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coder/coderd/database/databasefake/databasefake.go
T
Jon Ayers 4e57b9fbdc fix: allow regular users to push files (#4500) 
- As part of merging support for Template RBAC
  and user groups a permission check on reading files
  was relaxed.

  With the addition of admin roles on individual templates, regular
  users are now able to push template versions if they have
  inherited the 'admin' role for a template. In order to do so
  they need to be able to create and read their own files. Since
  collisions on hash in the past were ignored, this means that a regular user
  who pushes a template version with a file hash that collides with
  an existing hash will not be able to read the file (since it belongs to
  another user).

  This commit fixes the underlying problem which was that
  the files table had a primary key on the 'hash' column.
  This was not a problem at the time because only template
  admins and other users with similar elevated roles were
  able to read all files regardless of ownership. To fix this
  a new column and primary key 'id' has been introduced to the files
  table. The unique constraint has been updated to be hash+created_by.
  Tables (provisioner_jobs) that referenced files.hash have been updated
  to reference files.id. Relevant API endpoints have also been updated.
2022-10-13 18:02:52 -05:00

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package databasefake
import (
"context"
"database/sql"
"sort"
"strings"
"sync"
"time"
"github.com/google/uuid"
"github.com/lib/pq"
"golang.org/x/exp/maps"
"golang.org/x/exp/slices"
"golang.org/x/xerrors"
"github.com/coder/coder/coderd/database"
"github.com/coder/coder/coderd/rbac"
"github.com/coder/coder/coderd/util/slice"
)
var errDuplicateKey = &pq.Error{
Code: "23505",
Message: "duplicate key value violates unique constraint",
}
// New returns an in-memory fake of the database.
func New() database.Store {
return &fakeQuerier{
mutex: &sync.RWMutex{},
data: &data{
apiKeys: make([]database.APIKey, 0),
agentStats: make([]database.AgentStat, 0),
organizationMembers: make([]database.OrganizationMember, 0),
organizations: make([]database.Organization, 0),
users: make([]database.User, 0),
groups: make([]database.Group, 0),
groupMembers: make([]database.GroupMember, 0),
auditLogs: make([]database.AuditLog, 0),
files: make([]database.File, 0),
gitSSHKey: make([]database.GitSSHKey, 0),
parameterSchemas: make([]database.ParameterSchema, 0),
parameterValues: make([]database.ParameterValue, 0),
provisionerDaemons: make([]database.ProvisionerDaemon, 0),
provisionerJobAgents: make([]database.WorkspaceAgent, 0),
provisionerJobLogs: make([]database.ProvisionerJobLog, 0),
provisionerJobResources: make([]database.WorkspaceResource, 0),
provisionerJobResourceMetadata: make([]database.WorkspaceResourceMetadatum, 0),
provisionerJobs: make([]database.ProvisionerJob, 0),
templateVersions: make([]database.TemplateVersion, 0),
templates: make([]database.Template, 0),
workspaceBuilds: make([]database.WorkspaceBuild, 0),
workspaceApps: make([]database.WorkspaceApp, 0),
workspaces: make([]database.Workspace, 0),
licenses: make([]database.License, 0),
},
}
}
type rwMutex interface {
Lock()
RLock()
Unlock()
RUnlock()
}
// inTxMutex is a no op, since inside a transaction we are already locked.
type inTxMutex struct{}
func (inTxMutex) Lock() {}
func (inTxMutex) RLock() {}
func (inTxMutex) Unlock() {}
func (inTxMutex) RUnlock() {}
// fakeQuerier replicates database functionality to enable quick testing.
type fakeQuerier struct {
mutex rwMutex
*data
}
type data struct {
// Legacy tables
apiKeys []database.APIKey
organizations []database.Organization
organizationMembers []database.OrganizationMember
users []database.User
userLinks []database.UserLink
// New tables
agentStats []database.AgentStat
auditLogs []database.AuditLog
files []database.File
gitSSHKey []database.GitSSHKey
groups []database.Group
groupMembers []database.GroupMember
parameterSchemas []database.ParameterSchema
parameterValues []database.ParameterValue
provisionerDaemons []database.ProvisionerDaemon
provisionerJobAgents []database.WorkspaceAgent
provisionerJobLogs []database.ProvisionerJobLog
provisionerJobResources []database.WorkspaceResource
provisionerJobResourceMetadata []database.WorkspaceResourceMetadatum
provisionerJobs []database.ProvisionerJob
templateVersions []database.TemplateVersion
templates []database.Template
workspaceBuilds []database.WorkspaceBuild
workspaceApps []database.WorkspaceApp
workspaces []database.Workspace
licenses []database.License
deploymentID string
lastLicenseID int32
}
// InTx doesn't rollback data properly for in-memory yet.
func (q *fakeQuerier) InTx(fn func(database.Store) error) error {
q.mutex.Lock()
defer q.mutex.Unlock()
return fn(&fakeQuerier{mutex: inTxMutex{}, data: q.data})
}
func (q *fakeQuerier) AcquireProvisionerJob(_ context.Context, arg database.AcquireProvisionerJobParams) (database.ProvisionerJob, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, provisionerJob := range q.provisionerJobs {
if provisionerJob.StartedAt.Valid {
continue
}
found := false
for _, provisionerType := range arg.Types {
if provisionerJob.Provisioner != provisionerType {
continue
}
found = true
break
}
if !found {
continue
}
provisionerJob.StartedAt = arg.StartedAt
provisionerJob.UpdatedAt = arg.StartedAt.Time
provisionerJob.WorkerID = arg.WorkerID
q.provisionerJobs[index] = provisionerJob
return provisionerJob, nil
}
return database.ProvisionerJob{}, sql.ErrNoRows
}
func (*fakeQuerier) DeleteOldAgentStats(_ context.Context) error {
// no-op
return nil
}
func (q *fakeQuerier) InsertAgentStat(_ context.Context, p database.InsertAgentStatParams) (database.AgentStat, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
stat := database.AgentStat{
ID: p.ID,
CreatedAt: p.CreatedAt,
WorkspaceID: p.WorkspaceID,
AgentID: p.AgentID,
UserID: p.UserID,
Payload: p.Payload,
TemplateID: p.TemplateID,
}
q.agentStats = append(q.agentStats, stat)
return stat, nil
}
func (q *fakeQuerier) GetLatestAgentStat(_ context.Context, agentID uuid.UUID) (database.AgentStat, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
found := false
latest := database.AgentStat{}
for _, agentStat := range q.agentStats {
if agentStat.AgentID != agentID {
continue
}
if !found {
latest = agentStat
found = true
continue
}
if agentStat.CreatedAt.After(latest.CreatedAt) {
latest = agentStat
found = true
continue
}
}
if !found {
return database.AgentStat{}, sql.ErrNoRows
}
return latest, nil
}
func (q *fakeQuerier) GetTemplateDAUs(_ context.Context, templateID uuid.UUID) ([]database.GetTemplateDAUsRow, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
seens := make(map[time.Time]map[uuid.UUID]struct{})
for _, as := range q.agentStats {
if as.TemplateID != templateID {
continue
}
date := as.CreatedAt.Truncate(time.Hour * 24)
dateEntry := seens[date]
if dateEntry == nil {
dateEntry = make(map[uuid.UUID]struct{})
}
dateEntry[as.UserID] = struct{}{}
seens[date] = dateEntry
}
seenKeys := maps.Keys(seens)
sort.Slice(seenKeys, func(i, j int) bool {
return seenKeys[i].Before(seenKeys[j])
})
var rs []database.GetTemplateDAUsRow
for _, key := range seenKeys {
ids := seens[key]
for id := range ids {
rs = append(rs, database.GetTemplateDAUsRow{
Date: key,
UserID: id,
})
}
}
return rs, nil
}
func (q *fakeQuerier) ParameterValue(_ context.Context, id uuid.UUID) (database.ParameterValue, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
for _, parameterValue := range q.parameterValues {
if parameterValue.ID != id {
continue
}
return parameterValue, nil
}
return database.ParameterValue{}, sql.ErrNoRows
}
func (q *fakeQuerier) DeleteParameterValueByID(_ context.Context, id uuid.UUID) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, parameterValue := range q.parameterValues {
if parameterValue.ID != id {
continue
}
q.parameterValues[index] = q.parameterValues[len(q.parameterValues)-1]
q.parameterValues = q.parameterValues[:len(q.parameterValues)-1]
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) GetAPIKeyByID(_ context.Context, id string) (database.APIKey, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, apiKey := range q.apiKeys {
if apiKey.ID == id {
return apiKey, nil
}
}
return database.APIKey{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetAPIKeysLastUsedAfter(_ context.Context, after time.Time) ([]database.APIKey, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
apiKeys := make([]database.APIKey, 0)
for _, key := range q.apiKeys {
if key.LastUsed.After(after) {
apiKeys = append(apiKeys, key)
}
}
return apiKeys, nil
}
func (q *fakeQuerier) GetAPIKeysByLoginType(_ context.Context, t database.LoginType) ([]database.APIKey, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
apiKeys := make([]database.APIKey, 0)
for _, key := range q.apiKeys {
if key.LoginType == t {
apiKeys = append(apiKeys, key)
}
}
return apiKeys, nil
}
func (q *fakeQuerier) DeleteAPIKeyByID(_ context.Context, id string) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, apiKey := range q.apiKeys {
if apiKey.ID != id {
continue
}
q.apiKeys[index] = q.apiKeys[len(q.apiKeys)-1]
q.apiKeys = q.apiKeys[:len(q.apiKeys)-1]
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) GetFileByHashAndCreator(_ context.Context, arg database.GetFileByHashAndCreatorParams) (database.File, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, file := range q.files {
if file.Hash == arg.Hash && file.CreatedBy == arg.CreatedBy {
return file, nil
}
}
return database.File{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetFileByID(_ context.Context, id uuid.UUID) (database.File, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, file := range q.files {
if file.ID == id {
return file, nil
}
}
return database.File{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetUserByEmailOrUsername(_ context.Context, arg database.GetUserByEmailOrUsernameParams) (database.User, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, user := range q.users {
if (strings.EqualFold(user.Email, arg.Email) || strings.EqualFold(user.Username, arg.Username)) && user.Deleted == arg.Deleted {
return user, nil
}
}
return database.User{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetUserByID(_ context.Context, id uuid.UUID) (database.User, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, user := range q.users {
if user.ID == id {
return user, nil
}
}
return database.User{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetUserCount(_ context.Context) (int64, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
existing := int64(0)
for _, u := range q.users {
if !u.Deleted {
existing++
}
}
return existing, nil
}
func (q *fakeQuerier) GetActiveUserCount(_ context.Context) (int64, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
active := int64(0)
for _, u := range q.users {
if u.Status == database.UserStatusActive && !u.Deleted {
active++
}
}
return active, nil
}
func (q *fakeQuerier) UpdateUserDeletedByID(_ context.Context, params database.UpdateUserDeletedByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for i, u := range q.users {
if u.ID == params.ID {
u.Deleted = params.Deleted
q.users[i] = u
return nil
}
}
return sql.ErrNoRows
}
func (q *fakeQuerier) GetUsers(_ context.Context, params database.GetUsersParams) ([]database.User, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
// Avoid side-effect of sorting.
users := make([]database.User, len(q.users))
copy(users, q.users)
// Database orders by created_at
slices.SortFunc(users, func(a, b database.User) bool {
if a.CreatedAt.Equal(b.CreatedAt) {
// Technically the postgres database also orders by uuid. So match
// that behavior
return a.ID.String() < b.ID.String()
}
return a.CreatedAt.Before(b.CreatedAt)
})
if params.Deleted {
tmp := make([]database.User, 0, len(users))
for _, user := range users {
if user.Deleted {
tmp = append(tmp, user)
}
}
users = tmp
}
if params.AfterID != uuid.Nil {
found := false
for i, v := range users {
if v.ID == params.AfterID {
// We want to return all users after index i.
users = users[i+1:]
found = true
break
}
}
// If no users after the time, then we return an empty list.
if !found {
return nil, sql.ErrNoRows
}
}
if params.Search != "" {
tmp := make([]database.User, 0, len(users))
for i, user := range users {
if strings.Contains(strings.ToLower(user.Email), strings.ToLower(params.Search)) {
tmp = append(tmp, users[i])
} else if strings.Contains(strings.ToLower(user.Username), strings.ToLower(params.Search)) {
tmp = append(tmp, users[i])
}
}
users = tmp
}
if len(params.Status) > 0 {
usersFilteredByStatus := make([]database.User, 0, len(users))
for i, user := range users {
if slice.ContainsCompare(params.Status, user.Status, func(a, b database.UserStatus) bool {
return strings.EqualFold(string(a), string(b))
}) {
usersFilteredByStatus = append(usersFilteredByStatus, users[i])
}
}
users = usersFilteredByStatus
}
if len(params.RbacRole) > 0 && !slice.Contains(params.RbacRole, rbac.RoleMember()) {
usersFilteredByRole := make([]database.User, 0, len(users))
for i, user := range users {
if slice.OverlapCompare(params.RbacRole, user.RBACRoles, strings.EqualFold) {
usersFilteredByRole = append(usersFilteredByRole, users[i])
}
}
users = usersFilteredByRole
}
if params.OffsetOpt > 0 {
if int(params.OffsetOpt) > len(users)-1 {
return nil, sql.ErrNoRows
}
users = users[params.OffsetOpt:]
}
if params.LimitOpt > 0 {
if int(params.LimitOpt) > len(users) {
params.LimitOpt = int32(len(users))
}
users = users[:params.LimitOpt]
}
return users, nil
}
func (q *fakeQuerier) GetUsersByIDs(_ context.Context, ids []uuid.UUID) ([]database.User, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
users := make([]database.User, 0)
for _, user := range q.users {
for _, id := range ids {
if user.ID != id {
continue
}
users = append(users, user)
}
}
return users, nil
}
func (q *fakeQuerier) GetAuthorizationUserRoles(_ context.Context, userID uuid.UUID) (database.GetAuthorizationUserRolesRow, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var user *database.User
roles := make([]string, 0)
for _, u := range q.users {
if u.ID == userID {
u := u
roles = append(roles, u.RBACRoles...)
roles = append(roles, "member")
user = &u
break
}
}
for _, mem := range q.organizationMembers {
if mem.UserID == userID {
roles = append(roles, mem.Roles...)
roles = append(roles, "organization-member:"+mem.OrganizationID.String())
}
}
var groups []string
for _, member := range q.groupMembers {
if member.UserID == userID {
groups = append(groups, member.GroupID.String())
}
}
if user == nil {
return database.GetAuthorizationUserRolesRow{}, sql.ErrNoRows
}
return database.GetAuthorizationUserRolesRow{
ID: userID,
Username: user.Username,
Status: user.Status,
Roles: roles,
Groups: groups,
}, nil
}
func (q *fakeQuerier) GetWorkspaces(ctx context.Context, arg database.GetWorkspacesParams) ([]database.Workspace, error) {
// A nil auth filter means no auth filter.
workspaces, err := q.GetAuthorizedWorkspaces(ctx, arg, nil)
return workspaces, err
}
//nolint:gocyclo
func (q *fakeQuerier) GetAuthorizedWorkspaces(ctx context.Context, arg database.GetWorkspacesParams, authorizedFilter rbac.AuthorizeFilter) ([]database.Workspace, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
workspaces := make([]database.Workspace, 0)
for _, workspace := range q.workspaces {
if arg.OwnerID != uuid.Nil && workspace.OwnerID != arg.OwnerID {
continue
}
if arg.OwnerUsername != "" {
owner, err := q.GetUserByID(ctx, workspace.OwnerID)
if err == nil && !strings.EqualFold(arg.OwnerUsername, owner.Username) {
continue
}
}
if arg.TemplateName != "" {
template, err := q.GetTemplateByID(ctx, workspace.TemplateID)
if err == nil && !strings.EqualFold(arg.TemplateName, template.Name) {
continue
}
}
if !arg.Deleted && workspace.Deleted {
continue
}
if arg.Name != "" && !strings.Contains(strings.ToLower(workspace.Name), strings.ToLower(arg.Name)) {
continue
}
if arg.Status != "" {
build, err := q.GetLatestWorkspaceBuildByWorkspaceID(ctx, workspace.ID)
if err != nil {
return nil, xerrors.Errorf("get latest build: %w", err)
}
job, err := q.GetProvisionerJobByID(ctx, build.JobID)
if err != nil {
return nil, xerrors.Errorf("get provisioner job: %w", err)
}
switch arg.Status {
case "pending":
if !job.StartedAt.Valid {
continue
}
case "starting":
if !job.StartedAt.Valid &&
!job.CanceledAt.Valid &&
job.CompletedAt.Valid &&
time.Since(job.UpdatedAt) > 30*time.Second ||
build.Transition != database.WorkspaceTransitionStart {
continue
}
case "running":
if !job.CompletedAt.Valid &&
job.CanceledAt.Valid &&
job.Error.Valid ||
build.Transition != database.WorkspaceTransitionStart {
continue
}
case "stopping":
if !job.StartedAt.Valid &&
!job.CanceledAt.Valid &&
job.CompletedAt.Valid &&
time.Since(job.UpdatedAt) > 30*time.Second ||
build.Transition != database.WorkspaceTransitionStop {
continue
}
case "stopped":
if !job.CompletedAt.Valid &&
job.CanceledAt.Valid &&
job.Error.Valid ||
build.Transition != database.WorkspaceTransitionStop {
continue
}
case "failed":
if (!job.CanceledAt.Valid && !job.Error.Valid) ||
(!job.CompletedAt.Valid && !job.Error.Valid) {
continue
}
case "canceling":
if !job.CanceledAt.Valid && job.CompletedAt.Valid {
continue
}
case "canceled":
if !job.CanceledAt.Valid && !job.CompletedAt.Valid {
continue
}
case "deleted":
if !job.StartedAt.Valid &&
job.CanceledAt.Valid &&
!job.CompletedAt.Valid &&
time.Since(job.UpdatedAt) > 30*time.Second ||
build.Transition != database.WorkspaceTransitionDelete {
continue
}
case "deleting":
if !job.CompletedAt.Valid &&
job.CanceledAt.Valid &&
job.Error.Valid &&
build.Transition != database.WorkspaceTransitionDelete {
continue
}
default:
return nil, xerrors.Errorf("unknown workspace status in filter: %q", arg.Status)
}
}
if len(arg.TemplateIds) > 0 {
match := false
for _, id := range arg.TemplateIds {
if workspace.TemplateID == id {
match = true
break
}
}
if !match {
continue
}
}
// If the filter exists, ensure the object is authorized.
if authorizedFilter != nil && !authorizedFilter.Eval(workspace.RBACObject()) {
continue
}
workspaces = append(workspaces, workspace)
}
if arg.Offset > 0 {
if int(arg.Offset) > len(workspaces) {
return []database.Workspace{}, nil
}
workspaces = workspaces[arg.Offset:]
}
if arg.Limit > 0 {
if int(arg.Limit) > len(workspaces) {
return workspaces, nil
}
workspaces = workspaces[:arg.Limit]
}
return workspaces, nil
}
func (q *fakeQuerier) GetWorkspaceByID(_ context.Context, id uuid.UUID) (database.Workspace, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, workspace := range q.workspaces {
if workspace.ID == id {
return workspace, nil
}
}
return database.Workspace{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetWorkspaceByOwnerIDAndName(_ context.Context, arg database.GetWorkspaceByOwnerIDAndNameParams) (database.Workspace, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var found *database.Workspace
for _, workspace := range q.workspaces {
workspace := workspace
if workspace.OwnerID != arg.OwnerID {
continue
}
if !strings.EqualFold(workspace.Name, arg.Name) {
continue
}
if workspace.Deleted != arg.Deleted {
continue
}
// Return the most recent workspace with the given name
if found == nil || workspace.CreatedAt.After(found.CreatedAt) {
found = &workspace
}
}
if found != nil {
return *found, nil
}
return database.Workspace{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetWorkspaceAppsByAgentID(_ context.Context, id uuid.UUID) ([]database.WorkspaceApp, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
apps := make([]database.WorkspaceApp, 0)
for _, app := range q.workspaceApps {
if app.AgentID == id {
apps = append(apps, app)
}
}
if len(apps) == 0 {
return nil, sql.ErrNoRows
}
return apps, nil
}
func (q *fakeQuerier) GetWorkspaceAppsCreatedAfter(_ context.Context, after time.Time) ([]database.WorkspaceApp, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
apps := make([]database.WorkspaceApp, 0)
for _, app := range q.workspaceApps {
if app.CreatedAt.After(after) {
apps = append(apps, app)
}
}
return apps, nil
}
func (q *fakeQuerier) GetWorkspaceAppsByAgentIDs(_ context.Context, ids []uuid.UUID) ([]database.WorkspaceApp, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
apps := make([]database.WorkspaceApp, 0)
for _, app := range q.workspaceApps {
for _, id := range ids {
if app.AgentID == id {
apps = append(apps, app)
break
}
}
}
return apps, nil
}
func (q *fakeQuerier) GetWorkspaceOwnerCountsByTemplateIDs(_ context.Context, templateIDs []uuid.UUID) ([]database.GetWorkspaceOwnerCountsByTemplateIDsRow, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
counts := map[uuid.UUID]map[uuid.UUID]struct{}{}
for _, templateID := range templateIDs {
counts[templateID] = map[uuid.UUID]struct{}{}
for _, workspace := range q.workspaces {
if workspace.TemplateID != templateID {
continue
}
if workspace.Deleted {
continue
}
countByOwnerID, ok := counts[templateID]
if !ok {
countByOwnerID = map[uuid.UUID]struct{}{}
}
countByOwnerID[workspace.OwnerID] = struct{}{}
counts[templateID] = countByOwnerID
}
}
res := make([]database.GetWorkspaceOwnerCountsByTemplateIDsRow, 0)
for key, value := range counts {
res = append(res, database.GetWorkspaceOwnerCountsByTemplateIDsRow{
TemplateID: key,
Count: int64(len(value)),
})
}
if len(res) == 0 {
return nil, sql.ErrNoRows
}
return res, nil
}
func (q *fakeQuerier) GetWorkspaceBuildByID(_ context.Context, id uuid.UUID) (database.WorkspaceBuild, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, history := range q.workspaceBuilds {
if history.ID == id {
return history, nil
}
}
return database.WorkspaceBuild{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetWorkspaceCountByUserID(_ context.Context, id uuid.UUID) (int64, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var count int64
for _, workspace := range q.workspaces {
if workspace.OwnerID == id {
if workspace.Deleted {
continue
}
count++
}
}
return count, nil
}
func (q *fakeQuerier) GetWorkspaceBuildByJobID(_ context.Context, jobID uuid.UUID) (database.WorkspaceBuild, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, build := range q.workspaceBuilds {
if build.JobID == jobID {
return build, nil
}
}
return database.WorkspaceBuild{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetLatestWorkspaceBuildByWorkspaceID(_ context.Context, workspaceID uuid.UUID) (database.WorkspaceBuild, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var row database.WorkspaceBuild
var buildNum int32 = -1
for _, workspaceBuild := range q.workspaceBuilds {
if workspaceBuild.WorkspaceID == workspaceID && workspaceBuild.BuildNumber > buildNum {
row = workspaceBuild
buildNum = workspaceBuild.BuildNumber
}
}
if buildNum == -1 {
return database.WorkspaceBuild{}, sql.ErrNoRows
}
return row, nil
}
func (q *fakeQuerier) GetLatestWorkspaceBuilds(_ context.Context) ([]database.WorkspaceBuild, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
builds := make(map[uuid.UUID]database.WorkspaceBuild)
buildNumbers := make(map[uuid.UUID]int32)
for _, workspaceBuild := range q.workspaceBuilds {
id := workspaceBuild.WorkspaceID
if workspaceBuild.BuildNumber > buildNumbers[id] {
builds[id] = workspaceBuild
buildNumbers[id] = workspaceBuild.BuildNumber
}
}
var returnBuilds []database.WorkspaceBuild
for i, n := range buildNumbers {
if n > 0 {
b := builds[i]
returnBuilds = append(returnBuilds, b)
}
}
if len(returnBuilds) == 0 {
return nil, sql.ErrNoRows
}
return returnBuilds, nil
}
func (q *fakeQuerier) GetLatestWorkspaceBuildsByWorkspaceIDs(_ context.Context, ids []uuid.UUID) ([]database.WorkspaceBuild, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
builds := make(map[uuid.UUID]database.WorkspaceBuild)
buildNumbers := make(map[uuid.UUID]int32)
for _, workspaceBuild := range q.workspaceBuilds {
for _, id := range ids {
if id == workspaceBuild.WorkspaceID && workspaceBuild.BuildNumber > buildNumbers[id] {
builds[id] = workspaceBuild
buildNumbers[id] = workspaceBuild.BuildNumber
}
}
}
var returnBuilds []database.WorkspaceBuild
for i, n := range buildNumbers {
if n > 0 {
b := builds[i]
returnBuilds = append(returnBuilds, b)
}
}
if len(returnBuilds) == 0 {
return nil, sql.ErrNoRows
}
return returnBuilds, nil
}
func (q *fakeQuerier) GetWorkspaceBuildsByWorkspaceID(_ context.Context,
params database.GetWorkspaceBuildsByWorkspaceIDParams,
) ([]database.WorkspaceBuild, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
history := make([]database.WorkspaceBuild, 0)
for _, workspaceBuild := range q.workspaceBuilds {
if workspaceBuild.CreatedAt.Before(params.Since) {
continue
}
if workspaceBuild.WorkspaceID == params.WorkspaceID {
history = append(history, workspaceBuild)
}
}
// Order by build_number
slices.SortFunc(history, func(a, b database.WorkspaceBuild) bool {
// use greater than since we want descending order
return a.BuildNumber > b.BuildNumber
})
if params.AfterID != uuid.Nil {
found := false
for i, v := range history {
if v.ID == params.AfterID {
// We want to return all builds after index i.
history = history[i+1:]
found = true
break
}
}
// If no builds after the time, then we return an empty list.
if !found {
return nil, sql.ErrNoRows
}
}
if params.OffsetOpt > 0 {
if int(params.OffsetOpt) > len(history)-1 {
return nil, sql.ErrNoRows
}
history = history[params.OffsetOpt:]
}
if params.LimitOpt > 0 {
if int(params.LimitOpt) > len(history) {
params.LimitOpt = int32(len(history))
}
history = history[:params.LimitOpt]
}
if len(history) == 0 {
return nil, sql.ErrNoRows
}
return history, nil
}
func (q *fakeQuerier) GetWorkspaceBuildByWorkspaceIDAndBuildNumber(_ context.Context, arg database.GetWorkspaceBuildByWorkspaceIDAndBuildNumberParams) (database.WorkspaceBuild, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, workspaceBuild := range q.workspaceBuilds {
if workspaceBuild.WorkspaceID != arg.WorkspaceID {
continue
}
if workspaceBuild.BuildNumber != arg.BuildNumber {
continue
}
return workspaceBuild, nil
}
return database.WorkspaceBuild{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetWorkspaceBuildsCreatedAfter(_ context.Context, after time.Time) ([]database.WorkspaceBuild, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
workspaceBuilds := make([]database.WorkspaceBuild, 0)
for _, workspaceBuild := range q.workspaceBuilds {
if workspaceBuild.CreatedAt.After(after) {
workspaceBuilds = append(workspaceBuilds, workspaceBuild)
}
}
return workspaceBuilds, nil
}
func (q *fakeQuerier) GetOrganizations(_ context.Context) ([]database.Organization, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
if len(q.organizations) == 0 {
return nil, sql.ErrNoRows
}
return q.organizations, nil
}
func (q *fakeQuerier) GetOrganizationByID(_ context.Context, id uuid.UUID) (database.Organization, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, organization := range q.organizations {
if organization.ID == id {
return organization, nil
}
}
return database.Organization{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetOrganizationByName(_ context.Context, name string) (database.Organization, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, organization := range q.organizations {
if organization.Name == name {
return organization, nil
}
}
return database.Organization{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetOrganizationsByUserID(_ context.Context, userID uuid.UUID) ([]database.Organization, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
organizations := make([]database.Organization, 0)
for _, organizationMember := range q.organizationMembers {
if organizationMember.UserID != userID {
continue
}
for _, organization := range q.organizations {
if organization.ID != organizationMember.OrganizationID {
continue
}
organizations = append(organizations, organization)
}
}
if len(organizations) == 0 {
return nil, sql.ErrNoRows
}
return organizations, nil
}
func (q *fakeQuerier) ParameterValues(_ context.Context, arg database.ParameterValuesParams) ([]database.ParameterValue, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
parameterValues := make([]database.ParameterValue, 0)
for _, parameterValue := range q.parameterValues {
if len(arg.Scopes) > 0 {
if !slice.Contains(arg.Scopes, parameterValue.Scope) {
continue
}
}
if len(arg.ScopeIds) > 0 {
if !slice.Contains(arg.ScopeIds, parameterValue.ScopeID) {
continue
}
}
if len(arg.IDs) > 0 {
if !slice.Contains(arg.IDs, parameterValue.ID) {
continue
}
}
parameterValues = append(parameterValues, parameterValue)
}
if len(parameterValues) == 0 {
return nil, sql.ErrNoRows
}
return parameterValues, nil
}
func (q *fakeQuerier) GetTemplateByID(_ context.Context, id uuid.UUID) (database.Template, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, template := range q.templates {
if template.ID == id {
return template, nil
}
}
return database.Template{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetTemplateByOrganizationAndName(_ context.Context, arg database.GetTemplateByOrganizationAndNameParams) (database.Template, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, template := range q.templates {
if template.OrganizationID != arg.OrganizationID {
continue
}
if !strings.EqualFold(template.Name, arg.Name) {
continue
}
if template.Deleted != arg.Deleted {
continue
}
return template, nil
}
return database.Template{}, sql.ErrNoRows
}
func (q *fakeQuerier) UpdateTemplateMetaByID(_ context.Context, arg database.UpdateTemplateMetaByIDParams) (database.Template, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for idx, tpl := range q.templates {
if tpl.ID != arg.ID {
continue
}
tpl.UpdatedAt = database.Now()
tpl.Name = arg.Name
tpl.Description = arg.Description
tpl.Icon = arg.Icon
tpl.MaxTtl = arg.MaxTtl
tpl.MinAutostartInterval = arg.MinAutostartInterval
q.templates[idx] = tpl
return tpl, nil
}
return database.Template{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetTemplatesWithFilter(_ context.Context, arg database.GetTemplatesWithFilterParams) ([]database.Template, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var templates []database.Template
for _, template := range q.templates {
if template.Deleted != arg.Deleted {
continue
}
if arg.OrganizationID != uuid.Nil && template.OrganizationID != arg.OrganizationID {
continue
}
if arg.ExactName != "" && !strings.EqualFold(template.Name, arg.ExactName) {
continue
}
if len(arg.IDs) > 0 {
match := false
for _, id := range arg.IDs {
if template.ID == id {
match = true
break
}
}
if !match {
continue
}
}
templates = append(templates, template)
}
if len(templates) > 0 {
slices.SortFunc(templates, func(i, j database.Template) bool {
if i.Name != j.Name {
return i.Name < j.Name
}
return i.ID.String() < j.ID.String()
})
return templates, nil
}
return nil, sql.ErrNoRows
}
func (q *fakeQuerier) GetTemplateVersionsByTemplateID(_ context.Context, arg database.GetTemplateVersionsByTemplateIDParams) (version []database.TemplateVersion, err error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, templateVersion := range q.templateVersions {
if templateVersion.TemplateID.UUID != arg.TemplateID {
continue
}
version = append(version, templateVersion)
}
// Database orders by created_at
slices.SortFunc(version, func(a, b database.TemplateVersion) bool {
if a.CreatedAt.Equal(b.CreatedAt) {
// Technically the postgres database also orders by uuid. So match
// that behavior
return a.ID.String() < b.ID.String()
}
return a.CreatedAt.Before(b.CreatedAt)
})
if arg.AfterID != uuid.Nil {
found := false
for i, v := range version {
if v.ID == arg.AfterID {
// We want to return all users after index i.
version = version[i+1:]
found = true
break
}
}
// If no users after the time, then we return an empty list.
if !found {
return nil, sql.ErrNoRows
}
}
if arg.OffsetOpt > 0 {
if int(arg.OffsetOpt) > len(version)-1 {
return nil, sql.ErrNoRows
}
version = version[arg.OffsetOpt:]
}
if arg.LimitOpt > 0 {
if int(arg.LimitOpt) > len(version) {
arg.LimitOpt = int32(len(version))
}
version = version[:arg.LimitOpt]
}
if len(version) == 0 {
return nil, sql.ErrNoRows
}
return version, nil
}
func (q *fakeQuerier) GetTemplateVersionsCreatedAfter(_ context.Context, after time.Time) ([]database.TemplateVersion, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
versions := make([]database.TemplateVersion, 0)
for _, version := range q.templateVersions {
if version.CreatedAt.After(after) {
versions = append(versions, version)
}
}
return versions, nil
}
func (q *fakeQuerier) GetTemplateVersionByTemplateIDAndName(_ context.Context, arg database.GetTemplateVersionByTemplateIDAndNameParams) (database.TemplateVersion, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, templateVersion := range q.templateVersions {
if templateVersion.TemplateID != arg.TemplateID {
continue
}
if !strings.EqualFold(templateVersion.Name, arg.Name) {
continue
}
return templateVersion, nil
}
return database.TemplateVersion{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetTemplateVersionByID(_ context.Context, templateVersionID uuid.UUID) (database.TemplateVersion, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, templateVersion := range q.templateVersions {
if templateVersion.ID != templateVersionID {
continue
}
return templateVersion, nil
}
return database.TemplateVersion{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetTemplateVersionByJobID(_ context.Context, jobID uuid.UUID) (database.TemplateVersion, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, templateVersion := range q.templateVersions {
if templateVersion.JobID != jobID {
continue
}
return templateVersion, nil
}
return database.TemplateVersion{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetParameterSchemasByJobID(_ context.Context, jobID uuid.UUID) ([]database.ParameterSchema, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
parameters := make([]database.ParameterSchema, 0)
for _, parameterSchema := range q.parameterSchemas {
if parameterSchema.JobID != jobID {
continue
}
parameters = append(parameters, parameterSchema)
}
if len(parameters) == 0 {
return nil, sql.ErrNoRows
}
sort.Slice(parameters, func(i, j int) bool {
return parameters[i].Index < parameters[j].Index
})
return parameters, nil
}
func (q *fakeQuerier) GetParameterSchemasCreatedAfter(_ context.Context, after time.Time) ([]database.ParameterSchema, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
parameters := make([]database.ParameterSchema, 0)
for _, parameterSchema := range q.parameterSchemas {
if parameterSchema.CreatedAt.After(after) {
parameters = append(parameters, parameterSchema)
}
}
return parameters, nil
}
func (q *fakeQuerier) GetParameterValueByScopeAndName(_ context.Context, arg database.GetParameterValueByScopeAndNameParams) (database.ParameterValue, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, parameterValue := range q.parameterValues {
if parameterValue.Scope != arg.Scope {
continue
}
if parameterValue.ScopeID != arg.ScopeID {
continue
}
if parameterValue.Name != arg.Name {
continue
}
return parameterValue, nil
}
return database.ParameterValue{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetTemplates(_ context.Context) ([]database.Template, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
templates := slices.Clone(q.templates)
slices.SortFunc(templates, func(i, j database.Template) bool {
if i.Name != j.Name {
return i.Name < j.Name
}
return i.ID.String() < j.ID.String()
})
return templates, nil
}
func (q *fakeQuerier) UpdateTemplateUserACLByID(_ context.Context, id uuid.UUID, acl database.TemplateACL) error {
q.mutex.RLock()
defer q.mutex.RUnlock()
for i, t := range q.templates {
if t.ID == id {
t = t.SetUserACL(acl)
q.templates[i] = t
return nil
}
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateTemplateGroupACLByID(_ context.Context, id uuid.UUID, acl database.TemplateACL) error {
q.mutex.RLock()
defer q.mutex.RUnlock()
for i, t := range q.templates {
if t.ID == id {
t = t.SetGroupACL(acl)
q.templates[i] = t
return nil
}
}
return sql.ErrNoRows
}
func (q *fakeQuerier) GetTemplateUserRoles(_ context.Context, id uuid.UUID) ([]database.TemplateUser, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var template database.Template
for _, t := range q.templates {
if t.ID == id {
template = t
break
}
}
if template.ID == uuid.Nil {
return nil, sql.ErrNoRows
}
acl := template.UserACL()
users := make([]database.TemplateUser, 0, len(acl))
for k, v := range acl {
user, err := q.GetUserByID(context.Background(), uuid.MustParse(k))
if err != nil && xerrors.Is(err, sql.ErrNoRows) {
return nil, xerrors.Errorf("get user by ID: %w", err)
}
// We don't delete users from the map if they
// get deleted so just skip.
if xerrors.Is(err, sql.ErrNoRows) {
continue
}
if user.Deleted || user.Status == database.UserStatusSuspended {
continue
}
users = append(users, database.TemplateUser{
User: user,
Actions: v,
})
}
return users, nil
}
func (q *fakeQuerier) GetTemplateGroupRoles(_ context.Context, id uuid.UUID) ([]database.TemplateGroup, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var template database.Template
for _, t := range q.templates {
if t.ID == id {
template = t
break
}
}
if template.ID == uuid.Nil {
return nil, sql.ErrNoRows
}
acl := template.GroupACL()
groups := make([]database.TemplateGroup, 0, len(acl))
for k, v := range acl {
group, err := q.GetGroupByID(context.Background(), uuid.MustParse(k))
if err != nil && !xerrors.Is(err, sql.ErrNoRows) {
return nil, xerrors.Errorf("get group by ID: %w", err)
}
// We don't delete groups from the map if they
// get deleted so just skip.
if xerrors.Is(err, sql.ErrNoRows) {
continue
}
groups = append(groups, database.TemplateGroup{
Group: group,
Actions: v,
})
}
return groups, nil
}
func (q *fakeQuerier) GetOrganizationMemberByUserID(_ context.Context, arg database.GetOrganizationMemberByUserIDParams) (database.OrganizationMember, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, organizationMember := range q.organizationMembers {
if organizationMember.OrganizationID != arg.OrganizationID {
continue
}
if organizationMember.UserID != arg.UserID {
continue
}
return organizationMember, nil
}
return database.OrganizationMember{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetOrganizationIDsByMemberIDs(_ context.Context, ids []uuid.UUID) ([]database.GetOrganizationIDsByMemberIDsRow, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
getOrganizationIDsByMemberIDRows := make([]database.GetOrganizationIDsByMemberIDsRow, 0, len(ids))
for _, userID := range ids {
userOrganizationIDs := make([]uuid.UUID, 0)
for _, membership := range q.organizationMembers {
if membership.UserID == userID {
userOrganizationIDs = append(userOrganizationIDs, membership.OrganizationID)
}
}
getOrganizationIDsByMemberIDRows = append(getOrganizationIDsByMemberIDRows, database.GetOrganizationIDsByMemberIDsRow{
UserID: userID,
OrganizationIDs: userOrganizationIDs,
})
}
if len(getOrganizationIDsByMemberIDRows) == 0 {
return nil, sql.ErrNoRows
}
return getOrganizationIDsByMemberIDRows, nil
}
func (q *fakeQuerier) GetOrganizationMembershipsByUserID(_ context.Context, userID uuid.UUID) ([]database.OrganizationMember, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var memberships []database.OrganizationMember
for _, organizationMember := range q.organizationMembers {
mem := organizationMember
if mem.UserID != userID {
continue
}
memberships = append(memberships, mem)
}
return memberships, nil
}
func (q *fakeQuerier) UpdateMemberRoles(_ context.Context, arg database.UpdateMemberRolesParams) (database.OrganizationMember, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
for i, mem := range q.organizationMembers {
if mem.UserID == arg.UserID && mem.OrganizationID == arg.OrgID {
uniqueRoles := make([]string, 0, len(arg.GrantedRoles))
exist := make(map[string]struct{})
for _, r := range arg.GrantedRoles {
if _, ok := exist[r]; ok {
continue
}
exist[r] = struct{}{}
uniqueRoles = append(uniqueRoles, r)
}
sort.Strings(uniqueRoles)
mem.Roles = uniqueRoles
q.organizationMembers[i] = mem
return mem, nil
}
}
return database.OrganizationMember{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetProvisionerDaemons(_ context.Context) ([]database.ProvisionerDaemon, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
if len(q.provisionerDaemons) == 0 {
return nil, sql.ErrNoRows
}
return q.provisionerDaemons, nil
}
func (q *fakeQuerier) GetWorkspaceAgentByAuthToken(_ context.Context, authToken uuid.UUID) (database.WorkspaceAgent, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
// The schema sorts this by created at, so we iterate the array backwards.
for i := len(q.provisionerJobAgents) - 1; i >= 0; i-- {
agent := q.provisionerJobAgents[i]
if agent.AuthToken == authToken {
return agent, nil
}
}
return database.WorkspaceAgent{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetWorkspaceAgentByID(_ context.Context, id uuid.UUID) (database.WorkspaceAgent, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
// The schema sorts this by created at, so we iterate the array backwards.
for i := len(q.provisionerJobAgents) - 1; i >= 0; i-- {
agent := q.provisionerJobAgents[i]
if agent.ID == id {
return agent, nil
}
}
return database.WorkspaceAgent{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetWorkspaceAgentByInstanceID(_ context.Context, instanceID string) (database.WorkspaceAgent, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
// The schema sorts this by created at, so we iterate the array backwards.
for i := len(q.provisionerJobAgents) - 1; i >= 0; i-- {
agent := q.provisionerJobAgents[i]
if agent.AuthInstanceID.Valid && agent.AuthInstanceID.String == instanceID {
return agent, nil
}
}
return database.WorkspaceAgent{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetWorkspaceAgentsByResourceIDs(_ context.Context, resourceIDs []uuid.UUID) ([]database.WorkspaceAgent, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
workspaceAgents := make([]database.WorkspaceAgent, 0)
for _, agent := range q.provisionerJobAgents {
for _, resourceID := range resourceIDs {
if agent.ResourceID != resourceID {
continue
}
workspaceAgents = append(workspaceAgents, agent)
}
}
return workspaceAgents, nil
}
func (q *fakeQuerier) GetWorkspaceAgentsCreatedAfter(_ context.Context, after time.Time) ([]database.WorkspaceAgent, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
workspaceAgents := make([]database.WorkspaceAgent, 0)
for _, agent := range q.provisionerJobAgents {
if agent.CreatedAt.After(after) {
workspaceAgents = append(workspaceAgents, agent)
}
}
return workspaceAgents, nil
}
func (q *fakeQuerier) GetWorkspaceAppByAgentIDAndName(_ context.Context, arg database.GetWorkspaceAppByAgentIDAndNameParams) (database.WorkspaceApp, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, app := range q.workspaceApps {
if app.AgentID != arg.AgentID {
continue
}
if app.Name != arg.Name {
continue
}
return app, nil
}
return database.WorkspaceApp{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetProvisionerDaemonByID(_ context.Context, id uuid.UUID) (database.ProvisionerDaemon, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, provisionerDaemon := range q.provisionerDaemons {
if provisionerDaemon.ID != id {
continue
}
return provisionerDaemon, nil
}
return database.ProvisionerDaemon{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetProvisionerJobByID(_ context.Context, id uuid.UUID) (database.ProvisionerJob, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, provisionerJob := range q.provisionerJobs {
if provisionerJob.ID != id {
continue
}
return provisionerJob, nil
}
return database.ProvisionerJob{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetWorkspaceResourceByID(_ context.Context, id uuid.UUID) (database.WorkspaceResource, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, resource := range q.provisionerJobResources {
if resource.ID == id {
return resource, nil
}
}
return database.WorkspaceResource{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetWorkspaceResourcesByJobID(_ context.Context, jobID uuid.UUID) ([]database.WorkspaceResource, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
resources := make([]database.WorkspaceResource, 0)
for _, resource := range q.provisionerJobResources {
if resource.JobID != jobID {
continue
}
resources = append(resources, resource)
}
return resources, nil
}
func (q *fakeQuerier) GetWorkspaceResourcesByJobIDs(_ context.Context, jobIDs []uuid.UUID) ([]database.WorkspaceResource, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
resources := make([]database.WorkspaceResource, 0)
for _, resource := range q.provisionerJobResources {
for _, jobID := range jobIDs {
if resource.JobID != jobID {
continue
}
resources = append(resources, resource)
}
}
return resources, nil
}
func (q *fakeQuerier) GetWorkspaceResourcesCreatedAfter(_ context.Context, after time.Time) ([]database.WorkspaceResource, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
resources := make([]database.WorkspaceResource, 0)
for _, resource := range q.provisionerJobResources {
if resource.CreatedAt.After(after) {
resources = append(resources, resource)
}
}
return resources, nil
}
func (q *fakeQuerier) GetWorkspaceResourceMetadataCreatedAfter(ctx context.Context, after time.Time) ([]database.WorkspaceResourceMetadatum, error) {
resources, err := q.GetWorkspaceResourcesCreatedAfter(ctx, after)
if err != nil {
return nil, err
}
resourceIDs := map[uuid.UUID]struct{}{}
for _, resource := range resources {
resourceIDs[resource.ID] = struct{}{}
}
q.mutex.RLock()
defer q.mutex.RUnlock()
metadata := make([]database.WorkspaceResourceMetadatum, 0)
for _, m := range q.provisionerJobResourceMetadata {
_, ok := resourceIDs[m.WorkspaceResourceID]
if !ok {
continue
}
metadata = append(metadata, m)
}
return metadata, nil
}
func (q *fakeQuerier) GetWorkspaceResourceMetadataByResourceID(_ context.Context, id uuid.UUID) ([]database.WorkspaceResourceMetadatum, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
metadata := make([]database.WorkspaceResourceMetadatum, 0)
for _, metadatum := range q.provisionerJobResourceMetadata {
if metadatum.WorkspaceResourceID == id {
metadata = append(metadata, metadatum)
}
}
return metadata, nil
}
func (q *fakeQuerier) GetWorkspaceResourceMetadataByResourceIDs(_ context.Context, ids []uuid.UUID) ([]database.WorkspaceResourceMetadatum, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
metadata := make([]database.WorkspaceResourceMetadatum, 0)
for _, metadatum := range q.provisionerJobResourceMetadata {
for _, id := range ids {
if metadatum.WorkspaceResourceID == id {
metadata = append(metadata, metadatum)
}
}
}
return metadata, nil
}
func (q *fakeQuerier) GetProvisionerJobsByIDs(_ context.Context, ids []uuid.UUID) ([]database.ProvisionerJob, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
jobs := make([]database.ProvisionerJob, 0)
for _, job := range q.provisionerJobs {
for _, id := range ids {
if id == job.ID {
jobs = append(jobs, job)
break
}
}
}
if len(jobs) == 0 {
return nil, sql.ErrNoRows
}
return jobs, nil
}
func (q *fakeQuerier) GetProvisionerJobsCreatedAfter(_ context.Context, after time.Time) ([]database.ProvisionerJob, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
jobs := make([]database.ProvisionerJob, 0)
for _, job := range q.provisionerJobs {
if job.CreatedAt.After(after) {
jobs = append(jobs, job)
}
}
return jobs, nil
}
func (q *fakeQuerier) GetProvisionerLogsByIDBetween(_ context.Context, arg database.GetProvisionerLogsByIDBetweenParams) ([]database.ProvisionerJobLog, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
logs := make([]database.ProvisionerJobLog, 0)
for _, jobLog := range q.provisionerJobLogs {
if jobLog.JobID != arg.JobID {
continue
}
if !arg.CreatedBefore.IsZero() && jobLog.CreatedAt.After(arg.CreatedBefore) {
continue
}
if !arg.CreatedAfter.IsZero() && jobLog.CreatedAt.Before(arg.CreatedAfter) {
continue
}
logs = append(logs, jobLog)
}
if len(logs) == 0 {
return nil, sql.ErrNoRows
}
return logs, nil
}
func (q *fakeQuerier) InsertAPIKey(_ context.Context, arg database.InsertAPIKeyParams) (database.APIKey, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
if arg.LifetimeSeconds == 0 {
arg.LifetimeSeconds = 86400
}
//nolint:gosimple
key := database.APIKey{
ID: arg.ID,
LifetimeSeconds: arg.LifetimeSeconds,
HashedSecret: arg.HashedSecret,
IPAddress: arg.IPAddress,
UserID: arg.UserID,
ExpiresAt: arg.ExpiresAt,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
LastUsed: arg.LastUsed,
LoginType: arg.LoginType,
Scope: arg.Scope,
}
q.apiKeys = append(q.apiKeys, key)
return key, nil
}
func (q *fakeQuerier) InsertFile(_ context.Context, arg database.InsertFileParams) (database.File, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
//nolint:gosimple
file := database.File{
ID: arg.ID,
Hash: arg.Hash,
CreatedAt: arg.CreatedAt,
CreatedBy: arg.CreatedBy,
Mimetype: arg.Mimetype,
Data: arg.Data,
}
q.files = append(q.files, file)
return file, nil
}
func (q *fakeQuerier) InsertOrganization(_ context.Context, arg database.InsertOrganizationParams) (database.Organization, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
organization := database.Organization{
ID: arg.ID,
Name: arg.Name,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
}
q.organizations = append(q.organizations, organization)
return organization, nil
}
func (q *fakeQuerier) InsertOrganizationMember(_ context.Context, arg database.InsertOrganizationMemberParams) (database.OrganizationMember, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
//nolint:gosimple
organizationMember := database.OrganizationMember{
OrganizationID: arg.OrganizationID,
UserID: arg.UserID,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
Roles: arg.Roles,
}
q.organizationMembers = append(q.organizationMembers, organizationMember)
return organizationMember, nil
}
func (q *fakeQuerier) InsertParameterValue(_ context.Context, arg database.InsertParameterValueParams) (database.ParameterValue, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
//nolint:gosimple
parameterValue := database.ParameterValue{
ID: arg.ID,
Name: arg.Name,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
Scope: arg.Scope,
ScopeID: arg.ScopeID,
SourceScheme: arg.SourceScheme,
SourceValue: arg.SourceValue,
DestinationScheme: arg.DestinationScheme,
}
q.parameterValues = append(q.parameterValues, parameterValue)
return parameterValue, nil
}
func (q *fakeQuerier) InsertTemplate(_ context.Context, arg database.InsertTemplateParams) (database.Template, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
if arg.MinAutostartInterval == 0 {
arg.MinAutostartInterval = int64(time.Hour)
}
//nolint:gosimple
template := database.Template{
ID: arg.ID,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
OrganizationID: arg.OrganizationID,
Name: arg.Name,
Provisioner: arg.Provisioner,
ActiveVersionID: arg.ActiveVersionID,
Description: arg.Description,
MaxTtl: arg.MaxTtl,
MinAutostartInterval: arg.MinAutostartInterval,
CreatedBy: arg.CreatedBy,
}
template = template.SetUserACL(database.TemplateACL{})
template = template.SetGroupACL(database.TemplateACL{
arg.OrganizationID.String(): []rbac.Action{rbac.ActionRead},
})
q.templates = append(q.templates, template)
return template, nil
}
func (q *fakeQuerier) InsertTemplateVersion(_ context.Context, arg database.InsertTemplateVersionParams) (database.TemplateVersion, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
//nolint:gosimple
version := database.TemplateVersion{
ID: arg.ID,
TemplateID: arg.TemplateID,
OrganizationID: arg.OrganizationID,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
Name: arg.Name,
Readme: arg.Readme,
JobID: arg.JobID,
CreatedBy: arg.CreatedBy,
}
q.templateVersions = append(q.templateVersions, version)
return version, nil
}
func (q *fakeQuerier) InsertProvisionerJobLogs(_ context.Context, arg database.InsertProvisionerJobLogsParams) ([]database.ProvisionerJobLog, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
logs := make([]database.ProvisionerJobLog, 0)
for index, output := range arg.Output {
logs = append(logs, database.ProvisionerJobLog{
JobID: arg.JobID,
ID: arg.ID[index],
CreatedAt: arg.CreatedAt[index],
Source: arg.Source[index],
Level: arg.Level[index],
Stage: arg.Stage[index],
Output: output,
})
}
q.provisionerJobLogs = append(q.provisionerJobLogs, logs...)
return logs, nil
}
func (q *fakeQuerier) InsertParameterSchema(_ context.Context, arg database.InsertParameterSchemaParams) (database.ParameterSchema, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
//nolint:gosimple
param := database.ParameterSchema{
ID: arg.ID,
CreatedAt: arg.CreatedAt,
JobID: arg.JobID,
Name: arg.Name,
Description: arg.Description,
DefaultSourceScheme: arg.DefaultSourceScheme,
DefaultSourceValue: arg.DefaultSourceValue,
AllowOverrideSource: arg.AllowOverrideSource,
DefaultDestinationScheme: arg.DefaultDestinationScheme,
AllowOverrideDestination: arg.AllowOverrideDestination,
DefaultRefresh: arg.DefaultRefresh,
RedisplayValue: arg.RedisplayValue,
ValidationError: arg.ValidationError,
ValidationCondition: arg.ValidationCondition,
ValidationTypeSystem: arg.ValidationTypeSystem,
ValidationValueType: arg.ValidationValueType,
Index: arg.Index,
}
q.parameterSchemas = append(q.parameterSchemas, param)
return param, nil
}
func (q *fakeQuerier) InsertProvisionerDaemon(_ context.Context, arg database.InsertProvisionerDaemonParams) (database.ProvisionerDaemon, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
daemon := database.ProvisionerDaemon{
ID: arg.ID,
CreatedAt: arg.CreatedAt,
Name: arg.Name,
Provisioners: arg.Provisioners,
}
q.provisionerDaemons = append(q.provisionerDaemons, daemon)
return daemon, nil
}
func (q *fakeQuerier) InsertProvisionerJob(_ context.Context, arg database.InsertProvisionerJobParams) (database.ProvisionerJob, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
job := database.ProvisionerJob{
ID: arg.ID,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
OrganizationID: arg.OrganizationID,
InitiatorID: arg.InitiatorID,
Provisioner: arg.Provisioner,
StorageMethod: arg.StorageMethod,
FileID: arg.FileID,
Type: arg.Type,
Input: arg.Input,
}
q.provisionerJobs = append(q.provisionerJobs, job)
return job, nil
}
func (q *fakeQuerier) InsertWorkspaceAgent(_ context.Context, arg database.InsertWorkspaceAgentParams) (database.WorkspaceAgent, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
agent := database.WorkspaceAgent{
ID: arg.ID,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
ResourceID: arg.ResourceID,
AuthToken: arg.AuthToken,
AuthInstanceID: arg.AuthInstanceID,
EnvironmentVariables: arg.EnvironmentVariables,
Name: arg.Name,
Architecture: arg.Architecture,
OperatingSystem: arg.OperatingSystem,
Directory: arg.Directory,
StartupScript: arg.StartupScript,
InstanceMetadata: arg.InstanceMetadata,
ResourceMetadata: arg.ResourceMetadata,
}
q.provisionerJobAgents = append(q.provisionerJobAgents, agent)
return agent, nil
}
func (q *fakeQuerier) InsertWorkspaceResource(_ context.Context, arg database.InsertWorkspaceResourceParams) (database.WorkspaceResource, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
//nolint:gosimple
resource := database.WorkspaceResource{
ID: arg.ID,
CreatedAt: arg.CreatedAt,
JobID: arg.JobID,
Transition: arg.Transition,
Type: arg.Type,
Name: arg.Name,
Hide: arg.Hide,
Icon: arg.Icon,
}
q.provisionerJobResources = append(q.provisionerJobResources, resource)
return resource, nil
}
func (q *fakeQuerier) InsertWorkspaceResourceMetadata(_ context.Context, arg database.InsertWorkspaceResourceMetadataParams) (database.WorkspaceResourceMetadatum, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
//nolint:gosimple
metadatum := database.WorkspaceResourceMetadatum{
WorkspaceResourceID: arg.WorkspaceResourceID,
Key: arg.Key,
Value: arg.Value,
Sensitive: arg.Sensitive,
}
q.provisionerJobResourceMetadata = append(q.provisionerJobResourceMetadata, metadatum)
return metadatum, nil
}
func (q *fakeQuerier) InsertUser(_ context.Context, arg database.InsertUserParams) (database.User, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
user := database.User{
ID: arg.ID,
Email: arg.Email,
HashedPassword: arg.HashedPassword,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
Username: arg.Username,
Status: database.UserStatusActive,
RBACRoles: arg.RBACRoles,
LoginType: arg.LoginType,
}
q.users = append(q.users, user)
return user, nil
}
func (q *fakeQuerier) UpdateUserRoles(_ context.Context, arg database.UpdateUserRolesParams) (database.User, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, user := range q.users {
if user.ID != arg.ID {
continue
}
// Set new roles
user.RBACRoles = arg.GrantedRoles
// Remove duplicates and sort
uniqueRoles := make([]string, 0, len(user.RBACRoles))
exist := make(map[string]struct{})
for _, r := range user.RBACRoles {
if _, ok := exist[r]; ok {
continue
}
exist[r] = struct{}{}
uniqueRoles = append(uniqueRoles, r)
}
sort.Strings(uniqueRoles)
user.RBACRoles = uniqueRoles
q.users[index] = user
return user, nil
}
return database.User{}, sql.ErrNoRows
}
func (q *fakeQuerier) UpdateUserProfile(_ context.Context, arg database.UpdateUserProfileParams) (database.User, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, user := range q.users {
if user.ID != arg.ID {
continue
}
user.Email = arg.Email
user.Username = arg.Username
user.AvatarURL = arg.AvatarURL
q.users[index] = user
return user, nil
}
return database.User{}, sql.ErrNoRows
}
func (q *fakeQuerier) UpdateUserStatus(_ context.Context, arg database.UpdateUserStatusParams) (database.User, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, user := range q.users {
if user.ID != arg.ID {
continue
}
user.Status = arg.Status
user.UpdatedAt = arg.UpdatedAt
q.users[index] = user
return user, nil
}
return database.User{}, sql.ErrNoRows
}
func (q *fakeQuerier) UpdateUserLastSeenAt(_ context.Context, arg database.UpdateUserLastSeenAtParams) (database.User, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, user := range q.users {
if user.ID != arg.ID {
continue
}
user.LastSeenAt = arg.LastSeenAt
user.UpdatedAt = arg.UpdatedAt
q.users[index] = user
return user, nil
}
return database.User{}, sql.ErrNoRows
}
func (q *fakeQuerier) UpdateUserHashedPassword(_ context.Context, arg database.UpdateUserHashedPasswordParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for i, user := range q.users {
if user.ID != arg.ID {
continue
}
user.HashedPassword = arg.HashedPassword
q.users[i] = user
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) InsertWorkspace(_ context.Context, arg database.InsertWorkspaceParams) (database.Workspace, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
//nolint:gosimple
workspace := database.Workspace{
ID: arg.ID,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
OwnerID: arg.OwnerID,
OrganizationID: arg.OrganizationID,
TemplateID: arg.TemplateID,
Name: arg.Name,
AutostartSchedule: arg.AutostartSchedule,
Ttl: arg.Ttl,
}
q.workspaces = append(q.workspaces, workspace)
return workspace, nil
}
func (q *fakeQuerier) InsertWorkspaceBuild(_ context.Context, arg database.InsertWorkspaceBuildParams) (database.WorkspaceBuild, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
workspaceBuild := database.WorkspaceBuild{
ID: arg.ID,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
WorkspaceID: arg.WorkspaceID,
TemplateVersionID: arg.TemplateVersionID,
BuildNumber: arg.BuildNumber,
Transition: arg.Transition,
InitiatorID: arg.InitiatorID,
JobID: arg.JobID,
ProvisionerState: arg.ProvisionerState,
Deadline: arg.Deadline,
Reason: arg.Reason,
}
q.workspaceBuilds = append(q.workspaceBuilds, workspaceBuild)
return workspaceBuild, nil
}
func (q *fakeQuerier) InsertWorkspaceApp(_ context.Context, arg database.InsertWorkspaceAppParams) (database.WorkspaceApp, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
// nolint:gosimple
workspaceApp := database.WorkspaceApp{
ID: arg.ID,
AgentID: arg.AgentID,
CreatedAt: arg.CreatedAt,
Name: arg.Name,
Icon: arg.Icon,
Command: arg.Command,
Url: arg.Url,
Subdomain: arg.Subdomain,
HealthcheckUrl: arg.HealthcheckUrl,
HealthcheckInterval: arg.HealthcheckInterval,
HealthcheckThreshold: arg.HealthcheckThreshold,
Health: arg.Health,
}
q.workspaceApps = append(q.workspaceApps, workspaceApp)
return workspaceApp, nil
}
func (q *fakeQuerier) UpdateWorkspaceAppHealthByID(_ context.Context, arg database.UpdateWorkspaceAppHealthByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, app := range q.workspaceApps {
if app.ID != arg.ID {
continue
}
app.Health = arg.Health
q.workspaceApps[index] = app
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateAPIKeyByID(_ context.Context, arg database.UpdateAPIKeyByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, apiKey := range q.apiKeys {
if apiKey.ID != arg.ID {
continue
}
apiKey.LastUsed = arg.LastUsed
apiKey.ExpiresAt = arg.ExpiresAt
apiKey.IPAddress = arg.IPAddress
q.apiKeys[index] = apiKey
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateTemplateActiveVersionByID(_ context.Context, arg database.UpdateTemplateActiveVersionByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, template := range q.templates {
if template.ID != arg.ID {
continue
}
template.ActiveVersionID = arg.ActiveVersionID
template.UpdatedAt = arg.UpdatedAt
q.templates[index] = template
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateTemplateDeletedByID(_ context.Context, arg database.UpdateTemplateDeletedByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, template := range q.templates {
if template.ID != arg.ID {
continue
}
template.Deleted = arg.Deleted
template.UpdatedAt = arg.UpdatedAt
q.templates[index] = template
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateTemplateVersionByID(_ context.Context, arg database.UpdateTemplateVersionByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, templateVersion := range q.templateVersions {
if templateVersion.ID != arg.ID {
continue
}
templateVersion.TemplateID = arg.TemplateID
templateVersion.UpdatedAt = arg.UpdatedAt
q.templateVersions[index] = templateVersion
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateTemplateVersionDescriptionByJobID(_ context.Context, arg database.UpdateTemplateVersionDescriptionByJobIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, templateVersion := range q.templateVersions {
if templateVersion.JobID != arg.JobID {
continue
}
templateVersion.Readme = arg.Readme
templateVersion.UpdatedAt = arg.UpdatedAt
q.templateVersions[index] = templateVersion
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateProvisionerDaemonByID(_ context.Context, arg database.UpdateProvisionerDaemonByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, daemon := range q.provisionerDaemons {
if arg.ID != daemon.ID {
continue
}
daemon.UpdatedAt = arg.UpdatedAt
daemon.Provisioners = arg.Provisioners
q.provisionerDaemons[index] = daemon
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateWorkspaceAgentConnectionByID(_ context.Context, arg database.UpdateWorkspaceAgentConnectionByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, agent := range q.provisionerJobAgents {
if agent.ID != arg.ID {
continue
}
agent.FirstConnectedAt = arg.FirstConnectedAt
agent.LastConnectedAt = arg.LastConnectedAt
agent.DisconnectedAt = arg.DisconnectedAt
agent.UpdatedAt = arg.UpdatedAt
q.provisionerJobAgents[index] = agent
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateWorkspaceAgentVersionByID(_ context.Context, arg database.UpdateWorkspaceAgentVersionByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, agent := range q.provisionerJobAgents {
if agent.ID != arg.ID {
continue
}
agent.Version = arg.Version
q.provisionerJobAgents[index] = agent
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateProvisionerJobByID(_ context.Context, arg database.UpdateProvisionerJobByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, job := range q.provisionerJobs {
if arg.ID != job.ID {
continue
}
job.UpdatedAt = arg.UpdatedAt
q.provisionerJobs[index] = job
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateProvisionerJobWithCancelByID(_ context.Context, arg database.UpdateProvisionerJobWithCancelByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, job := range q.provisionerJobs {
if arg.ID != job.ID {
continue
}
job.CanceledAt = arg.CanceledAt
job.CompletedAt = arg.CompletedAt
q.provisionerJobs[index] = job
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateProvisionerJobWithCompleteByID(_ context.Context, arg database.UpdateProvisionerJobWithCompleteByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, job := range q.provisionerJobs {
if arg.ID != job.ID {
continue
}
job.UpdatedAt = arg.UpdatedAt
job.CompletedAt = arg.CompletedAt
job.Error = arg.Error
q.provisionerJobs[index] = job
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateWorkspace(_ context.Context, arg database.UpdateWorkspaceParams) (database.Workspace, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
for i, workspace := range q.workspaces {
if workspace.Deleted || workspace.ID != arg.ID {
continue
}
for _, other := range q.workspaces {
if other.Deleted || other.ID == workspace.ID || workspace.OwnerID != other.OwnerID {
continue
}
if other.Name == arg.Name {
return database.Workspace{}, errDuplicateKey
}
}
workspace.Name = arg.Name
q.workspaces[i] = workspace
return workspace, nil
}
return database.Workspace{}, sql.ErrNoRows
}
func (q *fakeQuerier) UpdateWorkspaceAutostart(_ context.Context, arg database.UpdateWorkspaceAutostartParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, workspace := range q.workspaces {
if workspace.ID != arg.ID {
continue
}
workspace.AutostartSchedule = arg.AutostartSchedule
q.workspaces[index] = workspace
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateWorkspaceTTL(_ context.Context, arg database.UpdateWorkspaceTTLParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, workspace := range q.workspaces {
if workspace.ID != arg.ID {
continue
}
workspace.Ttl = arg.Ttl
q.workspaces[index] = workspace
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateWorkspaceLastUsedAt(_ context.Context, arg database.UpdateWorkspaceLastUsedAtParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, workspace := range q.workspaces {
if workspace.ID != arg.ID {
continue
}
workspace.LastUsedAt = arg.LastUsedAt
q.workspaces[index] = workspace
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateWorkspaceBuildByID(_ context.Context, arg database.UpdateWorkspaceBuildByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, workspaceBuild := range q.workspaceBuilds {
if workspaceBuild.ID != arg.ID {
continue
}
workspaceBuild.UpdatedAt = arg.UpdatedAt
workspaceBuild.ProvisionerState = arg.ProvisionerState
workspaceBuild.Deadline = arg.Deadline
q.workspaceBuilds[index] = workspaceBuild
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) UpdateWorkspaceDeletedByID(_ context.Context, arg database.UpdateWorkspaceDeletedByIDParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, workspace := range q.workspaces {
if workspace.ID != arg.ID {
continue
}
workspace.Deleted = arg.Deleted
q.workspaces[index] = workspace
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) InsertGitSSHKey(_ context.Context, arg database.InsertGitSSHKeyParams) (database.GitSSHKey, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
//nolint:gosimple
gitSSHKey := database.GitSSHKey{
UserID: arg.UserID,
CreatedAt: arg.CreatedAt,
UpdatedAt: arg.UpdatedAt,
PrivateKey: arg.PrivateKey,
PublicKey: arg.PublicKey,
}
q.gitSSHKey = append(q.gitSSHKey, gitSSHKey)
return gitSSHKey, nil
}
func (q *fakeQuerier) GetGitSSHKey(_ context.Context, userID uuid.UUID) (database.GitSSHKey, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, key := range q.gitSSHKey {
if key.UserID == userID {
return key, nil
}
}
return database.GitSSHKey{}, sql.ErrNoRows
}
func (q *fakeQuerier) UpdateGitSSHKey(_ context.Context, arg database.UpdateGitSSHKeyParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, key := range q.gitSSHKey {
if key.UserID != arg.UserID {
continue
}
key.UpdatedAt = arg.UpdatedAt
key.PrivateKey = arg.PrivateKey
key.PublicKey = arg.PublicKey
q.gitSSHKey[index] = key
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) InsertGroupMember(_ context.Context, arg database.InsertGroupMemberParams) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for _, member := range q.groupMembers {
if member.GroupID == arg.GroupID &&
member.UserID == arg.UserID {
return errDuplicateKey
}
}
//nolint:gosimple
q.groupMembers = append(q.groupMembers, database.GroupMember{
GroupID: arg.GroupID,
UserID: arg.UserID,
})
return nil
}
func (q *fakeQuerier) DeleteGroupMember(_ context.Context, userID uuid.UUID) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for i, member := range q.groupMembers {
if member.UserID == userID {
q.groupMembers = append(q.groupMembers[:i], q.groupMembers[i+1:]...)
}
}
return nil
}
func (q *fakeQuerier) UpdateGroupByID(_ context.Context, arg database.UpdateGroupByIDParams) (database.Group, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
for i, group := range q.groups {
if group.ID == arg.ID {
group.Name = arg.Name
q.groups[i] = group
return group, nil
}
}
return database.Group{}, sql.ErrNoRows
}
func (q *fakeQuerier) DeleteGitSSHKey(_ context.Context, userID uuid.UUID) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, key := range q.gitSSHKey {
if key.UserID != userID {
continue
}
q.gitSSHKey[index] = q.gitSSHKey[len(q.gitSSHKey)-1]
q.gitSSHKey = q.gitSSHKey[:len(q.gitSSHKey)-1]
return nil
}
return sql.ErrNoRows
}
func (q *fakeQuerier) GetAuditLogsOffset(ctx context.Context, arg database.GetAuditLogsOffsetParams) ([]database.GetAuditLogsOffsetRow, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
logs := make([]database.GetAuditLogsOffsetRow, 0, arg.Limit)
// q.auditLogs are already sorted by time DESC, so no need to sort after the fact.
for _, alog := range q.auditLogs {
if arg.Offset > 0 {
arg.Offset--
continue
}
if arg.Action != "" && !strings.Contains(string(alog.Action), arg.Action) {
continue
}
if arg.ResourceType != "" && !strings.Contains(string(alog.ResourceType), arg.ResourceType) {
continue
}
if arg.ResourceID != uuid.Nil && alog.ResourceID != arg.ResourceID {
continue
}
if arg.Username != "" {
user, err := q.GetUserByID(context.Background(), alog.UserID)
if err == nil && !strings.EqualFold(arg.Username, user.Username) {
continue
}
}
if arg.Email != "" {
user, err := q.GetUserByID(context.Background(), alog.UserID)
if err == nil && !strings.EqualFold(arg.Email, user.Email) {
continue
}
}
user, err := q.GetUserByID(ctx, alog.UserID)
userValid := err == nil
logs = append(logs, database.GetAuditLogsOffsetRow{
ID: alog.ID,
RequestID: alog.RequestID,
OrganizationID: alog.OrganizationID,
Ip: alog.Ip,
UserAgent: alog.UserAgent,
ResourceType: alog.ResourceType,
ResourceID: alog.ResourceID,
ResourceTarget: alog.ResourceTarget,
ResourceIcon: alog.ResourceIcon,
Action: alog.Action,
Diff: alog.Diff,
StatusCode: alog.StatusCode,
AdditionalFields: alog.AdditionalFields,
UserID: alog.UserID,
UserUsername: sql.NullString{String: user.Username, Valid: userValid},
UserEmail: sql.NullString{String: user.Email, Valid: userValid},
UserCreatedAt: sql.NullTime{Time: user.CreatedAt, Valid: userValid},
UserStatus: user.Status,
UserRoles: user.RBACRoles,
})
if len(logs) >= int(arg.Limit) {
break
}
}
return logs, nil
}
func (q *fakeQuerier) GetAuditLogCount(_ context.Context, arg database.GetAuditLogCountParams) (int64, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
logs := make([]database.AuditLog, 0)
for _, alog := range q.auditLogs {
if arg.Action != "" && !strings.Contains(string(alog.Action), arg.Action) {
continue
}
if arg.ResourceType != "" && !strings.Contains(string(alog.ResourceType), arg.ResourceType) {
continue
}
if arg.ResourceID != uuid.Nil && alog.ResourceID != arg.ResourceID {
continue
}
if arg.Username != "" {
user, err := q.GetUserByID(context.Background(), alog.UserID)
if err == nil && !strings.EqualFold(arg.Username, user.Username) {
continue
}
}
if arg.Email != "" {
user, err := q.GetUserByID(context.Background(), alog.UserID)
if err == nil && !strings.EqualFold(arg.Email, user.Email) {
continue
}
}
logs = append(logs, alog)
}
return int64(len(logs)), nil
}
func (q *fakeQuerier) InsertAuditLog(_ context.Context, arg database.InsertAuditLogParams) (database.AuditLog, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
alog := database.AuditLog(arg)
q.auditLogs = append(q.auditLogs, alog)
slices.SortFunc(q.auditLogs, func(a, b database.AuditLog) bool {
return a.Time.Before(b.Time)
})
return alog, nil
}
func (q *fakeQuerier) InsertDeploymentID(_ context.Context, id string) error {
q.mutex.Lock()
defer q.mutex.Unlock()
q.deploymentID = id
return nil
}
func (q *fakeQuerier) GetDeploymentID(_ context.Context) (string, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
return q.deploymentID, nil
}
func (q *fakeQuerier) InsertLicense(
_ context.Context, arg database.InsertLicenseParams,
) (database.License, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
l := database.License{
ID: q.lastLicenseID + 1,
UploadedAt: arg.UploadedAt,
JWT: arg.JWT,
Exp: arg.Exp,
}
q.lastLicenseID = l.ID
q.licenses = append(q.licenses, l)
return l, nil
}
func (q *fakeQuerier) GetLicenses(_ context.Context) ([]database.License, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
results := append([]database.License{}, q.licenses...)
sort.Slice(results, func(i, j int) bool { return results[i].ID < results[j].ID })
return results, nil
}
func (q *fakeQuerier) GetUnexpiredLicenses(_ context.Context) ([]database.License, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
now := time.Now()
var results []database.License
for _, l := range q.licenses {
if l.Exp.After(now) {
results = append(results, l)
}
}
sort.Slice(results, func(i, j int) bool { return results[i].ID < results[j].ID })
return results, nil
}
func (q *fakeQuerier) DeleteLicense(_ context.Context, id int32) (int32, error) {
q.mutex.Lock()
defer q.mutex.Unlock()
for index, l := range q.licenses {
if l.ID == id {
q.licenses[index] = q.licenses[len(q.licenses)-1]
q.licenses = q.licenses[:len(q.licenses)-1]
return id, nil
}
}
return 0, sql.ErrNoRows
}
func (q *fakeQuerier) GetUserLinkByLinkedID(_ context.Context, id string) (database.UserLink, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, link := range q.userLinks {
if link.LinkedID == id {
return link, nil
}
}
return database.UserLink{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetUserLinkByUserIDLoginType(_ context.Context, params database.GetUserLinkByUserIDLoginTypeParams) (database.UserLink, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, link := range q.userLinks {
if link.UserID == params.UserID && link.LoginType == params.LoginType {
return link, nil
}
}
return database.UserLink{}, sql.ErrNoRows
}
func (q *fakeQuerier) InsertUserLink(_ context.Context, args database.InsertUserLinkParams) (database.UserLink, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
//nolint:gosimple
link := database.UserLink{
UserID: args.UserID,
LoginType: args.LoginType,
LinkedID: args.LinkedID,
OAuthAccessToken: args.OAuthAccessToken,
OAuthRefreshToken: args.OAuthRefreshToken,
OAuthExpiry: args.OAuthExpiry,
}
q.userLinks = append(q.userLinks, link)
return link, nil
}
func (q *fakeQuerier) UpdateUserLinkedID(_ context.Context, params database.UpdateUserLinkedIDParams) (database.UserLink, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for i, link := range q.userLinks {
if link.UserID == params.UserID && link.LoginType == params.LoginType {
link.LinkedID = params.LinkedID
q.userLinks[i] = link
return link, nil
}
}
return database.UserLink{}, sql.ErrNoRows
}
func (q *fakeQuerier) UpdateUserLink(_ context.Context, params database.UpdateUserLinkParams) (database.UserLink, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for i, link := range q.userLinks {
if link.UserID == params.UserID && link.LoginType == params.LoginType {
link.OAuthAccessToken = params.OAuthAccessToken
link.OAuthRefreshToken = params.OAuthRefreshToken
link.OAuthExpiry = params.OAuthExpiry
q.userLinks[i] = link
return link, nil
}
}
return database.UserLink{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetGroupByID(_ context.Context, id uuid.UUID) (database.Group, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, group := range q.groups {
if group.ID == id {
return group, nil
}
}
return database.Group{}, sql.ErrNoRows
}
func (q *fakeQuerier) GetGroupByOrgAndName(_ context.Context, arg database.GetGroupByOrgAndNameParams) (database.Group, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, group := range q.groups {
if group.OrganizationID == arg.OrganizationID &&
group.Name == arg.Name {
return group, nil
}
}
return database.Group{}, sql.ErrNoRows
}
func (q *fakeQuerier) InsertAllUsersGroup(ctx context.Context, orgID uuid.UUID) (database.Group, error) {
return q.InsertGroup(ctx, database.InsertGroupParams{
ID: orgID,
Name: database.AllUsersGroup,
OrganizationID: orgID,
})
}
func (q *fakeQuerier) InsertGroup(_ context.Context, arg database.InsertGroupParams) (database.Group, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
for _, group := range q.groups {
if group.OrganizationID == arg.OrganizationID &&
group.Name == arg.Name {
return database.Group{}, errDuplicateKey
}
}
//nolint:gosimple
group := database.Group{
ID: arg.ID,
Name: arg.Name,
OrganizationID: arg.OrganizationID,
}
q.groups = append(q.groups, group)
return group, nil
}
func (*fakeQuerier) GetUserGroups(_ context.Context, _ uuid.UUID) ([]database.Group, error) {
panic("not implemented")
}
func (q *fakeQuerier) GetGroupMembers(_ context.Context, groupID uuid.UUID) ([]database.User, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var members []database.GroupMember
for _, member := range q.groupMembers {
if member.GroupID == groupID {
members = append(members, member)
}
}
users := make([]database.User, 0, len(members))
for _, member := range members {
for _, user := range q.users {
if user.ID == member.UserID && user.Status == database.UserStatusActive && !user.Deleted {
users = append(users, user)
break
}
}
}
return users, nil
}
func (q *fakeQuerier) GetGroupsByOrganizationID(_ context.Context, organizationID uuid.UUID) ([]database.Group, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var groups []database.Group
for _, group := range q.groups {
// Omit the allUsers group.
if group.OrganizationID == organizationID && group.ID != organizationID {
groups = append(groups, group)
}
}
return groups, nil
}
func (q *fakeQuerier) GetAllOrganizationMembers(_ context.Context, organizationID uuid.UUID) ([]database.User, error) {
q.mutex.RLock()
defer q.mutex.RUnlock()
var users []database.User
for _, member := range q.organizationMembers {
if member.OrganizationID == organizationID {
for _, user := range q.users {
if user.ID == member.UserID {
users = append(users, user)
}
}
}
}
return users, nil
}
func (q *fakeQuerier) DeleteGroupByID(_ context.Context, id uuid.UUID) error {
q.mutex.Lock()
defer q.mutex.Unlock()
for i, group := range q.groups {
if group.ID == id {
q.groups = append(q.groups[:i], q.groups[i+1:]...)
return nil
}
}
return sql.ErrNoRows
}
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