expat components/micro-ecc/micro-ecc components/nghttp/nghttp2
- make ${MAKEOPTS} -C ports/esp32 clean
# IDF v4 build
- git -C esp-idf checkout $(grep "ESPIDF_SUPHASH_V4 :=" ports/esp32/Makefile | cut -d " " -f 3)
- git -C esp-idf submodule update --init components/bt/controller/lib components/bt/host/nimble/nimble components/esp_wifi/lib_esp32 components/esptool_py/esptool components/lwip/lwip components/mbedtls/mbedtls
- make ${MAKEOPTS} -C ports/esp32 submodules
- make ${MAKEOPTS} -C ports/esp32
# esp8266 port
- stage: test
env: NAME="esp8266 port build"
install:
- wget https://github.com/jepler/esp-open-sdk/releases/download/2018-06-10/xtensa-lx106-elf-standalone.tar.gz
- zcat xtensa-lx106-elf-standalone.tar.gz | tar x
- export PATH=$(pwd)/xtensa-lx106-elf/bin:$PATH
script:
- make ${MAKEOPTS} -C mpy-cross
- make ${MAKEOPTS} -C ports/esp8266 submodules
- make ${MAKEOPTS} -C ports/esp8266
- make ${MAKEOPTS} -C ports/esp8266 BOARD=GENERIC_512K
# nrf port
- stage: test
env: NAME="nrf port build"
install:
- sudo apt-get install gcc-arm-none-eabi
- sudo apt-get install libnewlib-arm-none-eabi
- arm-none-eabi-gcc --version
script:
- make ${MAKEOPTS} -C ports/nrf submodules
- make ${MAKEOPTS} -C ports/nrf
# bare-arm and minimal ports
- stage: test
env: NAME="bare-arm and minimal ports build"
install:
- sudo apt-get install gcc-arm-none-eabi
- sudo apt-get install libnewlib-arm-none-eabi
- arm-none-eabi-gcc --version
script:
- make ${MAKEOPTS} -C ports/bare-arm
- make ${MAKEOPTS} -C ports/minimal CROSS=1 build/firmware.bin
- ls -l ports/minimal/build/firmware.bin
- tools/check_code_size.sh
- mkdir -p ${HOME}/persist
# Save new firmware for reference, but only if building a main branch, not a pull request
- 'if [ "$TRAVIS_PULL_REQUEST" = "false" ]; then cp ports/minimal/build/firmware.bin ${HOME}/persist/; fi'
# cc3200 port
- stage: test
env: NAME="cc3200 port build"
install:
- sudo apt-get install gcc-arm-none-eabi
- sudo apt-get install libnewlib-arm-none-eabi
script:
- make ${MAKEOPTS} -C ports/cc3200 BTARGET=application BTYPE=release
- make ${MAKEOPTS} -C ports/cc3200 BTARGET=bootloader BTYPE=release
# samd port
- stage: test
env: NAME="samd port build"
install:
- sudo apt-get install gcc-arm-none-eabi
- sudo apt-get install libnewlib-arm-none-eabi
script:
- make ${MAKEOPTS} -C ports/samd submodules
- make ${MAKEOPTS} -C ports/samd
# teensy port
- stage: test
env: NAME="teensy port build"
install:
- sudo apt-get install gcc-arm-none-eabi
- sudo apt-get install libnewlib-arm-none-eabi
script:
- make ${MAKEOPTS} -C ports/teensy
# powerpc port
- stage: test
env: NAME="powerpc port build"
install:
- sudo apt-get install gcc-powerpc64le-linux-gnu
- sudo apt-get install libc6-dev-ppc64el-cross
script:
- make ${MAKEOPTS} -C ports/powerpc CROSS_COMPILE=powerpc64le-linux-gnu-