Messages in this thread | | | Date | Tue, 12 Nov 2019 18:22:49 +0000 | From | Catalin Marinas <> | Subject | Re: [PATCH v2] buffer: Fix I/O error due to ARM read-after-read hazard |
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On Tue, Nov 12, 2019 at 06:00:35PM +0000, Will Deacon wrote: > On Tue, Nov 12, 2019 at 04:08:57PM +0000, Catalin Marinas wrote: > > On Tue, Nov 12, 2019 at 02:02:44PM +0100, Vincent Whitchurch wrote: > > > On my dual-core ARM Cortex-A9, reading from squashfs (over > > > dm-verity/ubi/mtd) in a loop for hundreds of hours invariably results in > > > a read failure in squashfs_read_data(). The errors occur because the > > > buffer_uptodate() check fails after wait_on_buffer(). Further debugging > > > shows that the bh was in fact uptodate and that there is no actual I/O > > > error in the lower layers. > > > > > > The problem is caused by the read-after-read hazards in the ARM > > > Cortex-A9 MPCore (erratum #761319, see [1]). The code generated by the > > > compiler for the combination of the wait_on_buffer() and > > > buffer_uptodate() calls reads the flags value twice from memory (see the > > > excerpt of the assembly below). The new value of the BH_Lock flag is > > > seen but the new value of BH_Uptodate is not even though both the bits > > > are read from the same memory location. > > > > > > 27c: 9d08 ldr r5, [sp, #32] > > > 27e: 2400 movs r4, #0 > > > 280: e006 b.n 290 <squashfs_read_data+0x290> > > > 282: 6803 ldr r3, [r0, #0] > > > 284: 07da lsls r2, r3, #31 > > > 286: f140 810d bpl.w 4a4 <squashfs_read_data+0x4a4> > > > 28a: 3401 adds r4, #1 > > > 28c: 42bc cmp r4, r7 > > > 28e: da08 bge.n 2a2 <squashfs_read_data+0x2a2> > > > 290: f855 0f04 ldr.w r0, [r5, #4]! > > > 294: 6803 ldr r3, [r0, #0] > > > 296: 0759 lsls r1, r3, #29 > > > 298: d5f3 bpl.n 282 <squashfs_read_data+0x282> > > > 29a: f7ff fffe bl 0 <__wait_on_buffer> > > > > > > Work around this problem by adding a DMB between the two reads of > > > bh->flags, as recommended in the ARM document. With this barrier, no > > > failures have been seen in more than 5000 hours of the same test. > > > > > > [1] http://infocenter.arm.com/help/topic/com.arm.doc.uan0004a/UAN0004A_a9_read_read.pdf > > > > I thought we were going to fix the compiler. I found an old thread here: > > > > https://gcc.gnu.org/ml/gcc-patches/2014-06/msg00714.html > > > > Also cc'ing Richard Earnshaw as he may been involved in the gcc > > discussion at the time. > > > > While you can add some barrier here, there may be other cases where this > > can go wrong. > > Hmm, and afaict, even if the compiler was modified to emit LDREX instructions > for volatile loads, it wouldn't help in this case because test_bit() isn't > using READ_ONCE().
I think changing volatile accesses to LDREX in gcc wasn't acceptable since they may read Device memory and not allowed on ARM.
> It's also slightly odd that the proposed patch makes the code look like: > > for (i = 0; i < b; i++) { > if (buffer_locked(bh)) { > __wait_on_buffer(bh); > smp_rmb(); > }
The proposed patch actually keeps smp_rmb() outside the 'if' block but your point below still stands.
> if (!buffer_uptodate(bh[i])) > goto block_release; > } > > whereas there are other potential RAR orderings between buffer_locked() > and __wait_on_buffer() and also probably between successive iterations > of the loop. > > So, really, the only way I see to solve this is for us to use READ_ONCE > consistently for all relaxed atomic loads (KCSAN is starting to tread on > this), and then to patch READ_ONCE to emit a DMB at runtime for arch/arm/ > (maybe a static key would work if you can avoid the recursion).
OK, so this includes changing test_bit() to perform a READ_ONCE.
-- Catalin
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