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|
/*
* Copyright (c) 2004 Dell Computers. All Rights Reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* Redistribution of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* Redistribution in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* Neither the name of Dell Computers, or the names of
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* This software is provided "AS IS," without a warranty of any kind.
* ALL EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES,
* INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A
* PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED.
* DELL COMPUTERS ("DELL") AND ITS LICENSORS SHALL NOT BE LIABLE
* FOR ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING
* OR DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL
* DELL OR ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA,
* OR FOR DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR
* PUNITIVE DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF
* LIABILITY, ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE,
* EVEN IF DELL HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
*/
#ifndef IPMI_PEF_H
#define IPMI_PEF_H
#include <ipmitool/ipmi.h>
/* PEF */
struct pef_capabilities { /* "get pef capabilities" response */
uint8_t version;
uint8_t actions; /* mapped by PEF_ACTION_xxx */
uint8_t tblsize;
};
typedef enum {
P_TRUE,
P_SUPP,
P_ACTV,
P_ABLE,
} flg_e;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_table_entry {
#define PEF_CONFIG_ENABLED 0x80
#define PEF_CONFIG_PRECONFIGURED 0x40
uint8_t config;
#define PEF_ACTION_DIAGNOSTIC_INTERRUPT 0x20
#define PEF_ACTION_OEM 0x10
#define PEF_ACTION_POWER_CYCLE 0x08
#define PEF_ACTION_RESET 0x04
#define PEF_ACTION_POWER_DOWN 0x02
#define PEF_ACTION_ALERT 0x01
uint8_t action;
#define PEF_POLICY_NUMBER_MASK 0x0f
uint8_t policy_number;
#define PEF_SEVERITY_NON_RECOVERABLE 0x20
#define PEF_SEVERITY_CRITICAL 0x10
#define PEF_SEVERITY_WARNING 0x08
#define PEF_SEVERITY_OK 0x04
#define PEF_SEVERITY_INFORMATION 0x02
#define PEF_SEVERITY_MONITOR 0x01
uint8_t severity;
uint8_t generator_ID_addr;
uint8_t generator_ID_lun;
uint8_t sensor_type;
#define PEF_SENSOR_NUMBER_MATCH_ANY 0xff
uint8_t sensor_number;
#define PEF_EVENT_TRIGGER_UNSPECIFIED 0x0
#define PEF_EVENT_TRIGGER_THRESHOLD 0x1
#define PEF_EVENT_TRIGGER_SENSOR_SPECIFIC 0x6f
#define PEF_EVENT_TRIGGER_MATCH_ANY 0xff
uint8_t event_trigger;
uint8_t event_data_1_offset_mask[2];
uint8_t event_data_1_AND_mask;
uint8_t event_data_1_compare_1;
uint8_t event_data_1_compare_2;
uint8_t event_data_2_AND_mask;
uint8_t event_data_2_compare_1;
uint8_t event_data_2_compare_2;
uint8_t event_data_3_AND_mask;
uint8_t event_data_3_compare_1;
uint8_t event_data_3_compare_2;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
struct desc_map { /* maps a description to a value/mask */
const char *desc;
uint32_t mask;
};
struct bit_desc_map { /* description text container */
#define BIT_DESC_MAP_LIST 0x1 /* index-based text array */
#define BIT_DESC_MAP_ANY 0x2 /* bitwise, but only print 1st one */
#define BIT_DESC_MAP_ALL 0x3 /* bitwise, print them all */
uint32_t desc_map_type;
struct desc_map desc_maps[128];
};
static struct bit_desc_map
pef_b2s_actions __attribute__((unused)) = {
BIT_DESC_MAP_ALL,
{ {"Alert", PEF_ACTION_ALERT},
{"Power-off", PEF_ACTION_POWER_DOWN},
{"Reset", PEF_ACTION_RESET},
{"Power-cycle", PEF_ACTION_POWER_CYCLE},
{"OEM-defined", PEF_ACTION_OEM},
{"Diagnostic-interrupt", PEF_ACTION_DIAGNOSTIC_INTERRUPT},
{NULL}
} };
static struct bit_desc_map
pef_b2s_severities __attribute__((unused)) = {
BIT_DESC_MAP_ANY,
{ {"Non-recoverable", PEF_SEVERITY_NON_RECOVERABLE},
{"Critical", PEF_SEVERITY_CRITICAL},
{"Warning", PEF_SEVERITY_WARNING},
{"OK", PEF_SEVERITY_OK},
{"Information", PEF_SEVERITY_INFORMATION},
{"Monitor", PEF_SEVERITY_MONITOR},
{NULL}
} };
static struct bit_desc_map
pef_b2s_sensortypes __attribute__((unused)) = {
BIT_DESC_MAP_LIST,
{ {"Any", 255},
{"Temperature", 1},
{"Voltage", 2},
{"Current", 3},
{"Fan", 4},
{"Chassis Intrusion", 5},
{"Platform security breach", 6},
{"Processor", 7},
{"Power supply", 8},
{"Power Unit", 9},
{"Cooling device", 10},
{"Other (units-based)", 11},
{"Memory", 12},
{"Drive Slot", 13},
{"POST memory resize", 14},
{"POST error", 15},
{"Logging disabled", 16},
{"Watchdog 1", 17},
{"System event", 18},
{"Critical Interrupt", 19},
{"Button", 20},
{"Module/board", 21},
{"uController/coprocessor", 22},
{"Add-in card", 23},
{"Chassis", 24},
{"Chipset", 25},
{"Other (FRU)", 26},
{"Cable/interconnect", 27},
{"Terminator", 28},
{"System boot", 29},
{"Boot error", 30},
{"OS boot", 31},
{"OS critical stop", 32},
{"Slot/connector", 33},
{"ACPI power state", 34},
{"Watchdog 2", 35},
{"Platform alert", 36},
{"Entity presence", 37},
{"Monitor ASIC/IC", 38},
{"LAN", 39},
{"Management subsytem health",40},
{"Battery", 41},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_1 = {
BIT_DESC_MAP_LIST,
{ {"<LNC", 0}, /* '<' : getting worse */
{">LNC", 1}, /* '>' : getting better */
{"<LC", 2},
{">LC", 3},
{"<LNR", 4},
{">LNR", 5},
{">UNC", 6},
{"<UNC", 7},
{">UC", 8},
{"<UC", 9},
{">UNR", 10},
{"<UNR", 11},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_2 = {
BIT_DESC_MAP_LIST,
{ {"transition to idle", 0},
{"transition to active", 1},
{"transition to busy", 2},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_3 = {
BIT_DESC_MAP_LIST,
{ {"state deasserted", 0},
{"state asserted", 1},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_4 = {
BIT_DESC_MAP_LIST,
{ {"predictive failure deasserted", 0},
{"predictive failure asserted", 1},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_5 = {
BIT_DESC_MAP_LIST,
{ {"limit not exceeded", 0},
{"limit exceeded", 1},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_6 = {
BIT_DESC_MAP_LIST,
{ {"performance met", 0},
{"performance lags", 1},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_7 = {
BIT_DESC_MAP_LIST,
{ {"ok", 0},
{"<warn", 1}, /* '<' : getting worse */
{"<fail", 2},
{"<dead", 3},
{">warn", 4}, /* '>' : getting better */
{">fail", 5},
{"dead", 6},
{"monitor", 7},
{"informational", 8},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_8 = {
BIT_DESC_MAP_LIST,
{ {"device removed/absent", 0},
{"device inserted/present", 1},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_9 = {
BIT_DESC_MAP_LIST,
{ {"device disabled", 0},
{"device enabled", 1},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_10 = {
BIT_DESC_MAP_LIST,
{ {"transition to running", 0},
{"transition to in test", 1},
{"transition to power off", 2},
{"transition to online", 3},
{"transition to offline", 4},
{"transition to off duty", 5},
{"transition to degraded", 6},
{"transition to power save", 7},
{"install error", 8},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_11 = {
BIT_DESC_MAP_LIST,
{ {"fully redundant", 0},
{"redundancy lost", 1},
{"redundancy degraded", 2},
{"<non-redundant/sufficient", 3}, /* '<' : getting worse */
{">non-redundant/sufficient", 4}, /* '>' : getting better */
{"non-redundant/insufficient", 5},
{"<redundancy degraded", 6},
{">redundancy degraded", 7},
{NULL}
} };
static struct bit_desc_map
pef_b2s_gentype_12 = {
BIT_DESC_MAP_LIST,
{ {"D0 power state", 0},
{"D1 power state", 1},
{"D2 power state", 2},
{"D3 power state", 3},
{NULL}
} };
static struct bit_desc_map *
pef_b2s_generic_ER[] __attribute__((unused)) = {
&pef_b2s_gentype_1,
&pef_b2s_gentype_2,
&pef_b2s_gentype_3,
&pef_b2s_gentype_4,
&pef_b2s_gentype_5,
&pef_b2s_gentype_6,
&pef_b2s_gentype_7,
&pef_b2s_gentype_8,
&pef_b2s_gentype_9,
&pef_b2s_gentype_10,
&pef_b2s_gentype_11,
&pef_b2s_gentype_12,
};
#define PEF_B2S_GENERIC_ER_ENTRIES \
(sizeof(pef_b2s_generic_ER) / sizeof(pef_b2s_generic_ER[0]))
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_policy_entry {
#define PEF_POLICY_ID_MASK 0xf0
#define PEF_POLICY_ID_SHIFT 4
#define PEF_POLICY_ENABLED 0x08
#define PEF_POLICY_FLAGS_MASK 0x07
#define PEF_POLICY_FLAGS_MATCH_ALWAYS 0
#define PEF_POLICY_FLAGS_PREV_OK_SKIP 1
#define PEF_POLICY_FLAGS_PREV_OK_NEXT_POLICY_SET 2
#define PEF_POLICY_FLAGS_PREV_OK_NEXT_CHANNEL_IN_SET 3
#define PEF_POLICY_FLAGS_PREV_OK_NEXT_DESTINATION_IN_SET 4
uint8_t policy;
#define PEF_POLICY_CHANNEL_MASK 0xf0
#define PEF_POLICY_CHANNEL_SHIFT 4
#define PEF_POLICY_DESTINATION_MASK 0x0f
uint8_t chan_dest;
#define PEF_POLICY_EVENT_SPECIFIC 0x80
uint8_t alert_string_key;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
static struct bit_desc_map
pef_b2s_policies __attribute__((unused)) = {
BIT_DESC_MAP_LIST,
{ {"Match-always", PEF_POLICY_FLAGS_MATCH_ALWAYS},
{"Try-next-entry", PEF_POLICY_FLAGS_PREV_OK_SKIP},
{"Try-next-set", PEF_POLICY_FLAGS_PREV_OK_NEXT_POLICY_SET},
{"Try-next-channel", PEF_POLICY_FLAGS_PREV_OK_NEXT_CHANNEL_IN_SET},
{"Try-next-destination", PEF_POLICY_FLAGS_PREV_OK_NEXT_DESTINATION_IN_SET},
{NULL}
} };
static struct bit_desc_map
pef_b2s_ch_medium __attribute__((unused)) = {
#define PEF_CH_MEDIUM_TYPE_IPMB 1
#define PEF_CH_MEDIUM_TYPE_ICMB_10 2
#define PEF_CH_MEDIUM_TYPE_ICMB_09 3
#define PEF_CH_MEDIUM_TYPE_LAN 4
#define PEF_CH_MEDIUM_TYPE_SERIAL 5
#define PEF_CH_MEDIUM_TYPE_XLAN 6
#define PEF_CH_MEDIUM_TYPE_PCI_SMBUS 7
#define PEF_CH_MEDIUM_TYPE_SMBUS_V1X 8
#define PEF_CH_MEDIUM_TYPE_SMBUS_V2X 9
#define PEF_CH_MEDIUM_TYPE_USB_V1X 10
#define PEF_CH_MEDIUM_TYPE_USB_V2X 11
#define PEF_CH_MEDIUM_TYPE_SYSTEM 12
BIT_DESC_MAP_LIST,
{ {"IPMB (I2C)", PEF_CH_MEDIUM_TYPE_IPMB},
{"ICMB v1.0", PEF_CH_MEDIUM_TYPE_ICMB_10},
{"ICMB v0.9", PEF_CH_MEDIUM_TYPE_ICMB_09},
{"802.3 LAN", PEF_CH_MEDIUM_TYPE_LAN},
{"Serial/Modem (RS-232)", PEF_CH_MEDIUM_TYPE_SERIAL},
{"Other LAN", PEF_CH_MEDIUM_TYPE_XLAN},
{"PCI SMBus", PEF_CH_MEDIUM_TYPE_PCI_SMBUS},
{"SMBus v1.0/1.1", PEF_CH_MEDIUM_TYPE_SMBUS_V1X},
{"SMBus v2.0", PEF_CH_MEDIUM_TYPE_SMBUS_V2X},
{"USB 1.x", PEF_CH_MEDIUM_TYPE_USB_V1X},
{"USB 2.x", PEF_CH_MEDIUM_TYPE_USB_V2X},
{"System I/F (KCS,SMIC,BT)", PEF_CH_MEDIUM_TYPE_SYSTEM},
{NULL}
} };
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_selector {
#define PEF_CFGPARM_ID_REVISION_ONLY_MASK 0x80
#define PEF_CFGPARM_ID_SET_IN_PROGRESS 0
#define PEF_CFGPARM_ID_PEF_CONTROL 1
#define PEF_CFGPARM_ID_PEF_ACTION 2
#define PEF_CFGPARM_ID_PEF_STARTUP_DELAY 3
#define PEF_CFGPARM_ID_PEF_ALERT_STARTUP_DELAY 4
#define PEF_CFGPARM_ID_PEF_FILTER_TABLE_SIZE 5
#define PEF_CFGPARM_ID_PEF_FILTER_TABLE_ENTRY 6
#define PEF_CFGPARM_ID_PEF_FILTER_TABLE_DATA_1 7
#define PEF_CFGPARM_ID_PEF_ALERT_POLICY_TABLE_SIZE 8
#define PEF_CFGPARM_ID_PEF_ALERT_POLICY_TABLE_ENTRY 9
#define PEF_CFGPARM_ID_SYSTEM_GUID 10
#define PEF_CFGPARM_ID_PEF_ALERT_STRING_TABLE_SIZE 11
#define PEF_CFGPARM_ID_PEF_ALERT_STRING_KEY 12
#define PEF_CFGPARM_ID_PEF_ALERT_STRING_TABLE_ENTRY 13
uint8_t id;
uint8_t set;
uint8_t block;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_set_in_progress {
#define PEF_SET_IN_PROGRESS_COMMIT_WRITE 0x02
#define PEF_SET_IN_PROGRESS 0x01
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_control {
#define PEF_CONTROL_ENABLE_ALERT_STARTUP_DELAY 0x08
#define PEF_CONTROL_ENABLE_STARTUP_DELAY 0x04
#define PEF_CONTROL_ENABLE_EVENT_MESSAGES 0x02
#define PEF_CONTROL_ENABLE 0x01
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
static struct bit_desc_map
pef_b2s_control __attribute__((unused)) = {
BIT_DESC_MAP_ALL,
{ {"PEF", PEF_CONTROL_ENABLE},
{"PEF event messages", PEF_CONTROL_ENABLE_EVENT_MESSAGES},
{"PEF startup delay", PEF_CONTROL_ENABLE_STARTUP_DELAY},
{"Alert startup delay", PEF_CONTROL_ENABLE_ALERT_STARTUP_DELAY},
{NULL}
} };
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_action {
#define PEF_ACTION_ENABLE_DIAGNOSTIC_INTERRUPT 0x20
#define PEF_ACTION_ENABLE_OEM 0x10
#define PEF_ACTION_ENABLE_POWER_CYCLE 0x08
#define PEF_ACTION_ENABLE_RESET 0x04
#define PEF_ACTION_ENABLE_POWER_DOWN 0x02
#define PEF_ACTION_ENABLE_ALERT 0x01
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_startup_delay {
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_alert_startup_delay {
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_filter_table_size {
#define PEF_FILTER_TABLE_SIZE_MASK 0x7f
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_filter_table_entry {
#define PEF_FILTER_TABLE_ID_MASK 0x7f
uint8_t data1;
struct pef_table_entry entry;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_filter_table_data_1 {
uint8_t data1;
uint8_t data2;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_policy_table_size {
#define PEF_POLICY_TABLE_SIZE_MASK 0x7f
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_policy_table_entry {
#define PEF_POLICY_TABLE_ID_MASK 0x7f
uint8_t data1;
struct pef_policy_entry entry;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_system_guid {
#define PEF_SYSTEM_GUID_USED_IN_PET 0x01
uint8_t data1;
uint8_t guid[16];
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_alert_string_table_size {
#define PEF_ALERT_STRING_TABLE_SIZE_MASK 0x7f
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_alert_string_keys {
#define PEF_ALERT_STRING_ID_MASK 0x7f
uint8_t data1;
#define PEF_EVENT_FILTER_ID_MASK 0x7f
uint8_t data2;
#define PEF_ALERT_STRING_SET_ID_MASK 0x7f
uint8_t data3;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_cfgparm_alert_string_table_entry {
uint8_t id;
uint8_t blockno;
uint8_t block[16];
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
/* PEF - LAN */
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_lan_cfgparm_selector {
#define PEF_LAN_CFGPARM_CH_REVISION_ONLY_MASK 0x80
#define PEF_LAN_CFGPARM_CH_MASK 0x0f
#define PEF_LAN_CFGPARM_ID_PET_COMMUNITY 16
#define PEF_LAN_CFGPARM_ID_DEST_COUNT 17
#define PEF_LAN_CFGPARM_ID_DESTTYPE 18
#define PEF_LAN_CFGPARM_ID_DESTADDR 19
uint8_t ch;
uint8_t id;
uint8_t set;
uint8_t block;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_lan_cfgparm_dest_size {
#define PEF_LAN_DEST_TABLE_SIZE_MASK 0x0f
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_lan_cfgparm_dest_type {
#define PEF_LAN_DEST_TYPE_ID_MASK 0x0f
uint8_t dest;
#define PEF_LAN_DEST_TYPE_ACK 0x80
#define PEF_LAN_DEST_TYPE_MASK 0x07
#define PEF_LAN_DEST_TYPE_PET 0
#define PEF_LAN_DEST_TYPE_OEM_1 6
#define PEF_LAN_DEST_TYPE_OEM_2 7
uint8_t dest_type;
uint8_t alert_timeout;
#define PEF_LAN_RETRIES_MASK 0x07
uint8_t retries;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
static struct bit_desc_map
pef_b2s_lan_desttype __attribute__((unused)) = {
BIT_DESC_MAP_LIST,
{ {"Acknowledged", PEF_LAN_DEST_TYPE_ACK},
{"PET", PEF_LAN_DEST_TYPE_PET},
{"OEM 1", PEF_LAN_DEST_TYPE_OEM_1},
{"OEM 2", PEF_LAN_DEST_TYPE_OEM_2},
{NULL}
} };
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_lan_cfgparm_dest_info {
#define PEF_LAN_DEST_MASK 0x0f
uint8_t dest;
#define PEF_LAN_DEST_ADDRTYPE_MASK 0xf0
#define PEF_LAN_DEST_ADDRTYPE_SHIFT 4
#define PEF_LAN_DEST_ADDRTYPE_IPV4_MAC 0x00
uint8_t addr_type;
#define PEF_LAN_DEST_GATEWAY_USE_BACKUP 0x01
uint8_t gateway;
uint8_t ip[4];
uint8_t mac[6];
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
/* PEF - Serial/PPP */
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_serial_cfgparm_selector {
#define PEF_SERIAL_CFGPARM_CH_REVISION_ONLY_MASK 0x80
#define PEF_SERIAL_CFGPARM_CH_MASK 0x0f
#define PEF_SERIAL_CFGPARM_ID_DEST_COUNT 16
#define PEF_SERIAL_CFGPARM_ID_DESTINFO 17
#define PEF_SERIAL_CFGPARM_ID_DEST_DIAL_STRING_COUNT 20
#define PEF_SERIAL_CFGPARM_ID_DEST_DIAL_STRING 21
#define PEF_SERIAL_CFGPARM_ID_TAP_ACCT_COUNT 24
#define PEF_SERIAL_CFGPARM_ID_TAP_ACCT_INFO 25
#define PEF_SERIAL_CFGPARM_ID_TAP_ACCT_PAGER_STRING 27
uint8_t ch;
uint8_t id;
uint8_t set;
uint8_t block;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_serial_cfgparm_dest_size {
#define PEF_SERIAL_DEST_TABLE_SIZE_MASK 0x0f
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_serial_cfgparm_dest_info {
#define PEF_SERIAL_DEST_MASK 0x0f
uint8_t dest;
#define PEF_SERIAL_DEST_TYPE_ACK 0x80
#define PEF_SERIAL_DEST_TYPE_MASK 0x0f
#define PEF_SERIAL_DEST_TYPE_DIAL 0
#define PEF_SERIAL_DEST_TYPE_TAP 1
#define PEF_SERIAL_DEST_TYPE_PPP 2
#define PEF_SERIAL_DEST_TYPE_BASIC_CALLBACK 3
#define PEF_SERIAL_DEST_TYPE_PPP_CALLBACK 4
#define PEF_SERIAL_DEST_TYPE_OEM_1 14
#define PEF_SERIAL_DEST_TYPE_OEM_2 15
uint8_t dest_type;
uint8_t alert_timeout;
#define PEF_SERIAL_RETRIES_MASK 0x77
#define PEF_SERIAL_RETRIES_POST_CONNECT_MASK 0x70
#define PEF_SERIAL_RETRIES_PRE_CONNECT_MASK 0x07
uint8_t retries;
#define PEF_SERIAL_DIALPAGE_STRING_ID_MASK 0xf0
#define PEF_SERIAL_DIALPAGE_STRING_ID_SHIFT 4
#define PEF_SERIAL_TAP_PAGE_SERVICE_ID_MASK 0x0f
#define PEF_SERIAL_PPP_ACCT_IPADDR_ID_MASK 0xf0
#define PEF_SERIAL_PPP_ACCT_IPADDR_ID_SHIFT 4
#define PEF_SERIAL_PPP_ACCT_ID_MASK 0x0f
#define PEF_SERIAL_CALLBACK_IPADDR_ID_MASK 0x0f
#define PEF_SERIAL_CALLBACK_IPADDR_ID_SHIFT 4
#define PEF_SERIAL_CALLBACK_ACCT_ID_MASK 0xf0
uint8_t data5;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
static struct bit_desc_map
pef_b2s_serial_desttype __attribute__((unused)) = {
BIT_DESC_MAP_LIST,
{ {"Acknowledged", PEF_SERIAL_DEST_TYPE_ACK},
{"TAP page", PEF_SERIAL_DEST_TYPE_TAP},
{"PPP PET", PEF_SERIAL_DEST_TYPE_PPP},
{"Basic callback", PEF_SERIAL_DEST_TYPE_BASIC_CALLBACK},
{"PPP callback", PEF_SERIAL_DEST_TYPE_PPP_CALLBACK},
{"OEM 1", PEF_SERIAL_DEST_TYPE_OEM_1},
{"OEM 2", PEF_SERIAL_DEST_TYPE_OEM_2},
{NULL}
} };
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_serial_cfgparm_dial_string_count {
#define PEF_SERIAL_DIAL_STRING_COUNT_MASK 0x0f
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_serial_cfgparm_dial_string {
#define PEF_SERIAL_DIAL_STRING_MASK 0x0f
uint8_t data1;
uint8_t data2;
uint8_t data3;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_serial_cfgparm_tap_acct_count {
#define PEF_SERIAL_TAP_ACCT_COUNT_MASK 0x0f
uint8_t data1;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_serial_cfgparm_tap_acct_info {
uint8_t data1;
#define PEF_SERIAL_TAP_ACCT_INFO_DIAL_STRING_ID_MASK 0xf0
#define PEF_SERIAL_TAP_ACCT_INFO_DIAL_STRING_ID_SHIFT 4
#define PEF_SERIAL_TAP_ACCT_INFO_SVC_SETTINGS_ID_MASK 0x0f
uint8_t data2;
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
struct pef_serial_cfgparm_tap_svc_settings {
uint8_t data1;
#define PEF_SERIAL_TAP_CONFIRMATION_ACK_AFTER_ETX 0x0
#define PEF_SERIAL_TAP_CONFIRMATION_211_ACK_AFTER_ETX 0x01
#define PEF_SERIAL_TAP_CONFIRMATION_21X_ACK_AFTER_ETX 0x02
uint8_t confirmation_flags;
uint8_t service_type[3];
uint8_t escape_mask[4];
uint8_t timeout_parms[3];
uint8_t retry_parms[2];
} ATTRIBUTE_PACKING;
#ifdef HAVE_PRAGMA_PACK
#pragma pack(0)
#endif
static struct bit_desc_map
pef_b2s_tap_svc_confirm __attribute__((unused)) = {
BIT_DESC_MAP_LIST,
{ {"ACK", PEF_SERIAL_TAP_CONFIRMATION_ACK_AFTER_ETX},
{"211+ACK", PEF_SERIAL_TAP_CONFIRMATION_211_ACK_AFTER_ETX},
{"{211|213}+ACK", PEF_SERIAL_TAP_CONFIRMATION_21X_ACK_AFTER_ETX},
{NULL}
} };
#if 0 /* FYI : config parm groupings */
struct pef_config_parms { /* PEF */
struct pef_cfgparm_set_in_progress;
struct pef_cfgparm_control;
struct pef_cfgparm_action;
struct pef_cfgparm_startup_delay; /* in seconds, 1-based */
struct pef_cfgparm_alert_startup_delay; /* in seconds, 1-based */
struct pef_cfgparm_filter_table_size; /* 1-based, READ-ONLY */
struct pef_cfgparm_filter_table_entry;
struct pef_cfgparm_filter_table_data_1;
struct pef_cfgparm_policy_table_size;
struct pef_cfgparm_policy_table_entry;
struct pef_cfgparm_system_guid;
struct pef_cfgparm_alert_string_table_size;
struct pef_cfgparm_alert_string_keys;
struct pef_cfgparm_alert_string_table_entry;
} ATTRIBUTE_PACKING;
struct pef_lan_config_parms { /* LAN */
struct pef_lan_cfgparm_set_in_progress;
struct pef_lan_cfgparm_auth_capabilities;
struct pef_lan_cfgparm_auth_type;
struct pef_lan_cfgparm_ip_address;
struct pef_lan_cfgparm_ip_address_source;
struct pef_lan_cfgparm_mac_address;
struct pef_lan_cfgparm_subnet_mask;
struct pef_lan_cfgparm_ipv4_header_parms;
struct pef_lan_cfgparm_primary_rmcp_port;
struct pef_lan_cfgparm_secondary_rmcp_port;
struct pef_lan_cfgparm_bmc_generated_arp_control;
struct pef_lan_cfgparm_gratuitous_arp;
struct pef_lan_cfgparm_default_gateway_ipaddr;
struct pef_lan_cfgparm_default_gateway_macaddr;
struct pef_lan_cfgparm_backup_gateway_ipaddr;
struct pef_lan_cfgparm_backup_gateway_macaddr;
struct pef_lan_cfgparm_pet_community;
struct pef_lan_cfgparm_destination_count;
struct pef_lan_cfgparm_destination_type;
struct pef_lan_cfgparm_destination_ipaddr;
} ATTRIBUTE_PACKING;
struct pef_serial_config_parms { /* Serial/PPP */
struct pef_serial_cfgparm_set_in_progress;
struct pef_serial_cfgparm_auth_capabilities;
struct pef_serial_cfgparm_auth_type;
struct pef_serial_cfgparm_connection_mode;
struct pef_serial_cfgparm_idle_timeout;
struct pef_serial_cfgparm_callback_control;
struct pef_serial_cfgparm_session_termination;
struct pef_serial_cfgparm_ipmi_settings;
struct pef_serial_cfgparm_mux_control;
struct pef_serial_cfgparm_modem_ring_time;
struct pef_serial_cfgparm_modem_init_string;
struct pef_serial_cfgparm_modem_escape_sequence;
struct pef_serial_cfgparm_modem_hangup_sequence;
struct pef_serial_cfgparm_modem_dial_command;
struct pef_serial_cfgparm_page_blackout_interval;
struct pef_serial_cfgparm_pet_community;
struct pef_serial_cfgparm_destination_count;
struct pef_serial_cfgparm_destination_info;
struct pef_serial_cfgparm_call_retry_interval;
struct pef_serial_cfgparm_destination_settings;
struct pef_serial_cfgparm_dialstring_count;
struct pef_serial_cfgparm_dialstring_info;
struct pef_serial_cfgparm_ipaddr_count;
struct pef_serial_cfgparm_ipaddr_info;
struct pef_serial_cfgparm_tap_acct_count;
struct pef_serial_cfgparm_tap_acct_info;
struct pef_serial_cfgparm_tap_acct_passwords; /* WRITE only */
struct pef_serial_cfgparm_tap_pager_id_strings;
struct pef_serial_cfgparm_tap_service_settings;
struct pef_serial_cfgparm_terminal_mode_config;
struct pef_serial_cfgparm_ppp_otions;
struct pef_serial_cfgparm_ppp_primary_rmcp_port;
struct pef_serial_cfgparm_ppp_secondary_rmcp_port;
struct pef_serial_cfgparm_ppp_link_auth;
struct pef_serial_cfgparm_ppp_chap_name;
struct pef_serial_cfgparm_ppp_accm;
struct pef_serial_cfgparm_ppp_snoop_accm;
struct pef_serial_cfgparm_ppp_acct_count;
struct pef_serial_cfgparm_ppp_acct_dialstring_selector;
struct pef_serial_cfgparm_ppp_acct_ipaddrs;
struct pef_serial_cfgparm_ppp_acct_user_names;
struct pef_serial_cfgparm_ppp_acct_user_domains;
struct pef_serial_cfgparm_ppp_acct_user_passwords; /* WRITE only */
struct pef_serial_cfgparm_ppp_acct_auth_settings;
struct pef_serial_cfgparm_ppp_acct_connect_hold_times;
struct pef_serial_cfgparm_ppp_udp_proxy_ipheader;
struct pef_serial_cfgparm_ppp_udp_proxy_xmit_bufsize;
struct pef_serial_cfgparm_ppp_udp_proxy_recv_bufsize;
struct pef_serial_cfgparm_ppp_remote_console_ipaddr;
} ATTRIBUTE_PACKING;
#endif
#define IPMI_CMD_GET_PEF_CAPABILITIES 0x10
#define IPMI_CMD_GET_PEF_CONFIG_PARMS 0x13
#define IPMI_CMD_GET_LAST_PROCESSED_EVT_ID 0x15
#define IPMI_CMD_GET_SYSTEM_GUID 0x37
#define IPMI_CMD_GET_CHANNEL_INFO 0x42
#define IPMI_CMD_LAN_GET_CONFIG 0x02
#define IPMI_CMD_SERIAL_GET_CONFIG 0x11
const char * ipmi_pef_bit_desc(struct bit_desc_map * map, uint32_t val);
void ipmi_pef_print_flags(struct bit_desc_map * map, flg_e type, uint32_t val);
void ipmi_pef_print_dec(const char * text, uint32_t val);
void ipmi_pef_print_hex(const char * text, uint32_t val);
void ipmi_pef_print_1xd(const char * text, uint32_t val);
void ipmi_pef_print_2xd(const char * text, uint8_t u1, uint8_t u2);
void ipmi_pef_print_str(const char * text, const char * val);
int ipmi_pef_main(struct ipmi_intf * intf, int argc, char ** argv);
#endif /* IPMI_PEF_H */
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