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    s390: Add infrastructure to patch lowcore accesses · 5ade5be4
    Sven Schnelle authored
    The s390 architecture defines two special per-CPU data pages
    called the "prefix area". In s390-linux terminology this is usually
    called "lowcore". This memory area contains system configuration
    data like old/new PSW's for system call/interrupt/machine check
    handlers and lots of other data. It is normally mapped to logical
    address 0. This area can only be accessed when in supervisor mode.
    
    This means that kernel code can dereference NULL pointers, because
    accesses to address 0 are allowed. Parts of lowcore can be write
    protected, but read accesses and write accesses outside of the write
    protected areas are not caught.
    
    To remove this limitation for debugging and testing, remap lowcore to
    another address and define a function get_lowcore() which simply
    returns the address where lowcore is mapped at. This would normally
    introduce a pointer dereference (=memory read). As lowcore is used
    for several very often used variables, add code to patch this function
    during runtime, so we avoid the memory reads.
    
    For C code get_lowcore() has to be used, for assembly code it is
    the GET_LC macro. When using this macro/function a reference is added
    to alternative patching. All these locations will be patched to the
    actual lowcore location when the kernel is booted or a module is loaded.
    
    To make debugging/bisecting problems easier, this patch adds all the
    infrastructure but the lowcore address is still hardwired to 0. This
    way the code can be converted on a per function basis, and the
    functionality is enabled in a patch after all the functions have
    been converted.
    
    Note that this requires at least z16 because the old lpsw instruction
    only allowed a 12 bit displacement. z16 introduced lpswey which allows
    20 bits (signed), so the lowcore can effectively be mapped from
    address 0 - 0x7e000. To use 0x7e000 as address, a 6 byte lgfi
    instruction would have to be used in the alternative. To save two
    bytes, llilh can be used, but this only allows to set bits 16-31 of
    the address. In order to use the llilh instruction, use 0x70000 as
    alternative lowcore address. This is still large enough to catch
    NULL pointer dereferences into large arrays.
    Reviewed-by: default avatarHeiko Carstens <hca@linux.ibm.com>
    Signed-off-by: default avatarSven Schnelle <svens@linux.ibm.com>
    Signed-off-by: default avatarVasily Gorbik <gor@linux.ibm.com>
    5ade5be4
vmem.c 14.7 KB