On Wed, Oct 16, 2024 at 10:10:22AM -0400, Steven Rostedt wrote: > On Wed, 16 Oct 2024 14:07:31 +0200 > Sven Schnelle <svens@xxxxxxxxxxxxx> wrote: > > I haven't yet fully understood why this logic is needed, but the > > WARN_ON_ONCE triggers on s390. I'm assuming this fails because fp always > > has the upper bits of the address set on x86 (and likely others). As an > > example, in my test setup, fp is 0x8feec218 on s390, while it is > > 0xffff888100add118 in x86-kvm. > > Since we only need to save 4 bits for size, we could have what it is > replacing always be zero or always be f, depending on the arch. The > question then is, is s390's 4 MSBs always zero? > > Thus we could make it be: > > static inline int decode_fprobe_header(unsigned long val, struct fprobe **fp) > { > unsigned long ptr; > > ptr = (val & FPROBE_HEADER_PTR_MASK) | FPROBE_HEADER_MSB_MASK; > if (fp) > *fp = (struct fprobe *)ptr; > return val >> FPROBE_HEADER_PTR_BITS; > } > > And define FPROBE_HEADER_MSB_MASK to be either: > > For most archs: > > #define FPROBE_HEADER_MSB_MASK (0xf << FPROBE_HEADER_PTR_BITS) > > or on s390: > > #define FPROBE_HEADER_MSB_MASK (0x0) > > Would this work? This would work for s390. Right now we don't make any use of the four MSBs, and they are always zero. If for some reason this would ever change, we would need to come up with a different solution. Please note that this only works for addresses in the kernel address space. For user space the full 64 bit address range (minus the top page) can be used for user space applications. I'm just writing this here, just in case something like this comes up for uprobes or something similar as well.