#!/usr/bin/python -u import sys import os import subprocess import time import datetime import shutil import tempfile import hashlib import re debug = False ################ #### Telegraf Variables ################ # Packaging variables PACKAGE_NAME = "telegraf" INSTALL_ROOT_DIR = "/usr/bin" LOG_DIR = "/var/log/telegraf" SCRIPT_DIR = "/usr/lib/telegraf/scripts" CONFIG_DIR = "/etc/telegraf" LOGROTATE_DIR = "/etc/logrotate.d" INIT_SCRIPT = "scripts/init.sh" SYSTEMD_SCRIPT = "scripts/telegraf.service" LOGROTATE_SCRIPT = "etc/logrotate.d/telegraf" DEFAULT_CONFIG = "etc/telegraf.conf" DEFAULT_WINDOWS_CONFIG = "etc/telegraf_windows.conf" POSTINST_SCRIPT = "scripts/post-install.sh" PREINST_SCRIPT = "scripts/pre-install.sh" # Default AWS S3 bucket for uploads DEFAULT_BUCKET = "get.influxdb.org/telegraf" CONFIGURATION_FILES = [ CONFIG_DIR + '/telegraf.conf', LOGROTATE_DIR + '/telegraf', ] # META-PACKAGE VARIABLES PACKAGE_LICENSE = "MIT" PACKAGE_URL = "https://github.com/influxdata/telegraf" MAINTAINER = "support@influxdb.com" VENDOR = "InfluxData" DESCRIPTION = "Plugin-driven server agent for reporting metrics into InfluxDB." # SCRIPT START prereqs = [ 'git', 'go' ] go_vet_command = "go tool vet -composites=true ./" optional_prereqs = [ 'gvm', 'fpm', 'rpmbuild' ] fpm_common_args = "-f -s dir --log error \ --vendor {} \ --url {} \ --license {} \ --maintainer {} \ --config-files {} \ --config-files {} \ --after-install {} \ --before-install {} \ --description \"{}\"".format( VENDOR, PACKAGE_URL, PACKAGE_LICENSE, MAINTAINER, CONFIG_DIR + '/telegraf.conf', LOGROTATE_DIR + '/telegraf', POSTINST_SCRIPT, PREINST_SCRIPT, DESCRIPTION) targets = { 'telegraf' : './cmd/telegraf', } supported_builds = { "darwin": [ "amd64", "i386" ], "windows": [ "amd64", "i386" ], "linux": [ "amd64", "i386", "armhf", "armel", "arm64" ], "freebsd": [ "amd64" ] } supported_packages = { "darwin": [ "tar", "zip" ], "linux": [ "deb", "rpm", "tar" ], "windows": [ "zip" ], "freebsd": [ "tar" ] } supported_tags = { # "linux": { # "amd64": ["sensors"] # } } prereq_cmds = { # "linux": "sudo apt-get install lm-sensors libsensors4-dev" } ################ #### Telegraf Functions ################ def create_package_fs(build_root): print("Creating a filesystem hierarchy from directory: {}".format(build_root)) # Using [1:] for the path names due to them being absolute # (will overwrite previous paths, per 'os.path.join' documentation) dirs = [ INSTALL_ROOT_DIR[1:], LOG_DIR[1:], SCRIPT_DIR[1:], CONFIG_DIR[1:], LOGROTATE_DIR[1:] ] for d in dirs: create_dir(os.path.join(build_root, d)) os.chmod(os.path.join(build_root, d), 0o755) def package_scripts(build_root, windows=False): print("Copying scripts and sample configuration to build directory") if windows: shutil.copyfile(DEFAULT_WINDOWS_CONFIG, os.path.join(build_root, "telegraf.conf")) os.chmod(os.path.join(build_root, "telegraf.conf"), 0o644) else: shutil.copyfile(INIT_SCRIPT, os.path.join(build_root, SCRIPT_DIR[1:], INIT_SCRIPT.split('/')[1])) os.chmod(os.path.join(build_root, SCRIPT_DIR[1:], INIT_SCRIPT.split('/')[1]), 0o644) shutil.copyfile(SYSTEMD_SCRIPT, os.path.join(build_root, SCRIPT_DIR[1:], SYSTEMD_SCRIPT.split('/')[1])) os.chmod(os.path.join(build_root, SCRIPT_DIR[1:], SYSTEMD_SCRIPT.split('/')[1]), 0o644) shutil.copyfile(LOGROTATE_SCRIPT, os.path.join(build_root, LOGROTATE_DIR[1:], "telegraf")) os.chmod(os.path.join(build_root, LOGROTATE_DIR[1:], "telegraf"), 0o644) shutil.copyfile(DEFAULT_CONFIG, os.path.join(build_root, CONFIG_DIR[1:], "telegraf.conf")) os.chmod(os.path.join(build_root, CONFIG_DIR[1:], "telegraf.conf"), 0o644) def run_generate(): # NOOP for Telegraf return True def go_get(branch, update=False, no_stash=False): if not check_path_for("gdm"): print("Downloading `gdm`...") get_command = "go get github.com/sparrc/gdm" run(get_command) print("Retrieving dependencies with `gdm`...") run("{}/bin/gdm restore -f Godeps_windows".format(os.environ.get("GOPATH"))) run("{}/bin/gdm restore".format(os.environ.get("GOPATH"))) return True ################ #### All Telegraf-specific content above this line ################ def run(command, allow_failure=False, shell=False): out = None if debug: print("[DEBUG] {}".format(command)) try: if shell: out = subprocess.check_output(command, stderr=subprocess.STDOUT, shell=shell) else: out = subprocess.check_output(command.split(), stderr=subprocess.STDOUT) out = out.decode("utf8") if debug: print("[DEBUG] command output: {}".format(out)) except subprocess.CalledProcessError as e: print("") print("") print("Executed command failed!") print("-- Command run was: {}".format(command)) print("-- Failure was: {}".format(e.output)) if allow_failure: print("Continuing...") return None else: print("") print("Stopping.") sys.exit(1) except OSError as e: print("") print("") print("Invalid command!") print("-- Command run was: {}".format(command)) print("-- Failure was: {}".format(e)) if allow_failure: print("Continuing...") return out else: print("") print("Stopping.") sys.exit(1) else: return out def create_temp_dir(prefix = None): if prefix is None: return tempfile.mkdtemp(prefix="{}-build.".format(PACKAGE_NAME)) else: return tempfile.mkdtemp(prefix=prefix) def get_current_version_tag(): version = run("git describe --always --tags --abbrev=0").strip() return version def get_current_version(): version_tag = get_current_version_tag() if version_tag[0] == 'v': # Remove leading 'v' and possible '-rc\d+' version = re.sub(r'-rc\d+', '', version_tag[1:]) else: version = re.sub(r'-rc\d+', '', version_tag) return version def get_current_rc(): rc = None version_tag = get_current_version_tag() matches = re.match(r'.*-rc(\d+)', version_tag) if matches: rc, = matches.groups(1) return rc def get_current_commit(short=False): command = None if short: command = "git log --pretty=format:'%h' -n 1" else: command = "git rev-parse HEAD" out = run(command) return out.strip('\'\n\r ') def get_current_branch(): command = "git rev-parse --abbrev-ref HEAD" out = run(command) return out.strip() def get_system_arch(): arch = os.uname()[4] if arch == "x86_64": arch = "amd64" return arch def get_system_platform(): if sys.platform.startswith("linux"): return "linux" else: return sys.platform def get_go_version(): out = run("go version") matches = re.search('go version go(\S+)', out) if matches is not None: return matches.groups()[0].strip() return None def check_path_for(b): def is_exe(fpath): return os.path.isfile(fpath) and os.access(fpath, os.X_OK) for path in os.environ["PATH"].split(os.pathsep): path = path.strip('"') full_path = os.path.join(path, b) if os.path.isfile(full_path) and os.access(full_path, os.X_OK): return full_path def check_environ(build_dir=None): print("") print("Checking environment:") for v in [ "GOPATH", "GOBIN", "GOROOT" ]: print("- {} -> {}".format(v, os.environ.get(v))) cwd = os.getcwd() if build_dir is None and os.environ.get("GOPATH") and os.environ.get("GOPATH") not in cwd: print("!! WARNING: Your current directory is not under your GOPATH. This may lead to build failures.") def check_prereqs(): print("") print("Checking for dependencies:") for req in prereqs: path = check_path_for(req) if path: print("- {} -> {}".format(req, path)) else: print("- {} -> ?".format(req)) for req in optional_prereqs: path = check_path_for(req) if path: print("- {} (optional) -> {}".format(req, path)) else: print("- {} (optional) -> ?".format(req)) print("") return True def upload_packages(packages, bucket_name=None, nightly=False): if debug: print("[DEBUG] upload_packages: {}".format(packages)) try: import boto from boto.s3.key import Key except ImportError: print("!! Cannot upload packages without the 'boto' Python library.") return 1 print("Connecting to S3...".format(bucket_name)) c = boto.connect_s3() if bucket_name is None: bucket_name = DEFAULT_BUCKET bucket = c.get_bucket(bucket_name.split('/')[0]) print("Using bucket: {}".format(bucket_name)) for p in packages: if '/' in bucket_name: # Allow for nested paths within the bucket name (ex: # bucket/folder). Assuming forward-slashes as path # delimiter. name = os.path.join('/'.join(bucket_name.split('/')[1:]), os.path.basename(p)) else: name = os.path.basename(p) if bucket.get_key(name) is None or nightly: print("Uploading {}...".format(name)) sys.stdout.flush() k = Key(bucket) k.key = name if nightly: n = k.set_contents_from_filename(p, replace=True) else: n = k.set_contents_from_filename(p, replace=False) k.make_public() else: print("!! Not uploading package {}, as it already exists.".format(p)) print("") return 0 def run_tests(race, parallel, timeout, no_vet): print("Downloading vet tool...") sys.stdout.flush() run("go get golang.org/x/tools/cmd/vet") print("Running tests:") print("\tRace: {}".format(race)) if parallel is not None: print("\tParallel: {}".format(parallel)) if timeout is not None: print("\tTimeout: {}".format(timeout)) sys.stdout.flush() p = subprocess.Popen(["go", "fmt", "./..."], stdout=subprocess.PIPE, stderr=subprocess.PIPE) out, err = p.communicate() if len(out) > 0 or len(err) > 0: print("Code not formatted. Please use 'go fmt ./...' to fix formatting errors.") print(out) print(err) return False if not no_vet: p = subprocess.Popen(go_vet_command, stdout=subprocess.PIPE, stderr=subprocess.PIPE) out, err = p.communicate() if len(out) > 0 or len(err) > 0: print("Go vet failed. Please run 'go vet ./...' and fix any errors.") print(out) print(err) return False else: print("Skipping go vet ...") sys.stdout.flush() test_command = "go test -v" if race: test_command += " -race" if parallel is not None: test_command += " -parallel {}".format(parallel) if timeout is not None: test_command += " -timeout {}".format(timeout) test_command += " ./..." code = os.system(test_command) if code != 0: print("Tests Failed") return False else: print("Tests Passed") return True def build(version=None, branch=None, commit=None, platform=None, arch=None, nightly=False, rc=None, race=False, clean=False, outdir="."): print("\n-------------------------\n") print("Build Plan:") print("- version: {}".format(version)) if rc: print("- release candidate: {}".format(rc)) print("- commit: {}".format(get_current_commit(short=True))) print("- branch: {}".format(get_current_branch())) print("- platform: {}".format(platform)) print("- arch: {}".format(arch)) print("- nightly? {}".format(str(nightly).lower())) print("- race enabled? {}".format(str(race).lower())) print("") if not os.path.exists(outdir): os.makedirs(outdir) elif clean and outdir != '/': print("Cleaning build directory...") shutil.rmtree(outdir) os.makedirs(outdir) if rc: # If a release candidate, update the version information accordingly version = "{}rc{}".format(version, rc) print("Starting build...") tmp_build_dir = create_temp_dir() for b, c in targets.items(): print("Building '{}'...".format(os.path.join(outdir, b))) build_command = "" if "arm" in arch: build_command += "GOOS={} GOARCH={} ".format(platform, "arm") else: if arch == 'i386': arch = '386' elif arch == 'x86_64': arch = 'amd64' build_command += "GOOS={} GOARCH={} ".format(platform, arch) if "arm" in arch: if arch == "armel": build_command += "GOARM=5 " elif arch == "armhf" or arch == "arm": build_command += "GOARM=6 " elif arch == "arm64": build_command += "GOARM=7 " else: print("!! Invalid ARM architecture specifed: {}".format(arch)) print("Please specify either 'armel', 'armhf', or 'arm64'") return 1 if platform == 'windows': build_command += "go build -o {} ".format(os.path.join(outdir, b + '.exe')) else: build_command += "go build -o {} ".format(os.path.join(outdir, b)) if race: build_command += "-race " go_version = get_go_version() if "1.4" in go_version: build_command += "-ldflags=\"-X main.Version {} -X main.Branch {} -X main.Commit {}\" ".format(version, get_current_branch(), get_current_commit()) else: # With Go 1.5, the linker flag arguments changed to 'name=value' from 'name value' build_command += "-ldflags=\"-X main.Version={} -X main.Branch={} -X main.Commit={}\" ".format(version, get_current_branch(), get_current_commit()) build_command += c run(build_command, shell=True) return 0 def create_dir(path): try: os.makedirs(path) except OSError as e: print(e) def rename_file(fr, to): try: os.rename(fr, to) except OSError as e: print(e) # Return the original filename return fr else: # Return the new filename return to def copy_file(fr, to): try: shutil.copy(fr, to) except OSError as e: print(e) def generate_md5_from_file(path): m = hashlib.md5() with open(path, 'rb') as f: for chunk in iter(lambda: f.read(4096), b""): m.update(chunk) return m.hexdigest() def generate_md5_from_file(path): m = hashlib.md5() with open(path, 'rb') as f: while True: data = f.read(4096) if not data: break m.update(data) return m.hexdigest() def build_packages(build_output, version, nightly=False, rc=None, iteration=1): outfiles = [] tmp_build_dir = create_temp_dir() if debug: print("[DEBUG] build_output = {}".format(build_output)) try: print("-------------------------\n") print("Packaging...") for platform in build_output: # Create top-level folder displaying which platform (linux, etc) create_dir(os.path.join(tmp_build_dir, platform)) for arch in build_output[platform]: # Create second-level directory displaying the architecture (amd64, etc) current_location = build_output[platform][arch] # Create directory tree to mimic file system of package build_root = os.path.join(tmp_build_dir, platform, arch, '{}-{}-{}'.format(PACKAGE_NAME, version, iteration)) create_dir(build_root) create_package_fs(build_root) # Copy packaging scripts to build directory package_scripts(build_root) for binary in targets: # Copy newly-built binaries to packaging directory if platform == 'windows': binary = binary + '.exe' # Where the binary currently is located fr = os.path.join(current_location, binary) # Where the binary should go in the package filesystem to = os.path.join(build_root, INSTALL_ROOT_DIR[1:], binary) if debug: print("[{}][{}] - Moving from '{}' to '{}'".format(platform, arch, fr, to)) copy_file(fr, to) for package_type in supported_packages[platform]: # Package the directory structure for each package type for the platform print("Packaging directory '{}' as '{}'...".format(build_root, package_type)) name = PACKAGE_NAME # Reset version, iteration, and current location on each run # since they may be modified below. package_version = version package_iteration = iteration package_build_root = build_root current_location = build_output[platform][arch] if rc is not None: # Set iteration to 0 since it's a release candidate package_iteration = "0.rc{}".format(rc) if package_type in ['zip', 'tar']: # For tars and zips, start the packaging one folder above # the build root (to include the package name) package_build_root = os.path.join('/', '/'.join(build_root.split('/')[:-1])) if nightly: name = '{}-nightly_{}_{}'.format(name, platform, arch) else: name = '{}-{}-{}_{}_{}'.format(name, package_version, package_iteration, platform, arch) current_location = os.path.join(os.getcwd(), current_location) if package_type == 'tar': tar_command = "cd {} && tar -cvzf {}.tar.gz ./*".format(build_root, name) run(tar_command, shell=True) run("mv {}.tar.gz {}".format(os.path.join(build_root, name), current_location), shell=True) outfile = os.path.join(current_location, name + ".tar.gz") outfiles.append(outfile) print("MD5({}) = {}".format(outfile, generate_md5_from_file(outfile))) elif package_type == 'zip': zip_command = "cd {} && zip -r {}.zip ./*".format(build_root, name) run(zip_command, shell=True) run("mv {}.zip {}".format(os.path.join(build_root, name), current_location), shell=True) outfile = os.path.join(current_location, name + ".zip") outfiles.append(outfile) print("MD5({}) = {}".format(outfile, generate_md5_from_file(outfile))) else: fpm_command = "fpm {} --name {} -a {} -t {} --version {} --iteration {} -C {} -p {} ".format(fpm_common_args, name, arch, package_type, package_version, package_iteration, package_build_root, current_location) if debug: fpm_command += "--verbose " if package_type == "rpm": fpm_command += "--depends coreutils " fpm_command += "--depends lsof " out = run(fpm_command, shell=True) matches = re.search(':path=>"(.*)"', out) outfile = None if matches is not None: outfile = matches.groups()[0] if outfile is None: print("!! Could not determine output from packaging command.") else: # Strip nightly version (the unix epoch) from filename if nightly: outfile = rename_file(outfile, outfile.replace("{}-{}".format(version, iteration), "nightly")) outfiles.append(os.path.join(os.getcwd(), outfile)) # Display MD5 hash for generated package print("MD5({}) = {}".format(outfile, generate_md5_from_file(outfile))) print("") if debug: print("[DEBUG] package outfiles: {}".format(outfiles)) return outfiles finally: # Cleanup shutil.rmtree(tmp_build_dir) def print_usage(): print("Usage: ./build.py [options]") print("") print("Options:") print("\t --outdir= \n\t\t- Send build output to a specified path. Defaults to ./build.") print("\t --arch= \n\t\t- Build for specified architecture. Acceptable values: x86_64|amd64, 386|i386, arm, or all") print("\t --platform= \n\t\t- Build for specified platform. Acceptable values: linux, windows, darwin, or all") print("\t --version= \n\t\t- Version information to apply to build metadata. If not specified, will be pulled from repo tag.") print("\t --commit= \n\t\t- Use specific commit for build (currently a NOOP).") print("\t --branch= \n\t\t- Build from a specific branch (currently a NOOP).") print("\t --rc= \n\t\t- Whether or not the build is a release candidate (affects version information).") print("\t --iteration= \n\t\t- The iteration to display on the package output (defaults to 0 for RC's, and 1 otherwise).") print("\t --race \n\t\t- Whether the produced build should have race detection enabled.") print("\t --package \n\t\t- Whether the produced builds should be packaged for the target platform(s).") print("\t --nightly \n\t\t- Whether the produced build is a nightly (affects version information).") print("\t --update \n\t\t- Whether dependencies should be updated prior to building.") print("\t --test \n\t\t- Run Go tests. Will not produce a build.") print("\t --parallel \n\t\t- Run Go tests in parallel up to the count specified.") print("\t --generate \n\t\t- Run `go generate`.") print("\t --timeout \n\t\t- Timeout for Go tests. Defaults to 480s.") print("\t --clean \n\t\t- Clean the build output directory prior to creating build.") print("\t --no-get \n\t\t- Do not run `go get` before building.") print("\t --bucket=\n\t\t- Full path of the bucket to upload packages to (must also specify --upload).") print("\t --debug \n\t\t- Displays debug output.") print("") def print_package_summary(packages): print(packages) def main(): global debug # Command-line arguments outdir = "build" commit = None target_platform = None target_arch = None nightly = False race = False branch = None version = get_current_version() rc = get_current_rc() package = False update = False clean = False upload = False test = False parallel = None timeout = None iteration = 1 no_vet = False run_get = True upload_bucket = None generate = False no_stash = False for arg in sys.argv[1:]: if '--outdir' in arg: # Output directory. If none is specified, then builds will be placed in the same directory. outdir = arg.split("=")[1] if '--commit' in arg: # Commit to build from. If none is specified, then it will build from the most recent commit. commit = arg.split("=")[1] if '--branch' in arg: # Branch to build from. If none is specified, then it will build from the current branch. branch = arg.split("=")[1] elif '--arch' in arg: # Target architecture. If none is specified, then it will build for the current arch. target_arch = arg.split("=")[1] elif '--platform' in arg: # Target platform. If none is specified, then it will build for the current platform. target_platform = arg.split("=")[1] elif '--version' in arg: # Version to assign to this build (0.9.5, etc) version = arg.split("=")[1] elif '--rc' in arg: # Signifies that this is a release candidate build. rc = arg.split("=")[1] elif '--race' in arg: # Signifies that race detection should be enabled. race = True elif '--package' in arg: # Signifies that packages should be built. package = True # If packaging do not allow stashing of local changes no_stash = True elif '--nightly' in arg: # Signifies that this is a nightly build. nightly = True elif '--update' in arg: # Signifies that dependencies should be updated. update = True elif '--upload' in arg: # Signifies that the resulting packages should be uploaded to S3 upload = True elif '--test' in arg: # Run tests and exit test = True elif '--parallel' in arg: # Set parallel for tests. parallel = int(arg.split("=")[1]) elif '--timeout' in arg: # Set timeout for tests. timeout = arg.split("=")[1] elif '--clean' in arg: # Signifies that the outdir should be deleted before building clean = True elif '--iteration' in arg: iteration = arg.split("=")[1] elif '--no-vet' in arg: no_vet = True elif '--no-get' in arg: run_get = False elif '--bucket' in arg: # The bucket to upload the packages to, relies on boto upload_bucket = arg.split("=")[1] elif '--no-stash' in arg: # Do not stash uncommited changes # Fail if uncommited changes exist no_stash = True elif '--generate' in arg: generate = True elif '--debug' in arg: print("[DEBUG] Using debug output") debug = True elif '--help' in arg: print_usage() return 0 else: print("!! Unknown argument: {}".format(arg)) print_usage() return 1 if nightly and rc: print("!! Cannot be both nightly and a release candidate! Stopping.") return 1 if nightly: # In order to cleanly delineate nightly version, we are adding the epoch timestamp # to the version so that version numbers are always greater than the previous nightly. version = "{}~n{}".format(version, int(time.time())) iteration = 0 elif rc: iteration = 0 # Pre-build checks check_environ() if not check_prereqs(): return 1 if not commit: commit = get_current_commit(short=True) if not branch: branch = get_current_branch() if not target_arch: system_arch = get_system_arch() if 'arm' in system_arch: # Prevent uname from reporting ARM arch (eg 'armv7l') target_arch = "arm" else: target_arch = system_arch if target_arch == '386': target_arch = 'i386' elif target_arch == 'x86_64': target_arch = 'amd64' if target_platform: if target_platform not in supported_builds and target_platform != 'all': print("! Invalid build platform: {}".format(target_platform)) return 1 else: target_platform = get_system_platform() build_output = {} if generate: if not run_generate(): return 1 if run_get: if not go_get(branch, update=update, no_stash=no_stash): return 1 if test: if not run_tests(race, parallel, timeout, no_vet): return 1 return 0 platforms = [] single_build = True if target_platform == 'all': platforms = supported_builds.keys() single_build = False else: platforms = [target_platform] for platform in platforms: build_output.update( { platform : {} } ) archs = [] if target_arch == "all": single_build = False archs = supported_builds.get(platform) else: archs = [target_arch] for arch in archs: od = outdir if not single_build: od = os.path.join(outdir, platform, arch) if build(version=version, branch=branch, commit=commit, platform=platform, arch=arch, nightly=nightly, rc=rc, race=race, clean=clean, outdir=od): return 1 build_output.get(platform).update( { arch : od } ) # Build packages if package: if not check_path_for("fpm"): print("!! Cannot package without command 'fpm'.") return 1 packages = build_packages(build_output, version, nightly=nightly, rc=rc, iteration=iteration) if upload: upload_packages(packages, bucket_name=upload_bucket, nightly=nightly) print("Done!") return 0 if __name__ == '__main__': sys.exit(main())