indicates that the target of the fdisk operation is a file, not a
disk. With -t and -T, the user tells fdisk the geometry for the
file If the default geometry that fdisk will "fake up" for a file
are not satisfactory, the user may tell the geometry to fdisk using
-t disktab -T disktype.
for RF_DagNode_t's. Scale the structure size based on RF_MAXCOL.
Use the new allocation method in InitNode(). Note that we can't get
rid of the mallocs in there until we can prove that this new
allocation method is a strict upper bound. Unless someone tries
running a RAID set with 40 components, the mallocs here shouldn't
shouldn't be an issue. (and if someone does make a set with 40 components
they will run into other issues with other constants long before
then)
- Pull rf_FreePhysDiskAddr() out from under a #ifdef, since we're now
going to use it.
- Add a pda_cleanup_list into the DAG header. Use it in rf_FreeDAG() to
cleanup any PDA's that get allocated but have no "easy" way of being
located and freed when the DAG completes.
- numStripeUnitsAccessed is a per-stripe value, and has a maximum
value equal to the number of colums (thus limited by RF_MAXCOL).
Use this knowledge to set a high-bound on overlappingPDAs, and stuff
it on the stack instead of malloc'ing it all the time! This costs us
a whopping 40 bytes on the stack, but saves a malloc() and a free().
elements from the pools.
Re-work rf_SelectAlgorithm() to get rid of all the 8 malloc's, and to
use the new functions to get/put these 'support structures'. I'm not
overly happy with some of the variable names, but them's the breaks.
In the process of changing things, fix a bug:
- in the case where we can't create a dag, free asmh_b and blockFuncs
too!!
[if you were able to look at the source code related to these changes,
and comprehend what was going on without having your eyes bleed or
getting dizzy, please contact me... I'm sure I'll have more code
which would benefit by you having a look at it before I commit it :) ]
As we turn the chip to big-endian mode on big-endian systems, we should
never byte-swap the data read/written from/to registers. Tested on sparc64.
Finally fix kern/13341 by Jason R. Thorpe (really, the hard work of putting
bus_dmamap_sync() calls at the right places has been done my Jason mid-2001 :)
- factor out common code.
- don't stop searching before the target.
- touch the correct object.
- validate the argument before the loop otherwise we need to roll back.
Trimm the priority, as the upper layers won't do it and will drop the packet
if priority is not 0.
While there, print the revision in the "unsupported chip revision" printf.
