import pytest from textwrap import dedent import re from .conftest import ( tick_box, info_box, cross_box, mock_command, mock_command_run, mock_command_2, mock_command_passthrough, run_script, ) def test_supported_package_manager(host): """ confirm installer exits when no supported package manager found """ # break supported package managers host.run("rm -rf /usr/bin/apt-get") host.run("rm -rf /usr/bin/rpm") package_manager_detect = host.run( """ source /opt/pihole/basic-install.sh package_manager_detect """ ) expected_stdout = cross_box + " No supported package manager found" assert expected_stdout in package_manager_detect.stdout # assert package_manager_detect.rc == 1 def test_selinux_not_detected(host): """ confirms installer continues when SELinux configuration file does not exist """ check_selinux = host.run( """ rm -f /etc/selinux/config source /opt/pihole/basic-install.sh checkSelinux """ ) expected_stdout = info_box + " SELinux not detected" assert expected_stdout in check_selinux.stdout assert check_selinux.rc == 0 def get_directories_recursive(host, directory): if directory is None: return directory # returns all non-hidden subdirs of 'directory' dirs_raw = host.run("find {} -type d -not -path '*/.*'".format(directory)) dirs = list(filter(bool, dirs_raw.stdout.splitlines())) return dirs def test_installPihole_fresh_install_readableFiles(host): """ confirms all necessary files are readable by pihole user """ # dialog returns Cancel for user prompt mock_command("dialog", {"*": ("", "0")}, host) # mock git pull mock_command_passthrough("git", {"pull": ("", "0")}, host) # mock systemctl to not start FTL mock_command_2( "systemctl", { "enable pihole-FTL": ("", "0"), "restart pihole-FTL": ("", "0"), "start pihole-FTL": ("", "0"), "*": ('echo "systemctl call with $@"', "0"), }, host, ) # try to install man host.run("command -v apt-get > /dev/null && apt-get install -qq man") host.run("command -v dnf > /dev/null && dnf install -y man") host.run("command -v yum > /dev/null && yum install -y man") # Workaround to get FTLv6 installed until it reaches master branch host.run( """ echo "development-v6" > /etc/pihole/ftlbranch """ ) install = host.run( """ export TERM=xterm export DEBIAN_FRONTEND=noninteractive umask 0027 runUnattended=true useUpdateVars=true source /opt/pihole/basic-install.sh > /dev/null runUnattended=true useUpdateVars=true main /opt/pihole/pihole-FTL-prestart.sh """ ) assert 0 == install.rc maninstalled = True if (info_box + " man not installed") in install.stdout: maninstalled = False if (info_box + " man pages not installed") in install.stdout: maninstalled = False piholeuser = "pihole" exit_status_success = 0 test_cmd = 'su --shell /bin/bash --command "test -{0} {1}" -p {2}' # check files in /etc/pihole for read, write and execute permission check_etc = test_cmd.format("r", "/etc/pihole", piholeuser) actual_rc = host.run(check_etc).rc assert exit_status_success == actual_rc check_etc = test_cmd.format("x", "/etc/pihole", piholeuser) actual_rc = host.run(check_etc).rc assert exit_status_success == actual_rc # readable and writable dhcp.leases check_leases = test_cmd.format("r", "/etc/pihole/dhcp.leases", piholeuser) actual_rc = host.run(check_leases).rc assert exit_status_success == actual_rc check_leases = test_cmd.format("w", "/etc/pihole/dhcp.leases", piholeuser) actual_rc = host.run(check_leases).rc # readable dns-servers.conf assert exit_status_success == actual_rc check_servers = test_cmd.format("r", "/etc/pihole/dns-servers.conf", piholeuser) actual_rc = host.run(check_servers).rc assert exit_status_success == actual_rc # readable install.log check_install = test_cmd.format("r", "/etc/pihole/install.log", piholeuser) actual_rc = host.run(check_install).rc assert exit_status_success == actual_rc # readable versions check_localversion = test_cmd.format("r", "/etc/pihole/versions", piholeuser) actual_rc = host.run(check_localversion).rc assert exit_status_success == actual_rc # readable logrotate check_logrotate = test_cmd.format("r", "/etc/pihole/logrotate", piholeuser) actual_rc = host.run(check_logrotate).rc assert exit_status_success == actual_rc # readable macvendor.db check_macvendor = test_cmd.format("r", "/etc/pihole/macvendor.db", piholeuser) actual_rc = host.run(check_macvendor).rc assert exit_status_success == actual_rc # check readable and executable /etc/init.d/pihole-FTL check_init = test_cmd.format("x", "/etc/init.d/pihole-FTL", piholeuser) actual_rc = host.run(check_init).rc assert exit_status_success == actual_rc check_init = test_cmd.format("r", "/etc/init.d/pihole-FTL", piholeuser) actual_rc = host.run(check_init).rc assert exit_status_success == actual_rc # check readable and executable manpages if maninstalled is True: check_man = test_cmd.format("x", "/usr/local/share/man", piholeuser) actual_rc = host.run(check_man).rc assert exit_status_success == actual_rc check_man = test_cmd.format("r", "/usr/local/share/man", piholeuser) actual_rc = host.run(check_man).rc assert exit_status_success == actual_rc check_man = test_cmd.format("x", "/usr/local/share/man/man8", piholeuser) actual_rc = host.run(check_man).rc assert exit_status_success == actual_rc check_man = test_cmd.format("r", "/usr/local/share/man/man8", piholeuser) actual_rc = host.run(check_man).rc assert exit_status_success == actual_rc check_man = test_cmd.format("x", "/usr/local/share/man/man5", piholeuser) actual_rc = host.run(check_man).rc assert exit_status_success == actual_rc check_man = test_cmd.format("r", "/usr/local/share/man/man5", piholeuser) actual_rc = host.run(check_man).rc assert exit_status_success == actual_rc check_man = test_cmd.format( "r", "/usr/local/share/man/man8/pihole.8", piholeuser ) actual_rc = host.run(check_man).rc assert exit_status_success == actual_rc # check not readable sudoers file check_sudo = test_cmd.format("r", "/etc/sudoers.d/pihole", piholeuser) actual_rc = host.run(check_sudo).rc assert exit_status_success != actual_rc # check not readable cron file check_sudo = test_cmd.format("x", "/etc/cron.d/", piholeuser) actual_rc = host.run(check_sudo).rc assert exit_status_success == actual_rc check_sudo = test_cmd.format("r", "/etc/cron.d/", piholeuser) actual_rc = host.run(check_sudo).rc assert exit_status_success == actual_rc check_sudo = test_cmd.format("r", "/etc/cron.d/pihole", piholeuser) actual_rc = host.run(check_sudo).rc assert exit_status_success == actual_rc directories = get_directories_recursive(host, "/etc/.pihole/") for directory in directories: check_pihole = test_cmd.format("r", directory, piholeuser) actual_rc = host.run(check_pihole).rc check_pihole = test_cmd.format("x", directory, piholeuser) actual_rc = host.run(check_pihole).rc findfiles = 'find "{}" -maxdepth 1 -type f -exec echo {{}} \\;;' filelist = host.run(findfiles.format(directory)) files = list(filter(bool, filelist.stdout.splitlines())) for file in files: check_pihole = test_cmd.format("r", file, piholeuser) actual_rc = host.run(check_pihole).rc def test_update_package_cache_success_no_errors(host): """ confirms package cache was updated without any errors """ updateCache = host.run( """ source /opt/pihole/basic-install.sh package_manager_detect update_package_cache """ ) expected_stdout = tick_box + " Update local cache of available packages" assert expected_stdout in updateCache.stdout assert "error" not in updateCache.stdout.lower() def test_update_package_cache_failure_no_errors(host): """ confirms package cache was not updated """ mock_command("apt-get", {"update": ("", "1")}, host) updateCache = host.run( """ source /opt/pihole/basic-install.sh package_manager_detect update_package_cache """ ) expected_stdout = cross_box + " Update local cache of available packages" assert expected_stdout in updateCache.stdout assert "Error: Unable to update package cache." in updateCache.stdout def test_FTL_detect_aarch64_no_errors(host): """ confirms only aarch64 package is downloaded for FTL engine """ # mock uname to return aarch64 platform mock_command("uname", {"-m": ("aarch64", "0")}, host) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = info_box + " FTL Checks..." assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Detected AArch64 (64 Bit ARM) architecture" assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in detectPlatform.stdout def test_FTL_detect_armv4_no_errors(host): """ confirms only armv4 package is downloaded for FTL engine """ # mock uname to return armv4 platform mock_command("uname", {"-m": ("armv4t", "0")}, host) # mock readelf to respond with armv4 CPU architecture mock_command_2( "readelf", { "-A /bin/sh": ("Tag_CPU_arch: armv4t", "0"), "-A /usr/bin/sh": ("Tag_CPU_arch: armv4t", "0"), }, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = info_box + " FTL Checks..." assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Detected ARMv4 or ARMv5 architecture (armv4t)" assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in detectPlatform.stdout def test_FTL_detect_armv5_no_errors(host): """ confirms only armv5 package is downloaded for FTL engine """ # mock uname to return armv5te platform mock_command("uname", {"-m": ("armv5te", "0")}, host) # mock readelf to respond with armv5 CPU architecture mock_command_2( "readelf", { "-A /bin/sh": ("Tag_CPU_arch: armv5te", "0"), "-A /usr/bin/sh": ("Tag_CPU_arch: armv5te", "0"), }, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = info_box + " FTL Checks..." assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Detected ARMv4 or ARMv5 architecture (armv5te)" assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in detectPlatform.stdout def test_FTL_detect_armv6_old_no_errors(host): """ confirms only armv6 package is downloaded for FTL engine """ # mock uname to return armv6l platform mock_command("uname", {"-m": ("armv6l", "0")}, host) # mock readelf to respond with armv6l CPU architecture mock_command_2( "readelf", { "-A /bin/sh": ("Tag_CPU_arch: armv6l", "0"), "-A /usr/bin/sh": ("Tag_CPU_arch: armv6l", "0"), }, host, ) # Mock old ldd GLIBC version mock_command( "ldd", {"--version": ("ldd (Debian GLIBC 2.13-38+deb7u8) 2.13", "0")}, host ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = info_box + " FTL Checks..." assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + ( " Detected ARMv6 architecture (running GLIBC older than 2.29, armv6l)" ) assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in detectPlatform.stdout def test_FTL_detect_armv6_recent_no_errors(host): """ confirms only armv6 package is downloaded for FTL engine """ # mock uname to return armv6l platform mock_command("uname", {"-m": ("armv6l", "0")}, host) # mock readelf to respond with armv6l CPU architecture mock_command_2( "readelf", { "-A /bin/sh": ("Tag_CPU_arch: armv6l", "0"), "-A /usr/bin/sh": ("Tag_CPU_arch: armv6l", "0"), }, host, ) # Mock old ldd GLIBC version mock_command( "ldd", {"--version": ("'ldd (Debian GLIBC 2.35-38+deb7u8) 2.35'", "0")}, host ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = info_box + " FTL Checks..." assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + ( " Detected ARMv6 architecture (running GLIBC 2.29 or higher, armv6l)" ) assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in detectPlatform.stdout def test_FTL_detect_armv6KZ_no_errors(host): """ confirms only armv6KZ package is downloaded for FTL engine """ # mock uname to return armv6KZ platform mock_command("uname", {"-m": ("armv6KZ", "0")}, host) # mock readelf to respond with armv6l CPU architecture mock_command_2( "readelf", { "-A /bin/sh": ("Tag_CPU_arch: armv6KZ", "0"), "-A /usr/bin/sh": ("Tag_CPU_arch: armv6KZ", "0"), }, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = info_box + " FTL Checks..." assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Detected ARMv6KZ architecture" assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in detectPlatform.stdout def test_FTL_detect_armv7l_no_errors(host): """ confirms only armv7l package is downloaded for FTL engine """ # mock uname to return armv7l platform mock_command("uname", {"-m": ("armv7l", "0")}, host) # mock readelf to respond with armv7l CPU architecture mock_command_2( "readelf", { "-A /bin/sh": ("Tag_CPU_arch: armv7l", "0"), "-A /usr/bin/sh": ("Tag_CPU_arch: armv7l", "0"), }, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = info_box + " FTL Checks..." assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + (" Detected ARMv7 architecture (armv7l)") assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in detectPlatform.stdout def test_FTL_detect_armv7_no_errors(host): """ confirms only armv7 package is downloaded for FTL engine """ # mock uname to return armv7 platform mock_command("uname", {"-m": ("armv7", "0")}, host) # mock readelf to respond with armv7 CPU architecture mock_command_2( "readelf", { "-A /bin/sh": ("Tag_CPU_arch: armv7", "0"), "-A /usr/bin/sh": ("Tag_CPU_arch: armv7", "0"), }, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = info_box + " FTL Checks..." assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + (" Detected ARMv7 architecture (armv7)") assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in detectPlatform.stdout def test_FTL_detect_armv8a_no_errors(host): """ confirms only armv8a package is downloaded for FTL engine """ # mock uname to return armv8a platform mock_command("uname", {"-m": ("armv8a", "0")}, host) # mock readelf to respond with armv8a CPU architecture mock_command_2( "readelf", { "-A /bin/sh": ("Tag_CPU_arch: armv8a", "0"), "-A /usr/bin/sh": ("Tag_CPU_arch: armv8a", "0"), }, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = info_box + " FTL Checks..." assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Detected ARMv7 (or newer) architecture (armv8a)" assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in detectPlatform.stdout def test_FTL_detect_x86_64_no_errors(host): """ confirms only x86_64 package is downloaded for FTL engine """ detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = info_box + " FTL Checks..." assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Detected x86_64 architecture" assert expected_stdout in detectPlatform.stdout expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in detectPlatform.stdout def test_FTL_detect_unknown_no_errors(host): """confirms only generic package is downloaded for FTL engine""" # mock uname to return generic platform mock_command("uname", {"-m": ("mips", "0")}, host) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) expected_stdout = "Not able to detect architecture (unknown: mips)" assert expected_stdout in detectPlatform.stdout def test_FTL_download_aarch64_no_errors(host): """ confirms only aarch64 package is downloaded for FTL engine """ # mock dialog answers and ensure installer dependencies mock_command("dialog", {"*": ("", "0")}, host) host.run( """ source /opt/pihole/basic-install.sh package_manager_detect install_dependent_packages ${INSTALLER_DEPS[@]} """ ) download_binary = host.run( """ source /opt/pihole/basic-install.sh create_pihole_user FTLinstall "pihole-FTL-aarch64-linux-gnu" """ ) expected_stdout = tick_box + " Downloading and Installing FTL" assert expected_stdout in download_binary.stdout assert "error" not in download_binary.stdout.lower() def test_FTL_development_binary_installed_and_responsive_no_errors(host): """ confirms FTL development binary is copied and functional in installed location """ host.run( """ source /opt/pihole/basic-install.sh create_pihole_user funcOutput=$(get_binary_name) echo "development" > /etc/pihole/ftlbranch binary="pihole-FTL${funcOutput##*pihole-FTL}" theRest="${funcOutput%pihole-FTL*}" FTLdetect "${binary}" "${theRest}" """ ) version_check = host.run( """ VERSION=$(pihole-FTL version) echo ${VERSION:0:1} """ ) expected_stdout = "v" assert expected_stdout in version_check.stdout def test_IPv6_only_link_local(host): """ confirms IPv6 blocking is disabled for Link-local address """ # mock ip -6 address to return Link-local address mock_command_2( "ip", {"-6 address": ("inet6 fe80::d210:52fa:fe00:7ad7/64 scope link", "0")}, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh find_IPv6_information """ ) expected_stdout = "Unable to find IPv6 ULA/GUA address" assert expected_stdout in detectPlatform.stdout def test_IPv6_only_ULA(host): """ confirms IPv6 blocking is enabled for ULA addresses """ # mock ip -6 address to return ULA address mock_command_2( "ip", { "-6 address": ( "inet6 fda2:2001:5555:0:d210:52fa:fe00:7ad7/64 scope global", "0", ) }, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh find_IPv6_information """ ) expected_stdout = "Found IPv6 ULA address" assert expected_stdout in detectPlatform.stdout def test_IPv6_only_GUA(host): """ confirms IPv6 blocking is enabled for GUA addresses """ # mock ip -6 address to return GUA address mock_command_2( "ip", { "-6 address": ( "inet6 2003:12:1e43:301:d210:52fa:fe00:7ad7/64 scope global", "0", ) }, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh find_IPv6_information """ ) expected_stdout = "Found IPv6 GUA address" assert expected_stdout in detectPlatform.stdout def test_IPv6_GUA_ULA_test(host): """ confirms IPv6 blocking is enabled for GUA and ULA addresses """ # mock ip -6 address to return GUA and ULA addresses mock_command_2( "ip", { "-6 address": ( "inet6 2003:12:1e43:301:d210:52fa:fe00:7ad7/64 scope global\n" "inet6 fda2:2001:5555:0:d210:52fa:fe00:7ad7/64 scope global", "0", ) }, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh find_IPv6_information """ ) expected_stdout = "Found IPv6 ULA address" assert expected_stdout in detectPlatform.stdout def test_IPv6_ULA_GUA_test(host): """ confirms IPv6 blocking is enabled for GUA and ULA addresses """ # mock ip -6 address to return ULA and GUA addresses mock_command_2( "ip", { "-6 address": ( "inet6 fda2:2001:5555:0:d210:52fa:fe00:7ad7/64 scope global\n" "inet6 2003:12:1e43:301:d210:52fa:fe00:7ad7/64 scope global", "0", ) }, host, ) detectPlatform = host.run( """ source /opt/pihole/basic-install.sh find_IPv6_information """ ) expected_stdout = "Found IPv6 ULA address" assert expected_stdout in detectPlatform.stdout def test_validate_ip(host): """ Tests valid_ip for various IP addresses """ def test_address(addr, success=True): output = host.run( """ source /opt/pihole/basic-install.sh valid_ip "{addr}" """.format( addr=addr ) ) assert output.rc == 0 if success else 1 test_address("192.168.1.1") test_address("127.0.0.1") test_address("255.255.255.255") test_address("255.255.255.256", False) test_address("255.255.256.255", False) test_address("255.256.255.255", False) test_address("256.255.255.255", False) test_address("1092.168.1.1", False) test_address("not an IP", False) test_address("8.8.8.8#", False) test_address("8.8.8.8#0") test_address("8.8.8.8#1") test_address("8.8.8.8#42") test_address("8.8.8.8#888") test_address("8.8.8.8#1337") test_address("8.8.8.8#65535") test_address("8.8.8.8#65536", False) test_address("8.8.8.8#-1", False) test_address("00.0.0.0", False) test_address("010.0.0.0", False) test_address("001.0.0.0", False) test_address("0.0.0.0#00", False) test_address("0.0.0.0#01", False) test_address("0.0.0.0#001", False) test_address("0.0.0.0#0001", False) test_address("0.0.0.0#00001", False) def test_os_check_fails(host): """Confirms install fails on unsupported OS""" host.run( """ source /opt/pihole/basic-install.sh package_manager_detect install_dependent_packages ${OS_CHECK_DEPS[@]} install_dependent_packages ${INSTALLER_DEPS[@]} cat < /etc/os-release ID=UnsupportedOS VERSION_ID="2" EOT """ ) detectOS = host.run( """t source /opt/pihole/basic-install.sh os_check """ ) expected_stdout = "Unsupported OS detected: UnsupportedOS" assert expected_stdout in detectOS.stdout def test_os_check_passes(host): """Confirms OS meets the requirements""" host.run( """ source /opt/pihole/basic-install.sh package_manager_detect install_dependent_packages ${OS_CHECK_DEPS[@]} install_dependent_packages ${INSTALLER_DEPS[@]} """ ) detectOS = host.run( """ source /opt/pihole/basic-install.sh os_check """ ) expected_stdout = "Supported OS detected" assert expected_stdout in detectOS.stdout def test_package_manager_has_installer_deps(host): """Confirms OS is able to install the required packages for the installer""" mock_command("dialog", {"*": ("", "0")}, host) output = host.run( """ source /opt/pihole/basic-install.sh package_manager_detect install_dependent_packages ${INSTALLER_DEPS[@]} """ ) assert "No package" not in output.stdout assert output.rc == 0 def test_package_manager_has_pihole_deps(host): """Confirms OS is able to install the required packages for Pi-hole""" mock_command("dialog", {"*": ("", "0")}, host) output = host.run( """ source /opt/pihole/basic-install.sh package_manager_detect install_dependent_packages ${PIHOLE_DEPS[@]} """ ) assert "No package" not in output.stdout assert output.rc == 0 def test_package_manager_has_web_deps(host): """Confirms OS is able to install the required packages for web""" mock_command("dialog", {"*": ("", "0")}, host) output = host.run( """ source /opt/pihole/basic-install.sh package_manager_detect install_dependent_packages ${PIHOLE_WEB_DEPS[@]} """ ) assert "No package" not in output.stdout assert output.rc == 0