Files
wehub-resource-sync 680845cb1c
Build containerization / Verify commit signatures (push) Has been skipped
Build containerization / containerization (push) Successful in 0s
Linux build / Linux compile check (push) Has been cancelled
Linux build / Determine Swift version (push) Has been cancelled
chore: import upstream snapshot with attribution
2026-07-13 12:25:30 +08:00

349 lines
11 KiB
Swift

//===----------------------------------------------------------------------===//
// Copyright © 2026 Apple Inc. and the Containerization project authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//===----------------------------------------------------------------------===//
#if os(Linux)
import Cgroup
import Containerization
import ContainerizationError
import ContainerizationOCI
import ContainerizationOS
import Foundation
import Logging
import Synchronization
final class ManagedProcess: ContainerProcess, Sendable {
// swiftlint: disable type_name
protocol IO {
func attach(pid: Int32, fd: Int32) throws
func start(process: inout Command) throws
func resize(size: Terminal.Size) throws
func close() throws
func closeStdin() throws
func closeAfterExec() throws
}
// swiftlint: enable type_name
private struct State {
init(io: IO) {
self.io = io
}
let io: IO
var waiters: [CheckedContinuation<ContainerExitStatus, Never>] = []
var exitStatus: ContainerExitStatus? = nil
var pid: Int32?
}
private static let ackPid = "AckPid"
private static let ackConsole = "AckConsole"
let id: String
private let log: Logger
private let command: Command
private let state: Mutex<State>
private let owningPid: Int32?
private let ackPipe: Pipe
private let syncPipe: Pipe
private let errorPipe: Pipe
private let terminal: Bool
private let bundle: ContainerizationOCI.Bundle
var pid: Int32? {
self.state.withLock {
$0.pid
}
}
init(
id: String,
stdio: HostStdio,
bundle: ContainerizationOCI.Bundle,
owningPid: Int32? = nil,
log: Logger
) throws {
self.id = id
var log = log
log[metadataKey: "id"] = "\(id)"
self.log = log
self.owningPid = owningPid
let syncPipe = Pipe()
try syncPipe.setCloexec()
self.syncPipe = syncPipe
let ackPipe = Pipe()
try ackPipe.setCloexec()
self.ackPipe = ackPipe
let errorPipe = Pipe()
try errorPipe.setCloexec()
self.errorPipe = errorPipe
let args: [String]
if let owningPid {
args = [
"exec",
"--parent-pid",
"\(owningPid)",
"--process-path",
bundle.getExecSpecPath(id: id).path,
]
} else {
args = ["run", "--bundle-path", bundle.path.path]
}
var command = Command(
"/sbin/vmexec",
arguments: args,
extraFiles: [
syncPipe.fileHandleForWriting,
ackPipe.fileHandleForReading,
errorPipe.fileHandleForWriting,
]
)
var io: IO
if stdio.terminal {
log.info("setting up terminal I/O")
let attrs = Command.Attrs(setsid: false, setctty: false)
command.attrs = attrs
io = try TerminalIO(
stdio: stdio,
log: log
)
} else {
command.attrs = .init(setsid: false)
io = StandardIO(
stdio: stdio,
log: log
)
}
log.info("starting I/O")
// Setup IO early. We expect the host to be listening already.
try io.start(process: &command)
self.command = command
self.terminal = stdio.terminal
self.bundle = bundle
self.state = Mutex(State(io: io))
}
}
extension ManagedProcess {
func start() async throws -> Int32 {
do {
return try self.state.withLock {
log.info(
"starting managed process",
metadata: [
"id": "\(id)"
])
// Start the underlying process.
try command.start()
defer {
try? self.ackPipe.fileHandleForWriting.close()
try? self.syncPipe.fileHandleForReading.close()
try? self.ackPipe.fileHandleForReading.close()
try? self.syncPipe.fileHandleForWriting.close()
try? self.errorPipe.fileHandleForWriting.close()
}
// Close our side of any pipes.
try $0.io.closeAfterExec()
try self.ackPipe.fileHandleForReading.close()
try self.syncPipe.fileHandleForWriting.close()
try self.errorPipe.fileHandleForWriting.close()
let size = MemoryLayout<Int32>.size
guard let piddata = try syncPipe.fileHandleForReading.read(upToCount: size) else {
throw ContainerizationError(.internalError, message: "no PID data from sync pipe")
}
guard piddata.count == size else {
throw ContainerizationError(.internalError, message: "invalid payload")
}
let pid = piddata.withUnsafeBytes { ptr in
ptr.load(as: Int32.self)
}
log.info(
"got back pid data",
metadata: [
"pid": "\(pid)"
])
$0.pid = pid
// This should probably happen in vmexec, but we don't need to set any cgroup
// toggles so the problem is much simpler to just do it here.
if let owningPid {
let cgManager = try Cgroup2Manager.loadFromPid(pid: owningPid)
try cgManager.addProcess(pid: pid)
}
log.info(
"sending pid acknowledgement",
metadata: [
"pid": "\(pid)"
])
try self.ackPipe.fileHandleForWriting.write(contentsOf: Self.ackPid.data(using: .utf8)!)
if self.terminal {
log.info(
"wait for PTY FD",
metadata: [
"id": "\(id)"
])
// Wait for a new write that will contain the pty fd if we asked for one.
guard let ptyFd = try self.syncPipe.fileHandleForReading.read(upToCount: size) else {
throw ContainerizationError(
.internalError,
message: "no PTY data from sync pipe"
)
}
let fd = ptyFd.withUnsafeBytes { ptr in
ptr.load(as: Int32.self)
}
log.info(
"received PTY FD from container, attaching",
metadata: [
"id": "\(id)"
])
try $0.io.attach(pid: pid, fd: fd)
try self.ackPipe.fileHandleForWriting.write(contentsOf: Self.ackConsole.data(using: .utf8)!)
}
// Wait for the errorPipe to close (after exec).
if let errorData = try? self.errorPipe.fileHandleForReading.readToEnd(),
let errorString = String(data: errorData, encoding: .utf8),
!errorString.isEmpty
{
throw ContainerizationError(
.internalError,
message: "vmexec error: \(errorString.trimmingCharacters(in: .whitespacesAndNewlines))"
)
}
log.info(
"started managed process",
metadata: [
"pid": "\(pid)",
"id": "\(id)",
])
return pid
}
} catch {
if let errorData = try? self.errorPipe.fileHandleForReading.readToEnd(),
let errorString = String(data: errorData, encoding: .utf8),
!errorString.isEmpty
{
throw ContainerizationError(
.internalError,
message: "vmexec error: \(errorString.trimmingCharacters(in: .whitespacesAndNewlines))",
cause: error
)
}
throw error
}
}
func setExit(_ status: Int32) {
self.state.withLock { state in
self.log.info(
"managed process exit",
metadata: [
"status": "\(status)"
])
let exitStatus = ContainerExitStatus(exitCode: status, exitedAt: Date.now)
state.exitStatus = exitStatus
do {
try state.io.close()
} catch {
self.log.error("failed to close I/O for process: \(error)")
}
for waiter in state.waiters {
waiter.resume(returning: exitStatus)
}
self.log.debug("\(state.waiters.count) managed process waiters signaled")
state.waiters.removeAll()
}
}
/// Wait on the process to exit
func wait() async -> ContainerExitStatus {
await withCheckedContinuation { cont in
self.state.withLock {
if let status = $0.exitStatus {
cont.resume(returning: status)
return
}
$0.waiters.append(cont)
}
}
}
func kill(_ signal: Int32) async throws {
try self.state.withLock {
guard let pid = $0.pid else {
throw ContainerizationError(.invalidState, message: "process PID is required")
}
guard $0.exitStatus == nil else {
return
}
self.log.info("sending signal \(signal) to process \(pid)")
guard Foundation.kill(pid, signal) == 0 else {
throw POSIXError.fromErrno()
}
}
}
func resize(size: Terminal.Size) throws {
try self.state.withLock {
guard $0.exitStatus == nil else {
return
}
try $0.io.resize(size: size)
}
}
func closeStdin() throws {
let io = self.state.withLock { $0.io }
try io.closeStdin()
}
func delete() async throws {
// vmexec doesn't require explicit cleanup - the process is cleaned up
// when it exits and IO is closed via setExit()
}
}
#endif