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#!/bin/bash
#
# Test the build system for basic consistency (Cmake/idf.py version)
#
# A bash script that tests some likely build failure scenarios in a row
#
# Assumes PWD is an out-of-tree build directory, and will create a
# subdirectory inside it to run build tests in.
#
# Environment variables:
# IDF_PATH - must be set
# ESP_IDF_TEMPLATE_GIT - Can override git clone source for template app. Otherwise github.
# NOCLEANUP - Set to '1' if you want the script to leave its temporary directory when done, for post-mortem.
#
#
# Internals:
# * The tests run in sequence & the system keeps track of all failures to print at the end.
# * BUILD directory is set to default BUILD_DIR_BASE
# * The "print_status" function both prints a status line to the log and keeps track of which test is running.
# * Calling the "failure" function prints a failure message to the log and also adds to the list of failures to print at the end.
# * The function "assert_built" tests for a file relative to the BUILD directory.
# * The function "take_build_snapshot" can be paired with the functions "assert_rebuilt" and "assert_not_rebuilt" to compare file timestamps and verify if they were rebuilt or not since the snapshot was taken.
#
# To add a new test case, add it to the end of the run_tests function. Note that not all test cases do comprehensive cleanup
# (although very invasive ones like appending CRLFs to all files take a copy of the esp-idf tree), however the clean_build_dir
# function can be used to force-delete all files from the build output directory.
# Set up some variables
#
# override ESP_IDF_TEMPLATE_GIT to point to a local dir if you're testing and want fast iterations
[ -z ${ ESP_IDF_TEMPLATE_GIT } ] && ESP_IDF_TEMPLATE_GIT = https://github.com/espressif/esp-idf-template.git
# uncomment next line to produce a lot more debug output
#export V=1
export PATH = " $IDF_PATH /tools: $PATH " # for idf.py
function run_tests( )
{
FAILURES =
STATUS = "Starting"
print_status "Checking prerequisites"
[ -z ${ IDF_PATH } ] && echo "IDF_PATH is not set. Need path to esp-idf installation." && exit 2
print_status " Cloning template from ${ ESP_IDF_TEMPLATE_GIT } ... "
git clone ${ ESP_IDF_TEMPLATE_GIT } template
cd template
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if [ -z $CHECKOUT_REF_SCRIPT ] ; then
git checkout ${ CI_BUILD_REF_NAME } || echo "Using esp-idf-template default branch..."
else
$CHECKOUT_REF_SCRIPT esp-idf-template
fi
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print_status "Try to clean fresh directory..."
idf.py fullclean || exit $?
# all relative to the build directory
BOOTLOADER_BINS = "bootloader/bootloader.elf bootloader/bootloader.bin"
APP_BINS = "app-template.elf app-template.bin"
PARTITION_BIN = "partition_table/partition-table.bin"
print_status "Initial clean build"
# if build fails here, everything fails
idf.py build || exit $?
# check all the expected build artifacts from the clean build
assert_built ${ APP_BINS } ${ BOOTLOADER_BINS } ${ PARTITION_BIN }
print_status "Updating component source file rebuilds component"
# touch a file & do a build
take_build_snapshot
touch ${ IDF_PATH } /components/esp32/cpu_start.c
idf.py build || failure "Failed to partial build"
assert_rebuilt ${ APP_BINS } esp32/libesp32.a esp32/CMakeFiles/esp32.dir/cpu_start.c.obj
assert_not_rebuilt lwip/liblwip.a freertos/libfreertos.a ${ BOOTLOADER_BINS } ${ PARTITION_BIN }
print_status "Bootloader source file rebuilds bootloader"
take_build_snapshot
touch ${ IDF_PATH } /components/bootloader/subproject/main/bootloader_start.c
idf.py build || failure "Failed to partial build bootloader"
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assert_rebuilt ${ BOOTLOADER_BINS } bootloader/main/CMakeFiles/main.dir/bootloader_start.c.obj
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assert_not_rebuilt ${ APP_BINS } ${ PARTITION_BIN }
print_status "Partition CSV file rebuilds partitions"
take_build_snapshot
touch ${ IDF_PATH } /components/partition_table/partitions_singleapp.csv
idf.py build || failure "Failed to build partition table"
assert_rebuilt ${ PARTITION_BIN }
assert_not_rebuilt app-template.bin app-template.elf ${ BOOTLOADER_BINS }
print_status "Partial build doesn't compile anything by default"
take_build_snapshot
# verify no build files are refreshed by a partial make
ALL_BUILD_FILES = $( find ${ BUILD } -type f | sed " s@ ${ BUILD } /@@ " | grep -v '^.' )
idf.py build || failure "Partial build failed"
assert_not_rebuilt ${ ALL_BUILD_FILES }
print_status "Moving BUILD_DIR_BASE out of tree"
clean_build_dir
OUTOFTREE_BUILD = ${ TESTDIR } /alt_build
idf.py -B " ${ OUTOFTREE_BUILD } " build || failure "Failed to build with out-of-tree build dir"
NEW_BUILD_FILES = $( find ${ OUTOFREE_BUILD } -type f)
if [ -z " ${ NEW_BUILD_FILES } " ] ; then
failure "No files found in new build directory!"
fi
DEFAULT_BUILD_FILES = $( find ${ BUILD } -mindepth 1)
if [ -n " ${ DEFAULT_BUILD_FILES } " ] ; then
failure " Some files were incorrectly put into the default build directory: ${ DEFAULT_BUILD_FILES } "
fi
print_status "BUILD_DIR_BASE inside default build directory"
clean_build_dir
idf.py -B "build/subdirectory" build || failure "Failed to build with build dir as subdir"
NEW_BUILD_FILES = $( find ${ BUILD } /subdirectory -type f)
if [ -z " ${ NEW_BUILD_FILES } " ] ; then
failure "No files found in new build directory!"
fi
print_status "Can still clean build if all text files are CRLFs"
clean_build_dir
find . -path .git -prune -exec unix2dos { } \; # CRLFify template dir
# make a copy of esp-idf and CRLFify it
CRLF_ESPIDF = ${ TESTDIR } /esp-idf-crlf
mkdir -p ${ CRLF_ESPIDF }
cp -r ${ IDF_PATH } /* ${ CRLF_ESPIDF }
# don't CRLFify executable files, as Linux will fail to execute them
find ${ CRLF_ESPIDF } -name .git -prune -name build -prune -type f ! -perm 755 -exec unix2dos { } \;
IDF_PATH = ${ CRLF_ESPIDF } idf.py build || failure "Failed to build with CRLFs in source"
# do the same checks we do for the clean build
assert_built ${ APP_BINS } ${ BOOTLOADER_BINS } ${ PARTITION_BIN }
print_status "Updating rom ld file should re-link app and bootloader"
clean_build_dir
idf.py build
take_build_snapshot
sleep 1 # ninja may ignore if the timestamp delta is too low
cp ${ IDF_PATH } /components/esp32/ld/esp32.rom.ld .
echo "/* (Build test comment) */" >> ${ IDF_PATH } /components/esp32/ld/esp32.rom.ld
tail ${ IDF_PATH } /components/esp32/ld/esp32.rom.ld
idf.py build || failure "Failed to rebuild with modified linker script"
assert_rebuilt ${ APP_BINS } ${ BOOTLOADER_BINS }
mv esp32.rom.ld ${ IDF_PATH } /components/esp32/ld/
print_status "Updating app-only ld file should only re-link app"
take_build_snapshot
cp ${ IDF_PATH } /components/esp32/ld/esp32.common.ld .
sleep 1 # ninja may ignore if the timestamp delta is too low
echo "/* (Build test comment) */" >> ${ IDF_PATH } /components/esp32/ld/esp32.common.ld
idf.py build || failure "Failed to rebuild with modified linker script"
assert_rebuilt ${ APP_BINS }
assert_not_rebuilt ${ BOOTLOADER_BINS }
mv esp32.common.ld ${ IDF_PATH } /components/esp32/ld/
print_status "sdkconfig update triggers full recompile"
clean_build_dir
idf.py build
take_build_snapshot
# need to actually change config, or cmake is too smart to rebuild
sed -i s/CONFIG_FREERTOS_UNICORE= /CONFIG_FREERTOS_UNICORE= y/ sdkconfig
idf.py build
# check the sdkconfig.h file was rebuilt
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assert_rebuilt config/sdkconfig.h
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# pick one each of .c, .cpp, .S that #includes sdkconfig.h
# and therefore should rebuild
assert_rebuilt newlib/CMakeFiles/newlib.dir/syscall_table.c.obj
assert_rebuilt nvs_flash/CMakeFiles/nvs_flash.dir/src/nvs_api.cpp.obj
assert_rebuilt freertos/CMakeFiles/freertos.dir/xtensa_vectors.S.obj
print_status "Updating project CMakeLists.txt triggers full recompile"
clean_build_dir
idf.py build
take_build_snapshot
# Need to actually change the build config, or CMake won't do anything
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cp CMakeLists.txt CMakeLists.bak
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sed -i 's/^project(/add_compile_options("-DUSELESS_MACRO_DOES_NOTHING=1")\nproject\(/' CMakeLists.txt
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idf.py build || failure "Build failed"
mv CMakeLists.bak CMakeLists.txt
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# similar to previous test
assert_rebuilt newlib/CMakeFiles/newlib.dir/syscall_table.c.obj
assert_rebuilt nvs_flash/CMakeFiles/nvs_flash.dir/src/nvs_api.cpp.obj
assert_rebuilt freertos/CMakeFiles/freertos.dir/xtensa_vectors.S.obj
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print_status "Can build with Ninja (no idf.py)"
clean_build_dir
( cd build && cmake -G Ninja .. && ninja) || failure "Ninja build failed"
assert_built ${ APP_BINS } ${ BOOTLOADER_BINS } ${ PARTITION_BIN }
print_status "Can build with GNU Make (no idf.py)"
clean_build_dir
mkdir build
( cd build && cmake -G "Unix Makefiles" .. && make) || failure "Make build failed"
assert_built ${ APP_BINS } ${ BOOTLOADER_BINS } ${ PARTITION_BIN }
print_status "Can build with IDF_PATH set via cmake cache not environment"
clean_build_dir
cp CMakeLists.txt CMakeLists.bak
sed -i 's/ENV{IDF_PATH}/{IDF_PATH}/' CMakeLists.txt
export IDF_PATH_BACKUP = " $IDF_PATH "
( unset IDF_PATH &&
cd build &&
cmake -G Ninja .. -DIDF_PATH= ${ IDF_PATH_BACKUP } &&
ninja) || failure "Ninja build failed"
mv CMakeLists.bak CMakeLists.txt
assert_built ${ APP_BINS } ${ BOOTLOADER_BINS } ${ PARTITION_BIN }
print_status "Can build with IDF_PATH unset and inferred by build system"
clean_build_dir
cp CMakeLists.txt CMakeLists.bak
sed -i " s%\$ENV{IDF_PATH}% ${ IDF_PATH } % " CMakeLists.txt # expand to a hardcoded path
( unset IDF_PATH && cd build &&
cmake -G Ninja .. && ninja) || failure "Ninja build failed"
mv CMakeLists.bak CMakeLists.txt
assert_built ${ APP_BINS } ${ BOOTLOADER_BINS } ${ PARTITION_BIN }
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print_status "All tests completed"
if [ -n " ${ FAILURES } " ] ; then
echo "Some failures were detected:"
echo -e " ${ FAILURES } "
exit 1
else
echo "Build tests passed."
fi
}
function print_status( )
{
echo " ******** $1 "
STATUS = " $1 "
}
function failure( )
{
echo "!!!!!!!!!!!!!!!!!!!"
echo " FAILURE: $1 "
echo "!!!!!!!!!!!!!!!!!!!"
FAILURES = " ${ FAILURES } ${ STATUS } :: $1 \n "
}
TESTDIR = ${ PWD } /build_system_tests_$$
mkdir -p ${ TESTDIR }
# set NOCLEANUP=1 if you want to keep the test directory around
# for post-mortem debugging
[ -z ${ NOCLEANUP } ] && trap " rm -rf ${ TESTDIR } " EXIT KILL
SNAPSHOT = ${ TESTDIR } /snapshot
BUILD = ${ TESTDIR } /template/build
# copy all the build output to a snapshot directory
function take_build_snapshot( )
{
rm -rf ${ SNAPSHOT }
cp -ap ${ TESTDIR } /template/build ${ SNAPSHOT }
}
# verify that all the arguments are present in the build output directory
function assert_built( )
{
until [ -z " $1 " ] ; do
if [ ! -f " ${ BUILD } / $1 " ] ; then
failure " File $1 should be in the build output directory "
fi
shift
done
}
# Test if a file has been rebuilt.
function file_was_rebuilt( )
{
# can't use [ a -ot b ] here as -ot only gives second resolution
# but stat -c %y seems to be microsecond at least for tmpfs, ext4..
if [ " $( stat -c %y ${ SNAPSHOT } /$1 ) " != " $( stat -c %y ${ BUILD } /$1 ) " ] ; then
return 0
else
return 1
fi
}
# verify all the arguments passed in were rebuilt relative to the snapshot
function assert_rebuilt( )
{
until [ -z " $1 " ] ; do
assert_built " $1 "
if [ ! -f " ${ SNAPSHOT } / $1 " ] ; then
failure " File $1 should be in original build snapshot "
fi
if ! file_was_rebuilt " $1 " ; then
failure " File $1 should have been rebuilt "
fi
shift
done
}
# verify all the arguments are in the build directory & snapshot,
# but were not rebuilt
function assert_not_rebuilt( )
{
until [ -z " $1 " ] ; do
assert_built " $1 "
if [ ! -f " ${ SNAPSHOT } / $1 " ] ; then
failure " File $1 should be in snapshot build directory "
fi
if file_was_rebuilt " $1 " ; then
failure " File $1 should not have been rebuilt "
fi
shift
done
}
# do a "clean" that doesn't depend on idf.py
function clean_build_dir( )
{
rm -rf --preserve-root ${ BUILD } /* ${ BUILD } /.*
}
cd ${ TESTDIR }
run_tests