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nixpkgs/nixos/tests/common/letsencrypt.nix

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nixos/tests: Add common modules for letsencrypt These modules implement a way to test ACME based on a test instance of Letsencrypt's Boulder service. The service implementation is in letsencrypt.nix and the second module (resolver.nix) is a support-module for the former, but can also be used for tests not involving ACME. The second module provides a DNS server which hosts a root zone containing all the zones and /etc/hosts entries (except loopback) in the entire test network, so this can be very useful for other modules that need DNS resolution. Originally, I wrote these modules for the Headcounter deployment, but I've refactored them a bit to be generally useful to NixOS users. The original implementation can be found here: https://github.com/headcounter/deployment/tree/89e7feafb/modules/testing Quoting parts from the commit message of the initial implementation of the Letsencrypt module in headcounter/deployment@95dfb31110397567534f2: This module is going to be used for tests where we need to impersonate an ACME service such as the one from Letsencrypt within VM tests, which is the reason why this module is a bit ugly (I only care if it's working not if it's beautiful). While the module isn't used anywhere, it will serve as a pluggable module for testing whether ACME works properly to fetch certificates and also as a replacement for our snakeoil certificate generator. Also quoting parts of the commit where I have refactored the same module in headcounter/deployment@85fa481b3431bbc450e8008fd25adc28ef0c6036: Now we have a fully pluggable module which automatically discovers in which network it's used via the nodes attribute. The test environment of Boulder used "dns-test-srv", which is a fake DNS server that's resolving almost everything to 127.0.0.1. On our setup this is not useful, so instead we're now running a local BIND name server which has a fake root zone and uses the mentioned node attribute to automatically discover other zones in the network of machines and generate delegations from the root zone to the respective zones with the primaryIPAddress of the node. ... We want to use real letsencrypt.org FQDNs here, so we can't get away with the snakeoil test certificates from the upstream project but now roll our own. This not only has the benefit that we can easily pass the snakeoil certificate to other nodes, but we can (and do) also use it for an nginx proxy that's now serving HTTPS for the Boulder web front end. The Headcounter deployment tests are simulating a production scenario with real IPs and nameservers so it won't need to rely on networking.extraHost. However in this implementation we don't necessarily want to do that, so I've added auto-discovery of networking.extraHosts in the resolver module. Another change here is that the letsencrypt module now falls back to using a local resolver, the Headcounter implementation on the other hand always required to add an extra test node which serves as a resolver. I could have squashed both modules into the final ACME test, but that would make it not very reusable, so that's the main reason why I put these modules in tests/common. Signed-off-by: aszlig <aszlig@redmoonstudios.org>
2017-07-27 09:16:29 +01:00
# Fully pluggable module to have Letsencrypt's Boulder ACME service running in
# a test environment.
#
# The certificate for the ACME service is exported as:
#
# config.test-support.letsencrypt.caCert
#
# This value can be used inside the configuration of other test nodes to inject
# the snakeoil certificate into security.pki.certificateFiles or into package
# overlays.
#
# Another value that's needed if you don't use a custom resolver (see below for
# notes on that) is to add the letsencrypt node as a nameserver to every node
# that needs to acquire certificates using ACME, because otherwise the API host
# for letsencrypt.org can't be resolved.
#
# A configuration example of a full node setup using this would be this:
#
# {
# letsencrypt = import ./common/letsencrypt.nix;
#
# example = { nodes, ... }: {
# networking.nameservers = [
# nodes.letsencrypt.config.networking.primaryIPAddress
# ];
# security.pki.certificateFiles = [
# nodes.letsencrypt.config.test-support.letsencrypt.caCert
# ];
# };
# }
#
# By default, this module runs a local resolver, generated using resolver.nix
# from the same directory to automatically discover all zones in the network.
#
# If you do not want this and want to use your own resolver, you can just
# override networking.nameservers like this:
#
# {
# letsencrypt = { nodes, ... }: {
# imports = [ ./common/letsencrypt.nix ];
# networking.nameservers = [
# nodes.myresolver.config.networking.primaryIPAddress
# ];
# };
#
# myresolver = ...;
# }
#
# Keep in mind, that currently only _one_ resolver is supported, if you have
# more than one resolver in networking.nameservers only the first one will be
# used.
#
# Also make sure that whenever you use a resolver from a different test node
# that it has to be started _before_ the ACME service.
{ config, pkgs, lib, ... }:
let
softhsm = pkgs.stdenv.mkDerivation rec {
name = "softhsm-${version}";
version = "1.3.8";
src = pkgs.fetchurl {
url = "https://dist.opendnssec.org/source/${name}.tar.gz";
sha256 = "0flmnpkgp65ym7w3qyg78d3fbmvq3aznmi66rgd420n33shf7aif";
};
configureFlags = [ "--with-botan=${pkgs.botan}" ];
buildInputs = [ pkgs.sqlite ];
};
pkcs11-proxy = pkgs.stdenv.mkDerivation {
name = "pkcs11-proxy";
src = pkgs.fetchFromGitHub {
owner = "SUNET";
repo = "pkcs11-proxy";
rev = "944684f78bca0c8da6cabe3fa273fed3db44a890";
sha256 = "1nxgd29y9wmifm11pjcdpd2y293p0dgi0x5ycis55miy97n0f5zy";
};
postPatch = "patchShebangs mksyscalls.sh";
nativeBuildInputs = [ pkgs.cmake ];
buildInputs = [ pkgs.openssl pkgs.libseccomp ];
};
mkGoDep = { goPackagePath, url ? "https://${goPackagePath}", rev, sha256 }: {
inherit goPackagePath;
src = pkgs.fetchgit { inherit url rev sha256; };
};
goose = let
owner = "liamstask";
repo = "goose";
rev = "8488cc47d90c8a502b1c41a462a6d9cc8ee0a895";
version = "20150116";
in pkgs.buildGoPackage rec {
name = "${repo}-${version}";
src = pkgs.fetchFromBitbucket {
name = "${name}-src";
inherit rev owner repo;
sha256 = "1jy0pscxjnxjdg3hj111w21g8079rq9ah2ix5ycxxhbbi3f0wdhs";
};
goPackagePath = "bitbucket.org/${owner}/${repo}";
subPackages = [ "cmd/goose" ];
extraSrcs = map mkGoDep [
{ goPackagePath = "github.com/go-sql-driver/mysql";
rev = "2e00b5cd70399450106cec6431c2e2ce3cae5034";
sha256 = "085g48jq9hzmlcxg122n0c4pi41sc1nn2qpx1vrl2jfa8crsppa5";
}
{ goPackagePath = "github.com/kylelemons/go-gypsy";
rev = "08cad365cd28a7fba23bb1e57aa43c5e18ad8bb8";
sha256 = "1djv7nii3hy451n5jlslk0dblqzb1hia1cbqpdwhnps1g8hqjy8q";
}
{ goPackagePath = "github.com/lib/pq";
rev = "ba5d4f7a35561e22fbdf7a39aa0070f4d460cfc0";
sha256 = "1mfbqw9g00bk24bfmf53wri5c2wqmgl0qh4sh1qv2da13a7cwwg3";
}
{ goPackagePath = "github.com/mattn/go-sqlite3";
rev = "2acfafad5870400156f6fceb12852c281cbba4d5";
sha256 = "1rpgil3w4hh1cibidskv1js898hwz83ps06gh0hm3mym7ki8d5h7";
}
{ goPackagePath = "github.com/ziutek/mymysql";
rev = "0582bcf675f52c0c2045c027fd135bd726048f45";
sha256 = "0bkc9x8sgqbzgdimsmsnhb0qrzlzfv33fgajmmjxl4hcb21qz3rf";
}
{ goPackagePath = "golang.org/x/net";
url = "https://go.googlesource.com/net";
rev = "10c134ea0df15f7e34d789338c7a2d76cc7a3ab9";
sha256 = "14cbr2shl08gyg85n5gj7nbjhrhhgrd52h073qd14j97qcxsakcz";
}
];
};
boulder = let
owner = "letsencrypt";
repo = "boulder";
rev = "9c6a1f2adc4c26d925588f5ae366cfd4efb7813a";
version = "20180129";
nixos/tests: Add common modules for letsencrypt These modules implement a way to test ACME based on a test instance of Letsencrypt's Boulder service. The service implementation is in letsencrypt.nix and the second module (resolver.nix) is a support-module for the former, but can also be used for tests not involving ACME. The second module provides a DNS server which hosts a root zone containing all the zones and /etc/hosts entries (except loopback) in the entire test network, so this can be very useful for other modules that need DNS resolution. Originally, I wrote these modules for the Headcounter deployment, but I've refactored them a bit to be generally useful to NixOS users. The original implementation can be found here: https://github.com/headcounter/deployment/tree/89e7feafb/modules/testing Quoting parts from the commit message of the initial implementation of the Letsencrypt module in headcounter/deployment@95dfb31110397567534f2: This module is going to be used for tests where we need to impersonate an ACME service such as the one from Letsencrypt within VM tests, which is the reason why this module is a bit ugly (I only care if it's working not if it's beautiful). While the module isn't used anywhere, it will serve as a pluggable module for testing whether ACME works properly to fetch certificates and also as a replacement for our snakeoil certificate generator. Also quoting parts of the commit where I have refactored the same module in headcounter/deployment@85fa481b3431bbc450e8008fd25adc28ef0c6036: Now we have a fully pluggable module which automatically discovers in which network it's used via the nodes attribute. The test environment of Boulder used "dns-test-srv", which is a fake DNS server that's resolving almost everything to 127.0.0.1. On our setup this is not useful, so instead we're now running a local BIND name server which has a fake root zone and uses the mentioned node attribute to automatically discover other zones in the network of machines and generate delegations from the root zone to the respective zones with the primaryIPAddress of the node. ... We want to use real letsencrypt.org FQDNs here, so we can't get away with the snakeoil test certificates from the upstream project but now roll our own. This not only has the benefit that we can easily pass the snakeoil certificate to other nodes, but we can (and do) also use it for an nginx proxy that's now serving HTTPS for the Boulder web front end. The Headcounter deployment tests are simulating a production scenario with real IPs and nameservers so it won't need to rely on networking.extraHost. However in this implementation we don't necessarily want to do that, so I've added auto-discovery of networking.extraHosts in the resolver module. Another change here is that the letsencrypt module now falls back to using a local resolver, the Headcounter implementation on the other hand always required to add an extra test node which serves as a resolver. I could have squashed both modules into the final ACME test, but that would make it not very reusable, so that's the main reason why I put these modules in tests/common. Signed-off-by: aszlig <aszlig@redmoonstudios.org>
2017-07-27 09:16:29 +01:00
in pkgs.buildGoPackage rec {
name = "${repo}-${version}";
src = pkgs.fetchFromGitHub {
name = "${name}-src";
inherit rev owner repo;
sha256 = "09kszswrifm9rc6idfaq0p1mz5w21as2qbc8gd5pphrq9cf9pn55";
nixos/tests: Add common modules for letsencrypt These modules implement a way to test ACME based on a test instance of Letsencrypt's Boulder service. The service implementation is in letsencrypt.nix and the second module (resolver.nix) is a support-module for the former, but can also be used for tests not involving ACME. The second module provides a DNS server which hosts a root zone containing all the zones and /etc/hosts entries (except loopback) in the entire test network, so this can be very useful for other modules that need DNS resolution. Originally, I wrote these modules for the Headcounter deployment, but I've refactored them a bit to be generally useful to NixOS users. The original implementation can be found here: https://github.com/headcounter/deployment/tree/89e7feafb/modules/testing Quoting parts from the commit message of the initial implementation of the Letsencrypt module in headcounter/deployment@95dfb31110397567534f2: This module is going to be used for tests where we need to impersonate an ACME service such as the one from Letsencrypt within VM tests, which is the reason why this module is a bit ugly (I only care if it's working not if it's beautiful). While the module isn't used anywhere, it will serve as a pluggable module for testing whether ACME works properly to fetch certificates and also as a replacement for our snakeoil certificate generator. Also quoting parts of the commit where I have refactored the same module in headcounter/deployment@85fa481b3431bbc450e8008fd25adc28ef0c6036: Now we have a fully pluggable module which automatically discovers in which network it's used via the nodes attribute. The test environment of Boulder used "dns-test-srv", which is a fake DNS server that's resolving almost everything to 127.0.0.1. On our setup this is not useful, so instead we're now running a local BIND name server which has a fake root zone and uses the mentioned node attribute to automatically discover other zones in the network of machines and generate delegations from the root zone to the respective zones with the primaryIPAddress of the node. ... We want to use real letsencrypt.org FQDNs here, so we can't get away with the snakeoil test certificates from the upstream project but now roll our own. This not only has the benefit that we can easily pass the snakeoil certificate to other nodes, but we can (and do) also use it for an nginx proxy that's now serving HTTPS for the Boulder web front end. The Headcounter deployment tests are simulating a production scenario with real IPs and nameservers so it won't need to rely on networking.extraHost. However in this implementation we don't necessarily want to do that, so I've added auto-discovery of networking.extraHosts in the resolver module. Another change here is that the letsencrypt module now falls back to using a local resolver, the Headcounter implementation on the other hand always required to add an extra test node which serves as a resolver. I could have squashed both modules into the final ACME test, but that would make it not very reusable, so that's the main reason why I put these modules in tests/common. Signed-off-by: aszlig <aszlig@redmoonstudios.org>
2017-07-27 09:16:29 +01:00
};
postPatch = ''
# compat for go < 1.8
sed -i -e 's/time\.Until(\([^)]\+\))/\1.Sub(time.Now())/' \
test/ocsp/helper/helper.go
find test -type f -exec sed -i -e '/libpkcs11-proxy.so/ {
s,/usr/local,${pkcs11-proxy},
}' {} +
sed -i -r \
-e '/^def +install/a \ return True' \
-e 's,exec \./bin/,,' \
test/startservers.py
cat "${snakeOilCa}/ca.key" > test/test-ca.key
cat "${snakeOilCa}/ca.pem" > test/test-ca.pem
'';
# Until vendored pkcs11 is go 1.9 compatible
preBuild = ''
rm -r go/src/github.com/letsencrypt/boulder/vendor/github.com/miekg/pkcs11
'';
extraSrcs = map mkGoDep [
{ goPackagePath = "github.com/miekg/pkcs11";
rev = "6dbd569b952ec150d1425722dbbe80f2c6193f83";
sha256 = "1m8g6fx7df6hf6q6zsbyw1icjmm52dmsx28rgb0h930wagvngfwb";
}
];
nixos/tests: Add common modules for letsencrypt These modules implement a way to test ACME based on a test instance of Letsencrypt's Boulder service. The service implementation is in letsencrypt.nix and the second module (resolver.nix) is a support-module for the former, but can also be used for tests not involving ACME. The second module provides a DNS server which hosts a root zone containing all the zones and /etc/hosts entries (except loopback) in the entire test network, so this can be very useful for other modules that need DNS resolution. Originally, I wrote these modules for the Headcounter deployment, but I've refactored them a bit to be generally useful to NixOS users. The original implementation can be found here: https://github.com/headcounter/deployment/tree/89e7feafb/modules/testing Quoting parts from the commit message of the initial implementation of the Letsencrypt module in headcounter/deployment@95dfb31110397567534f2: This module is going to be used for tests where we need to impersonate an ACME service such as the one from Letsencrypt within VM tests, which is the reason why this module is a bit ugly (I only care if it's working not if it's beautiful). While the module isn't used anywhere, it will serve as a pluggable module for testing whether ACME works properly to fetch certificates and also as a replacement for our snakeoil certificate generator. Also quoting parts of the commit where I have refactored the same module in headcounter/deployment@85fa481b3431bbc450e8008fd25adc28ef0c6036: Now we have a fully pluggable module which automatically discovers in which network it's used via the nodes attribute. The test environment of Boulder used "dns-test-srv", which is a fake DNS server that's resolving almost everything to 127.0.0.1. On our setup this is not useful, so instead we're now running a local BIND name server which has a fake root zone and uses the mentioned node attribute to automatically discover other zones in the network of machines and generate delegations from the root zone to the respective zones with the primaryIPAddress of the node. ... We want to use real letsencrypt.org FQDNs here, so we can't get away with the snakeoil test certificates from the upstream project but now roll our own. This not only has the benefit that we can easily pass the snakeoil certificate to other nodes, but we can (and do) also use it for an nginx proxy that's now serving HTTPS for the Boulder web front end. The Headcounter deployment tests are simulating a production scenario with real IPs and nameservers so it won't need to rely on networking.extraHost. However in this implementation we don't necessarily want to do that, so I've added auto-discovery of networking.extraHosts in the resolver module. Another change here is that the letsencrypt module now falls back to using a local resolver, the Headcounter implementation on the other hand always required to add an extra test node which serves as a resolver. I could have squashed both modules into the final ACME test, but that would make it not very reusable, so that's the main reason why I put these modules in tests/common. Signed-off-by: aszlig <aszlig@redmoonstudios.org>
2017-07-27 09:16:29 +01:00
goPackagePath = "github.com/${owner}/${repo}";
buildInputs = [ pkgs.libtool ];
};
boulderSource = "${boulder.out}/share/go/src/${boulder.goPackagePath}";
softHsmConf = pkgs.writeText "softhsm.conf" ''
0:/var/lib/softhsm/slot0.db
1:/var/lib/softhsm/slot1.db
'';
snakeOilCa = pkgs.runCommand "snakeoil-ca" {
buildInputs = [ pkgs.openssl ];
} ''
mkdir "$out"
openssl req -newkey rsa:4096 -x509 -sha256 -days 36500 \
-subj '/CN=Snakeoil CA' -nodes \
-out "$out/ca.pem" -keyout "$out/ca.key"
'';
createAndSignCert = fqdn: let
snakeoilCertConf = pkgs.writeText "snakeoil.cnf" ''
[req]
default_bits = 4096
prompt = no
default_md = sha256
req_extensions = req_ext
distinguished_name = dn
[dn]
CN = ${fqdn}
[req_ext]
subjectAltName = DNS:${fqdn}
'';
in pkgs.runCommand "snakeoil-certs-${fqdn}" {
buildInputs = [ pkgs.openssl ];
} ''
mkdir "$out"
openssl genrsa -out "$out/snakeoil.key" 4096
openssl req -new -key "$out/snakeoil.key" \
-config ${lib.escapeShellArg snakeoilCertConf} \
-out snakeoil.csr
openssl x509 -req -in snakeoil.csr -sha256 -set_serial 666 \
-CA "${snakeOilCa}/ca.pem" -CAkey "${snakeOilCa}/ca.key" \
-extfile ${lib.escapeShellArg snakeoilCertConf} \
-out "$out/snakeoil.pem" -days 36500
'';
wfeCerts = createAndSignCert wfeDomain;
wfeDomain = "acme-v01.api.letsencrypt.org";
wfeCertFile = "${wfeCerts}/snakeoil.pem";
wfeKeyFile = "${wfeCerts}/snakeoil.key";
siteCerts = createAndSignCert siteDomain;
siteDomain = "letsencrypt.org";
siteCertFile = "${siteCerts}/snakeoil.pem";
siteKeyFile = "${siteCerts}/snakeoil.key";
# Retrieved via:
# curl -s -I https://acme-v01.api.letsencrypt.org/terms \
# | sed -ne 's/^[Ll]ocation: *//p'
tosUrl = "https://letsencrypt.org/documents/2017.11.15-LE-SA-v1.2.pdf";
nixos/tests: Add common modules for letsencrypt These modules implement a way to test ACME based on a test instance of Letsencrypt's Boulder service. The service implementation is in letsencrypt.nix and the second module (resolver.nix) is a support-module for the former, but can also be used for tests not involving ACME. The second module provides a DNS server which hosts a root zone containing all the zones and /etc/hosts entries (except loopback) in the entire test network, so this can be very useful for other modules that need DNS resolution. Originally, I wrote these modules for the Headcounter deployment, but I've refactored them a bit to be generally useful to NixOS users. The original implementation can be found here: https://github.com/headcounter/deployment/tree/89e7feafb/modules/testing Quoting parts from the commit message of the initial implementation of the Letsencrypt module in headcounter/deployment@95dfb31110397567534f2: This module is going to be used for tests where we need to impersonate an ACME service such as the one from Letsencrypt within VM tests, which is the reason why this module is a bit ugly (I only care if it's working not if it's beautiful). While the module isn't used anywhere, it will serve as a pluggable module for testing whether ACME works properly to fetch certificates and also as a replacement for our snakeoil certificate generator. Also quoting parts of the commit where I have refactored the same module in headcounter/deployment@85fa481b3431bbc450e8008fd25adc28ef0c6036: Now we have a fully pluggable module which automatically discovers in which network it's used via the nodes attribute. The test environment of Boulder used "dns-test-srv", which is a fake DNS server that's resolving almost everything to 127.0.0.1. On our setup this is not useful, so instead we're now running a local BIND name server which has a fake root zone and uses the mentioned node attribute to automatically discover other zones in the network of machines and generate delegations from the root zone to the respective zones with the primaryIPAddress of the node. ... We want to use real letsencrypt.org FQDNs here, so we can't get away with the snakeoil test certificates from the upstream project but now roll our own. This not only has the benefit that we can easily pass the snakeoil certificate to other nodes, but we can (and do) also use it for an nginx proxy that's now serving HTTPS for the Boulder web front end. The Headcounter deployment tests are simulating a production scenario with real IPs and nameservers so it won't need to rely on networking.extraHost. However in this implementation we don't necessarily want to do that, so I've added auto-discovery of networking.extraHosts in the resolver module. Another change here is that the letsencrypt module now falls back to using a local resolver, the Headcounter implementation on the other hand always required to add an extra test node which serves as a resolver. I could have squashed both modules into the final ACME test, but that would make it not very reusable, so that's the main reason why I put these modules in tests/common. Signed-off-by: aszlig <aszlig@redmoonstudios.org>
2017-07-27 09:16:29 +01:00
tosPath = builtins.head (builtins.match "https?://[^/]+(.*)" tosUrl);
tosFile = pkgs.fetchurl {
url = tosUrl;
sha256 = "0yvyckqzj0b1xi61sypcha82nanizzlm8yqy828h2jbza7cxi26c";
nixos/tests: Add common modules for letsencrypt These modules implement a way to test ACME based on a test instance of Letsencrypt's Boulder service. The service implementation is in letsencrypt.nix and the second module (resolver.nix) is a support-module for the former, but can also be used for tests not involving ACME. The second module provides a DNS server which hosts a root zone containing all the zones and /etc/hosts entries (except loopback) in the entire test network, so this can be very useful for other modules that need DNS resolution. Originally, I wrote these modules for the Headcounter deployment, but I've refactored them a bit to be generally useful to NixOS users. The original implementation can be found here: https://github.com/headcounter/deployment/tree/89e7feafb/modules/testing Quoting parts from the commit message of the initial implementation of the Letsencrypt module in headcounter/deployment@95dfb31110397567534f2: This module is going to be used for tests where we need to impersonate an ACME service such as the one from Letsencrypt within VM tests, which is the reason why this module is a bit ugly (I only care if it's working not if it's beautiful). While the module isn't used anywhere, it will serve as a pluggable module for testing whether ACME works properly to fetch certificates and also as a replacement for our snakeoil certificate generator. Also quoting parts of the commit where I have refactored the same module in headcounter/deployment@85fa481b3431bbc450e8008fd25adc28ef0c6036: Now we have a fully pluggable module which automatically discovers in which network it's used via the nodes attribute. The test environment of Boulder used "dns-test-srv", which is a fake DNS server that's resolving almost everything to 127.0.0.1. On our setup this is not useful, so instead we're now running a local BIND name server which has a fake root zone and uses the mentioned node attribute to automatically discover other zones in the network of machines and generate delegations from the root zone to the respective zones with the primaryIPAddress of the node. ... We want to use real letsencrypt.org FQDNs here, so we can't get away with the snakeoil test certificates from the upstream project but now roll our own. This not only has the benefit that we can easily pass the snakeoil certificate to other nodes, but we can (and do) also use it for an nginx proxy that's now serving HTTPS for the Boulder web front end. The Headcounter deployment tests are simulating a production scenario with real IPs and nameservers so it won't need to rely on networking.extraHost. However in this implementation we don't necessarily want to do that, so I've added auto-discovery of networking.extraHosts in the resolver module. Another change here is that the letsencrypt module now falls back to using a local resolver, the Headcounter implementation on the other hand always required to add an extra test node which serves as a resolver. I could have squashed both modules into the final ACME test, but that would make it not very reusable, so that's the main reason why I put these modules in tests/common. Signed-off-by: aszlig <aszlig@redmoonstudios.org>
2017-07-27 09:16:29 +01:00
};
resolver = let
message = "You need to define a resolver for the letsencrypt test module.";
firstNS = lib.head config.networking.nameservers;
in if config.networking.nameservers == [] then throw message else firstNS;
cfgDir = pkgs.stdenv.mkDerivation {
name = "boulder-config";
src = "${boulderSource}/test/config";
nativeBuildInputs = [ pkgs.jq ];
phases = [ "unpackPhase" "patchPhase" "installPhase" ];
postPatch = ''
sed -i -e 's/5002/80/' -e 's/5002/443/' va.json
sed -i -e '/listenAddress/s/:4000/:80/' wfe.json
sed -i -r \
-e ${lib.escapeShellArg "s,http://boulder:4000/terms/v1,${tosUrl},g"} \
-e 's,http://(boulder|127\.0\.0\.1):4000,https://${wfeDomain},g' \
-e '/dnsResolver/s/127\.0\.0\.1:8053/${resolver}:53/' \
*.json
if grep 4000 *.json; then exit 1; fi
# Change all ports from 1909X to 909X, because the 1909X range of ports is
# allocated by startservers.py in order to intercept gRPC communication.
sed -i -e 's/\<1\(909[0-9]\)\>/\1/' *.json
# Patch out all additional issuer certs
jq '. + {ca: (.ca + {Issuers:
[.ca.Issuers[] | select(.CertFile == "test/test-ca.pem")]
})}' ca.json > tmp
mv tmp ca.json
'';
installPhase = "cp -r . \"$out\"";
};
components = {
gsb-test-srv.args = "-apikey my-voice-is-my-passport";
gsb-test-srv.waitForPort = 6000;
gsb-test-srv.first = true;
boulder-sa.args = "--config ${cfgDir}/sa.json";
boulder-wfe.args = "--config ${cfgDir}/wfe.json";
boulder-ra.args = "--config ${cfgDir}/ra.json";
boulder-ca.args = "--config ${cfgDir}/ca.json";
boulder-va.args = "--config ${cfgDir}/va.json";
boulder-publisher.args = "--config ${cfgDir}/publisher.json";
boulder-publisher.waitForPort = 9091;
ocsp-updater.args = "--config ${cfgDir}/ocsp-updater.json";
ocsp-updater.after = [ "boulder-publisher" ];
ocsp-responder.args = "--config ${cfgDir}/ocsp-responder.json";
ct-test-srv = {};
mail-test-srv.args = let
key = "${boulderSource}/test/mail-test-srv/minica-key.pem";
crt = "${boulderSource}/test/mail-test-srv/minica.pem";
in
"--closeFirst 5 --cert ${crt} --key ${key}";
nixos/tests: Add common modules for letsencrypt These modules implement a way to test ACME based on a test instance of Letsencrypt's Boulder service. The service implementation is in letsencrypt.nix and the second module (resolver.nix) is a support-module for the former, but can also be used for tests not involving ACME. The second module provides a DNS server which hosts a root zone containing all the zones and /etc/hosts entries (except loopback) in the entire test network, so this can be very useful for other modules that need DNS resolution. Originally, I wrote these modules for the Headcounter deployment, but I've refactored them a bit to be generally useful to NixOS users. The original implementation can be found here: https://github.com/headcounter/deployment/tree/89e7feafb/modules/testing Quoting parts from the commit message of the initial implementation of the Letsencrypt module in headcounter/deployment@95dfb31110397567534f2: This module is going to be used for tests where we need to impersonate an ACME service such as the one from Letsencrypt within VM tests, which is the reason why this module is a bit ugly (I only care if it's working not if it's beautiful). While the module isn't used anywhere, it will serve as a pluggable module for testing whether ACME works properly to fetch certificates and also as a replacement for our snakeoil certificate generator. Also quoting parts of the commit where I have refactored the same module in headcounter/deployment@85fa481b3431bbc450e8008fd25adc28ef0c6036: Now we have a fully pluggable module which automatically discovers in which network it's used via the nodes attribute. The test environment of Boulder used "dns-test-srv", which is a fake DNS server that's resolving almost everything to 127.0.0.1. On our setup this is not useful, so instead we're now running a local BIND name server which has a fake root zone and uses the mentioned node attribute to automatically discover other zones in the network of machines and generate delegations from the root zone to the respective zones with the primaryIPAddress of the node. ... We want to use real letsencrypt.org FQDNs here, so we can't get away with the snakeoil test certificates from the upstream project but now roll our own. This not only has the benefit that we can easily pass the snakeoil certificate to other nodes, but we can (and do) also use it for an nginx proxy that's now serving HTTPS for the Boulder web front end. The Headcounter deployment tests are simulating a production scenario with real IPs and nameservers so it won't need to rely on networking.extraHost. However in this implementation we don't necessarily want to do that, so I've added auto-discovery of networking.extraHosts in the resolver module. Another change here is that the letsencrypt module now falls back to using a local resolver, the Headcounter implementation on the other hand always required to add an extra test node which serves as a resolver. I could have squashed both modules into the final ACME test, but that would make it not very reusable, so that's the main reason why I put these modules in tests/common. Signed-off-by: aszlig <aszlig@redmoonstudios.org>
2017-07-27 09:16:29 +01:00
};
commonPath = [ softhsm pkgs.mariadb goose boulder ];
mkServices = a: b: with lib; listToAttrs (concatLists (mapAttrsToList a b));
componentServices = mkServices (name: attrs: let
mkSrvName = n: "boulder-${n}.service";
firsts = lib.filterAttrs (lib.const (c: c.first or false)) components;
firstServices = map mkSrvName (lib.attrNames firsts);
firstServicesNoSelf = lib.remove "boulder-${name}.service" firstServices;
additionalAfter = firstServicesNoSelf ++ map mkSrvName (attrs.after or []);
needsPort = attrs ? waitForPort;
inits = map (n: "boulder-init-${n}.service") [ "mysql" "softhsm" ];
portWaiter = {
name = "boulder-${name}";
value = {
description = "Wait For Port ${toString attrs.waitForPort} (${name})";
after = [ "boulder-real-${name}.service" "bind.service" ];
requires = [ "boulder-real-${name}.service" ];
requiredBy = [ "boulder.service" ];
serviceConfig.Type = "oneshot";
serviceConfig.RemainAfterExit = true;
script = let
netcat = "${pkgs.netcat-openbsd}/bin/nc";
portCheck = "${netcat} -z 127.0.0.1 ${toString attrs.waitForPort}";
in "while ! ${portCheck}; do :; done";
};
};
in lib.optional needsPort portWaiter ++ lib.singleton {
name = if needsPort then "boulder-real-${name}" else "boulder-${name}";
value = {
description = "Boulder ACME Component (${name})";
after = inits ++ additionalAfter;
requires = inits;
requiredBy = [ "boulder.service" ];
path = commonPath;
environment.GORACE = "halt_on_error=1";
environment.SOFTHSM_CONF = softHsmConf;
environment.PKCS11_PROXY_SOCKET = "tcp://127.0.0.1:5657";
serviceConfig.WorkingDirectory = boulderSource;
serviceConfig.ExecStart = "${boulder}/bin/${name} ${attrs.args or ""}";
serviceConfig.Restart = "on-failure";
};
}) components;
in {
imports = [ ./resolver.nix ];
options.test-support.letsencrypt.caCert = lib.mkOption {
type = lib.types.path;
description = ''
A certificate file to use with the <literal>nodes</literal> attribute to
inject the snakeoil CA certificate used in the ACME server into
<option>security.pki.certificateFiles</option>.
'';
};
config = {
test-support = {
resolver.enable = let
isLocalResolver = config.networking.nameservers == [ "127.0.0.1" ];
in lib.mkOverride 900 isLocalResolver;
letsencrypt.caCert = "${snakeOilCa}/ca.pem";
};
# This has priority 140, because modules/testing/test-instrumentation.nix
# already overrides this with priority 150.
networking.nameservers = lib.mkOverride 140 [ "127.0.0.1" ];
networking.firewall.enable = false;
networking.extraHosts = ''
127.0.0.1 ${toString [
"sa.boulder" "ra.boulder" "wfe.boulder" "ca.boulder" "va.boulder"
"publisher.boulder" "ocsp-updater.boulder" "admin-revoker.boulder"
"boulder" "boulder-mysql" wfeDomain
]}
${config.networking.primaryIPAddress} ${wfeDomain} ${siteDomain}
'';
services.mysql.enable = true;
services.mysql.package = pkgs.mariadb;
services.nginx.enable = true;
services.nginx.recommendedProxySettings = true;
# This fixes the test on i686
services.nginx.commonHttpConfig = ''
server_names_hash_bucket_size 64;
'';
nixos/tests: Add common modules for letsencrypt These modules implement a way to test ACME based on a test instance of Letsencrypt's Boulder service. The service implementation is in letsencrypt.nix and the second module (resolver.nix) is a support-module for the former, but can also be used for tests not involving ACME. The second module provides a DNS server which hosts a root zone containing all the zones and /etc/hosts entries (except loopback) in the entire test network, so this can be very useful for other modules that need DNS resolution. Originally, I wrote these modules for the Headcounter deployment, but I've refactored them a bit to be generally useful to NixOS users. The original implementation can be found here: https://github.com/headcounter/deployment/tree/89e7feafb/modules/testing Quoting parts from the commit message of the initial implementation of the Letsencrypt module in headcounter/deployment@95dfb31110397567534f2: This module is going to be used for tests where we need to impersonate an ACME service such as the one from Letsencrypt within VM tests, which is the reason why this module is a bit ugly (I only care if it's working not if it's beautiful). While the module isn't used anywhere, it will serve as a pluggable module for testing whether ACME works properly to fetch certificates and also as a replacement for our snakeoil certificate generator. Also quoting parts of the commit where I have refactored the same module in headcounter/deployment@85fa481b3431bbc450e8008fd25adc28ef0c6036: Now we have a fully pluggable module which automatically discovers in which network it's used via the nodes attribute. The test environment of Boulder used "dns-test-srv", which is a fake DNS server that's resolving almost everything to 127.0.0.1. On our setup this is not useful, so instead we're now running a local BIND name server which has a fake root zone and uses the mentioned node attribute to automatically discover other zones in the network of machines and generate delegations from the root zone to the respective zones with the primaryIPAddress of the node. ... We want to use real letsencrypt.org FQDNs here, so we can't get away with the snakeoil test certificates from the upstream project but now roll our own. This not only has the benefit that we can easily pass the snakeoil certificate to other nodes, but we can (and do) also use it for an nginx proxy that's now serving HTTPS for the Boulder web front end. The Headcounter deployment tests are simulating a production scenario with real IPs and nameservers so it won't need to rely on networking.extraHost. However in this implementation we don't necessarily want to do that, so I've added auto-discovery of networking.extraHosts in the resolver module. Another change here is that the letsencrypt module now falls back to using a local resolver, the Headcounter implementation on the other hand always required to add an extra test node which serves as a resolver. I could have squashed both modules into the final ACME test, but that would make it not very reusable, so that's the main reason why I put these modules in tests/common. Signed-off-by: aszlig <aszlig@redmoonstudios.org>
2017-07-27 09:16:29 +01:00
services.nginx.virtualHosts.${wfeDomain} = {
onlySSL = true;
enableACME = false;
nixos/tests: Add common modules for letsencrypt These modules implement a way to test ACME based on a test instance of Letsencrypt's Boulder service. The service implementation is in letsencrypt.nix and the second module (resolver.nix) is a support-module for the former, but can also be used for tests not involving ACME. The second module provides a DNS server which hosts a root zone containing all the zones and /etc/hosts entries (except loopback) in the entire test network, so this can be very useful for other modules that need DNS resolution. Originally, I wrote these modules for the Headcounter deployment, but I've refactored them a bit to be generally useful to NixOS users. The original implementation can be found here: https://github.com/headcounter/deployment/tree/89e7feafb/modules/testing Quoting parts from the commit message of the initial implementation of the Letsencrypt module in headcounter/deployment@95dfb31110397567534f2: This module is going to be used for tests where we need to impersonate an ACME service such as the one from Letsencrypt within VM tests, which is the reason why this module is a bit ugly (I only care if it's working not if it's beautiful). While the module isn't used anywhere, it will serve as a pluggable module for testing whether ACME works properly to fetch certificates and also as a replacement for our snakeoil certificate generator. Also quoting parts of the commit where I have refactored the same module in headcounter/deployment@85fa481b3431bbc450e8008fd25adc28ef0c6036: Now we have a fully pluggable module which automatically discovers in which network it's used via the nodes attribute. The test environment of Boulder used "dns-test-srv", which is a fake DNS server that's resolving almost everything to 127.0.0.1. On our setup this is not useful, so instead we're now running a local BIND name server which has a fake root zone and uses the mentioned node attribute to automatically discover other zones in the network of machines and generate delegations from the root zone to the respective zones with the primaryIPAddress of the node. ... We want to use real letsencrypt.org FQDNs here, so we can't get away with the snakeoil test certificates from the upstream project but now roll our own. This not only has the benefit that we can easily pass the snakeoil certificate to other nodes, but we can (and do) also use it for an nginx proxy that's now serving HTTPS for the Boulder web front end. The Headcounter deployment tests are simulating a production scenario with real IPs and nameservers so it won't need to rely on networking.extraHost. However in this implementation we don't necessarily want to do that, so I've added auto-discovery of networking.extraHosts in the resolver module. Another change here is that the letsencrypt module now falls back to using a local resolver, the Headcounter implementation on the other hand always required to add an extra test node which serves as a resolver. I could have squashed both modules into the final ACME test, but that would make it not very reusable, so that's the main reason why I put these modules in tests/common. Signed-off-by: aszlig <aszlig@redmoonstudios.org>
2017-07-27 09:16:29 +01:00
sslCertificate = wfeCertFile;
sslCertificateKey = wfeKeyFile;
locations."/".proxyPass = "http://127.0.0.1:80";
};
services.nginx.virtualHosts.${siteDomain} = {
onlySSL = true;
enableACME = false;
nixos/tests: Add common modules for letsencrypt These modules implement a way to test ACME based on a test instance of Letsencrypt's Boulder service. The service implementation is in letsencrypt.nix and the second module (resolver.nix) is a support-module for the former, but can also be used for tests not involving ACME. The second module provides a DNS server which hosts a root zone containing all the zones and /etc/hosts entries (except loopback) in the entire test network, so this can be very useful for other modules that need DNS resolution. Originally, I wrote these modules for the Headcounter deployment, but I've refactored them a bit to be generally useful to NixOS users. The original implementation can be found here: https://github.com/headcounter/deployment/tree/89e7feafb/modules/testing Quoting parts from the commit message of the initial implementation of the Letsencrypt module in headcounter/deployment@95dfb31110397567534f2: This module is going to be used for tests where we need to impersonate an ACME service such as the one from Letsencrypt within VM tests, which is the reason why this module is a bit ugly (I only care if it's working not if it's beautiful). While the module isn't used anywhere, it will serve as a pluggable module for testing whether ACME works properly to fetch certificates and also as a replacement for our snakeoil certificate generator. Also quoting parts of the commit where I have refactored the same module in headcounter/deployment@85fa481b3431bbc450e8008fd25adc28ef0c6036: Now we have a fully pluggable module which automatically discovers in which network it's used via the nodes attribute. The test environment of Boulder used "dns-test-srv", which is a fake DNS server that's resolving almost everything to 127.0.0.1. On our setup this is not useful, so instead we're now running a local BIND name server which has a fake root zone and uses the mentioned node attribute to automatically discover other zones in the network of machines and generate delegations from the root zone to the respective zones with the primaryIPAddress of the node. ... We want to use real letsencrypt.org FQDNs here, so we can't get away with the snakeoil test certificates from the upstream project but now roll our own. This not only has the benefit that we can easily pass the snakeoil certificate to other nodes, but we can (and do) also use it for an nginx proxy that's now serving HTTPS for the Boulder web front end. The Headcounter deployment tests are simulating a production scenario with real IPs and nameservers so it won't need to rely on networking.extraHost. However in this implementation we don't necessarily want to do that, so I've added auto-discovery of networking.extraHosts in the resolver module. Another change here is that the letsencrypt module now falls back to using a local resolver, the Headcounter implementation on the other hand always required to add an extra test node which serves as a resolver. I could have squashed both modules into the final ACME test, but that would make it not very reusable, so that's the main reason why I put these modules in tests/common. Signed-off-by: aszlig <aszlig@redmoonstudios.org>
2017-07-27 09:16:29 +01:00
sslCertificate = siteCertFile;
sslCertificateKey = siteKeyFile;
locations.${tosPath}.extraConfig = "alias ${tosFile};";
};
systemd.services = {
pkcs11-daemon = {
description = "PKCS11 Daemon";
after = [ "boulder-init-softhsm.service" ];
before = map (n: "${n}.service") (lib.attrNames componentServices);
wantedBy = [ "multi-user.target" ];
environment.SOFTHSM_CONF = softHsmConf;
environment.PKCS11_DAEMON_SOCKET = "tcp://127.0.0.1:5657";
serviceConfig.ExecStart = let
softhsmLib = "${softhsm}/lib/softhsm/libsofthsm.so";
in "${pkcs11-proxy}/bin/pkcs11-daemon ${softhsmLib}";
};
boulder-init-mysql = {
description = "Boulder ACME Init (MySQL)";
after = [ "mysql.service" ];
serviceConfig.Type = "oneshot";
serviceConfig.RemainAfterExit = true;
serviceConfig.WorkingDirectory = boulderSource;
path = commonPath;
script = "${pkgs.bash}/bin/sh test/create_db.sh";
};
boulder-init-softhsm = {
description = "Boulder ACME Init (SoftHSM)";
environment.SOFTHSM_CONF = softHsmConf;
serviceConfig.Type = "oneshot";
serviceConfig.RemainAfterExit = true;
serviceConfig.WorkingDirectory = boulderSource;
preStart = "mkdir -p /var/lib/softhsm";
path = commonPath;
script = ''
softhsm --slot 0 --init-token \
--label intermediate --pin 5678 --so-pin 1234
softhsm --slot 0 --import test/test-ca.key \
--label intermediate_key --pin 5678 --id FB
softhsm --slot 1 --init-token \
--label root --pin 5678 --so-pin 1234
softhsm --slot 1 --import test/test-root.key \
--label root_key --pin 5678 --id FA
'';
};
boulder = {
description = "Boulder ACME Server";
after = map (n: "${n}.service") (lib.attrNames componentServices);
wantedBy = [ "multi-user.target" ];
serviceConfig.Type = "oneshot";
serviceConfig.RemainAfterExit = true;
script = let
ports = lib.range 8000 8005 ++ lib.singleton 80;
netcat = "${pkgs.netcat-openbsd}/bin/nc";
mkPortCheck = port: "${netcat} -z 127.0.0.1 ${toString port}";
checks = "(${lib.concatMapStringsSep " && " mkPortCheck ports})";
in "while ! ${checks}; do :; done";
};
} // componentServices;
};
}