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251 lines
13 KiB
Markdown
---
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layout: doc
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title: "Qrexec: Qubes RPC internals"
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permalink: /doc/qrexec-internals/
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redirect_from:
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- /doc/qrexec3-implementation/
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- /en/doc/qrexec3-implementation/
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- /doc/Qrexec3Implementation/
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- /wiki/Qrexec3Implementation/
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---
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# Qubes RPC internals
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(*This page details the current implementation of qrexec (qrexec3).
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A [general introduction](/doc/qrexec/) to qrexec is also available.
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For the implementation of qrexec2, see [here](/doc/qrexec2/#qubes-rpc-internals).*)
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The qrexec framework consists of a number of processes communicating with each other using a common IPC protocol, described in detail below.
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Components residing in the same domain (`qrexec-client-vm` to `qrexec-agent`, `qrexec-client` to `qrexec-daemon`) use local sockets as the underlying transport medium.
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Components in separate domains (`qrexec-daemon` to `qrexec-agent`, data channel between `qrexec-agent`s) use vchan links.
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Because of [vchan limitation](https://github.com/qubesos/qubes-issues/issues/951), it is not possible to establish qrexec connection back to the source domain.
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## Dom0 tools implementation
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The following programs handle parts of the framework: sending and receiving requests, verifying permissions, and administering connections.
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These tools are not designed to be used by users directly.
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### qrexec-daemon
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`/usr/sbin/qrexec-daemon`
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One instance is required for every active domain.
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`qrexec-daemon` is responsible for both:
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- handling execution and service requests from **dom0** (source: `qrexec-client`); and
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- handling service requests from the associated domain (source: `qrexec-client-vm`, then `qrexec-agent`).
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Command line usage:
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`qrexec-daemon domain-id domain-name [default user]`
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* `domain-id`: Numeric Qubes ID assigned to the associated domain.
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* `domain-name`: Associated domain name.
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* `default user`: Optional. If passed, `qrexec-daemon` uses this user as default for all execution requests that don't specify one.
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### qrexec-client
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`/usr/bin/qrexec-client`
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Used to pass execution and service requests to `qrexec-daemon`.
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Command line usage:
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* `-d target-domain-name`: Specifies the target for the execution/service request.
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* `-l local-program`: Optional. If present, `local-program` is executed and its stdout/stdin are used when sending/receiving data to/from the remote peer.
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* `-e`: Optional. If present, stdout/stdin are not connected to the remote peer. Only process creation status code is received.
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* `-c <request-id,src-domain-name,src-domain-id>`: used for connecting a VM-VM service request by `qrexec-policy`. Details described below in the service example.
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* `cmdline`: Command line to pass to `qrexec-daemon` as the execution/service request. Service request format is described below in the service example.
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## VM tools implementation
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### qrexec-agent
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`/usr/lib/qubes/qrexec-agrent`
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One instance runs in each active domain.
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Responsible for:
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* Handling service requests from `qrexec-client-vm` and passing them to connected `qrexec-daemon` in dom0.
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* Executing associated `qrexec-daemon` execution/service requests.
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The `qrexec-agent` command takes no parameters.
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### qrexec-client-vm
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`/usr/bin/qrexec-client-vm`
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Runs in an active domain.
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Used to pass service requests to `qrexec-agent`.
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Command line usage:
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`qrexec-client-vm target-domain-name service-name local-program [local program arguments]`
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* `target-domain-name`: Target domain for the service request. Source is the current domain.
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* `service-name`: Requested service name.
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* `local-program`: `local-program` is executed locally and its stdin/stdout are connected to the remote service endpoint.
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## Qrexec protocol details
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The qrexec protocol is message-based.
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All messages share a common header followed by an optional data packet.
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/* uniform for all peers, data type depends on message type */
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struct msg_header {
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uint32_t type; /* message type */
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uint32_t len; /* data length */
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};
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When two peers establish connection, the server sends `MSG_HELLO` followed by `peer_info` struct:
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struct peer_info {
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uint32_t version; /* qrexec protocol version */
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};
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The client then should reply with its own `MSG_HELLO` and `peer_info`.
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The lower of two versions define protocol used for this connection.
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If either side does not support this version, the connection is closed.
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Details of all possible use cases and the messages involved are described below.
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### dom0: request execution of `cmd` in domX
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![qrexec internals diagram dom0-vm](/attachment/wiki/qrexec3/qrexec-dom0-vm.png)
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- **dom0**: `qrexec-client` is invoked in **dom0** as follows:
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qrexec-client -d domX [-l local_program] user:cmd
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(If `local_program` is set, `qrexec-client` executes it and uses that child's stdin/stdout in place of its own when exchanging data with `qrexec-agent` later.)
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`qrexec-client` translates that request into a `MSG_EXEC_CMDLINE` message sent to `qrexec-daemon`, with `connect_domain` set to 0 (connect to **dom0**) and `connect_port also set to 0 (allocate a port).
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- **dom0**: `qrexec-daemon` allocates a free port (in this case 513), and sends a `MSG_EXEC_CMDLINE` back to the client with connection parameters (**domX** and 513) and with command field empty.
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`qrexec-client` disconnects from the daemon, starts a vchan server on port 513 and awaits connection.
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Then, `qrexec-daemon` passes on the request as `MSG_EXEC_CMDLINE` message to the `qrexec-agent` running in **domX**. In this case, the connection parameters are **dom0** and 513.
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- **domX**: `qrexec-agent` receives `MSG_EXEC_CMDLINE`, and starts the command (`user:cmd`, or `cmd` as user `user`). If possible, this is actually delegated to a separate server (`qrexec-fork-server`) also running on domX.
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After starting the command, `qrexec-fork-server` connects to `qrexec-client` in **dom0** over the provided vchan port 513.
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- Data is forwarded between the `qrexec-client` in **dom0** and the command executed in **domX** using `MSG_DATA_STDIN`, `MSG_DATA_STDOUT` and `MSG_DATA_STDERR`.
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Empty messages (with data `len` field set to 0 in `msg_header`) are an EOF marker. Peer receiving such message should close the associated input/output pipe.
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When `cmd` terminates, **domX**'s `qrexec-fork-server` sends `MSG_DATA_EXIT_CODE` header to `qrexec-client` followed by the exit code (**int**).
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### domX: request execution of service `admin.Service` in dom0
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![qrexec internals diagram vm-dom0](/attachment/wiki/qrexec3/qrexec-vm-dom0.png)
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- **domX**: `qrexec-client-vm` is invoked as follows:
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qrexec-client-vm dom0 admin.Service [local_program] [params]
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(If `local_program` is set, it will be executed in **domX** and connected to the remote command's stdin/stdout).
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`qrexec-client-vm` connects to `qrexec-agent` and requests service execution (`admin.Service`) in **dom0**.
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`qrexec-agent` assigns an internal identifier to the request. It's based on a file descriptor of the connected `qrexec-client-vm`: in this case, `SOCKET11`.
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`qrexec-agent` forwards the request (`MSG_TRIGGER_SERVICE3`) to its corresponding `qrexec-daemon` running in dom0.
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- **dom0**: `qrexec-daemon` receives the request and triggers `qrexec-policy` program, passing all necessary parameters: source domain **domX**, target domain **dom0**, service `admin.Service` and identifier `SOCKET11`.
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`qrexec-policy` evaluates if the RPC should be allowed or denied, possibly also launching a GUI confirmation prompt.
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(If the RPC is denied, it returns with exit code 1, in which case `qrexec-daemon` sends a `MSG_SERVICE_REFUSED` back).
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- **dom0**: If the RPC is allowed, `qrexec-policy` will launch a `qrexec-client` with the right command:
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qrexec-client -d dom0 -c domX,X,SOCKET11 "QUBESRPC admin.Service domX name dom0"
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The `-c domX,X,SOCKET11` are parameters indicating how connect back to **domX** and pass its input/output.
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The command parameter describes the RPC call: it contains service name (`admin.Service`), source domain (`domX`) and target description (`name dom0`, could also be e.g. `keyword @dispvm`). The target description is important in case the original target wasn't dom0, but the service is executing in dom0.
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`qrexec-client` connects to a `qrexec-daemon` for **domX** and sends a `MSG_SERVICE_CONNECT` with connection parameters (**dom0**, and port 0, indicating a port should be allocated) and request identifier (`SOCKET11`).
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`qrexec-daemon` allocates a free port (513) and sends back connection parameters to `qrexec-client` (**domX** port 513).
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`qrexec-client` starts the command, and tries to connect to **domX** over the provided port 513.
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Then, `qrexec-daemon` forwards the connection request (`MSG_SERVICE_CONNECT`) to `qrexec-agent` running in **domX**, with the right parameters (**dom0** port 513, request `SOCKET11`).
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- **dom0**: Because the command has the form `QUBESRPC: ...`, it is started through the `qubes-rpc-multiplexer` program with the provided parameters (`admin.Service domX name dom0`). That program finds and executes the necessary script in `/etc/qubes-rpc/`.
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- **domX**: `qrexec-agent` receives the `MSG_SERVICE_CONNECT` and passes the connection parameters back to the connected `qrexec-client-vm`. It identifies the `qrexec-client-vm` by the request identifier (`SOCKET11` means file descriptor 11).
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`qrexec-client-vm` starts a vchan server on 513 and receives a connection from `qrexec-client`.
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- Data is forwarded between **dom0** and **domX** as in the previous example (dom0-VM).
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### domX: invoke execution of qubes service `qubes.Service` in domY
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![qrexec internals diagram vm-vm](/attachment/wiki/qrexec3/qrexec-vm-vm.png)
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- **domX**: `qrexec-client-vm` is invoked as follows:
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qrexec-client-vm domY qubes.Service [local_program] [params]
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(If `local_program` is set, it will be executed in **domX** and connected to the remote command's stdin/stdout).
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- The request is forwarded as `MSG_TRIGGER_SERVICE3` to `qrexec-daemon` running in **dom0**, then to `qrexec-policy`, then (if allowed) to `qrexec-client`.
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This is the same as in the previous example (VM-dom0).
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- **dom0**: If the RPC is allowed, `qrexec-policy` will launch a `qrexec-client` with the right command:
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qrexec-client -d domY -c domX,X,SOCKET11 user:cmd "DEFAULT:QUBESRPC qubes.Service domX"
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The `-c domX,X,SOCKET11` are parameters indicating how connect back to **domX** and pass its input/output.
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The command parameter describes the service call: it contains the username (or `DEFAULT`), service name (`qubes.Service`) and source domain (`domX`).
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`qrexec-client` will then send a `MSG_EXEC_CMDLINE` message to `qrexec-daemon` for **domY**. The message will be with port number 0, requesting port allocation.
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`qrexec-daemon` for **domY** will allocate a port (513) and send it back. It will also send a `MSG_EXEC_CMDLINE` to its corresponding agent. (It will also translate `DEFAULT` to the configured default username).
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Then, `qrexec-client` will also send `MSG_SERVICE_CONNECT` message to **domX**'s agent, indicating that it should connect to **domY** over port 513.
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Having notified both domains about a connection, `qrexec-client` now exits.
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- **domX**: `qrexec-agent` receives a `MSG_SERVICE_CONNECT` with connection parameters (**domY** port 513) and request identifier (`SOCKET11`). It sends the connection parameters back to the right `qrexec-client-vm`.
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`qrexec-client-vm` starts a vchan server on port 513. note that this is different than in the other examples: `MSG_SERVICE_CONNECT` means you should start a server, `MSG_EXEC_CMDLINE` means you should start a client.
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- **domY**: `qrexec-agent` receives a `MSG_EXEC_CMDLINE` with the command to execute (`user:QUBESRPC...`) and connection parameters (**domX** port 513).
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It forwards the request to `qrexec-fork-server`, which handles the command and connects to **domX** over the provided port.
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Because the command is of the form `QUBESRPC ...`, `qrexec-fork-server` starts it using `qubes-rpc-multiplexer` program, which finds and executes the necessary script in `/etc/qubes-rpc/`.
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- After that, the data is passed between **domX** and **domY** as in the previous examples (dom0-VM, VM-dom0).
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## `qrexec-policy` implementation
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`qrexec-policy` is a mechanism for evaluating whether an RPC call should be allowed. For introduction, see [Qubes RPC administration](/doc/qrexec/#qubes-rpc-administration).
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### `qrexec-policy-daemon`
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This is a service running in dom0. It is called by `qrexec-daemon` and is responsible for evaluating the request and possibly launching an action.
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The daemon listens on a socket (`/var/run/qubes/policy.sock`). It accepts requests in the format described in [qrexec-policy-daemon.rst](https://github.com/QubesOS/qubes-core-qrexec/blob/master/doc/qrexec-policy-daemon.rst) and replies with `result=allow/deny`.
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A standalone version is called `qrexec-policy-exec` and is available as a fallback.
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### `qrexec-policy-agent`
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This is a service running in the GuiVM. It is called by `qrexec-policy-daemon` in order to display prompts and notifications to the user.
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It is a [socket-based Qubes RPC service](/doc/qrexec-socket-services/). Requests are in JSON format, and response is simple ASCII.
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There are two endpoints:
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- `policy.Ask` - ask the user about whether to execute a given action
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- `policy.Notify` - notify the user about about an action.
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See [qrexec-policy-agent.rst](https://github.com/QubesOS/qubes-core-qrexec/blob/master/Documentation/qrexec-policy-agent.rst) for protocol details.
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