As @adamrights points out in his answer, the main problem in your code is you didn't call cbi(err, response)
with a truthy err
1st param, which is essential to stop async.series
continuing to next task in the queue.
Now your code should work, but you have a repeating pattern in your code that goes:
function (cbi) {
students.getAll('student', function (err, response) {
// these 3 lines appear in every callback function
if (GLOBAL_VAR_SIGTERM) err = new Error("SIGTERM: Aborting remaining tasks");
if (err) logger.error(err);
cbi(err, response);
// end of repeat pattern
});
}
Your callback passed to every async task always do the same 3-liner thing. We know the DRY rule, it's always a good idea to extract the repeating pattern into another function to reuse it as much as possible.
So instead of repeatedly declaring anonymous functions, you should declare a factory function.
function callbackFactory(cbi) {
return function(err, response) {
if (GLOBAL_VAR_SIGTERM) err = new Error("SIGTERM: Aborting remaining tasks");
if (err) logger.error(err);
cbi(err, response);
}
}
// use arrow function to write more concise code
async.series(
[
cbi => students.getAll('student', callbackFactory(cbi)),
cbi => students.deleteAll('student', callbackFactory(cbi)),
cbi => teachers.getAll('teacher', callbackFactory(cbi)),
cbi => teachers.deleteAll('teacher', callbackFactory(cbi)),
]
);
Advance Topic: use decorator to handle cross cutting concern
Let's explore this topic a bit more. Obviously, abort early on receiving SIGTERM
is a cross cutting concern that should be separated from business logic. Suppose your business logic varies from task to task:
async.series(
[
cbi => students.getAll('student', (err, response) => {
if (err) {
logger.error(err);
return cbi(err);
}
updateStudentCount(response.data.length) // <- extra work
cbi(err, response);
}),
cbi => teachers.getAll('student', (err, response) => {
if (err) {
logger.error(err);
return cbi(err);
}
updateTeacherCount(response.data.length) // <- different extra work
cbi(err, response);
})
]
);
Because the callback is varying, it can be difficult to be extracted into a factory function like before. From this perspective, we'd better inject the abort-early behavior to each task, keep it easy to write normal business logic.
This is where decorator pattern comes handy. But global variable isn't the best tool to implement it, we'll use event listener.
The basic interface of the decorator looks like:
// `task` will be things like `cbi => students.getAll('student', ... )`
function decorateTaskAbortEarly(task) {
return (originalCbi) => {
...
task(originalCbi)
}
}
Below is our implementation checklist:
- we're going to call
originalCbi
if we receive SIGTERM
- but when we don't receive
SIGTERM
, the originalCbi
is still callable inside callback of any async task like normal
- if
originalCbi
is ever called once, we should unsubscribe from SIGTERM
to prevent memory leak
The implementation:
function decorateTaskAbortEarly(task) {
return (originalCbi) => {
// subscribe to `SIGTERM`
var listener = () => originalCbi(new Error("SIGTERM: Aborting remaining tasks"));
process.once('SIGTERM', listener);
var wrappedCbi = (err, response) => {
// unsubscribe if `cbi` is called once
process.off('SIGTERM', listener);
return originalCbi(err, response);
};
// pass `cbi` through to `task`
task(wrappedCbi);
}
}
// Usage:
async.series(
[
cbi => students.getAll('student', (err, response) => {
if (err) {
logger.error(err);
return cbi(err);
}
updateStudentCount(response.data.length)
cbi(err, response);
}),
cbi => teachers.getAll('student', (err, response) => {
if (err) {
logger.error(err);
return cbi(err);
}
updateTeacherCount(response.data.length)
cbi(err, response);
})
].map(decorateTaskAbortEarly) // <--- nice API
);