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IPMI.txt: standardize document format
Each text file under Documentation follows a different format. Some doesn't even have titles! Change its representation to follow the adopted standard, using ReST markups for it to be parseable by Sphinx: - fix document type; - add missing markups for subitems; - mark literal blocks; - add whitespaces and blank lines where needed; - use bulleted list markups where neded. Signed-off-by: Mauro Carvalho Chehab <mchehab@s-opensource.com> Signed-off-by: Jonathan Corbet <corbet@lwn.net>
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@ -1,9 +1,8 @@
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=====================
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The Linux IPMI Driver
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=====================
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The Linux IPMI Driver
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---------------------
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Corey Minyard
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<minyard@mvista.com>
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<minyard@acm.org>
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:Author: Corey Minyard <minyard@mvista.com> / <minyard@acm.org>
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The Intelligent Platform Management Interface, or IPMI, is a
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standard for controlling intelligent devices that monitor a system.
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@ -141,7 +140,7 @@ Addressing
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----------
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The IPMI addressing works much like IP addresses, you have an overlay
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to handle the different address types. The overlay is:
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to handle the different address types. The overlay is::
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struct ipmi_addr
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{
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@ -153,7 +152,7 @@ to handle the different address types. The overlay is:
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The addr_type determines what the address really is. The driver
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currently understands two different types of addresses.
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"System Interface" addresses are defined as:
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"System Interface" addresses are defined as::
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struct ipmi_system_interface_addr
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{
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@ -166,7 +165,7 @@ straight to the BMC on the current card. The channel must be
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IPMI_BMC_CHANNEL.
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Messages that are destined to go out on the IPMB bus use the
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IPMI_IPMB_ADDR_TYPE address type. The format is
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IPMI_IPMB_ADDR_TYPE address type. The format is::
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struct ipmi_ipmb_addr
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{
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@ -184,16 +183,16 @@ spec.
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Messages
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--------
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Messages are defined as:
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Messages are defined as::
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struct ipmi_msg
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{
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struct ipmi_msg
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{
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unsigned char netfn;
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unsigned char lun;
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unsigned char cmd;
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unsigned char *data;
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int data_len;
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};
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};
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The driver takes care of adding/stripping the header information. The
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data portion is just the data to be send (do NOT put addressing info
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@ -208,7 +207,7 @@ block of data, even when receiving messages. Otherwise the driver
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will have no place to put the message.
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Messages coming up from the message handler in kernelland will come in
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as:
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as::
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struct ipmi_recv_msg
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{
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@ -246,6 +245,7 @@ and the user should not have to care what type of SMI is below them.
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Watching For Interfaces
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^^^^^^^^^^^^^^^^^^^^^^^
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When your code comes up, the IPMI driver may or may not have detected
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if IPMI devices exist. So you might have to defer your setup until
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@ -256,6 +256,7 @@ and tell you when they come and go.
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Creating the User
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^^^^^^^^^^^^^^^^^
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To use the message handler, you must first create a user using
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ipmi_create_user. The interface number specifies which SMI you want
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@ -272,6 +273,7 @@ closing the device automatically destroys the user.
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Messaging
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^^^^^^^^^
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To send a message from kernel-land, the ipmi_request_settime() call does
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pretty much all message handling. Most of the parameter are
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@ -321,6 +323,7 @@ though, since it is tricky to manage your own buffers.
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Events and Incoming Commands
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The driver takes care of polling for IPMI events and receiving
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commands (commands are messages that are not responses, they are
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@ -367,7 +370,7 @@ in the system. It discovers interfaces through a host of different
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methods, depending on the system.
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You can specify up to four interfaces on the module load line and
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control some module parameters:
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control some module parameters::
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modprobe ipmi_si.o type=<type1>,<type2>....
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ports=<port1>,<port2>... addrs=<addr1>,<addr2>...
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@ -437,7 +440,7 @@ default is one. Setting to 0 is useful with the hotmod, but is
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obviously only useful for modules.
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When compiled into the kernel, the parameters can be specified on the
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kernel command line as:
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kernel command line as::
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ipmi_si.type=<type1>,<type2>...
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ipmi_si.ports=<port1>,<port2>... ipmi_si.addrs=<addr1>,<addr2>...
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@ -474,16 +477,22 @@ The driver supports a hot add and remove of interfaces. This way,
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interfaces can be added or removed after the kernel is up and running.
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This is done using /sys/modules/ipmi_si/parameters/hotmod, which is a
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write-only parameter. You write a string to this interface. The string
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has the format:
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has the format::
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<op1>[:op2[:op3...]]
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The "op"s are:
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The "op"s are::
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add|remove,kcs|bt|smic,mem|i/o,<address>[,<opt1>[,<opt2>[,...]]]
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You can specify more than one interface on the line. The "opt"s are:
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You can specify more than one interface on the line. The "opt"s are::
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rsp=<regspacing>
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rsi=<regsize>
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rsh=<regshift>
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irq=<irq>
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ipmb=<ipmb slave addr>
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and these have the same meanings as discussed above. Note that you
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can also use this on the kernel command line for a more compact format
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for specifying an interface. Note that when removing an interface,
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@ -496,7 +505,7 @@ The SMBus Driver (SSIF)
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The SMBus driver allows up to 4 SMBus devices to be configured in the
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system. By default, the driver will only register with something it
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finds in DMI or ACPI tables. You can change this
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at module load time (for a module) with:
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at module load time (for a module) with::
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modprobe ipmi_ssif.o
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addr=<i2caddr1>[,<i2caddr2>[,...]]
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@ -535,7 +544,7 @@ the smb_addr parameter unless you have DMI or ACPI data to tell the
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driver what to use.
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When compiled into the kernel, the addresses can be specified on the
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kernel command line as:
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kernel command line as::
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ipmb_ssif.addr=<i2caddr1>[,<i2caddr2>[...]]
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ipmi_ssif.adapter=<adapter1>[,<adapter2>[...]]
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@ -565,9 +574,9 @@ Some users need more detailed information about a device, like where
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the address came from or the raw base device for the IPMI interface.
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You can use the IPMI smi_watcher to catch the IPMI interfaces as they
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come or go, and to grab the information, you can use the function
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ipmi_get_smi_info(), which returns the following structure:
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ipmi_get_smi_info(), which returns the following structure::
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struct ipmi_smi_info {
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struct ipmi_smi_info {
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enum ipmi_addr_src addr_src;
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struct device *dev;
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union {
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@ -575,7 +584,7 @@ struct ipmi_smi_info {
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void *acpi_handle;
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} acpi_info;
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} addr_info;
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};
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};
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Currently special info for only for SI_ACPI address sources is
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returned. Others may be added as necessary.
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@ -590,7 +599,7 @@ Watchdog
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A watchdog timer is provided that implements the Linux-standard
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watchdog timer interface. It has three module parameters that can be
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used to control it:
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used to control it::
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modprobe ipmi_watchdog timeout=<t> pretimeout=<t> action=<action type>
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preaction=<preaction type> preop=<preop type> start_now=x
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@ -635,7 +644,7 @@ watchdog device is closed. The default value of nowayout is true
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if the CONFIG_WATCHDOG_NOWAYOUT option is enabled, or false if not.
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When compiled into the kernel, the kernel command line is available
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for configuring the watchdog:
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for configuring the watchdog::
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ipmi_watchdog.timeout=<t> ipmi_watchdog.pretimeout=<t>
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ipmi_watchdog.action=<action type>
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@ -675,6 +684,7 @@ also get a bunch of OEM events holding the panic string.
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The field settings of the events are:
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* Generator ID: 0x21 (kernel)
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* EvM Rev: 0x03 (this event is formatting in IPMI 1.0 format)
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* Sensor Type: 0x20 (OS critical stop sensor)
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@ -683,18 +693,20 @@ The field settings of the events are:
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* Event Data 1: 0xa1 (Runtime stop in OEM bytes 2 and 3)
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* Event data 2: second byte of panic string
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* Event data 3: third byte of panic string
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See the IPMI spec for the details of the event layout. This event is
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always sent to the local management controller. It will handle routing
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the message to the right place
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Other OEM events have the following format:
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Record ID (bytes 0-1): Set by the SEL.
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Record type (byte 2): 0xf0 (OEM non-timestamped)
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byte 3: The slave address of the card saving the panic
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byte 4: A sequence number (starting at zero)
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The rest of the bytes (11 bytes) are the panic string. If the panic string
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is longer than 11 bytes, multiple messages will be sent with increasing
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sequence numbers.
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* Record ID (bytes 0-1): Set by the SEL.
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* Record type (byte 2): 0xf0 (OEM non-timestamped)
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* byte 3: The slave address of the card saving the panic
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* byte 4: A sequence number (starting at zero)
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The rest of the bytes (11 bytes) are the panic string. If the panic string
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is longer than 11 bytes, multiple messages will be sent with increasing
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sequence numbers.
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Because you cannot send OEM events using the standard interface, this
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function will attempt to find an SEL and add the events there. It
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