peezy-tech/jojo
2
0
Fork 0
mirror of https://codeberg.org/forgejo/forgejo.git synced 2026-05-12 22:10:25 +00:00
Code Issues Projects Releases Packages Wiki Activity Actions
jojo/cmd/serv.go
Nils Goroll 0034e55965 chore: unify signing key configuration across modules (#11194) 
## Context

the three commits in this series are the first step towards the goal of removing the special casing around `JWT_SECRET`, which is used for various modules via `GetGeneralTokenSigningSecret()`. Ultimately, I want to work towards enabling seamless migration away from general use of the common secret. To enable this, we need proper secret/key rotation support, that is, we need to allow for configuration of additional secrets/keys which are accepted for token validation, but not used to issue tokens.

I have this _Verifier_ support basically implemented, but this PR is not it.

This PR contains cleanup refactoring which I worked on before writing the _Verifier_ support, because I noticed that the existing secret/key handling across modules was inconsistent and required duplicated code.

I am submitting this part now to allow for incremental review of not too large a diff, and because these commits remained unchanged during two weeks since I moved on the the next task.

## The problem being addressed

Configuration of JWT signing secrets/keys was inconsistent:

Under `[oauth2]` the full configuration set was supported:

- `JWT_SIGNING_ALGORITHM` configured the algorithm
- `JWT_SECRET` configured a literal secret for symmetric algorithms
- `JWT_SECRET_URI` configured a `file:` uri of a secret for symmetric algorithms
- `JWT_SIGNING_PRIVATE_KEY_FILE` configured a file for asymmetric algorithms

For `[server]`, the LFS module only supported `LFS_JWT_SECRET`, and the signing method was hardcoded to `HS256`

For `[actions]`, only asymmetric signing methods were supported via `ID_TOKEN_SIGNING_ALGORITHM` and `ID_TOKEN_SIGNING_PRIVATE_KEY_FILE`.

## ini unification

The proposed code centralizes ini parsing to always support the following ini keys:

- `[pfx]SIGNING_ALGORITHM` determines the algorithm
- `[pfx]SECRET` is a literal secret for symmetric algorithms
- `[pfx]SECRET_URI` is the uri of a secret for symmetric algorithms
- `[pfx]SIGNING_PRIVATE_KEY_FILE` is a file with a private key for asymmetric algorithms

`[pfx]` is specific to the module and chosen to support the existing ini keys

Centralizing this code and unifying the ini keys will come handy for at least the following reasons:

- consistent behavior across modules is easier to understand
- less duplicated code
- easier to expand later, which is my main motivation

## implementation notes

as might be apparent by the _take3_ branch name, this is the third iteration of this patch series. The main reason why I abandoned the other two is that I first tried to move all the key initialization into the code called from settings.go when the ini file is parsed. But that lead to a lot of friction with test cases, because private key files which are configured, but do not exist will get created and hence require a writable `AppDataPath` and additional clean up.

To avoid a lot of noise and complications in test cases, I kept the existing two stage process, where

- the settings component creates missing symmetric signing keys and writes them to the .ini
- the settings component creates a simple configuration struct
- which is then used from the module init to create the actual key, which also includes creating a private key file if asymmetric crypto is configured and the key file does not exist.

I would have wished this patch was a net negative in terms of LOCs, but I hope it contributes to clarity and many added lines are in test cases.

## Commits

Because sometimes PRs are merged as squashes with the PR text remaining, I am repeating here the individual messages of the individual commits for future reference:

### Refactor signing key initalization and oauth2 use of it

This commit is the first in a series towards the goal of addressing the
FIXME comment in modules/setting/oauth2.go to remove
GeneralTokenSigningSecret

To do it properly, the task also requires addition of signing secret/key
rotation: We ultimately want to be able to change a signing key, but
continue to accept the previous one. This is particularly relevant to
offer a path from GeneralTokenSigningSecret aka JWT_SECRET to new,
specific component key configuration, where it should be possible to add
the former JWT_SECRET as a key accepted for verification to enable a
seamless transition.

This perspective, in turn, calls for refactoring of the existing secret
initialization code to centralize the common functions of parsing
signing key related configuration directives: The oauth2 module
currently is the only component accepting symmetric and asymmetric keys,
with the limitation of the symmetric key being also the
GeneralTokenSigningSecret. Other components either enforce HS256 or
public key algorithms.

We should really give the choice of algorithm selection and avoid code
duplication in other places, so this commit

- generalizes setting parsing into a configuration struct: A prefix can
  be provided, with which the common configuration directives are
  processed:

  - [pfx]SIGNING_ALGORITHM determines the algorithm
  - [pfx]SECRET is a literal secret for symmetric algorithms
  - [pfx]SECRET_URI is the uri of a secret for symmetric algorithms
  - [pfx]SIGNING_PRIVATE_KEY_FILE is a file with a private key for asymmetric algorithms

- which is then accepted by jwtx.InitSigningKey() to create an actual
  signing key

The reasons for the two stage process are explained in a long-ish
comment in modules/setting/security.go. In short, other options would
either violate sensible module boundaries or cause too much friction.
These other options have actually been tried, this is take 3 of the
proposed changes.

### Refactor services/lfs: Change token code to use SigningKey

This now also enables use of token algorithms other than HS256.

In this case, signing key initialization also happens during settings
initialization, because LFS is also used in CLI commands.

### Refactor api/actions to use new signingkey API

This now also enables use of symmetric token algorithms.

Reviewed-on: https://codeberg.org/forgejo/forgejo/pulls/11194
Reviewed-by: Gusted <gusted@noreply.codeberg.org>
Co-authored-by: Nils Goroll <nils.goroll@uplex.de>
Co-committed-by: Nils Goroll <nils.goroll@uplex.de>
2026-04-21 19:39:33 +02:00

366 lines
12 KiB
Go
Raw Blame History

// Copyright 2014 The Gogs Authors. All rights reserved.
// Copyright 2016 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
package cmd
import (
"context"
"fmt"
"net/url"
"os"
"os/exec"
"path/filepath"
"regexp"
"strconv"
"strings"
"testing"
"time"
"unicode"
asymkey_model "forgejo.org/models/asymkey"
git_model "forgejo.org/models/git"
"forgejo.org/models/perm"
"forgejo.org/modules/git"
"forgejo.org/modules/json"
"forgejo.org/modules/log"
"forgejo.org/modules/pprof"
"forgejo.org/modules/private"
"forgejo.org/modules/process"
repo_module "forgejo.org/modules/repository"
"forgejo.org/modules/setting"
"forgejo.org/services/lfs"
"github.com/golang-jwt/jwt/v5"
"github.com/kballard/go-shellquote"
"github.com/urfave/cli/v3"
)
const (
lfsAuthenticateVerb = "git-lfs-authenticate"
)
// CmdServ represents the available serv sub-command.
func cmdServ() *cli.Command {
return &cli.Command{
Name: "serv",
Usage: "(internal) Should only be called by SSH shell",
Description: "Serv provides access auth for repositories",
Before: PrepareConsoleLoggerLevel(log.FATAL),
Action: runServ,
Flags: []cli.Flag{
&cli.BoolFlag{
Name: "enable-pprof",
},
&cli.BoolFlag{
Name: "debug",
},
},
}
}
func setup(ctx context.Context, debug, gitNeeded bool) {
if debug {
setupConsoleLogger(log.TRACE, false, os.Stderr)
} else {
setupConsoleLogger(log.FATAL, false, os.Stderr)
}
setting.MustInstalled()
// Sanity check to ensure path is not relative, see: https://github.com/go-gitea/gitea/pull/19317
if _, err := os.Stat(setting.RepoRootPath); err != nil {
_ = fail(ctx, "Unable to access repository path", "Unable to access repository path %q, err: %v", setting.RepoRootPath, err)
return
}
if gitNeeded {
if err := git.InitSimple(context.Background()); err != nil {
_ = fail(ctx, "Failed to init git", "Failed to init git, err: %v", err)
}
}
}
var (
allowedCommands = map[string]perm.AccessMode{
"git-upload-pack": perm.AccessModeRead,
"git-upload-archive": perm.AccessModeRead,
"git-receive-pack": perm.AccessModeWrite,
lfsAuthenticateVerb: perm.AccessModeNone,
}
alphaDashDotPattern = regexp.MustCompile(`[^\w-\.]`)
)
func sshLog(ctx context.Context, level log.Level, message string) error {
if testing.Testing() || setting.InternalToken == "" {
return nil
}
return private.SSHLog(ctx, level, message)
}
// fail prints message to stdout, it's mainly used for git serv and git hook commands.
// The output will be passed to git client and shown to user.
func fail(ctx context.Context, userMessage, logMsgFmt string, args ...any) error {
if userMessage == "" {
userMessage = "Internal Server Error (no specific error)"
}
// There appears to be a chance to cause a zombie process and failure to read the Exit status
// if nothing is outputted on stdout.
_, _ = fmt.Fprintln(os.Stdout, "")
_, _ = fmt.Fprintln(os.Stderr, "Forgejo:", userMessage)
if logMsgFmt != "" {
logMsg := fmt.Sprintf(logMsgFmt, args...)
if !setting.IsProd {
_, _ = fmt.Fprintln(os.Stderr, "Forgejo:", logMsg)
}
if userMessage != "" {
if unicode.IsPunct(rune(userMessage[len(userMessage)-1])) {
logMsg = userMessage + " " + logMsg
} else {
logMsg = userMessage + ". " + logMsg
}
}
_ = sshLog(ctx, log.ERROR, logMsg)
}
return cli.Exit("", 1)
}
// handleCliResponseExtra handles the extra response from the cli sub-commands
// If there is a user message it will be printed to stdout
// If the command failed it will return an error (the error will be printed by cli framework)
func handleCliResponseExtra(extra private.ResponseExtra) error {
if extra.UserMsg != "" {
_, _ = fmt.Fprintln(os.Stdout, extra.UserMsg)
}
if extra.HasError() {
return cli.Exit(extra.Error, 1)
}
return nil
}
func runServ(ctx context.Context, c *cli.Command) error {
ctx, cancel := installSignals(ctx)
defer cancel()
// FIXME: This needs to internationalised
setup(ctx, c.Bool("debug"), true)
if setting.SSH.Disabled {
fmt.Println("Forgejo: SSH has been disabled")
return nil
}
if c.NArg() < 1 {
if err := cli.ShowSubcommandHelp(c); err != nil {
fmt.Printf("error showing subcommand help: %v\n", err)
}
return nil
}
defer func() {
if err := recover(); err != nil {
_ = fail(ctx, "Internal Server Error", "Panic: %v\n%s", err, log.Stack(2))
}
}()
keys := strings.Split(c.Args().First(), "-")
if len(keys) != 2 || keys[0] != "key" {
return fail(ctx, "Key ID format error", "Invalid key argument: %s", c.Args().First())
}
keyID, err := strconv.ParseInt(keys[1], 10, 64)
if err != nil {
return fail(ctx, "Key ID parsing error", "Invalid key argument: %s", c.Args().Get(1))
}
cmd := os.Getenv("SSH_ORIGINAL_COMMAND")
if len(cmd) == 0 {
key, user, err := private.ServNoCommand(ctx, keyID)
if err != nil {
return fail(ctx, "Key check failed", "Failed to check provided key: %v", err)
}
switch key.Type {
case asymkey_model.KeyTypeDeploy:
fmt.Println("Hi there! You've successfully authenticated with the deploy key named " + key.Name + ", but Forgejo does not provide shell access.")
case asymkey_model.KeyTypePrincipal:
fmt.Println("Hi there! You've successfully authenticated with the principal " + key.Content + ", but Forgejo does not provide shell access.")
default:
fmt.Println("Hi there, " + user.Name + "! You've successfully authenticated with the key named " + key.Name + ", but Forgejo does not provide shell access.")
}
fmt.Println("If this is unexpected, please log in with password and setup Forgejo under another user.")
return nil
} else if c.Bool("debug") {
log.Debug("SSH_ORIGINAL_COMMAND: %s", os.Getenv("SSH_ORIGINAL_COMMAND"))
}
words, err := shellquote.Split(cmd)
if err != nil {
return fail(ctx, "Error parsing arguments", "Failed to parse arguments: %v", err)
}
if len(words) < 2 {
// for AGit Flow
if cmd == "ssh_info" {
fmt.Print(`{"type":"agit","version":1}`)
return nil
}
return fail(ctx, "Too few arguments", "Too few arguments in cmd: %s", cmd)
}
verb := words[0]
repoPath := strings.TrimPrefix(words[1], "/")
var lfsVerb string
if verb == lfsAuthenticateVerb {
if !setting.LFS.StartServer {
return fail(ctx, "Unknown git command", "LFS authentication request over SSH denied, LFS support is disabled")
}
if len(words) > 2 {
lfsVerb = words[2]
}
}
rr := strings.SplitN(repoPath, "/", 2)
if len(rr) != 2 {
return fail(ctx, "Invalid repository path", "Invalid repository path: %v", repoPath)
}
username := rr[0]
reponame := strings.TrimSuffix(rr[1], ".git")
// LowerCase and trim the repoPath as that's how they are stored.
// This should be done after splitting the repoPath into username and reponame
// so that username and reponame are not affected.
repoPath = strings.ToLower(strings.TrimSpace(repoPath))
if alphaDashDotPattern.MatchString(reponame) {
return fail(ctx, "Invalid repo name", "Invalid repo name: %s", reponame)
}
if c.Bool("enable-pprof") {
if err := os.MkdirAll(setting.PprofDataPath, os.ModePerm); err != nil {
return fail(ctx, "Error while trying to create PPROF_DATA_PATH", "Error while trying to create PPROF_DATA_PATH: %v", err)
}
stopCPUProfiler, err := pprof.DumpCPUProfileForUsername(setting.PprofDataPath, username)
if err != nil {
return fail(ctx, "Unable to start CPU profiler", "Unable to start CPU profile: %v", err)
}
defer func() {
stopCPUProfiler()
err := pprof.DumpMemProfileForUsername(setting.PprofDataPath, username)
if err != nil {
_ = fail(ctx, "Unable to dump Mem profile", "Unable to dump Mem Profile: %v", err)
}
}()
}
requestedMode, has := allowedCommands[verb]
if !has {
return fail(ctx, "Unknown git command", "Unknown git command %s", verb)
}
if verb == lfsAuthenticateVerb {
switch lfsVerb {
case "upload":
requestedMode = perm.AccessModeWrite
case "download":
requestedMode = perm.AccessModeRead
default:
return fail(ctx, "Unknown LFS verb", "Unknown lfs verb %s", lfsVerb)
}
}
results, extra := private.ServCommand(ctx, keyID, username, reponame, requestedMode, verb, lfsVerb)
if extra.HasError() {
return fail(ctx, extra.UserMsg, "ServCommand failed: %s", extra.Error)
}
// LFS token authentication
if verb == lfsAuthenticateVerb {
url := fmt.Sprintf("%s%s/%s.git/info/lfs", setting.AppURL, url.PathEscape(results.OwnerName), url.PathEscape(results.RepoName))
now := time.Now()
claims := lfs.Claims{
RegisteredClaims: jwt.RegisteredClaims{
ExpiresAt: jwt.NewNumericDate(now.Add(setting.LFS.HTTPAuthExpiry)),
NotBefore: jwt.NewNumericDate(now),
},
RepoID: results.RepoID,
Op: lfsVerb,
UserID: results.UserID,
}
// Sign and get the complete encoded token as a string using the secret
tokenString, err := setting.LFS.SigningKey.JWT(claims)
if err != nil {
return fail(ctx, "Failed to sign JWT Token", "Failed to sign JWT token: %v", err)
}
tokenAuthentication := &git_model.LFSTokenResponse{
Header: make(map[string]string),
Href: url,
}
tokenAuthentication.Header["Authorization"] = fmt.Sprintf("Bearer %s", tokenString)
enc := json.NewEncoder(os.Stdout)
err = enc.Encode(tokenAuthentication)
if err != nil {
return fail(ctx, "Failed to encode LFS json response", "Failed to encode LFS json response: %v", err)
}
return nil
}
var gitcmd *exec.Cmd
gitBinPath := filepath.Dir(git.GitExecutable) // e.g. /usr/bin
gitBinVerb := filepath.Join(gitBinPath, verb) // e.g. /usr/bin/git-upload-pack
if _, err := os.Stat(gitBinVerb); err != nil {
// if the command "git-upload-pack" doesn't exist, try to split "git-upload-pack" to use the sub-command with git
// ps: Windows only has "git.exe" in the bin path, so Windows always uses this way
verbFields := strings.SplitN(verb, "-", 2)
if len(verbFields) == 2 {
// use git binary with the sub-command part: "C:\...\bin\git.exe", "upload-pack", ...
gitcmd = exec.CommandContext(ctx, git.GitExecutable, verbFields[1], repoPath)
}
}
if gitcmd == nil {
// by default, use the verb (it has been checked above by allowedCommands)
gitcmd = exec.CommandContext(ctx, gitBinVerb, repoPath)
}
process.SetSysProcAttribute(gitcmd)
gitcmd.Dir = setting.RepoRootPath
gitcmd.Stdout = os.Stdout
gitcmd.Stdin = os.Stdin
gitcmd.Stderr = os.Stderr
gitcmd.Env = append(gitcmd.Env, os.Environ()...)
gitcmd.Env = append(gitcmd.Env,
repo_module.EnvRepoIsWiki+"="+strconv.FormatBool(results.IsWiki),
repo_module.EnvRepoName+"="+results.RepoName,
repo_module.EnvRepoUsername+"="+results.OwnerName,
repo_module.EnvPusherName+"="+results.UserName,
repo_module.EnvPusherEmail+"="+results.UserEmail,
repo_module.EnvPusherID+"="+strconv.FormatInt(results.UserID, 10),
repo_module.EnvRepoID+"="+strconv.FormatInt(results.RepoID, 10),
repo_module.EnvPRID+"="+fmt.Sprintf("%d", 0),
repo_module.EnvDeployKeyID+"="+fmt.Sprintf("%d", results.DeployKeyID),
repo_module.EnvKeyID+"="+fmt.Sprintf("%d", results.KeyID),
repo_module.EnvAppURL+"="+setting.AppURL,
)
// to avoid breaking, here only use the minimal environment variables for the "gitea serv" command.
// it could be re-considered whether to use the same git.CommonGitCmdEnvs() as "git" command later.
gitcmd.Env = append(gitcmd.Env, git.CommonCmdServEnvs()...)
if err = gitcmd.Run(); err != nil {
return fail(ctx, "Failed to execute git command", "Failed to execute git command: %v", err)
}
// Update user key activity.
if results.KeyID > 0 {
if err = private.UpdatePublicKeyInRepo(ctx, results.KeyID, results.RepoID); err != nil {
return fail(ctx, "Failed to update public key", "UpdatePublicKeyInRepo: %v", err)
}
}
return nil
}
Reference in a new issue View git blame Copy permalink