/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _LIBIPMI_H #define _LIBIPMI_H #pragma ident "%Z%%M% %I% %E% SMI" #include #include /* * Private interfaces for communicating with attached services over IPMI. This * library is designed for system software communicating with Sun-supported * service processors over /dev/bmc. It is not a generic IPMI library. * * Documentation references refer to "Intelligent Platform Management Interface * Specification Second Generation v2.0", document revision 1.0 with Februrary * 15, 2006 Markup from "IPMI v2.0 Addenda, Errata, and Clarifications Revision * 3". */ #ifdef __cplusplus extern "C" { #endif typedef struct ipmi_handle ipmi_handle_t; #if !defined(_BIT_FIELDS_LTOH) && !defined(_BIT_FIELDS_HTOL) #error One of _BIT_FIELDS_LTOH or _BIT_FIELDS_HTOL must be defined #endif #pragma pack(1) /* * Basic netfn definitions. See section 5.1. */ #define IPMI_NETFN_APP BMC_NETFN_APP #define IPMI_NETFN_STORAGE BMC_NETFN_STORAGE #define IPMI_NETFN_SE BMC_NETFN_SE #define IPMI_NETFN_OEM 0x2e /* * Error definitions */ #define EIPMI_BASE 2000 enum { EIPMI_NOMEM = EIPMI_BASE, /* memory allocation failure */ EIPMI_BMC_OPEN_FAILED, /* failed to open /dev/bmc */ EIPMI_BMC_PUTMSG, /* putmsg() failed */ EIPMI_BMC_GETMSG, /* getmsg() failed */ EIPMI_BMC_RESPONSE, /* response from /dev/bmc failed */ EIPMI_INVALID_COMMAND, /* invalid command */ EIPMI_COMMAND_TIMEOUT, /* command timeout */ EIPMI_DATA_LENGTH_EXCEEDED, /* maximum data length exceeded */ EIPMI_SEND_FAILED, /* failed to send BMC request */ EIPMI_UNSPECIFIED, /* unspecified error */ EIPMI_UNKNOWN, /* unknown error */ EIPMI_BAD_RESPONSE, /* received unexpected response */ EIPMI_BAD_RESPONSE_LENGTH, /* unexpected response length */ EIPMI_INVALID_RESERVATION, /* invalid reservation */ EIPMI_NOT_PRESENT, /* requested entity not present */ EIPMI_INVALID_REQUEST, /* malformed request */ EIPMI_BUSY, /* SP is busy */ EIPMI_NOSPACE, /* SP is out of space */ EIPMI_UNAVAILABLE, /* SP is present but unavailable */ EIPMI_ACCESS /* insufficient privileges */ }; /* * Basic library functions. * * The ipmi_handle is the primary interface to the library. The library itself * is not MT-safe, but it is safe within a single handle. Multithreaded clients * should either open multiple handles, or otherwise synchronize access to the * same handle. * * There is a single command response buffer that is stored with the handle, to * simplify memory management in the caller. The memory referenced by a command * response is only valid until the next command is issued. The caller is * responsible for making a copy of the response if it is needed. */ extern ipmi_handle_t *ipmi_open(int *, char **); extern void ipmi_close(ipmi_handle_t *); extern int ipmi_errno(ipmi_handle_t *); extern const char *ipmi_errmsg(ipmi_handle_t *); /* * Raw requests. See section 5. */ typedef struct ipmi_cmd { uint8_t ic_netfn:6; uint8_t ic_lun:2; uint8_t ic_cmd; uint16_t ic_dlen; void *ic_data; } ipmi_cmd_t; extern ipmi_cmd_t *ipmi_send(ipmi_handle_t *, ipmi_cmd_t *); /* * Retrieve basic information about the IPMI device. See section 20.1 "Get * Device ID Command". */ #define IPMI_CMD_GET_DEVICEID 0x01 typedef struct ipmi_deviceid { uint8_t id_devid; #if defined(_BIT_FIELDS_LTOH) uint8_t id_dev_rev:4; uint8_t __reserved:3; uint8_t id_dev_sdrs:1; #else uint8_t id_dev_sdrs:1; uint8_t __reserved:3; uint8_t id_dev_rev:4; #endif #if defined(_BIT_FIELDS_LTOH) uint8_t id_firm_major:7; uint8_t id_dev_available:1; #else uint8_t id_dev_available:1; uint8_t id_firm_major:7; #endif uint8_t id_firm_minor; uint8_t id_ipmi_rev; uint8_t id_dev_support; uint8_t id_manufacturer[3]; uint16_t id_product; } ipmi_deviceid_t; #define IPMI_OEM_SUN 0x2a ipmi_deviceid_t *ipmi_get_deviceid(ipmi_handle_t *); #define ipmi_devid_manufacturer(dp) \ ((dp)->id_manufacturer[0] | \ ((dp)->id_manufacturer[1] << 8) | \ ((dp)->id_manufacturer[2] << 16)) /* * SDR (Sensor Device Record) requests. A cache of the current SDR repository * is kept as part of the IPMI handle and updated when necessary. Routines to * access the raw SDR repository are also provided. */ /* * Reserve repository command. See section 33.11. */ #define IPMI_CMD_RESERVE_SDR_REPOSITORY 0x22 /* * Get SDR command. See section 33.12. This command accesses the raw SDR * repository. Clients can also use the lookup functions to retrieve a * particular SDR record by name. * * The list of possible types is indicated in the sub-chapters of section 43. */ typedef struct ipmi_sdr { uint16_t is_id; uint8_t is_version; uint8_t is_type; uint8_t is_length; uint8_t is_record[1]; } ipmi_sdr_t; #define IPMI_CMD_GET_SDR 0x23 #define IPMI_SDR_FIRST 0x0000 #define IPMI_SDR_LAST 0xFFFF extern ipmi_sdr_t *ipmi_sdr_get(ipmi_handle_t *, uint16_t, uint16_t *); /* * Generic Device Locator Record. See section 43.7. */ #define IPMI_SDR_TYPE_GENERIC_LOCATOR 0x10 typedef struct ipmi_sdr_generic_locator { /* RECORD KEY BYTES */ #if defined(_BIT_FIELDS_LTOH) uint8_t __reserved1:1; uint8_t is_gl_accessaddr:7; uint8_t is_gl_channel_msb:1; uint8_t is_gl_slaveaddr:7; uint8_t is_gl_bus:3; uint8_t is_gl_lun:2; uint8_t is_gl_channel:3; #else uint8_t is_gl_accessaddr:7; uint8_t __reserved1:1; uint8_t is_gl_slaveaddr:7; uint8_t is_gl_channel_msb:1; uint8_t is_gl_channel:3; uint8_t is_gl_lun:2; uint8_t is_gl_bus:3; #endif /* RECORD BODY BYTES */ #if defined(_BIT_FIELDS_LTOH) uint8_t is_gl_span:3; uint8_t __reserved2:5; #else uint8_t __reserved2:5; uint8_t is_gl_span:3; #endif uint8_t __reserved3; uint8_t is_gl_type; uint8_t is_gl_modifier; uint8_t is_gl_entity; uint8_t is_gl_instance; uint8_t is_gl_oem; #if defined(_BIT_FIELDS_LTOH) uint8_t is_gl_idlen:6; uint8_t is_gl_idtype:2; #else uint8_t is_gl_idtype:2; uint8_t is_gl_idlen:6; #endif char is_gl_idstring[1]; } ipmi_sdr_generic_locator_t; /* * FRU Device Locator Record. See section 43.8. */ #define IPMI_SDR_TYPE_FRU_LOCATOR 0x11 typedef struct ipmi_sdr_fru_locator { /* RECORD KEY BYTES */ #if defined(_BIT_FIELDS_LTOH) uint8_t __reserved1:1; uint8_t is_fl_accessaddr:7; #else uint8_t is_fl_accessaddr:7; uint8_t __reserved1:1; #endif union { struct { uint8_t _is_fl_devid; } _logical; struct { #if defined(_BIT_FIELDS_LTOH) uint8_t __reserved:1; uint8_t _is_fl_slaveaddr:7; #else uint8_t _is_fl_slaveaddr:7; uint8_t __reserved:1; #endif } _nonintelligent; } _devid_or_slaveaddr; #if defined(_BIT_FIELDS_LTOH) uint8_t is_fl_bus:3; uint8_t is_fl_lun:2; uint8_t __reserved2:2; uint8_t is_fl_logical:1; uint8_t __reserved3:4; uint8_t is_fl_channel:4; #else uint8_t is_fl_logical:1; uint8_t __reserved2:2; uint8_t is_fl_lun:2; uint8_t is_fl_bus:3; uint8_t is_fl_channel:4; uint8_t __reserved3:4; #endif /* RECORD BODY BYTES */ uint8_t __reserved4; uint8_t is_fl_type; uint8_t is_fl_modifier; uint8_t is_fl_entity; uint8_t is_fl_instance; uint8_t is_fl_oem; #if defined(_BIT_FIELDS_LTOH) uint8_t is_fl_idlen:6; uint8_t is_fl_idtype:2; #else uint8_t is_fl_idtype:2; uint8_t is_fl_idlen:6; #endif char is_fl_idstring[1]; } ipmi_sdr_fru_locator_t; #define is_fl_devid _devid_or_slaveaddr._logical._is_fl_devid #define is_fl_slaveaddr _devid_or_slaveaddr._nonintelligent._is_fl_slaveaddr /* * The remaining SDR types do not have an associated structure, yet. */ #define IPMI_SDR_TYPE_FULL_SENSOR 0x01 #define IPMI_SDR_TYPE_COMPACT_SENSOR 0x02 #define IPMI_SDR_TYPE_EVENT_ONLY 0x03 #define IPMI_SDR_TYPE_ENTITY_ASSOCIATION 0x08 #define IPMI_SDR_TYPE_DEVICE_RELATIVE 0x09 #define IPMI_SDR_TYPE_MANAGEMENT_DEVICE 0x12 #define IPMI_SDR_TYPE_MANAGEMENT_CONFIRMATION 0x13 #define IPMI_SDR_TYPE_BMC_MESSAGE_CHANNEL 0x14 #define IPMI_SDR_TYPE_OEM 0xC0 /* * Lookup the given sensor type by name. These functions automatically read in * and cache the complete SDR repository. */ extern ipmi_sdr_fru_locator_t *ipmi_sdr_lookup_fru(ipmi_handle_t *, const char *); extern ipmi_sdr_generic_locator_t *ipmi_sdr_lookup_generic(ipmi_handle_t *, const char *); /* * Get Sensor Reading. See section 35.14. */ #define IPMI_CMD_GET_SENSOR_READING 0x2d typedef struct ipmi_sensor_reading { uint8_t isr_reading; #if defined(_BIT_FIELDS_LTOH) uint8_t __reserved1:5; uint8_t isr_state_unavailable:1; uint8_t isr_scanning_disabled:1; uint8_t isr_event_disabled:1; #else uint8_t isr_event_disabled:1; uint8_t isr_scanning_disabled:1; uint8_t isr_state_unavailable:1; uint8_t __reserved1:5; #endif uint16_t isr_state; } ipmi_sensor_reading_t; extern ipmi_sensor_reading_t *ipmi_get_sensor_reading(ipmi_handle_t *, uint8_t); /* * Set Sensor Reading. See section 35.14. */ #define IPMI_CMD_SET_SENSOR_READING 0x30 #define IPMI_SENSOR_OP_CLEAR 0x3 /* clear '0' bits */ #define IPMI_SENSOR_OP_SET 0x2 /* set '1' bits */ #define IPMI_SENSOR_OP_EXACT 0x1 /* set bits exactly */ typedef struct ipmi_set_sensor_reading { uint8_t iss_id; #if defined(_BIT_FIELDS_LTOH) uint8_t iss_set_reading:1; uint8_t __reserved:1; uint8_t iss_deassrt_op:2; uint8_t iss_assert_op:2; uint8_t iss_data_bytes:2; #else uint8_t iss_data_bytes:2; uint8_t iss_assert_op:2; uint8_t iss_deassrt_op:2; uint8_t __reserved:1; uint8_t iss_set_reading:1; #endif uint8_t iss_sensor_reading; uint16_t iss_assert_state; /* optional */ uint16_t iss_deassert_state; /* optional */ uint8_t iss_event_data1; /* optional */ uint8_t iss_event_data2; /* optional */ uint8_t iss_event_data3; /* optional */ } ipmi_set_sensor_reading_t; extern int ipmi_set_sensor_reading(ipmi_handle_t *, ipmi_set_sensor_reading_t *); /* * The remaining functions are private to the implementation of the Sun ILOM * service processor. These function first check the manufacturer from the IPMI * device ID, and will return EIPMI_NOT_SUPPORTED if attempted for non-Sun * devices. */ /* * Sun OEM LED requests. */ #define IPMI_CMD_SUNOEM_LED_GET 0x21 #define IPMI_CMD_SUNOEM_LED_SET 0x22 typedef struct ipmi_cmd_sunoem_led_set { #if defined(_BIT_FIELDS_LTOH) uint8_t ic_sls_channel_msb:1; /* device slave address */ uint8_t ic_sls_slaveaddr:7; /* (from SDR record) */ #else uint8_t ic_sls_slaveaddr:7; uint8_t ic_sls_channel_msb:1; #endif uint8_t ic_sls_type; /* led type */ #if defined(_BIT_FIELDS_LTOH) uint8_t __reserved:1; /* device access address */ uint8_t ic_sls_accessaddr:7; /* (from SDR record) */ #else uint8_t ic_sls_accessaddr:7; uint8_t __reserved:1; #endif uint8_t ic_sls_hwinfo; /* OEM hardware info */ uint8_t ic_sls_mode; /* LED mode */ uint8_t ic_sls_force; /* force direct access */ uint8_t ic_sls_role; /* BMC authorization */ } ipmi_cmd_sunoem_led_set_t; typedef struct ipmi_cmd_sunoem_led_get { #if defined(_BIT_FIELDS_LTOH) uint8_t ic_slg_channel_msb:1; /* device slave address */ uint8_t ic_slg_slaveaddr:7; /* (from SDR record) */ #else uint8_t ic_slg_slaveaddr:7; uint8_t ic_slg_channel_msb:1; #endif uint8_t ic_slg_type; /* led type */ #if defined(_BIT_FIELDS_LTOH) uint8_t __reserved:1; /* device access address */ uint8_t ic_slg_accessaddr:7; /* (from SDR record) */ #else uint8_t ic_slg_accessaddr:7; uint8_t __reserved:1; #endif uint8_t ic_slg_hwinfo; /* OEM hardware info */ uint8_t ic_slg_force; /* force direct access */ } ipmi_cmd_sunoem_led_get_t; #define IPMI_SUNOEM_LED_TYPE_OK2RM 0 #define IPMI_SUNOEM_LED_TYPE_SERVICE 1 #define IPMI_SUNOEM_LED_TYPE_ACT 2 #define IPMI_SUNOEM_LED_TYPE_LOCATE 3 #define IPMI_SUNOEM_LED_TYPE_ANY 0xFF #define IPMI_SUNOEM_LED_MODE_OFF 0 #define IPMI_SUNOEM_LED_MODE_ON 1 #define IPMI_SUNOEM_LED_MODE_STANDBY 2 #define IPMI_SUNOEM_LED_MODE_SLOW 3 #define IPMI_SUNOEM_LED_MODE_FAST 4 /* * These functions take a SDR record and construct the appropriate form of the * above commands. */ extern int ipmi_sunoem_led_set(ipmi_handle_t *, ipmi_sdr_generic_locator_t *, uint8_t); extern int ipmi_sunoem_led_get(ipmi_handle_t *, ipmi_sdr_generic_locator_t *, uint8_t *); /* * Sun OEM uptime. Note that the underlying command returns the uptime in big * endian form. This wrapper automatically converts to the appropriate native * form. */ #define IPMI_CMD_SUNOEM_UPTIME 0x08 extern int ipmi_sunoem_uptime(ipmi_handle_t *, uint32_t *, uint32_t *); /* * Sun OEM FRU update. The FRU information is managed through a generic * identifier, and then a type-specific data portion. The wrapper function will * automatically fill in the data length field according to which type is * specified. */ #define IPMI_CMD_SUNOEM_FRU_UPDATE 0x16 #define IPMI_SUNOEM_FRU_DIMM 0x00 #define IPMI_SUNOEM_FRU_CPU 0x01 #define IPMI_SUNOEM_FRU_BIOS 0x02 #define IPMI_SUNOEM_FRU_DISK 0x03 typedef struct ipmi_sunoem_fru { uint8_t isf_type; uint8_t isf_id; uint8_t isf_datalen; union { struct { uint8_t isf_data[128]; } dimm; struct { uint32_t isf_thermtrip; uint32_t isf_eax; char isf_product[48]; } cpu; struct { char isf_part[16]; char isf_version[16]; } bios; struct { char isf_manufacturer[16]; char isf_model[28]; char isf_serial[20]; char isf_version[8]; char isf_capacity[16]; } disk; } isf_data; } ipmi_sunoem_fru_t; int ipmi_sunoem_update_fru(ipmi_handle_t *, ipmi_sunoem_fru_t *); #pragma pack() #ifdef __cplusplus } #endif #endif /* _LIBIPMI_H */