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"""mpsd-software: tool for installation of software as on MPSD HPC."""
import argparse
import datetime
import logging
from typing import List, Tuple, Union
# If 'rich' is available ("pip install rich" or "apt-get install python3-rich"),
# then use coloured output, otherwise proceed as before
try:
import rich.logging
except ModuleNotFoundError:
rich_available = False
else:
rich_available = True
This tool builds software package sets (including toolchains for Octopus).
It follows recipes as used on the MPSD HPC system and the (spack-based)
Octopus buildbot. Compiled software is organised into MPSD software release
versions (such as `dev-23a`) and CPU microarchitecture (such as `sandybridge`).
Compiled packages and toolchains can be activated and used via `module load` as
on the HPC system.
Further documentation is available in the README.rst file, online at
https://gitlab.gwdg.de/mpsd-cs/mpsd-software-manager/-/blob/main/README.rst
Command line usage:
$> {sys.argv[0]}
"""
about_epilog = f"""
Examples:
1. Query what package sets and toolchains are available for installation in
release dev-23a
2. Install foss2022a-serial toolchain from the dev-23a release
$> {sys.argv[0]} install dev-23a foss2022a-serial
3. Check what package sets and toolchains are installed from release dev-23a
$> {sys.argv[0]} status dev-23a
The `status` command also displays the `module use` command needed to load
the created modules.
call_date_iso = (
datetime.datetime.now().replace(microsecond=0).isoformat().replace(":", "-")
)
"cmd_log_file": "mpsd-software.log",
"metadata_tag_open": "!<meta>",
"metadata_tag_close": "</meta>!",
"spack_environments_repo": "https://gitlab.gwdg.de/mpsd-cs/spack-environments.git",
}
def create_log_file_names(
mpsd_release: str,
action: str,
date: str = call_date_iso,
package_set: str = None,
) -> Union[str, None]:
This function creates the log file names for either the installer or
If a package_set is given, then the build log file name is created.
if no package_set is given, then the installer log file name is created.
The installer log file hosts the logs of the installer script, while
the build log file hosts the logs of the build process as generated by the
spack_setup.sh script.
Parameters
----------
mpsd_release : str
MPSD software stack version
system architecture
date : str
date of the call ins iso format
action : str
action performed (install,remove,reinstall,prepare,status)
only install and remove are valid for build log file.
package_set : str
package_set name (only for build log file)
log file name
installer_log_file_name or build_log_file_name depending on the
parameters given.
If the action is not one that changes the files on disk ( info only actions)
then None is returned.
if package_set:
# if package_set is given, then we build the build_log_file_name
if action in ["install", "remove"]:
f"{mpsd_release}_{microarch}_{date}_BUILD_{package_set}_{action}.log"
# if package_set is not given, then we build the installer_log_file_name
log_file_name = f"{mpsd_release}_{microarch}_{date}_APEX_{action}.log"
return log_file_name
def log_metadata(key: str, value: str) -> None:
"""Log metadata to the log file.
This function logs metadata to the log file. The metadata is
enclosed in a tag, so that it can be easily found in the log file.
logging module is used to write the metadata to the log file.
Parameters
----------
key : str
key of the metadata
value : str
value of the metadata
returns : None
"""
logging.info(
f"{config_vars['metadata_tag_open']}{key}:{value}{config_vars['metadata_tag_close']}"
)
def read_metadata_from_logfile(logfile: Union[str, Path]) -> dict:
"""Read metadata from the log file.
This function reads metadata from the log file. The metadata is
enclosed in a tag, so that it can be easily found in the log file.
Parameters
----------
logfile : str or Path
log file name
returns : dict
dictionary containing the metadata
"""
with open(logfile, "r") as f:
log_text = f.read()
# check for all data that matches the regex
# metadata_tag_open {key}:{value} metadata_tag_close
# and return a dictionary with all the matches
return {
match.group(1): match.group(2)
for match in re.finditer(
f"{config_vars['metadata_tag_open']}(\w+):(\w+){config_vars['metadata_tag_close']}",
log_text,
)
}
def get_installer_log_file_path(mpsd_release: str, cmd: str, root_dir: str) -> str:

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# Get machine configs
os.environ.get("MPSD_OS", "UNKNOWN_OS")
microarch = get_native_microarchitecture()

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# parse logging first
# decide the log_file_name
installer_log_name = create_log_file_names(
mpsd_release=mpsd_release, microarch=microarch, action=cmd

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)
log_folder = root_dir / mpsd_release / "logs"

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# if the log_folder dosent exist, dont log this message if
# the command is a info-only command
if cmd not in ["status", "available"]:

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if not os.path.exists(log_folder):
os.makedirs(log_folder)
installer_log_file = log_folder / installer_log_name
else:
installer_log_file = None
return installer_log_file
def set_up_logging(loglevel="warning", file_path=None):
"""Set up logging.
This function sets up the logging configuration for the script.
Parameters
----------
loglevel : str or int
Loglevels are:
- warning (default): only print statements if something is unexpected
- info (show more detailed progress)
- debug (show very detailed output)
- filename to save logging messages into
If loglevel is 'debug', save line numbers in log messages.
Returns
-------
None.
Logger instances are generally not passed around, but retrieved from the
logging module as shown below (they are singletons).
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We provide two loggers:
1. log = logging.getLogger('')
This is the 'root' logger. It uses a RichHandler if rich is available for
output to the shell, otherwise plain text.
Typical use:
log.debug("...")
log.info("...")
log.warn("...")
Equivalent to
logging.debug("...")
logging.info("...")
2. print_log = logging.getlogger('print')
This uses the logging module to issue the message, but prints without
any further markup (i.e. no date, loglevel, line number, etc). Think
PRINT via the LOGging module.
We use this as a replacement for the print function (i.e. for messages
that should not be affected by logging levels, and which should always
be printed).
Typical and intended use:
print_log.info("Available package_sets are ...")
The major difference from the normal print command is that the output
will be send to the stdout (as for print) AND the file with name
filename, so that these messages appear in the log file together with
normal log output.
# convert loglevel string into loglevel as number
log_level_numeric = getattr(logging, loglevel.upper(), logging.WARNING)
if not isinstance(log_level_numeric, int):
# set up the main logger ("root" logger)
logger = logging.getLogger("")
# - "logger" logs everything
# - we use loglevel at handler level to write everything to file
# - and filter using log_level_numeric (as the user provides) to
# send logging messages to the console
logger.setLevel(0)
# the handler determines where the logs go: stdout/file
if rich_available:
# https://rich.readthedocs.io/en/stable/logging.html
shell_handler = rich.logging.RichHandler()
# rich handler provides metadata automatically:
logging_format = "%(message)s"
# for shell output, only show time (not date and time)
shell_formatter = logging.Formatter(logging_format, datefmt="[%X]")
else:
shell_handler = logging.StreamHandler()
# include line numbers in output if level is DEBUG
linenumbers = " %(lineno)4d" if log_level_numeric == logging.DEBUG else ""
logging_format = "%(asctime)s %(levelname)7s" + linenumbers + " | %(message)s"
shell_formatter = logging.Formatter(logging_format)
# here we hook everything together
shell_handler.setFormatter(shell_formatter)
# use the log_level_numeric to decide how much logging is sent to shell
shell_handler.setLevel(log_level_numeric)
# Here we set the handlers of the RootLogger to be just the one we want.
# The reason is that the logging module will add a <StreamHandler <stderr>
# (NOTSET)> handler if logging.info/logging.debug/... is used before we
# come across this line. And we do not want that additional handler.
logger.handlers = [shell_handler]
# if filename provided, write log messages to that file, too.
if file_path:
file_handler = logging.FileHandler(file_path)
# if we have a file, we write all information in there.
# We could change the level, for example restrict to only DEBUG and above with
# file_handler.setLevel(logging.DEBUG)
file_logging_format = "%(asctime)s %(levelname)7s %(lineno)4d | %(message)s"
file_formatter = logging.Formatter(file_logging_format, datefmt="[%X]")
file_handler.setFormatter(file_formatter)
logger.addHandler(file_handler)
#
# new logger for printing
#
print_log = logging.getLogger("print")
print_log.setLevel(logging.INFO)
print_log.propagate = False
# create formatter 'empty' formatter
formatter = logging.Formatter("%(message)s")
ch = logging.StreamHandler()
ch.setFormatter(formatter)
print_log.addHandler(ch)
# if filename provided, write output of print_log to that file, too
# create, format and add file handler
fh = logging.FileHandler(file_path)
fh.setFormatter(formatter)
print_log.addHandler(fh)
#
# short message
#
f"Logging has been setup, loglevel={loglevel.upper()} "
+ f"{file_path=} {rich_available=}"
def get_available_package_sets(mpsd_release: str) -> List[str]:
"""Given a release, return the available package_sets.
This is based on the spack-environment's repository [1]. For this function
to succeed, we need to have Internet access etc.
We use a temporary directory to clone the repository locally, which is
deleted upon successful completion of the function.
[1] https://gitlab.gwdg.de/mpsd-cs/spack-environments.git
['foss2021a-cuda-mpi',
'foss2021a-mpi',
'foss2021a-serial',
'foss2022a-cuda-mpi',
'foss2022a-mpi',
'foss2022a-serial',
'global',
'global_generic']
logging.debug(f"get_available_package_sets({mpsd_release=})")
logging.info(f"Retrieving available package_sets for release {mpsd_release}")
print_log = logging.getLogger("print")
# create temporary directory
tmp_dir = tempfile.TemporaryDirectory(prefix="mpsd-software-available-")
tmp_dir_path = Path(tmp_dir.name)
# find package_sets by cloning repository and checking out right branch
tmp_dir_path,
config_vars["spack_environments_repo"],
branch=f"releases/{mpsd_release}",
# look for directories defining the package_sets
package_sets = os.listdir(tmp_dir_path / "toolchains")
msg = f"Found package_sets {sorted(package_sets)}"
# the 'package_sets' split into toolchains (such as foss2022a-mpi) and sets
# of packages. Here we split them into the two categories for a more useful
# output:
toolchain_list = [
x.parents[0].name
for x in list((tmp_dir_path / "toolchains").glob("*/spack.yaml"))
]
x.parents[0].name for x in list((tmp_dir_path / "toolchains").glob("*/*.list"))
]
# summarise toolchains found for use, and show packages provided for each
# package_set:
print_log.info(
f"MPSD software release {mpsd_release}, AVAILABLE for installation are"
)
print_log.info("Toolchains: \n " + "\n ".join(sorted(toolchain_list)))
print_log.info("Package sets:")
# that have the regex pattern \w+@\w+
packages = [
line.split()[0].split("%")[0]
for line in open(
tmp_dir_path / "toolchains" / package_set / "global_packages.list"
).readlines()
if re.match(r"^\w+@\w+", line)
]
print_log.info(f" {package_set} ({', '.join(packages)}) ")
# remove temporary directory
tmp_dir.cleanup()
# Helper class to change directory via context manager
class os_chdir:
"""The os_chdir class is a context manager.
It changes the current directory to a specified directory
and returns to the original directory after execution.
"""
"""Initialize, save original directory."""
self.new_dir = new_dir
self.saved_dir = os.getcwd()
"""Go to target directory (main action for context)."""
def __exit__(self, exc_type, exc_val, exc_tb):
"""On exist we return to original directory."""
def run(*args, counter=[0], **kwargs):
"""
Convenience function to call `subprocess.run` and provide some metadata
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about the call.
Parameters
----------
args : tuple
passed on to subprocess.run(*args). For example
("ls -l") or (["ls", "-l"])
counter : TYPE, optional
list with one integer, starting from [0].
This is (a Python hack) to count the number of
calls of this function, so the different calls of subprocess.run
are easier to follow in the log files.
kwargs : dict
keyword-value arguments to be passed to subprocess.run. For example,
`shell=True`.
Returns
-------
process : subprocess.CompletedProcess
CompletedProcess object as returned by `subprocess.run` .
Examples
--------
>>> run(['date', '+%Y-%m-%d'])
##-03 Starting subprocess.run(['date', '+%Y-%m-%d']) with options
##-03 getcwd=/Users/fangohr/git/mpsd-software-environments
##-03 COMMAND=date +%Y-%m-%d
2023-05-30
##-03 Completed in 0.0054s.
##-03
CompletedProcess(args=['date', '+%Y-%m-%d'], returncode=0)
>>> run(['date +%Y-%m-%d'], shell=True)
##-04 Starting subprocess.run(['date +%Y-%m-%d']) with options shell=True
##-04 getcwd=/Users/fangohr/git/mpsd-software-environments
##-04 COMMAND=date +%Y-%m-%d
2023-05-30
##-04 Completed in 0.0069s.
##-04
CompletedProcess(args=['date +%Y-%m-%d'], returncode=0)
"""
# token is printed in front of every meta-data line - useful for
# searching the logs. Starts with "##-00", then "##-01", ...
token = f"##-{counter[0]:02d}"
counter[0] += 1 # increase counter
# make command nicely readable: ["ls", "-l"] -> "ls -l"
assert isinstance(args, tuple)
assert len(args) == 1
arg = args[0]
# either args is a tuple containing a string | Example: ('ls -1',)
if isinstance(arg, str):
command = arg
# or we have a tuple containing a list of strings.
# Example: (['ls', '-1'],)
elif isinstance(arg, list):
command = " ".join(arg)
else:
# we do not expect this to happen
raise NotImplementedError(f"{arg=}, {args=}")
# make options (such as `shell=True`) nicely readable
options = ", ".join([f"{key}={value}" for key, value in kwargs.items()])
# provide information about upcoming subprocess.run call
logging.debug(
f"{token} Starting subprocess.run('{command}') with options {options}"
)
logging.debug(f"""{token} getcwd={os.getcwd()}""")
logging.debug(f"""{token} subprocess.run("{arg}")""")
time_start = time.time()
process = subprocess.run(*args, **kwargs)
execution_time = time.time() - time_start
logging.debug(f"{token} Completed in {execution_time:.4f}s.")
logging.debug(f"{token}") # near-empty line to make reading logs easier
def record_script_execution_summary(
mpsd_release: str, root_dir: str, msg: str = None, **kwargs
"""Log the command used to build the package_set.
It also logs information about the spack-environments branch and commit hash,
as well as the version of the mpsd-software-manager user. It also logs
steps taken in the install process using the optional message argument.
Parameters
----------
- mpsd_release : str
The name of the release to install toolchains for.
The path to the directory where the scripts are located.
- msg : str, optional
An optional message to log in the command log file.
The name of the Spack environments branch.
- spe_commit_hash : str
The commit hash of the Spack environments branch.
Returns
-------
- None
# Write to the log file with the following format
# --------------------------------------------------
# 2023-06-20T15:30:37.965370, mpsd_software prepare dev-23a
# MPSD Software manager version: 2023.6.16
# Spack environments branch: dev-23a (commit hash: abcdefg)
with os_chdir(root_dir):
with open(config_vars["cmd_log_file"], "a") as f:
if msg:
# Write the message to the log file
f.write(msg + "\n")
else:
# Write the header
f.write("-" * 50 + "\n")
# Gather data to log
# call statement:
cmd_line = " ".join(sys.argv)
# spack-environments branch and commit hash from kwargs
spe_branch = kwargs.get("spe_branch", None)
spe_commit_hash = kwargs.get("spe_commit_hash", None)
# Write to log file
f.write(f"{datetime.datetime.now().isoformat()}, {cmd_line}\n")
f.write(f"MPSD Software manager version: {__version__}\n")
f"Spack environments branch: {spe_branch} "
f"(commit hash: {spe_commit_hash})\n"
def clone_repo(
target_path: Path, repo_url: str, branch=None, capture_output=True
) -> None:
"""Clone repo locally. Optionally checkout a branch.
target_path : Path
Where to check the repository out to
repo_url: str
where to clone the git repository from
branch: str (defaults to None)
if provided, checkout this branch after cloning
capture_output: bool (defaults to True)
capture output, i.e. do not send it to stdout.
if not target_path.exists():
target_path.mkdir()
["git", "clone", repo_url, str(target_path)],
capture_output=capture_output,
)
if branch:
with os_chdir(target_path):
# Git fetch and checkout the release branch and git pull
# to be sure that the resulting repo is up to date
run(["git", "fetch", "--all"], check=True, capture_output=capture_output)
checkout_result = run(
["git", "checkout", branch], capture_output=capture_output
)
if checkout_result.returncode != 0:
msg = f"Couldn't find {branch=}\n"
branches_result = run(
["git", "branch", "-a"], check=True, capture_output=True
branches_list = branches_result.stdout.decode().split("\n")
# strip off 'remotes/origin' (needs Python 3.9):
branches_list = [
b.strip().removeprefix("remotes/origin/") for b in branches_list
]
msg += f"Available branches are {branches_list}"
logging.error(msg)
raise Exception(msg, branches_result)
else:
run(["git", "pull"], check=True, capture_output=capture_output)
def get_release_info(mpsd_release: str, root_dir: Path) -> Tuple[str, str, List[str]]:
Get information about the specified release.
Get information about the specified release, such as the branch and commit hash
of the Spack environments repository and the available package_sets.
Parameters
----------
The name of the release to get information for.
The base directory where releases are stored.
Returns
-------
The name of the branch for the Spack environments repository.
The commit hash for the Spack environments repository.
available_package_sets : list
A list of strings representing the available package_sets for the release.
Raises
------
If the release directory does not exist.
# TODO - review this function: can we re-use get_available_package_sets?
# Get the info for release
release_base_dir = root_dir / mpsd_release
if not os.path.exists(release_base_dir):
logging.debug(f"get_release_info({mpsd_release=}, {root_dir=})")
raise FileNotFoundError(
with os_chdir(release_base_dir):
with os_chdir("spack-environments"):
# Get the branch and commit hash of the spack-environments repo
spe_commit_hash = (
run(["git", "rev-parse", "HEAD"], stdout=subprocess.PIPE, check=True)
spe_branch = (
["git", "rev-parse", "--abbrev-ref", "HEAD"],
stdout=subprocess.PIPE,
check=True,
available_package_sets = os.listdir("toolchains")
return spe_branch, spe_commit_hash, available_package_sets
def prepare_environment(mpsd_release: str, root_dir: Path) -> List[str]:
Create the directory structure for the given MPSD release.
It does the following steps:
Clones the spack-environments repository.
Determines the branch and commit hash of the spack-environments repository
Parameters
----------
mpsd_release : str
The name of the MPSD release to prepare the environment for.
The base directory to create the release folder and
clone the spack-environments repository into.
available_package_sets : list
A list of available package_sets for the given MPSD release.
Example
-------
>>> prepare_environment('dev-23a', Path('.'))
['foss2021a-cuda-mpi',
'foss2021a-mpi',
'foss2021a-serial',
'foss2022a-cuda-mpi',
'foss2022a-mpi',
'foss2022a-serial',
'global',
'global_generic']
# TODO review: - does this function need to return anything? If yes:
# TODO review: - can we re-use get_available_package sets?
# Creates the directory structure for the specified release and clone the
# Spack environments repository if it doesn't exist:
# Create the directory structure for the release
release_base_dir = root_dir / mpsd_release
release_base_dir.mkdir(parents=True, exist_ok=True)
repo_path = release_base_dir / "spack-environments"
if repo_path.exists():
logging.debug(f"directory {repo_path} exists already, will update")
with os_chdir(repo_path):
run(["git", "pull", "-v"], capture_output=True)
else:
repo_url = config_vars["spack_environments_repo"]
logging.info(f"cloning repository {repo_path} from {repo_url}")
clone_repo(repo_path, repo_url, branch=f"releases/{mpsd_release}")
logging.getLogger("print").info(
f"Release {mpsd_release} is prepared in {release_base_dir}"
)
spe_branch, spe_commit_hash, available_package_sets = get_release_info(
record_script_execution_summary(
mpsd_release, root_dir, spe_branch=spe_branch, spe_commit_hash=spe_commit_hash
def get_native_microarchitecture():
"""Return native microarchitecture.
On MPSD machines, there should be an environment variable "microarch".
We try to read that. If it fails, we use the 'archspec cpu' command.
If that fails, we ask the user to install it.
Returns
-------
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Example
-------
>>> get_native_microarchitecture()
'haswell'
"""
# attempt to get MICRO_ARCH from environment variable (should work on
# MPSD_HPC and MPSD linux laptops). If not defined, return
# "UNKNOWN_MICROARCH"
microarch = os.environ.get("MPSD_MICROARCH", "UNKNOWN_MICROARCH")
# if we have not found the microarchitecture environment variable,
# try calling archspec
if microarch == "UNKNOWN_MICROARCH":
logging.debug(
"Couldn't find MPSD_MICROARCH environment variable. Will try archspec."
)
try:
process = run(["archspec", "cpu"], stdout=subprocess.PIPE, text=True)
except FileNotFoundError as e:
logging.debug(f"Call of 'archspec cpu' failed: {e=}")
# Presumably 'archspec' is not installed.
msg = "Please install archspec, for example via 'pipx install archspec'.\n"
msg += "The command we need to execute is 'archspec cpu'.\n"
msg += "Documentation of package: https://archspec.readthedocs.io/"
logging.error(msg)
sys.exit(1)
else: # we have found archspec and executed it
if process.returncode == 0: # sanity check
microarch = process.stdout.strip()
logging.debug(
f"Found microarchitecture from 'archspec cpu' to be '{microarch}'"
)
assert len(microarch) > 0 # sanity check
else:
raise ValueError(
f"Some error occurred when calling 'archspec cpu': {process=}"
)
# at this point, we have determined the microarchitecture
log_metadata("microarchitecture", microarch)
return microarch
def install_environment(
mpsd_release: str,
enable_build_cache: bool = False,
) -> None:
Install the specified MPSD release and package_sets.
The function installs the package_set to the specified directory, using Spack.
Parameters
----------
mpsd_release : str
A string representing the MPSD release version.
package_sets : list of str
A list of strings representing the package_sets to install
(e.g., "foss2021a-mpi", "global_generic", "ALL").
A Path object representing the path to the directory where
the release and package_sets will be installed.
enable_build_cache : bool, optional
A boolean indicating whether to build the build cache
when installing package_sets. Defaults to False.
Raises
------
ValueError
If a requested package_set is not available in the specified release.
Returns
-------
None
logging.info(
f"Installing release {mpsd_release} with package_sets {package_sets} "
release_base_dir = root_dir / mpsd_release
microarch = get_native_microarchitecture()
package_set_dir = release_base_dir / microarch
package_set_dir.mkdir(parents=True, exist_ok=True)
spack_setup_script = release_base_dir / "spack-environments" / "spack_setup.sh"
install_flags = []
install_flags.append("-b")
# run the prepare_environment function
available_package_sets = prepare_environment(mpsd_release, root_dir)
# Ensure that the requested package_sets are available in the release
if package_sets == "ALL":
package_sets = available_package_sets
elif package_sets == "NONE":
# No package_sets requested, so we only create the env and print the
# list of available package_sets
logging.warning(
"No package_sets requested. Available package_sets for release "
f"{mpsd_release} are: \n {available_package_sets}"
print_log.info(f"{available_package_sets=}")
return
for package_set in package_sets:
if package_set not in available_package_sets:
msg = f"Package_Set '{package_set}' is not available"
msg += f" in release {mpsd_release}. "
msg += "Use 'available' command to see list of available package_sets."
logging.error(msg)
sys.exit(1)
# Install the package_sets
with os_chdir(package_set_dir):
# run spack_setup_script with the package_sets as arguments
for package_set in package_sets:
# Set the install log file name from create_log_file_names
build_log_file_name = create_log_file_names(
mpsd_release, microarch, "install", package_set=package_set
build_log_folder = release_base_dir / "logs"
build_log_path = build_log_folder / build_log_file_name
# if logs folder dosent exist, create it
if not os.path.exists(build_log_folder):
os.makedirs(build_log_folder)
logging.info(f"Installing package_set {package_set} to {package_set_dir}")
record_script_execution_summary(
msg=f"installing {package_set} and logging at {build_log_path}",
record_script_execution_summary(
f"bash {spack_setup_script} "
f"{' '.join(install_flags)} {package_set} 2>&1 "
f"| tee -a {build_log_path} ",
def remove_environment(mpsd_release, root_dir, package_sets="NONE", force_remove=False):
f"Removing release {mpsd_release}"
f" with package_sets {package_sets} from {root_dir}"
"Please specify package_sets to remove, or 'ALL' to remove all toolchains"
# we need to remove the entire release folder
f"Removing release {mpsd_release} from {root_dir}"
"do you want to continue? [y/n]"
)
if force_remove or input().lower() == "y":
folders_to_remove = os.listdir(root_dir / mpsd_release)
# skip logs folder
if "logs" in folders_to_remove:
folders_to_remove.remove("logs")
for folder in folders_to_remove:
shutil.rmtree(root_dir / mpsd_release / folder)
sys.exit(0)
for package_set in package_sets:
# we load the spack environment and remove the package_set
commands_to_execute = [
f"source {spack_env}",
f"spack env remove -y {package_set}",
]
run(" && ".join(commands_to_execute), shell=True, check=True)
def start_new_environment(release, from_release, target_dir):
"""Start new MPSD software environment version."""
msg = f"Starting new release {release} from {from_release} to {target_dir}"