diff options
Diffstat (limited to 'kernel/bpf')
-rw-r--r-- | kernel/bpf/verifier.c | 94 |
1 files changed, 40 insertions, 54 deletions
diff --git a/kernel/bpf/verifier.c b/kernel/bpf/verifier.c index 2aad6d90550f..68cfd6fc6ad4 100644 --- a/kernel/bpf/verifier.c +++ b/kernel/bpf/verifier.c @@ -13320,7 +13320,6 @@ static void scalar32_min_max_and(struct bpf_reg_state *dst_reg, bool src_known = tnum_subreg_is_const(src_reg->var_off); bool dst_known = tnum_subreg_is_const(dst_reg->var_off); struct tnum var32_off = tnum_subreg(dst_reg->var_off); - s32 smin_val = src_reg->s32_min_value; u32 umax_val = src_reg->u32_max_value; if (src_known && dst_known) { @@ -13333,18 +13332,16 @@ static void scalar32_min_max_and(struct bpf_reg_state *dst_reg, */ dst_reg->u32_min_value = var32_off.value; dst_reg->u32_max_value = min(dst_reg->u32_max_value, umax_val); - if (dst_reg->s32_min_value < 0 || smin_val < 0) { - /* Lose signed bounds when ANDing negative numbers, - * ain't nobody got time for that. - */ - dst_reg->s32_min_value = S32_MIN; - dst_reg->s32_max_value = S32_MAX; - } else { - /* ANDing two positives gives a positive, so safe to - * cast result into s64. - */ + + /* Safe to set s32 bounds by casting u32 result into s32 when u32 + * doesn't cross sign boundary. Otherwise set s32 bounds to unbounded. + */ + if ((s32)dst_reg->u32_min_value <= (s32)dst_reg->u32_max_value) { dst_reg->s32_min_value = dst_reg->u32_min_value; dst_reg->s32_max_value = dst_reg->u32_max_value; + } else { + dst_reg->s32_min_value = S32_MIN; + dst_reg->s32_max_value = S32_MAX; } } @@ -13353,7 +13350,6 @@ static void scalar_min_max_and(struct bpf_reg_state *dst_reg, { bool src_known = tnum_is_const(src_reg->var_off); bool dst_known = tnum_is_const(dst_reg->var_off); - s64 smin_val = src_reg->smin_value; u64 umax_val = src_reg->umax_value; if (src_known && dst_known) { @@ -13366,18 +13362,16 @@ static void scalar_min_max_and(struct bpf_reg_state *dst_reg, */ dst_reg->umin_value = dst_reg->var_off.value; dst_reg->umax_value = min(dst_reg->umax_value, umax_val); - if (dst_reg->smin_value < 0 || smin_val < 0) { - /* Lose signed bounds when ANDing negative numbers, - * ain't nobody got time for that. - */ - dst_reg->smin_value = S64_MIN; - dst_reg->smax_value = S64_MAX; - } else { - /* ANDing two positives gives a positive, so safe to - * cast result into s64. - */ + + /* Safe to set s64 bounds by casting u64 result into s64 when u64 + * doesn't cross sign boundary. Otherwise set s64 bounds to unbounded. + */ + if ((s64)dst_reg->umin_value <= (s64)dst_reg->umax_value) { dst_reg->smin_value = dst_reg->umin_value; dst_reg->smax_value = dst_reg->umax_value; + } else { + dst_reg->smin_value = S64_MIN; + dst_reg->smax_value = S64_MAX; } /* We may learn something more from the var_off */ __update_reg_bounds(dst_reg); @@ -13389,7 +13383,6 @@ static void scalar32_min_max_or(struct bpf_reg_state *dst_reg, bool src_known = tnum_subreg_is_const(src_reg->var_off); bool dst_known = tnum_subreg_is_const(dst_reg->var_off); struct tnum var32_off = tnum_subreg(dst_reg->var_off); - s32 smin_val = src_reg->s32_min_value; u32 umin_val = src_reg->u32_min_value; if (src_known && dst_known) { @@ -13402,18 +13395,16 @@ static void scalar32_min_max_or(struct bpf_reg_state *dst_reg, */ dst_reg->u32_min_value = max(dst_reg->u32_min_value, umin_val); dst_reg->u32_max_value = var32_off.value | var32_off.mask; - if (dst_reg->s32_min_value < 0 || smin_val < 0) { - /* Lose signed bounds when ORing negative numbers, - * ain't nobody got time for that. - */ - dst_reg->s32_min_value = S32_MIN; - dst_reg->s32_max_value = S32_MAX; - } else { - /* ORing two positives gives a positive, so safe to - * cast result into s64. - */ + + /* Safe to set s32 bounds by casting u32 result into s32 when u32 + * doesn't cross sign boundary. Otherwise set s32 bounds to unbounded. + */ + if ((s32)dst_reg->u32_min_value <= (s32)dst_reg->u32_max_value) { dst_reg->s32_min_value = dst_reg->u32_min_value; dst_reg->s32_max_value = dst_reg->u32_max_value; + } else { + dst_reg->s32_min_value = S32_MIN; + dst_reg->s32_max_value = S32_MAX; } } @@ -13422,7 +13413,6 @@ static void scalar_min_max_or(struct bpf_reg_state *dst_reg, { bool src_known = tnum_is_const(src_reg->var_off); bool dst_known = tnum_is_const(dst_reg->var_off); - s64 smin_val = src_reg->smin_value; u64 umin_val = src_reg->umin_value; if (src_known && dst_known) { @@ -13435,18 +13425,16 @@ static void scalar_min_max_or(struct bpf_reg_state *dst_reg, */ dst_reg->umin_value = max(dst_reg->umin_value, umin_val); dst_reg->umax_value = dst_reg->var_off.value | dst_reg->var_off.mask; - if (dst_reg->smin_value < 0 || smin_val < 0) { - /* Lose signed bounds when ORing negative numbers, - * ain't nobody got time for that. - */ - dst_reg->smin_value = S64_MIN; - dst_reg->smax_value = S64_MAX; - } else { - /* ORing two positives gives a positive, so safe to - * cast result into s64. - */ + + /* Safe to set s64 bounds by casting u64 result into s64 when u64 + * doesn't cross sign boundary. Otherwise set s64 bounds to unbounded. + */ + if ((s64)dst_reg->umin_value <= (s64)dst_reg->umax_value) { dst_reg->smin_value = dst_reg->umin_value; dst_reg->smax_value = dst_reg->umax_value; + } else { + dst_reg->smin_value = S64_MIN; + dst_reg->smax_value = S64_MAX; } /* We may learn something more from the var_off */ __update_reg_bounds(dst_reg); @@ -13458,7 +13446,6 @@ static void scalar32_min_max_xor(struct bpf_reg_state *dst_reg, bool src_known = tnum_subreg_is_const(src_reg->var_off); bool dst_known = tnum_subreg_is_const(dst_reg->var_off); struct tnum var32_off = tnum_subreg(dst_reg->var_off); - s32 smin_val = src_reg->s32_min_value; if (src_known && dst_known) { __mark_reg32_known(dst_reg, var32_off.value); @@ -13469,10 +13456,10 @@ static void scalar32_min_max_xor(struct bpf_reg_state *dst_reg, dst_reg->u32_min_value = var32_off.value; dst_reg->u32_max_value = var32_off.value | var32_off.mask; - if (dst_reg->s32_min_value >= 0 && smin_val >= 0) { - /* XORing two positive sign numbers gives a positive, - * so safe to cast u32 result into s32. - */ + /* Safe to set s32 bounds by casting u32 result into s32 when u32 + * doesn't cross sign boundary. Otherwise set s32 bounds to unbounded. + */ + if ((s32)dst_reg->u32_min_value <= (s32)dst_reg->u32_max_value) { dst_reg->s32_min_value = dst_reg->u32_min_value; dst_reg->s32_max_value = dst_reg->u32_max_value; } else { @@ -13486,7 +13473,6 @@ static void scalar_min_max_xor(struct bpf_reg_state *dst_reg, { bool src_known = tnum_is_const(src_reg->var_off); bool dst_known = tnum_is_const(dst_reg->var_off); - s64 smin_val = src_reg->smin_value; if (src_known && dst_known) { /* dst_reg->var_off.value has been updated earlier */ @@ -13498,10 +13484,10 @@ static void scalar_min_max_xor(struct bpf_reg_state *dst_reg, dst_reg->umin_value = dst_reg->var_off.value; dst_reg->umax_value = dst_reg->var_off.value | dst_reg->var_off.mask; - if (dst_reg->smin_value >= 0 && smin_val >= 0) { - /* XORing two positive sign numbers gives a positive, - * so safe to cast u64 result into s64. - */ + /* Safe to set s64 bounds by casting u64 result into s64 when u64 + * doesn't cross sign boundary. Otherwise set s64 bounds to unbounded. + */ + if ((s64)dst_reg->umin_value <= (s64)dst_reg->umax_value) { dst_reg->smin_value = dst_reg->umin_value; dst_reg->smax_value = dst_reg->umax_value; } else { |