Any of these motors is powerful enough to drag any of the other vehicles, so it basically comes down to traction. The major factors would be force normal to the surface (i.e. weight), coefficient of friction of the tire-ground couple, and tangential force supplied to the base of the tires. No information was given about weigt, but I'm guessing the Cybertruck has a weight advantage. Also, no useful information was suppled about the tires, other than stock street tires vs. specialized tires. As far as force applied, I would have guessed that torque vectoring would be superior to locking differentials, but apparently I was wrong. So in this case the locking diffs tipped the balance in favor of the CT. These pulling competitions are essentially meaningless unless you can isolate each of these factors by holding the others constant.
When industrial forklifts began the transition to electrics it was a sign of things to come. The plant I work in still has 1 gas truck but has 7 electrics, mostly ac-drive. The electric trucks are awesome machines. The transition in the automotive realm will need more time to get it right but I think its inevitable. The efficiency gains for electric are just to significant over gas & diesel. Fuels like hydrogen also have potential, once costs come down.
Thanks to the recent off-road update, the Tesla Cybertruck now has the ability to lock front and rear differentials, making it a beast for high-traction pulling. In a recent tractor pull event, the Cybertruck emerged victorious in the 2500-class, dominating diesel-powered pickup trucks.