package app import ( "errors" "fmt" "os/exec" "path" "path/filepath" "strings" "git.ophivana.moe/security/fortify/helper" "git.ophivana.moe/security/fortify/internal/fmsg" "git.ophivana.moe/security/fortify/internal/shim" "git.ophivana.moe/security/fortify/internal/state" "git.ophivana.moe/security/fortify/internal/system" ) // Start selects a user switcher and starts shim. // Note that Wait must be called regardless of error returned by Start. func (a *app) Start() error { a.lock.Lock() defer a.lock.Unlock() // resolve exec paths shimExec := [3]string{a.seal.sys.executable, helper.BubblewrapName} if len(a.seal.command) > 0 { shimExec[2] = a.seal.command[0] } for i, n := range shimExec { if len(n) == 0 { continue } if filepath.Base(n) == n { if s, err := exec.LookPath(n); err == nil { shimExec[i] = s } else { return fmsg.WrapError(err, fmt.Sprintf("executable file %q not found in $PATH", n)) } } } // select command builder var commandBuilder shim.CommandBuilder switch a.seal.launchOption { case LaunchMethodSudo: commandBuilder = a.commandBuilderSudo case LaunchMethodMachineCtl: commandBuilder = a.commandBuilderMachineCtl default: panic("unreachable") } // construct shim manager a.shim = shim.New(a.seal.toolPath, uint32(a.seal.sys.UID()), path.Join(a.seal.share, "shim"), a.seal.wl, &shim.Payload{ Argv: a.seal.command, Exec: shimExec, Bwrap: a.seal.sys.bwrap, WL: a.seal.wl != nil, Verbose: fmsg.Verbose(), }, // checkPid is impossible at the moment since there is no reliable way to obtain shim's pid // this feature is disabled here until sudo is replaced by fortify suid wrapper false, ) // startup will go ahead, commit system setup if err := a.seal.sys.Commit(); err != nil { return err } a.seal.sys.needRevert = true if startTime, err := a.shim.Start(commandBuilder); err != nil { return err } else { // shim start and setup success, create process state sd := state.State{ PID: a.shim.Unwrap().Process.Pid, Command: a.seal.command, Capability: a.seal.et, Method: method[a.seal.launchOption], Argv: a.shim.Unwrap().Args, Time: *startTime, } // register process state var err0 = new(StateStoreError) err0.Inner, err0.DoErr = a.seal.store.Do(func(b state.Backend) { err0.InnerErr = b.Save(&sd) }) a.seal.sys.saveState = true return err0.equiv("cannot save process state:") } } // StateStoreError is returned for a failed state save type StateStoreError struct { // whether inner function was called Inner bool // error returned by state.Store Do method DoErr error // error returned by state.Backend Save method InnerErr error // any other errors needing to be tracked Err error } func (e *StateStoreError) equiv(a ...any) error { if e.Inner && e.DoErr == nil && e.InnerErr == nil && e.Err == nil { return nil } else { return fmsg.WrapErrorSuffix(e, a...) } } func (e *StateStoreError) Error() string { if e.Inner && e.InnerErr != nil { return e.InnerErr.Error() } if e.DoErr != nil { return e.DoErr.Error() } if e.Err != nil { return e.Err.Error() } return "(nil)" } func (e *StateStoreError) Unwrap() (errs []error) { errs = make([]error, 0, 3) if e.DoErr != nil { errs = append(errs, e.DoErr) } if e.InnerErr != nil { errs = append(errs, e.InnerErr) } if e.Err != nil { errs = append(errs, e.Err) } return } type RevertCompoundError interface { Error() string Unwrap() []error } func (a *app) Wait() (int, error) { a.lock.Lock() defer a.lock.Unlock() if a.shim == nil { fmsg.VPrintln("shim not initialised, skipping cleanup") return 1, nil } var r int if cmd := a.shim.Unwrap(); cmd == nil { // failure prior to process start r = 255 } else { // wait for process and resolve exit code if err := cmd.Wait(); err != nil { var exitError *exec.ExitError if !errors.As(err, &exitError) { // should be unreachable a.waitErr = err } // store non-zero return code r = exitError.ExitCode() } else { r = cmd.ProcessState.ExitCode() } fmsg.VPrintf("process %d exited with exit code %d", cmd.Process.Pid, r) } // child process exited, resume output fmsg.Resume() // close wayland connection if a.seal.wl != nil { if err := a.seal.wl.Close(); err != nil { fmsg.Println("cannot close wayland connection:", err) } } // update store and revert app setup transaction e := new(StateStoreError) e.Inner, e.DoErr = a.seal.store.Do(func(b state.Backend) { e.InnerErr = func() error { // destroy defunct state entry if cmd := a.shim.Unwrap(); cmd != nil && a.seal.sys.saveState { if err := b.Destroy(cmd.Process.Pid); err != nil { return err } } // enablements of remaining launchers rt, ec := new(system.Enablements), new(system.Criteria) ec.Enablements = new(system.Enablements) ec.Set(system.Process) if states, err := b.Load(); err != nil { return err } else { if l := len(states); l == 0 { // cleanup globals as the final launcher fmsg.VPrintln("no other launchers active, will clean up globals") ec.Set(system.User) } else { fmsg.VPrintf("found %d active launchers, cleaning up without globals", l) } // accumulate capabilities of other launchers for _, s := range states { *rt |= s.Capability } } // invert accumulated enablements for cleanup for i := system.Enablement(0); i < system.Enablement(system.ELen); i++ { if !rt.Has(i) { ec.Set(i) } } if fmsg.Verbose() { labels := make([]string, 0, system.ELen+1) for i := system.Enablement(0); i < system.Enablement(system.ELen+2); i++ { if ec.Has(i) { labels = append(labels, system.TypeString(i)) } } if len(labels) > 0 { fmsg.VPrintln("reverting operations labelled", strings.Join(labels, ", ")) } } a.shim.AbortWait(errors.New("shim exited")) if err := a.seal.sys.Revert(ec); err != nil { return err.(RevertCompoundError) } return nil }() }) e.Err = a.seal.store.Close() return r, e.equiv("error returned during cleanup:", e) }