1use crate::{
2 json_log::LogRecord,
3 protocol::{MESSAGE_LEN_SIZE, message_len_from_buffer, read_message_with_len, write_message},
4};
5use anyhow::{Context as _, Result};
6use futures::{
7 AsyncReadExt as _, FutureExt as _, StreamExt as _,
8 channel::mpsc::{Sender, UnboundedReceiver, UnboundedSender},
9};
10use gpui::{AppContext as _, AsyncApp, Task};
11use rpc::proto::Envelope;
12use smol::process::Child;
13
14pub mod ssh;
15pub mod wsl;
16
17fn handle_rpc_messages_over_child_process_stdio(
18 mut ssh_proxy_process: Child,
19 incoming_tx: UnboundedSender<Envelope>,
20 mut outgoing_rx: UnboundedReceiver<Envelope>,
21 mut connection_activity_tx: Sender<()>,
22 cx: &AsyncApp,
23) -> Task<Result<i32>> {
24 let mut child_stderr = ssh_proxy_process.stderr.take().unwrap();
25 let mut child_stdout = ssh_proxy_process.stdout.take().unwrap();
26 let mut child_stdin = ssh_proxy_process.stdin.take().unwrap();
27
28 let mut stdin_buffer = Vec::new();
29 let mut stdout_buffer = Vec::new();
30 let mut stderr_buffer = Vec::new();
31 let mut stderr_offset = 0;
32
33 let stdin_task = cx.background_spawn(async move {
34 while let Some(outgoing) = outgoing_rx.next().await {
35 write_message(&mut child_stdin, &mut stdin_buffer, outgoing).await?;
36 }
37 anyhow::Ok(())
38 });
39
40 let stdout_task = cx.background_spawn({
41 let mut connection_activity_tx = connection_activity_tx.clone();
42 async move {
43 loop {
44 stdout_buffer.resize(MESSAGE_LEN_SIZE, 0);
45 let len = child_stdout.read(&mut stdout_buffer).await?;
46
47 if len == 0 {
48 return anyhow::Ok(());
49 }
50
51 if len < MESSAGE_LEN_SIZE {
52 child_stdout.read_exact(&mut stdout_buffer[len..]).await?;
53 }
54
55 let message_len = message_len_from_buffer(&stdout_buffer);
56 let envelope =
57 read_message_with_len(&mut child_stdout, &mut stdout_buffer, message_len)
58 .await?;
59 connection_activity_tx.try_send(()).ok();
60 incoming_tx.unbounded_send(envelope).ok();
61 }
62 }
63 });
64
65 let stderr_task: Task<anyhow::Result<()>> = cx.background_spawn(async move {
66 loop {
67 stderr_buffer.resize(stderr_offset + 1024, 0);
68
69 let len = child_stderr
70 .read(&mut stderr_buffer[stderr_offset..])
71 .await?;
72 if len == 0 {
73 return anyhow::Ok(());
74 }
75
76 stderr_offset += len;
77 let mut start_ix = 0;
78 while let Some(ix) = stderr_buffer[start_ix..stderr_offset]
79 .iter()
80 .position(|b| b == &b'\n')
81 {
82 let line_ix = start_ix + ix;
83 let content = &stderr_buffer[start_ix..line_ix];
84 start_ix = line_ix + 1;
85 if let Ok(record) = serde_json::from_slice::<LogRecord>(content) {
86 record.log(log::logger())
87 } else {
88 eprintln!("(remote) {}", String::from_utf8_lossy(content));
89 }
90 }
91 stderr_buffer.drain(0..start_ix);
92 stderr_offset -= start_ix;
93
94 connection_activity_tx.try_send(()).ok();
95 }
96 });
97
98 cx.background_spawn(async move {
99 let result = futures::select! {
100 result = stdin_task.fuse() => {
101 result.context("stdin")
102 }
103 result = stdout_task.fuse() => {
104 result.context("stdout")
105 }
106 result = stderr_task.fuse() => {
107 result.context("stderr")
108 }
109 };
110 let status = ssh_proxy_process.status().await?.code().unwrap_or(1);
111 match result {
112 Ok(_) => Ok(status),
113 Err(error) => Err(error),
114 }
115 })
116}
117
118#[cfg(debug_assertions)]
119async fn build_remote_server_from_source(
120 platform: &crate::RemotePlatform,
121 delegate: &dyn crate::RemoteClientDelegate,
122 cx: &mut AsyncApp,
123) -> Result<Option<std::path::PathBuf>> {
124 use smol::process::{Command, Stdio};
125 use std::env::VarError;
126 use std::path::Path;
127 use util::command::new_smol_command;
128
129 // By default, we make building remote server from source opt-out and we do not force artifact compression
130 // for quicker builds.
131 let build_remote_server =
132 std::env::var("ZED_BUILD_REMOTE_SERVER").unwrap_or("nocompress".into());
133
134 if let "false" | "no" | "off" | "0" = &*build_remote_server {
135 return Ok(None);
136 }
137
138 async fn run_cmd(command: &mut Command) -> Result<()> {
139 let output = command
140 .kill_on_drop(true)
141 .stderr(Stdio::inherit())
142 .output()
143 .await?;
144 anyhow::ensure!(
145 output.status.success(),
146 "Failed to run command: {command:?}"
147 );
148 Ok(())
149 }
150
151 let use_musl = !build_remote_server.contains("nomusl");
152 let triple = format!(
153 "{}-{}",
154 platform.arch,
155 match platform.os {
156 "linux" =>
157 if use_musl {
158 "unknown-linux-musl"
159 } else {
160 "unknown-linux-gnu"
161 },
162 "macos" => "apple-darwin",
163 _ => anyhow::bail!("can't cross compile for: {:?}", platform),
164 }
165 );
166 let mut rust_flags = match std::env::var("RUSTFLAGS") {
167 Ok(val) => val,
168 Err(VarError::NotPresent) => String::new(),
169 Err(e) => {
170 log::error!("Failed to get env var `RUSTFLAGS` value: {e}");
171 String::new()
172 }
173 };
174 if platform.os == "linux" && use_musl {
175 rust_flags.push_str(" -C target-feature=+crt-static");
176
177 if let Ok(path) = std::env::var("ZED_ZSTD_MUSL_LIB") {
178 rust_flags.push_str(&format!(" -C link-arg=-L{path}"));
179 }
180 }
181 if build_remote_server.contains("mold") {
182 rust_flags.push_str(" -C link-arg=-fuse-ld=mold");
183 }
184
185 if platform.arch == std::env::consts::ARCH && platform.os == std::env::consts::OS {
186 delegate.set_status(Some("Building remote server binary from source"), cx);
187 log::info!("building remote server binary from source");
188 run_cmd(
189 new_smol_command("cargo")
190 .current_dir(concat!(env!("CARGO_MANIFEST_DIR"), "/../.."))
191 .args([
192 "build",
193 "--package",
194 "remote_server",
195 "--features",
196 "debug-embed",
197 "--target-dir",
198 "target/remote_server",
199 "--target",
200 &triple,
201 ])
202 .env("RUSTFLAGS", &rust_flags),
203 )
204 .await?;
205 } else {
206 if which("zig", cx).await?.is_none() {
207 anyhow::bail!(if cfg!(not(windows)) {
208 "zig not found on $PATH, install zig (see https://ziglang.org/learn/getting-started or use zigup)"
209 } else {
210 "zig not found on $PATH, install zig (use `winget install -e --id zig.zig` or see https://ziglang.org/learn/getting-started or use zigup)"
211 });
212 }
213
214 let rustup = which("rustup", cx)
215 .await?
216 .context("rustup not found on $PATH, install rustup (see https://rustup.rs/)")?;
217 delegate.set_status(Some("Adding rustup target for cross-compilation"), cx);
218 log::info!("adding rustup target");
219 run_cmd(
220 new_smol_command(rustup)
221 .args(["target", "add"])
222 .arg(&triple),
223 )
224 .await?;
225
226 if which("cargo-zigbuild", cx).await?.is_none() {
227 delegate.set_status(Some("Installing cargo-zigbuild for cross-compilation"), cx);
228 log::info!("installing cargo-zigbuild");
229 run_cmd(new_smol_command("cargo").args(["install", "--locked", "cargo-zigbuild"]))
230 .await?;
231 }
232
233 delegate.set_status(
234 Some(&format!(
235 "Building remote binary from source for {triple} with Zig"
236 )),
237 cx,
238 );
239 log::info!("building remote binary from source for {triple} with Zig");
240 run_cmd(
241 new_smol_command("cargo")
242 .args([
243 "zigbuild",
244 "--package",
245 "remote_server",
246 "--features",
247 "debug-embed",
248 "--target-dir",
249 "target/remote_server",
250 "--target",
251 &triple,
252 ])
253 .env("RUSTFLAGS", &rust_flags),
254 )
255 .await?;
256 };
257 let bin_path = Path::new("target")
258 .join("remote_server")
259 .join(&triple)
260 .join("debug")
261 .join("remote_server");
262
263 let path = if !build_remote_server.contains("nocompress") {
264 delegate.set_status(Some("Compressing binary"), cx);
265
266 #[cfg(not(target_os = "windows"))]
267 {
268 run_cmd(new_smol_command("gzip").args(["-f", &bin_path.to_string_lossy()])).await?;
269 }
270
271 #[cfg(target_os = "windows")]
272 {
273 // On Windows, we use 7z to compress the binary
274
275 let seven_zip = which("7z.exe",cx)
276 .await?
277 .context("7z.exe not found on $PATH, install it (e.g. with `winget install -e --id 7zip.7zip`) or, if you don't want this behaviour, set $env:ZED_BUILD_REMOTE_SERVER=\"nocompress\"")?;
278 let gz_path = format!("target/remote_server/{}/debug/remote_server.gz", triple);
279 if smol::fs::metadata(&gz_path).await.is_ok() {
280 smol::fs::remove_file(&gz_path).await?;
281 }
282 run_cmd(new_smol_command(seven_zip).args([
283 "a",
284 "-tgzip",
285 &gz_path,
286 &bin_path.to_string_lossy(),
287 ]))
288 .await?;
289 }
290
291 let mut archive_path = bin_path;
292 archive_path.set_extension("gz");
293 std::env::current_dir()?.join(archive_path)
294 } else {
295 bin_path
296 };
297
298 Ok(Some(path))
299}
300
301#[cfg(debug_assertions)]
302async fn which(
303 binary_name: impl AsRef<str>,
304 cx: &mut AsyncApp,
305) -> Result<Option<std::path::PathBuf>> {
306 let binary_name = binary_name.as_ref().to_string();
307 let binary_name_cloned = binary_name.clone();
308 let res = cx
309 .background_spawn(async move { which::which(binary_name_cloned) })
310 .await;
311 match res {
312 Ok(path) => Ok(Some(path)),
313 Err(which::Error::CannotFindBinaryPath) => Ok(None),
314 Err(err) => Err(anyhow::anyhow!(
315 "Failed to run 'which' to find the binary '{binary_name}': {err}"
316 )),
317 }
318}