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servo/components/devtools/actors/watcher.rs
delan azabani 95eedb997a
Devtools: initial Debugger > Sources panel (#36164) 
This patch adds support for listing scripts in the Sources panel.
Classic scripts, both external and inline, are implemented, but worker
scripts and imported module scripts are not yet implemented.

For example:

```html
<!-- sources.html -->
<!doctype html><meta charset=utf-8>
<script src="classic.js"></script>
<script>
    console.log("inline classic");
    new Worker("worker.js");
</script>
<script type="module">
    import module from "./module.js";
    console.log("inline module");
</script>
<script src="https://servo.org/js/load-table.js"></script>
```

```js
// classic.js
console.log("external classic");
```

```js
// worker.js
console.log("external classic worker");
```

```js
// module.js
export default 1;
console.log("external module");
```


![image](https://github.com/user-attachments/assets/2f1d8d7c-501f-4fe5-bd07-085c95e504f2)

---
<!-- Thank you for contributing to Servo! Please replace each `[ ]` by
`[X]` when the step is complete, and replace `___` with appropriate
data: -->
- [x] `./mach build -d` does not report any errors
- [x] `./mach test-tidy` does not report any errors
- [x] These changes partially implement #36027

<!-- Either: -->
- [ ] There are tests for these changes OR
- [x] These changes require tests, but they are blocked on #36325

Signed-off-by: Delan Azabani <dazabani@igalia.com>
Co-authored-by: atbrakhi <atbrakhi@igalia.com>
2025-04-08 09:22:53 +00:00

367 lines
13 KiB
Rust
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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at https://mozilla.org/MPL/2.0/. */
//! The watcher is the main entry point when debugging an element. Right now only web views are supported.
//! It talks to the devtools remote and lists the capabilities of the inspected target, and it serves
//! as a bridge for messages between actors.
//!
//! Liberally derived from the [Firefox JS implementation].
//!
//! [Firefox JS implementation]: https://searchfox.org/mozilla-central/source/devtools/server/actors/descriptors/watcher.js
use std::collections::HashMap;
use std::net::TcpStream;
use std::time::{SystemTime, UNIX_EPOCH};
use log::warn;
use serde::Serialize;
use serde_json::{Map, Value};
use self::network_parent::{NetworkParentActor, NetworkParentActorMsg};
use super::thread::ThreadActor;
use crate::actor::{Actor, ActorMessageStatus, ActorRegistry};
use crate::actors::browsing_context::{BrowsingContextActor, BrowsingContextActorMsg};
use crate::actors::watcher::target_configuration::{
TargetConfigurationActor, TargetConfigurationActorMsg,
};
use crate::actors::watcher::thread_configuration::{
ThreadConfigurationActor, ThreadConfigurationActorMsg,
};
use crate::protocol::JsonPacketStream;
use crate::{EmptyReplyMsg, StreamId};
pub mod network_parent;
pub mod target_configuration;
pub mod thread_configuration;
/// Describes the debugged context. It informs the server of which objects can be debugged.
/// <https://searchfox.org/mozilla-central/source/devtools/server/actors/watcher/session-context.js>
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
pub struct SessionContext {
is_server_target_switching_enabled: bool,
supported_targets: HashMap<&'static str, bool>,
supported_resources: HashMap<&'static str, bool>,
context_type: SessionContextType,
}
impl SessionContext {
pub fn new(context_type: SessionContextType) -> Self {
Self {
is_server_target_switching_enabled: false,
// Right now we only support debugging web views (frames)
supported_targets: HashMap::from([
("frame", true),
("process", false),
("worker", false),
("service_worker", false),
("shared_worker", false),
]),
// At the moment we are blocking most resources to avoid errors
// Support for them will be enabled gradually once the corresponding actors start
// working propperly
supported_resources: HashMap::from([
("console-message", true),
("css-change", true),
("css-message", false),
("css-registered-properties", false),
("document-event", false),
("Cache", false),
("cookies", false),
("error-message", true),
("extension-storage", false),
("indexed-db", false),
("local-storage", false),
("session-storage", false),
("platform-message", false),
("network-event", false),
("network-event-stacktrace", false),
("reflow", false),
("stylesheet", false),
("source", true),
("thread-state", false),
("server-sent-event", false),
("websocket", false),
("jstracer-trace", false),
("jstracer-state", false),
("last-private-context-exit", false),
]),
context_type,
}
}
}
#[derive(Serialize)]
pub enum SessionContextType {
BrowserElement,
_ContextProcess,
_WebExtension,
_Worker,
_All,
}
#[derive(Serialize)]
struct WatchTargetsReply {
from: String,
#[serde(rename = "type")]
type_: String,
target: BrowsingContextActorMsg,
}
#[derive(Serialize)]
struct GetParentBrowsingContextIDReply {
from: String,
#[serde(rename = "browsingContextID")]
browsing_context_id: u32,
}
#[derive(Serialize)]
struct GetNetworkParentActorReply {
from: String,
network: NetworkParentActorMsg,
}
#[derive(Serialize)]
struct GetTargetConfigurationActorReply {
from: String,
configuration: TargetConfigurationActorMsg,
}
#[derive(Serialize)]
struct GetThreadConfigurationActorReply {
from: String,
configuration: ThreadConfigurationActorMsg,
}
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
struct GetBreakpointListActorReply {
from: String,
breakpoint_list: GetBreakpointListActorReplyInner,
}
#[derive(Serialize)]
struct GetBreakpointListActorReplyInner {
actor: String,
}
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
struct DocumentEvent {
#[serde(rename = "hasNativeConsoleAPI")]
has_native_console_api: Option<bool>,
name: String,
#[serde(rename = "newURI")]
new_uri: Option<String>,
time: u64,
title: Option<String>,
url: Option<String>,
}
#[derive(Serialize)]
struct WatcherTraits {
resources: HashMap<&'static str, bool>,
#[serde(flatten)]
targets: HashMap<&'static str, bool>,
}
#[derive(Serialize)]
pub struct WatcherActorMsg {
actor: String,
traits: WatcherTraits,
}
pub struct WatcherActor {
name: String,
browsing_context_actor: String,
network_parent: String,
target_configuration: String,
thread_configuration: String,
session_context: SessionContext,
}
impl Actor for WatcherActor {
fn name(&self) -> String {
self.name.clone()
}
/// The watcher actor can handle the following messages:
///
/// - `watchTargets`: Returns a list of objects to debug. Since we only support web views, it
/// returns the associated `BrowsingContextActor`. Every target sent creates a
/// `target-available-form` event.
///
/// - `watchResources`: Start watching certain resource types. This sends
/// `resources-available-array` events.
///
/// - `getNetworkParentActor`: Returns the network parent actor. It doesn't seem to do much at
/// the moment.
///
/// - `getTargetConfigurationActor`: Returns the configuration actor for a specific target, so
/// that the server can update its settings.
///
/// - `getThreadConfigurationActor`: The same but with the configuration actor for the thread
fn handle_message(
&self,
registry: &ActorRegistry,
msg_type: &str,
msg: &Map<String, Value>,
stream: &mut TcpStream,
_id: StreamId,
) -> Result<ActorMessageStatus, ()> {
let target = registry.find::<BrowsingContextActor>(&self.browsing_context_actor);
Ok(match msg_type {
"watchTargets" => {
let msg = WatchTargetsReply {
from: self.name(),
type_: "target-available-form".into(),
target: target.encodable(),
};
let _ = stream.write_json_packet(&msg);
target.frame_update(stream);
// Messages that contain a `type` field are used to send event callbacks, but they
// don't count as a reply. Since every message needs to be responded, we send an
// extra empty packet to the devtools host to inform that we successfully received
// and processed the message so that it can continue
let msg = EmptyReplyMsg { from: self.name() };
let _ = stream.write_json_packet(&msg);
ActorMessageStatus::Processed
},
"watchResources" => {
let Some(resource_types) = msg.get("resourceTypes") else {
return Ok(ActorMessageStatus::Ignored);
};
let Some(resource_types) = resource_types.as_array() else {
return Ok(ActorMessageStatus::Ignored);
};
for resource in resource_types {
let Some(resource) = resource.as_str() else {
continue;
};
match resource {
"document-event" => {
// TODO: This is a hacky way of sending the 3 messages
// Figure out if there needs work to be done here, ensure the page is loaded
for &name in ["dom-loading", "dom-interactive", "dom-complete"].iter() {
let event = DocumentEvent {
has_native_console_api: Some(true),
name: name.into(),
new_uri: None,
time: SystemTime::now()
.duration_since(UNIX_EPOCH)
.unwrap_or_default()
.as_millis()
as u64,
title: Some(target.title.borrow().clone()),
url: Some(target.url.borrow().clone()),
};
target.resource_available(event, "document-event".into());
}
},
"source" => {
let thread_actor = registry.find::<ThreadActor>(&target.thread);
let sources = thread_actor.sources();
target.resources_available(sources.iter().collect(), "source".into());
},
"console-message" | "error-message" => {},
_ => warn!("resource {} not handled yet", resource),
}
let msg = EmptyReplyMsg { from: self.name() };
let _ = stream.write_json_packet(&msg);
}
ActorMessageStatus::Processed
},
"getParentBrowsingContextID" => {
let msg = GetParentBrowsingContextIDReply {
from: self.name(),
browsing_context_id: target.browsing_context_id.value(),
};
let _ = stream.write_json_packet(&msg);
ActorMessageStatus::Processed
},
"getNetworkParentActor" => {
let network_parent = registry.find::<NetworkParentActor>(&self.network_parent);
let msg = GetNetworkParentActorReply {
from: self.name(),
network: network_parent.encodable(),
};
let _ = stream.write_json_packet(&msg);
ActorMessageStatus::Processed
},
"getTargetConfigurationActor" => {
let target_configuration =
registry.find::<TargetConfigurationActor>(&self.target_configuration);
let msg = GetTargetConfigurationActorReply {
from: self.name(),
configuration: target_configuration.encodable(),
};
let _ = stream.write_json_packet(&msg);
ActorMessageStatus::Processed
},
"getThreadConfigurationActor" => {
let thread_configuration =
registry.find::<ThreadConfigurationActor>(&self.thread_configuration);
let msg = GetThreadConfigurationActorReply {
from: self.name(),
configuration: thread_configuration.encodable(),
};
let _ = stream.write_json_packet(&msg);
ActorMessageStatus::Processed
},
"getBreakpointListActor" => {
let _ = stream.write_json_packet(&GetBreakpointListActorReply {
from: self.name(),
breakpoint_list: GetBreakpointListActorReplyInner {
actor: registry.new_name("breakpoint-list"),
},
});
ActorMessageStatus::Processed
},
_ => ActorMessageStatus::Ignored,
})
}
}
impl WatcherActor {
pub fn new(
actors: &mut ActorRegistry,
browsing_context_actor: String,
session_context: SessionContext,
) -> Self {
let network_parent = NetworkParentActor::new(actors.new_name("network-parent"));
let target_configuration =
TargetConfigurationActor::new(actors.new_name("target-configuration"));
let thread_configuration =
ThreadConfigurationActor::new(actors.new_name("thread-configuration"));
let watcher = Self {
name: actors.new_name("watcher"),
browsing_context_actor,
network_parent: network_parent.name(),
target_configuration: target_configuration.name(),
thread_configuration: thread_configuration.name(),
session_context,
};
actors.register(Box::new(network_parent));
actors.register(Box::new(target_configuration));
actors.register(Box::new(thread_configuration));
watcher
}
pub fn encodable(&self) -> WatcherActorMsg {
WatcherActorMsg {
actor: self.name(),
traits: WatcherTraits {
resources: self.session_context.supported_resources.clone(),
targets: self.session_context.supported_targets.clone(),
},
}
}
}
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