// Copyright 2015 The Gogs Authors. All rights reserved. // Copyright 2016 The Gitea Authors. All rights reserved. // SPDX-License-Identifier: MIT package git import ( "bytes" "context" "errors" "fmt" "io" "os" "os/exec" "path/filepath" "runtime" "strings" "time" "code.gitea.io/gitea/modules/git/internal" //nolint:depguard // only this file can use the internal type CmdArg, other files and packages should use AddXxx functions "code.gitea.io/gitea/modules/log" "code.gitea.io/gitea/modules/process" "code.gitea.io/gitea/modules/util" ) // TrustedCmdArgs returns the trusted arguments for git command. // It's mainly for passing user-provided and trusted arguments to git command // In most cases, it shouldn't be used. Use AddXxx function instead type TrustedCmdArgs []internal.CmdArg var ( // globalCommandArgs global command args for external package setting globalCommandArgs TrustedCmdArgs // defaultCommandExecutionTimeout default command execution timeout duration defaultCommandExecutionTimeout = 360 * time.Second ) // DefaultLocale is the default LC_ALL to run git commands in. const DefaultLocale = "C" // Command represents a command with its subcommands or arguments. type Command struct { prog string args []string parentContext context.Context globalArgsLength int brokenArgs []string } func logArgSanitize(arg string) string { if strings.Contains(arg, "://") && strings.Contains(arg, "@") { return util.SanitizeCredentialURLs(arg) } else if filepath.IsAbs(arg) { base := filepath.Base(arg) dir := filepath.Dir(arg) return filepath.Join(filepath.Base(dir), base) } return arg } func (c *Command) LogString() string { // WARNING: this function is for debugging purposes only. It's much better than old code (which only joins args with space), // It's impossible to make a simple and 100% correct implementation of argument quoting for different platforms here. debugQuote := func(s string) string { if strings.ContainsAny(s, " `'\"\t\r\n") { return fmt.Sprintf("%q", s) } return s } a := make([]string, 0, len(c.args)+1) a = append(a, debugQuote(c.prog)) if c.globalArgsLength > 0 { a = append(a, "...global...") } for i := c.globalArgsLength; i < len(c.args); i++ { a = append(a, debugQuote(logArgSanitize(c.args[i]))) } return strings.Join(a, " ") } // NewCommand creates and returns a new Git Command based on given command and arguments. // Each argument should be safe to be trusted. User-provided arguments should be passed to AddDynamicArguments instead. func NewCommand(ctx context.Context, args ...internal.CmdArg) *Command { // Make an explicit copy of globalCommandArgs, otherwise append might overwrite it cargs := make([]string, 0, len(globalCommandArgs)+len(args)) for _, arg := range globalCommandArgs { cargs = append(cargs, string(arg)) } for _, arg := range args { cargs = append(cargs, string(arg)) } return &Command{ prog: GitExecutable, args: cargs, parentContext: ctx, globalArgsLength: len(globalCommandArgs), } } // NewCommandContextNoGlobals creates and returns a new Git Command based on given command and arguments only with the specify args and don't care global command args // Each argument should be safe to be trusted. User-provided arguments should be passed to AddDynamicArguments instead. func NewCommandContextNoGlobals(ctx context.Context, args ...internal.CmdArg) *Command { cargs := make([]string, 0, len(args)) for _, arg := range args { cargs = append(cargs, string(arg)) } return &Command{ prog: GitExecutable, args: cargs, parentContext: ctx, } } // SetParentContext sets the parent context for this command func (c *Command) SetParentContext(ctx context.Context) *Command { c.parentContext = ctx return c } // isSafeArgumentValue checks if the argument is safe to be used as a value (not an option) func isSafeArgumentValue(s string) bool { return s == "" || s[0] != '-' } // isValidArgumentOption checks if the argument is a valid option (starting with '-'). // It doesn't check whether the option is supported or not func isValidArgumentOption(s string) bool { return s != "" && s[0] == '-' } // AddArguments adds new git arguments (option/value) to the command. It only accepts string literals, or trusted CmdArg. // Type CmdArg is in the internal package, so it can not be used outside of this package directly, // it makes sure that user-provided arguments won't cause RCE risks. // User-provided arguments should be passed by other AddXxx functions func (c *Command) AddArguments(args ...internal.CmdArg) *Command { for _, arg := range args { c.args = append(c.args, string(arg)) } return c } // AddOptionValues adds a new option with a list of non-option values // For example: AddOptionValues("--opt", val) means 2 arguments: {"--opt", val}. // The values are treated as dynamic argument values. It equals to: AddArguments("--opt") then AddDynamicArguments(val). func (c *Command) AddOptionValues(opt internal.CmdArg, args ...string) *Command { if !isValidArgumentOption(string(opt)) { c.brokenArgs = append(c.brokenArgs, string(opt)) return c } c.args = append(c.args, string(opt)) c.AddDynamicArguments(args...) return c } // AddOptionFormat adds a new option with a format string and arguments // For example: AddOptionFormat("--opt=%s %s", val1, val2) means 1 argument: {"--opt=val1 val2"}. func (c *Command) AddOptionFormat(opt string, args ...any) *Command { if !isValidArgumentOption(opt) { c.brokenArgs = append(c.brokenArgs, opt) return c } // a quick check to make sure the format string matches the number of arguments, to find low-level mistakes ASAP if strings.Count(strings.ReplaceAll(opt, "%%", ""), "%") != len(args) { c.brokenArgs = append(c.brokenArgs, opt) return c } s := fmt.Sprintf(opt, args...) c.args = append(c.args, s) return c } // AddDynamicArguments adds new dynamic argument values to the command. // The arguments may come from user input and can not be trusted, so no leading '-' is allowed to avoid passing options. // TODO: in the future, this function can be renamed to AddArgumentValues func (c *Command) AddDynamicArguments(args ...string) *Command { for _, arg := range args { if !isSafeArgumentValue(arg) { c.brokenArgs = append(c.brokenArgs, arg) } } if len(c.brokenArgs) != 0 { return c } c.args = append(c.args, args...) return c } // AddDashesAndList adds the "--" and then add the list as arguments, it's usually for adding file list // At the moment, this function can be only called once, maybe in future it can be refactored to support multiple calls (if necessary) func (c *Command) AddDashesAndList(list ...string) *Command { c.args = append(c.args, "--") // Some old code also checks `arg != ""`, IMO it's not necessary. // If the check is needed, the list should be prepared before the call to this function c.args = append(c.args, list...) return c } // ToTrustedCmdArgs converts a list of strings (trusted as argument) to TrustedCmdArgs // In most cases, it shouldn't be used. Use NewCommand().AddXxx() function instead func ToTrustedCmdArgs(args []string) TrustedCmdArgs { ret := make(TrustedCmdArgs, len(args)) for i, arg := range args { ret[i] = internal.CmdArg(arg) } return ret } // RunOpts represents parameters to run the command. If UseContextTimeout is specified, then Timeout is ignored. type RunOpts struct { Env []string Timeout time.Duration UseContextTimeout bool // Dir is the working dir for the git command, however: // FIXME: this could be incorrect in many cases, for example: // * /some/path/.git // * /some/path/.git/gitea-data/data/repositories/user/repo.git // If "user/repo.git" is invalid/broken, then running git command in it will use "/some/path/.git", and produce unexpected results // The correct approach is to use `--git-dir" global argument Dir string Stdout, Stderr io.Writer // Stdin is used for passing input to the command // The caller must make sure the Stdin writer is closed properly to finish the Run function. // Otherwise, the Run function may hang for long time or forever, especially when the Git's context deadline is not the same as the caller's. // Some common mistakes: // * `defer stdinWriter.Close()` then call `cmd.Run()`: the Run() would never return if the command is killed by timeout // * `go { case <- parentContext.Done(): stdinWriter.Close() }` with `cmd.Run(DefaultTimeout)`: the command would have been killed by timeout but the Run doesn't return until stdinWriter.Close() // * `go { if stdoutReader.Read() err != nil: stdinWriter.Close() }` with `cmd.Run()`: the stdoutReader may never return error if the command is killed by timeout // In the future, ideally the git module itself should have full control of the stdin, to avoid such problems and make it easier to refactor to a better architecture. Stdin io.Reader PipelineFunc func(context.Context, context.CancelFunc) error } func commonBaseEnvs() []string { // at the moment, do not set "GIT_CONFIG_NOSYSTEM", users may have put some configs like "receive.certNonceSeed" in it envs := []string{ "HOME=" + HomeDir(), // make Gitea use internal git config only, to prevent conflicts with user's git config "GIT_NO_REPLACE_OBJECTS=1", // ignore replace references (https://git-scm.com/docs/git-replace) } // some environment variables should be passed to git command passThroughEnvKeys := []string{ "GNUPGHOME", // git may call gnupg to do commit signing } for _, key := range passThroughEnvKeys { if val, ok := os.LookupEnv(key); ok { envs = append(envs, key+"="+val) } } return envs } // CommonGitCmdEnvs returns the common environment variables for a "git" command. func CommonGitCmdEnvs() []string { return append(commonBaseEnvs(), []string{ "LC_ALL=" + DefaultLocale, "GIT_TERMINAL_PROMPT=0", // avoid prompting for credentials interactively, supported since git v2.3 }...) } // CommonCmdServEnvs is like CommonGitCmdEnvs, but it only returns minimal required environment variables for the "gitea serv" command func CommonCmdServEnvs() []string { return commonBaseEnvs() } var ErrBrokenCommand = errors.New("git command is broken") // Run runs the command with the RunOpts func (c *Command) Run(opts *RunOpts) error { return c.run(1, opts) } func (c *Command) run(skip int, opts *RunOpts) error { if len(c.brokenArgs) != 0 { log.Error("git command is broken: %s, broken args: %s", c.LogString(), strings.Join(c.brokenArgs, " ")) return ErrBrokenCommand } if opts == nil { opts = &RunOpts{} } // We must not change the provided options timeout := opts.Timeout if timeout <= 0 { timeout = defaultCommandExecutionTimeout } var desc string callerInfo := util.CallerFuncName(1 /* util */ + 1 /* this */ + skip /* parent */) if pos := strings.LastIndex(callerInfo, "/"); pos >= 0 { callerInfo = callerInfo[pos+1:] } // these logs are for debugging purposes only, so no guarantee of correctness or stability desc = fmt.Sprintf("git.Run(by:%s, repo:%s): %s", callerInfo, logArgSanitize(opts.Dir), c.LogString()) log.Debug("git.Command: %s", desc) var ctx context.Context var cancel context.CancelFunc var finished context.CancelFunc if opts.UseContextTimeout { ctx, cancel, finished = process.GetManager().AddContext(c.parentContext, desc) } else { ctx, cancel, finished = process.GetManager().AddContextTimeout(c.parentContext, timeout, desc) } defer finished() startTime := time.Now() cmd := exec.CommandContext(ctx, c.prog, c.args...) if opts.Env == nil { cmd.Env = os.Environ() } else { cmd.Env = opts.Env } process.SetSysProcAttribute(cmd) cmd.Env = append(cmd.Env, CommonGitCmdEnvs()...) cmd.Dir = opts.Dir cmd.Stdout = opts.Stdout cmd.Stderr = opts.Stderr cmd.Stdin = opts.Stdin if err := cmd.Start(); err != nil { return err } if opts.PipelineFunc != nil { err := opts.PipelineFunc(ctx, cancel) if err != nil { cancel() _ = cmd.Wait() return err } } err := cmd.Wait() elapsed := time.Since(startTime) if elapsed > time.Second { log.Debug("slow git.Command.Run: %s (%s)", c, elapsed) } // We need to check if the context is canceled by the program on Windows. // This is because Windows does not have signal checking when terminating the process. // It always returns exit code 1, unlike Linux, which has many exit codes for signals. if runtime.GOOS == "windows" && err != nil && err.Error() == "" && cmd.ProcessState.ExitCode() == 1 && ctx.Err() == context.Canceled { return ctx.Err() } if err != nil && ctx.Err() != context.DeadlineExceeded { return err } return ctx.Err() } type RunStdError interface { error Unwrap() error Stderr() string } type runStdError struct { err error stderr string errMsg string } func (r *runStdError) Error() string { // the stderr must be in the returned error text, some code only checks `strings.Contains(err.Error(), "git error")` if r.errMsg == "" { r.errMsg = ConcatenateError(r.err, r.stderr).Error() } return r.errMsg } func (r *runStdError) Unwrap() error { return r.err } func (r *runStdError) Stderr() string { return r.stderr } func IsErrorExitCode(err error, code int) bool { var exitError *exec.ExitError if errors.As(err, &exitError) { return exitError.ExitCode() == code } return false } // RunStdString runs the command with options and returns stdout/stderr as string. and store stderr to returned error (err combined with stderr). func (c *Command) RunStdString(opts *RunOpts) (stdout, stderr string, runErr RunStdError) { stdoutBytes, stderrBytes, err := c.runStdBytes(opts) stdout = util.UnsafeBytesToString(stdoutBytes) stderr = util.UnsafeBytesToString(stderrBytes) if err != nil { return stdout, stderr, &runStdError{err: err, stderr: stderr} } // even if there is no err, there could still be some stderr output, so we just return stdout/stderr as they are return stdout, stderr, nil } // RunStdBytes runs the command with options and returns stdout/stderr as bytes. and store stderr to returned error (err combined with stderr). func (c *Command) RunStdBytes(opts *RunOpts) (stdout, stderr []byte, runErr RunStdError) { return c.runStdBytes(opts) } func (c *Command) runStdBytes(opts *RunOpts) (stdout, stderr []byte, runErr RunStdError) { if opts == nil { opts = &RunOpts{} } if opts.Stdout != nil || opts.Stderr != nil { // we must panic here, otherwise there would be bugs if developers set Stdin/Stderr by mistake, and it would be very difficult to debug panic("stdout and stderr field must be nil when using RunStdBytes") } stdoutBuf := &bytes.Buffer{} stderrBuf := &bytes.Buffer{} // We must not change the provided options as it could break future calls - therefore make a copy. newOpts := &RunOpts{ Env: opts.Env, Timeout: opts.Timeout, UseContextTimeout: opts.UseContextTimeout, Dir: opts.Dir, Stdout: stdoutBuf, Stderr: stderrBuf, Stdin: opts.Stdin, PipelineFunc: opts.PipelineFunc, } err := c.run(2, newOpts) stderr = stderrBuf.Bytes() if err != nil { return nil, stderr, &runStdError{err: err, stderr: util.UnsafeBytesToString(stderr)} } // even if there is no err, there could still be some stderr output return stdoutBuf.Bytes(), stderr, nil } // AllowLFSFiltersArgs return globalCommandArgs with lfs filter, it should only be used for tests func AllowLFSFiltersArgs() TrustedCmdArgs { // Now here we should explicitly allow lfs filters to run filteredLFSGlobalArgs := make(TrustedCmdArgs, len(globalCommandArgs)) j := 0 for _, arg := range globalCommandArgs { if strings.Contains(string(arg), "lfs") { j-- } else { filteredLFSGlobalArgs[j] = arg j++ } } return filteredLFSGlobalArgs[:j] }