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342 lines
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342 lines
18 KiB
Markdown
---
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layout: doc
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title: "Qrexec: secure communication across domains"
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permalink: /doc/qrexec/
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redirect_from:
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- /en/doc/qrexec3/
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- /doc/Qrexec3/
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- /doc/qrexec3/
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- /wiki/Qrexec3/
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- /doc/qrexec/
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- /en/doc/qrexec/
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- /doc/Qrexec/
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- /wiki/Qrexec/
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---
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# Qrexec: secure communication across domains
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(*This page is about qrexec v3. For qrexec v2, see [here](/doc/qrexec2/).*)
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The **qrexec framework** is used by core Qubes components to implement communication between domains.
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Qubes domains are strictly isolated by design.
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However, the OS needs a mechanism to allow the administrative domain (dom0) to force command execution in another domain (VM).
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For instance, when a user selects an application from the KDE menu, it should start in the selected VM.
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Also, it is often useful to be able to pass stdin/stdout/stderr from an application running in a VM to dom0 (and the other way around).
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(For example, so that a VM can notify dom0 that there are updates available for it).
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By default, Qubes allows VMs initiate such communications in specific circumstances.
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The qrexec framework generalizes this process by providing a remote procedure call (RPC) protocol for the Qubes architecture.
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It allows users and developers to use and design secure inter-VM tools.
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## Qrexec basics: architecture and examples
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Qrexec is built on top of *vchan*, a Xen library providing data links between VMs.
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During domain startup , a process named `qrexec-daemon` is started in dom0, and a process named `qrexec-agent` is started in the VM.
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They are connected over a **vchan** channel.
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`qrexec-daemon` listens for connections from a dom0 utility named `qrexec-client`.
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Let's say we want to start a process (call it `VMprocess`) in a VM (`someVM`).
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Typically, the first thing that a `qrexec-client` instance does is to send a request to the `qrexec-daemon`, which in turn relays it to `qrexec-agent` running in `someVM`.
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`qrexec-daemon` assigns unique vchan connection details and sends them to both `qrexec-client` (in dom0) and `qrexec-agent` (in `someVM`).
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`qrexec-client` starts a vchan server, which `qrexec-agent` then connects to.
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Once this channel is established, stdin/stdout/stderr from the VMprocess is passed between `qrexec-agent` and the `qrexec-client` process.
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![qrexec basics diagram](/attachment/wiki/qrexec3/qrexec3-basics.png)
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The `qrexec-client` command is used to make connections to VMs from dom0.
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For example, the following command creates an empty file called `hello-world.txt` in the home folder of `someVM`:
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```
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$ qrexec-client -e -d someVM user:'touch hello-world.txt'
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```
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The string before the colon specifies what user to run the command as.
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The `-e` flag tells `qrexec-client` to exit immediately after sending the execution request and receiving a status code from `qrexec-agent` (whether the process creation succeeded).
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With this option, no further data is passed between the domains.
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By contrast, the following command demonstrates an open channel between dom0 and someVM (in this case, a remote shell):
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```
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$ qrexec-client -d someVM user:bash
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```
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The `qvm-run` command is heavily based on `qrexec-client`.
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It also takes care of additional activities, e.g. starting the domain if it is not up yet and starting the GUI daemon.
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Thus, it is usually more convenient to use `qvm-run`.
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There can be an almost arbitrary number of `qrexec-client` processes for a given domain.
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The limiting factor is the number of available vchan channels, which depends on the underlying hypervisor, as well the domain's OS.
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For more details on the qrexec framework and protocol, see "[Qubes RPC internals](/doc/qrexec-internals)."
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## Qubes RPC services
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Some common tasks (like copying files between VMs) have an RPC-like structure: a process in one VM (say, the file sender) needs to invoke and send/receive data to some process in other VM (say, the file receiver).
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The Qubes RPC framework was created to securely facilitate a range of such actions.
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Obviously, inter-VM communication must be tightly controlled to prevent one VM from taking control of another, possibly more privileged, VM.
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Therefore the design decision was made to pass all control communication via dom0, that can enforce proper authorization.
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Then, it is natural to reuse the already-existing qrexec framework.
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Also, note that bare qrexec provides `VM <-> dom0` connectivity, but the command execution is always initiated by dom0.
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There are cases when VM needs to invoke and send data to a command in dom0 (e.g. to pass information on newly installed `.desktop` files).
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Thus, the framework allows dom0 to be the RPC target as well.
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Thanks to the framework, RPC programs are very simple -- both RPC client and server just use their stdin/stdout to pass data.
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The framework does all the inner work to connect these processes to each other via `qrexec-daemon` and `qrexec-agent`.
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Additionally, disposable VMs are tightly integrated -- RPC to a DisposableVM is identical to RPC to a normal domain, all one needs is to pass `@dispvm` as the remote domain name.
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## Qubes RPC administration
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### Policy files
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The dom0 directory `/etc/qubes-rpc/policy/` contains a file for each available RPC action that a VM might call.
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Together the contents of these files make up the RPC access policy database.
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Policies are defined in lines with the following format:
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```
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srcvm destvm (allow|deny|ask[,default_target=default_target_VM])[,user=user_to_run_as][,target=VM_to_redirect_to]
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```
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You can specify srcvm and destvm by name or by one of the reserved keywords such as `@anyvm`, `@dispvm`, or `dom0`.
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(Of these three, only `@anyvm` keyword makes sense in the srcvm field.
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Service calls from dom0 are currently always allowed, and `@dispvm` means "new VM created for this particular request," so it is never a source of request.)
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Other methods using *tags* and *types* are also available (and discussed below).
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Whenever a RPC request for an action is received, the domain checks the first matching line of the relevant file in `/etc/qubes-rpc/policy/` to determine access:
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whether to allow the request, what VM to redirect the execution to, and what user account the program should run under.
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Note that if the request is redirected (`target=` parameter), policy action remains the same -- even if there is another rule which would otherwise deny such request.
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If no policy rule is matched, the action is denied.
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If the policy file does not exist, the user is prompted to create one.
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If there is still no policy file after prompting, the action is denied.
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In the target VM, the file `/etc/qubes-rpc/RPC_ACTION_NAME` must exist, containing the file name of the program that will be invoked, or being that program itself -- in which case it must have executable permission set (`chmod +x`).
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### Making an RPC call
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From outside of dom0, RPC calls take the following form:
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```
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$ qrexec-client-vm target_vm_name RPC_ACTION_NAME rpc_client_path client arguments
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```
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For example:
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```
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$ qrexec-client-vm work qubes.StartApp+firefox
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```
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Note that only stdin/stdout is passed between RPC server and client -- notably, no command line arguments are passed.
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By default, stderr of client and server is logged in the syslog/journald of the VM where the process is running.
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It is also possible to call service without specific client program -- in which case server stdin/out will be connected with the terminal:
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```
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$ qrexec-client-vm target_vm_name RPC_ACTION_NAME
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```
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### Specifying VMs: tags, types, targets, etc.
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There are severals methods for specifying source/target VMs in RPC policies.
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- `@tag:some-tag` - meaning a VM with tag `some-tag`
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- `@type:type` - meaning a VM of `type` (like `AppVM`, `TemplateVM` etc)
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Target VM can be also specified as `@default`, which matches the case when calling VM didn't specified any particular target (either by using `@default` target, or empty target).
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For DisposableVMs, `@dispvm:DISP_VM` is very similar to `@dispvm` but forces using a particular VM (`DISP_VM`) as a base VM to be started as DisposableVM.
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For example:
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```
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anon-whonix @dispvm:anon-whonix-dvm allow
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```
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Adding such policy itself will not force usage of this particular `DISP_VM` - it will only allow it when specified by the caller.
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But `@dispvm:DISP_VM` can also be used as target in request redirection, so _it is possible_ to force particular `DISP_VM` usage, when caller didn't specify it:
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```
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anon-whonix @dispvm allow,target=@dispvm:anon-whonix-dvm
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```
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Note that without redirection, this rule would allow using default Disposable VM (`default_dispvm` VM property, which itself defaults to global `default_dispvm` property).
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Also note that the request will be allowed (`allow` action) even if there is no second rule allowing calls to `@dispvm:anon-whonix-dvm`, or even if there is a rule explicitly denying it.
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This is because the redirection happens _after_ considering the action.
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The policy confirmation dialog (`ask` action) allows the user to specify target VM.
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User can choose from VMs that, according to policy, would lead to `ask` or `allow` actions.
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It is not possible to select VM that policy would deny.
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By default no VM is selected, even if the caller provided some, but policy can specify default value using `default_target=` parameter.
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For example:
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```
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work-mail work-archive allow
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work-mail @tag:work ask,default_target=work-files
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work-mail @default ask,default_target=work-files
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```
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The first rule allow call from `work-mail` to `work-archive`, without any confirmation.
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The second rule will ask the user about calls from `work-mail` VM to any VM with tag `work`.
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And the confirmation dialog will have `work-files` VM chosen by default, regardless of the VM specified by the caller (`work-mail` VM).
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The third rule allow the caller to not specify target VM at all and let the user choose, still - from VMs with tag `work` (and `work-archive`, regardless of tag), and with `work-files` as default.
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### RPC services and security
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Be very careful when coding and adding a new RPC service.
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Unless the offered functionality equals full control over the target (it is the case with e.g. `qubes.VMShell` action), any vulnerability in an RPC server can be fatal to Qubes security.
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On the other hand, this mechanism allows to delegate processing of untrusted input to less privileged (or disposable) AppVMs, thus wise usage of it increases security.
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For example, this command will run the `firefox` command in a DisposableVM based on `work`:
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```
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$ qvm-run --dispvm=work firefox
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```
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By contrast, consider this command:
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```
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$ qvm-run --dispvm=work --service qubes.StartApp+firefox
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```
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This will look for a `firefox.desktop` file in a standard location in a DisposableVM based on `work`, then launch the application described by that file.
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The practical difference is that the bare `qvm-run` command uses the `qubes.VMShell` service, which allows you to run an arbitrary command with arbitrary arguments, essentially providing full control over the target VM.
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By contrast, the `qubes.StartApp` service allows you to run only applications that are advertised in `/usr/share/applications` (or other standard locations) *without* control over the arguments, so giving a VM access to `qubes.StartApp` is much safer.
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While there isn't much practical difference between the two commands above when starting an application from dom0 in Qubes 4.0, there is a significant security risk when launching applications from a domU (e.g., from a separate GUI domain).
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This is why `qubes.StartApp` uses our standard `qrexec` argument grammar to strictly filter the permissible grammar of the `Exec=` lines in `.desktop` files that are passed from untrusted domUs to dom0, thereby protecting dom0 from command injection by maliciously-crafted `.desktop` files.
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### Service policies with arguments
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Sometimes a service name alone isn't enough to make reasonable qrexec policy.
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One example of such a situation is [qrexec-based USB passthrough](https://www.qubes-os.org/doc/usb-devices/).
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Using just a service name would make it difficult to express the policy "allow access to devices X and Y, but deny to all others."
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It isn't feasible to create a separate service for every device: we would need to change the code in multiple files any time we wanted to update the service.
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For this reason it is possible to specify a service argument, which will be subject to a policy.
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A service argument can make service policies more fine-grained.
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With arguments, it is easier to write more precise policies using the "allow" and "deny" actions, instead of relying on the "ask" method.
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(Writing too many "ask" policies offloads additional decisions to the user.
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Generally, the fewer choices the user must make, the lower the chance to make a mistake.)
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Each specific argument that we want to use needs its own policy in dom0 at a path like `/etc/qubes-rpc/policy/RPC_ACTION_NAME+ARGUMENT`.
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So for instance, we might have policies called `test.Device`, `test.Device+device1` and `test.Device+device2`.
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If the policy for the specific argument is not set (that is, if no file exists for `RPC_ACTION_NAME+ARGUMENT`), then dom0 uses the default policy with no argument for this service.
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When calling a service that takes an argument, just add the argument to the service name separated with `+`.
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```
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$ qrexec-client-vm target_vm_name RPC_ACTION_NAME+ARGUMENT
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```
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The script will receive `ARGUMENT` as its argument.
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The argument will also become available as the `QREXEC_SERVICE_ARGUMENT` environment variable.
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This means it is possible to install a different script for a particular service argument.
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See [below](#rpc-service-with-argument-file-reader) for an example of an RPC service using an argument.
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<!-- TODO document "Yes to All" authorization if it is reintroduced -->
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## Qubes RPC examples
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To demonstrate some of the possibilities afforded by the qrexec framework, here are two examples of custom RPC services.
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### Simple RPC service (addition)
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We can create an RPC service that adds two integers in a target domain (the server, call it "anotherVM") and returns back the result to the invoker (the client, "someVM").
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In someVM, create a file with the following contents and save it with the path `/usr/bin/our_test_add_client`:
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```
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#!/bin/sh
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echo $1 $2 # pass data to RPC server
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exec cat >&$SAVED_FD_1 # print result to the original stdout, not to the other RPC endpoint
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```
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Our server will be anotherVM at `/usr/bin/our_test_add_server`.
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The code for this file is:
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```
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#!/bin/sh
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read arg1 arg2 # read from stdin, which is received from the RPC client
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echo $(($arg1+$arg2)) # print to stdout, which is passed to the RPC client
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```
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We'll need to create a service called `test.Add` with its own definition and policy file in dom0.
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Now we need to define what the service does.
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In this case, it should call our addition script.
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We define the service with a symlink at `/etc/qubes-rpc/test.Add` pointing to our server script (the script can be also placed directly in `/etc/qubes-rpc/test.Add` - make sure the file has executable bit set!):
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```
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ln -s /usr/bin/our_test_add_server /etc/qubes-rpc/test.Add
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```
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The administrative domain will direct traffic based on the current RPC policies.
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In dom0, create a file at `/etc/qubes-rpc/policy/test.Add` containing the following:
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```
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@anyvm @anyvm ask
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```
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This will allow our client and server to communicate.
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Before we make the call, ensure that the client and server scripts have executable permissions.
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Finally, invoke the RPC service.
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```
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$ qrexec-client-vm anotherVM test.Add /usr/bin/our_test_add_client 1 2
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```
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We should get "3" as answer.
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(dom0 will ask for confirmation first.)
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**Note:** For a real world example of writing a qrexec service, see this [blog post](https://blog.invisiblethings.org/2013/02/21/converting-untrusted-pdfs-into-trusted.html).
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### RPC service with argument (file reader)
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Here we create an RPC call that reads a specific file from a predefined directory on the target.
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This example uses an [argument](#service-policies-with-arguments) to the policy.
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In this example a simplified workflow will be used. The service code placed is placed directly in the service definition file on the target VM.
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No separate client script will be needed.
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First, on your target VM, create two files in the home directory: `testfile1` and `testfile2`.
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Have them contain two different "Hello world!" lines.
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Next, we define the RPC service.
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On the target VM, place the code below at `/etc/qubes-rpc/test.File`:
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```
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#!/bin/sh
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argument="$1" # service argument, also available as $QREXEC_SERVICE_ARGUMENT
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if [ -z "$argument" ]; then
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echo "ERROR: No argument given!"
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exit 1
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fi
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cat "/home/user/$argument"
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```
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Make sure the file is executable!
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(The service argument is already sanitized by qrexec framework.
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It is guaranteed to not contain any spaces or slashes, so there should be no need for additional path sanitization.)
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Now we create three policy files in dom0.
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See the table below for details.
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Replace "source_vm1" and others with the names of your own chosen domains.
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|------------------------------------------------------------------------|
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| Path to file in dom0 | Policy contents |
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|-------------------------------------------+----------------------------|
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| /etc/qubes-rpc/policy/test.File | @anyvm @anyvm deny |
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| /etc/qubes-rpc/policy/test.File+testfile1 | source_vm1 target_vm allow |
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| /etc/qubes-rpc/policy/test.File+testfile2 | source_vm2 target_vm allow |
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|------------------------------------------------------------------------|
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With this done, we can run some tests.
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Invoke RPC from `source_vm1` via
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```
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[user@source_vm1] $ qrexec-client-vm target_vm test.File+testfile1
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```
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We should get the contents of `/home/user/testfile1` printed to the terminal.
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Invoking the service from `source_vm2` should work the same, and `testfile2` should also work.
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```
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[user@source_vm2] $ qrexec-client-vm target_vm test.File+testfile1
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[user@source_vm2] $ qrexec-client-vm target_vm test.File+testfile2
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```
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But when invoked with other arguments or from a different VM, it should be denied.
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