mirror of
https://github.com/idanoo/php-resque.git
synced 2024-11-23 08:45:14 +00:00
idanoo
80d64e79ff
2.0.0 (2021-02-19) Moved to PSR-4 Namespaced codebase Added more comments throughout Co-Authored-By: idanoo <daniel@m2.nz> Co-Committed-By: idanoo <daniel@m2.nz>
157 lines
9.1 KiB
Markdown
157 lines
9.1 KiB
Markdown
*For an overview of how to __use__ php-resque, see `README.md`.*
|
|
|
|
The following is a step-by-step breakdown of how php-resque operates.
|
|
|
|
## Enqueue Job ##
|
|
|
|
What happens when you call `Resque::enqueue()`?
|
|
|
|
1. `Resque::enqueue()` calls `Resque_Job::create()` with the same arguments it
|
|
received.
|
|
2. `Resque_Job::create()` checks that your `$args` (the third argument) are
|
|
either `null` or in an array
|
|
3. `Resque_Job::create()` generates a job ID (a "token" in most of the docs)
|
|
4. `Resque_Job::create()` pushes the job to the requested queue (first
|
|
argument)
|
|
5. `Resque_Job::create()`, if status monitoring is enabled for the job (fourth
|
|
argument), calls `\Resque\Job\Status::create()` with the job ID as its only
|
|
argument
|
|
6. `\Resque\Job\Status::create()` creates a key in Redis with the job ID in its
|
|
name, and the current status (as well as a couple of timestamps) as its
|
|
value, then returns control to `Resque_Job::create()`
|
|
7. `Resque_Job::create()` returns control to `Resque::enqueue()`, with the job
|
|
ID as a return value
|
|
8. `Resque::enqueue()` triggers the `afterEnqueue` event, then returns control
|
|
to your application, again with the job ID as its return value
|
|
|
|
## Workers At Work ##
|
|
|
|
How do the workers process the queues?
|
|
|
|
1. `Resque_Worker::work()`, the main loop of the worker process, calls
|
|
`Resque_Worker->reserve()` to check for a job
|
|
2. `Resque_Worker->reserve()` checks whether to use blocking pops or not (from
|
|
`BLOCKING`), then acts accordingly:
|
|
* Blocking Pop
|
|
1. `Resque_Worker->reserve()` calls `Resque_Job::reserveBlocking()` with
|
|
the entire queue list and the timeout (from `INTERVAL`) as arguments
|
|
2. `Resque_Job::reserveBlocking()` calls `Resque::blpop()` (which in turn
|
|
calls Redis' `blpop`, after prepping the queue list for the call, then
|
|
processes the response for consistency with other aspects of the
|
|
library, before finally returning control [and the queue/content of the
|
|
retrieved job, if any] to `Resque_Job::reserveBlocking()`)
|
|
3. `Resque_Job::reserveBlocking()` checks whether the job content is an
|
|
array (it should contain the job's type [class], payload [args], and
|
|
ID), and aborts processing if not
|
|
4. `Resque_Job::reserveBlocking()` creates a new `Resque_Job` object with
|
|
the queue and content as constructor arguments to initialize the job
|
|
itself, and returns it, along with control of the process, to
|
|
`Resque_Worker->reserve()`
|
|
* Queue Polling
|
|
1. `Resque_Worker->reserve()` iterates through the queue list, calling
|
|
`Resque_Job::reserve()` with the current queue's name as the sole
|
|
argument on each pass
|
|
2. `Resque_Job::reserve()` passes the queue name on to `Resque::pop()`,
|
|
which in turn calls Redis' `lpop` with the same argument, then returns
|
|
control (and the job content, if any) to `Resque_Job::reserve()`
|
|
3. `Resque_Job::reserve()` checks whether the job content is an array (as
|
|
before, it should contain the job's type [class], payload [args], and
|
|
ID), and aborts processing if not
|
|
4. `Resque_Job::reserve()` creates a new `Resque_Job` object in the same
|
|
manner as above, and also returns this object (along with control of
|
|
the process) to `Resque_Worker->reserve()`
|
|
3. In either case, `Resque_Worker->reserve()` returns the new `Resque_Job`
|
|
object, along with control, up to `Resque_Worker::work()`; if no job is
|
|
found, it simply returns `FALSE`
|
|
* No Jobs
|
|
1. If blocking mode is not enabled, `Resque_Worker::work()` sleeps for
|
|
`INTERVAL` seconds; it calls `usleep()` for this, so fractional seconds
|
|
*are* supported
|
|
* Job Reserved
|
|
1. `Resque_Worker::work()` triggers a `beforeFork` event
|
|
2. `Resque_Worker::work()` calls `Resque_Worker->workingOn()` with the new
|
|
`Resque_Job` object as its argument
|
|
3. `Resque_Worker->workingOn()` does some reference assignments to help keep
|
|
track of the worker/job relationship, then updates the job status from
|
|
`WAITING` to `RUNNING`
|
|
4. `Resque_Worker->workingOn()` stores the new `Resque_Job` object's payload
|
|
in a Redis key associated to the worker itself (this is to prevent the job
|
|
from being lost indefinitely, but does rely on that PID never being
|
|
allocated on that host to a different worker process), then returns control
|
|
to `Resque_Worker::work()`
|
|
5. `Resque_Worker::work()` forks a child process to run the actual `perform()`
|
|
6. The next steps differ between the worker and the child, now running in
|
|
separate processes:
|
|
* Worker
|
|
1. The worker waits for the job process to complete
|
|
2. If the exit status is not 0, the worker calls `Resque_Job->fail()` with
|
|
a `Resque\Job\DirtyExitException` as its only argument.
|
|
3. `Resque_Job->fail()` triggers an `onFailure` event
|
|
4. `Resque_Job->fail()` updates the job status from `RUNNING` to `FAILED`
|
|
5. `Resque_Job->fail()` calls `Resque_Failure::create()` with the job
|
|
payload, the `Resque\Job\DirtyExitException`, the internal ID of the
|
|
worker, and the queue name as arguments
|
|
6. `Resque_Failure::create()` creates a new object of whatever type has
|
|
been set as the `Resque_Failure` "backend" handler; by default, this is
|
|
a `ResqueFailureRedis` object, whose constructor simply collects the
|
|
data passed into `Resque_Failure::create()` and pushes it into Redis
|
|
in the `failed` queue
|
|
7. `Resque_Job->fail()` increments two failure counters in Redis: one for
|
|
a total count, and one for the worker
|
|
8. `Resque_Job->fail()` returns control to the worker (still in
|
|
`Resque_Worker::work()`) without a value
|
|
* Job
|
|
1. The job calls `Resque_Worker->perform()` with the `Resque_Job` as its
|
|
only argument.
|
|
2. `Resque_Worker->perform()` sets up a `try...catch` block so it can
|
|
properly handle exceptions by marking jobs as failed (by calling
|
|
`Resque_Job->fail()`, as above)
|
|
3. Inside the `try...catch`, `Resque_Worker->perform()` triggers an
|
|
`afterFork` event
|
|
4. Still inside the `try...catch`, `Resque_Worker->perform()` calls
|
|
`Resque_Job->perform()` with no arguments
|
|
5. `Resque_Job->perform()` calls `Resque_Job->getInstance()` with no
|
|
arguments
|
|
6. If `Resque_Job->getInstance()` has already been called, it returns the
|
|
existing instance; otherwise:
|
|
7. `Resque_Job->getInstance()` checks that the job's class (type) exists
|
|
and has a `perform()` method; if not, in either case, it throws an
|
|
exception which will be caught by `Resque_Worker->perform()`
|
|
8. `Resque_Job->getInstance()` creates an instance of the job's class, and
|
|
initializes it with a reference to the `Resque_Job` itself, the job's
|
|
arguments (which it gets by calling `Resque_Job->getArguments()`, which
|
|
in turn simply returns the value of `args[0]`, or an empty array if no
|
|
arguments were passed), and the queue name
|
|
9. `Resque_Job->getInstance()` returns control, along with the job class
|
|
instance, to `Resque_Job->perform()`
|
|
10. `Resque_Job->perform()` sets up its own `try...catch` block to handle
|
|
`Resque_Job_DontPerform` exceptions; any other exceptions are passed
|
|
up to `Resque_Worker->perform()`
|
|
11. `Resque_Job->perform()` triggers a `beforePerform` event
|
|
12. `Resque_Job->perform()` calls `setUp()` on the instance, if it exists
|
|
13. `Resque_Job->perform()` calls `perform()` on the instance
|
|
14. `Resque_Job->perform()` calls `tearDown()` on the instance, if it
|
|
exists
|
|
15. `Resque_Job->perform()` triggers an `afterPerform` event
|
|
16. The `try...catch` block ends, suppressing `Resque_Job_DontPerform`
|
|
exceptions by returning control, and the value `FALSE`, to
|
|
`Resque_Worker->perform()`; any other situation returns the value
|
|
`TRUE` along with control, instead
|
|
17. The `try...catch` block in `Resque_Worker->perform()` ends
|
|
18. `Resque_Worker->perform()` updates the job status from `RUNNING` to
|
|
`COMPLETE`, then returns control, with no value, to the worker (again
|
|
still in `Resque_Worker::work()`)
|
|
19. `Resque_Worker::work()` calls `exit(0)` to terminate the job process
|
|
cleanly
|
|
* SPECIAL CASE: Non-forking OS (Windows)
|
|
1. Same as the job above, except it doesn't call `exit(0)` when done
|
|
7. `Resque_Worker::work()` calls `Resque_Worker->doneWorking()` with no
|
|
arguments
|
|
8. `Resque_Worker->doneWorking()` increments two processed counters in Redis:
|
|
one for a total count, and one for the worker
|
|
9. `Resque_Worker->doneWorking()` deletes the Redis key set in
|
|
`Resque_Worker->workingOn()`, then returns control, with no value, to
|
|
`Resque_Worker::work()`
|
|
4. `Resque_Worker::work()` returns control to the beginning of the main loop,
|
|
where it will wait for the next job to become available, and start this
|
|
process all over again |