Xen project Mailing List

[Xen-devel] Re: [RFC][PATCH] Per-cpu xentrace buffers

To: George Dunlap <George.Dunlap@xxxxxxxxxxxxx>, "xen-devel@xxxxxxxxxxxxxxxxxxx" <xen-devel@xxxxxxxxxxxxxxxxxxx>

From: Keir Fraser <keir.fraser@xxxxxxxxxxxxx>

Date: Wed, 20 Jan 2010 17:50:05 +0000

Cc:

Delivery-date: Wed, 20 Jan 2010 09:51:00 -0800

List-id: Xen developer discussion <xen-devel.lists.xensource.com>

Thread-index: AcqZ92Qf0m6qWJWzSDSf3BEpRy502gAAZtT0

Thread-topic: [RFC][PATCH] Per-cpu xentrace buffers

Oh, I'm fine with it. I wasn't sure about putting it in for 4.0.0, but actually plenty is going in for rc2. What do you think? -- Keir On 20/01/2010 17:38, "George Dunlap" <George.Dunlap@xxxxxxxxxxxxx> wrote: > Keir, would you mind commenting on this new design in the next few > days? If it looks like a good design, I'd like to do some more > testing and get this into our next XenServer release. > > -George > > On Thu, Jan 7, 2010 at 3:13 PM, George Dunlap <dunlapg@xxxxxxxxx> wrote: >> In the current xentrace configuration, xentrace buffers are all >> allocated in a single contiguous chunk, and then divided among logical >> cpus, one buffer per cpu. The size of an allocatable chunk is fairly >> limited, in my experience about 128 pages (512KiB). As the number of >> logical cores increase, this means a much smaller maximum per-cpu >> trace buffer per cpu; on my dual-socket quad-core nehalem box with >> hyperthreading (16 logical cpus), that comes to 8 pages per logical >> cpu. >> >> The attached patch addresses this issue by allocating per-cpu buffers >> separately. This allows larger trace buffers; however, it requires an >> interface change to xentrace, which is why I'm making a Request For >> Comments. (I'm not expecting this patch to be included in the 4.0 >> release.) >> >> The old interface to get trace buffers was fairly simple: you ask for >> the info, and it gives you: >> * the mfn of the first page in the buffer allocation >> * the total size of the trace buffer >> >> The tools then mapped [mfn,mfn+size), calculated where the per-pcpu >> buffers were, and went on to consume records from them. >> >> -- Interface -- >> >> The proposed interface works as follows. >> >> * XEN_SYSCTL_TBUFOP_get_info still returns an mfn and a size (so no >> changes to the library). However, this new are is to a trace buffer >> info area (t_info), allocated once at boot time. The trace buffer >> info area contains mfns of the per-pcpu buffers. >> * The t_info struct contains an array of "offset pointers", one per >> pcpu. These are an offset into the t_info data area of an array of >> mfns for that pcpu. So logically, the layout looks like this: >> struct { >> int16_t tbuf_size; /* Number of pages per cpu */ >> int16_t offset[NR_CPUS]; /* Offset into the t_info area of the array */ >> uint32_t mfn[NR_CPUS][TBUF_SIZE]; >> }; >> >> So if NR_CPUS was 16, and TBUF_SIZE was 32, we'd have: >> struct { >> int16_t tbuf_size; /* Number of pages per cpu */ >> int16_t offset[16]; /* Offset into the t_info area of the array */ >> uint32_t p0_mfn_list[32]; >> uint32_t p1_mfn_list[32]; >> ... >> uint32_t p15_mfn_list[32]; >> }; >> * So the new way to map trace buffers is as follows: >> + Call TBUFOP_get_info to get the mfn and size of the t_info area, and map >> it. >> + Get the number of cpus >> + For each cpu: >> - Calculate the offset into the t_info area thus: unsigned long >> *mfn_list = ((unsigned long*)t_info)+(t_info->cpu_offset[cpu])) >> - Map t_info->tbuf_size mfns from mfn_list using xc_map_foreign_batch() >> >> In the current implementation, the t_info size is fixed at 2 pages, >> allowing about 2000 pages total to be mapped. For a 32-way system, >> this would allow up to 63 pages per cpu (256MiB). Bumping this up to >> 4 would allow even larger systems if required. >> >> The current implementation also allocates each trace buffer >> contiguously, since that's the easiest way to get contiguous virtual >> address space. But this interface allows Xen the flexibility, in the >> future, to allocate buffers in several chunks if necessary, without >> having to change the interface again. >> >> -- Implementation notes -- >> >> The t_info area is allocated once at boot. Trace buffers are >> allocated either at boot (if a parameter is passed) or when >> TBUFOP_set_size is called. Due to the complexity of tracking pages >> mapped by dom0, unmapping or resizing trace buffers is not supported. >> >> I introduced a new per-cpu spinlock guarding trace data and buffers. >> This allows per-cpu data to be safely accessed and modified without >> tracing with current tracing events. The per-cpu spinlock is grabbed >> whenever a trace event is generated; but in the (very very very) >> common case, the lock should be in the cache already. >> >> Feedback welcome. >> >> -George >> _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxxxxxxxx http://lists.xensource.com/xen-devel

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