280 lines
9.5 KiB
ReStructuredText
280 lines
9.5 KiB
ReStructuredText
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=========================================
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user_events: User-based Event Tracing
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=========================================
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:Author: Beau Belgrave
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Overview
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--------
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User based trace events allow user processes to create events and trace data
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that can be viewed via existing tools, such as ftrace and perf.
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To enable this feature, build your kernel with CONFIG_USER_EVENTS=y.
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Programs can view status of the events via
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/sys/kernel/tracing/user_events_status and can both register and write
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data out via /sys/kernel/tracing/user_events_data.
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Programs can also use /sys/kernel/tracing/dynamic_events to register and
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delete user based events via the u: prefix. The format of the command to
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dynamic_events is the same as the ioctl with the u: prefix applied. This
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requires CAP_PERFMON due to the event persisting, otherwise -EPERM is returned.
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Typically programs will register a set of events that they wish to expose to
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tools that can read trace_events (such as ftrace and perf). The registration
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process tells the kernel which address and bit to reflect if any tool has
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enabled the event and data should be written. The registration will give back
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a write index which describes the data when a write() or writev() is called
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on the /sys/kernel/tracing/user_events_data file.
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The structures referenced in this document are contained within the
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/include/uapi/linux/user_events.h file in the source tree.
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**NOTE:** *Both user_events_status and user_events_data are under the tracefs
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filesystem and may be mounted at different paths than above.*
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Registering
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-----------
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Registering within a user process is done via ioctl() out to the
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/sys/kernel/tracing/user_events_data file. The command to issue is
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DIAG_IOCSREG.
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This command takes a packed struct user_reg as an argument::
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struct user_reg {
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/* Input: Size of the user_reg structure being used */
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__u32 size;
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/* Input: Bit in enable address to use */
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__u8 enable_bit;
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/* Input: Enable size in bytes at address */
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__u8 enable_size;
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/* Input: Flags to use, if any */
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__u16 flags;
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/* Input: Address to update when enabled */
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__u64 enable_addr;
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/* Input: Pointer to string with event name, description and flags */
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__u64 name_args;
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/* Output: Index of the event to use when writing data */
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__u32 write_index;
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} __attribute__((__packed__));
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The struct user_reg requires all the above inputs to be set appropriately.
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+ size: This must be set to sizeof(struct user_reg).
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+ enable_bit: The bit to reflect the event status at the address specified by
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enable_addr.
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+ enable_size: The size of the value specified by enable_addr.
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This must be 4 (32-bit) or 8 (64-bit). 64-bit values are only allowed to be
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used on 64-bit kernels, however, 32-bit can be used on all kernels.
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+ flags: The flags to use, if any.
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Callers should first attempt to use flags and retry without flags to ensure
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support for lower versions of the kernel. If a flag is not supported -EINVAL
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is returned.
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+ enable_addr: The address of the value to use to reflect event status. This
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must be naturally aligned and write accessible within the user program.
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+ name_args: The name and arguments to describe the event, see command format
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for details.
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The following flags are currently supported.
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+ USER_EVENT_REG_PERSIST: The event will not delete upon the last reference
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closing. Callers may use this if an event should exist even after the
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process closes or unregisters the event. Requires CAP_PERFMON otherwise
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-EPERM is returned.
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Upon successful registration the following is set.
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+ write_index: The index to use for this file descriptor that represents this
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event when writing out data. The index is unique to this instance of the file
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descriptor that was used for the registration. See writing data for details.
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User based events show up under tracefs like any other event under the
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subsystem named "user_events". This means tools that wish to attach to the
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events need to use /sys/kernel/tracing/events/user_events/[name]/enable
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or perf record -e user_events:[name] when attaching/recording.
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**NOTE:** The event subsystem name by default is "user_events". Callers should
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not assume it will always be "user_events". Operators reserve the right in the
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future to change the subsystem name per-process to accommodate event isolation.
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Command Format
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^^^^^^^^^^^^^^
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The command string format is as follows::
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name[:FLAG1[,FLAG2...]] [Field1[;Field2...]]
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Supported Flags
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^^^^^^^^^^^^^^^
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None yet
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Field Format
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^^^^^^^^^^^^
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::
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type name [size]
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Basic types are supported (__data_loc, u32, u64, int, char, char[20], etc).
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User programs are encouraged to use clearly sized types like u32.
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**NOTE:** *Long is not supported since size can vary between user and kernel.*
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The size is only valid for types that start with a struct prefix.
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This allows user programs to describe custom structs out to tools, if required.
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For example, a struct in C that looks like this::
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struct mytype {
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char data[20];
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};
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Would be represented by the following field::
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struct mytype myname 20
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Deleting
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--------
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Deleting an event from within a user process is done via ioctl() out to the
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/sys/kernel/tracing/user_events_data file. The command to issue is
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DIAG_IOCSDEL.
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This command only requires a single string specifying the event to delete by
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its name. Delete will only succeed if there are no references left to the
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event (in both user and kernel space). User programs should use a separate file
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to request deletes than the one used for registration due to this.
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**NOTE:** By default events will auto-delete when there are no references left
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to the event. If programs do not want auto-delete, they must use the
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USER_EVENT_REG_PERSIST flag when registering the event. Once that flag is used
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the event exists until DIAG_IOCSDEL is invoked. Both register and delete of an
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event that persists requires CAP_PERFMON, otherwise -EPERM is returned.
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Unregistering
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-------------
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If after registering an event it is no longer wanted to be updated then it can
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be disabled via ioctl() out to the /sys/kernel/tracing/user_events_data file.
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The command to issue is DIAG_IOCSUNREG. This is different than deleting, where
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deleting actually removes the event from the system. Unregistering simply tells
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the kernel your process is no longer interested in updates to the event.
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This command takes a packed struct user_unreg as an argument::
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struct user_unreg {
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/* Input: Size of the user_unreg structure being used */
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__u32 size;
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/* Input: Bit to unregister */
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__u8 disable_bit;
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/* Input: Reserved, set to 0 */
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__u8 __reserved;
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/* Input: Reserved, set to 0 */
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__u16 __reserved2;
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/* Input: Address to unregister */
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__u64 disable_addr;
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} __attribute__((__packed__));
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The struct user_unreg requires all the above inputs to be set appropriately.
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+ size: This must be set to sizeof(struct user_unreg).
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+ disable_bit: This must be set to the bit to disable (same bit that was
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previously registered via enable_bit).
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+ disable_addr: This must be set to the address to disable (same address that was
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previously registered via enable_addr).
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**NOTE:** Events are automatically unregistered when execve() is invoked. During
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fork() the registered events will be retained and must be unregistered manually
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in each process if wanted.
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Status
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------
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When tools attach/record user based events the status of the event is updated
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in realtime. This allows user programs to only incur the cost of the write() or
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writev() calls when something is actively attached to the event.
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The kernel will update the specified bit that was registered for the event as
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tools attach/detach from the event. User programs simply check if the bit is set
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to see if something is attached or not.
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Administrators can easily check the status of all registered events by reading
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the user_events_status file directly via a terminal. The output is as follows::
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Name [# Comments]
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...
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Active: ActiveCount
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Busy: BusyCount
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For example, on a system that has a single event the output looks like this::
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test
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Active: 1
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Busy: 0
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If a user enables the user event via ftrace, the output would change to this::
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test # Used by ftrace
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Active: 1
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Busy: 1
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Writing Data
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------------
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After registering an event the same fd that was used to register can be used
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to write an entry for that event. The write_index returned must be at the start
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of the data, then the remaining data is treated as the payload of the event.
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For example, if write_index returned was 1 and I wanted to write out an int
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payload of the event. Then the data would have to be 8 bytes (2 ints) in size,
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with the first 4 bytes being equal to 1 and the last 4 bytes being equal to the
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value I want as the payload.
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In memory this would look like this::
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int index;
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int payload;
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User programs might have well known structs that they wish to use to emit out
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as payloads. In those cases writev() can be used, with the first vector being
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the index and the following vector(s) being the actual event payload.
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For example, if I have a struct like this::
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struct payload {
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int src;
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int dst;
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int flags;
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} __attribute__((__packed__));
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It's advised for user programs to do the following::
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struct iovec io[2];
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struct payload e;
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io[0].iov_base = &write_index;
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io[0].iov_len = sizeof(write_index);
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io[1].iov_base = &e;
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io[1].iov_len = sizeof(e);
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writev(fd, (const struct iovec*)io, 2);
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**NOTE:** *The write_index is not emitted out into the trace being recorded.*
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Example Code
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------------
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See sample code in samples/user_events.
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