349 lines
12 KiB
ReStructuredText
349 lines
12 KiB
ReStructuredText
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=================================
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Using ftrace to hook to functions
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=================================
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.. Copyright 2017 VMware Inc.
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.. Author: Steven Rostedt <srostedt@goodmis.org>
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.. License: The GNU Free Documentation License, Version 1.2
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.. (dual licensed under the GPL v2)
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Written for: 4.14
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Introduction
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============
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The ftrace infrastructure was originally created to attach callbacks to the
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beginning of functions in order to record and trace the flow of the kernel.
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But callbacks to the start of a function can have other use cases. Either
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for live kernel patching, or for security monitoring. This document describes
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how to use ftrace to implement your own function callbacks.
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The ftrace context
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==================
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.. warning::
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The ability to add a callback to almost any function within the
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kernel comes with risks. A callback can be called from any context
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(normal, softirq, irq, and NMI). Callbacks can also be called just before
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going to idle, during CPU bring up and takedown, or going to user space.
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This requires extra care to what can be done inside a callback. A callback
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can be called outside the protective scope of RCU.
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There are helper functions to help against recursion, and making sure
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RCU is watching. These are explained below.
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The ftrace_ops structure
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========================
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To register a function callback, a ftrace_ops is required. This structure
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is used to tell ftrace what function should be called as the callback
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as well as what protections the callback will perform and not require
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ftrace to handle.
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There is only one field that is needed to be set when registering
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an ftrace_ops with ftrace:
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.. code-block:: c
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struct ftrace_ops ops = {
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.func = my_callback_func,
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.flags = MY_FTRACE_FLAGS
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.private = any_private_data_structure,
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};
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Both .flags and .private are optional. Only .func is required.
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To enable tracing call::
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register_ftrace_function(&ops);
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To disable tracing call::
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unregister_ftrace_function(&ops);
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The above is defined by including the header::
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#include <linux/ftrace.h>
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The registered callback will start being called some time after the
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register_ftrace_function() is called and before it returns. The exact time
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that callbacks start being called is dependent upon architecture and scheduling
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of services. The callback itself will have to handle any synchronization if it
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must begin at an exact moment.
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The unregister_ftrace_function() will guarantee that the callback is
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no longer being called by functions after the unregister_ftrace_function()
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returns. Note that to perform this guarantee, the unregister_ftrace_function()
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may take some time to finish.
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The callback function
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=====================
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The prototype of the callback function is as follows (as of v4.14):
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.. code-block:: c
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void callback_func(unsigned long ip, unsigned long parent_ip,
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struct ftrace_ops *op, struct pt_regs *regs);
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@ip
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This is the instruction pointer of the function that is being traced.
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(where the fentry or mcount is within the function)
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@parent_ip
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This is the instruction pointer of the function that called the
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the function being traced (where the call of the function occurred).
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@op
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This is a pointer to ftrace_ops that was used to register the callback.
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This can be used to pass data to the callback via the private pointer.
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@regs
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If the FTRACE_OPS_FL_SAVE_REGS or FTRACE_OPS_FL_SAVE_REGS_IF_SUPPORTED
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flags are set in the ftrace_ops structure, then this will be pointing
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to the pt_regs structure like it would be if an breakpoint was placed
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at the start of the function where ftrace was tracing. Otherwise it
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either contains garbage, or NULL.
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Protect your callback
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=====================
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As functions can be called from anywhere, and it is possible that a function
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called by a callback may also be traced, and call that same callback,
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recursion protection must be used. There are two helper functions that
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can help in this regard. If you start your code with:
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.. code-block:: c
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int bit;
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bit = ftrace_test_recursion_trylock(ip, parent_ip);
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if (bit < 0)
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return;
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and end it with:
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.. code-block:: c
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ftrace_test_recursion_unlock(bit);
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The code in between will be safe to use, even if it ends up calling a
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function that the callback is tracing. Note, on success,
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ftrace_test_recursion_trylock() will disable preemption, and the
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ftrace_test_recursion_unlock() will enable it again (if it was previously
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enabled). The instruction pointer (ip) and its parent (parent_ip) is passed to
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ftrace_test_recursion_trylock() to record where the recursion happened
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(if CONFIG_FTRACE_RECORD_RECURSION is set).
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Alternatively, if the FTRACE_OPS_FL_RECURSION flag is set on the ftrace_ops
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(as explained below), then a helper trampoline will be used to test
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for recursion for the callback and no recursion test needs to be done.
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But this is at the expense of a slightly more overhead from an extra
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function call.
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If your callback accesses any data or critical section that requires RCU
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protection, it is best to make sure that RCU is "watching", otherwise
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that data or critical section will not be protected as expected. In this
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case add:
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.. code-block:: c
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if (!rcu_is_watching())
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return;
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Alternatively, if the FTRACE_OPS_FL_RCU flag is set on the ftrace_ops
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(as explained below), then a helper trampoline will be used to test
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for rcu_is_watching for the callback and no other test needs to be done.
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But this is at the expense of a slightly more overhead from an extra
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function call.
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The ftrace FLAGS
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================
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The ftrace_ops flags are all defined and documented in include/linux/ftrace.h.
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Some of the flags are used for internal infrastructure of ftrace, but the
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ones that users should be aware of are the following:
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FTRACE_OPS_FL_SAVE_REGS
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If the callback requires reading or modifying the pt_regs
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passed to the callback, then it must set this flag. Registering
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a ftrace_ops with this flag set on an architecture that does not
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support passing of pt_regs to the callback will fail.
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FTRACE_OPS_FL_SAVE_REGS_IF_SUPPORTED
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Similar to SAVE_REGS but the registering of a
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ftrace_ops on an architecture that does not support passing of regs
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will not fail with this flag set. But the callback must check if
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regs is NULL or not to determine if the architecture supports it.
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FTRACE_OPS_FL_RECURSION
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By default, it is expected that the callback can handle recursion.
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But if the callback is not that worried about overehead, then
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setting this bit will add the recursion protection around the
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callback by calling a helper function that will do the recursion
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protection and only call the callback if it did not recurse.
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Note, if this flag is not set, and recursion does occur, it could
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cause the system to crash, and possibly reboot via a triple fault.
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Not, if this flag is set, then the callback will always be called
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with preemption disabled. If it is not set, then it is possible
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(but not guaranteed) that the callback will be called in
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preemptable context.
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FTRACE_OPS_FL_IPMODIFY
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Requires FTRACE_OPS_FL_SAVE_REGS set. If the callback is to "hijack"
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the traced function (have another function called instead of the
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traced function), it requires setting this flag. This is what live
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kernel patches uses. Without this flag the pt_regs->ip can not be
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modified.
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Note, only one ftrace_ops with FTRACE_OPS_FL_IPMODIFY set may be
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registered to any given function at a time.
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FTRACE_OPS_FL_RCU
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If this is set, then the callback will only be called by functions
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where RCU is "watching". This is required if the callback function
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performs any rcu_read_lock() operation.
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RCU stops watching when the system goes idle, the time when a CPU
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is taken down and comes back online, and when entering from kernel
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to user space and back to kernel space. During these transitions,
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a callback may be executed and RCU synchronization will not protect
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it.
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FTRACE_OPS_FL_PERMANENT
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If this is set on any ftrace ops, then the tracing cannot disabled by
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writing 0 to the proc sysctl ftrace_enabled. Equally, a callback with
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the flag set cannot be registered if ftrace_enabled is 0.
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Livepatch uses it not to lose the function redirection, so the system
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stays protected.
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Filtering which functions to trace
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==================================
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If a callback is only to be called from specific functions, a filter must be
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set up. The filters are added by name, or ip if it is known.
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.. code-block:: c
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int ftrace_set_filter(struct ftrace_ops *ops, unsigned char *buf,
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int len, int reset);
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@ops
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The ops to set the filter with
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@buf
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The string that holds the function filter text.
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@len
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The length of the string.
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@reset
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Non-zero to reset all filters before applying this filter.
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Filters denote which functions should be enabled when tracing is enabled.
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If @buf is NULL and reset is set, all functions will be enabled for tracing.
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The @buf can also be a glob expression to enable all functions that
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match a specific pattern.
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See Filter Commands in :file:`Documentation/trace/ftrace.rst`.
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To just trace the schedule function:
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.. code-block:: c
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ret = ftrace_set_filter(&ops, "schedule", strlen("schedule"), 0);
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To add more functions, call the ftrace_set_filter() more than once with the
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@reset parameter set to zero. To remove the current filter set and replace it
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with new functions defined by @buf, have @reset be non-zero.
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To remove all the filtered functions and trace all functions:
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.. code-block:: c
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ret = ftrace_set_filter(&ops, NULL, 0, 1);
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Sometimes more than one function has the same name. To trace just a specific
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function in this case, ftrace_set_filter_ip() can be used.
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.. code-block:: c
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ret = ftrace_set_filter_ip(&ops, ip, 0, 0);
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Although the ip must be the address where the call to fentry or mcount is
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located in the function. This function is used by perf and kprobes that
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gets the ip address from the user (usually using debug info from the kernel).
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If a glob is used to set the filter, functions can be added to a "notrace"
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list that will prevent those functions from calling the callback.
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The "notrace" list takes precedence over the "filter" list. If the
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two lists are non-empty and contain the same functions, the callback will not
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be called by any function.
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An empty "notrace" list means to allow all functions defined by the filter
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to be traced.
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.. code-block:: c
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int ftrace_set_notrace(struct ftrace_ops *ops, unsigned char *buf,
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int len, int reset);
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This takes the same parameters as ftrace_set_filter() but will add the
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functions it finds to not be traced. This is a separate list from the
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filter list, and this function does not modify the filter list.
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A non-zero @reset will clear the "notrace" list before adding functions
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that match @buf to it.
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Clearing the "notrace" list is the same as clearing the filter list
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.. code-block:: c
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ret = ftrace_set_notrace(&ops, NULL, 0, 1);
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The filter and notrace lists may be changed at any time. If only a set of
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functions should call the callback, it is best to set the filters before
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registering the callback. But the changes may also happen after the callback
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has been registered.
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If a filter is in place, and the @reset is non-zero, and @buf contains a
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matching glob to functions, the switch will happen during the time of
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the ftrace_set_filter() call. At no time will all functions call the callback.
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.. code-block:: c
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ftrace_set_filter(&ops, "schedule", strlen("schedule"), 1);
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register_ftrace_function(&ops);
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msleep(10);
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ftrace_set_filter(&ops, "try_to_wake_up", strlen("try_to_wake_up"), 1);
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is not the same as:
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.. code-block:: c
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ftrace_set_filter(&ops, "schedule", strlen("schedule"), 1);
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register_ftrace_function(&ops);
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msleep(10);
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ftrace_set_filter(&ops, NULL, 0, 1);
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ftrace_set_filter(&ops, "try_to_wake_up", strlen("try_to_wake_up"), 0);
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As the latter will have a short time where all functions will call
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the callback, between the time of the reset, and the time of the
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new setting of the filter.
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