Future Electronics
/
sequana-lorawan-lab2
This is an example LoRaWAN application for Future Electronic Sequana/LoRa training.
Jenkinsfile
- Committer:
- lru
- Date:
- 2019-11-22
- Revision:
- 60:4b5ab8ab1353
- Parent:
- 54:19d02b47e598
File content as of revision 60:4b5ab8ab1353:
properties ([[$class: 'ParametersDefinitionProperty', parameterDefinitions: [ [$class: 'StringParameterDefinition', name: 'mbed_os_revision', defaultValue: '', description: 'Revision of mbed-os to build. To access mbed-os PR use format "pull/PR number/head"'], [$class: 'BooleanParameterDefinition', name: 'regions_build_test', defaultValue: true, description: 'Test build all available regions'] ]]]) library 'mbed-lib' if (env.MBED_OS_REVISION == null) { echo 'First run in this branch, using default parameter values' env.MBED_OS_REVISION = '' } if (env.MBED_OS_REVISION == '') { echo 'Using mbed OS revision from mbed-os.lib' } else { echo "Using given mbed OS revision: ${env.MBED_OS_REVISION}" if (env.MBED_OS_REVISION.matches('pull/\\d+/head')) { echo "Revision is a Pull Request" } } // All available regions def regions = [ "\"0\"", "\"1\"", "\"2\"", "\"3\"", "\"4\"", "\"5\"", "\"6\"", "\"7\"", "\"8\"", "\"EU868\"", "\"AS923\"", "\"AU915\"", "\"CN470\"", "\"CN779\"", "\"EU433\"", "\"IN865\"", "\"KR920\"", "\"US915\"" ] // Supported targets def targets = [ "K64F", "MTB_MTS_XDOT", "MTB_MURATA_ABZ", "MTS_MDOT_F411RE", "DISCO_L072CZ_LRWAN1", "MTB_ADV_WISE_1510", "MTB_RAK811" ] // Supported toolchains def toolchains = [ "ARM", "GCC_ARM", "IAR" ] def stepsForParallel = [:] // Jenkins pipeline does not support map.each, we need to use oldschool for loop for (int i = 0; i < targets.size(); i++) { for(int j = 0; j < toolchains.size(); j++) { def target = targets.get(i) def toolchain = toolchains.get(j) // Skip unwanted combination if (target == "MTB_MURATA_ABZ" && toolchain == "GCC_ARM") { continue } if (target == "DISCO_L072CZ_LRWAN1" && toolchain == "GCC_ARM") { continue } if (target == "MTB_RAK811" && toolchain == "GCC_ARM") { continue } def stepName = "${target} ${toolchain}" stepsForParallel[stepName] = buildStep(target, toolchain) } } def stepsForRegional = [:] if (params.regions_build_test == true) { stepsForRegional["REGION BUILDER"] = build_regions(regions) } timestamps { parallel stepsForParallel parallel stepsForRegional } def buildStep(target, toolchain) { return { stage ("${target}_${toolchain}") { node ("${toolchain}") { deleteDir() dir("mbed-os-example-lorawan") { checkout scm // A workaround for mbed-cli caching issues try { execute("mbed deploy --protocol ssh") } catch (err) { echo "mbed deploy failed - retrying after 10s" sleep(10) execute("mbed deploy --protocol ssh") } // Set mbed-os to revision received as parameter if (env.MBED_OS_REVISION != '') { dir("mbed-os") { if (env.MBED_OS_REVISION.matches('pull/\\d+/head')) { // Use mbed-os PR and switch to branch created execute("git fetch origin ${env.MBED_OS_REVISION}:_PR_") execute("git checkout _PR_") } else { execute("git checkout ${env.MBED_OS_REVISION}") } } } // Adjust stack size and crystal values if ("${target}" == "DISCO_L072CZ_LRWAN1") { execute("sed -i 's/#define RCC_HSICALIBRATION_DEFAULT ((uint32_t)0x10)/#define RCC_HSICALIBRATION_DEFAULT ((uint32_t)0x13)/' \ mbed-os/targets/TARGET_STM/TARGET_STM32L0/device/stm32l0xx_hal_rcc.h") } if ("${target}" == "MTB_MURATA_ABZ") { execute("sed -i 's/define symbol __size_heap__ = 0x800;/define symbol __size_heap__ = 0x1000;/' \ mbed-os/targets/TARGET_STM/TARGET_STM32L0/TARGET_STM32L0x2xZ/device/TOOLCHAIN_IAR/stm32l082xZ.icf") execute("sed -i 's/#define RCC_HSICALIBRATION_DEFAULT ((uint32_t)0x10)/#define RCC_HSICALIBRATION_DEFAULT ((uint32_t)0x16)/' \ mbed-os/targets/TARGET_STM/TARGET_STM32L0/device/stm32l0xx_hal_rcc.h") } if ("${target}" == "MTB_MTS_XDOT") { execute("sed -i 's/define symbol __size_heap__ = 0x800;/define symbol __size_heap__ = 0x1800;/' \ mbed-os/targets/TARGET_STM/TARGET_STM32L1/TARGET_MTB_MTS_XDOT/device/TOOLCHAIN_IAR/stm32l152xc.icf") } if ("${target}" == "MTB_RAK811") { execute("sed -i 's/#define RCC_HSICALIBRATION_DEFAULT (0x10U)/#define RCC_HSICALIBRATION_DEFAULT (0x11U)/' \ mbed-os/targets/TARGET_STM/TARGET_STM32L1/device/stm32l1xx_hal_rcc.h") execute("sed -i 's/define symbol __size_heap__ = 0x800;/define symbol __size_heap__ = 0x1800;/' \ mbed-os/targets/TARGET_STM/TARGET_STM32L1/TARGET_MTB_RAK811/device/TOOLCHAIN_IAR/stm32l152xba.icf") } execute("mbed compile --build out/${target}_${toolchain}/ -m ${target} -t ${toolchain} -c") } stash name: "${target}_${toolchain}", includes: '**/mbed-os-example-lorawan.bin' archive '**/mbed-os-example-lorawan.bin' step([$class: 'WsCleanup']) } } } } def build_regions(regions) { return { stage ("region_builder_K64F_GCC_ARM") { node ("GCC_ARM") { deleteDir() dir("mbed-os-example-lorawan") { checkout scm // A workaround for mbed-cli caching issues try { execute("mbed deploy --protocol ssh") } catch (err) { echo "mbed deploy failed - retrying after 10s" sleep(10) execute("mbed deploy --protocol ssh") } if (env.MBED_OS_REVISION != '') { dir("mbed-os") { if (env.MBED_OS_REVISION.matches('pull/\\d+/head')) { execute("git fetch origin ${env.MBED_OS_REVISION}:_PR_") execute("git checkout _PR_") } else { execute("git checkout ${env.MBED_OS_REVISION}") } } } //Initial sed to string format for find & replacing execute("sed -i 's/\"lora.phy\": 0,/\"lora.phy\": \"0\",/' mbed_app.json") //lora.phy 0 build tested above already for (int i = 1; i < regions.size(); i++) { def curr_region = regions.get(i) def prev_region = regions.get(i-1) execute("sed -i 's/\"lora.phy\": ${prev_region},/\"lora.phy\": ${curr_region},/' mbed_app.json") echo "Building region: ${curr_region}" execute("mbed compile -t GCC_ARM -m K64F") } } } } } }