4594d58ba8
Fixes #11190, delete all of non-referenced blobs of each project in GC job, thun the quota can be released. Signed-off-by: wang yan <wangyan@vmware.com> |
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.. | ||
api | ||
common | ||
config | ||
core | ||
env | ||
errs | ||
hook | ||
job | ||
lcm | ||
logger | ||
mgt | ||
migration | ||
period | ||
runner | ||
runtime | ||
tests | ||
worker | ||
ca.crt | ||
config_test.yml | ||
config.yml | ||
generateCerts.sh | ||
main.go | ||
README.md | ||
server.crt | ||
server.key |
Job Service
Job service is designed to handle and process the asynchronous background jobs with an easy way. It is built on top of gocraft/work job queue framework with supporting
- Fast and efficient.
- Reliable - don't lose jobs even if your process crashes.
- If a job fails, it will be retried a specified number of times.
- Schedule jobs to happen in the future.
- Enqueue unique jobs so that only one job with a given name/arguments exists in the queue at once.
- Periodically enqueue jobs on a cron-like schedule.
and the following additional capabilities:
- Rest API.
- Execution context.
- More job status:
error
,success
,stopped
,cancelled
andscheduled
. - More controllable actions:
stop
andcancel
. - Enhanced periodical jobs.
- Status web hook.
Use cases
With job service, you can:
- Submit a
Generic
job which will be executed immediately if worker resource is available and can be only execute once. - Submit a
Scheduled
job which will be executed after a specified delay. - Submit a
Periodic
job which will be repeatedly executed with specified interval. - Submit job with
unique
flag to make sure no duplicated jobs are executing at the same time. - Stop a specified job.
- Cancel a specified job.
- Retry a specified job (This should be a failed job and match the retrying criteria).
- Get stats of specified job (no list jobs function).
- Get execution log of specified job (It depends on the logger implementation).
- Check the health status of job service.(No authentication required, it can be used as health check endpoint)
Architecture
The overall architecture of the job service is shown in the below graph:
Components:
- API Server: A go lightweight restful API server to serve the related restful requests.
- Configuration Manager: Responsible for handing the configurations used in job services. Two sources supported: yaml file and env variables.
- Bootstrap: Take the responsibilities to initialize related context and start API server and worker pool. The main start point of job service.
- Controller: The core of job service. Responsible for coordinating the whole flow of job service.
- Job Launcher : Launch the jobs except
Periodic
ones. - Scheduler: Schedules the
Periodic
jobs. - Logger: A flexible logger framework. It will catch and write the job execution logs to the configured backends.
- Stats Manager: Maintains the status and stats of jobs as well as status hooks.
- Data Backend: Define storage methods to store the additional info.
- Pool Driver: A interface layer to broke the functions of upstream job queue framework to upper layers.
- Persistent driver: So far, only support
redis
.
Currently, the worker (compute node) and controller (control plane) are packaged in one process. To achieve scalability and HA functionality, multiple nodes can be deployed under a LB layer.
As described in above graph, the controller and work pool which are located in different nodes can also talk to each other via a virtual channel - the backend persistent driver. That means the job enqueued by a controller may be selected by other worker pool which is located in another node.
Programming Model
To let the job service recognize the job, the implementation of job should follow the programming model.
Job Interface
A valid job must implement the job interface. For the details of each method defined in the job interface, you can refer the comments attached with the method.
// Interface defines the related injection and run entry methods.
type Interface interface {
// Declare how many times the job can be retried if failed.
//
// Return:
// uint: the failure count allowed. If it is set to 0, then default value 4 is used.
MaxFails() uint
// Tell the worker pool if retry the failed job when the fails is
// still less that the number declared by the method 'MaxFails'.
//
// Returns:
// true for retry and false for none-retry
ShouldRetry() bool
// Indicate whether the parameters of job are valid.
//
// Return:
// error if parameters are not valid. NOTES: If no parameters needed, directly return nil.
Validate(params map[string]interface{}) error
// Run the business logic here.
// The related arguments will be injected by the workerpool.
//
// ctx env.JobContext : Job execution context.
// params map[string]interface{} : parameters with key-pair style for the job execution.
//
// Returns:
// error if failed to run. NOTES: If job is stopped or cancelled, a specified error should be returned
//
Run(ctx env.JobContext, params map[string]interface{}) error
}
Just pay attention, your main logic should be written in the Run
method.
Job Context
A job context will be provided when executed the Run
logic. With this context, you can
- Get a logger handle if you want to output the execution log to the log backends.
- Retrieve the system context reference.
- Get job operation signal if your job supports
stop
andcancel
. - Get the
checkin
func to check in message. - Get properties by key
- Specified to harbor, db connection and all the configurations can be retrieved by context.
Cancellable Job
To make the job cancellable, some special logic should be coded in the Run
logic.
First, check the signal at certain execution points,
if cmd, ok := ctx.OPCommand(); ok {}
Then, check if it is a cancel
signal,
if cmd == opm.CtlCommandCancel {}
finally, if it is, exit the logic and return the cancel error.
return errs.JobCancelledError()
Stoppable Job
To make the job stoppable, some special logic should be coded in the Run
logic.
First, check the signal at certain execution points,
if cmd, ok := ctx.OPCommand(); ok {}
Then, check if it is a stop
signal,
if cmd == opm.CtlCommandStop {}
finally, if it is, exit the logic and return the cancel error.
return errs.JobStoppedError()
Check In Message
If you want to report more concrete status info, just call the Checkin
function in the job context like the below code piece shown:
ctx.Checkin("30%")
Job Implementation Sample
Here is a demo job:
// DemoJob is the job to demostrate the job interface.
type DemoJob struct{}
// MaxFails is implementation of same method in Interface.
func (dj *DemoJob) MaxFails() uint {
return 3
}
// ShouldRetry ...
func (dj *DemoJob) ShouldRetry() bool {
return true
}
// Validate is implementation of same method in Interface.
func (dj *DemoJob) Validate(params map[string]interface{}) error {
if params == nil || len(params) == 0 {
return errors.New("parameters required for replication job")
}
name, ok := params["image"]
if !ok {
return errors.New("missing parameter 'image'")
}
if !strings.HasPrefix(name.(string), "demo") {
return fmt.Errorf("expected '%s' but got '%s'", "demo steven", name)
}
return nil
}
// Run the replication logic here.
func (dj *DemoJob) Run(ctx env.JobContext, params map[string]interface{}) error {
logger := ctx.GetLogger()
defer func() {
logger.Info("I'm finished, exit!")
fmt.Println("I'm finished, exit!")
}()
fmt.Println("I'm running")
logger.Info("=======Replication job running=======")
logger.Infof("params: %#v\n", params)
logger.Infof("context: %#v\n", ctx)
if v, ok := ctx.Get("email_from"); ok {
fmt.Printf("Get prop form context: email_from=%s\n", v)
}
if u, err := dao.GetUser(models.User{}); err == nil {
fmt.Printf("u=%#+v\n", u)
}
/*if 1 != 0 {
return errors.New("I suicide")
}*/
// runtime error
// var runtime_err error = nil
// fmt.Println(runtime_err.Error())
logger.Info("check in 30%")
ctx.Checkin("30%")
time.Sleep(2 * time.Second)
logger.Warning("check in 60%")
ctx.Checkin("60%")
time.Sleep(2 * time.Second)
logger.Debug("check in 100%")
ctx.Checkin("100%")
time.Sleep(1 * time.Second)
// HOLD ON FOR A WHILE
logger.Error("Holding for 20 sec")
<-time.After(15 * time.Second)
// logger.Fatal("I'm back, check if I'm stopped/cancelled")
if cmd, ok := ctx.OPCommand(); ok {
logger.Infof("cmd=%s\n", cmd)
fmt.Printf("Receive OP command: %s\n", cmd)
if cmd == opm.CtlCommandCancel {
logger.Info("exit for receiving cancel signal")
return errs.JobCancelledError()
}
logger.Info("exit for receiving stop signal")
return errs.JobStoppedError()
}
fmt.Println("I'm close to end")
return nil
}
Job Execution
Job execution is used to track the jobs which are related to a specified job, like parent and children jobs. If one job has executions, the following two extra properties will be appended to the job stats.
{
"job": {
"executions": ["uuid-sub-job"],
"multiple_executions": true
}
}
For the job execution/sub job, there will be an extra property upstream_job_id
pointing to id of the upstream (/parent) job.
{
"job": {
"upstream_job_id": "parent-id"
}
}
Under that situation, the flag multiple_executions
will be set to be true
. The list executions
will contain all the ids of the executions (/sub jobs).
General job
Any jobs can launch new jobs through the launch function in the job context. All those jobs will be tracked as sub jobs (executions) of the caller job.
func (j *Job) Run(ctx env.JobContext, params map[string]interface{}) error{
// ...
subJob, err := ctx.LaunchJob(models.JobRequest{})
// ...
return nil
}
Periodic job
The job launched with Periodic
kind is actually a scheduled job template which will be not run directly. The real running job will be created by cloning the configurations from the job template and run. And then each periodic job will have multiple job executions with independent id and each job execution will link to the Periodic
job by the upstream_job_id
.
Logger
There are two loggers here. One is for job service itself and another one is for the running jobs. Each logger can configure multi logger backends.
Each backend logger is identified by an unique name which will be used in the logger configurations to enable the corresponding loggers. Meanwhile, each backend logger MUST implement the logger.Interface
. A logger can also support (optional):
- sweeper: Sweep the outdated logs. A sweeper MUST implement
sweeper.Interface
- getter: Get the specified log data. A getter MUST implement
getter.Interface
All the backend loggers SHOULD onboard via the static logger registry.
// knownLoggers is a static logger registry.
// All the implemented loggers (w/ sweeper) should be registered
// with an unique name in this registry. Then they can be used to
// log info.
var knownLoggers = map[string]*Declaration{
// File logger
LoggerNameFile: {FileFactory, FileSweeperFactory, FileGetterFactory, false},
// STD output(both stdout and stderr) logger
LoggerNameStdOutput: {StdFactory, nil, nil, true},
}
So far, only the following two backends are supported:
- STD_OUTPUT: Output the log to the std stream (stdout/stderr)
- FILE: Output the log to the log files
- sweeper supports
- getter supports
Configure loggers
Logger configuration options:
Option | Description |
---|---|
loggers[x].name | The unique name of the logger backend |
loggers[x].level | The logger level of the logger backend |
loggers[x].settings | A hash map to pass extra settings of the logger backend. Depends on the implementation of the backend. |
loggers[x].sweeper.duration | The duration of the sweeper looping |
loggers[x].sweeper.settings | A hash map to pass extra settings of the sweeper. Depends on the implementation of sweeper. |
An example:
#Loggers
loggers:
- name: "STD_OUTPUT" # logger backend name, only support "FILE" and "STD_OUTPUT"
level: "DEBUG" # INFO/DEBUG/WARNING/ERROR/FATAL
- name: "FILE"
level: "DEBUG"
settings: # Customized settings of logger
base_dir: "/tmp/job_logs"
sweeper:
duration: 1 #days
settings: # Customized settings of sweeper
work_dir: "/tmp/job_logs"
Configuration
The following configuration options are supported:
Option | Description | ENV variable |
---|---|---|
protocol | Protocol used to serve http | JOB_SERVICE_PROTOCOL |
https_config.cert | The tls cert if enabled https protocol | JOB_SERVICE_HTTPS_CERT |
https_config.key | The tls key if enabled https protocol | JOB_SERVICE_HTTPS_KEY |
port | API server listening port | JOB_SERVICE_PORT |
worker_pool.worker_pool | The worker concurrency number | JOB_SERVICE_POOL_WORKERS |
worker_pool.backend | The job data persistent backend driver. So far, only redis supported | JOB_SERVICE_POOL_BACKEND |
worker_pool.redis_pool.redis_url | The redis url if backend is redis | JOB_SERVICE_POOL_REDIS_URL |
worker_pool.redis_pool.namespace | The namespace used in redis | JOB_SERVICE_POOL_REDIS_NAMESPACE |
loggers | Loggers for job service itself. Refer to Configure loggers | |
job_loggers | Loggers for the running jobs. Refer to Configure loggers | |
core_server | The harbor core server endpoint which used to retrieve Harbor configures | CORE_URL |
Sample
---
#Protocol used to serve
protocol: "https"
#Config certification if use 'https' protocol
https_config:
cert: "server.crt"
key: "server.key"
#Server listening port
port: 9443
#Worker pool
worker_pool:
#Worker concurrency
workers: 10
backend: "redis"
#Additional config if use 'redis' backend
redis_pool:
#redis://[arbitrary_username:password@]ipaddress:port/database_index
#or ipaddress:port[,weight,password,database_index]
redis_url: "localhost:6379"
namespace: "harbor_job_service"
#Loggers for the running job
job_loggers:
- name: "STD_OUTPUT" # logger backend name, only support "FILE" and "STD_OUTPUT"
level: "DEBUG" # INFO/DEBUG/WARNING/ERROR/FATAL
- name: "FILE"
level: "DEBUG"
settings: # Customized settings of logger
base_dir: "/tmp/job_logs"
sweeper:
duration: 1 #days
settings: # Customized settings of sweeper
work_dir: "/tmp/job_logs"
#Loggers for the job service
loggers:
- name: "STD_OUTPUT" # Same with above
level: "DEBUG"
API
Authorization
As job service is always running in the backend environment, a simple secret auth way is choose now. To call the job service API, the Authorization
header must be appended.
Authorization : Harbor-Secret <secret>
The expected secret is passed to job service by the ENV variable CORE_SECRET
.
Endpoints
POST /api/v1/jobs
Submit jobs
- Request body
{
"job": {
"name": "demo",
"parameters": {
"p1": "just a demo"
},
"status_hook": "https://my-hook.com",
"metadata": {
"kind": "Generic", // or "Scheduled" or "Periodic"
"schedule_delay": 90, // seconds, only required when kind is "Scheduled"
"cron_spec": "* 5 * * * *", // only required when kind is "Periodic"
"unique": false
}
}
}
-
Response
- 202 Accepted
{ "job": { "id": "uuid-job", "status": "pending", "name": "DEMO", "kind": "Generic", "unique": false, "ref_link": "/api/v1/jobs/uuid-job", "enqueue_time": "2018-10-10 12:00:00", "update_time": "2018-10-10 13:00:00", "multiple_executions": false // To indicate if the job has sub executions } }
- 401/500 Error
{ "code": 500, "err": "short error message", "description": "detailed error message" }
GET /api/v1/jobs/{job_id}
Get job stats
-
Response
- 200 OK
{ "job": { "id": "uuid-job", "status": "pending", "name": "DEMO", "kind": "Periodic", "unique": false, "ref_link": "/api/v1/jobs/uuid-job", "enqueue_time": 1539164886, "update_time": 1539164886, "run_at": 1539164986, "cron_spec": "* 5 * * * * ", "check_in": "check in message", // if check in message "check_in_at": 1539164889, // if check in message "die_at": 0, "hook_status": "http://status-check.com", "executions": ["uuid-sub-job"], // the ids of sub executions of the job "multiple_executions": true } }
- 401/500 Error
{ "code": 500, "err": "short error message", "description": "detailed error message" }
POST /api/v1/jobs/{job_id}
Stop/Cancel/Retry job
- Request body
{
"action": "stop" //or "cancel" or "retry"
}
-
Response
- 204 No content
- 401/404/500/501 Error
{ "code": 500, "err": "short error message", "description": "detailed error message" }
GET /api/v1/jobs/{job_id}/log
Retrieve job log
-
Response
- 200 OK
Log text bytes
- 401/400/404/500 Error
{ "code": 500, "err": "short error message", "description": "detailed error message" }
GET /api/v1/stats
Check job service healthy status
-
Response
- 200 OK
[{ "worker_pool_id": "pool1", "started_at": 1539164886, "heartbeat_at": 1539164986, "job_names": ["DEMO"], "concurrency": 10, "status": "healthy" }]
- 401/500 Error
{ "code": 500, "err": "short error message", "description": "detailed error message" }
How to Run
It's easy to run the job service.
- First, compile and build the binary
// under jobservice folder
go build -a -o jobservice
-
Second, create configuration yaml file and configure the job service.
-
Then, export the secret via ENV variable
CORE_SECRET
. -
Finally, start the service with the following command,
jobservice -c <config_yaml_file_path>
Enjoy it!