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nomicon/nixos/lib/build-vms.nix

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Add pkgs.nixosTest
6 years ago
{ system
, # Use a minimal kernel?
minimal ? false
, # Ignored
config ? null
nixos/testing: Add support for specialArgs Since using flakes disallows the usage of <unstable> (which I use in some tests), this adds an alternative. By setting specialArgs, all VMs can get the `unstable` flake input as an arg. This is not possible with extraConfigurations, as that would lead to infinite recursions.
4 years ago
, # Nixpkgs, for qemu, lib and more
nixos/lib/qemu-flags: rename to qemu-common The current name is misleading: it doesn't contain cli arguments, but several constants and utility functions related to qemu. This commit also removes the use of `with import ...` for clarity.
3 years ago
pkgs, lib
nixos/testing: Add support for specialArgs Since using flakes disallows the usage of <unstable> (which I use in some tests), this adds an alternative. By setting specialArgs, all VMs can get the `unstable` flake input as an arg. This is not possible with extraConfigurations, as that would lead to infinite recursions.
4 years ago
, # !!! See comment about args in lib/modules.nix
specialArgs ? {}
Add pkgs.nixosTest
6 years ago
, # NixOS configuration to add to the VMs
extraConfigurations ? []
}:
* Stuff for automatic and manual testing of NixOS VMs. lib/build-vms.nix contains a function `buildVirtualNetwork' that takes a specification of a network of machines (as an attribute set of NixOS machine configurations) and builds a script that starts each configuration in a separate QEMU/KVM VM and connects them together in a virtual network. This script can be run manually to test the VMs interactively. There is also a function `runTests' that starts and runs the virtual network in a derivation, and then executes a test specification that tells the VMs to do certain things (i.e., letting one VM send an HTTP request to a webserver on another VM). The tests are written in Perl (for now). tests/subversion.nix shows a simple example, namely a network of two machines: a webserver that runs the Subversion subservice, and a client. Apache, Subversion and a few other packages are built with coverage analysis instrumentation. For instance, $ nix-build tests/subversion.nix -A vms $ ./result/bin/run-vms starts two QEMU/KVM instances. When they have finished booting, the webserver can be accessed from the host through http://localhost:8081/. It also has a small test suite: $ nix-build tests/subversion.nix -A report This runs the VMs in a derivation, runs the tests, and then produces a distributed code coverage analysis report (i.e. it shows the combined coverage on both machines). The Perl test driver program is in lib/test-driver. It executes commands on the guest machines by connecting to a root shell running on port 514 (provided by modules/testing/test-instrumentation.nix). The VMs are connected together in a virtual network using QEMU's multicast feature. This isn't very secure. At the very least, other processes on the same machine can listen to or send packets on the virtual network. On the plus side, we don't need to be root to set up a multicast virtual network, so we can do it from a derivation. Maybe we can use VDE instead. (Moved from the vario repository.) svn path=/nixos/trunk/; revision=16899
15 years ago
nixos/lib/qemu-flags: rename to qemu-common The current name is misleading: it doesn't contain cli arguments, but several constants and utility functions related to qemu. This commit also removes the use of `with import ...` for clarity.
3 years ago
with lib;
* Stuff for automatic and manual testing of NixOS VMs. lib/build-vms.nix contains a function `buildVirtualNetwork' that takes a specification of a network of machines (as an attribute set of NixOS machine configurations) and builds a script that starts each configuration in a separate QEMU/KVM VM and connects them together in a virtual network. This script can be run manually to test the VMs interactively. There is also a function `runTests' that starts and runs the virtual network in a derivation, and then executes a test specification that tells the VMs to do certain things (i.e., letting one VM send an HTTP request to a webserver on another VM). The tests are written in Perl (for now). tests/subversion.nix shows a simple example, namely a network of two machines: a webserver that runs the Subversion subservice, and a client. Apache, Subversion and a few other packages are built with coverage analysis instrumentation. For instance, $ nix-build tests/subversion.nix -A vms $ ./result/bin/run-vms starts two QEMU/KVM instances. When they have finished booting, the webserver can be accessed from the host through http://localhost:8081/. It also has a small test suite: $ nix-build tests/subversion.nix -A report This runs the VMs in a derivation, runs the tests, and then produces a distributed code coverage analysis report (i.e. it shows the combined coverage on both machines). The Perl test driver program is in lib/test-driver. It executes commands on the guest machines by connecting to a root shell running on port 514 (provided by modules/testing/test-instrumentation.nix). The VMs are connected together in a virtual network using QEMU's multicast feature. This isn't very secure. At the very least, other processes on the same machine can listen to or send packets on the virtual network. On the plus side, we don't need to be root to set up a multicast virtual network, so we can do it from a derivation. Maybe we can use VDE instead. (Moved from the vario repository.) svn path=/nixos/trunk/; revision=16899
15 years ago
rec {
inherit pkgs;
# Build a virtual network from an attribute set `{ machine1 =
# config1; ... machineN = configN; }', where `machineX' is the
* Remove "nix-build tests -A foo.vms; ./result/bin/run-vms" as a way to run the VMs of a test. Instead, you can do $ nix-build tests -A foo.driver $ ./result/bin/nixos-run-vms This uses the test driver infrastructure, which is necessary in order to set up the VDE switches. svn path=/nixos/trunk/; revision=25586
14 years ago
# hostname and `configX' is a NixOS system configuration. Each
# machine is given an arbitrary IP address in the virtual network.
* Stuff for automatic and manual testing of NixOS VMs. lib/build-vms.nix contains a function `buildVirtualNetwork' that takes a specification of a network of machines (as an attribute set of NixOS machine configurations) and builds a script that starts each configuration in a separate QEMU/KVM VM and connects them together in a virtual network. This script can be run manually to test the VMs interactively. There is also a function `runTests' that starts and runs the virtual network in a derivation, and then executes a test specification that tells the VMs to do certain things (i.e., letting one VM send an HTTP request to a webserver on another VM). The tests are written in Perl (for now). tests/subversion.nix shows a simple example, namely a network of two machines: a webserver that runs the Subversion subservice, and a client. Apache, Subversion and a few other packages are built with coverage analysis instrumentation. For instance, $ nix-build tests/subversion.nix -A vms $ ./result/bin/run-vms starts two QEMU/KVM instances. When they have finished booting, the webserver can be accessed from the host through http://localhost:8081/. It also has a small test suite: $ nix-build tests/subversion.nix -A report This runs the VMs in a derivation, runs the tests, and then produces a distributed code coverage analysis report (i.e. it shows the combined coverage on both machines). The Perl test driver program is in lib/test-driver. It executes commands on the guest machines by connecting to a root shell running on port 514 (provided by modules/testing/test-instrumentation.nix). The VMs are connected together in a virtual network using QEMU's multicast feature. This isn't very secure. At the very least, other processes on the same machine can listen to or send packets on the virtual network. On the plus side, we don't need to be root to set up a multicast virtual network, so we can do it from a derivation. Maybe we can use VDE instead. (Moved from the vario repository.) svn path=/nixos/trunk/; revision=16899
15 years ago
buildVirtualNetwork =
Turn networking.interfaces into an attribute set Thus networking.interfaces = [ { name = "eth0"; ipAddress = "192.168.15.1"; } ]; can now be written as networking.interfaces.eth0.ipAddress = "192.168.15.1"; The old notation still works though.
12 years ago
nodes: let nodesOut = mapAttrs (n: buildVM nodesOut) (assignIPAddresses nodes); in nodesOut;
* Stuff for automatic and manual testing of NixOS VMs. lib/build-vms.nix contains a function `buildVirtualNetwork' that takes a specification of a network of machines (as an attribute set of NixOS machine configurations) and builds a script that starts each configuration in a separate QEMU/KVM VM and connects them together in a virtual network. This script can be run manually to test the VMs interactively. There is also a function `runTests' that starts and runs the virtual network in a derivation, and then executes a test specification that tells the VMs to do certain things (i.e., letting one VM send an HTTP request to a webserver on another VM). The tests are written in Perl (for now). tests/subversion.nix shows a simple example, namely a network of two machines: a webserver that runs the Subversion subservice, and a client. Apache, Subversion and a few other packages are built with coverage analysis instrumentation. For instance, $ nix-build tests/subversion.nix -A vms $ ./result/bin/run-vms starts two QEMU/KVM instances. When they have finished booting, the webserver can be accessed from the host through http://localhost:8081/. It also has a small test suite: $ nix-build tests/subversion.nix -A report This runs the VMs in a derivation, runs the tests, and then produces a distributed code coverage analysis report (i.e. it shows the combined coverage on both machines). The Perl test driver program is in lib/test-driver. It executes commands on the guest machines by connecting to a root shell running on port 514 (provided by modules/testing/test-instrumentation.nix). The VMs are connected together in a virtual network using QEMU's multicast feature. This isn't very secure. At the very least, other processes on the same machine can listen to or send packets on the virtual network. On the plus side, we don't need to be root to set up a multicast virtual network, so we can do it from a derivation. Maybe we can use VDE instead. (Moved from the vario repository.) svn path=/nixos/trunk/; revision=16899
15 years ago
buildVM =
Imports of imported attribute set are not working anymore because this feature is hard to maintain and because this a potential source of error. Imports are only accepted inside named modules where the system has some control over mutual inclusion. svn path=/nixos/trunk/; revision=17143
15 years ago
nodes: configurations:
* Stuff for automatic and manual testing of NixOS VMs. lib/build-vms.nix contains a function `buildVirtualNetwork' that takes a specification of a network of machines (as an attribute set of NixOS machine configurations) and builds a script that starts each configuration in a separate QEMU/KVM VM and connects them together in a virtual network. This script can be run manually to test the VMs interactively. There is also a function `runTests' that starts and runs the virtual network in a derivation, and then executes a test specification that tells the VMs to do certain things (i.e., letting one VM send an HTTP request to a webserver on another VM). The tests are written in Perl (for now). tests/subversion.nix shows a simple example, namely a network of two machines: a webserver that runs the Subversion subservice, and a client. Apache, Subversion and a few other packages are built with coverage analysis instrumentation. For instance, $ nix-build tests/subversion.nix -A vms $ ./result/bin/run-vms starts two QEMU/KVM instances. When they have finished booting, the webserver can be accessed from the host through http://localhost:8081/. It also has a small test suite: $ nix-build tests/subversion.nix -A report This runs the VMs in a derivation, runs the tests, and then produces a distributed code coverage analysis report (i.e. it shows the combined coverage on both machines). The Perl test driver program is in lib/test-driver. It executes commands on the guest machines by connecting to a root shell running on port 514 (provided by modules/testing/test-instrumentation.nix). The VMs are connected together in a virtual network using QEMU's multicast feature. This isn't very secure. At the very least, other processes on the same machine can listen to or send packets on the virtual network. On the plus side, we don't need to be root to set up a multicast virtual network, so we can do it from a derivation. Maybe we can use VDE instead. (Moved from the vario repository.) svn path=/nixos/trunk/; revision=16899
15 years ago
* Moved test-related stuff from lib/build-vms.nix to lib/testing.nix. * Factored out some commonality between tests to make them a bit simpler to write. A test is a function { pkgs, ... }: -> { nodes, testScript } or { machine, testScript }. So it's no longer necessary to have a "vms" attribute in every test. svn path=/nixos/trunk/; revision=19220
15 years ago
import ./eval-config.nix {
nixos/testing: Add support for specialArgs Since using flakes disallows the usage of <unstable> (which I use in some tests), this adds an alternative. By setting specialArgs, all VMs can get the `unstable` flake input as an arg. This is not possible with extraConfigurations, as that would lead to infinite recursions.
4 years ago
inherit system specialArgs;
nixos: Make nesting.children work in NixOS tests We differentiate between modules and baseModules in the VM builder for NixOS tests. This way, nesting.children, eventhough it doesn't inherit from parent, still has enough config to actually complete the test. Otherwise, the qemu modules would not be loaded, for example, and a nesting.children statement would not evaluate.
5 years ago
modules = configurations ++ extraConfigurations;
baseModules = (import ../modules/module-list.nix) ++
* Factor out the X11 configuration. svn path=/nixos/trunk/; revision=19241
15 years ago
[ ../modules/virtualisation/qemu-vm.nix
* Moved test-related stuff from lib/build-vms.nix to lib/testing.nix. * Factored out some commonality between tests to make them a bit simpler to write. A test is a function { pkgs, ... }: -> { nodes, testScript } or { machine, testScript }. So it's no longer necessary to have a "vms" attribute in every test. svn path=/nixos/trunk/; revision=19220
15 years ago
../modules/testing/test-instrumentation.nix # !!! should only get added for automated test runs
nixos: doc: move non-service parts of `service.nixosManual` to `documentation.nixos`
6 years ago
{ key = "no-manual"; documentation.nixos.enable = false; }
nixosTest: Make system.nixos.revision constant Make the revision metadata constant, in order to avoid needless retesting. The human version (e.g. 21.05-pre) is left as is, because it is useful for external modules that test with e.g. nixosTest and rely on that version number.
3 years ago
{ key = "no-revision";
# Make the revision metadata constant, in order to avoid needless retesting.
# The human version (e.g. 21.05-pre) is left as is, because it is useful
treewide: nixosTest -> testers.nixosTest
2 years ago
# for external modules that test with e.g. testers.nixosTest and rely on that
nixosTest: Make system.nixos.revision constant Make the revision metadata constant, in order to avoid needless retesting. The human version (e.g. 21.05-pre) is left as is, because it is useful for external modules that test with e.g. nixosTest and rely on that version number.
3 years ago
# version number.
nixosTest: Force system.nixos.revision constant nixos tests are blended with other system configurations, hence their settings must be either enforced or defaulted. This particular setting is set via lib.nixosSystem as `system.nixos.revision = final.mkIf (self ? rev) self.rev;` which would mean that without this change no flake generated nixos could be blended with nixos testing. This setting was made previously constant in 169c6b4b1478a3a0c823c99ea39d4082f76a2708 in order to avoid pointless rebuilds of the testing VMs, but was set without enforcing it.
3 years ago
config.system.nixos.revision = mkForce "constant-nixos-revision";
nixosTest: Make system.nixos.revision constant Make the revision metadata constant, in order to avoid needless retesting. The human version (e.g. 21.05-pre) is left as is, because it is useful for external modules that test with e.g. nixosTest and rely on that version number.
3 years ago
}
nixos: Make 'nesting.clone' work in NixOS tests Because nesting.clone calls 'eval-config.nix' manually, without the 'extraArgs' argument that provides the 'nodes' argument to nixos modules in nixos tests, evaluating of 'nesting.clone' definitions would fail with the following error while evaluating the module argument `nodes' in "<redacted>" while evaluating the attribute '_module.args.nodes' at undefined position: attribute 'nodes' missing, at <redacted./nixpkgs/lib/modules.nix:163:28 by not using 'extraArgs' but a nixos module instead, the nodes parameter gets propagated to the 'eval-config.nix' call that 'nesting.clone' makes too - getting rid of the error. See https://github.com/NixOS/nixpkgs/blob/master/nixos/modules/system/activation/top-level.nix#L13-L23 See https://github.com/NixOS/nixpkgs/blob/master/nixos/lib/build-vms.nix#L27 See https://github.com/NixOS/nixpkgs/issues/20886#issuecomment-495952149
5 years ago
{ key = "nodes"; _module.args.nodes = nodes; }
nixos: Make nesting.children work in NixOS tests We differentiate between modules and baseModules in the VM builder for NixOS tests. This way, nesting.children, eventhough it doesn't inherit from parent, still has enough config to actually complete the test. Otherwise, the qemu modules would not be loaded, for example, and a nesting.children statement would not evaluate.
5 years ago
] ++ optional minimal ../modules/testing/minimal-kernel.nix;
* Stuff for automatic and manual testing of NixOS VMs. lib/build-vms.nix contains a function `buildVirtualNetwork' that takes a specification of a network of machines (as an attribute set of NixOS machine configurations) and builds a script that starts each configuration in a separate QEMU/KVM VM and connects them together in a virtual network. This script can be run manually to test the VMs interactively. There is also a function `runTests' that starts and runs the virtual network in a derivation, and then executes a test specification that tells the VMs to do certain things (i.e., letting one VM send an HTTP request to a webserver on another VM). The tests are written in Perl (for now). tests/subversion.nix shows a simple example, namely a network of two machines: a webserver that runs the Subversion subservice, and a client. Apache, Subversion and a few other packages are built with coverage analysis instrumentation. For instance, $ nix-build tests/subversion.nix -A vms $ ./result/bin/run-vms starts two QEMU/KVM instances. When they have finished booting, the webserver can be accessed from the host through http://localhost:8081/. It also has a small test suite: $ nix-build tests/subversion.nix -A report This runs the VMs in a derivation, runs the tests, and then produces a distributed code coverage analysis report (i.e. it shows the combined coverage on both machines). The Perl test driver program is in lib/test-driver. It executes commands on the guest machines by connecting to a root shell running on port 514 (provided by modules/testing/test-instrumentation.nix). The VMs are connected together in a virtual network using QEMU's multicast feature. This isn't very secure. At the very least, other processes on the same machine can listen to or send packets on the virtual network. On the plus side, we don't need to be root to set up a multicast virtual network, so we can do it from a derivation. Maybe we can use VDE instead. (Moved from the vario repository.) svn path=/nixos/trunk/; revision=16899
15 years ago
};
# Given an attribute set { machine1 = config1; ... machineN =
# configN; }, sequentially assign IP addresses in the 192.168.1.0/24
# range to each machine, and set the hostname to the attribute name.
assignIPAddresses = nodes:
let
strip trailing whitespace; no functional change svn path=/nixos/trunk/; revision=29285
13 years ago
Turn networking.interfaces into an attribute set Thus networking.interfaces = [ { name = "eth0"; ipAddress = "192.168.15.1"; } ]; can now be written as networking.interfaces.eth0.ipAddress = "192.168.15.1"; The old notation still works though.
12 years ago
machines = attrNames nodes;
* Stuff for automatic and manual testing of NixOS VMs. lib/build-vms.nix contains a function `buildVirtualNetwork' that takes a specification of a network of machines (as an attribute set of NixOS machine configurations) and builds a script that starts each configuration in a separate QEMU/KVM VM and connects them together in a virtual network. This script can be run manually to test the VMs interactively. There is also a function `runTests' that starts and runs the virtual network in a derivation, and then executes a test specification that tells the VMs to do certain things (i.e., letting one VM send an HTTP request to a webserver on another VM). The tests are written in Perl (for now). tests/subversion.nix shows a simple example, namely a network of two machines: a webserver that runs the Subversion subservice, and a client. Apache, Subversion and a few other packages are built with coverage analysis instrumentation. For instance, $ nix-build tests/subversion.nix -A vms $ ./result/bin/run-vms starts two QEMU/KVM instances. When they have finished booting, the webserver can be accessed from the host through http://localhost:8081/. It also has a small test suite: $ nix-build tests/subversion.nix -A report This runs the VMs in a derivation, runs the tests, and then produces a distributed code coverage analysis report (i.e. it shows the combined coverage on both machines). The Perl test driver program is in lib/test-driver. It executes commands on the guest machines by connecting to a root shell running on port 514 (provided by modules/testing/test-instrumentation.nix). The VMs are connected together in a virtual network using QEMU's multicast feature. This isn't very secure. At the very least, other processes on the same machine can listen to or send packets on the virtual network. On the plus side, we don't need to be root to set up a multicast virtual network, so we can do it from a derivation. Maybe we can use VDE instead. (Moved from the vario repository.) svn path=/nixos/trunk/; revision=16899
15 years ago
Remove zipTwoLists This function is redundant (we also have zipLists).
9 years ago
machinesNumbered = zipLists machines (range 1 254);
* Allow more complex network topologies in distributed tests. Each machine can now declare an option `virtualisation.vlans' that causes it to have network interfaces connected to each listed virtual network. For instance, virtualisation.vlans = [ 1 2 ]; causes the machine to have two interfaces (in addition to eth0, used by the test driver to control the machine): eth1 connected to network 1 with IP address 192.168.1.<i>, and eth2 connected to network 2 with address 192.168.2.<i> (where <i> is the index of the machine in the `nodes' attribute set). On the other hand, virtualisation.vlans = [ 2 ]; causes the machine to only have an eth1 connected to network 2 with address 192.168.2.<i>. So each virtual network <n> is assigned the IP range 192.168.<n>.0/24. Each virtual network is implemented using a separate multicast address on the host, so guests really cannot talk to networks to which they are not connected. * Added a simple NAT test to demonstrate this. * Added an option `virtualisation.qemu.options' to specify QEMU command-line options. Used to factor out some commonality between the test driver script and the interactive test script. svn path=/nixos/trunk/; revision=21928
14 years ago
mass replace "flip map -> forEach" See `forEach`-introduction commit. ``` rg 'flip map ' --files-with-matches | xargs sed -i 's/flip map /forEach /g' ```
5 years ago
nodes_ = forEach machinesNumbered (m: nameValuePair m.fst
[bot] nixos/*: remove unused arguments in lambdas
6 years ago
[ ( { config, nodes, ... }:
* Allow more complex network topologies in distributed tests. Each machine can now declare an option `virtualisation.vlans' that causes it to have network interfaces connected to each listed virtual network. For instance, virtualisation.vlans = [ 1 2 ]; causes the machine to have two interfaces (in addition to eth0, used by the test driver to control the machine): eth1 connected to network 1 with IP address 192.168.1.<i>, and eth2 connected to network 2 with address 192.168.2.<i> (where <i> is the index of the machine in the `nodes' attribute set). On the other hand, virtualisation.vlans = [ 2 ]; causes the machine to only have an eth1 connected to network 2 with address 192.168.2.<i>. So each virtual network <n> is assigned the IP range 192.168.<n>.0/24. Each virtual network is implemented using a separate multicast address on the host, so guests really cannot talk to networks to which they are not connected. * Added a simple NAT test to demonstrate this. * Added an option `virtualisation.qemu.options' to specify QEMU command-line options. Used to factor out some commonality between the test driver script and the interactive test script. svn path=/nixos/trunk/; revision=21928
14 years ago
let
Remove zipTwoLists This function is redundant (we also have zipLists).
9 years ago
interfacesNumbered = zipLists config.virtualisation.vlans (range 1 255);
mass replace "flip map -> forEach" See `forEach`-introduction commit. ``` rg 'flip map ' --files-with-matches | xargs sed -i 's/flip map /forEach /g' ```
5 years ago
interfaces = forEach interfacesNumbered ({ fst, snd }:
nixos/networking-interfaces: rename IP addresses/routes options
7 years ago
nameValuePair "eth${toString snd}" { ipv4.addresses =
Remove zipTwoLists This function is redundant (we also have zipLists).
9 years ago
[ { address = "192.168.${toString fst}.${toString m.snd}";
Revert "Revert "Merge pull request #3182 from wkennington/master.ipv6"" This reverts commit ea8910652fcecbcd4f21aa1c66b1a0a239408b04.
10 years ago
prefixLength = 24;
} ];
Revert "Revert "Fix syntax error in nixos/lib/build-vms.nix, introduced by 86c0f8c"" This reverts commit 2f697bf6931b24cdd428e22effbf6427a85afd42.
10 years ago
});
nixosTest: Provide system.build.networkConfig
3 years ago
networkConfig =
Make hostname in tests overridable The original form effectively forbade any NixOS configuration that is under test to explicitly set the hostname.
5 years ago
{ networking.hostName = mkDefault m.fst;
strip trailing whitespace; no functional change svn path=/nixos/trunk/; revision=29285
13 years ago
Turn networking.interfaces into an attribute set Thus networking.interfaces = [ { name = "eth0"; ipAddress = "192.168.15.1"; } ]; can now be written as networking.interfaces.eth0.ipAddress = "192.168.15.1"; The old notation still works though.
12 years ago
networking.interfaces = listToAttrs interfaces;
strip trailing whitespace; no functional change svn path=/nixos/trunk/; revision=29285
13 years ago
* Allow more complex network topologies in distributed tests. Each machine can now declare an option `virtualisation.vlans' that causes it to have network interfaces connected to each listed virtual network. For instance, virtualisation.vlans = [ 1 2 ]; causes the machine to have two interfaces (in addition to eth0, used by the test driver to control the machine): eth1 connected to network 1 with IP address 192.168.1.<i>, and eth2 connected to network 2 with address 192.168.2.<i> (where <i> is the index of the machine in the `nodes' attribute set). On the other hand, virtualisation.vlans = [ 2 ]; causes the machine to only have an eth1 connected to network 2 with address 192.168.2.<i>. So each virtual network <n> is assigned the IP range 192.168.<n>.0/24. Each virtual network is implemented using a separate multicast address on the host, so guests really cannot talk to networks to which they are not connected. * Added a simple NAT test to demonstrate this. * Added an option `virtualisation.qemu.options' to specify QEMU command-line options. Used to factor out some commonality between the test driver script and the interactive test script. svn path=/nixos/trunk/; revision=21928
14 years ago
networking.primaryIPAddress =
nixos/networking-interfaces: rename IP addresses/routes options
7 years ago
optionalString (interfaces != []) (head (head interfaces).value.ipv4.addresses).address;
strip trailing whitespace; no functional change svn path=/nixos/trunk/; revision=29285
13 years ago
* Allow more complex network topologies in distributed tests. Each machine can now declare an option `virtualisation.vlans' that causes it to have network interfaces connected to each listed virtual network. For instance, virtualisation.vlans = [ 1 2 ]; causes the machine to have two interfaces (in addition to eth0, used by the test driver to control the machine): eth1 connected to network 1 with IP address 192.168.1.<i>, and eth2 connected to network 2 with address 192.168.2.<i> (where <i> is the index of the machine in the `nodes' attribute set). On the other hand, virtualisation.vlans = [ 2 ]; causes the machine to only have an eth1 connected to network 2 with address 192.168.2.<i>. So each virtual network <n> is assigned the IP range 192.168.<n>.0/24. Each virtual network is implemented using a separate multicast address on the host, so guests really cannot talk to networks to which they are not connected. * Added a simple NAT test to demonstrate this. * Added an option `virtualisation.qemu.options' to specify QEMU command-line options. Used to factor out some commonality between the test driver script and the interactive test script. svn path=/nixos/trunk/; revision=21928
14 years ago
# Put the IP addresses of all VMs in this machine's
# /etc/hosts file. If a machine has multiple
# interfaces, use the IP address corresponding to
# the first interface (i.e. the first network in its
# virtualisation.vlans option).
Turn networking.interfaces into an attribute set Thus networking.interfaces = [ { name = "eth0"; ipAddress = "192.168.15.1"; } ]; can now be written as networking.interfaces.eth0.ipAddress = "192.168.15.1"; The old notation still works though.
12 years ago
networking.extraHosts = flip concatMapStrings machines
Add a regression test for hostname / nss_myhostname Issue #1248.
11 years ago
(m': let config = (getAttr m' nodes).config; in
In a test VM it's impossible to connect to itself, so fix this
9 years ago
optionalString (config.networking.primaryIPAddress != "")
* Allow more complex network topologies in distributed tests. Each machine can now declare an option `virtualisation.vlans' that causes it to have network interfaces connected to each listed virtual network. For instance, virtualisation.vlans = [ 1 2 ]; causes the machine to have two interfaces (in addition to eth0, used by the test driver to control the machine): eth1 connected to network 1 with IP address 192.168.1.<i>, and eth2 connected to network 2 with address 192.168.2.<i> (where <i> is the index of the machine in the `nodes' attribute set). On the other hand, virtualisation.vlans = [ 2 ]; causes the machine to only have an eth1 connected to network 2 with address 192.168.2.<i>. So each virtual network <n> is assigned the IP range 192.168.<n>.0/24. Each virtual network is implemented using a separate multicast address on the host, so guests really cannot talk to networks to which they are not connected. * Added a simple NAT test to demonstrate this. * Added an option `virtualisation.qemu.options' to specify QEMU command-line options. Used to factor out some commonality between the test driver script and the interactive test script. svn path=/nixos/trunk/; revision=21928
14 years ago
("${config.networking.primaryIPAddress} " +
test: set machines fqdn in /etc/hosts
6 years ago
optionalString (config.networking.domain != null)
"${config.networking.hostName}.${config.networking.domain} " +
* Allow more complex network topologies in distributed tests. Each machine can now declare an option `virtualisation.vlans' that causes it to have network interfaces connected to each listed virtual network. For instance, virtualisation.vlans = [ 1 2 ]; causes the machine to have two interfaces (in addition to eth0, used by the test driver to control the machine): eth1 connected to network 1 with IP address 192.168.1.<i>, and eth2 connected to network 2 with address 192.168.2.<i> (where <i> is the index of the machine in the `nodes' attribute set). On the other hand, virtualisation.vlans = [ 2 ]; causes the machine to only have an eth1 connected to network 2 with address 192.168.2.<i>. So each virtual network <n> is assigned the IP range 192.168.<n>.0/24. Each virtual network is implemented using a separate multicast address on the host, so guests really cannot talk to networks to which they are not connected. * Added a simple NAT test to demonstrate this. * Added an option `virtualisation.qemu.options' to specify QEMU command-line options. Used to factor out some commonality between the test driver script and the interactive test script. svn path=/nixos/trunk/; revision=21928
14 years ago
"${config.networking.hostName}\n"));
strip trailing whitespace; no functional change svn path=/nixos/trunk/; revision=29285
13 years ago
* Allow more complex network topologies in distributed tests. Each machine can now declare an option `virtualisation.vlans' that causes it to have network interfaces connected to each listed virtual network. For instance, virtualisation.vlans = [ 1 2 ]; causes the machine to have two interfaces (in addition to eth0, used by the test driver to control the machine): eth1 connected to network 1 with IP address 192.168.1.<i>, and eth2 connected to network 2 with address 192.168.2.<i> (where <i> is the index of the machine in the `nodes' attribute set). On the other hand, virtualisation.vlans = [ 2 ]; causes the machine to only have an eth1 connected to network 2 with address 192.168.2.<i>. So each virtual network <n> is assigned the IP range 192.168.<n>.0/24. Each virtual network is implemented using a separate multicast address on the host, so guests really cannot talk to networks to which they are not connected. * Added a simple NAT test to demonstrate this. * Added an option `virtualisation.qemu.options' to specify QEMU command-line options. Used to factor out some commonality between the test driver script and the interactive test script. svn path=/nixos/trunk/; revision=21928
14 years ago
virtualisation.qemu.options =
nixos/lib/qemu-flags: rename to qemu-common The current name is misleading: it doesn't contain cli arguments, but several constants and utility functions related to qemu. This commit also removes the use of `with import ...` for clarity.
3 years ago
let qemu-common = import ../lib/qemu-common.nix { inherit lib pkgs; };
in flip concatMap interfacesNumbered
({ fst, snd }: qemu-common.qemuNICFlags snd fst m.snd);
* Allow more complex network topologies in distributed tests. Each machine can now declare an option `virtualisation.vlans' that causes it to have network interfaces connected to each listed virtual network. For instance, virtualisation.vlans = [ 1 2 ]; causes the machine to have two interfaces (in addition to eth0, used by the test driver to control the machine): eth1 connected to network 1 with IP address 192.168.1.<i>, and eth2 connected to network 2 with address 192.168.2.<i> (where <i> is the index of the machine in the `nodes' attribute set). On the other hand, virtualisation.vlans = [ 2 ]; causes the machine to only have an eth1 connected to network 2 with address 192.168.2.<i>. So each virtual network <n> is assigned the IP range 192.168.<n>.0/24. Each virtual network is implemented using a separate multicast address on the host, so guests really cannot talk to networks to which they are not connected. * Added a simple NAT test to demonstrate this. * Added an option `virtualisation.qemu.options' to specify QEMU command-line options. Used to factor out some commonality between the test driver script and the interactive test script. svn path=/nixos/trunk/; revision=21928
14 years ago
};
nixosTest: Provide system.build.networkConfig
3 years ago
in
{ key = "ip-address";
config = networkConfig // {
# Expose the networkConfig items for tests like nixops
# that need to recreate the network config.
system.build.networkConfig = networkConfig;
};
}
* Allow more complex network topologies in distributed tests. Each machine can now declare an option `virtualisation.vlans' that causes it to have network interfaces connected to each listed virtual network. For instance, virtualisation.vlans = [ 1 2 ]; causes the machine to have two interfaces (in addition to eth0, used by the test driver to control the machine): eth1 connected to network 1 with IP address 192.168.1.<i>, and eth2 connected to network 2 with address 192.168.2.<i> (where <i> is the index of the machine in the `nodes' attribute set). On the other hand, virtualisation.vlans = [ 2 ]; causes the machine to only have an eth1 connected to network 2 with address 192.168.2.<i>. So each virtual network <n> is assigned the IP range 192.168.<n>.0/24. Each virtual network is implemented using a separate multicast address on the host, so guests really cannot talk to networks to which they are not connected. * Added a simple NAT test to demonstrate this. * Added an option `virtualisation.qemu.options' to specify QEMU command-line options. Used to factor out some commonality between the test driver script and the interactive test script. svn path=/nixos/trunk/; revision=21928
14 years ago
)
Remove zipTwoLists This function is redundant (we also have zipLists).
9 years ago
(getAttr m.fst nodes)
* Allow more complex network topologies in distributed tests. Each machine can now declare an option `virtualisation.vlans' that causes it to have network interfaces connected to each listed virtual network. For instance, virtualisation.vlans = [ 1 2 ]; causes the machine to have two interfaces (in addition to eth0, used by the test driver to control the machine): eth1 connected to network 1 with IP address 192.168.1.<i>, and eth2 connected to network 2 with address 192.168.2.<i> (where <i> is the index of the machine in the `nodes' attribute set). On the other hand, virtualisation.vlans = [ 2 ]; causes the machine to only have an eth1 connected to network 2 with address 192.168.2.<i>. So each virtual network <n> is assigned the IP range 192.168.<n>.0/24. Each virtual network is implemented using a separate multicast address on the host, so guests really cannot talk to networks to which they are not connected. * Added a simple NAT test to demonstrate this. * Added an option `virtualisation.qemu.options' to specify QEMU command-line options. Used to factor out some commonality between the test driver script and the interactive test script. svn path=/nixos/trunk/; revision=21928
14 years ago
] );
* Stuff for automatic and manual testing of NixOS VMs. lib/build-vms.nix contains a function `buildVirtualNetwork' that takes a specification of a network of machines (as an attribute set of NixOS machine configurations) and builds a script that starts each configuration in a separate QEMU/KVM VM and connects them together in a virtual network. This script can be run manually to test the VMs interactively. There is also a function `runTests' that starts and runs the virtual network in a derivation, and then executes a test specification that tells the VMs to do certain things (i.e., letting one VM send an HTTP request to a webserver on another VM). The tests are written in Perl (for now). tests/subversion.nix shows a simple example, namely a network of two machines: a webserver that runs the Subversion subservice, and a client. Apache, Subversion and a few other packages are built with coverage analysis instrumentation. For instance, $ nix-build tests/subversion.nix -A vms $ ./result/bin/run-vms starts two QEMU/KVM instances. When they have finished booting, the webserver can be accessed from the host through http://localhost:8081/. It also has a small test suite: $ nix-build tests/subversion.nix -A report This runs the VMs in a derivation, runs the tests, and then produces a distributed code coverage analysis report (i.e. it shows the combined coverage on both machines). The Perl test driver program is in lib/test-driver. It executes commands on the guest machines by connecting to a root shell running on port 514 (provided by modules/testing/test-instrumentation.nix). The VMs are connected together in a virtual network using QEMU's multicast feature. This isn't very secure. At the very least, other processes on the same machine can listen to or send packets on the virtual network. On the plus side, we don't need to be root to set up a multicast virtual network, so we can do it from a derivation. Maybe we can use VDE instead. (Moved from the vario repository.) svn path=/nixos/trunk/; revision=16899
15 years ago
Turn networking.interfaces into an attribute set Thus networking.interfaces = [ { name = "eth0"; ipAddress = "192.168.15.1"; } ]; can now be written as networking.interfaces.eth0.ipAddress = "192.168.15.1"; The old notation still works though.
12 years ago
in listToAttrs nodes_;
* Stuff for automatic and manual testing of NixOS VMs. lib/build-vms.nix contains a function `buildVirtualNetwork' that takes a specification of a network of machines (as an attribute set of NixOS machine configurations) and builds a script that starts each configuration in a separate QEMU/KVM VM and connects them together in a virtual network. This script can be run manually to test the VMs interactively. There is also a function `runTests' that starts and runs the virtual network in a derivation, and then executes a test specification that tells the VMs to do certain things (i.e., letting one VM send an HTTP request to a webserver on another VM). The tests are written in Perl (for now). tests/subversion.nix shows a simple example, namely a network of two machines: a webserver that runs the Subversion subservice, and a client. Apache, Subversion and a few other packages are built with coverage analysis instrumentation. For instance, $ nix-build tests/subversion.nix -A vms $ ./result/bin/run-vms starts two QEMU/KVM instances. When they have finished booting, the webserver can be accessed from the host through http://localhost:8081/. It also has a small test suite: $ nix-build tests/subversion.nix -A report This runs the VMs in a derivation, runs the tests, and then produces a distributed code coverage analysis report (i.e. it shows the combined coverage on both machines). The Perl test driver program is in lib/test-driver. It executes commands on the guest machines by connecting to a root shell running on port 514 (provided by modules/testing/test-instrumentation.nix). The VMs are connected together in a virtual network using QEMU's multicast feature. This isn't very secure. At the very least, other processes on the same machine can listen to or send packets on the virtual network. On the plus side, we don't need to be root to set up a multicast virtual network, so we can do it from a derivation. Maybe we can use VDE instead. (Moved from the vario repository.) svn path=/nixos/trunk/; revision=16899
15 years ago
}