The direct CP asymmetry in the untagged inclusive channel B¯→Xs+dγ provides a strict test of the standard model. It has been shown beyond the partonic level that this asymmetry is negligibly small thanks to U-spin relations and to the unitarity of the CKM matrix. In the present paper we investigate this relation beyond the SM; in particular, we analyse to which extent deviations from this prediction are possible in supersymmetric scenarios. We analyse the minimal flavour violation scenario, including tanβ-enhanced terms and using the complete two-loop renormalization group running. Our analysis fully takes into account also the EDM constraints on the supersymmetric phases. We also investigate possible correlations between the tagged and the untagged CP asymmetries and the indirect sensitivity of the latter to the B¯→Xdγ CP asymmetry.Furthermore, we derive general model-independent formulae for the branching ratios and CP asymmetries for the inclusive B¯→Xdγ and B¯→Xsγ modes, and update the corresponding SM predictions. We obtain for a photon energy cut-off E0=1.6 GeV: B[B¯→Xsγ]=(3.61−0.40+0.24|mc/mb±0.02CKM±0.24param.±0.14scale)×10−4,ACP[B¯→Xsγ]=(0.42−0.08+0.08|mc/mb±0.03CKM−0.08+0.15|scale)%.