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authorThomas Richter <tmricht@linux.ibm.com>2019-12-04 09:29:20 +0100
committerVasily Gorbik <gor@linux.ibm.com>2020-02-17 18:04:15 +0100
commit0d6f1693f255795d5c747dc444d69c6512586d98 (patch)
tree073871ca087607e67bb45ad10b8cfab575363b57
parent11a48a5a18c63fd7621bb050228cebf13566e4d8 (diff)
downloadlinux-0d6f1693f255795d5c747dc444d69c6512586d98.tar.bz2
s390/cpum_sf: Rework sampling buffer allocation
Adjust sampling buffer allocation depending on frequency and correct comments. Investigation on the interrupt handler revealed that almost always one interupt services one SDB, even when running with the maximum frequency of 100000. Very rarely there have been 2 SBD serviced per interrupt. Therefore reduce the number of SBD per CPU. Each SDB is one page in size. The new formula results in freq:4000 n_sdb:32 new:16 freq:10000 n_sdb:80 new:16 freq:20000 n_sdb:159 new:17 freq:40000 n_sdb:318 new:19 freq:50000 n_sdb:397 new:20 freq:62500 n_sdb:497 new:22 freq:83333 n_sdb:662 new:24 freq:100000 n_sdb:794 new:25 Signed-off-by: Thomas Richter <tmricht@linux.ibm.com> Signed-off-by: Vasily Gorbik <gor@linux.ibm.com>
-rw-r--r--arch/s390/kernel/perf_cpum_sf.c40
1 files changed, 21 insertions, 19 deletions
diff --git a/arch/s390/kernel/perf_cpum_sf.c b/arch/s390/kernel/perf_cpum_sf.c
index b095b1c78987..cf2020b8db44 100644
--- a/arch/s390/kernel/perf_cpum_sf.c
+++ b/arch/s390/kernel/perf_cpum_sf.c
@@ -372,28 +372,33 @@ static void deallocate_buffers(struct cpu_hw_sf *cpuhw)
static int allocate_buffers(struct cpu_hw_sf *cpuhw, struct hw_perf_event *hwc)
{
- unsigned long n_sdb, freq, factor;
+ unsigned long n_sdb, freq;
size_t sample_size;
/* Calculate sampling buffers using 4K pages
*
- * 1. Determine the sample data size which depends on the used
- * sampling functions, for example, basic-sampling or
- * basic-sampling with diagnostic-sampling.
+ * 1. The sampling size is 32 bytes for basic sampling. This size
+ * is the same for all machine types. Diagnostic
+ * sampling uses auxlilary data buffer setup which provides the
+ * memory for SDBs using linux common code auxiliary trace
+ * setup.
*
- * 2. Use the sampling frequency as input. The sampling buffer is
- * designed for almost one second. This can be adjusted through
- * the "factor" variable.
- * In any case, alloc_sampling_buffer() sets the Alert Request
+ * 2. Function alloc_sampling_buffer() sets the Alert Request
* Control indicator to trigger a measurement-alert to harvest
- * sample-data-blocks (sdb).
+ * sample-data-blocks (SDB). This is done per SDB. This
+ * measurement alert interrupt fires quick enough to handle
+ * one SDB, on very high frequency and work loads there might
+ * be 2 to 3 SBDs available for sample processing.
+ * Currently there is no need for setup alert request on every
+ * n-th page. This is counterproductive as one IRQ triggers
+ * a very high number of samples to be processed at one IRQ.
*
- * 3. Compute the number of sample-data-blocks and ensure a minimum
- * of CPUM_SF_MIN_SDB. Also ensure the upper limit does not
- * exceed a "calculated" maximum. The symbolic maximum is
- * designed for basic-sampling only and needs to be increased if
- * diagnostic-sampling is active.
- * See also the remarks for these symbolic constants.
+ * 3. Use the sampling frequency as input.
+ * Compute the number of SDBs and ensure a minimum
+ * of CPUM_SF_MIN_SDB. Depending on frequency add some more
+ * SDBs to handle a higher sampling rate.
+ * Use a minimum of CPUM_SF_MIN_SDB and allow for 100 samples
+ * (one SDB) for every 10000 HZ frequency increment.
*
* 4. Compute the number of sample-data-block-tables (SDBT) and
* ensure a minimum of CPUM_SF_MIN_SDBT (one table can manage up
@@ -401,10 +406,7 @@ static int allocate_buffers(struct cpu_hw_sf *cpuhw, struct hw_perf_event *hwc)
*/
sample_size = sizeof(struct hws_basic_entry);
freq = sample_rate_to_freq(&cpuhw->qsi, SAMPL_RATE(hwc));
- factor = 1;
- n_sdb = DIV_ROUND_UP(freq, factor * ((PAGE_SIZE-64) / sample_size));
- if (n_sdb < CPUM_SF_MIN_SDB)
- n_sdb = CPUM_SF_MIN_SDB;
+ n_sdb = CPUM_SF_MIN_SDB + DIV_ROUND_UP(freq, 10000);
/* If there is already a sampling buffer allocated, it is very likely
* that the sampling facility is enabled too. If the event to be