open-nomad/nomad/job_endpoint_hook_expose_check.go
2022-04-01 19:24:02 -05:00

243 lines
8.2 KiB
Go

package nomad
import (
"fmt"
"strconv"
"strings"
"github.com/hashicorp/nomad/nomad/structs"
)
type jobExposeCheckHook struct{}
func (jobExposeCheckHook) Name() string {
return "expose-check"
}
// Mutate will scan every task group for group-services which have checks defined
// that have the Expose field configured, and generate expose path configurations
// extrapolated from those check definitions.
func (jobExposeCheckHook) Mutate(job *structs.Job) (_ *structs.Job, warnings []error, err error) {
for _, tg := range job.TaskGroups {
for _, s := range tg.Services {
for i, c := range s.Checks {
if c.Expose {
// TG isn't validated yet, but validation
// may depend on mutation results.
// Do basic validation here and skip mutation,
// so Validate can return a meaningful error
// messages
if !s.Connect.HasSidecar() {
continue
}
if exposePath, err := exposePathForCheck(tg, s, c, i); err != nil {
return nil, nil, err
} else if exposePath != nil {
serviceExposeConfig := serviceExposeConfig(s)
// insert only if not already present - required for job
// updates which would otherwise create duplicates
if !containsExposePath(serviceExposeConfig.Paths, *exposePath) {
serviceExposeConfig.Paths = append(
serviceExposeConfig.Paths, *exposePath,
)
}
}
}
}
}
}
return job, nil, nil
}
// Validate will ensure:
// - The job contains valid network configuration for each task group in which
// an expose path is configured. The network must be of type bridge mode.
// - The check Expose field is configured only for connect-enabled group-services.
func (jobExposeCheckHook) Validate(job *structs.Job) (warnings []error, err error) {
for _, tg := range job.TaskGroups {
// Make sure any group that contains a group-service that enables expose
// is configured with one network that is in "bridge" mode. This check
// is being done independently of the preceding Connect task injection
// hook, because at some point in the future Connect will not require the
// use of network namespaces, whereas the use of "expose" does not make
// sense without the use of network namespace.
if err := tgValidateUseOfBridgeMode(tg); err != nil {
return nil, err
}
// Make sure any group-service that contains a check that enables expose
// is connect-enabled and does not specify a custom sidecar task. We only
// support the expose feature when using the built-in Envoy integration.
if err := tgValidateUseOfCheckExpose(tg); err != nil {
return nil, err
}
}
return nil, nil
}
// serviceExposeConfig digs through s to extract the connect sidecar service proxy
// expose configuration. It is not required of the user to provide this, so it
// is created on demand here as needed in the case where any service check exposes
// itself.
//
// The service, connect, and sidecar_service are assumed not to be nil, as they
// are enforced in previous hooks / validation.
func serviceExposeConfig(s *structs.Service) *structs.ConsulExposeConfig {
if s.Connect.SidecarService.Proxy == nil {
s.Connect.SidecarService.Proxy = new(structs.ConsulProxy)
}
if s.Connect.SidecarService.Proxy.Expose == nil {
s.Connect.SidecarService.Proxy.Expose = new(structs.ConsulExposeConfig)
}
return s.Connect.SidecarService.Proxy.Expose
}
// containsExposePath returns true if path is contained in paths.
func containsExposePath(paths []structs.ConsulExposePath, path structs.ConsulExposePath) bool {
for _, p := range paths {
if p == path {
return true
}
}
return false
}
// tgValidateUseOfCheckExpose ensures that any service check in tg making use
// of the expose field is within an appropriate context to do so. The check must
// be a group level check, and must use the builtin envoy proxy.
func tgValidateUseOfCheckExpose(tg *structs.TaskGroup) error {
// validation for group services (which must use built-in connect proxy)
for _, s := range tg.Services {
for _, check := range s.Checks {
if check.Expose && !s.Connect.HasSidecar() {
return fmt.Errorf(
"exposed service check %s->%s->%s requires use of sidecar_proxy",
tg.Name, s.Name, check.Name,
)
}
}
}
// validation for task services (which must not be configured to use Expose)
for _, t := range tg.Tasks {
for _, s := range t.Services {
for _, check := range s.Checks {
if check.Expose {
return fmt.Errorf(
"exposed service check %s[%s]->%s->%s is not a task-group service",
tg.Name, t.Name, s.Name, check.Name,
)
}
}
}
}
return nil
}
// tgValidateUseOfBridgeMode ensures there is exactly 1 network configured for
// the task group, and that it makes use of "bridge" mode (i.e. enables network
// namespaces).
func tgValidateUseOfBridgeMode(tg *structs.TaskGroup) error {
if tgUsesExposeCheck(tg) {
if len(tg.Networks) != 1 {
return fmt.Errorf("group %q must specify one bridge network for exposing service check(s)", tg.Name)
}
if tg.Networks[0].Mode != "bridge" {
return fmt.Errorf("group %q must use bridge network for exposing service check(s)", tg.Name)
}
}
return nil
}
// tgUsesExposeCheck returns true if any group service in the task group makes
// use of the expose field.
func tgUsesExposeCheck(tg *structs.TaskGroup) bool {
for _, s := range tg.Services {
for _, check := range s.Checks {
if check.Expose {
return true
}
}
}
return false
}
// checkIsExposable returns true if check is qualified for automatic generation
// of connect proxy expose path configuration based on configured consul checks.
// To qualify, the check must be of type "http" or "grpc", and must have a Path
// configured.
func checkIsExposable(check *structs.ServiceCheck) bool {
switch strings.ToLower(check.Type) {
case "grpc", "http":
return strings.HasPrefix(check.Path, "/")
default:
return false
}
}
// exposePathForCheck extrapolates the necessary expose path configuration for
// the given consul service check. If the check is not compatible, nil is
// returned.
func exposePathForCheck(tg *structs.TaskGroup, s *structs.Service, check *structs.ServiceCheck, i int) (*structs.ConsulExposePath, error) {
if !checkIsExposable(check) {
return nil, nil
}
// Borrow some of the validation before we start manipulating the group
// network, which needs to exist once.
if err := tgValidateUseOfBridgeMode(tg); err != nil {
return nil, err
}
// If the check is exposable but doesn't have a port label set build
// a port with a generated label, add it to the group's Dynamic ports
// and set the check port label to the generated label.
//
// This lets PortLabel be optional for any exposed check.
if check.PortLabel == "" {
// Note: because the check label is not set yet, and we want to create a
// deterministic label based on the check itself, use the index of the check
// on the service as part of the service name as input into Hash, ensuring
// the hash for the check is unique.
suffix := check.Hash(fmt.Sprintf("%s_%d", s.Name, i))[:6]
port := structs.Port{
HostNetwork: "default",
Label: fmt.Sprintf("svc_%s_ck_%s", s.Name, suffix),
To: -1,
}
tg.Networks[0].DynamicPorts = append(tg.Networks[0].DynamicPorts, port)
check.PortLabel = port.Label
}
// Determine the local service port (i.e. what port the service is actually
// listening to inside the network namespace).
//
// Similar logic exists in getAddress of client.go which is used for
// creating check & service registration objects.
//
// The difference here is the address is predestined to be localhost since
// it is binding inside the namespace.
var port int
if mapping := tg.Networks.Port(s.PortLabel); mapping.Value <= 0 { // try looking up by port label
if port, _ = strconv.Atoi(s.PortLabel); port <= 0 { // then try direct port value
return nil, fmt.Errorf(
"unable to determine local service port for service check %s->%s->%s",
tg.Name, s.Name, check.Name,
)
}
} else {
port = mapping.Value
}
// The Path, Protocol, and PortLabel are just copied over from the service
// check definition.
return &structs.ConsulExposePath{
Path: check.Path,
Protocol: check.Protocol,
LocalPathPort: port,
ListenerPort: check.PortLabel,
}, nil
}