Cross-Referenced Linux and Device Driver Code

   #ifndef _LINUX_HIGHUID_H
   #define _LINUX_HIGHUID_H
   
   #include <linux/config.h>
   #include <linux/types.h>
   
   /*
    * general notes:
    *
   * CONFIG_UID16 is defined if the given architecture needs to
   * support backwards compatibility for old system calls.
   *
   * kernel code should use uid_t and gid_t at all times when dealing with
   * kernel-private data.
   *
   * old_uid_t and old_gid_t should only be different if CONFIG_UID16 is
   * defined, else the platform should provide dummy typedefs for them
   * such that they are equivalent to __kernel_{u,g}id_t.
   *
   * uid16_t and gid16_t are used on all architectures. (when dealing
   * with structures hard coded to 16 bits, such as in filesystems)
   */
  
  
  /*
   * This is the "overflow" UID and GID. They are used to signify uid/gid
   * overflow to old programs when they request uid/gid information but are
   * using the old 16 bit interfaces.
   * When you run a libc5 program, it will think that all highuid files or
   * processes are owned by this uid/gid.
   * The idea is that it's better to do so than possibly return 0 in lieu of
   * 65536, etc.
   */
  
  extern int overflowuid;
  extern int overflowgid;
  
  extern void __bad_uid(void);
  extern void __bad_gid(void);
  
  #define DEFAULT_OVERFLOWUID     65534
  #define DEFAULT_OVERFLOWGID     65534
  
  #ifdef CONFIG_UID16
  
  /* prevent uid mod 65536 effect by returning a default value for high UIDs */
  #define high2lowuid(uid) ((uid) & ~0xFFFF ? (old_uid_t)overflowuid : (old_uid_t)(uid))
  #define high2lowgid(gid) ((gid) & ~0xFFFF ? (old_gid_t)overflowgid : (old_gid_t)(gid))
  /*
   * -1 is different in 16 bits than it is in 32 bits
   * these macros are used by chown(), setreuid(), ...,
   */
  #define low2highuid(uid) ((uid) == (old_uid_t)-1 ? (uid_t)-1 : (uid_t)(uid))
  #define low2highgid(gid) ((gid) == (old_gid_t)-1 ? (gid_t)-1 : (gid_t)(gid))
  
  #define __convert_uid(size, uid) \
          (size >= sizeof(uid) ? (uid) : high2lowuid(uid))
  #define __convert_gid(size, gid) \
          (size >= sizeof(gid) ? (gid) : high2lowgid(gid))
          
  
  #else
  
  #define __convert_uid(size, uid) (uid)
  #define __convert_gid(size, gid) (gid)
  
  #endif /* !CONFIG_UID16 */
  
  /* uid/gid input should be always 32bit uid_t */
  #define SET_UID(var, uid) do { (var) = __convert_uid(sizeof(var), (uid)); } while (0)
  #define SET_GID(var, gid) do { (var) = __convert_gid(sizeof(var), (gid)); } while (0)
  
  /*
   * Everything below this line is needed on all architectures, to deal with
   * filesystems that only store 16 bits of the UID/GID, etc.
   */
  
  /*
   * This is the UID and GID that will get written to disk if a filesystem
   * only supports 16-bit UIDs and the kernel has a high UID/GID to write
   */
  extern int fs_overflowuid;
  extern int fs_overflowgid;
  
  #define DEFAULT_FS_OVERFLOWUID  65534
  #define DEFAULT_FS_OVERFLOWGID  65534
  
  /*
   * Since these macros are used in architectures that only need limited
   * 16-bit UID back compatibility, we won't use old_uid_t and old_gid_t
   */
  #define fs_high2lowuid(uid) ((uid) & ~0xFFFF ? (uid16_t)fs_overflowuid : (uid16_t)(uid))
  #define fs_high2lowgid(gid) ((gid) & ~0xFFFF ? (gid16_t)fs_overflowgid : (gid16_t)(gid))
  
  #define low_16_bits(x)  ((x) & 0xFFFF)
  #define high_16_bits(x) (((x) & 0xFFFF0000) >> 16)
  
  #endif /* _LINUX_HIGHUID_H */