package cache
import (
"bytes"
"encoding/gob"
"fmt"
"io"
"io/ioutil"
"os"
"path"
"sort"
"strconv"
"sync"
"time"
"github.com/pkg/errors"
"github.com/MichaelMure/git-bug/bug"
"github.com/MichaelMure/git-bug/entity"
"github.com/MichaelMure/git-bug/identity"
"github.com/MichaelMure/git-bug/repository"
"github.com/MichaelMure/git-bug/util/git"
"github.com/MichaelMure/git-bug/util/process"
)
const bugCacheFile = "bug-cache"
const identityCacheFile = "identity-cache"
// 1: original format
// 2: added cache for identities with a reference in the bug cache
const formatVersion = 2
type ErrInvalidCacheFormat struct {
message string
}
func (e ErrInvalidCacheFormat) Error() string {
return e.message
}
var _ repository.RepoCommon = &RepoCache{}
// RepoCache is a cache for a Repository. This cache has multiple functions:
//
// 1. After being loaded, a Bug is kept in memory in the cache, allowing for fast
// access later.
// 2. The cache maintain in memory and on disk a pre-digested excerpt for each bug,
// allowing for fast querying the whole set of bugs without having to load
// them individually.
// 3. The cache guarantee that a single instance of a Bug is loaded at once, avoiding
// loss of data that we could have with multiple copies in the same process.
// 4. The same way, the cache maintain in memory a single copy of the loaded identities.
//
// The cache also protect the on-disk data by locking the git repository for its
// own usage, by writing a lock file. Of course, normal git operations are not
// affected, only git-bug related one.
type RepoCache struct {
// the underlying repo
repo repository.ClockedRepo
// the name of the repository, as defined in the MultiRepoCache
name string
muBug sync.RWMutex
// excerpt of bugs data for all bugs
bugExcerpts map[entity.Id]*BugExcerpt
// bug loaded in memory
bugs map[entity.Id]*BugCache
muIdentity sync.RWMutex
// excerpt of identities data for all identities
identitiesExcerpts map[entity.Id]*IdentityExcerpt
// identities loaded in memory
identities map[entity.Id]*IdentityCache
// the user identity's id, if known
userIdentityId entity.Id
}
func NewRepoCache(r repository.ClockedRepo) (*RepoCache, error) {
return NewNamedRepoCache(r, "")
}
func NewNamedRepoCache(r repository.ClockedRepo, name string) (*RepoCache, error) {
c := &RepoCache{
repo: r,
name: name,
bugs: make(map[entity.Id]*BugCache),
identities: make(map[entity.Id]*IdentityCache),
}
err := c.lock()
if err != nil {
return &RepoCache{}, err
}
err = c.load()
if err == nil {
return c, nil
}
if _, ok := err.(ErrInvalidCacheFormat); ok {
return nil, err
}
err = c.buildCache()
if err != nil {
return nil, err
}
return c, c.write()
}
func (c *RepoCache) Name() string {
return c.name
}
// LocalConfig give access to the repository scoped configuration
func (c *RepoCache) LocalConfig() repository.Config {
return c.repo.LocalConfig()
}
// GlobalConfig give access to the git global configuration
func (c *RepoCache) GlobalConfig() repository.Config {
return c.repo.GlobalConfig()
}
// GetPath returns the path to the repo.
func (c *RepoCache) GetPath() string {
return c.repo.GetPath()
}
// GetCoreEditor returns the name of the editor that the user has used to configure git.
func (c *RepoCache) GetCoreEditor() (string, error) {
return c.repo.GetCoreEditor()
}
// GetRemotes returns the configured remotes repositories.
func (c *RepoCache) GetRemotes() (map[string]string, error) {
return c.repo.GetRemotes()
}
// GetUserName returns the name the the user has used to configure git
func (c *RepoCache) GetUserName() (string, error) {
return c.repo.GetUserName()
}
// GetUserEmail returns the email address that the user has used to configure git.
func (c *RepoCache) GetUserEmail() (string, error) {
return c.repo.GetUserEmail()
}
func (c *RepoCache) lock() error {
lockPath := repoLockFilePath(c.repo)
err := repoIsAvailable(c.repo)
if err != nil {
return err
}
f, err := os.Create(lockPath)
if err != nil {
return err
}
pid := fmt.Sprintf("%d", os.Getpid())
_, err = f.WriteString(pid)
if err != nil {
return err
}
return f.Close()
}
func (c *RepoCache) Close() error {
c.muBug.Lock()
defer c.muBug.Unlock()
c.muIdentity.Lock()
defer c.muIdentity.Unlock()
c.identities = make(map[entity.Id]*IdentityCache)
c.identitiesExcerpts = nil
c.bugs = make(map[entity.Id]*BugCache)
c.bugExcerpts = nil
lockPath := repoLockFilePath(c.repo)
return os.Remove(lockPath)
}
// bugUpdated is a callback to trigger when the excerpt of a bug changed,
// that is each time a bug is updated
func (c *RepoCache) bugUpdated(id entity.Id) error {
c.muBug.Lock()
b, ok := c.bugs[id]
if !ok {
c.muBug.Unlock()
panic("missing bug in the cache")
}
c.bugExcerpts[id] = NewBugExcerpt(b.bug, b.Snapshot())
c.muBug.Unlock()
// we only need to write the bug cache
return c.writeBugCache()
}
// identityUpdated is a callback to trigger when the excerpt of an identity
// changed, that is each time an identity is updated
func (c *RepoCache) identityUpdated(id entity.Id) error {
c.muIdentity.Lock()
i, ok := c.identities[id]
if !ok {
c.muIdentity.Unlock()
panic("missing identity in the cache")
}
c.identitiesExcerpts[id] = NewIdentityExcerpt(i.Identity)
c.muIdentity.Unlock()
// we only need to write the identity cache
return c.writeIdentityCache()
}
// load will try to read from the disk all the cache files
func (c *RepoCache) load() error {
err := c.loadBugCache()
if err != nil {
return err
}
return c.loadIdentityCache()
}
// load will try to read from the disk the bug cache file
func (c *RepoCache) loadBugCache() error {
c.muBug.Lock()
defer c.muBug.Unlock()
f, err := os.Open(bugCacheFilePath(c.repo))
if err != nil {
return err
}
decoder := gob.NewDecoder(f)
aux := struct {
Version uint
Excerpts map[entity.Id]*BugExcerpt
}{}
err = decoder.Decode(&aux)
if err != nil {
return err
}
if aux.Version != 2 {
return ErrInvalidCacheFormat{
message: fmt.Sprintf("unknown cache format version %v", aux.Version),
}
}
c.bugExcerpts = aux.Excerpts
return nil
}
// load will try to read from the disk the identity cache file
func (c *RepoCache) loadIdentityCache() error {
c.muIdentity.Lock()
defer c.muIdentity.Unlock()
f, err := os.Open(identityCacheFilePath(c.repo))
if err != nil {
return err
}
decoder := gob.NewDecoder(f)
aux := struct {
Version uint
Excerpts map[entity.Id]*IdentityExcerpt
}{}
err = decoder.Decode(&aux)
if err != nil {
return err
}
if aux.Version != 2 {
return ErrInvalidCacheFormat{
message: fmt.Sprintf("unknown cache format version %v", aux.Version),
}
}
c.identitiesExcerpts = aux.Excerpts
return nil
}
// write will serialize on disk all the cache files
func (c *RepoCache) write() error {
err := c.writeBugCache()
if err != nil {
return err
}
return c.writeIdentityCache()
}
// write will serialize on disk the bug cache file
func (c *RepoCache) writeBugCache() error {
c.muBug.RLock()
defer c.muBug.RUnlock()
var data bytes.Buffer
aux := struct {
Version uint
Excerpts map[entity.Id]*BugExcerpt
}{
Version: formatVersion,
Excerpts: c.bugExcerpts,
}
encoder := gob.NewEncoder(&data)
err := encoder.Encode(aux)
if err != nil {
return err
}
f, err := os.Create(bugCacheFilePath(c.repo))
if err != nil {
return err
}
_, err = f.Write(data.Bytes())
if err != nil {
return err
}
return f.Close()
}
// write will serialize on disk the identity cache file
func (c *RepoCache) writeIdentityCache() error {
c.muIdentity.RLock()
defer c.muIdentity.RUnlock()
var data bytes.Buffer
aux := struct {
Version uint
Excerpts map[entity.Id]*IdentityExcerpt
}{
Version: formatVersion,
Excerpts: c.identitiesExcerpts,
}
encoder := gob.NewEncoder(&data)
err := encoder.Encode(aux)
if err != nil {
return err
}
f, err := os.Create(identityCacheFilePath(c.repo))
if err != nil {
return err
}
_, err = f.Write(data.Bytes())
if err != nil {
return err
}
return f.Close()
}
func bugCacheFilePath(repo repository.Repo) string {
return path.Join(repo.GetPath(), "git-bug", bugCacheFile)
}
func identityCacheFilePath(repo repository.Repo) string {
return path.Join(repo.GetPath(), "git-bug", identityCacheFile)
}
func (c *RepoCache) buildCache() error {
c.muBug.Lock()
defer c.muBug.Unlock()
c.muIdentity.Lock()
defer c.muIdentity.Unlock()
_, _ = fmt.Fprintf(os.Stderr, "Building identity cache... ")
c.identitiesExcerpts = make(map[entity.Id]*IdentityExcerpt)
allIdentities := identity.ReadAllLocalIdentities(c.repo)
for i := range allIdentities {
if i.Err != nil {
return i.Err
}
c.identitiesExcerpts[i.Identity.Id()] = NewIdentityExcerpt(i.Identity)
}
_, _ = fmt.Fprintln(os.Stderr, "Done.")
_, _ = fmt.Fprintf(os.Stderr, "Building bug cache... ")
c.bugExcerpts = make(map[entity.Id]*BugExcerpt)
allBugs := bug.ReadAllLocalBugs(c.repo)
for b := range allBugs {
if b.Err != nil {
return b.Err
}
snap := b.Bug.Compile()
c.bugExcerpts[b.Bug.Id()] = NewBugExcerpt(b.Bug, &snap)
}
_, _ = fmt.Fprintln(os.Stderr, "Done.")
return nil
}
// ResolveBugExcerpt retrieve a BugExcerpt matching the exact given id
func (c *RepoCache) ResolveBugExcerpt(id entity.Id) (*BugExcerpt, error) {
c.muBug.RLock()
defer c.muBug.RUnlock()
e, ok := c.bugExcerpts[id]
if !ok {
return nil, bug.ErrBugNotExist
}
return e, nil
}
// ResolveBug retrieve a bug matching the exact given id
func (c *RepoCache) ResolveBug(id entity.Id) (*BugCache, error) {
c.muBug.RLock()
cached, ok := c.bugs[id]
c.muBug.RUnlock()
if ok {
return cached, nil
}
b, err := bug.ReadLocalBug(c.repo, id)
if err != nil {
return nil, err
}
cached = NewBugCache(c, b)
c.muBug.Lock()
c.bugs[id] = cached
c.muBug.Unlock()
return cached, nil
}
// ResolveBugExcerptPrefix retrieve a BugExcerpt matching an id prefix. It fails if multiple
// bugs match.
func (c *RepoCache) ResolveBugExcerptPrefix(prefix string) (*BugExcerpt, error) {
return c.ResolveBugExcerptMatcher(func(excerpt *BugExcerpt) bool {
return excerpt.Id.HasPrefix(prefix)
})
}
// ResolveBugPrefix retrieve a bug matching an id prefix. It fails if multiple
// bugs match.
func (c *RepoCache) ResolveBugPrefix(prefix string) (*BugCache, error) {
return c.ResolveBugMatcher(func(excerpt *BugExcerpt) bool {
return excerpt.Id.HasPrefix(prefix)
})
}
// ResolveBugCreateMetadata retrieve a bug that has the exact given metadata on
// its Create operation, that is, the first operation. It fails if multiple bugs
// match.
func (c *RepoCache) ResolveBugCreateMetadata(key string, value string) (*BugCache, error) {
return c.ResolveBugMatcher(func(excerpt *BugExcerpt) bool {
return excerpt.CreateMetadata[key] == value
})
}
func (c *RepoCache) ResolveBugExcerptMatcher(f func(*BugExcerpt) bool) (*BugExcerpt, error) {
id, err := c.resolveBugMatcher(f)
if err != nil {
return nil, err
}
return c.ResolveBugExcerpt(id)
}
func (c *RepoCache) ResolveBugMatcher(f func(*BugExcerpt) bool) (*BugCache, error) {
id, err := c.resolveBugMatcher(f)
if err != nil {
return nil, err
}
return c.ResolveBug(id)
}
func (c *RepoCache) resolveBugMatcher(f func(*BugExcerpt) bool) (entity.Id, error) {
c.muBug.RLock()
defer c.muBug.RUnlock()
// preallocate but empty
matching := make([]entity.Id, 0, 5)
for _, excerpt := range c.bugExcerpts {
if f(excerpt) {
matching = append(matching, excerpt.Id)
}
}
if len(matching) > 1 {
return entity.UnsetId, bug.NewErrMultipleMatchBug(matching)
}
if len(matching) == 0 {
return entity.UnsetId, bug.ErrBugNotExist
}
return matching[0], nil
}
// QueryBugs return the id of all Bug matching the given Query
func (c *RepoCache) QueryBugs(query *Query) []entity.Id {
c.muBug.RLock()
defer c.muBug.RUnlock()
if query == nil {
return c.AllBugsIds()
}
var filtered []*BugExcerpt
for _, excerpt := range c.bugExcerpts {
if query.Match(excerpt, c) {
filtered = append(filtered, excerpt)
}
}
var sorter sort.Interface
switch query.OrderBy {
case OrderById:
sorter = BugsById(filtered)
case OrderByCreation:
sorter = BugsByCreationTime(filtered)
case OrderByEdit:
sorter = BugsByEditTime(filtered)
default:
panic("missing sort type")
}
if query.OrderDirection == OrderDescending {
sorter = sort.Reverse(sorter)
}
sort.Sort(sorter)
result := make([]entity.Id, len(filtered))
for i, val := range filtered {
result[i] = val.Id
}
return result
}
// AllBugsIds return all known bug ids
func (c *RepoCache) AllBugsIds() []entity.Id {
c.muBug.RLock()
defer c.muBug.RUnlock()
result := make([]entity.Id, len(c.bugExcerpts))
i := 0
for _, excerpt := range c.bugExcerpts {
result[i] = excerpt.Id
i++
}
return result
}
// ValidLabels list valid labels
//
// Note: in the future, a proper label policy could be implemented where valid
// labels are defined in a configuration file. Until that, the default behavior
// is to return the list of labels already used.
func (c *RepoCache) ValidLabels() []bug.Label {
c.muBug.RLock()
defer c.muBug.RUnlock()
set := map[bug.Label]interface{}{}
for _, excerpt := range c.bugExcerpts {
for _, l := range excerpt.Labels {
set[l] = nil
}
}
result := make([]bug.Label, len(set))
i := 0
for l := range set {
result[i] = l
i++
}
// Sort
sort.Slice(result, func(i, j int) bool {
return string(result[i]) < string(result[j])
})
return result
}
// NewBug create a new bug
// The new bug is written in the repository (commit)
func (c *RepoCache) NewBug(title string, message string) (*BugCache, *bug.CreateOperation, error) {
return c.NewBugWithFiles(title, message, nil)
}
// NewBugWithFiles create a new bug with attached files for the message
// The new bug is written in the repository (commit)
func (c *RepoCache) NewBugWithFiles(title string, message string, files []git.Hash) (*BugCache, *bug.CreateOperation, error) {
author, err := c.GetUserIdentity()
if err != nil {
return nil, nil, err
}
return c.NewBugRaw(author, time.Now().Unix(), title, message, files, nil)
}
// NewBugWithFilesMeta create a new bug with attached files for the message, as
// well as metadata for the Create operation.
// The new bug is written in the repository (commit)
func (c *RepoCache) NewBugRaw(author *IdentityCache, unixTime int64, title string, message string, files []git.Hash, metadata map[string]string) (*BugCache, *bug.CreateOperation, error) {
b, op, err := bug.CreateWithFiles(author.Identity, unixTime, title, message, files)
if err != nil {
return nil, nil, err
}
for key, value := range metadata {
op.SetMetadata(key, value)
}
err = b.Commit(c.repo)
if err != nil {
return nil, nil, err
}
c.muBug.Lock()
if _, has := c.bugs[b.Id()]; has {
c.muBug.Unlock()
return nil, nil, fmt.Errorf("bug %s already exist in the cache", b.Id())
}
cached := NewBugCache(c, b)
c.bugs[b.Id()] = cached
c.muBug.Unlock()
// force the write of the excerpt
err = c.bugUpdated(b.Id())
if err != nil {
return nil, nil, err
}
return cached, op, nil
}
// Fetch retrieve updates from a remote
// This does not change the local bugs or identities state
func (c *RepoCache) Fetch(remote string) (string, error) {
stdout1, err := identity.Fetch(c.repo, remote)
if err != nil {
return stdout1, err
}
stdout2, err := bug.Fetch(c.repo, remote)
if err != nil {
return stdout2, err
}
return stdout1 + stdout2, nil
}
// MergeAll will merge all the available remote bug and identities
func (c *RepoCache) MergeAll(remote string) <-chan entity.MergeResult {
out := make(chan entity.MergeResult)
// Intercept merge results to update the cache properly
go func() {
defer close(out)
results := identity.MergeAll(c.repo, remote)
for result := range results {
out <- result
if result.Err != nil {
continue
}
switch result.Status {
case entity.MergeStatusNew, entity.MergeStatusUpdated:
i := result.Entity.(*identity.Identity)
c.muIdentity.Lock()
c.identitiesExcerpts[result.Id] = NewIdentityExcerpt(i)
c.muIdentity.Unlock()
}
}
results = bug.MergeAll(c.repo, remote)
for result := range results {
out <- result
if result.Err != nil {
continue
}
switch result.Status {
case entity.MergeStatusNew, entity.MergeStatusUpdated:
b := result.Entity.(*bug.Bug)
snap := b.Compile()
c.muBug.Lock()
c.bugExcerpts[result.Id] = NewBugExcerpt(b, &snap)
c.muBug.Unlock()
}
}
err := c.write()
// No easy way out here ..
if err != nil {
panic(err)
}
}()
return out
}
// Push update a remote with the local changes
func (c *RepoCache) Push(remote string) (string, error) {
stdout1, err := identity.Push(c.repo, remote)
if err != nil {
return stdout1, err
}
stdout2, err := bug.Push(c.repo, remote)
if err != nil {
return stdout2, err
}
return stdout1 + stdout2, nil
}
// Pull will do a Fetch + MergeAll
// This function will return an error if a merge fail
func (c *RepoCache) Pull(remote string) error {
_, err := c.Fetch(remote)
if err != nil {
return err
}
for merge := range c.MergeAll(remote) {
if merge.Err != nil {
return merge.Err
}
if merge.Status == entity.MergeStatusInvalid {
return errors.Errorf("merge failure: %s", merge.Reason)
}
}
return nil
}
func repoLockFilePath(repo repository.Repo) string {
return path.Join(repo.GetPath(), "git-bug", lockfile)
}
// repoIsAvailable check is the given repository is locked by a Cache.
// Note: this is a smart function that will cleanup the lock file if the
// corresponding process is not there anymore.
// If no error is returned, the repo is free to edit.
func repoIsAvailable(repo repository.Repo) error {
lockPath := repoLockFilePath(repo)
// Todo: this leave way for a racey access to the repo between the test
// if the file exist and the actual write. It's probably not a problem in
// practice because using a repository will be done from user interaction
// or in a context where a single instance of git-bug is already guaranteed
// (say, a server with the web UI running). But still, that might be nice to
// have a mutex or something to guard that.
// Todo: this will fail if somehow the filesystem is shared with another
// computer. Should add a configuration that prevent the cleaning of the
// lock file
f, err := os.Open(lockPath)
if err != nil && !os.IsNotExist(err) {
return err
}
if err == nil {
// lock file already exist
buf, err := ioutil.ReadAll(io.LimitReader(f, 10))
if err != nil {
return err
}
if len(buf) == 10 {
return fmt.Errorf("the lock file should be < 10 bytes")
}
pid, err := strconv.Atoi(string(buf))
if err != nil {
return err
}
if process.IsRunning(pid) {
return fmt.Errorf("the repository you want to access is already locked by the process pid %d", pid)
}
// The lock file is just laying there after a crash, clean it
fmt.Println("A lock file is present but the corresponding process is not, removing it.")
err = f.Close()
if err != nil {
return err
}
err = os.Remove(lockPath)
if err != nil {
return err
}
}
return nil
}
// ResolveIdentityExcerpt retrieve a IdentityExcerpt matching the exact given id
func (c *RepoCache) ResolveIdentityExcerpt(id entity.Id) (*IdentityExcerpt, error) {
c.muIdentity.RLock()
defer c.muIdentity.RUnlock()
e, ok := c.identitiesExcerpts[id]
if !ok {
return nil, identity.ErrIdentityNotExist
}
return e, nil
}
// ResolveIdentity retrieve an identity matching the exact given id
func (c *RepoCache) ResolveIdentity(id entity.Id) (*IdentityCache, error) {
c.muIdentity.RLock()
cached, ok := c.identities[id]
c.muIdentity.RUnlock()
if ok {
return cached, nil
}
i, err := identity.ReadLocal(c.repo, id)
if err != nil {
return nil, err
}
cached = NewIdentityCache(c, i)
c.muIdentity.Lock()
c.identities[id] = cached
c.muIdentity.Unlock()
return cached, nil
}
// ResolveIdentityExcerptPrefix retrieve a IdentityExcerpt matching an id prefix.
// It fails if multiple identities match.
func (c *RepoCache) ResolveIdentityExcerptPrefix(prefix string) (*IdentityExcerpt, error) {
return c.ResolveIdentityExcerptMatcher(func(excerpt *IdentityExcerpt) bool {
return excerpt.Id.HasPrefix(prefix)
})
}
// ResolveIdentityPrefix retrieve an Identity matching an id prefix.
// It fails if multiple identities match.
func (c *RepoCache) ResolveIdentityPrefix(prefix string) (*IdentityCache, error) {
return c.ResolveIdentityMatcher(func(excerpt *IdentityExcerpt) bool {
return excerpt.Id.HasPrefix(prefix)
})
}
// ResolveIdentityImmutableMetadata retrieve an Identity that has the exact given metadata on
// one of it's version. If multiple version have the same key, the first defined take precedence.
func (c *RepoCache) ResolveIdentityImmutableMetadata(key string, value string) (*IdentityCache, error) {
return c.ResolveIdentityMatcher(func(excerpt *IdentityExcerpt) bool {
return excerpt.ImmutableMetadata[key] == value
})
}
func (c *RepoCache) ResolveIdentityExcerptMatcher(f func(*IdentityExcerpt) bool) (*IdentityExcerpt, error) {
id, err := c.resolveIdentityMatcher(f)
if err != nil {
return nil, err
}
return c.ResolveIdentityExcerpt(id)
}
func (c *RepoCache) ResolveIdentityMatcher(f func(*IdentityExcerpt) bool) (*IdentityCache, error) {
id, err := c.resolveIdentityMatcher(f)
if err != nil {
return nil, err
}
return c.ResolveIdentity(id)
}
func (c *RepoCache) resolveIdentityMatcher(f func(*IdentityExcerpt) bool) (entity.Id, error) {
c.muIdentity.RLock()
defer c.muIdentity.RUnlock()
// preallocate but empty
matching := make([]entity.Id, 0, 5)
for _, excerpt := range c.identitiesExcerpts {
if f(excerpt) {
matching = append(matching, excerpt.Id)
}
}
if len(matching) > 1 {
return entity.UnsetId, identity.NewErrMultipleMatch(matching)
}
if len(matching) == 0 {
return entity.UnsetId, identity.ErrIdentityNotExist
}
return matching[0], nil
}
// AllIdentityIds return all known identity ids
func (c *RepoCache) AllIdentityIds() []entity.Id {
c.muIdentity.RLock()
defer c.muIdentity.RUnlock()
result := make([]entity.Id, len(c.identitiesExcerpts))
i := 0
for _, excerpt := range c.identitiesExcerpts {
result[i] = excerpt.Id
i++
}
return result
}
func (c *RepoCache) SetUserIdentity(i *IdentityCache) error {
err := identity.SetUserIdentity(c.repo, i.Identity)
if err != nil {
return err
}
c.muIdentity.RLock()
defer c.muIdentity.RUnlock()
// Make sure that everything is fine
if _, ok := c.identities[i.Id()]; !ok {
panic("SetUserIdentity while the identity is not from the cache, something is wrong")
}
c.userIdentityId = i.Id()
return nil
}
func (c *RepoCache) GetUserIdentity() (*IdentityCache, error) {
if c.userIdentityId != "" {
i, ok := c.identities[c.userIdentityId]
if ok {
return i, nil
}
}
c.muIdentity.Lock()
defer c.muIdentity.Unlock()
i, err := identity.GetUserIdentity(c.repo)
if err != nil {
return nil, err
}
cached := NewIdentityCache(c, i)
c.identities[i.Id()] = cached
c.userIdentityId = i.Id()
return cached, nil
}
func (c *RepoCache) GetUserIdentityExcerpt() (*IdentityExcerpt, error) {
if c.userIdentityId == "" {
id, err := identity.GetUserIdentityId(c.repo)
if err != nil {
return nil, err
}
c.userIdentityId = id
}
c.muIdentity.RLock()
defer c.muIdentity.RUnlock()
excerpt, ok := c.identitiesExcerpts[c.userIdentityId]
if !ok {
return nil, fmt.Errorf("cache: missing identity excerpt %v", c.userIdentityId)
}
return excerpt, nil
}
func (c *RepoCache) IsUserIdentitySet() (bool, error) {
return identity.IsUserIdentitySet(c.repo)
}
func (c *RepoCache) NewIdentityFromGitUser() (*IdentityCache, error) {
return c.NewIdentityFromGitUserRaw(nil)
}
func (c *RepoCache) NewIdentityFromGitUserRaw(metadata map[string]string) (*IdentityCache, error) {
i, err := identity.NewFromGitUser(c.repo)
if err != nil {
return nil, err
}
return c.finishIdentity(i, metadata)
}
// NewIdentity create a new identity
// The new identity is written in the repository (commit)
func (c *RepoCache) NewIdentity(name string, email string) (*IdentityCache, error) {
return c.NewIdentityRaw(name, email, "", nil)
}
// NewIdentityFull create a new identity
// The new identity is written in the repository (commit)
func (c *RepoCache) NewIdentityFull(name string, email string, avatarUrl string) (*IdentityCache, error) {
return c.NewIdentityRaw(name, email, avatarUrl, nil)
}
func (c *RepoCache) NewIdentityRaw(name string, email string, avatarUrl string, metadata map[string]string) (*IdentityCache, error) {
i := identity.NewIdentityFull(name, email, avatarUrl)
return c.finishIdentity(i, metadata)
}
func (c *RepoCache) finishIdentity(i *identity.Identity, metadata map[string]string) (*IdentityCache, error) {
for key, value := range metadata {
i.SetMetadata(key, value)
}
err := i.Commit(c.repo)
if err != nil {
return nil, err
}
c.muIdentity.Lock()
if _, has := c.identities[i.Id()]; has {
return nil, fmt.Errorf("identity %s already exist in the cache", i.Id())
}
cached := NewIdentityCache(c, i)
c.identities[i.Id()] = cached
c.muIdentity.Unlock()
// force the write of the excerpt
err = c.identityUpdated(i.Id())
if err != nil {
return nil, err
}
return cached, nil
}