/* * Some non-inline ceph helpers */ #include #include /* * return true if @layout appears to be valid */ int ceph_file_layout_is_valid(const struct ceph_file_layout *layout) { __u32 su = layout->stripe_unit; __u32 sc = layout->stripe_count; __u32 os = layout->object_size; /* stripe unit, object size must be non-zero, 64k increment */ if (!su || (su & (CEPH_MIN_STRIPE_UNIT-1))) return 0; if (!os || (os & (CEPH_MIN_STRIPE_UNIT-1))) return 0; /* object size must be a multiple of stripe unit */ if (os < su || os % su) return 0; /* stripe count must be non-zero */ if (!sc) return 0; return 1; } void ceph_file_layout_from_legacy(struct ceph_file_layout *fl, struct ceph_file_layout_legacy *legacy) { fl->stripe_unit = le32_to_cpu(legacy->fl_stripe_unit); fl->stripe_count = le32_to_cpu(legacy->fl_stripe_count); fl->object_size = le32_to_cpu(legacy->fl_object_size); fl->pool_id = le32_to_cpu(legacy->fl_pg_pool); if (fl->pool_id == 0 && fl->stripe_unit == 0 && fl->stripe_count == 0 && fl->object_size == 0) fl->pool_id = -1; } EXPORT_SYMBOL(ceph_file_layout_from_legacy); void ceph_file_layout_to_legacy(struct ceph_file_layout *fl, struct ceph_file_layout_legacy *legacy) { legacy->fl_stripe_unit = cpu_to_le32(fl->stripe_unit); legacy->fl_stripe_count = cpu_to_le32(fl->stripe_count); legacy->fl_object_size = cpu_to_le32(fl->object_size); if (fl->pool_id >= 0) legacy->fl_pg_pool = cpu_to_le32(fl->pool_id); else legacy->fl_pg_pool = 0; } EXPORT_SYMBOL(ceph_file_layout_to_legacy); int ceph_flags_to_mode(int flags) { int mode; #ifdef O_DIRECTORY /* fixme */ if ((flags & O_DIRECTORY) == O_DIRECTORY) return CEPH_FILE_MODE_PIN; #endif switch (flags & O_ACCMODE) { case O_WRONLY: mode = CEPH_FILE_MODE_WR; break; case O_RDONLY: mode = CEPH_FILE_MODE_RD; break; case O_RDWR: case O_ACCMODE: /* this is what the VFS does */ mode = CEPH_FILE_MODE_RDWR; break; } #ifdef O_LAZY if (flags & O_LAZY) mode |= CEPH_FILE_MODE_LAZY; #endif return mode; } EXPORT_SYMBOL(ceph_flags_to_mode); int ceph_caps_for_mode(int mode) { int caps = CEPH_CAP_PIN; if (mode & CEPH_FILE_MODE_RD) caps |= CEPH_CAP_FILE_SHARED | CEPH_CAP_FILE_RD | CEPH_CAP_FILE_CACHE; if (mode & CEPH_FILE_MODE_WR) caps |= CEPH_CAP_FILE_EXCL | CEPH_CAP_FILE_WR | CEPH_CAP_FILE_BUFFER | CEPH_CAP_AUTH_SHARED | CEPH_CAP_AUTH_EXCL | CEPH_CAP_XATTR_SHARED | CEPH_CAP_XATTR_EXCL; if (mode & CEPH_FILE_MODE_LAZY) caps |= CEPH_CAP_FILE_LAZYIO; return caps; } EXPORT_SYMBOL(ceph_caps_for_mode); ion>
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authorDavid S. Miller <davem@davemloft.net>2017-01-30 14:28:22 -0800
committerDavid S. Miller <davem@davemloft.net>2017-01-30 14:28:22 -0800
commit54791b276b4000b307339f269d3bf7db877d536f (patch)
tree1c2616bd373ce5ea28aac2a53e32f5b5834901ce /net/irda/irnet
parent5d0e7705774dd412a465896d08d59a81a345c1e4 (diff)
parent047487241ff59374fded8c477f21453681f5995c (diff)
Merge branch 'sparc64-non-resumable-user-error-recovery'
Liam R. Howlett says: ==================== sparc64: Recover from userspace non-resumable PIO & MEM errors A non-resumable error from userspace is able to cause a kernel panic or trap loop due to the setup and handling of the queued traps once in the kernel. This patch series addresses both of these issues. The queues are fixed by simply zeroing the memory before use. PIO errors from userspace will result in a SIGBUS being sent to the user process. The MEM errors form userspace will result in a SIGKILL and also cause the offending pages to be claimed so they are no longer used in future tasks. SIGKILL is used to ensure that the process does not try to coredump and result in an attempt to read the memory again from within kernel space. Although there is a HV call to scrub the memory (mem_scrub), there is no easy way to guarantee that the real memory address(es) are not used by other tasks. Clearing the error with mem_scrub would zero the memory and cause the other processes to proceed with bad data. The handling of other non-resumable errors remain unchanged and will cause a panic. ==================== Signed-off-by: David S. Miller <davem@davemloft.net>
Diffstat (limited to 'net/irda/irnet')