It looks like there is a winding in both a clockwise and ant-clockwise direction. If that is true, it's not an inductor, and is probably a low value non-inductive resistor.
Red violet silver? gold green
2 7 ? x0.1 0.5% That doesn't make sense.
2 7 x0.01 5% 20ppm/degC
Yeah, I'd go for it being a 0.27Ω 5% 20ppm/degC resistor.
So this particular resistor isn't particularly high tolerance, but is very temperature stable.
This is probably a current sense resistor. These don't just fail. There must have been a significant overload to cause it to happen. Because the whole idea of a current sense resistor in a power supply is (typically) to provide feedback that limits the maximum current, failure points to a fault somewhere else.
Having said that, replace it once and see what happens.
It turns out to be a pretty difficult set of specs to meet.
Here is one possible option. Unfortunately it's not as temperature stable, and nor is it non-inductive. The datasheet says that non-inductive versions are available, but unless you're buying bazillions, that may not be an option for you.