| SQLHIST(1) |
| ========== |
| |
| NAME |
| ---- |
| sqlhist - Tool that uses SQL language to create / show creation of tracefs histograms and synthetic events. |
| |
| SYNOPSIS |
| -------- |
| *sqlhist* ['OPTIONS'] ['SQL-select-command'] |
| |
| DESCRIPTION |
| ----------- |
| The sqlhist(1) will take an SQL like statement to create tracefs histograms and |
| synthetic events that can perform various actions for various handling of the |
| data. |
| |
| The tracefs file system interfaces with the Linux tracing infrastructure that |
| has various dynamic and static events through out the kernel. Each of these |
| events can have a "histogram" attached to it, where the fields of the event |
| will define the buckets of the histogram. |
| |
| A synthetic event is a way to attach two separate events and use the fields |
| and time stamps of those events to create a new dynamic event. This new |
| dynamic event is call a synthetic event. The fields of each event can have |
| simple calculations done on them where, for example, the delta between |
| a field of one event to a field of the other event can be taken. This also |
| works for the time stamps of the events where the time delta between the |
| two events can also be extracted and placed into the synthetic event. |
| |
| Other actions can be done from the fields of the events. A snapshot can |
| be taken of the kernel ring buffer a variable used in the synthetic |
| event creating hits a max, or simply changes. |
| |
| The commands to create histograms and synthetic events are complex and |
| not easy to remember. *sqlhist* is used to convert SQL syntax into the |
| commands needed to create the histogram or synthetic event. |
| |
| The *SQL-select-command* is a SQL string defined by *tracefs_sql*(3). |
| |
| Note, this must be run as root (or sudo) as interacting with the tracefs |
| directory requires root privilege, unless the *-t* option is given with |
| a copy of the _tracefs_ directory and its events. |
| |
| The *sqlhist* is a simple program where its code actual exists in the |
| *tracefs_sql*(3) man page. |
| |
| OPTIONS |
| ------- |
| *-n* 'name':: |
| The name of the synthetic event to create. This event can then be |
| used like any other event, and enabled via *trace-cmd*(1). |
| |
| *-t* 'tracefs-dir':: |
| In order to test this out as non root user, a copy of the tracefs directory |
| can be used, and passing that directory with this option will allow |
| the program to work. Obviously, *-e* will not work as non-root because |
| it will not be able to execute. |
| |
| # mkdir /tmp/tracing |
| # cp -r /sys/kernel/tracing/events /tmp/tracing |
| # exit |
| $ ./sqlhist -t /tmp/tracing ... |
| |
| *-e*:: |
| Not only display the commands to create the histogram, but also execute them. |
| This requires root privilege. |
| |
| *-f* 'file':: |
| Instead of reading the SQL commands from the command line, read them from |
| _file_. If _file_ is '-' then read from standard input. |
| |
| *-m* 'var':: |
| Do the given action when the variable _var_ hits a new maximum. This can |
| not be used with *-c*. |
| |
| *-c* 'var':: |
| Do the given action when the variable _var_ changes its value. This can |
| not be used with *-m*. |
| |
| *-s*:: |
| Perform a snapshot instead of calling the synthetic event. |
| |
| *-T*:: |
| Perform both a snapshot and trace the synthetic event. |
| |
| *-S* 'fields[,fields]':: |
| Save the given fields. The fields must be fields of the "end" event given |
| in the *SQL-select-command* |
| |
| *-B* 'instance':: |
| For simple statements that only produce a histogram, the instance given here |
| will be where the histogram will be created. This is ignored for full synthetic |
| event creation, as sythetic events have a global affect on all tracing instances, |
| where as, histograms only affect a single instance. |
| |
| EXAMPLES |
| -------- |
| |
| Create the sqlhist executable: |
| |
| [source, c] |
| -- |
| man tracefs_sql | sed -ne '/^EXAMPLE/,/FILES/ { /EXAMPLE/d ; /FILES/d ; p}' > sqlhist.c |
| gcc -o sqlhist sqlhist.c `pkg-config --cflags --libs libtracefs` |
| -- |
| |
| As described above, for testing purposes, make a copy of the event directory: |
| [source, c] |
| -- |
| $ mkdir /tmp/tracing |
| $ sudo cp -r /sys/kernel/tracing/events /tmp/tracing/ |
| $ sudo chmod -R 0644 /tmp/tracing/ |
| -- |
| |
| For an example of simple histogram output using the copy of the tracefs directory. |
| [source, c] |
| -- |
| $ ./sqlhist -t /tmp/tracing/ 'SELECT CAST(call_site as SYM-OFFSET), bytes_req, CAST(bytes_alloc AS _COUNTER_) FROM kmalloc' |
| -- |
| |
| Produces the output: |
| [source, c] |
| -- |
| echo 'hist:keys=call_site.sym-offset,bytes_req:vals=bytes_alloc' > /sys/kernel/tracing/events/kmem/kmalloc/trigger |
| -- |
| |
| Which could be used by root: |
| [source, c] |
| -- |
| # echo 'hist:keys=call_site.sym-offset,bytes_req:vals=bytes_alloc' > /sys/kernel/tracing/events/kmem/kmalloc/trigger |
| # cat /sys/kernel/tracing/events/kmem/kmalloc/hist |
| # event histogram |
| # |
| # trigger info: hist:keys=call_site.sym-offset,bytes_req:vals=hitcount,bytes_alloc:sort=hitcount:size=2048 [active] |
| # |
| |
| { call_site: [ffffffff813f8d8a] load_elf_phdrs+0x4a/0xb0 , bytes_req: 728 } hitcount: 1 bytes_alloc: 1024 |
| { call_site: [ffffffffc0c69e74] nf_ct_ext_add+0xd4/0x1d0 [nf_conntrack] , bytes_req: 128 } hitcount: 1 bytes_alloc: 128 |
| { call_site: [ffffffff818355e6] dma_resv_get_fences+0xf6/0x440 , bytes_req: 8 } hitcount: 1 bytes_alloc: 8 |
| { call_site: [ffffffffc06dc73f] intel_gt_get_buffer_pool+0x15f/0x290 [i915] , bytes_req: 424 } hitcount: 1 bytes_alloc: 512 |
| { call_site: [ffffffff813f8d8a] load_elf_phdrs+0x4a/0xb0 , bytes_req: 616 } hitcount: 1 bytes_alloc: 1024 |
| { call_site: [ffffffff8161a44c] __sg_alloc_table+0x11c/0x180 , bytes_req: 32 } hitcount: 1 bytes_alloc: 32 |
| { call_site: [ffffffffc070749d] shmem_get_pages+0xad/0x5d0 [i915] , bytes_req: 16 } hitcount: 1 bytes_alloc: 16 |
| { call_site: [ffffffffc07507f5] intel_framebuffer_create+0x25/0x60 [i915] , bytes_req: 408 } hitcount: 1 bytes_alloc: 512 |
| { call_site: [ffffffffc06fc20f] eb_parse+0x34f/0x910 [i915] , bytes_req: 408 } hitcount: 1 bytes_alloc: 512 |
| { call_site: [ffffffffc0700ebd] i915_gem_object_get_pages_internal+0x5d/0x270 [i915] , bytes_req: 16 } hitcount: 1 bytes_alloc: 16 |
| { call_site: [ffffffffc0771188] intel_frontbuffer_get+0x38/0x220 [i915] , bytes_req: 400 } hitcount: 1 bytes_alloc: 512 |
| { call_site: [ffffffff8161a44c] __sg_alloc_table+0x11c/0x180 , bytes_req: 128 } hitcount: 1 bytes_alloc: 128 |
| { call_site: [ffffffff813f8f45] load_elf_binary+0x155/0x1680 , bytes_req: 28 } hitcount: 1 bytes_alloc: 32 |
| { call_site: [ffffffffc07038c8] __assign_mmap_offset+0x208/0x3d0 [i915] , bytes_req: 288 } hitcount: 1 bytes_alloc: 512 |
| { call_site: [ffffffff813737b2] alloc_bprm+0x32/0x2f0 , bytes_req: 416 } hitcount: 1 bytes_alloc: 512 |
| { call_site: [ffffffff813f9027] load_elf_binary+0x237/0x1680 , bytes_req: 64 } hitcount: 1 bytes_alloc: 64 |
| { call_site: [ffffffff8161a44c] __sg_alloc_table+0x11c/0x180 , bytes_req: 64 } hitcount: 1 bytes_alloc: 64 |
| { call_site: [ffffffffc040ffe7] drm_vma_node_allow+0x27/0xe0 [drm] , bytes_req: 40 } hitcount: 2 bytes_alloc: 128 |
| { call_site: [ffffffff813cda98] __do_sys_timerfd_create+0x58/0x1c0 , bytes_req: 336 } hitcount: 2 bytes_alloc: 1024 |
| { call_site: [ffffffff818355e6] dma_resv_get_fences+0xf6/0x440 , bytes_req: 40 } hitcount: 2 bytes_alloc: 128 |
| { call_site: [ffffffff8139b75a] single_open+0x2a/0xa0 , bytes_req: 32 } hitcount: 2 bytes_alloc: 64 |
| { call_site: [ffffffff815df715] bio_kmalloc+0x25/0x80 , bytes_req: 136 } hitcount: 2 bytes_alloc: 384 |
| { call_site: [ffffffffc071e5cd] i915_vma_work+0x1d/0x50 [i915] , bytes_req: 416 } hitcount: 3 bytes_alloc: 1536 |
| { call_site: [ffffffff81390d0d] alloc_fdtable+0x4d/0x100 , bytes_req: 56 } hitcount: 3 bytes_alloc: 192 |
| { call_site: [ffffffffc06ff65f] i915_gem_do_execbuffer+0x158f/0x2440 [i915] , bytes_req: 16 } hitcount: 4 bytes_alloc: 64 |
| { call_site: [ffffffff8137713c] alloc_pipe_info+0x5c/0x230 , bytes_req: 384 } hitcount: 5 bytes_alloc: 2560 |
| { call_site: [ffffffff813771b4] alloc_pipe_info+0xd4/0x230 , bytes_req: 640 } hitcount: 5 bytes_alloc: 5120 |
| { call_site: [ffffffff81834cdb] dma_resv_list_alloc+0x1b/0x40 , bytes_req: 40 } hitcount: 6 bytes_alloc: 384 |
| { call_site: [ffffffff81834cdb] dma_resv_list_alloc+0x1b/0x40 , bytes_req: 56 } hitcount: 9 bytes_alloc: 576 |
| { call_site: [ffffffff8120086e] tracing_map_sort_entries+0x9e/0x3e0 , bytes_req: 24 } hitcount: 60 bytes_alloc: 1920 |
| |
| Totals: |
| Hits: 122 |
| Entries: 30 |
| Dropped: 0 |
| -- |
| |
| Note, although the examples use uppercase for the SQL keywords, they do not have |
| to be. 'SELECT' could also be 'select' or even 'sElEcT'. |
| |
| By using the full SQL language, synthetic events can be made and processed. |
| For example, using *sqlhist* along with *trace-cmd*(1), wake up latency can |
| be recorded by creating a synthetic event by attaching the _sched_waking_ |
| and the _sched_switch_ events. |
| |
| [source, c] |
| -- |
| # sqlhist -n wakeup_lat -e -T -m lat 'SELECT end.next_comm AS comm, (end.TIMESTAMP_USECS - start.TIMESTAMP_USECS) AS lat FROM ' \ |
| 'sched_waking AS start JOIN sched_switch AS end ON start.pid = end.next_pid WHERE end.next_prio < 100 && end.next_comm == "cyclictest"' |
| # trace-cmd start -e all -e wakeup_lat -R stacktrace |
| # cyclictest -l 1000 -p80 -i250 -a -t -q -m -d 0 -b 1000 --tracemark |
| # trace-cmd show -s | tail -30 |
| <idle>-0 [002] dNh4 23454.902246: sched_wakeup: comm=cyclictest pid=12272 prio=120 target_cpu=002 |
| <idle>-0 [005] ...1 23454.902246: cpu_idle: state=4294967295 cpu_id=5 |
| <idle>-0 [007] d..1 23454.902246: cpu_idle: state=0 cpu_id=7 |
| <idle>-0 [002] dNh1 23454.902247: hrtimer_expire_exit: hrtimer=0000000037956dc2 |
| <idle>-0 [005] d..1 23454.902248: cpu_idle: state=0 cpu_id=5 |
| <idle>-0 [002] dNh1 23454.902248: write_msr: 6e0, value 4866ce957272 |
| <idle>-0 [006] ...1 23454.902248: cpu_idle: state=4294967295 cpu_id=6 |
| <idle>-0 [002] dNh1 23454.902249: local_timer_exit: vector=236 |
| <idle>-0 [006] d..1 23454.902250: cpu_idle: state=0 cpu_id=6 |
| <idle>-0 [002] .N.1 23454.902250: cpu_idle: state=4294967295 cpu_id=2 |
| <idle>-0 [002] dN.1 23454.902251: rcu_utilization: Start context switch |
| <idle>-0 [002] dN.1 23454.902252: rcu_utilization: End context switch |
| <idle>-0 [001] ...1 23454.902252: cpu_idle: state=4294967295 cpu_id=1 |
| <idle>-0 [002] dN.3 23454.902253: prandom_u32: ret=3692516021 |
| <idle>-0 [001] d..1 23454.902254: cpu_idle: state=0 cpu_id=1 |
| <idle>-0 [002] d..2 23454.902254: sched_switch: prev_comm=swapper/2 prev_pid=0 prev_prio=120 prev_state=R ==> next_comm=cyclictest next_pid=12275 next_prio=19 |
| <idle>-0 [002] d..4 23454.902256: wakeup_lat: next_comm=cyclictest lat=17 |
| <idle>-0 [002] d..5 23454.902258: <stack trace> |
| => trace_event_raw_event_synth |
| => action_trace |
| => event_hist_trigger |
| => event_triggers_call |
| => trace_event_buffer_commit |
| => trace_event_raw_event_sched_switch |
| => __traceiter_sched_switch |
| => __schedule |
| => schedule_idle |
| => do_idle |
| => cpu_startup_entry |
| => secondary_startup_64_no_verify |
| -- |
| |
| Here's the options for *sqlhist* explained: |
| |
| *-n wakeup_lat* :: |
| Name the synthetic event to use *wakeup_lat*. |
| |
| *-e*:: |
| Execute the commands that are printed. |
| |
| *-T*:: |
| Perform both a trace action and then a snapshot action (swap the buffer into the static 'snapshot' buffer). |
| |
| *-m lat*:: |
| Trigger the actions whenever 'lat' hits a new maximum value. |
| |
| Now a breakdown of the SQL statement: |
| [source, c] |
| -- |
| 'SELECT end.next_comm AS comm, (end.TIMESTAMP_USECS - start.TIMESTAMP_USECS) AS lat FROM ' \ |
| 'sched_waking AS start JOIN sched_switch AS end ON start.pid = end.next_pid WHERE end.next_prio < 100 && end.next_comm == "cyclictest"' |
| -- |
| *end.next_comm AS comm*:: |
| Save the 'sched_switch' field *next_comm* and place it into the *comm* field of the 'wakeup_lat' synthetic event. |
| |
| *(end.TIMESTAMP_USECS - start.TIMESTAMP_USECS) AS lat*:: |
| Take the delta of the time stamps from the 'sched_switch' event and the 'sched_waking' event. |
| As time stamps are usually recorded in nanoseconds, *TIMESTAMP* would give the full nanosecond time stamp, |
| but here, the *TIMESTAMP_USECS* will truncate it into microseconds. The value is saved in the |
| variable *lat*, which will also be recorded in the synthetic event. |
| |
| *FROM 'sched_waking' AS start JOIN sched_switch AS end ON start.pid = end.next_pid*:: |
| Create the synthetic event by joining _sched_waking_ to _sched_switch_, matching |
| the _sched_waking_ 'pid' field with the _sched_switch_ 'next_pid' field. |
| Also make *start* an alias for _sched_waking_ and *end* an alias for _sched_switch_ |
| which then an use *start* and *end* as a subsitute for _sched_waking_ and _sched_switch_ |
| respectively through out the rest of the SQL statement. |
| |
| *WHERE end.next_prio < 100 && end.next_comm == "cyclictest"*:: |
| Filter the logic where it executes only if _sched_waking_ 'next_prio' field |
| is less than 100. (Note, in the Kernel, priorities are inverse, and the real-time |
| priorities are represented from 0-100 where 0 is the highest priority). |
| Also only trace when the 'next_comm' (the task scheduling in) of the _sched_switch_ |
| event has the name "cyclictest". |
| |
| For the *trace-cmd*(3) command: |
| [source, c] |
| -- |
| trace-cmd start -e all -e wakeup_lat -R stacktrace |
| -- |
| |
| *trace-cmd start*:: |
| Enables tracing (does not record to a file). |
| |
| *-e all*:: |
| Enable all events |
| |
| *-e wakeup_lat -R stacktrace*:: |
| have the "wakeup_lat" event (our synthetic event) enable the *stacktrace* trigger, were |
| for every instance of the "wakeup_lat" event, a kernel stack trace will be recorded |
| in the ring buffer. |
| |
| After calling *cyclictest* (a real-time tool to measure wakeup latency), read the snapshot |
| buffer. |
| |
| *trace-cmd show -s*:: |
| *trace-cmd show* reads the kernel ring buffer, and the *-s* option will read the *snapshot* |
| buffer instead of the normal one. |
| |
| [source, c] |
| -- |
| <idle>-0 [002] d..4 23454.902256: wakeup_lat: next_comm=cyclictest lat=17 |
| -- |
| We see on the "wakeup_lat" event happened on CPU 2, with a wake up latency 17 microseconds. |
| |
| This can be extracted into a *trace.dat* file that *trace-cmd*(3) can read and do further |
| analysis, as well as *kernelshark*. |
| |
| [source, c] |
| -- |
| # trace-cmd extract -s |
| # trace-cmd report --cpu 2 | tail -30 |
| <idle>-0 [002] 23454.902238: prandom_u32: ret=1633425088 |
| <idle>-0 [002] 23454.902239: sched_wakeup: cyclictest:12275 [19] CPU:002 |
| <idle>-0 [002] 23454.902241: hrtimer_expire_exit: hrtimer=0xffffbbd68286fe60 |
| <idle>-0 [002] 23454.902241: hrtimer_cancel: hrtimer=0xffffbbd6826efe70 |
| <idle>-0 [002] 23454.902242: hrtimer_expire_entry: hrtimer=0xffffbbd6826efe70 now=23455294430750 function=hrtimer_wakeup/0x0 |
| <idle>-0 [002] 23454.902243: sched_waking: comm=cyclictest pid=12272 prio=120 target_cpu=002 |
| <idle>-0 [002] 23454.902244: prandom_u32: ret=1102749734 |
| <idle>-0 [002] 23454.902246: sched_wakeup: cyclictest:12272 [120] CPU:002 |
| <idle>-0 [002] 23454.902247: hrtimer_expire_exit: hrtimer=0xffffbbd6826efe70 |
| <idle>-0 [002] 23454.902248: write_msr: 6e0, value 4866ce957272 |
| <idle>-0 [002] 23454.902249: local_timer_exit: vector=236 |
| <idle>-0 [002] 23454.902250: cpu_idle: state=4294967295 cpu_id=2 |
| <idle>-0 [002] 23454.902251: rcu_utilization: Start context switch |
| <idle>-0 [002] 23454.902252: rcu_utilization: End context switch |
| <idle>-0 [002] 23454.902253: prandom_u32: ret=3692516021 |
| <idle>-0 [002] 23454.902254: sched_switch: swapper/2:0 [120] R ==> cyclictest:12275 [19] |
| <idle>-0 [002] 23454.902256: wakeup_lat: next_comm=cyclictest lat=17 |
| <idle>-0 [002] 23454.902258: kernel_stack: <stack trace > |
| => trace_event_raw_event_synth (ffffffff8121a0db) |
| => action_trace (ffffffff8121e9fb) |
| => event_hist_trigger (ffffffff8121ca8d) |
| => event_triggers_call (ffffffff81216c72) |
| => trace_event_buffer_commit (ffffffff811f7618) |
| => trace_event_raw_event_sched_switch (ffffffff8110fda4) |
| => __traceiter_sched_switch (ffffffff8110d449) |
| => __schedule (ffffffff81c02002) |
| => schedule_idle (ffffffff81c02c86) |
| => do_idle (ffffffff8111e898) |
| => cpu_startup_entry (ffffffff8111eba9) |
| => secondary_startup_64_no_verify (ffffffff81000107) |
| -- |
| |
| BUGS |
| ---- |
| |
| As *sqlhist* is just example code from a man page, it is guaranteed to contain |
| lots of bugs. For one thing, not all error paths are covered properly. |
| |
| SEE ALSO |
| -------- |
| trace-cmd(1), tracefs_sql(3) |
| |
| AUTHOR |
| ------ |
| Written by Steven Rostedt, <rostedt@goodmis.org> |
| |
| RESOURCES |
| --------- |
| https://git.kernel.org/pub/scm/utils/trace-cmd/trace-cmd.git/ |
| |
| COPYING |
| ------- |
| Copyright \(C) 2021 , Inc. Free use of this software is granted under |
| the terms of the GNU Public License (GPL). |
| |