gitpb/repo.new.go

package gitpb

import (
	"bytes"
	"errors"
	"fmt"
	"net/url"
	"os/exec"
	"path/filepath"
	"strings"

	"go.wit.com/log"
)

// scans in a new git repo. If it detects the repo is a golang project,
// then it parses the go.mod/go.sum files
// TODO: try adding python, rails, perl, rust, other language things?
// I probably will never have time to try that, but I'd take patches for anyone
// that might see this note and feel so inclined.
// todo: use Repos.Lock() ?
func (all *Repos) NewGoRepo(fullpath string, gopath string) (*Repo, error) {
	if gopath == "" {
		return nil, errors.New("blank gopath")
	}
	if r := all.FindByFullPath(fullpath); r != nil {
		log.Info("gitpb.NewGoPath() already has gopath", r.GetGoPath())
		log.Info("gitpb.NewGoPath() already has FullPath", r.FullPath)
		// already had this gopath
		return r, errors.New("gitpb.NewGoPath() duplicate gopath " + gopath)
	}

	// add a new one here
	newr := Repo{
		FullPath:  fullpath,
		Namespace: gopath,
	}
	newr.Times = new(GitTimes)

	newr.GoInfo = new(GoInfo)
	newr.GoInfo.GoPath = gopath
	// everything happens in here
	newr.ReloadForce()

	newr.ValidateUTF8()
	if all.AppendByFullPath(&newr) {
		// worked
		return &newr, nil
	} else {
		// this is dumb, probably never happens. todo: use Repos.Lock()
		if r := all.FindByFullPath(fullpath); r != nil {
			// already had this gopath
			return r, errors.New("gitpb.NewGoPath() AppendUnique() failed but Find() worked" + gopath)
		}
	}
	// todo: use Repos.Lock()
	return nil, errors.New("repo gitpb.NewGoPath() should never have gotten here " + gopath)
}

// enforces GoPath is unique
// TODO: deprecate this (?)
// mutex's should finally work in the autogenpb protobuf code
/*
func (all *Repos) AppendByGoPathOld(newr *Repo) bool {
	// all.RLock()
	repoMu.RLock()

	for _, r := range all.Repos {
		if r.GoInfo.GoPath == newr.GoInfo.GoPath {
			// all.RUnlock()
			repoMu.RUnlock()
			return false
		}
	}
	// all.RUnlock()
	repoMu.RUnlock()

	all.Append(newr)
	return true
}
*/

func (all *Repos) NewRepo(fullpath string, namespace string) (*Repo, error) {
	if r := all.FindByFullPath(fullpath); r != nil {
		log.Info("gitpb.NewRepo() might already have namespace", r.GetNamespace())
		log.Info("gitpb.NewRepo() already has FullPath", r.FullPath)
		// already had this gopath
		return r, errors.New("gitpb.NewRepo() duplicate path " + fullpath)
	}

	// add a new one here
	newr := Repo{
		FullPath:  fullpath,
		Namespace: namespace,
	}
	newr.Times = new(GitTimes)

	// everything happens in here
	newr.ReloadForce()

	newr.ValidateUTF8()
	if all.AppendByFullPath(&newr) {
		// worked
		return &newr, nil
	}

	// todo: use Repos.Lock()
	return nil, errors.New("gitpb.NewRepo() append failed " + fullpath)
}

func NewRepo(fullpath string) (*Repo, error) {
	// add a new one here
	repo := Repo{
		FullPath: fullpath,
	}
	repo.Times = new(GitTimes)

	// everything happens in here
	repo.ReloadForce()
	repo.ValidateUTF8()
	if repo.Namespace == "" {
		giturl := repo.GetURL()
		if giturl == "" {
			log.Info(repo.FullPath, "Namespace & URL are both blank. Warn the user of a local repo.")
			return &repo, nil
		}
		// log.Info("GET Namespace from URL", giturl)
		tmpURL, err := url.Parse(giturl)
		if err != nil {
			log.Info(repo.FullPath, "URL parse failed", giturl, err)
			return &repo, nil
		}
		// log.Info(repo.FullPath, "namespace might be:", tmpURL.Hostname(), tmpURL.Path)
		repo.Namespace = filepath.Join(tmpURL.Hostname(), tmpURL.Path)
		// log.Info(repo.FullPath, "Namesapce =", repo.Namespace)
	}
	return &repo, nil
}

func (repo *Repo) FindPatchId(hash string) (string, error) {
	if hash == "" {
		return "", log.Errorf("commit hash blank")
	}

	// 1. Create the command to get the diff for the commit.
	//    "git show" is the perfect tool for this.
	cmdShow := exec.Command("git", "show", hash)
	cmdShow.Dir = repo.GetFullPath()

	// 2. Create the command to calculate the patch-id from stdin.
	cmdPipeID := exec.Command("git", "patch-id", "--stable")
	cmdPipeID.Dir = repo.GetFullPath()

	// 3. Connect the output of "git show" to the input of "git patch-id".
	//    This is the Go equivalent of the shell pipe `|`.
	pipe, err := cmdShow.StdoutPipe()
	if err != nil {
		return "", fmt.Errorf("failed to create pipe: %w", err)
	}
	cmdPipeID.Stdin = pipe

	// 4. We need a buffer to capture the final output from git patch-id.
	var output bytes.Buffer
	cmdPipeID.Stdout = &output

	// 5. Start the reading command (patch-id) first.
	if err := cmdPipeID.Start(); err != nil {
		return "", fmt.Errorf("failed to start git-patch-id: %w", err)
	}

	// 6. Run the writing command (show). This will block until it's done.
	if err := cmdShow.Run(); err != nil {
		return "", fmt.Errorf("failed to run git-show: %w", err)
	}

	// 7. Wait for the reading command to finish.
	if err := cmdPipeID.Wait(); err != nil {
		return "", fmt.Errorf("failed to wait for git-patch-id: %w", err)
	}

	fields := strings.Fields(output.String())
	if len(fields) != 2 {
		return "", fmt.Errorf("git-patch-id produced empty output")
	}

	if fields[1] != hash {
		return "", fmt.Errorf("patchid did not match %s != %v", hash, fields)
	}

	return fields[0], nil
}