I think the problem is with fff. When you say fff has the same number of elements as t, how many is that? The number of elements of t depends on the integration; ode45 is a variable timestep integrator, so how are you specifying what fff should be at each timestep (if that's indeed what you're trying to do)?
Anyway, the problem is that everything in the line
s(2) = a*w(2) + b*w(1) + c*(w(1))^3 -d*fff;
is a scalar, except fff, which is causing the problem.
EDIT to add
If fff is purely random at each time, you could just generate
fff = rand;
inside duffing_arb at each timestep. If, however, you need to have some pre-set array of t and fff values, you can do something like this to interpolate the current collocation point to the pre-made data:
function s = duffing_arb(t,w,flag,a,b,c,d,tvals,fff)
s = zeros(2,1);
f = interp1(tvals,fff,t,'cubic');
s(1) = w(2);
s(2) = a*w(2) + b*w(1) + c*(w(1))^3 -d*f;
Then, in your main script, set values for a through d, and the vectors t and fff, then:
duffman = @(x,y) duffing_arb(x,y,[],a,b,c,d,t,fff);
[tint,wint] = ode45(duffman,t,w);
Note that duffman is an anonymous function handle with all the parameters embedded, so you don't have to pass those separately when calling ode45. Also, because t is a whole vector of points, tint will be the same as t, even though ode45 will use a variable stepsize behind the scenes.
