Boot-time tracing

Author

Masami Hiramatsu <mhiramat@kernel.org>

Overview

Boot-time tracing allows users to trace boot-time process including device initialization with full features of ftrace including per-event filter and actions, histograms, kprobe-events and synthetic-events, and trace instances. Since kernel command line is not enough to control these complex features, this uses bootconfig file to describe tracing feature programming.

Options in the Boot Config

Here is the list of available options list for boot time tracing in boot config file 1. All options are under “ftrace.” or “kernel.” prefix. See kernel parameters for the options which starts with “kernel.” prefix 2.

1

See Boot Configuration

2

See The kernel’s command-line parameters

Ftrace Global Options

Ftrace global options have “kernel.” prefix in boot config, which means these options are passed as a part of kernel legacy command line.

kernel.tp_printk

Output trace-event data on printk buffer too.

kernel.dump_on_oops [= MODE]

Dump ftrace on Oops. If MODE = 1 or omitted, dump trace buffer on all CPUs. If MODE = 2, dump a buffer on a CPU which kicks Oops.

kernel.traceoff_on_warning

Stop tracing if WARN_ON() occurs.

kernel.fgraph_max_depth = MAX_DEPTH

Set MAX_DEPTH to maximum depth of fgraph tracer.

kernel.fgraph_filters = FILTER[, FILTER2…]

Add fgraph tracing function filters.

kernel.fgraph_notraces = FILTER[, FILTER2…]

Add fgraph non-tracing function filters.

Ftrace Per-instance Options

These options can be used for each instance including global ftrace node.

ftrace.[instance.INSTANCE.]options = OPT1[, OPT2[…]]

Enable given ftrace options.

ftrace.[instance.INSTANCE.]tracing_on = 0|1

Enable/Disable tracing on this instance when starting boot-time tracing. (you can enable it by the “traceon” event trigger action)

ftrace.[instance.INSTANCE.]trace_clock = CLOCK

Set given CLOCK to ftrace’s trace_clock.

ftrace.[instance.INSTANCE.]buffer_size = SIZE

Configure ftrace buffer size to SIZE. You can use “KB” or “MB” for that SIZE.

ftrace.[instance.INSTANCE.]alloc_snapshot

Allocate snapshot buffer.

ftrace.[instance.INSTANCE.]cpumask = CPUMASK

Set CPUMASK as trace cpu-mask.

ftrace.[instance.INSTANCE.]events = EVENT[, EVENT2[…]]

Enable given events on boot. You can use a wild card in EVENT.

ftrace.[instance.INSTANCE.]tracer = TRACER

Set TRACER to current tracer on boot. (e.g. function)

ftrace.[instance.INSTANCE.]ftrace.filters

This will take an array of tracing function filter rules.

ftrace.[instance.INSTANCE.]ftrace.notraces

This will take an array of NON-tracing function filter rules.

Ftrace Per-Event Options

These options are setting per-event options.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.enable

Enable GROUP:EVENT tracing.

ftrace.[instance.INSTANCE.]event.GROUP.enable

Enable all event tracing within GROUP.

ftrace.[instance.INSTANCE.]event.enable

Enable all event tracing.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.filter = FILTER

Set FILTER rule to the GROUP:EVENT.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.actions = ACTION[, ACTION2[…]]

Set ACTIONs to the GROUP:EVENT.

ftrace.[instance.INSTANCE.]event.kprobes.EVENT.probes = PROBE[, PROBE2[…]]

Defines new kprobe event based on PROBEs. It is able to define multiple probes on one event, but those must have same type of arguments. This option is available only for the event which group name is “kprobes”.

ftrace.[instance.INSTANCE.]event.synthetic.EVENT.fields = FIELD[, FIELD2[…]]

Defines new synthetic event with FIELDs. Each field should be “type varname”.

Note that kprobe and synthetic event definitions can be written under instance node, but those are also visible from other instances. So please take care for event name conflict.

Ftrace Histogram Options

Since it is too long to write a histogram action as a string for per-event action option, there are tree-style options under per-event ‘hist’ subkey for the histogram actions. For the detail of the each parameter, please read the event histogram document 3.

3

See Event Histograms

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]keys = KEY1[, KEY2[…]]

Set histogram key parameters. (Mandatory) The ‘N’ is a digit string for the multiple histogram. You can omit it if there is one histogram on the event.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]values = VAL1[, VAL2[…]]

Set histogram value parameters.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]sort = SORT1[, SORT2[…]]

Set histogram sort parameter options.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]size = NR_ENTRIES

Set histogram size (number of entries).

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]name = NAME

Set histogram name.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]var.VARIABLE = EXPR

Define a new VARIABLE by EXPR expression.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]<pause|continue|clear>

Set histogram control parameter. You can set one of them.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]onmatch.[M.]event = GROUP.EVENT

Set histogram ‘onmatch’ handler matching event parameter. The ‘M’ is a digit string for the multiple ‘onmatch’ handler. You can omit it if there is one ‘onmatch’ handler on this histogram.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]onmatch.[M.]trace = EVENT[, ARG1[…]]

Set histogram ‘trace’ action for ‘onmatch’. EVENT must be a synthetic event name, and ARG1… are parameters for that event. Mandatory if ‘onmatch.event’ option is set.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]onmax.[M.]var = VAR

Set histogram ‘onmax’ handler variable parameter.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]onchange.[M.]var = VAR

Set histogram ‘onchange’ handler variable parameter.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]<onmax|onchange>.[M.]save = ARG1[, ARG2[…]]

Set histogram ‘save’ action parameters for ‘onmax’ or ‘onchange’ handler. This option or below ‘snapshot’ option is mandatory if ‘onmax.var’ or ‘onchange.var’ option is set.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.[N.]<onmax|onchange>.[M.]snapshot

Set histogram ‘snapshot’ action for ‘onmax’ or ‘onchange’ handler. This option or above ‘save’ option is mandatory if ‘onmax.var’ or ‘onchange.var’ option is set.

ftrace.[instance.INSTANCE.]event.GROUP.EVENT.hist.filter = FILTER_EXPR

Set histogram filter expression. You don’t need ‘if’ in the FILTER_EXPR.

Note that this ‘hist’ option can conflict with the per-event ‘actions’ option if the ‘actions’ option has a histogram action.

When to Start

All boot-time tracing options starting with ftrace will be enabled at the end of core_initcall. This means you can trace the events from postcore_initcall. Most of the subsystems and architecture dependent drivers will be initialized after that (arch_initcall or subsys_initcall). Thus, you can trace those with boot-time tracing. If you want to trace events before core_initcall, you can use the options starting with kernel. Some of them will be enabled eariler than the initcall processing (for example,. kernel.ftrace=function and kernel.trace_event will start before the initcall.)

Examples

For example, to add filter and actions for each event, define kprobe events, and synthetic events with histogram, write a boot config like below:

ftrace.event {
      task.task_newtask {
              filter = "pid < 128"
              enable
      }
      kprobes.vfs_read {
              probes = "vfs_read $arg1 $arg2"
              filter = "common_pid < 200"
              enable
      }
      synthetic.initcall_latency {
              fields = "unsigned long func", "u64 lat"
              hist {
                      keys = func.sym, lat
                      values = lat
                      sort = lat
              }
      }
      initcall.initcall_start.hist {
              keys = func
              var.ts0 = common_timestamp.usecs
      }
      initcall.initcall_finish.hist {
              keys = func
              var.lat = common_timestamp.usecs - $ts0
              onmatch {
                      event = initcall.initcall_start
                      trace = initcall_latency, func, $lat
              }
      }
}

Also, boot-time tracing supports “instance” node, which allows us to run several tracers for different purpose at once. For example, one tracer is for tracing functions starting with “user_”, and others tracing “kernel_” functions, you can write boot config as below:

ftrace.instance {
      foo {
              tracer = "function"
              ftrace.filters = "user_*"
      }
      bar {
              tracer = "function"
              ftrace.filters = "kernel_*"
      }
}

The instance node also accepts event nodes so that each instance can customize its event tracing.

With the trigger action and kprobes, you can trace function-graph while a function is called. For example, this will trace all function calls in the pci_proc_init():

ftrace {
      tracing_on = 0
      tracer = function_graph
      event.kprobes {
              start_event {
                      probes = "pci_proc_init"
                      actions = "traceon"
              }
              end_event {
                      probes = "pci_proc_init%return"
                      actions = "traceoff"
              }
      }
}

This boot-time tracing also supports ftrace kernel parameters via boot config. For example, following kernel parameters:

trace_options=sym-addr trace_event=initcall:* tp_printk trace_buf_size=1M ftrace=function ftrace_filter="vfs*"

This can be written in boot config like below:

kernel {
      trace_options = sym-addr
      trace_event = "initcall:*"
      tp_printk
      trace_buf_size = 1M
      ftrace = function
      ftrace_filter = "vfs*"
}

Note that parameters start with “kernel” prefix instead of “ftrace”.