- Provide an option for a file system to support close wtih
references held. This can happen in more complex file systems
and file descriptor handling with more complete reference
handling implementations where an fd can hold other fds and
close can be call on any fd and succeed.
- Fix open IOP leaks in the error paths.
- Provide better definition of the IOP flags to help clarify
the code.
Fixes#5201
Changed fstest support to allow control on the test result of each fstest, updated all fstest accordingly.
Modified FS_FAIL macro to fail hard and not just print a message which rtems-test runner ignores.
Split failing test cases from the ones that passes; added fsrenameexisting, fsrenamepermexisting, fsrmdirparent, fsrenamelongname and fsrenamemaxlinks test cases.
Marked fsrenameexisting, fsrenamepermexisting as expected to fail due to #2169.
Marked fsrmdirparent as expected to fail, covered by #5071.
Marked fssymlink as expected to fail due to rename problems partially covered by #2169.
Marked rfsfsrenamelongname as expected to fail, covered by #5069.
Marked *fsrenamemaxlinks as expected to fail, covered by #5070.
Marked jffs2fsrenamelongname and jffs2nandfsrenamelongname as expected to fail, as JFFS2 seems to not have a limit on the file name, covered by #5073
All resource allocations take place in rtems_bdbuf_init() now. After
rtems_bdbuf_init() no fatal errors can happen due to configuration
errors or resource limits. This makes it easier to detect
configuration errors for users.
Script does what is expected and tries to do it as
smartly as possible.
+ remove occurrences of two blank comment lines
next to each other after Id string line removed.
+ remove entire comment blocks which only exited to
contain CVS Ids
+ If the processing left a blank line at the top of
a file, it was removed.
o A new data structure rtems_filesystem_global_location_t was
introduced to be used for
o the mount point location in the mount table entry,
o the file system root location in the mount table entry,
o the root directory location in the user environment, and
o the current directory location in the user environment.
During the path evaluation global start locations are obtained to
ensure that the current file system instance will be not unmounted in
the meantime.
o The user environment uses now reference counting and is protected
from concurrent access.
o The path evaluation process was completely rewritten and simplified.
The IMFS, RFS, NFS, and DOSFS use now a generic path evaluation
method. Recursive calls in the path evaluation have been replaced
with iteration to avoid stack overflows. Only the evaluation of
symbolic links is recursive. No dynamic memory allocations and
intermediate buffers are used in the high level path evaluation. No
global locks are held during the file system instance specific path
evaluation process.
o Recursive symbolic link evaluation is now limited by
RTEMS_FILESYSTEM_SYMLOOP_MAX. Applications can retrieve this value
via sysconf().
o The device file system (devFS) uses now no global variables and
allocation from the workspace. Node names are allocated from the
heap.
o The upper layer lseek() performs now some parameter checks.
o The upper layer ftruncate() performs now some parameter checks.
o unmask() is now restricted to the RWX flags and protected from
concurrent access.
o The fchmod_h and rmnod_h file system node handlers are now a file
system operation.
o The unlink_h operation has been removed. All nodes are now destroyed
with the rmnod_h operation.
o New lock_h, unlock_h, clonenod_h, and are_nodes_equal_h file system
operations.
o The path evaluation and file system operations are now protected by
per file system instance lock and unlock operations.
o Fix and test file descriptor duplicate in fcntl().
o New test fstests/fsnofs01.
