/* * 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 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_RMC_COMM_HPROTO_H #define _SYS_RMC_COMM_HPROTO_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif /* * data types used in the data protocol fields */ typedef unsigned char rsci8; typedef unsigned short rsci16; typedef short rscis16; #ifdef _LP64 typedef unsigned int rsci32; typedef unsigned long rsci64; #else typedef unsigned long rsci32; typedef unsigned long long rsci64; #endif /* * handle definition. Handles are used in the high-level data protocol * to identify FRU, sensors (temperature, voltage), and so on. */ typedef rsci16 dp_handle_t; #define DP_NULL_HANDLE 0xffff #define DP_MAX_HANDLE_NAME 32 #define DP_NULL_MSG 0x00 /* * Supported message types and associated data types: */ #define DP_RESET_RSC 0x7A #define DP_RESET_RSC_R 0x5A #define DP_UPDATE_FLASH 0x66 #define DP_UPDATE_FLASH_R 0x46 typedef struct dp_update_flash_r { rsci32 status; /* completion code */ } dp_update_flash_r_t; #define DP_RUN_TEST 0x74 typedef struct dp_run_test { rsci32 testno; /* test number to run; see below. */ rsci32 param_len; /* # bytes in test parameter data. */ } dp_run_test_t; /* followed by test parameters; see individual tests below. */ #define DP_RUN_TEST_R 0x54 typedef struct dp_run_test_r { rsci32 status; /* 0 = test passed, otherwise see failure */ /* codes below. */ rsci32 idatalen; /* # items in input data array */ rsci32 odatalen; /* # items in output data array */ #define DP_MAX_RUN_TEST_DATALEN (DP_MAX_MSGLEN-32)/2 rsci8 idata[DP_MAX_RUN_TEST_DATALEN]; /* input data array */ rsci8 odata[DP_MAX_RUN_TEST_DATALEN]; /* output data array */ } dp_run_test_r_t; #define RSC_TEST_PASSED 0 #define RSC_TEST_SW_FAILURE 1 #define RSC_TEST_BAD_DATA 2 #define RSC_TEST_NO_RESPONSE 3 #define RSC_TEST_BAD_CRC 4 #define RSC_TEST_BAD_PARAMS 5 #define RSC_TEST_NO_DEVICE 6 #define RSC_TEST_DEV_SETUP_FAIL 7 #define RSC_TEST_MEM_ALLOC_FAIL 8 #define RSC_TEST_ENET_ADDR_FAIL 9 #define RSC_TEST_DEV_INFO_FAIL 10 #define RSC_TEST_NYI 255 #define DP_RSC_STATUS 0x73 #define DP_RSC_STATUS_R 0x53 typedef struct dp_rsc_status_r { /* The first six fields here must not be changed to ensure that they */ /* are the same in all versions of RSC, most notably when compared to */ /* 1.x. New fields must be added to the end of the structure. */ rsci16 main_rev_major; rsci16 main_rev_minor; rsci16 bootmon_rev_major; rsci16 bootmon_rev_minor; rsci16 post_status; rsci16 nusers; /* number of users currently logged in to */ /* CLI. */ /* Any new fields in the structure may be added after this point ONLY! */ rsci16 release_rev_major; rsci16 release_rev_minor; rsci16 release_rev_micro; rsci16 main_rev_micro; rsci16 bootmon_rev_micro; rsci16 hardware_rev; rsci32 bm_cksum; rsci8 rsc_build; char creationDate[256]; rsci32 fw_cksum; rsci32 sys_mem; rsci32 nvram_version; } dp_rsc_status_r_t; #define DP_SET_CFGVAR 0x76 typedef struct dp_set_cfgvar { rsci32 hidden; /* boolean */ } dp_set_cfgvar_t; /* Data is variable name & new value as zero-terminated ascii strings. */ #define DP_SET_CFGVAR_R 0x56 typedef struct dp_set_cfgvar_r { rsci32 status; /* completion code */ } dp_set_cfgvar_r_t; #define DP_GET_CFGVAR 0x67 /* Data is variable name as zero-terminated ascii string. */ #define DP_GET_CFGVAR_R 0x47 typedef struct dp_get_cfgvar_r { rsci32 status; /* completion code */ } dp_get_cfgvar_r_t; /* followed by value of variable as a zero-terminated ascii string. */ #define DP_GET_CFGVAR_NAME 0x6E /* * Data is variable name as zero-terminated ascii string. A zero-length * string means 'return the name of the "first" variable.' */ #define DP_GET_CFGVAR_NAME_R 0x4E typedef struct dp_get_cfgvar_name_r { rsci32 status; /* completion code */ } dp_get_cfgvar_name_r_t; /* followed by name of "next" variable as a zero-terminated ascii string. */ #define DP_SET_DATE_TIME 0x64 #define DP_SET_DATE_TIME_IGNORE_FIELD 0xFFFF typedef struct dp_set_date_time { rsci32 year; /* Full year, IE 1997 */ rsci32 month; /* 1 = Jan, 2 = Feb, etc. */ rsci32 day; /* Day of the month, 1 to 31. */ rsci32 hour; /* 0 to 23 */ rsci32 minute; /* 0 to 59 */ rsci32 second; /* 0 to 59 */ } dp_set_date_time_t; #define DP_SET_DATE_TIME_R 0x44 typedef struct dp_set_date_time_r { rsci32 status; /* 0 - succes, non-zero - fail. */ } dp_set_date_time_r_t; #define DP_GET_DATE_TIME 0x65 #define DP_GET_DATE_TIME_R 0x45 typedef struct dp_get_date_time_r { rsci32 status; /* completion code */ rsci32 current_datetime; /* in Unix format */ } dp_get_date_time_r_t; /* followed by the date represented as a zero-terminated ascii string. */ #define DP_SEND_ALERT 0x61 typedef struct dp_send_alert { rsci32 critical; /* boolean */ } dp_send_alert_t; #define DP_SEND_ALERT_R 0x41 typedef struct dp_send_alert_r { rsci32 status; /* completion code */ } dp_send_alert_r_t; #define DP_GET_TEMP 0x78 #define DP_GET_TEMP_R 0x58 typedef struct dp_get_temp_r { rsci32 status; rsci32 current_temp; } dp_get_temp_r_t; #define DP_GET_SDP_VERSION 0x7B #define DP_GET_SDP_VERSION_R 0x5B typedef struct dp_get_sdp_version_r { rsci32 version; } dp_get_sdp_version_r_t; #define DP_GET_TOD_CLOCK 0x7C #define DP_GET_TOD_CLOCK_R 0x5C typedef struct dp_get_tod_clock_r { rsci32 current_tod; } dp_get_tod_clock_r_t; #define DP_MAX_LOGSIZE (DP_MAX_MSGLEN-24) #define DP_GET_EVENT_LOG 0x7D /* * NOTE: changing this or the dp_event_log_entry structure will almost * certainly require changing the code that parses these structures * in scadm. See src/cmd/scadm/sparcv9/mpxu/common/eventlog.c. */ #define DP_GET_EVENT_LOG_R 0x5D typedef struct dp_get_event_log_r { rsci32 entry_count; rsci8 data[DP_MAX_LOGSIZE]; } dp_get_event_log_r_t; typedef struct dp_event_log_entry { rsci32 eventTime; rsci32 eventId; rsci32 paramLen; char param[256]; } dp_event_log_entry_t; #define DP_GET_PCMCIA_INFO 0x7E #define DP_GET_PCMCIA_INFO_R 0x5E typedef struct dp_get_pcmcia_info_r { rsci32 card_present; /* true=present, false=no card */ rsci32 idInfoLen; rsci8 idInfo[256]; } dp_get_pcmcia_info_r_t; #define DP_USER_MAX 16 #define DP_USER_NAME_SIZE 16 /* User sub-commands */ #define DP_USER_CMD_ADD 0x1 #define DP_USER_CMD_DEL 0x2 #define DP_USER_CMD_SHOW 0x3 #define DP_USER_CMD_PASSWORD 0x4 #define DP_USER_CMD_PERM 0x5 /* * The following fields are used to set the user permissions. * Each must be represented as a single bit in the parm field. */ #define DP_USER_PERM_C 0x1 #define DP_USER_PERM_U 0x2 #define DP_USER_PERM_A 0x4 #define DP_USER_PERM_R 0x8 /* * values for parm for CMD_SHOW. Anything other than 0 will show * the user # up to and including DP_USER_MAX */ #define DP_USER_SHOW_USERNAME 0x0 /* Error values for status */ #define DP_ERR_USER_FULL 0x1 /* No free user slots */ #define DP_ERR_USER_NONE 0x2 /* User does not exist */ #define DP_ERR_USER_BAD 0x3 /* Malformed username */ #define DP_ERR_USER_NACT 0x4 /* user # not activated */ #define DP_ERR_USER_THERE 0x5 /* user already registered */ #define DP_ERR_USER_PASSWD 0x6 /* invalid password */ #define DP_ERR_USER_WARNING 0x7 /* Malformed username warning */ #define DP_ERR_USER_NYI 0xFD /* Not yet implemented */ #define DP_ERR_USER_UNDEF 0xFE /* Undefine error */ #define DP_ERR_USER_CMD 0xFF /* Invalid Command */ #define DP_USER_ADM 0x50 /* * The parm field is used by the permission command to set specific * permissions. The parm field is also used by the show command to * indicate if the user name is specified or not. */ typedef struct dp_user_adm { rsci32 command; rsci32 parm; } dp_user_adm_t; /* * followed by zero-terminated ascii strings. All user commands * are followed by the username. The password command is also * followed by the password. */ #define DP_USER_ADM_R 0x51 /* * the response field is used to return the user permissions * for the user permissions command. The response is also used * to echo back the user selection for the show command. */ typedef struct dp_user_adm_r { rsci32 status; /* completion code */ rsci32 command; /* echo back adm command */ rsci32 response; } dp_user_adm_r_t; /* followed by a zero-terminated ascii string for the show command. */ #define DP_MODEM_PASS 0 #define DP_MODEM_FAIL -1 /* Commands used for rscadm modem_setup */ #define DP_MODEM_CONNECT 0x30 #define DP_MODEM_CONNECT_R 0x31 typedef struct dp_modem_connect_r { rsci32 status; } dp_modem_connect_r_t; /* There is no reponse to a modem_data command */ /* The modem data command goes in both directions */ #define DP_MODEM_DATA 0x32 /* followed by a zero-terminated ascii string */ #define DP_MODEM_DISCONNECT 0x34 #define DP_MODEM_DISCONNECT_R 0x35 typedef struct dp_modem_disconnect_r { rsci32 status; } dp_modem_disconnect_r_t; #define DP_GET_TICKCNT 0x22 #define DP_GET_TICKCNT_R 0x23 typedef struct dp_get_tickcnt_r { rsci32 upper; /* MSW of 64 bit tick count */ rsci32 lower; /* LSW of 64 bit tick count */ } dp_get_tickcnt_r_t; #define DP_SET_DEFAULT_CFG 0x72 #define DP_SET_DEFAULT_CFG_R 0x52 typedef struct dp_set_default_cfg_r { rsci32 status; } dp_set_default_cfg_r_t; #define DP_GET_NETWORK_CFG 0x59 #define DP_GET_NETWORK_CFG_R 0x79 typedef struct dp_get_network_cfg_r { rsci32 status; char ipMode[7]; char ipAddr[16]; char ipMask[16]; char ipGateway[16]; char ethAddr[18]; char ipDHCPServer[16]; } dp_get_network_cfg_r_t; /* * Parameters for DP_RUN_TEST message: */ /* * Test routines need to know what the low-level protocol sync * character is. */ #define RSC_TEST_SERIAL 0 typedef struct rsc_serial_test { rsci32 testtype; #define RSC_SERIAL_TTYC_LB 0 #define RSC_SERIAL_TTYC_LB_OFF 1 #define RSC_SERIAL_TTYD_LB 2 #define RSC_SERIAL_TTYD_LB_OFF 3 #define RSC_SERIAL_TTYCD_LB 4 #define RSC_SERIAL_TTYCD_LB_OFF 5 #define RSC_SERIAL_TTYU_INT_LB 6 #define RSC_SERIAL_TTYU_EXT_LB 7 rsci32 baud; rsci32 passes; rsci32 datalen; rsci8 data[DP_MAX_MSGLEN-32]; } rsc_serial_test_t; #define RSC_TEST_ENET 1 typedef struct rsc_enet_test { rsci32 testtype; #define RSC_ENET_INT_LB 0 #define RSC_ENET_EXT_LB 1 #define RSC_ENET_PING 2 #define RSC_ENET_INT_PHY_LB 3 rsci8 ip_addr[4]; rsci32 passes; rsci32 datalen; rsci8 data[DP_MAX_MSGLEN-32]; } rsc_enet_test_t; #define RSC_TEST_FLASH_CRC 2 typedef struct rsc_flash_crcs_r { rsci32 boot_crc; rsci32 main_crc; } rsc_flash_crcs_r_t; #define RSC_TEST_SEEPROM_CRC 3 typedef struct rsc_seeprom_crcs_r { rsci32 hdr_crc; rsci32 main_crc; } rsc_seeprom_crcs_r_t; #define RSC_TEST_FRU_SEEPROM_CRC 4 typedef struct rsc_fru_crcs_r { rsci32 ro_hdr_crc; rsci32 seg_sd_crc; } rsc_fru_crcs_r_t; /* * new commands definitions */ #define DP_GET_SYSINFO 0x20 #define DP_GET_SYSINFO_R 0x21 typedef struct dp_get_sysinfo_r { rsci8 maxTemp; /* max number of temperature sensors */ rsci8 maxFan; /* max number of FANs */ rsci8 maxPSU; /* max number of PSUs slot */ rsci8 maxLED; /* max number of LEDs */ rsci8 maxVolt; /* max number of voltage sensors */ rsci8 maxFRU; /* max number of FRUs (field replac. unit) */ rsci8 maxCircuitBrks; /* max number of circuit breakers */ rsci8 keyswitch; /* key switch setting value */ } dp_get_sysinfo_r_t; #define DP_GET_TEMPERATURES 0x24 typedef struct dp_get_temperatures { dp_handle_t handle; /* handle of a temperature sensor */ /* or (0xffff) */ } dp_get_temperatures_t; /* Data is variable name & new value as zero-terminated ascii strings. */ #define DP_GET_TEMPERATURES_R 0x25 typedef rscis16 dp_tempr_t; enum sensor_status { DP_SENSOR_DATA_AVAILABLE = 0, DP_SENSOR_DATA_UNAVAILABLE, DP_SENSOR_NOT_PRESENT }; typedef struct dp_tempr_status { dp_handle_t handle; rsci8 sensor_status; /* tells whether the reading is */ /* available or not */ dp_tempr_t value; /* temperature value (celsius). */ dp_tempr_t low_warning; dp_tempr_t low_soft_shutdown; dp_tempr_t low_hard_shutdown; dp_tempr_t high_warning; dp_tempr_t high_soft_shutdown; dp_tempr_t high_hard_shutdown; } dp_tempr_status_t; typedef struct dp_get_temperatures_r { rsci8 num_temps; dp_tempr_status_t temp_status[1]; } dp_get_temperatures_r_t; #define DP_GET_FAN_STATUS 0x26 typedef struct dp_get_fan_status { dp_handle_t handle; /* handle of a temperature sensor */ /* or (0xffff) */ } dp_get_fan_status_t; #define DP_GET_FAN_STATUS_R 0x27 typedef struct dp_fan_status { dp_handle_t handle; rsci8 sensor_status; /* tells whether the reading is */ /* available or not */ rsci8 flag; #define DP_FAN_PRESENCE 0x01 /* FAN presence (bit set=FAN present) */ #define DP_FAN_SPEED_VAL_UNIT 0x02 /* speed unit (bit set=relative, */ /* bit clear=RPM) */ #define DP_FAN_STATUS 0x04 /* FAN status (bit set=error) */ rsci16 speed; /* FAN speed. */ rsci16 minspeed; /* minimum FAN speed warning threshold */ } dp_fan_status_t; typedef struct dp_get_fan_status_r { rsci8 num_fans; dp_fan_status_t fan_status[1]; } dp_get_fan_status_r_t; #define DP_GET_PSU_STATUS 0x28 typedef struct dp_get_psu_status { dp_handle_t handle; /* handle of a temperature sensor */ /* or (0xffff) */ } dp_get_psu_status_t; #define DP_GET_PSU_STATUS_R 0x29 typedef struct dp_psu_status { dp_handle_t handle; rsci8 sensor_status; /* tells whether the reading is */ /* available or not */ rsci16 mask; /* flag bit mask (feature presence) */ rsci16 flag; /* status bits */ #define DP_PSU_PRESENCE 0x0001 /* PSU presence */ #define DP_PSU_OUTPUT_STATUS 0x0002 /* output status */ #define DP_PSU_INPUT_STATUS 0x0004 /* input status */ #define DP_PSU_SEC_INPUT_STATUS 0x0008 /* secondary input status */ #define DP_PSU_OVERTEMP_FAULT 0x0010 /* over temperature fault */ #define DP_PSU_FAN_FAULT 0x0020 /* FAN fault */ #define DP_PSU_FAIL_STATUS 0x0040 /* PSU generic fault */ #define DP_PSU_OUTPUT_VLO_STATUS 0x0080 /* output under voltage */ #define DP_PSU_OUTPUT_VHI_STATUS 0x0100 /* output over voltage */ #define DP_PSU_OUTPUT_AHI_STATUS 0x0200 /* output over current */ #define DP_PSU_ALERT_STATUS 0x0400 /* PSU alert indication */ #define DP_PSU_PDCT_FAN 0x0800 /* predicted fan fail */ #define DP_PSU_NR_WARNING 0x1000 /* non-redundancy condition */ /* presence: bit clear=not present */ /* bit set=present */ /* status: bit clear=ok */ /* bit set=generic fault */ } dp_psu_status_t; typedef struct dp_get_psu_status_r { rsci8 num_psus; dp_psu_status_t psu_status[1]; } dp_get_psu_status_r_t; #define DP_GET_FRU_STATUS 0x2A typedef struct dp_get_fru_status { dp_handle_t handle; /* handle of a hot pluggable unit */ /* or (0xffff) */ } dp_get_fru_status_t; #define DP_GET_FRU_STATUS_R 0x2B typedef struct dp_fru_status { dp_handle_t handle; rsci8 sensor_status; /* tells whether the reading is */ /* available or not */ rsci8 presence; /* 1=FRU present */ rsci8 status; } dp_fru_status_t; enum dp_fru_status_type { DP_FRU_STATUS_OK = 1, DP_FRU_STATUS_FAILED, DP_FRU_STATUS_BLACKLISTED, DP_FRU_STATUS_UNKNOWN }; typedef struct dp_get_fru_status_r { rsci8 num_frus; dp_fru_status_t fru_status[1]; } dp_get_fru_status_r_t; /* * DP_GET_DEVICE(_R) command is used to discover I2C devices dynamically * (used by SunVTS) */ #define DP_GET_DEVICE 0x2C typedef struct dp_get_device { dp_handle_t handle; /* handle of a device or */ /* (0xffff) */ } dp_get_device_t; #define DP_GET_DEVICE_R 0x2D #define DP_MAX_DEVICE_TYPE_NAME 32 typedef struct dp_device { dp_handle_t handle; rsci8 presence; /* 0 is not present, 1 is present */ char device_type[DP_MAX_DEVICE_TYPE_NAME]; } dp_device_t; typedef struct dp_get_device_r { rsci8 num_devices; dp_device_t device[1]; } dp_get_device_r_t; #define DP_SET_CPU_SIGNATURE 0x33 typedef struct dp_set_cpu_signature { int cpu_id; /* see PSARC 2000/205 for more */ ushort_t sig; /* information on the value/meaning */ uchar_t states; /* of these fields */ uchar_t sub_state; } dp_cpu_signature_t; #define DP_SET_CPU_NODENAME 0x38 #define DP_MAX_NODENAME 256 typedef struct dp_set_nodename { char nodename[DP_MAX_NODENAME]; } dp_set_nodename_t; #define DP_GET_LED_STATE 0x3C typedef struct dp_get_led_state { dp_handle_t handle; /* handle of a hot pluggable unit */ /* or (0xffff) */ } dp_get_led_state_t; #define DP_GET_LED_STATE_R 0x3D typedef struct dp_led_state { dp_handle_t handle; rsci8 sensor_status; /* tells whether the reading is */ /* available or not */ rsci8 state; rsci8 colour; } dp_led_state_t; typedef struct dp_get_led_state_r { rsci8 num_leds; dp_led_state_t led_state[1]; } dp_get_led_state_r_t; /* LED states */ enum dp_led_states { DP_LED_OFF = 0, DP_LED_ON, DP_LED_FLASHING, DP_LED_BLINKING }; enum dp_led_colours { DP_LED_COLOUR_NONE = -1, DP_LED_COLOUR_ANY, DP_LED_COLOUR_WHITE, DP_LED_COLOUR_BLUE, DP_LED_COLOUR_GREEN, DP_LED_COLOUR_AMBER }; #define DP_SET_LED_STATE 0x3E typedef struct dp_set_led_state { dp_handle_t handle; /* handle of a LED */ rsci8 state; } dp_set_led_state_t; #define DP_SET_LED_STATE_R 0x3F typedef struct dp_set_led_state_r { rsci8 status; } dp_set_led_state_r_t; enum dp_set_led_status { DP_SET_LED_OK = 0, DP_SET_LED_INVALID_HANDLE, DP_SET_LED_ERROR }; #define DP_GET_ALARM_STATE 0x68 typedef struct dp_get_alarm_state { dp_handle_t handle; /* handle of an alarm relay */ /* or (0xffff) */ } dp_get_alarm_state_t; #define DP_GET_ALARM_STATE_R 0x69 typedef struct dp_alarm_state { dp_handle_t handle; rsci8 sensor_status; /* tells whether the reading is */ /* available or not */ rsci8 state; } dp_alarm_state_t; typedef struct dp_get_alarm_state_r { rsci8 num_alarms; dp_alarm_state_t alarm_state[1]; } dp_get_alarm_state_r_t; /* ALARM states */ enum dp_alarm_states { DP_ALARM_OFF = 0, DP_ALARM_ON }; #define DP_SET_ALARM_STATE 0x6A typedef struct dp_set_alarm_state { dp_handle_t handle; /* handle of a ALARM */ rsci8 state; } dp_set_alarm_state_t; #define DP_SET_ALARM_STATE_R 0x6B typedef struct dp_set_alarm_state_r { rsci8 status; } dp_set_alarm_state_r_t; enum dp_set_alarm_status { DP_SET_ALARM_OK = 0, DP_SET_ALARM_INVALID_HANDLE, DP_SET_ALARM_ERROR }; #define DP_SET_USER_WATCHDOG 0x60 #define DP_SET_USER_WATCHDOG_R 0x6F #define DP_GET_USER_WATCHDOG 0x70 #define DP_GET_USER_WATCHDOG_R 0x71 #define DP_USER_WATCHDOG_ENABLE 0x01 #define DP_USER_WATCHDOG_DISABLE 0x00 enum dp_user_watchdog_status { DP_USER_WDT_OK = 0, DP_USER_WDT_ERROR }; typedef struct dp_set_user_watchdog { rsci8 enable; /* enable = 1 */ } dp_set_user_watchdog_t; typedef struct dp_set_user_watchdog_r { rsci8 status; } dp_set_user_watchdog_r_t; typedef struct dp_get_user_watchdog_r { rsci8 enable; } dp_get_user_watchdog_r_t; #define DP_GET_VOLTS 0x42 typedef struct dp_get_volts { dp_handle_t handle; /* handle of a voltage sensor */ } dp_get_volts_t; #define DP_GET_VOLTS_R 0x43 typedef rscis16 dp_volt_reading_t; /* unit in mV */ typedef struct dp_volt_status { dp_handle_t handle; rsci8 sensor_status; /* tells whether the reading */ /* is available or not */ rsci8 status; /* 0=ok, 1=error */ dp_volt_reading_t reading; /* value in mV. */ dp_volt_reading_t low_warning; dp_volt_reading_t low_soft_shutdown; dp_volt_reading_t low_hard_shutdown; dp_volt_reading_t high_warning; dp_volt_reading_t high_soft_shutdown; dp_volt_reading_t high_hard_shutdown; } dp_volt_status_t; typedef struct dp_get_volts_r { rsci8 num_volts; dp_volt_status_t volt_status[1]; } dp_get_volts_r_t; #define DP_GET_CIRCUIT_BRKS 0x62 typedef struct dp_get_circuit_brks { dp_handle_t handle; /* handle of a circuit breaker */ /* or (0xffff) */ } dp_get_circuit_brks_t; #define DP_GET_CIRCUIT_BRKS_R 0x63 typedef struct dp_circuit_brk_status { dp_handle_t handle; rsci8 sensor_status; /* tells whether the reading is */ /* available or not */ rsci8 status; /* 0=ok, 1=error */ } dp_circuit_brk_status_t; typedef struct dp_get_circuit_brks_r { rsci8 num_circuit_brks; dp_circuit_brk_status_t circuit_brk_status[1]; } dp_get_circuit_brks_r_t; #define DP_SET_HOST_WATCHDOG 0x48 typedef struct dp_set_host_watchdog { rsci8 enable; /* 0=enable watchdog, 1=disable watchdog */ } dp_set_host_watchdog_t; #define DP_GET_HANDLE_NAME 0x4A typedef struct dp_get_handle_name { dp_handle_t handle; } dp_get_handle_name_t; #define DP_GET_HANDLE_NAME_R 0x4B typedef struct dp_get_handle_name_r { dp_handle_t handle; char name[DP_MAX_HANDLE_NAME]; } dp_get_handle_name_r_t; #define DP_GET_HANDLE 0x4C typedef struct dp_get_handle { char name[DP_MAX_HANDLE_NAME]; } dp_get_handle_t; #define DP_GET_HANDLE_R 0x4D typedef struct dp_get_handle_r { dp_handle_t handle; } dp_get_handle_r_t; #define DP_RMC_EVENTS 0x57 typedef rsci16 dp_event_t; /* * list of events */ enum rmc_events { RMC_INIT_EVENT = 0x01, RMC_HPU_EVENT, RMC_ENV_EVENT, RMC_KEYSWITCH_EVENT, RMC_LOG_EVENT }; /* * event data structures */ enum rmc_hpu_events { RMC_HPU_INSERT_EVENT = 0x20, RMC_HPU_REMOVE_EVENT, RMC_HPU_HWERROR_EVENT }; typedef struct dp_hpu_event { dp_handle_t hpu_hdl; dp_event_t sub_event; } dp_hpu_event_t; enum rmc_env_events { RMC_ENV_WARNING_THRESHOLD_EVENT = 0x31, RMC_ENV_SHUTDOWN_THRESHOLD_EVENT, RMC_ENV_FAULT_EVENT, RMC_ENV_OK_EVENT }; typedef struct dp_env_event { dp_handle_t env_hdl; dp_event_t sub_event; } dp_env_event_t; enum rmc_keyswitch_pos { RMC_KEYSWITCH_POS_UNKNOWN = 0x00, RMC_KEYSWITCH_POS_NORMAL, RMC_KEYSWITCH_POS_DIAG, RMC_KEYSWITCH_POS_LOCKED, RMC_KEYSWITCH_POS_OFF }; typedef struct dp_keyswitch_event { rsci8 key_position; } dp_keyswitch_event_t; typedef struct dp_rmclog_event { int log_record_size; rsci8 log_record[DP_MAX_LOGSIZE]; } dp_rmclog_event_t; typedef union dp_event_info { dp_hpu_event_t ev_hpunot; dp_env_event_t ev_envnot; dp_keyswitch_event_t ev_keysw; dp_rmclog_event_t ev_rmclog; } dp_event_info_t; typedef struct dp_event_notification { dp_event_t event; rsci32 event_seqno; /* event sequence number */ rsci32 timestamp; /* timestamp of the event */ dp_event_info_t event_info; /* event information */ } dp_event_notification_t; #define DP_RMC_EVENTS_R 0x5F typedef struct dp_event_notification_r { rsci32 event_seqno; /* event sequence number */ } dp_event_notification_r_t; #define DP_GET_CHASSIS_SERIALNUM 0x2E #define DP_GET_CHASSIS_SERIALNUM_R 0x2F typedef struct dp_get_serialnum_r { rsci8 chassis_serial_number[32]; } dp_get_serialnum_r_t; #define DP_GET_CONSOLE_LOG 0x1A typedef struct dp_get_console_log { rsci64 start_seq; /* sequence number of first log byte */ rsci16 length; /* expected size of retrieved data */ } dp_get_console_log_t; #define DP_GET_CONSOLE_LOG_R 0x1B typedef struct dp_get_console_log_r { rsci64 next_seq; /* sequence number of next log byte */ rsci64 remaining_log_bytes; /* bytes left to retrieve */ rsci16 length; /* size of retrieved data */ char buffer[DP_MAX_MSGLEN - (sizeof (rsci64) * 2 + sizeof (rsci16))]; } dp_get_console_log_r_t; #define DP_GET_CONFIG_LOG 0x1C typedef struct dp_get_config_log { rsci64 start_seq; /* sequence number of first log byte */ rsci16 length; /* size of retrieved data */ } dp_get_config_log_t; #define DP_GET_CONFIG_LOG_R 0x1D typedef struct dp_get_config_log_r { rsci64 next_seq; /* sequence number of next log byte */ rsci64 remaining_log_bytes; /* bytes left to retrieve */ rsci16 length; /* size of retrieved data */ char buffer[DP_MAX_MSGLEN - (sizeof (rsci64) * 2 + sizeof (rsci16))]; } dp_get_config_log_r_t; #define DP_GET_EVENT_LOG2 0x1E typedef struct dp_get_event_log2 { rsci64 start_seq; /* sequence number of first log event */ rsci16 length; /* size of retrieved data */ } dp_get_event_log2_t; #define DP_GET_EVENT_LOG2_R 0x1F typedef struct dp_get_event_log2_r { rsci64 next_seq; /* sequence number of next log event */ rsci64 remaining_log_events; /* events left to retrieve */ rsci16 num_events; /* size of retrieved data */ char buffer[DP_MAX_MSGLEN - (sizeof (rsci64) * 2 + sizeof (rsci16))]; } dp_get_event_log2_r_t; #ifdef __cplusplus } #endif #endif /* _SYS_RMC_COMM_HPROTO_H */