5.4 KiB
gRPC Error
Background
grpc_error
is the c-core's opaque representation of an error. It holds a
collection of integers, strings, timestamps, and child errors that related to
the final error.
always present are:
- GRPC_ERROR_STR_FILE and GRPC_ERROR_INT_FILE_LINE - the source location where the error was generated
- GRPC_ERROR_STR_DESCRIPTION - a human readable description of the error
- GRPC_ERROR_TIME_CREATED - a timestamp indicating when the error happened
An error can also have children; these are other errors that are believed to have contributed to this one. By accumulating children, we can begin to root cause high level failures from low level failures, without having to derive execution paths from log lines.
grpc_errors are refcounted objects, which means they need strict ownership semantics. An extra ref on an error can cause a memory leak, and a missing ref can cause a crash.
This document serves as a detailed overview of grpc_error's ownership rules. It should help people use the errors, as well as help people debug refcount related errors.
Clarification of Ownership
If a particular function is said to "own" an error, that means it has the responsibility of calling unref on the error. A function may have access to an error without ownership of it.
This means the function may use the error, but must not call unref on it, since that will be done elsewhere in the code. A function that does not own an error may explicitly take ownership of it by manually calling GRPC_ERROR_REF.
Ownership Rules
There are three rules of error ownership, which we will go over in detail.
- If
grpc_error
is returned by a function, the caller owns a ref to that instance. - If a
grpc_error
is passed to agrpc_closure
callback function, then that function does not own a ref to the error. - if a
grpc_error
is passed to any other function, then that function takes ownership of the error.
Rule 1
If
grpc_error
is returned by a function, the caller owns a ref to that instance.*
For example, in the following code block, error1 and error2 are owned by the current function.
grpc_error* error1 = GRPC_ERROR_CREATE_FROM_STATIC_STRING("Some error occurred");
grpc_error* error2 = some_operation_that_might_fail(...);
The current function would have to explicitly call GRPC_ERROR_UNREF on the errors, or pass them along to a function that would take over the ownership.
Rule 2
If a
grpc_error
is passed to agrpc_closure
callback function, then that function does not own a ref to the error.
A grpc_closure
callback function is any function that has the signature:
void (*cb)(void *arg, grpc_error *error);
This means that the error ownership is NOT transferred when a functions calls:
c->cb(c->cb_arg, err);
The caller is still responsible for unref-ing the error.
Note that you'll likely never need to run c->cb(...)
yourself; the idiomatic
way to execute callbacks is via the Closure::Run
method, which takes ownership
of the error variable.
grpc_error* error = GRPC_ERROR_CREATE_FROM_STATIC_STRING("Some error occurred");
grpc_core::Closure::Run(DEBUG_LOCATION, c->cb, error);
// current function no longer has ownership of the error
If you schedule or run a closure, but still need ownership of the error, then you must explicitly take a reference.
grpc_error* error = GRPC_ERROR_CREATE_FROM_STATIC_STRING("Some error occurred");
grpc_core::Closure::Run(DEBUG_LOCATION, c->cb, GRPC_ERROR_REF(error));
// do some other things with the error
GRPC_ERROR_UNREF(error);
Rule 2 is more important to keep in mind when implementing grpc_closure
callback functions. You must keep in mind that you do not own the error, and
must not unref it. More importantly, you cannot pass it to any function that
would take ownership of the error, without explicitly taking ownership yourself.
For example:
void on_some_action(void *arg, grpc_error *error) {
// this would cause a crash, because some_function will unref the error,
// and the caller of this callback will also unref it.
some_function(error);
// this callback function must take ownership, so it can give that
// ownership to the function it is calling.
some_function(GRPC_ERROR_REF(error));
}
Rule 3
if a
grpc_error
is passed to any other function, then that function takes ownership of the error.
Take the following example:
grpc_error* error = GRPC_ERROR_CREATE_FROM_STATIC_STRING("Some error occurred");
// do some things
some_function(error);
// can't use error anymore! might be gone.
When some_function is called, it takes over the ownership of the error, and it will eventually unref it. So the caller can no longer safely use the error.
If the caller needed to keep using the error (or passing it to other functions), if would have to take on a reference to it. This is a common pattern seen.
void func() {
grpc_error* error = GRPC_ERROR_CREATE_FROM_STATIC_STRING("Some error");
some_function(GRPC_ERROR_REF(error));
// do things
some_other_function(GRPC_ERROR_REF(error));
// do more things
some_last_function(error);
}
The last call takes ownership and will eventually give the error its final unref.
When implementing a function that takes an error (and is not a
grpc_closure
callback function), you must ensure the error is unref-ed either
by doing it explicitly with GRPC_ERROR_UNREF, or by passing the error to a
function that takes over the ownership.