using MediaBrowser.Common.Net; using MediaBrowser.IsoMounter; using MediaBrowser.Model.Logging; using MediaBrowser.Server.Mono.Networking; using MediaBrowser.Server.Startup.Common; using Mono.Unix.Native; using System; using System.Collections.Generic; using System.Reflection; using System.Text.RegularExpressions; namespace MediaBrowser.Server.Mono.Native { public abstract class BaseMonoApp : INativeApp { /// /// Shutdowns this instance. /// public abstract void Shutdown(); /// /// Restarts this instance. /// public void Restart() { } /// /// Determines whether this instance [can self restart]. /// /// true if this instance [can self restart]; otherwise, false. public bool CanSelfRestart { get { return false; } } /// /// Gets a value indicating whether this instance can self update. /// /// true if this instance can self update; otherwise, false. public bool CanSelfUpdate { get { return false; } } public bool SupportsAutoRunAtStartup { get { return false; } } public void PreventSystemStandby() { } public List GetAssembliesWithParts() { var list = new List(); if (Environment.OperatingSystem == Startup.Common.OperatingSystem.Linux) { list.AddRange(GetLinuxAssemblies()); } list.Add(GetType().Assembly); return list; } private IEnumerable GetLinuxAssemblies() { var list = new List(); list.Add(typeof(LinuxIsoManager).Assembly); return list; } public void AuthorizeServer(int udpPort, int httpServerPort, int httpsPort, string tempDirectory) { } private NativeEnvironment _nativeEnvironment; public NativeEnvironment Environment { get { return _nativeEnvironment ?? (_nativeEnvironment = GetEnvironmentInfo()); } } public bool SupportsRunningAsService { get { return false; } } public bool IsRunningAsService { get { return false; } } public void ConfigureAutoRun(bool autorun) { } public INetworkManager CreateNetworkManager(ILogger logger) { return new NetworkManager(logger); } private NativeEnvironment GetEnvironmentInfo() { var info = new NativeEnvironment { OperatingSystem = Startup.Common.OperatingSystem.Linux }; var uname = GetUnixName(); var sysName = uname.sysname ?? string.Empty; if (string.Equals(sysName, "Darwin", StringComparison.OrdinalIgnoreCase)) { info.OperatingSystem = Startup.Common.OperatingSystem.Osx; } else if (string.Equals(sysName, "Linux", StringComparison.OrdinalIgnoreCase)) { info.OperatingSystem = Startup.Common.OperatingSystem.Linux; } else if (string.Equals(sysName, "BSD", StringComparison.OrdinalIgnoreCase)) { // TODO: How to detect BSD? info.OperatingSystem = Startup.Common.OperatingSystem.Bsd; } var archX86 = new Regex("(i|I)[3-6]86"); if (archX86.IsMatch(uname.machine)) { info.SystemArchitecture = Architecture.X86; } else if (string.Equals(uname.machine, "x86_64", StringComparison.OrdinalIgnoreCase)) { info.SystemArchitecture = Architecture.X86_X64; } else if (uname.machine.StartsWith("arm", StringComparison.OrdinalIgnoreCase)) { info.SystemArchitecture = Architecture.Arm; } info.OperatingSystemVersionString = string.IsNullOrWhiteSpace(sysName) ? System.Environment.OSVersion.VersionString : sysName; return info; } private Uname _unixName; private Uname GetUnixName() { if (_unixName == null) { var uname = new Uname(); Utsname utsname; var callResult = Syscall.uname(out utsname); if (callResult == 0) { uname.sysname = utsname.sysname; uname.machine = utsname.machine; } _unixName = uname; } return _unixName; } public class Uname { public string sysname = string.Empty; public string machine = string.Empty; } } }