zulip/scripts/lib/setup_venv.py

348 lines
13 KiB
Python

import logging
import os
import shutil
import subprocess
from typing import List, Optional, Set, Tuple
from scripts.lib.hash_reqs import expand_reqs, python_version
from scripts.lib.zulip_tools import ENDC, WARNING, os_families, run, run_as_root
ZULIP_PATH = os.path.dirname(os.path.dirname(os.path.dirname(os.path.abspath(__file__))))
VENV_CACHE_PATH = "/srv/zulip-venv-cache"
VENV_DEPENDENCIES = [
"build-essential",
"libffi-dev",
"libfreetype6-dev", # Needed for image types with Pillow
"zlib1g-dev", # Needed to handle compressed PNGs with Pillow
"libjpeg-dev", # Needed to handle JPEGs with Pillow
"libldap2-dev",
"python3-dev", # Needed to install typed-ast dependency of mypy
"python3-pip",
"virtualenv",
"libxml2-dev", # Used for installing talon-core and python-xmlsec
"libxslt1-dev", # Used for installing talon-core
"libpq-dev", # Needed by psycopg2
"libssl-dev", # Needed to build pycurl and other libraries
"libmagic1", # Used for install python-magic
"libyaml-dev", # For fast YAML parsing in PyYAML
# Needed by python-xmlsec:
"libxmlsec1-dev",
"pkg-config",
# This is technically a node dependency, but we add it here
# because we don't have another place that we install apt packages
# on upgrade of a production server, and it's not worth adding
# another call to `apt install` for.
"jq", # Used by scripts/lib/install-node to check yarn version
"libsasl2-dev", # For building python-ldap from source
]
COMMON_YUM_VENV_DEPENDENCIES = [
"libffi-devel",
"freetype-devel",
"zlib-devel",
"libjpeg-turbo-devel",
"openldap-devel",
"libyaml-devel",
# Needed by python-xmlsec:
"gcc",
"python3-devel",
"libxml2-devel",
"xmlsec1-devel",
"xmlsec1-openssl-devel",
"libtool-ltdl-devel",
"libxslt-devel",
"postgresql-libs", # libpq-dev on apt
"openssl-devel",
"jq",
]
REDHAT_VENV_DEPENDENCIES = [
*COMMON_YUM_VENV_DEPENDENCIES,
"python36-devel",
"python-virtualenv",
]
FEDORA_VENV_DEPENDENCIES = [
*COMMON_YUM_VENV_DEPENDENCIES,
"python3-pip",
"virtualenv", # see https://unix.stackexchange.com/questions/27877/install-virtualenv-on-fedora-16
]
def get_venv_dependencies(vendor: str, os_version: str) -> List[str]:
if "debian" in os_families():
return VENV_DEPENDENCIES
elif "rhel" in os_families():
return REDHAT_VENV_DEPENDENCIES
elif "fedora" in os_families():
return FEDORA_VENV_DEPENDENCIES
else:
raise AssertionError("Invalid vendor")
def install_venv_deps(pip: str, requirements_file: str) -> None:
pip_requirements = os.path.join(ZULIP_PATH, "requirements", "pip.txt")
run([pip, "install", "--force-reinstall", "--require-hashes", "-r", pip_requirements])
run([pip, "install", "--no-deps", "--require-hashes", "-r", requirements_file])
def get_index_filename(venv_path: str) -> str:
return os.path.join(venv_path, "package_index")
def get_package_names(requirements_file: str) -> List[str]:
packages = expand_reqs(requirements_file)
cleaned = []
operators = ["~=", "==", "!=", "<", ">"]
for package in packages:
if package.startswith("git+https://") and "#egg=" in package:
split_package = package.split("#egg=")
if len(split_package) != 2:
raise Exception("Unexpected duplicate #egg in package {}".format(package))
# Extract the package name from Git requirements entries
package = split_package[1]
for operator in operators:
if operator in package:
package = package.split(operator)[0]
package = package.strip()
if package:
cleaned.append(package.lower())
return sorted(cleaned)
def create_requirements_index_file(venv_path: str, requirements_file: str) -> str:
"""
Creates a file, called package_index, in the virtual environment
directory that contains all the PIP packages installed in the
virtual environment. This file is used to determine the packages
that can be copied to a new virtual environment.
"""
index_filename = get_index_filename(venv_path)
packages = get_package_names(requirements_file)
with open(index_filename, "w") as writer:
writer.write("\n".join(packages))
writer.write("\n")
return index_filename
def get_venv_packages(venv_path: str) -> Set[str]:
"""
Returns the packages installed in the virtual environment using the
package index file.
"""
with open(get_index_filename(venv_path)) as reader:
return {p.strip() for p in reader.read().split("\n") if p.strip()}
def try_to_copy_venv(venv_path: str, new_packages: Set[str]) -> bool:
"""
Tries to copy packages from an old virtual environment in the cache
to the new virtual environment. The algorithm works as follows:
1. Find a virtual environment, v, from the cache that has the
highest overlap with the new requirements such that:
a. The new requirements only add to the packages of v.
b. The new requirements only upgrade packages of v.
2. Copy the contents of v to the new virtual environment using
virtualenv-clone.
3. Delete all .pyc files in the new virtual environment.
"""
if not os.path.exists(VENV_CACHE_PATH):
return False
desired_python_version = python_version()
venv_name = os.path.basename(venv_path)
overlaps = [] # type: List[Tuple[int, str, Set[str]]]
old_packages = set() # type: Set[str]
for sha1sum in os.listdir(VENV_CACHE_PATH):
curr_venv_path = os.path.join(VENV_CACHE_PATH, sha1sum, venv_name)
if curr_venv_path == venv_path or not os.path.exists(get_index_filename(curr_venv_path)):
continue
# Check the Python version in the venv matches the version we want to use.
venv_python3 = os.path.join(curr_venv_path, "bin", "python3")
if not os.path.exists(venv_python3):
continue
venv_python_version = subprocess.check_output(
[venv_python3, "-VV"], universal_newlines=True
)
if desired_python_version != venv_python_version:
continue
old_packages = get_venv_packages(curr_venv_path)
# We only consider using using old virtualenvs that only
# contain packages that we want in our new virtualenv.
if not (old_packages - new_packages):
overlap = new_packages & old_packages
overlaps.append((len(overlap), curr_venv_path, overlap))
target_log = get_logfile_name(venv_path)
source_venv_path = None
if overlaps:
# Here, we select the old virtualenv with the largest overlap
overlaps = sorted(overlaps)
_, source_venv_path, copied_packages = overlaps[-1]
print("Copying packages from {}".format(source_venv_path))
clone_ve = "{}/bin/virtualenv-clone".format(source_venv_path)
cmd = [clone_ve, source_venv_path, venv_path]
try:
# TODO: We can probably remove this in a few months, now
# that we can expect that virtualenv-clone is present in
# all of our recent virtualenvs.
run_as_root(cmd)
except subprocess.CalledProcessError:
# Virtualenv-clone is either not installed or threw an
# error. Just return False: making a new venv is safe.
logging.warning("Error cloning virtualenv %s", source_venv_path)
return False
# virtualenv-clone, unfortunately, copies the success stamp,
# which means if the upcoming `pip install` phase were to
# fail, we'd end up with a broken half-provisioned virtualenv
# that's incorrectly tagged as properly provisioned. The
# right fix is to use
# https://github.com/edwardgeorge/virtualenv-clone/pull/38,
# but this rm is almost as good.
success_stamp_path = os.path.join(venv_path, "success-stamp")
run_as_root(["rm", "-f", success_stamp_path])
run_as_root(["chown", "-R", "{}:{}".format(os.getuid(), os.getgid()), venv_path])
source_log = get_logfile_name(source_venv_path)
copy_parent_log(source_log, target_log)
create_log_entry(
target_log, source_venv_path, copied_packages, new_packages - copied_packages
)
return True
return False
def get_logfile_name(venv_path: str) -> str:
return "{}/setup-venv.log".format(venv_path)
def create_log_entry(
target_log: str,
parent: str,
copied_packages: Set[str],
new_packages: Set[str],
) -> None:
venv_path = os.path.dirname(target_log)
with open(target_log, "a") as writer:
writer.write("{}\n".format(venv_path))
if copied_packages:
writer.write("Copied from {}:\n".format(parent))
writer.write("\n".join("- {}".format(p) for p in sorted(copied_packages)))
writer.write("\n")
writer.write("New packages:\n")
writer.write("\n".join("- {}".format(p) for p in sorted(new_packages)))
writer.write("\n\n")
def copy_parent_log(source_log: str, target_log: str) -> None:
if os.path.exists(source_log):
shutil.copyfile(source_log, target_log)
def do_patch_activate_script(venv_path: str) -> None:
"""
Patches the bin/activate script so that the value of the environment variable VIRTUAL_ENV
is set to venv_path during the script's execution whenever it is sourced.
"""
# venv_path should be what we want to have in VIRTUAL_ENV after patching
script_path = os.path.join(venv_path, "bin", "activate")
with open(script_path) as f:
lines = f.readlines()
for i, line in enumerate(lines):
if line.startswith("VIRTUAL_ENV="):
lines[i] = 'VIRTUAL_ENV="{}"\n'.format(venv_path)
with open(script_path, "w") as f:
f.write("".join(lines))
def generate_hash(requirements_file: str) -> str:
path = os.path.join(ZULIP_PATH, "scripts", "lib", "hash_reqs.py")
output = subprocess.check_output([path, requirements_file], universal_newlines=True)
return output.split()[0]
def setup_virtualenv(
target_venv_path: Optional[str],
requirements_file: str,
patch_activate_script: bool = False,
) -> str:
sha1sum = generate_hash(requirements_file)
# Check if a cached version already exists
if target_venv_path is None:
cached_venv_path = os.path.join(VENV_CACHE_PATH, sha1sum, "venv")
else:
cached_venv_path = os.path.join(
VENV_CACHE_PATH, sha1sum, os.path.basename(target_venv_path)
)
success_stamp = os.path.join(cached_venv_path, "success-stamp")
if not os.path.exists(success_stamp):
do_setup_virtualenv(cached_venv_path, requirements_file)
with open(success_stamp, "w") as f:
f.close()
print("Using cached Python venv from {}".format(cached_venv_path))
if target_venv_path is not None:
run_as_root(["ln", "-nsf", cached_venv_path, target_venv_path])
if patch_activate_script:
do_patch_activate_script(target_venv_path)
return cached_venv_path
def add_cert_to_pipconf() -> None:
conffile = os.path.expanduser("~/.pip/pip.conf")
confdir = os.path.expanduser("~/.pip/")
os.makedirs(confdir, exist_ok=True)
run(["crudini", "--set", conffile, "global", "cert", os.environ["CUSTOM_CA_CERTIFICATES"]])
def do_setup_virtualenv(venv_path: str, requirements_file: str) -> None:
# Setup Python virtualenv
new_packages = set(get_package_names(requirements_file))
run_as_root(["rm", "-rf", venv_path])
if not try_to_copy_venv(venv_path, new_packages):
# Create new virtualenv.
run_as_root(["mkdir", "-p", venv_path])
run_as_root(["virtualenv", "-p", "python3", venv_path])
run_as_root(["chown", "-R", "{}:{}".format(os.getuid(), os.getgid()), venv_path])
create_log_entry(get_logfile_name(venv_path), "", set(), new_packages)
create_requirements_index_file(venv_path, requirements_file)
pip = os.path.join(venv_path, "bin", "pip")
# use custom certificate if needed
if os.environ.get("CUSTOM_CA_CERTIFICATES"):
print("Configuring pip to use custom CA certificates...")
add_cert_to_pipconf()
try:
install_venv_deps(pip, requirements_file)
except subprocess.CalledProcessError:
try:
# Might be a failure due to network connection issues. Retrying...
print(WARNING + "`pip install` failed; retrying..." + ENDC)
install_venv_deps(pip, requirements_file)
except BaseException as e:
# Suppress exception chaining
raise e from None
run_as_root(["chmod", "-R", "a+rX", venv_path])