// NewProvisionerAPI creates a new server-side ProvisionerAPI facade.
func NewProvisionerAPI(
st *state.State,
resources *common.Resources,
authorizer common.Authorizer,
) (*ProvisionerAPI, error) {
if !authorizer.AuthMachineAgent() && !authorizer.AuthEnvironManager() {
return nil, common.ErrPerm
}
getAuthFunc := func() (common.AuthFunc, error) {
isEnvironManager := authorizer.AuthEnvironManager()
isMachineAgent := authorizer.AuthMachineAgent()
authEntityTag := authorizer.GetAuthTag()
return func(tag string) bool {
if isMachineAgent && tag == authEntityTag {
// A machine agent can always access its own machine.
return true
}
t, err := names.ParseTag(tag, names.MachineTagKind)
if err != nil {
return false
}
parentId := state.ParentId(t.Id())
if parentId == "" {
// All top-level machines are accessible by the
// environment manager.
return isEnvironManager
}
// All containers with the authenticated machine as a
// parent are accessible by it.
return isMachineAgent && names.NewMachineTag(parentId).String() == authEntityTag
}, nil
}
// Both provisioner types can watch the environment.
getCanWatch := common.AuthAlways(true)
// Only the environment provisioner can read secrets.
getCanReadSecrets := common.AuthAlways(authorizer.AuthEnvironManager())
return &ProvisionerAPI{
Remover: common.NewRemover(st, false, getAuthFunc),
StatusSetter: common.NewStatusSetter(st, getAuthFunc),
DeadEnsurer: common.NewDeadEnsurer(st, getAuthFunc),
PasswordChanger: common.NewPasswordChanger(st, getAuthFunc),
LifeGetter: common.NewLifeGetter(st, getAuthFunc),
StateAddresser: common.NewStateAddresser(st),
APIAddresser: common.NewAPIAddresser(st, resources),
ToolsGetter: common.NewToolsGetter(st, getAuthFunc),
EnvironWatcher: common.NewEnvironWatcher(st, resources, getCanWatch, getCanReadSecrets),
EnvironMachinesWatcher: common.NewEnvironMachinesWatcher(st, resources, getCanReadSecrets),
InstanceIdGetter: common.NewInstanceIdGetter(st, getAuthFunc),
st: st,
resources: resources,
authorizer: authorizer,
getAuthFunc: getAuthFunc,
getCanWatchMachines: getCanReadSecrets,
}, nil
}
// NewLoggerAPI creates a new server-side logger API end point.
func NewLoggerAPI(
st *state.State,
resources *common.Resources,
authorizer common.Authorizer,
) (*LoggerAPI, error) {
if !authorizer.AuthMachineAgent() && !authorizer.AuthUnitAgent() {
return nil, common.ErrPerm
}
return &LoggerAPI{state: st, resources: resources, authorizer: authorizer}, nil
}
// NewCharmRevisionUpdaterAPI creates a new server-side charmrevisionupdater API end point.
func NewCharmRevisionUpdaterAPI(
st *state.State,
resources *common.Resources,
authorizer common.Authorizer,
) (*CharmRevisionUpdaterAPI, error) {
if !authorizer.AuthMachineAgent() && !authorizer.AuthEnvironManager() {
return nil, common.ErrPerm
}
return &CharmRevisionUpdaterAPI{
state: st, resources: resources, authorizer: authorizer}, nil
}
// NewAPI returns an object implementing an agent API
// with the given authorizer representing the currently logged in client.
func NewAPI(st *state.State, resources *common.Resources, auth common.Authorizer) (*API, error) {
// Agents are defined to be any user that's not a client user.
if !auth.AuthMachineAgent() && !auth.AuthUnitAgent() {
return nil, common.ErrPerm
}
getCanChange := func() (common.AuthFunc, error) {
return auth.AuthOwner, nil
}
return &API{
PasswordChanger: common.NewPasswordChanger(st, getCanChange),
st: st,
auth: auth,
}, nil
}
// NewKeyUpdaterAPI creates a new server-side keyupdater API end point.
func NewKeyUpdaterAPI(
st *state.State,
resources *common.Resources,
authorizer common.Authorizer,
) (*KeyUpdaterAPI, error) {
// Only machine agents have access to the keyupdater service.
if !authorizer.AuthMachineAgent() {
return nil, common.ErrPerm
}
// No-one else except the machine itself can only read a machine's own credentials.
getCanRead := func() (common.AuthFunc, error) {
return authorizer.AuthOwner, nil
}
return &KeyUpdaterAPI{state: st, resources: resources, authorizer: authorizer, getCanRead: getCanRead}, nil
}
// NewRsyslogAPI creates a new instance of the Rsyslog API.
func NewRsyslogAPI(st *state.State, resources *common.Resources, authorizer common.Authorizer) (*RsyslogAPI, error) {
if !authorizer.AuthMachineAgent() && !authorizer.AuthUnitAgent() {
return nil, common.ErrPerm
}
// Can always watch for environ changes.
getCanWatch := common.AuthAlways(true)
// Does not get the secrets.
getCanReadSecrets := common.AuthAlways(false)
return &RsyslogAPI{
EnvironWatcher: common.NewEnvironWatcher(st, resources, getCanWatch, getCanReadSecrets),
st: st,
authorizer: authorizer,
resources: resources,
canModify: authorizer.AuthEnvironManager(),
StateAddresser: common.NewStateAddresser(st),
}, nil
}
// NewNetworkerAPI creates a new client-side Networker API facade.
func NewNetworkerAPI(
st *state.State,
resources *common.Resources,
authorizer common.Authorizer,
) (*NetworkerAPI, error) {
if !authorizer.AuthMachineAgent() {
return nil, common.ErrPerm
}
getAuthFunc := func() (common.AuthFunc, error) {
authEntityTag := authorizer.GetAuthTag().String()
return func(tag string) bool {
if tag == authEntityTag {
// A machine agent can always access its own machine.
return true
}
t, err := names.ParseMachineTag(tag)
if err != nil {
// Only machine tags are allowed.
return false
}
id := t.Id()
for parentId := state.ParentId(id); parentId != ""; parentId = state.ParentId(parentId) {
// Until a top-level machine is reached.
// TODO(dfc) comparing the two interfaces caused a compiler crash with
// gcc version 4.9.0 (Ubuntu 4.9.0-7ubuntu1). Work around the issue
// by comparing by string value.
if names.NewMachineTag(parentId).String() == authEntityTag {
// All containers with the authenticated machine as a
// parent are accessible by it.
return true
}
}
// Not found authorized machine agent among ancestors of the current one.
return false
}, nil
}
return &NetworkerAPI{
st: st,
resources: resources,
authorizer: authorizer,
getAuthFunc: getAuthFunc,
}, nil
}
// NewUpgraderAPI creates a new client-side UpgraderAPI facade.
func NewUpgraderAPI(
st *state.State,
resources *common.Resources,
authorizer common.Authorizer,
) (*UpgraderAPI, error) {
if !authorizer.AuthMachineAgent() {
return nil, common.ErrPerm
}
getCanReadWrite := func() (common.AuthFunc, error) {
return authorizer.AuthOwner, nil
}
return &UpgraderAPI{
ToolsGetter: common.NewToolsGetter(st, getCanReadWrite),
ToolsSetter: common.NewToolsSetter(st, getCanReadWrite),
st: st,
resources: resources,
authorizer: authorizer,
}, nil
}
// NewNetworkerAPI creates a new client-side Networker API facade.
func NewNetworkerAPI(
st *state.State,
_ *common.Resources,
authorizer common.Authorizer,
) (*NetworkerAPI, error) {
if !authorizer.AuthMachineAgent() {
return nil, common.ErrPerm
}
getAuthFunc := func() (common.AuthFunc, error) {
authEntityTag := authorizer.GetAuthTag()
return func(tag string) bool {
if tag == authEntityTag {
// A machine agent can always access its own machine.
return true
}
t, err := names.ParseTag(tag, names.MachineTagKind)
if err != nil {
// Only machine tags are allowed.
return false
}
id := t.Id()
for parentId := state.ParentId(id); parentId != ""; parentId = state.ParentId(parentId) {
// Until a top-level machine is reached.
if names.NewMachineTag(parentId).String() == authEntityTag {
// All containers with the authenticated machine as a
// parent are accessible by it.
return true
}
}
// Not found authorized machine agent among ancestors of the current one.
return false
}, nil
}
return &NetworkerAPI{
st: st,
authorizer: authorizer,
getAuthFunc: getAuthFunc,
}, nil
}
// NewMachinerAPI creates a new instance of the Machiner API.
func NewMachinerAPI(st *state.State, resources *common.Resources, authorizer common.Authorizer) (*MachinerAPI, error) {
if !authorizer.AuthMachineAgent() {
return nil, common.ErrPerm
}
getCanModify := func() (common.AuthFunc, error) {
return authorizer.AuthOwner, nil
}
getCanRead := func() (common.AuthFunc, error) {
return authorizer.AuthOwner, nil
}
return &MachinerAPI{
LifeGetter: common.NewLifeGetter(st, getCanRead),
StatusSetter: common.NewStatusSetter(st, getCanModify),
DeadEnsurer: common.NewDeadEnsurer(st, getCanModify),
AgentEntityWatcher: common.NewAgentEntityWatcher(st, resources, getCanRead),
APIAddresser: common.NewAPIAddresser(st, resources),
st: st,
auth: authorizer,
getCanModify: getCanModify,
}, nil
}
// NewDeployerAPI creates a new server-side DeployerAPI facade.
func NewDeployerAPI(
st *state.State,
resources *common.Resources,
authorizer common.Authorizer,
) (*DeployerAPI, error) {
if !authorizer.AuthMachineAgent() {
return nil, common.ErrPerm
}
getAuthFunc := func() (common.AuthFunc, error) {
// Get all units of the machine and cache them.
thisMachineTag := authorizer.GetAuthTag()
units, err := getAllUnits(st, thisMachineTag)
if err != nil {
return nil, err
}
// Then we just check if the unit is already known.
return func(tag string) bool {
for _, unit := range units {
if names.NewUnitTag(unit).String() == tag {
return true
}
}
return false
}, nil
}
getCanWatch := func() (common.AuthFunc, error) {
return authorizer.AuthOwner, nil
}
return &DeployerAPI{
Remover: common.NewRemover(st, true, getAuthFunc),
PasswordChanger: common.NewPasswordChanger(st, getAuthFunc),
LifeGetter: common.NewLifeGetter(st, getAuthFunc),
StateAddresser: common.NewStateAddresser(st),
APIAddresser: common.NewAPIAddresser(st, resources),
UnitsWatcher: common.NewUnitsWatcher(st, resources, getCanWatch),
st: st,
resources: resources,
authorizer: authorizer,
}, nil
}
func isAgent(auth common.Authorizer) bool {
return auth.AuthMachineAgent() || auth.AuthUnitAgent()
}