These young guys, what do they know?
In one of the original embedded languages - PL/M (-51 yes as in 8051, -85, -86, -286, -386) - there was no difference between logical operators (!, &&, || in C) and bitwise (~, &, |, ^). Instead PL/M has NOT, AND, OR and XOR taking care of both categories. Are we better off with two categories? I'm not so sure. I miss the logical ^^ operator (xor) in C, though. Still, I guess it would be possible to construct programs in C without having to involve the logical category.
In PL/M False is defined as 0. Booleans are usually represented in byte variables. True is defined as NOT False which will give you 0ffh (PL/M-ese for C's 0xff).
To see how the conversion of the status flag carry took place defore being stored in a byte (boolean wasn't available as a type) variable, PL/M could use the assembly instruction "sbb al,al" before storing. If carry was set al would contain 0ff, if it wasn't it would contain 0h. If the opposite value was required, PL/M would insert a "cmc" before the sbb or append a "not al" after (actually xor - one or the other).
So the 0xff for TRUE is a direct compatibility port from PL/M. Necessary? Probably not, unless you're unsure of your skills (in C) AND playing it super safe.
As I would have.
PL/M-80 (used for the 8080, 8085 and Z80) did not have support for integers or floats, and I suspect it was the same for PL/M-51. PL/M-86 (used for the 8086, 8088, 80188 and 80186) added integers, single precision floating point, segment:offset pointers and the standard memory models small, medium, compact and large. For those so inclined there were special directives to create do-it-yourself hybrid memory models. Microsoft's huge memory model was equivalent to intel's large. MS also sported tiny, small, compact, medium and large models.