func stage1() int { uuid, err := types.NewUUID(flag.Arg(0)) if err != nil { log.FatalE("UUID is missing or malformed", err) } root := "." p, err := stage1commontypes.LoadPod(root, uuid) if err != nil { log.FatalE("failed to load pod", err) } // set close-on-exec flag on RKT_LOCK_FD so it gets correctly closed when invoking // network plugins lfd, err := common.GetRktLockFD() if err != nil { log.FatalE("failed to get rkt lock fd", err) } if err := sys.CloseOnExec(lfd, true); err != nil { log.FatalE("failed to set FD_CLOEXEC on rkt lock", err) } mirrorLocalZoneInfo(p.Root) flavor, _, err := stage1initcommon.GetFlavor(p) if err != nil { log.FatalE("failed to get stage1 flavor", err) } var n *networking.Networking if netList.Contained() { fps, err := commonnet.ForwardedPorts(p.Manifest) if err != nil { log.FatalE("error initializing forwarding ports", err) } noDNS := dnsConfMode.Pairs["resolv"] != "default" // force ignore CNI DNS results n, err = networking.Setup(root, p.UUID, fps, netList, localConfig, flavor, noDNS, debug) if err != nil { log.FatalE("failed to setup network", err) } if err = n.Save(); err != nil { log.PrintE("failed to save networking state", err) n.Teardown(flavor, debug) return 254 } if len(mdsToken) > 0 { hostIP, err := n.GetForwardableNetHostIP() if err != nil { log.FatalE("failed to get default Host IP", err) } p.MetadataServiceURL = common.MetadataServicePublicURL(hostIP, mdsToken) } } else { if flavor == "kvm" { log.Fatal("flavor kvm requires private network configuration (try --net)") } if len(mdsToken) > 0 { p.MetadataServiceURL = common.MetadataServicePublicURL(localhostIP, mdsToken) } } insecureOptions := stage1initcommon.Stage1InsecureOptions{ DisablePaths: disablePaths, DisableCapabilities: disableCapabilities, DisableSeccomp: disableSeccomp, } mnt := fs.NewLoggingMounter( fs.MounterFunc(syscall.Mount), fs.UnmounterFunc(syscall.Unmount), diag.Printf, ) if dnsConfMode.Pairs["resolv"] == "host" { stage1initcommon.UseHostResolv(mnt, root) } if dnsConfMode.Pairs["hosts"] == "host" { stage1initcommon.UseHostHosts(mnt, root) } if mutable { if err = stage1initcommon.MutableEnv(p); err != nil { log.FatalE("cannot initialize mutable environment", err) } } else { if err = stage1initcommon.ImmutableEnv(p, interactive, privateUsers, insecureOptions); err != nil { log.FatalE("cannot initialize immutable environment", err) } } if err := stage1initcommon.SetJournalPermissions(p); err != nil { log.PrintE("warning: error setting journal ACLs, you'll need root to read the pod journal", err) } if flavor == "kvm" { kvm.InitDebug(debug) if err := KvmNetworkingToSystemd(p, n); err != nil { log.FatalE("failed to configure systemd for kvm", err) } } canMachinedRegister := false if flavor != "kvm" { // kvm doesn't register with systemd right now, see #2664. canMachinedRegister = machinedRegister() } diag.Printf("canMachinedRegister %t", canMachinedRegister) args, env, err := getArgsEnv(p, flavor, canMachinedRegister, debug, n, insecureOptions) if err != nil { log.FatalE("cannot get environment", err) } diag.Printf("args %q", args) diag.Printf("env %q", env) // create a separate mount namespace so the cgroup filesystems // are unmounted when exiting the pod if err := syscall.Unshare(syscall.CLONE_NEWNS); err != nil { log.FatalE("error unsharing", err) } // we recursively make / a "shared and slave" so mount events from the // new namespace don't propagate to the host namespace but mount events // from the host propagate to the new namespace and are forwarded to // its peer group // See https://www.kernel.org/doc/Documentation/filesystems/sharedsubtree.txt if err := mnt.Mount("", "/", "none", syscall.MS_REC|syscall.MS_SLAVE, ""); err != nil { log.FatalE("error making / a slave mount", err) } if err := mnt.Mount("", "/", "none", syscall.MS_REC|syscall.MS_SHARED, ""); err != nil { log.FatalE("error making / a shared and slave mount", err) } unifiedCgroup, err := cgroup.IsCgroupUnified("/") if err != nil { log.FatalE("error determining cgroup version", err) } diag.Printf("unifiedCgroup %t", unifiedCgroup) s1Root := common.Stage1RootfsPath(p.Root) machineID := stage1initcommon.GetMachineID(p) subcgroup, err := getContainerSubCgroup(machineID, canMachinedRegister, unifiedCgroup) if err != nil { log.FatalE("error getting container subcgroup", err) } diag.Printf("subcgroup %q", subcgroup) if err := ioutil.WriteFile(filepath.Join(p.Root, "subcgroup"), []byte(fmt.Sprintf("%s", subcgroup)), 0644); err != nil { log.FatalE("cannot write subcgroup file", err) } if !unifiedCgroup { enabledCgroups, err := v1.GetEnabledCgroups() if err != nil { log.FatalE("error getting v1 cgroups", err) } diag.Printf("enabledCgroups %q", enabledCgroups) if err := mountHostV1Cgroups(mnt, enabledCgroups); err != nil { log.FatalE("couldn't mount the host v1 cgroups", err) } if !canMachinedRegister { if err := v1.JoinSubcgroup("systemd", subcgroup); err != nil { log.FatalE(fmt.Sprintf("error joining subcgroup %q", subcgroup), err) } } var serviceNames []string for _, app := range p.Manifest.Apps { serviceNames = append(serviceNames, stage1initcommon.ServiceUnitName(app.Name)) } diag.Printf("serviceNames %q", serviceNames) if err := mountContainerV1Cgroups(mnt, s1Root, enabledCgroups, subcgroup, serviceNames, insecureOptions); err != nil { log.FatalE("couldn't mount the container v1 cgroups", err) } } // KVM flavor has a bit different logic in handling pid vs ppid, for details look into #2389 // it doesn't require the existence of a "ppid", instead it registers the current pid (which // will be reused by lkvm binary) as a pod process pid used during entering pid_filename := "ppid" if flavor == "kvm" { pid_filename = "pid" } if err = stage1common.WritePid(os.Getpid(), pid_filename); err != nil { log.FatalE("error writing pid", err) } if flavor == "kvm" { if err := KvmPrepareMounts(s1Root, p); err != nil { log.FatalE("error preparing mounts", err) } } err = stage1common.WithClearedCloExec(lfd, func() error { return syscall.Exec(args[0], args, env) }) if err != nil { log.FatalE(fmt.Sprintf("failed to execute %q", args[0]), err) } return 0 }
func stage1() int { uuid, err := types.NewUUID(flag.Arg(0)) if err != nil { log.PrintE("UUID is missing or malformed", err) return 1 } root := "." p, err := stage1commontypes.LoadPod(root, uuid) if err != nil { log.PrintE("failed to load pod", err) return 1 } // set close-on-exec flag on RKT_LOCK_FD so it gets correctly closed when invoking // network plugins lfd, err := common.GetRktLockFD() if err != nil { log.PrintE("failed to get rkt lock fd", err) return 1 } if err := sys.CloseOnExec(lfd, true); err != nil { log.PrintE("failed to set FD_CLOEXEC on rkt lock", err) return 1 } mirrorLocalZoneInfo(p.Root) flavor, _, err := stage1initcommon.GetFlavor(p) if err != nil { log.PrintE("failed to get stage1 flavor", err) return 1 } var n *networking.Networking if netList.Contained() { fps, err := forwardedPorts(p) if err != nil { log.Error(err) return 1 } n, err = networking.Setup(root, p.UUID, fps, netList, localConfig, flavor, debug) if err != nil { log.PrintE("failed to setup network", err) return 1 } if err = n.Save(); err != nil { log.PrintE("failed to save networking state", err) n.Teardown(flavor, debug) return 1 } if len(mdsToken) > 0 { hostIP, err := n.GetForwardableNetHostIP() if err != nil { log.PrintE("failed to get default Host IP", err) return 1 } p.MetadataServiceURL = common.MetadataServicePublicURL(hostIP, mdsToken) } } else { if flavor == "kvm" { log.Print("flavor kvm requires private network configuration (try --net)") return 1 } if len(mdsToken) > 0 { p.MetadataServiceURL = common.MetadataServicePublicURL(localhostIP, mdsToken) } } if err = stage1initcommon.WriteDefaultTarget(p); err != nil { log.PrintE("failed to write default.target", err) return 1 } if err = stage1initcommon.WritePrepareAppTemplate(p); err != nil { log.PrintE("failed to write prepare-app service template", err) return 1 } if err := stage1initcommon.SetJournalPermissions(p); err != nil { log.PrintE("warning: error setting journal ACLs, you'll need root to read the pod journal", err) } if flavor == "kvm" { kvm.InitDebug(debug) if err := KvmNetworkingToSystemd(p, n); err != nil { log.PrintE("failed to configure systemd for kvm", err) return 1 } } insecureOptions := stage1initcommon.Stage1InsecureOptions{ DisablePaths: disablePaths, DisableCapabilities: disableCapabilities, DisableSeccomp: disableSeccomp, } if err = stage1initcommon.PodToSystemd(p, interactive, flavor, privateUsers, insecureOptions); err != nil { log.PrintE("failed to configure systemd", err) return 1 } args, env, err := getArgsEnv(p, flavor, debug, n, insecureOptions) if err != nil { log.Error(err) return 1 } // create a separate mount namespace so the cgroup filesystems // are unmounted when exiting the pod if err := syscall.Unshare(syscall.CLONE_NEWNS); err != nil { log.FatalE("error unsharing", err) } // we recursively make / a "shared and slave" so mount events from the // new namespace don't propagate to the host namespace but mount events // from the host propagate to the new namespace and are forwarded to // its peer group // See https://www.kernel.org/doc/Documentation/filesystems/sharedsubtree.txt if err := syscall.Mount("", "/", "none", syscall.MS_REC|syscall.MS_SLAVE, ""); err != nil { log.FatalE("error making / a slave mount", err) } if err := syscall.Mount("", "/", "none", syscall.MS_REC|syscall.MS_SHARED, ""); err != nil { log.FatalE("error making / a shared and slave mount", err) } enabledCgroups, err := cgroup.GetEnabledCgroups() if err != nil { log.FatalE("error getting cgroups", err) return 1 } if err := mountHostCgroups(enabledCgroups); err != nil { log.FatalE("couldn't mount the host cgroups", err) return 1 } var serviceNames []string for _, app := range p.Manifest.Apps { serviceNames = append(serviceNames, stage1initcommon.ServiceUnitName(app.Name)) } s1Root := common.Stage1RootfsPath(p.Root) machineID := stage1initcommon.GetMachineID(p) subcgroup, err := getContainerSubCgroup(machineID) if err == nil { if err := ioutil.WriteFile(filepath.Join(p.Root, "subcgroup"), []byte(fmt.Sprintf("%s", subcgroup)), 0644); err != nil { log.FatalE("cannot write subcgroup file", err) return 1 } if err := mountContainerCgroups(s1Root, enabledCgroups, subcgroup, serviceNames); err != nil { log.PrintE("couldn't mount the container cgroups", err) return 1 } } else { log.PrintE("continuing with per-app isolators disabled", err) } // KVM flavor has a bit different logic in handling pid vs ppid, for details look into #2389 // it doesn't require the existence of a "ppid", instead it registers the current pid (which // will be reused by lkvm binary) as a pod process pid used during entering pid_filename := "ppid" if flavor == "kvm" { pid_filename = "pid" } if err = stage1common.WritePid(os.Getpid(), pid_filename); err != nil { log.Error(err) return 1 } if flavor == "kvm" { if err := KvmPrepareMounts(s1Root, p); err != nil { log.PrintE("could not prepare mounts", err) return 1 } } err = stage1common.WithClearedCloExec(lfd, func() error { return syscall.Exec(args[0], args, env) }) if err != nil { log.PrintE(fmt.Sprintf("failed to execute %q", args[0]), err) return 1 } return 0 }