Yes, do it if it makes your code run faster and/or be smaller overall.
One of the advantages of writing in asm by hand is being able to use custom calling conventions functions, even when they're not private helper functions or macros. This includes being able to "return" multiple values in different registers, and basically do whatever you want.
As with any custom calling convention, all you need to do is document it with comments. Here's an example of how you might write such comments, with a specific and intentionally non-standard set of things.
# inputs: foo in EAX (zero-extended into RAX), bar in EDI
# pre-requisites: DF=0
# clobbers: RCX, RDX, AL (but not the rest of EAX)
# returns: AL = something, ZF = something else
something that sets ZF
If you're willing to sacrifice efficiency for style or readability, you probably shouldn't be writing in asm in the first place in 2018 when compilers are capable of generating good asm most of the time, and you rarely need to write your own boot sector or whatever. (i.e. performance is the main use-case left for hand-written asm, and it's only appropriate if you're going all out for performance.)
Yes it's possible for hand-written asm to become an unreadable / unmaintainable mess, but if done carefully when it has a reasonable semantic meaning, this optimization won't make your code a mess.
There is even precedent for doing this: x86-64 OS X system calls use CF as the error/no-error status, separate from the
rax return value. Unlike Linux where errors are indicated by RAX return values from -4095 to -1, although otherwise they use the same x86-64 System V ABI / calling convention.
int 0x21 system calls and PC BIOS
int 0x10 functions have a similar flag-return system. It lets the caller branch on error, so it saves code-size (a test or cmp) and avoids needing in-band signaling of errors.