diff options
author | Jörg Frings-Fürst <debian@jff-webhosting.net> | 2017-04-14 18:40:52 +0200 |
---|---|---|
committer | Jörg Frings-Fürst <debian@jff-webhosting.net> | 2017-04-14 18:40:52 +0200 |
commit | 42de6cdd540e080b6e34e5e27cb8c44151711010 (patch) | |
tree | fbdffd21dac286d271ba28191b21021cea314a04 | |
parent | 2785d1454a900acffbd213662ee2bd7871770bba (diff) |
remove backupfile
-rw-r--r-- | util/ilan.c~ | 5242 |
1 files changed, 0 insertions, 5242 deletions
diff --git a/util/ilan.c~ b/util/ilan.c~ deleted file mode 100644 index 7d91d55..0000000 --- a/util/ilan.c~ +++ /dev/null @@ -1,5242 +0,0 @@ -/*--------------------------------------------------------------------------- - * Filename: ilan.c (was pefconfig.c) - * - * Author: arcress at users.sourceforge.net - * Copyright (c) 2009 Kontron America, Inc. - * - * Abstract: - * This tool sets up the custom Platform Event Filter for the panicSEL - * record (0x20, OS Critical Stop) to send a PEF SNMP alert for Linux - * panics. It also configures the BMC LAN parameters, which are needed - * to support PEF alerts. - * - * ----------- Change History ----------------------------------------------- - * 10/16/01 Andy Cress - created - * 10/24/01 Andy Cress - mods for SetPefEntry(0c) - * 11/02/01 Andy Cress - added option to disable a given PefEntry - * 11/15/01 Andy Cress - added function to GetLanEntry - * 11/19/01 Andy Cress - added function to SetLanEntry - * 01/18/02 Andy Cress - added GetCfgData function - * 01/31/02 Andy Cress - converted to use ipmi_cmd_ia - * 02/06/02 Andy Cress - removed GetCfgData - * 02/06/02 Andy Cress - added ipmi_cmd_va - * 02/08/02 Andy Cress - added GetChanAcc - * 02/14/02 Andy Cress - added Get_IPMac_Addr() - * 02/21/02 Andy Cress - added Alert IP/MAC logic to Get_IPMac_Addr() - * 03/21/02 Andy Cress - do SetChanAcc(0x80) with every SetChanAcc(0x40) - * 04/15/02 Andy Cress v1.2 - fix bug with user-specified Alert IP: - * (ccode=c7 on SetLanEntry(16 & 18), also - * added Get_Mac() for user-specified Alert IP. - * 04/16/02 Andy Cress v1.3 added SetUser() to set password if specified, - * also changed unset mac[0] to be 0xFF, not 0. - * 05/09/02 Andy Cress v1.4 fixed bug 504 gwymac[0]=00 (mymac overwrote it), - * also fixed alert scan to pick last trapsink - * 05/31/02 Andy Cress v1.5 for gwy mac, changed arping -c 1 to -c 2, - * also get com2sec community from snmpd.conf, - * set dest type for no ack, no retry, - * special handling to set preset PEF entries - * 07/02/02 Andy Cress v1.6 added more Usage text - * 07/08/02 Andy Cress v1.7 SetUserAccess length change - * 08/02/02 Andy Cress v1.8 moved common ipmi_cmd() code to ipmicmd.c - * 08/27/02 Andy Cress v1.9 fixed 0xc7 on SETUSER_ACCESS with pefconfig -P "", - * show message if alert dest not found - * 09/10/02 Andy Cress v1.10 make channel nums into defines (16) - * 09/17/02 Andy Cress v1.11 decode Dest Addr IP (19) in decimal, - * fix enable user padding in SetUser, - * display new community string when setting - * 12/09/02 Andy Cress v1.12 fix error w -C & snmpd.conf conflict - * 01/29/03 Andy Cress v1.13 added MV OpenIPMI support - * 02/05/03 Andy Cress v1.14 show pef entry descriptions, - * added EnablePef routine - * show correct Alert dest mac if -A only - * 04/04/03 Andy Cress v1.15 add eth interface option (-i) - * 05/13/03 Andy Cress v1.16 fix EnablePef if startup delay not supported - * 06/19/03 Andy Cress v1.17 added errno.h (email from Travers Carter) - * 07/25/03 Andy Cress v1.18 add SerialOverLan configuration - * mod to SetUser, added GetBmcEthDevice, - * use 'arping -I' if eth1. - * 08/18/03 Andy Cress v1.19 Don't abort if IPMI 1.0, just skip PEF, - * SetLanEntry(10 & 11) for bmc grat arp, - * SetLanEntry(2) to 0x17 for auth priv - * 09/10/03 Andy Cress v1.20 Don't enable a PEF entry if it is empty, - * added -L lan_ch parameter, - * scan for lan_ch in GetBmcEthDevice - * 09/22/03 Andy Cress v1.21 Add DHCP option (-D), from Jerry Yu. - * 12/05/03 Andy Cress v1.22 Fix auth type enables for ServerConfig - * 12/16/03 Andy Cress v1.23 Allow flexible auth types via authmask - * 03/19/04 Andy Cress v1.24 Change default pefnum for mBMC to 10 - * 04/15/04 Andy Cress v1.25 Init each response for channel info, avoids - * 0xcc error with /dev/ipmi0 due to wrong lan_ch - * 05/05/04 Andy Cress v1.26 call ipmi_close before exit. Note that - * Get_IPMac_Addr and GetBmcEthDevice - * routines need more work for WIN32. - * 05/24/04 Andy Cress v1.27 added CHAN_ACC params for ia64 - * 06/28/04 Andy Cress v1.28 added parsing to get community from trapsink - * 07/23/04 Andy Cress v1.29 use lan_ch variable to set Alert Policy Table - * 08/23/04 Andy Cress v1.30 fixed decoding of PE Table entries, - * added -e option (same as no params) - * 08/25/04 Andy Cress v1.31 added some WIN32 logic to Get_Mac, Get_IPMac_Addr - * 11/01/04 Andy Cress v1.32 add -N / -R for remote nodes - * added -U for remote username - * 11/18/04 Andy Cress v1.33 added -u to configure a lan username (user 2) - * 11/23/04 Andy Cress v1.34 added pef_defaults if first 11 empty - * 01/11/05 Andy Cress v1.35 allow scan for BMC LAN if fIPMI10 - * 01/20/05 Andy Cress v1.36 fix to allow IPMI 2.0 - * 02/16/05 Andy Cress v1.37 added IPMI 2.0 VLAN parameters, - * if DHCP, can set DHCP Server via -I param - * 03/02/05 Andy Cress v1.38 show Serial-Over-Lan params, - * fix -L with lan_ch_parm. mods to GetBmcEthDevice - * 03/18/05 Andy Cress v1.39 fix GetBmcEthDevice for invalid MAC compares - * 06/03/05 Andy Cress v1.40 For my MAC in BMC, check user-specified, then - * check existing BMC MAC, then check OS MAC. - * 06/10/05 Andy Cress v1.41 Display multiple Alert Destinations, - * handle fSOL20 commands - * 07/07/05 Andy Cress v1.42 Fix GetBmcEthDevice for TIGI2U to skip GCM ch 3 - * 07/08/05 Andy Cress v1.43 Mods to handle Intel NSI2U miniBMC, - * 08/01/05 Andy Cress v1.44 added -t option to test if BMC LAN configured - * 08/10/05 Andy Cress v1.45 truncate extra string chars, - * decode more PEF params - * 09/07/05 Andy Cress v1.46 enable mBMC PEF entries 26 thru 30 - * 04/06/06 Andy Cress v1.47 show "gcm" as ifname if -L 3. - * 06/20/06 Andy Cress v1.48 fix strcmp(gcm), show all 4 alert policies, - * add PefDesc() for misc vendor pefdesc, add -a. - * 08/08/06 Andy Cress v1.49 add Alcolu to fsharedMAC - * 09/29/06 Andy Cress v1.52 use bmcmymac if valid, use bmcmyip if ok, - * added -q for user number, - * enhanced Get_IPMac_Addr for Windows - * 10/12/06 Andy Cress v1.53 FindEthNum updates, always use gwy iface for mac - * 11/02/06 Andy Cress v1.55 add user names, EnablePef mods for non-Intel. - * 05/02/07 Brian Johnson v1.65 add fpefenable flag to not do SetPefEntry - * if no Alert Destination. Previously did - * SetPefEntry but not EnablePef in this case. - * 05/04/07 Andy Cress v1.65 Use 0x02 for DHCP source instead of 0x03, - * fix 1714748 missing "X:" in getopt line - * 05/23/07 Jakub Gorgolewski - * v1.66 Use iphlpapi for Windows detection - * 10/31/07 Andy Cress v2.3 Fixed PEF entry for Power Redundancy Lost - * 11/15/07 Andy Cress v2.4 Move custom PEF to #14, add to usage, - * Allow broadcast MAC for -X - * 12/17/07 Andy Cress v2.5 Add fSetPEFOks & secondary Gateway - */ -/*M* - *--------------------------------------------------------------------------- -Copyright (c) 2009 Kontron America, Inc. -All rights reserved. - -Redistribution and use in source and binary forms, with or without -modification, are permitted provided that the following conditions are met: - - a.. Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - b.. Redistributions 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. - c.. Neither the name of Kontron nor the names of its contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND -ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED -WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE -DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR -ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; -LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON -ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT -(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS -SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - *--------------------------------------------------------------------------- - *M*/ -#ifdef WIN32 -#include <winsock2.h> -#include <iphlpapi.h> -#include <windows.h> -#include <stdio.h> -#include <string.h> -#include <stdlib.h> -#include "getopt.h" -#elif defined(DOS) -#include <dos.h> -#include <stdio.h> -#include <stdlib.h> -#include <string.h> -#include "getopt.h" -#else -/* Linux or similar */ -#include <stdio.h> -#include <stdlib.h> -#include <sys/types.h> -#include <sys/stat.h> -#include <fcntl.h> -#if defined(HPUX) -/* getopt is defined in stdio.h */ -#elif defined(MACOS) -/* getopt is defined in unistd.h */ -#include <unistd.h> -#else -#include <getopt.h> -#endif -#include <string.h> -#include <sys/socket.h> -#include <sys/ioctl.h> -#include <net/if.h> -#include <errno.h> -#endif -#ifdef LINUX -#include <unistd.h> -#endif -#ifdef SOLARIS -#include <sys/sockio.h> -#define SIOCGIFHWADDR SIOCGENADDR -#define ifr_netmask ifr_ifru.ifru_addr -// #define ifr_hwaddr.sa_data ifr_ifru.ifru_enaddr -#elif defined(BSD) -#include <sys/sockio.h> -#define SIOCGIFHWADDR SIOCGIFMAC -#define ifr_netmask ifr_ifru.ifru_addr -// #define ifr_hwaddr.sa_data ifr_ifru.ifru_addr -#elif defined(MACOS) -#include <sys/sockio.h> -#define ifr_netmask ifr_ifru.ifru_addr -#endif -#include "ipmicmd.h" -#include "oem_intel.h" -#include "oem_supermicro.h" - -#define SELprintf printf -#define RTF_UP 0x0001 /* route usable */ - -#define SOL_ENABLE_FLAG 0x01 -#define SOL_DISABLE_FLAG 0x00 -#define SOL_PRIVILEGE_LEVEL_USER 0x02 -#define SOL_PRIVILEGE_LEVEL_OPERATOR 0x03 -#define SOL_PRIVILEGE_LEVEL_ADMIN 0x04 -#define SOL_PREFERRED_BAUD_RATE 0x0a /*115.2k*/ -/* For IPMI 1.5, use Intel SOL commands & subfunctions */ -#define SOL_ENABLE_PARAM 0x01 -#define SOL_AUTHENTICATION_PARAM 0x02 -#define SOL_ACC_INTERVAL_PARAM 0x03 -#define SOL_RETRY_PARAM 0x04 -#define SOL_BAUD_RATE_PARAM 0x05 /*non-volatile*/ -#define SOL_VOL_BAUD_RATE_PARAM 0x06 /*volatile*/ -/* For IPMI 2.0, use IPMI SOL commands & subfunctions */ -#define SOL_ENABLE_PARAM2 0x08 -#define SOL_AUTHENTICATION_PARAM2 0x09 -#define SOL_BAUD_RATE_PARAM2 0x11 - -/* IPMI 2.0 SOL PAYLOAD commands */ -#define SET_PAYLOAD_ACCESS 0x4C -#define GET_PAYLOAD_ACCESS 0x4D -#define GET_PAYLOAD_SUPPORT 0x4E - -/* Channel Access values */ -#define CHAN_ACC_DISABLE 0x20 /* PEF off, disabled*/ -#define CHAN_ACC_PEFON 0x02 /* PEF on, always avail */ -#define CHAN_ACC_PEFOFF 0x22 /* PEF off, always avail*/ -/* special channel access values for ia64 */ -#define CHAN_ACC_PEFON64 0x0A /* PEF on, always avail, UserLevelAuth=off */ -#define CHAN_ACC_PEFOFF64 0x2A /* PEF off, always avail, UserLevelAuth=off */ -#define OS_LINUX 1 -#define OS_WINDOWS 2 -#define OS_SOLARIS 3 -#define OS_BSD 4 -#define OS_HPUX 5 - - /* TSRLT2 Channels: 0=IPMB, 1=Serial/EMP, 6=LAN2, 7=LAN1 */ - /* S5000 Channels: 0=IPMB, 1=LAN1, 2=LAN2, 3=RMM2, 4=Serial, 6=pci, 7=sys */ - /* For TIGPT1U/mBMC: 1=LAN channel, no serial */ -#define LAN_CH 1 -#define SER_CH 4 -#define MAXCHAN 12 /*was 16, reduced for gnu ipmi_lan*/ -#define NUM_DEVICES_TO_CHECK 32 /*for GetBmcEthDevice()*/ -#define MAC_LEN 6 /*length of MAC Address*/ -#define PSW_LEN 16 /* see also PSW_MAX =20 in ipmicmd.h*/ -/* Note: The optional IPMI 2.0 20-byte passwords are not supported here, - * due to back-compatibility issues. */ - - /* IP address source values */ -#define SRC_STATIC 0x01 -#define SRC_DHCP 0x02 /* BMC running DHCP */ -#define SRC_BIOS 0x03 /* BIOS, sometimes DHCP */ -#define SRC_OTHER 0x04 - -/* PEF event severities */ -#define PEF_SEV_UNSPEC 0x00 -#define PEF_SEV_MON 0x01 -#define PEF_SEV_INFO 0x02 -#define PEF_SEV_OK 0x04 -#define PEF_SEV_WARN 0x08 -#define PEF_SEV_CRIT 0x10 -#define PEF_SEV_NORECOV 0x20 -#define FLAG_INIT 99 /*initial value of char flag, beyond scope*/ -#define PARM_INIT 0xff - -typedef struct -{ /* See IPMI Table 15-2 */ - uchar rec_id; - uchar fconfig; - uchar action; - uchar policy; - uchar severity; - uchar genid1; - uchar genid2; - uchar sensor_type; - uchar sensor_no; - uchar event_trigger; - uchar data1; - uchar mask1; - uchar res[9]; -} PEF_RECORD; - -typedef struct -{ /* See IPMI Table 19-3 */ - uchar data[36]; -} LAN_RECORD; /*LanRecord*/ - -#ifdef METACOMMAND -extern int get_lan_stats(uchar chan); /*see bmchealth.c */ -extern char *get_sensor_type_desc(uchar stype); /*from ievents.c*/ -#endif - -#define MYIP 0x01 -#define GWYIP 0x02 -#define DESTIP 0x04 -#define MAXPEF 41 /* max pefnum offset = 40 (41 entries) */ -/* - * Global variables - */ -static char * progver = "3.03"; -static char * progname = "ilan"; -static char fdebug = 0; -static char fipmilan = 0; -static char fIPMI10 = 0; /* =1 if IPMI v1.0 or less */ -static char fIPMI20 = 0; /* =1 if IPMI v2.0 or greater */ -static char fSOL20 = 1; /* =1 if use Serial-Over-Lan 2.0 w IPMI 2.0 */ -static char fsharedMAC = 0; /* =1 if special shared-MAC BMC LAN port */ -static char fAdjustPefNum = 0; /* =1 adjust pefnum to first empty index */ -static char fUserPefNum = 0; /* =1 if user specified a valid pefnum value*/ -static char freadonly = 1; /* =1 to only read LAN & PEF parameters */ -static char fcanonical = 0; /* =1 to show only canonical output */ -static char flansecure = 0; /* =1 set lan security: no null, cipher0 off*/ -static char bdelim = BCOLON; /* delimiter ':' or '|' if canonical output*/ -static char ftestonly = 0; -static char fprivset = 0; -static char flanstats = 0; /* =1 to show the IPMI LAN statistics */ -static char foptmsg = 0; /* =1 to show the option warning msg */ -static char fshowchan = 0; /* =1 to show the IPMI channels */ -static char nopts = 0; /* number of pefconfig options specified*/ -static int nerrs = 0; /* number of errors during processing */ -static int ngood = 0; /* number of good results */ -static int lasterr = 0; /* value of the last error */ -static char fCustomPEF = 0; /* =1 if -j to input a custom PEF record */ -static char fSetPEFOks = 0; /* =1 if -k to set PEF OK rules */ -static char fdisable = 0; -static char fenable = 0; /* =1 to config BMC LAN and PEF */ -static char fpefenable = 0; /* =1 enable PEF if Alert Dest is specified*/ -static char fdisableSOL = 0; -static char fgetser = 0; -static char fsetifn = 0; /* =1 if user specified ifname[] with -i */ -static char fethfound = 0; /* =1 if FindEthNum successful */ -static char fset_ip = 0; /* !=0 if options used to specify an IP addr*/ -static char fpassword = 0; /* =1 user-specified a password, so set it. */ -static uchar fmBMC = 0; /* =1 mini-BMC, =0 Sahalee BMC */ -static uchar fiBMC = 0; /* =1 Intel iBMC */ -static uchar fRomley = 0; /* =1 Intel Romley BMC */ -static uchar fGrantley = 0; -static uchar fipv6 = 0; /* =1 if BMC supports IPv6 */ -static uchar bmcpefctl = 0; /* existing BMC PEF Control, !0 = enabled */ -static char alertnum = 1; /* alert dest num (usu 1 thru 4) */ -static char alertmax = 9; /* alert dest num max (usu 4, error if >9) */ -static char pefnum = 12; /* 11 pre-defined entries, adding 12th */ -static char pefadd = 0; /* num PEF rules added (usu 2, could be 5 */ -static char pefmax = MAXPEF; /* 20 for Sahalee, 30 for miniBMC */ -static char *myuser = NULL; /* username to set, specified by -u */ -static uchar usernum = 0; /* set non-zero to specify user number */ -static uchar rgmyip[4] = {0,0,0,0}; -static uchar rggwyip[4] = {0,0,0,0}; -static uchar rggwy2ip[4] = {0,0,0,0}; -static uchar rgdestip[4] = {0,0,0,0}; -static uchar rgsubnet[4] = {0,0,0,0}; -static uchar bmcsubnet[4] = {255,255,255,0}; /* default subnet */ -static uchar ossubnet[4] = {0,0,0,0}; -static uchar osmyip[4] = {0,0,0,0}; -static uchar bmcmyip[4] = {0,0,0,0}; -static uchar bmcdestip[4] = {0,0,0,0}; -static uchar bmcdestmac[6]= {0xff,0,0,0,0,0}; -static uchar bmcgwyip[4] = {0,0,0,0}; -static uchar bmcgwymac[6]= {0xff,0,0,0,0,0}; -static uchar bmcmymac[6] = {0xff,0,0,0,0,0}; -static uchar rgmymac[6] = {0xff,0,0,0,0,0}; -static uchar osmymac[6] = {0xff,0,0,0,0,0}; -static uchar rggwymac[6] = {0xff,0,0,0,0,0}; -static uchar rggwy2mac[6] = {0xff,0,0,0,0,0}; -static uchar rgdestmac[6] = {0xff,0,0,0,0,0}; -static uchar rgdhcpmac[6] = {0xff,0,0,0,0,0}; -static int nciphers = 16; -static int ncipher0 = 0; -static uchar rgciphers[16] = {0xff,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; -static char rghostname[32] = {'\0'}; -static uchar custPEF[20]; /* max used = 18 bytes */ -static char rgcommunity[19] = "public"; /* default community */ -static char fsetcommunity = 0; /* =1 if user-specified community */ -static char passwordData[PSW_MAX+1] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; -static uchar authmask = 0; /* usu 0x17, mBMC = 0x15 */ -static uchar bAuth = 0x16; /*exclude auth=None for security*/ -static uchar arp_interval = 0x04; /* in 500 ms increments, 0-based */ -static uchar arp_ctl = 0x01; /* 01=grat arp, 02=arp resp, 03=both*/ -static uchar fsetarp = 0; /* 1=user-specified arp_ctl */ -#ifdef WIN32 -static uchar ostype = OS_WINDOWS; /*windows*/ -static char ifname[64] = "Local Area Connection "; /* interface name */ -static char ifpattn[25] = "Local Area Connection "; -#elif SOLARIS -/* for i86pc use "e1000g0", but for sun4u(sparc) this might be "eri0" */ -static uchar ostype = OS_SOLARIS; -#ifdef __SPARC__ -static char ifname[16] = "eri0"; /* SPARC interface name */ -static char ifname0[16] = "eri0"; -static char ifpattn[14] = "eri"; -#else -static char ifname[16] = "e1000g0"; /* Solaris x86 interface name */ -static char ifname0[16] = "e1000g0"; -static char ifpattn[14] = "e1000g"; -#endif -#elif defined(BSD) -static uchar ostype = OS_BSD; -static char ifname[16] = "em0"; /* interface name */ -static char ifname0[16] = "em0"; -static char ifpattn[14] = "em"; -#elif defined(HPUX) -static uchar ostype = OS_HPUX; -static char ifname[16] = "lan0"; /* interface name */ -static char ifname0[16] = "lan0"; -static char ifpattn[14] = "lan"; -#else -static uchar ostype = OS_LINUX; -static char ifname[16] = "eth0"; /* interface name */ -static char ifname0[16] = "eth0"; -static char ifpattn[14] = "eth"; -#endif -static char *pspace1 = "\t"; /*used for fcanonical output*/ -static char *pspace2 = "\t\t"; -static char *pspace3 = "\t\t\t"; -static char *pspace4 = "\t\t\t\t"; -static int vend_id; -static int prod_id; -static int lan_dhcp = 0; /*=1 if using DHCP for bmc lan channel*/ -static uchar ser_ch = SER_CH; -static uchar gcm_ch = PARM_INIT; -static uchar failover_enable = PARM_INIT; -static uchar vlan_enable = PARM_INIT; -static uchar vlan_prio = 0; /*default = 0*/ -static ushort vlan_id = 0; /*max 12 bits used*/ -static uchar lan_access = 0x04; /* -v usu 4=Admin, 3=Operator, 2=User */ -static uchar lan_user = 0x02; /* -u if specified, default to user 2 */ -static uchar lan_ch_parm = PARM_INIT; /* -L to set, unused if PARM_INIT */ -static uchar lan_ch = LAN_CH; /* default=LAN_CH=1 */ -static uchar max_users = 5; /* set in GetUser(1); */ -static uchar enabled_users = 0; /* set in GetUser(1); */ -static uchar show_users = 5; /* default, adjusted based on DeviceID */ -static uchar fnewbaud = 0; /* =1 if user specified baud */ -static uchar sol_baud = SOL_PREFERRED_BAUD_RATE; /*115.2k default*/ -static uchar sol_accum[2] = { 0x04, 0x32 }; -static uchar sol_retry[2] = { 0x06, 0x14 }; -static uchar sol_bvalid = 0; /* =1 if SOL baud is valid */ -static uchar chan_pefon = CHAN_ACC_PEFON; -static uchar chan_pefoff = CHAN_ACC_PEFOFF; -static uchar SessInfo[18]; /* Session Info data */ -// static uchar bparm7[3] = {0x00, 0x00, 0x00}; /*ipv4 header before*/ -static uchar iparm7[3] = {0x1E, 0x00, 0x00}; /*intel ipv4 TTL,Flags,Service*/ -static uchar oparm7[3] = {0x40, 0x40, 0x10}; /*other ipv4 TTL,Flags,Service*/ -static uchar *parm7 = &oparm7[0]; -#define MAX_PEFPARAMS 14 /* max pef params = 14 */ -uchar peflen[MAX_PEFPARAMS] = {0,1,1,1,1,1,21,2,1,4,17,1,3,18}; /*for ShowPef*/ -uchar pef_array[MAXPEF][21]; /* array of all PEF entries read, */ - /* sizeof(PEF_RECORD) = 21 */ -uchar pef_defaults[11][21] = { /* array of first 11 default PEF entries */ -{0x01,0x80,1,1,PEF_SEV_CRIT,0xff,0xff,0x01,0xff,0x01,0x95,0x0a,0,0,0,0,0,0,0,0,0}, /*Temp*/ -{0x02,0x80,1,1,PEF_SEV_CRIT,0xff,0xff,0x02,0xff,0x01,0x95,0x0a,0,0,0,0,0,0,0,0,0}, /*Volt*/ -{0x03,0x80,1,1,PEF_SEV_CRIT,0xff,0xff,0x04,0xff,0x01,0x95,0x0a,0,0,0,0,0,0,0,0,0}, /*Fan*/ -{0x04,0x80,1,1,PEF_SEV_WARN,0xff,0xff,0x05,0x05,0x03,0x01,0x00,0,0,0,0,0,0,0,0,0}, /*Chass*/ -{0x05,0x80,1,1,PEF_SEV_WARN,0xff,0xff,0x08,0xff,0x6f,0x06,0x00,0,0,0,0,0,0,0,0,0}, /*PS*/ -{0x06,0x80,1,1,PEF_SEV_WARN,0xff,0xff,0x0c,0x08,0x6f,0x02,0x00,0,0,0,0,0,0,0,0,0}, /*ECC*/ -{0x07,0x80,1,1,PEF_SEV_CRIT,0xff,0xff,0x0f,0x06,0x6f,0x01,0x00,0,0,0,0,0,0,0,0,0}, /*FRB*/ -{0x08,0x80,1,1,PEF_SEV_WARN,0xff,0xff,0x07,0xff,0x6f,0x1c,0x00,0,0,0,0,0,0,0,0,0}, /*POST*/ -{0x09,0x80,1,1,PEF_SEV_CRIT,0xff,0xff,0x13,0xff,0x6f,0x3e,0x03,0,0,0,0,0,0,0,0,0}, /*NMI*/ -{0x0a,0x80,1,1,PEF_SEV_INFO,0xff,0xff,0x23,0x03,0x6f,0x0e,0x00,0,0,0,0,0,0,0,0,0}, /*WDT*/ -{0x0b,0x80,1,1,PEF_SEV_MON,0xff,0xff,0x12,0xff,0x6f,0x02,0x00,0,0,0,0,0,0,0,0,0} };/*Restart*/ - -char **pefdesc; -char *pefdesc1[MAXPEF] = { /* for Sahalee BMC */ -/* 0 0x00 */ "", -/* 1 0x01 */ "Temperature Sensor", -/* 2 0x02 */ "Voltage Sensor", -/* 3 0x04 */ "Fan Failure", -/* 4 0x05 */ "Chassis Intrusion", -/* 5 0x08 */ "Power Supply Fault", -/* 6 0x0c */ "Memory ECC Error", -/* 7 0x0f */ "BIOS POST Error", -/* 8 0x07 */ "FRB Failure", -/* 9 0x13 */ "Fatal NMI", -/*10 0x23 */ "Watchdog Timer Reset", -/*11 0x12 */ "System Restart", -/*12 0x20 */ "OS Critical Stop", -/*13 0x09 */ "Power Redundancy Lost", -/*14 0x00 */ "reserved", -/*15 0x00 */ "reserved", -/*16 0x00 */ "reserved", -/*17 */ "reserved", -/*18 */ "reserved", -/*19 */ "reserved", -/*20 */ "reserved", -/*21 */ "reserved", -/*22 */ "reserved", -/*23 */ "reserved", -/*24 */ "reserved", -/*25 */ "reserved", -/*26 */ "reserved", -/*27 */ "reserved", -/*28 */ "reserved", -/*29 */ "unused", -/*30 */ "unused" }; - -char *pefdesc2[MAXPEF] = { /* for NSC miniBMC */ -/* 0 */ "", -/* 1 0x02*/ "Voltage Sensor Assert", -/* 2 0x23*/ "Watchdog FRB Timeout", /* was "Proc FRB Thermal", */ -/* 3 0x02*/ "Voltage Sensor Deassert", -/* 4 0x07*/ "Proc1 IERR", -/* 5 0xff*/ "Digital Sensor OK", -/* 6 0x14*/ "Chassis Identify", -/* 7 0x13*/ "NMI Button", -/* 8 0x14*/ "Clear CMOS via Panel", -/* 9 0x0f*/ "OS Load POST Code", -/*10 0x20*/ "OS Critical Stop", -/*11 0x09 */ "Power Redundancy Lost", -/*12 0x00*/ "reserved", -/*13 */ "reserved", -/*14 */ "reserved", -/*15 */ "reserved", -/*16 */ "reserved", -/*17 */ "reserved", -/*18 */ "reserved", -/*19 */ "reserved", -/*20 */ "reserved", -/*21 */ "reserved", -/*22 */ "reserved", -/*23 */ "reserved", -/*24 */ "reserved", -/*25 */ "reserved", -/*26 0x05*/ "Chassis Intrusion", -/*27 0x0f*/ "POST Code Error", -/*28 0x02*/ "Voltage Failure", -/*29 0x04*/ "Fan Failure", -/*30 0x01*/ "Temperature Failure"}; - -#define NLAN 39 -char canon_param[NLAN] = { 0,0,0,1,1,1,1,0,0,0,0,0,1,1,0,0,1,0,0,1, - 0,0,0,0,0,0,1,1,1,1}; -struct { - int cmd; - int sz; - char desc[28]; -} lanparams[NLAN] = { /* see IPMI Table 19-4 */ - /* 0 */ { 0, 1, "Set in progress"}, - /* 1 */ { 1, 1, "Auth type support"}, - /* 2 */ { 2, 5, "Auth type enables"}, - /* 3 */ { 3, 4, "IP address"}, - /* 4 */ { 4, 1, "IP addr src"}, /* (DHCP/Static) */ - /* 5 */ { 5, 6, "MAC addr"}, - /* 6 */ { 6, 4, "Subnet mask"}, - /* 7 */ { 7, 3, "IPv4 header"}, - /* 8 */ { 8, 2, "Prim RMCP port"}, - /* 9 */ { 9, 2, "Sec RMCP port"}, - /* 10 */ {10, 1, "BMC grat ARP"}, - /* 11 */ {11, 1, "grat ARP interval"}, - /* 12 */ {12, 4, "Def gateway IP"}, - /* 13 */ {13, 6, "Def gateway MAC"}, - /* 14 */ {14, 4, "Sec gateway IP"}, - /* 15 */ {15, 6, "Sec gateway MAC"}, - /* 16 */ {16,18, "Community string"}, - /* 17 */ {17, 1, "Num dest"}, - /* 18 */ {18, 5, "Dest type"}, - /* 19 */ {19, 13, "Dest address"}, - /* 20 */ {20, 2, "VLAN ID"}, - /* 21 */ {21, 1, "VLAN Priority"}, - /* 22 */ {22, 1, "Cipher Suite Support"}, - /* 23 */ {23,17, "Cipher Suites "}, - /* 24 */ {24, 9, "Cipher Suite Priv"}, - /* 25 */ {25, 4, "VLAN Dest Tag"}, - /* 26 */ {96, 28, "OEM Alert String"}, - /* 27 */ {97, 1, "Alert Retry Algorithm"}, - /* 28 */ {98, 3, "UTC Offset"}, - /* 29 */ {102, 1, "IPv6 Enable"}, - /* 30 */ {103, 1, "IPv6 Addr Source"}, - /* 31 */ {104,16, "IPv6 Address"}, - /* 32 */ {105, 1, "IPv6 Prefix Len"}, - /* 33 */ {106,16, "IPv6 Default Gateway"}, - /* 34 */ {108,17, "IPv6 Dest address"}, - /* 35 */ {192, 4, "DHCP Server IP"}, - /* 36 */ {193, 6, "DHCP MAC Address"}, - /* 37 */ {194, 1, "DHCP Enable"}, - /* 38 */ {201, 2, "Channel Access Mode(Lan)"} -}; - -#define NSER 22 /* max=32 */ -struct { - int cmd; - int sz; - char desc[28]; -} serparams[NSER] = { /* see IPMI Table 20-4 */ - /* 0 */ { 0, 1, "Set in progress"}, - /* 1 */ { 1, 1, "Auth type support"}, - /* 2 */ { 2, 5, "Auth type enables"}, - /* 3 */ { 3, 1, "Connection Mode"}, - /* 4 */ { 4, 1, "Sess Inactiv Timeout"}, - /* 5 */ { 5, 5, "Channel Callback"}, - /* 6 */ { 6, 1, "Session Termination"}, - /* 7 */ { 7, 2, "IPMI Msg Comm"}, - /* 8 */ { 8, 2, "Mux Switch"}, - /* 9 */ { 9, 2, "Modem Ring Time"}, - /* 10 */ {10,17, "Modem Init String"}, - /* 11 */ {11, 5, "Modem Escape Seq"}, - /* 12 */ {12, 8, "Modem Hangup Seq"}, - /* 13 */ {13, 8, "Modem Dial Command"}, - /* 14 */ {14, 1, "Page Blackout Interval"}, - /* 15 */ {15,18, "Community String"}, - /* 16 */ {16, 1, "Num of Alert Dest"}, - /* 17 */ {17, 5, "Destination Info"}, - /* 18 */ {18, 1, "Call Retry Interval"}, - /* 19 */ {19, 3, "Destination Comm Settings"}, - /* 20 */ {29, 2, "Terminal Mode Config"}, - /* 21 */ {201, 2,"Channel Access Mode (Ser)"} -}; - -static void getauthstr(uchar auth, char *s) -{ - if (s == NULL) return; - s[0] = 0; - if (auth & 0x01) strcat(s,"None "); - if (auth & 0x02) strcat(s,"MD2 "); - if (auth & 0x04) strcat(s,"MD5 "); - if (auth & 0x10) strcat(s,"Pswd "); - if (auth & 0x20) strcat(s,"OEM "); - return; -} - -static int GetDeviceID(LAN_RECORD *pLanRecord) -{ /*See also ipmi_getdeviceid( pLanRecord, sizeof(LAN_RECORD),fdebug); */ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - int status; - uchar inputData[24]; - uchar completionCode; - - if (pLanRecord == NULL) return(-1); - - status = ipmi_cmd(GET_DEVICE_ID, inputData, 0, responseData, - &responseLength, &completionCode, fdebug); - - if (status == ACCESS_OK) { - if( completionCode ) { - SELprintf("GetDeviceID: completion code=%x\n", - completionCode); - status = completionCode; - } else { - memcpy(pLanRecord,&responseData[0],responseLength); - set_mfgid(&responseData[0],responseLength); - return(0); // successful, done - } - } /* endif */ - /* if get here, error */ - return(status); -} /*end GetDeviceID() */ - -static int GetChanAcc(uchar chan, uchar parm, LAN_RECORD *pLanRecord) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - int status; - uchar inputData[24]; - uchar completionCode; - - if (pLanRecord == NULL) return(-1); - responseLength = 3; - inputData[0] = chan; - inputData[1] = parm; /* 0x80 = active, 0x40 = non-volatile */ - responseLength = sizeof(responseData); - status = ipmi_cmd(GET_CHANNEL_ACC, inputData, 2, responseData, - &responseLength, &completionCode, fdebug); - - if (status == ACCESS_OK) { - if( completionCode ) { - SELprintf("GetChanAcc: completion code=%x\n", - completionCode); - status = completionCode; - } else { - // dont copy first byte (Parameter revision, usu 0x11) - memcpy(pLanRecord,&responseData[0],responseLength); - return(0); // successful, done - } - } /* endif */ - /* if get here, error */ - return(status); -} /*GetChanAcc()*/ - -static int SetChanAcc(uchar chan, uchar parm, uchar val) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - int status; - uchar inputData[24]; - uchar completionCode; - - if (fmBMC) return(0); /* mBMC doesn't support this */ - /* parm: 0x80 = active, 0x40 = set non-vol*/ - responseLength = 1; - inputData[0] = chan; /* channel */ - inputData[1] = (parm & 0xc0) | (val & 0x3F); - inputData[2] = (parm & 0xc0) | lan_access; /* set priv level to Admin */ - - responseLength = sizeof(responseData); - status = ipmi_cmd(SET_CHANNEL_ACC, inputData, 3, responseData, - &responseLength, &completionCode, fdebug); - - if (status == ACCESS_OK) { - if( completionCode ) { - SELprintf("SetChanAcc: completion code=%x\n", - completionCode); - status = completionCode; - } else { - return(0); // successful, done - } - } /* endif */ - /* if get here, error */ - return(status); -} /*SetChanAcc()*/ - -int SetPasswd(int unum, char *uname, char *upswd, uchar chan, uchar priv) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - int status, i, psw_len; - uchar completionCode; - uchar inputData[24]; - int ret = 0; - - inputData[0] = (uchar)unum; /*user 1 = null user */ - responseLength = sizeof(responseData); - status = ipmi_cmd(GET_USER_NAME, inputData, 1, responseData, - &responseLength, &completionCode, fdebug); - SELprintf("GET_USERNAME: %x %x %x, status = %x, ccode=%x\n", - responseData[0],responseData[1],responseData[2], - status,completionCode); - if (fdebug) { - char aname[17]; - printf("User %d: ",unum); - for (i = 0; i < responseLength; i++) { - printf("%02x ",responseData[i]); - if (responseData[i] < 0x20) aname[i] = '.'; - else aname[i] = responseData[i]; - } - aname[16] = 0; - printf(" %s\n",aname); - } - - if (unum != 1) - { /* user specified a lan username */ - if (fiBMC && (unum == 2)) { - /* cannot set user 2 name */ - if (uname != NULL) { - if (strcmp(uname,"root") != 0) - printf("SETUSERNAME - user2 name %s must be root\n",uname); - } - } else if (unum == 2 && (vend_id == VENDOR_SUPERMICROX || - vend_id == VENDOR_SUPERMICRO) ) { - /* cannot set user 2 name */ - if (uname != NULL) { - if (strcmp(uname,"ADMIN") != 0) - printf("SETUSERNAME - user2 name %s must be ADMIN\n",uname); - } - } else if (uname != NULL) { - inputData[0] = (uchar)unum; - memset(&inputData[1],0,16); - memcpy(&inputData[1],uname,strlen(uname)); - status = ipmi_cmd(SET_USER_NAME, inputData, 17, responseData, - &responseLength, &completionCode, fdebug); - if (completionCode == 0xCC) - status = 0; /*setting username to previous gives 0xCC, ok*/ - else { - SELprintf("SETUSERNAME - %x %x %x status = %x, ccode=%x\n", - inputData[0],inputData[1],inputData[2], - status,completionCode); - if (status == 0) status = completionCode; - if (status != 0) ret = status; - } - } - } - - if ((unum != 1) && (uname == NULL)) { - ; /* if no username, do not enable user */ - } else { - inputData[0] = (uchar)unum; - inputData[1] = 0x01; /*enable user*/ - responseLength = sizeof(responseData); - status = ipmi_cmd(SET_USER_PASSWORD, inputData, 2, responseData, - &responseLength, &completionCode, fdebug); - printf("SETUSERENAB - inputData %x %x %x, status = %x, ccode=%x\n", - inputData[0],inputData[1],inputData[2], - status,completionCode); - if (status == 0) status = completionCode; - if (status != 0) ret = status; - } - - if (upswd != NULL) { - inputData[0] = (uchar)unum; - inputData[1] = 0x02; /*set password*/ - psw_len = PSW_LEN; /*=16 change if 20-byte passwords supported */ - memset(&inputData[2],0,psw_len); - strcpy((char *)&inputData[2],upswd); - if (fdebug) { - char apsw[PSW_MAX+1]; - char c; - printf("Pswd %d: ",unum); - for (i = 0; i < psw_len; i++) { - c = inputData[i+2]; - printf("%02x ",(unsigned char)c); - if (c < 0x20) apsw[i] = '.'; - else apsw[i] = c; - } - apsw[psw_len] = 0; - printf(" %s\n",apsw); - } - responseLength = sizeof(responseData); - status = ipmi_cmd(SET_USER_PASSWORD, inputData, 2+psw_len, - responseData,&responseLength, &completionCode,fdebug); - SELprintf("SETUSERPSW - inputData %x %x %x, status = %x, ccode=%x\n", - inputData[0],inputData[1],inputData[2], - status,completionCode); - if (status == 0) status = completionCode; - if (status != 0) ret = status; - - inputData[0] = (uchar)unum; /*user 1 = null user */ - inputData[1] = 0x03; /*test password*/ - memset(&inputData[2],0,psw_len); - if (upswd != NULL) - strcpy((char *)&inputData[2],upswd); - responseLength = sizeof(responseData); - status = ipmi_cmd(SET_USER_PASSWORD, inputData, 2+psw_len, - responseData,&responseLength, &completionCode,fdebug); - SELprintf("TESTUSERPSW - inputData %x %x %x, status = %x, ccode=%x\n", - inputData[0],inputData[1],inputData[2], - status,completionCode); - } - - if (fiBMC && (unum == 2)) { /*iBMC doesn't support this on user 2*/ - if (fdebug) - printf("skipping SETUSER_ACCESS on iBMC for user %d\n",unum); - } else { - inputData[0] = 0x90 | chan; /* = 0x97 for chan=lan_ch=7 */ - inputData[1] = (uchar)unum; /* user num */ - inputData[2] = priv; /* usu priv=lan_access is admin */ - inputData[3] = 0x00; /* User Session Limit, 0=not limited*/ - responseLength = sizeof(responseData); - status = ipmi_cmd(SET_USER_ACCESS, inputData, 4, responseData, - &responseLength, &completionCode, fdebug); - printf("SETUSER_ACCESS - inputData %x %x %x, status = %x ccode=%x\n", - (uchar)inputData[0],inputData[1],inputData[2], - status,completionCode); - if (status == 0) status = completionCode; - if (status != 0) ret = status; - } - - return(ret); -} /*end SetPswd()*/ - -int SetUser(int unum, char *uname, char *passwd, uchar chan) -{ - int ret = 0; - /* if the user specified a username or password, set it. */ - if ((fpassword) || (uname != NULL)) { - /* set username and password */ - ret = SetPasswd(unum, uname,passwd, chan, lan_access); - } - return(ret); -} /*end SetUser()*/ - -int -DisableUser(int unum, uchar chan) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - int status; - uchar completionCode; - uchar inputData[24]; - - inputData[0] = 0x80 | chan; /* = 0x87, no IPMI */ - inputData[1] = (uchar)unum; /* user 1 */ - inputData[2] = 0x0F; /* No access */ - inputData[3] = 0x00; /* User Session Limit, 0=not limited*/ - responseLength = sizeof(responseData); - status = ipmi_cmd(SET_USER_ACCESS, inputData, 4, responseData, - &responseLength, &completionCode, fdebug); - if (status == 0) status = completionCode; - return(status); -} - -static char *parse_priv(uchar c) -{ - char *p; - c = (c & 0x0f); - switch(c) { - case 1: p = "Callback"; break; - case 2: p = "User "; break; - case 3: p = "Operator"; break; - case 4: p = "Admin "; break; - case 5: p = "OEM "; break; - case 0x0f: p = "No access"; break; - default: p = "Reserved"; /*usually =0*/ - } - return(p); -} - -static void show_priv(uchar c) -{ - char *privstr; - privstr = parse_priv(c); - printf("%s",privstr); -} - -static int valid_priv(int c) -{ - int rv; - switch(c) { - case 1: - case 2: - case 3: - case 4: - case 5: - case 0x0f: - rv = 1; - break; - default: - rv = 0; - break; - } - return rv; -} - -/* GetUserINfo - get user configuration info for user subfunction */ -int GetUserInfo(uchar unum, uchar chan, uchar *enab, uchar *priv, char *uname) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - int status, rv; - uchar completionCode; - uchar inputData[24]; - uchar upriv; - - if (enab == NULL || priv == NULL) return(-2); - inputData[0] = chan; /*lan_ch*/ - inputData[1] = unum; /* user number for IPMI LAN */ - responseLength = sizeof(responseData); - status = ipmi_cmd(GET_USER_ACCESS, inputData, 2, responseData, - &responseLength, &completionCode, fdebug); - rv = status; - if (status == 0 && completionCode != 0) rv = completionCode; - if (rv == 0) { - if (unum == 1) { /*get max_users and enabled_users*/ - max_users = responseData[0] & 0x3f; - enabled_users = responseData[1] & 0x3f; - } - upriv = responseData[3]; - inputData[0] = unum; /* usually = 1 for BMC LAN */ - responseLength = sizeof(responseData); - status = ipmi_cmd(GET_USER_NAME, inputData, 1, responseData, - &responseLength, &completionCode, fdebug); - if (status != 0 || completionCode != 0) - responseData[0] = 0; /*empty user name */ - responseData[PSW_MAX-1] = 0; /*for safety*/ - *priv = upriv; - if ((responseData[1] & 0x80) == 0) *enab = 0; - else *enab = 1; - if (uname != NULL) strcpy(uname,responseData); - } - return(rv); -} - -/* GetUser - get and show user configuration */ -int GetUser(uchar user_num, uchar chan) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - int status; - uchar completionCode; - uchar inputData[24]; - - inputData[0] = chan; /*lan_ch*/ - inputData[1] = user_num; /* usually = 1 for BMC LAN */ - responseLength = sizeof(responseData); - status = ipmi_cmd(GET_USER_ACCESS, inputData, 2, responseData, - &responseLength, &completionCode, fdebug); - if (status == 0 && completionCode == 0) { - uchar c; - if (user_num == 1) { /*get max_users and enabled_users*/ - max_users = responseData[0] & 0x3f; - enabled_users = responseData[1] & 0x3f; - if (enabled_users > show_users) show_users = enabled_users; - if (show_users > max_users) show_users = max_users; - if (!fcanonical) - SELprintf("Users: showing %d of max %d users (%d enabled)\n", - show_users,max_users,enabled_users); - } - if (fcanonical) - SELprintf("Channel %d User %d Access %s%c ", chan, user_num, - pspace2,bdelim); - else - SELprintf("User Access(chan%d,user%d): %02x %02x %02x %02x : ", - chan, user_num, (uchar)responseData[0], - responseData[1],responseData[2], responseData[3]); - c = responseData[3]; - inputData[0] = user_num; /* usually = 1 for BMC LAN */ - responseLength = sizeof(responseData); - status = ipmi_cmd(GET_USER_NAME, inputData, 1, responseData, - &responseLength, &completionCode, fdebug); - if (status != 0 || completionCode != 0) - responseData[0] = 0; - if (c & 0x10) printf("IPMI, "); - show_priv(c); - printf(" (%s)\n",responseData); /*show user name */ - } else - SELprintf("Get User Access(%d,%d), status=%x, ccode=%x\n", - chan, user_num, status, completionCode); - return(status); -} /*end ShowUser()*/ - -static int GetSerEntry(uchar subfunc, LAN_RECORD *pLanRecord) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - uchar inputData[24]; - int status; - uchar completionCode; - uchar chan; uchar bset; - - if (pLanRecord == NULL) - { - if (fdebug) - printf("GetSerEntry(%d): error, output buffer is NULL\n",subfunc); - return (-1); - } - - chan = ser_ch; /* 1=EMP, 0=IPMB, 6=LAN2, 7=LAN1 */ - bset = 0; - - inputData[0] = chan; // flags, channel 3:0 (1=EMP) - inputData[1] = subfunc; // Param selector - inputData[2] = bset; // Set selector - inputData[3] = 0; // Block selector - if (subfunc == 10) { - inputData[2] = 0; - inputData[3] = 1; - } - - status = ipmi_cmd(GET_SER_CONFIG, inputData, 4, responseData, - &responseLength, &completionCode, fdebug); - - if (status == ACCESS_OK) { - if( completionCode ) { - if (fdebug) - SELprintf("GetSerEntry(%d,%d): completion code=%x\n", - chan,subfunc,completionCode); - } else { - // dont copy first byte (Parameter revision, usu 0x11) - memcpy(pLanRecord,&responseData[1],responseLength-1); - pLanRecord->data[responseLength-1] = 0; - //successful, done - return(0); - } - } - - // we are here because completionCode is not COMPLETION_CODE_OK - if (fdebug) - SELprintf("GetSerEntry(%d,%d): ipmi_cmd status=%x ccode=%x\n", - chan,subfunc,status,completionCode); - return -1; -} - -static int GetLanEntry(uchar subfunc, uchar bset, LAN_RECORD *pLanRecord) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - uchar inputData[24]; - int status, n; - uchar completionCode; - uchar chan; - - if (pLanRecord == NULL) - { - if (fdebug) - printf("GetLanEntry: error, output buffer is NULL\n"); - return (-1); - } - - chan = lan_ch; /* LAN 1 = 7 */ - - inputData[0] = chan; // flags, channel 3:0 (LAN 1) - inputData[1] = subfunc; // Param selector (3 = ip addr) - inputData[2] = bset; // Set selector - inputData[3] = 0; // Block selector - - status = ipmi_cmd(GET_LAN_CONFIG, inputData, 4, responseData, - &responseLength, &completionCode, fdebug); - - if (status == ACCESS_OK) { - if( completionCode ) { - if (fdebug) - SELprintf("GetLanEntry: completion code=%x\n", - completionCode); - status = completionCode; - } else { - // dont copy first byte (Parameter revision, usu 0x11) - if (responseLength > 0) { - n = responseLength-1; - memcpy(pLanRecord,&responseData[1],n); - } else n = 0; - pLanRecord->data[n] = 0; - //successful, done - return(0); - } - } - - // we are here because completionCode is not COMPLETION_CODE_OK - if (fdebug) - SELprintf("GetLanEntry: ipmi_cmd status=%d completionCode=%x\n", - status,completionCode); - return status; -} /* end GetLanEntry() */ - -static int SetLanEntry(uchar subfunc, LAN_RECORD *pLanRecord, int reqlen) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - uchar inputData[24]; - int status; - uchar completionCode; - - if (pLanRecord == NULL) - { - if (fdebug) - printf("SetLanEntry(%d): error, input buffer is NULL\n",subfunc); - return (-1); - } - if (vend_id == VENDOR_SUPERMICROX || vend_id == VENDOR_SUPERMICRO) { - /* SUPERMICRO cannot set grat arp or grat arp interval */ - if (subfunc == 10 || subfunc == 11) return(0); - } - - inputData[0] = lan_ch; // flags, channel 3:0 (LAN 1) - inputData[1] = subfunc; // Param selector (3 = ip addr) - memcpy(&inputData[2],pLanRecord,reqlen); - - status = ipmi_cmd(SET_LAN_CONFIG, inputData, (uchar)(reqlen+2), - responseData, &responseLength,&completionCode,fdebug); - - if (status == ACCESS_OK) { - if( completionCode ) { - if (fdebug) - SELprintf("SetLanEntry(%d): completion code=%x\n", - subfunc,completionCode); // responseData[0]); - return(completionCode); - } else { - //successful, done - return(0); - } - } - - // we are here because completionCode is not COMPLETION_CODE_OK - if (fdebug) - SELprintf("SetLanEntry(%d): ipmi_cmd status=%d ccode=%x\n", - subfunc,status,completionCode); - return status; -} /* end SetLanEntry() */ - -int GetPefEntry(uchar subfunc, ushort rec_id, PEF_RECORD *pPefRecord) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - uchar inputData[24]; /* only use 3 bytes for input */ - int status, n; - uchar completionCode; - - if (pPefRecord == NULL) - { - if (fdebug) - printf("GetPefEntry(%d): error, output buffer is NULL\n",subfunc); - return (-1); - } - - inputData[0] = subfunc; // Parameter = Evt Filter Table - inputData[1] = (uchar)rec_id; - inputData[2] = 0; - - status = ipmi_cmd(GET_PEF_CONFIG, inputData, 3, responseData, - &responseLength, &completionCode, fdebug); - - if (status == ACCESS_OK) { - if( completionCode ) { - if (fdebug) - SELprintf("GetPefEntry(%d/%d): completion code=%x\n", - subfunc,rec_id,completionCode); - status = completionCode; - } else { - /* expect PEF record to be >=21 bytes */ - if (responseLength > 1) n = responseLength-1; - else n = 0; - if (n > 21) n = 21; /*only use 21 bytes*/ - if ((subfunc == 6) && (n < 21)) { - if (fdebug) - printf("GetPefEntry(%d/%d): length %d too short\n", - subfunc,rec_id,responseLength); - } - // dont copy first byte (Parameter revision, usu 0x11) - if (n == 0) memset(pPefRecord,0,21); - else memcpy(pPefRecord,&responseData[1],n); - //successful, done - return(0); - } - } - - // we are here because completionCode is not COMPLETION_CODE_OK - if (fdebug) - SELprintf("GetPefEntry: ipmi_cmd status=%x completionCode=%x\n", - status, completionCode); - return status; -} /* end GetPefEntry() */ - -int SetPefEntry(PEF_RECORD *pPefRecord) -{ - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - uchar inputData[32]; /* sizeof(PEF_RECORD) = 21 +1=22 */ - int status; - uchar completionCode; - uchar subfunc; - - subfunc = 0x06; // Parameter = Evt Filter Table - - if (pPefRecord == NULL) { - if (fdebug) - printf("SetPefEntry: error, output buffer is NULL\n"); - return (-1); - } - - // 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 - // 06 0c 80 01 01 00 ff ff 20 ff 6f ff 00 00 00 00 00 00 00 00 00 00 - // memset(&inputData[0],0,requestData.dataLength); - inputData[0] = subfunc; - memcpy(&inputData[1],pPefRecord,sizeof(PEF_RECORD)); - - status = ipmi_cmd(SET_PEF_CONFIG, inputData, sizeof(PEF_RECORD)+1, - responseData, &responseLength, &completionCode, fdebug); - - if (status == ACCESS_OK) { - if( completionCode ) { - if (fdebug) - SELprintf("SetPefEntry: completion code=%x\n", - completionCode); // responseData[0]); - status = completionCode; - } else { - //successful, done - return(0); - } - - } - - // we are here because completionCode is not COMPLETION_CODE_OK - if (fdebug) - SELprintf("SetPefEntry: ipmi_cmd status=%d completion code=%x\n", - status,completionCode); - return(status); - -} /* end SetPefEntry() */ - -int DisablePef(int anum) -{ - uchar iData[24]; /* sizeof(PEF_RECORD) = 21 +1=22 */ - uchar rData[MAX_BUFFER_SIZE]; - int rLength = MAX_BUFFER_SIZE; - uchar cc; - int status; - - if (fmBMC) { - SELprintf("mini-BMC does not support disabling BMC LAN\n"); - return(-1); - } else { - status = SetChanAcc(lan_ch, 0x80, CHAN_ACC_DISABLE); - if (fdebug) SELprintf("SetChanAcc(lan/active), ret = %d\n",status); - status = SetChanAcc(lan_ch, 0x40, CHAN_ACC_DISABLE); - SELprintf("SetChanAcc(lan), ret = %d\n",status); - if (status != 0) return(status); - } - - iData[0] = 0x01; /* PEF Control Param */ - iData[1] = 0x00; /* PEF disable */ - rLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(SET_PEF_CONFIG, iData, 2, rData, &rLength, - &cc, fdebug); - if (status != 0) return(status); - if( cc ) { - SELprintf("DisablePef[%d]: completion code=%x\n",iData[0],cc); - return(-1); - } - - if (anum != 0) { - iData[0] = 0x09; /* PEF Alert Policy Table */ - iData[1] = (uchar)anum; /* Policy number (default 0x01) */ - iData[2] = 0x10; /* PEF LAN, policy disable */ - iData[3] = 0x00; /* LAN_CH=00, default dest=00 */ - iData[4] = 0x00; /* No alert string */ - rLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(SET_PEF_CONFIG, iData, 5, rData, &rLength, - &cc, fdebug); - if (status != 0) return(status); - if( cc ) { - SELprintf("DisablePef[%d]: completion code=%x\n",iData[0],cc); - return(-1); - } - } - return(status); -} - -int ShowPef(void) -{ - uchar iData[24]; /* sizeof(PEF_RECORD) = 21 +1=22 */ - uchar rData[MAX_BUFFER_SIZE]; - int rLength = MAX_BUFFER_SIZE; - uchar cc; - int status, i,j; - - for (j = 1; j < MAX_PEFPARAMS; j++) { - if (j == 4 && fmBMC) { - /* fmBMC gets cc=0x80 for param 4, so skip it. */ - continue; - } - iData[0] = (uchar)j; /* PEF Control Param */ - if (j == 6 || j == 7 || j == 9) iData[1] = 1; - else iData[1] = 0x00; /* PEF Set Selector */ - if (j == 13) iData[2] = 1; - else iData[2] = 0x00; /* PEF Block Selector */ - rLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(GET_PEF_CONFIG, iData, 3, rData, &rLength, - &cc, fdebug); - if (status == 0 && cc == 0) { - SELprintf("PefParam[%d]: ",iData[0]); - if (rLength > 0) - for (i=0;i<peflen[j];i++) SELprintf("%02x ", rData[1+i]); - SELprintf("\n"); - } else - SELprintf("PefParam[%d]: GET_PEF status=%d cc=%x\n", - iData[0],status,cc); - } - return(status); -} - -int EnablePef(int anum) -{ - uchar iData[24]; /* sizeof(PEF_RECORD) = 21 +1=22 */ - uchar rData[MAX_BUFFER_SIZE]; - int rLength = MAX_BUFFER_SIZE; - uchar cc; - int status; - uchar sdelay; - - status = SetChanAcc(lan_ch, 0x80, chan_pefon); - if (fdebug) SELprintf("SetChanAcc(lan/active), ret = %d\n",status); - status = SetChanAcc(lan_ch, 0x40, chan_pefon); - SELprintf("SetChanAcc(lan), ret = %d\n",status); - if (status != 0) return(status); - - { - iData[0] = 0x01; /* PEF Control Param */ - iData[1] = 0x00; /* PEF Set Selector */ - iData[2] = 0x00; /* PEF Block Selector */ - rLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(GET_PEF_CONFIG, iData, 3, rData, &rLength, - &cc, fdebug); - if (status != 0 || cc != 0) sdelay = 0; - else sdelay = rData[1]; - if (fdebug) SELprintf("EnablePef[%d]: get cc=%x, control=%02x\n", - iData[0],cc,sdelay); - iData[0] = 0x01; /* PEF Control Param (0x01 or 0x05) */ - iData[1] = 0x01; /* PEF enable, & no startup delay */ - rLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(SET_PEF_CONFIG, iData, 2, rData, &rLength, - &cc, fdebug); - if (status != 0) return(status); - if( cc ) { - SELprintf("EnablePef[%d]: completion code=%x\n",iData[0],cc); - return(-1); - } - -#ifdef TEST - iData[0] = 0x01; /* Serial Channel */ - iData[1] = 0x13; /* Dest Com settings = 19. */ - iData[2] = 0x01; /* POL Default Dest */ - iData[3] = 0x60; - iData[4] = 0x07; - status = ipmi_cmd(SET_SER_CONFIG, iData, 5, rData, &rLength, - &cc, fdebug); -#endif - - iData[0] = 0x02; /* PEF Action Param */ - iData[1] = 0x00; /* PEF Set Selector */ - iData[2] = 0x00; /* PEF Block Selector */ - rLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(GET_PEF_CONFIG, iData, 3, rData, &rLength, - &cc, fdebug); - if (fdebug) SELprintf("EnablePef[%d]: get cc=%x, val=%02x\n", - iData[0],cc,rData[1]); - iData[0] = 0x02; /* PEF Action Param */ - if (vend_id == VENDOR_INTEL) - iData[1] = 0x2f; /* enable alerts, reset, power cycle/down, diag*/ - else - iData[1] = 0x0f; /* enable alerts, reset, power cycle/down */ - rLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(SET_PEF_CONFIG, iData, 2, rData, &rLength, - &cc, fdebug); - if (status != 0) return(status); - if( cc ) { - SELprintf("EnablePef[%d]: completion code=%x\n",iData[0],cc); - return(-1); - } - - if ((sdelay & 0x04) != 0) { /* startup delay is supported */ - iData[0] = 0x03; /* PEF Startup Delay Param */ - iData[1] = 0x00; /* 0 seconds, default is 0x3c (60 sec) */ - rLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(SET_PEF_CONFIG, iData, 2, rData, &rLength, - &cc, fdebug); - if (fdebug) SELprintf("EnablePef[%d]: set val=%02x cc=%x\n", - iData[0],iData[1],cc); - if (status != 0) return(status); - if( cc ) { - SELprintf("EnablePef[%d]: completion code=%x\n",iData[0],cc); - // return(-1); - } - iData[0] = 0x04; /* PEF Alert Startup Delay Param */ - iData[1] = 0x00; /* 0 seconds, default is 0x3c (60 sec) */ - rLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(SET_PEF_CONFIG, iData, 2, rData, &rLength, - &cc, fdebug); - if (fdebug) SELprintf("EnablePef[%d]: set val=%02x cc=%x\n", - iData[0],iData[1],cc); - if (status != 0) return(status); - if( cc ) { - SELprintf("EnablePef[%d]: completion code=%x\n",iData[0],cc); - // return(-1); - } - } /*endif sdelay*/ - - iData[0] = 0x09; /* PEF Alert Policy Table */ - iData[1] = (uchar)anum; /* Policy number (default 0x01) */ - iData[2] = 0x18; /* PEF LAN, always alert, policy enable */ - iData[3] = (lan_ch << 4) + anum; /* LAN_CH=70, default dest=01 */ - iData[4] = 0x00; /* No alert string */ - rLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(SET_PEF_CONFIG, iData, 5, rData, &rLength, - &cc, fdebug); - if (fdebug) SELprintf("EnablePef[%d]: set val=%02x cc=%x\n", - iData[0],iData[1],cc); - if (status != 0) return(status); - if( cc ) { - SELprintf("EnablePef[%d]: completion code=%x\n",iData[0],cc); - return(-1); - } - } /*endif IPMI 1.5 */ - - return(status); -} /* end EnablePef */ - -#define NBAUDS 10 -static struct { - unsigned char val; - char str[8]; - } mapbaud[NBAUDS] = { - { 6, "9600" }, - { 6, "9.6K" }, - { 7, "19.2K" }, - { 7, "19200" }, - { 8, "38.4K" }, - { 8, "38400" }, - { 9, "57.6K" }, - { 9, "57600" }, - { 10, "115.2K" }, - { 10, "115200" } - }; - -static unsigned char Str2Baud(char * str) -{ - unsigned char baud = 0; - int i, n, len; - len = strlen_(str); - for (i = 0; i < len; i++) /*toupper*/ - if (str[i] >= 'a' && str[i] <= 'z') str[i] &= 0x5F; - for (i = 0; i < NBAUDS; i++) { - n = strlen_(mapbaud[i].str); - if (strncmp(str,mapbaud[i].str,n) == 0) { - baud = mapbaud[i].val; - break; - } - } - if (i == NBAUDS || baud == 0) { - printf("Invalid -B parameter value (%s), using 19.2K.\n",str); - i = 1; /* default is 19.2K */ - baud = mapbaud[i].val; /* =7 */ - } - if (fdebug) printf("new baud = %02x (%s)\n",baud,mapbaud[i].str); - return(baud); -} - -static char *Baud2Str(unsigned char bin) -{ - char *baudstr; - unsigned char b; - b = bin & 0x0f; - switch(b) { - case 6: baudstr = "9600 "; break; - case 7: baudstr = "19.2k"; break; - case 8: baudstr = "38.4k"; break; - case 9: baudstr = "57.6k"; break; - case 10: baudstr = "115.2k"; break; - default: baudstr = "nobaud"; - } - return(baudstr); -} - -static int BaudValid(unsigned char b) -{ - int val = 0; - switch(b) { - case 6: val = 1; break; - case 7: val = 1; break; - case 8: val = 1; break; - case 9: val = 1; break; - case 10: val = 1; break; - default: val = 0; break; - } - return(val); -} - -/* - * atomac - converts ASCII string to binary MAC address (array). - * Accepts input formatted as 11:22:33:44:55:66 or 11-22-33-44-55-66. - */ -void atomac(uchar *array, char *instr) -{ - int i,j,n; - char *pi; - j = 0; - pi = instr; - n = strlen_(instr); - for (i = 0; i <= n; i++) { - if (instr[i] == ':') { - array[j++] = htoi(pi); - pi = &instr[i+1]; - } else if (instr[i] == '-') { - array[j++] = htoi(pi); - pi = &instr[i+1]; - } else if (instr[i] == 0) { - array[j++] = htoi(pi); - } - if (j >= MAC_LEN) break; /*safety valve*/ - } - if (fdebug) - printf("atomac: %02x %02x %02x %02x %02x %02x\n", - array[0],array[1],array[2],array[3], array[4],array[5]); -} /*end atomac()*/ - -/* extern void atoip(uchar *array,char *instr); *from subs.c*/ -void MacSetInvalid(uchar *mac) -{ - int i; - if (mac == NULL) return; - for (i = 0; i < MAC_LEN; i++) { - if (i == 0) mac[i] = 0xFF; - else mac[i] = 0x00; - } -} - -int MacIsValid(uchar *mac) -{ - int fvalid = 0; - int i; - /* check for initial invalid value of FF:00:... */ - if (mac[0] == 0xff && mac[1] == 0x00) /* marked as invalid */ - return(fvalid); - /* check for all zeros */ - for (i = 0; i < MAC_LEN; i++) - if (mac[i] != 0) { /* not all zeros */ - fvalid = 1; - break; - } - return(fvalid); -} - -int IpIsValid(uchar *ipadr) -{ - int fvalid = 1; - if (ipadr[0] == 0) fvalid = 0; - return(fvalid); -} - -int SubnetIsValid(uchar *subnet) -{ - int fvalid = 0; - /* if masking off at least one bit, say valid */ - if (subnet[0] != 0) fvalid = 1; - return(fvalid); -} - -int SubnetIsSame(uchar *ip1, uchar *ip2, uchar *subnet) -{ - int i; - uchar c1, c2; - for (i = 0; i < 4; i ++) { - c1 = ip1[i] & subnet[i]; - c2 = ip2[i] & subnet[i]; - if (c1 != c2) return 0; - } - return 1; /*same, return true*/ -} - -#ifdef WIN32 -/* - * Obtain network adapter information (Windows). - */ -PIP_ADAPTER_ADDRESSES GetAdapters() { - PIP_ADAPTER_ADDRESSES AdapterAddresses = NULL; - ULONG OutBufferLength = 0; - ULONG RetVal = 0, i; - - // The size of the buffer can be different - // between consecutive API calls. - // In most cases, i < 2 is sufficient; - // One call to get the size and one call to get the actual parameters. - // But if one more interface is added or addresses are added, - // the call again fails with BUFFER_OVERFLOW. - // So the number is picked slightly greater than 2. - // We use i <5 in the example - for (i = 0; i < 5; i++) { - RetVal = GetAdaptersAddresses( - AF_INET, 0, NULL, - AdapterAddresses, - &OutBufferLength); - - if (RetVal != ERROR_BUFFER_OVERFLOW) { - break; - } - - if (AdapterAddresses != NULL) { - free(AdapterAddresses); - } - - AdapterAddresses = (PIP_ADAPTER_ADDRESSES) malloc(OutBufferLength); - if (AdapterAddresses == NULL) { - RetVal = GetLastError(); - break; - } - } - if (RetVal == NO_ERROR) { - // If successful, return pointer to structure - return AdapterAddresses; - } - else { - LPVOID MsgBuf; - - printf("Call to GetAdaptersAddresses failed.\n"); - if (FormatMessage( - FORMAT_MESSAGE_ALLOCATE_BUFFER | - FORMAT_MESSAGE_FROM_SYSTEM | - FORMAT_MESSAGE_IGNORE_INSERTS, - NULL, - RetVal, - MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language - (LPTSTR) &MsgBuf, - 0, - NULL )) { - printf("\tError: %s", MsgBuf); - } - LocalFree(MsgBuf); - } - return NULL; -} - -/* - * Set BMC MAC corresponding to current BMC IP address (Windows). - */ -int GetLocalMACByIP() { - PIP_ADAPTER_ADDRESSES AdapterAddresses = NULL; - PIP_ADAPTER_ADDRESSES AdapterList; - int result = 0; - - struct sockaddr_in *si; - - AdapterAddresses = GetAdapters(); - AdapterList = AdapterAddresses; - - while (AdapterList) { - PIP_ADAPTER_UNICAST_ADDRESS addr; - addr = AdapterList->FirstUnicastAddress; - if (addr == NULL) si = NULL; - else si = (struct sockaddr_in*)addr->Address.lpSockaddr; - if (si != NULL) { - if(memcmp(&si->sin_addr.s_addr, rgmyip, 4) == 0) { - if (!MacIsValid(rgmymac)) - memcpy(rgmymac, AdapterList->PhysicalAddress, MAC_LEN); - memcpy(osmyip, &si->sin_addr.s_addr, 4); - memcpy(osmymac, AdapterList->PhysicalAddress, MAC_LEN); - wcstombs(ifname,AdapterList->FriendlyName, sizeof(ifname)); - result = 1; - break; - } - } - AdapterList = AdapterList->Next; - } - - if (AdapterAddresses != NULL) { - free(AdapterAddresses); - } - return result; -} - -/* - * Get First IP Address in Windows OS - * ipaddr is 4 bytes, macaddr is 6 bytes, ipname can be 64 bytes. - * (called by idiscover.c) - */ -int GetFirstIP(uchar *ipaddr, uchar *macadr, char *ipname, char fdbg) -{ - PIP_ADAPTER_ADDRESSES AdapterAddresses = NULL; - PIP_ADAPTER_ADDRESSES AdapterList; - struct sockaddr_in *si; - uchar *psaddr; - int result = -1; - - AdapterAddresses = GetAdapters(); - AdapterList = AdapterAddresses; - - while (AdapterList) { - PIP_ADAPTER_UNICAST_ADDRESS addr; - - addr = AdapterList->FirstUnicastAddress; - si = (struct sockaddr_in*)addr->Address.lpSockaddr; - psaddr = (uchar *)&si->sin_addr.s_addr; - if ((psaddr[0] != 0) && (psaddr[0] != 169)) { - if (fdbg) printf("found IP: s_addr=%d.%d.%d.%d\n", - psaddr[0], psaddr[1], psaddr[2], psaddr[3]); - if (ipaddr != NULL) - memcpy(ipaddr, &si->sin_addr.s_addr, 4); - if (macadr != NULL) { - memcpy(macadr, AdapterList->PhysicalAddress, MAC_LEN); - if (fdbg) printf("found MAC: %02x:%02x:%02x:%02x:%02x:%02x\n", - macadr[0], macadr[1], macadr[2], macadr[3], - macadr[4], macadr[5]); - } - if (ipname != NULL) { - wcstombs(ipname,AdapterList->FriendlyName, sizeof(ifname)); - if (fdbg) printf("found Adapter: %d\n",ipname); - } - result = 0; - break; - } - AdapterList = AdapterList->Next; - } - - if (AdapterAddresses != NULL) { - free(AdapterAddresses); - } - return result; -} - -/* - * Set BMC MAC corresponding to current BMC IP address (Windows). - */ -int GetLocalIPByMAC(uchar *macadr) { - PIP_ADAPTER_ADDRESSES AdapterAddresses = NULL; - PIP_ADAPTER_ADDRESSES AdapterList; - int result = 0; - - struct sockaddr_in *si; - - AdapterAddresses = GetAdapters(); - AdapterList = AdapterAddresses; - - while (AdapterList) { - PIP_ADAPTER_UNICAST_ADDRESS addr; - if(memcmp(AdapterList->PhysicalAddress, macadr, MAC_LEN) == 0) { - addr = AdapterList->FirstUnicastAddress; - - si = (struct sockaddr_in*)addr->Address.lpSockaddr; - if (fdebug) { - uchar *psaddr; - psaddr = (uchar *)&si->sin_addr.s_addr; - printf("mac match: rgmyip=%d.%d.%d.%d s_addr=%d.%d.%d.%d\n", - rgmyip[0], rgmyip[1], rgmyip[2], rgmyip[3], - psaddr[0], psaddr[1], psaddr[2], psaddr[3]); - } - if (!IpIsValid(rgmyip) && (fsharedMAC==1)) /*not specified, shared*/ - memcpy(rgmyip, &si->sin_addr.s_addr, 4); - memcpy(osmyip, &si->sin_addr.s_addr, 4); - memcpy(osmymac, AdapterList->PhysicalAddress, MAC_LEN); - wcstombs(ifname,AdapterList->FriendlyName, sizeof(ifname)); - result = 1; - break; - } - AdapterList = AdapterList->Next; - } - - if (AdapterAddresses != NULL) { - free(AdapterAddresses); - } - return result; -} -/* - * Set MAC and IP address from given interface name (Windows). - */ -int GetLocalDataByIface() { - PIP_ADAPTER_ADDRESSES AdapterAddresses = NULL; - PIP_ADAPTER_ADDRESSES AdapterList; - int result = 0; - - size_t origsize, newsize, convertedChars; - wchar_t* wcstring; - struct sockaddr_in *si; - - AdapterAddresses = GetAdapters(); - AdapterList = AdapterAddresses; - - origsize = strlen(ifname) + 1; - newsize = origsize; - convertedChars = 0; - wcstring = (wchar_t*) malloc(sizeof(wchar_t) * newsize) ; - if (wcstring == NULL) AdapterList = NULL; /*skip loop, do free*/ - else mbstowcs(wcstring, ifname, origsize ); - - while (AdapterList) { - PIP_ADAPTER_UNICAST_ADDRESS addr; - if(wcsstr(AdapterList->FriendlyName, wcstring)) { - printf("Using interface: %S\n", AdapterList->FriendlyName); - printf("\t%S\n", AdapterList->Description); - addr = AdapterList->FirstUnicastAddress; - - si = (struct sockaddr_in*)addr->Address.lpSockaddr; - if (fdebug) { - uchar *psaddr; - psaddr = (uchar *)&si->sin_addr.s_addr; - printf("mac match: rgmyip=%d.%d.%d.%d s_addr=%d.%d.%d.%d " - "fsharedMAC=%d\n", - rgmyip[0], rgmyip[1], rgmyip[2], rgmyip[3], - psaddr[0], psaddr[1], psaddr[2], psaddr[3], - fsharedMAC); - } - if (!IpIsValid(rgmyip)) { /*IP not specified*/ - memcpy(rgmyip, &si->sin_addr.s_addr, 4); - memcpy(rgmymac, AdapterList->PhysicalAddress, MAC_LEN); - } - memcpy(osmyip, &si->sin_addr.s_addr, 4); - memcpy(osmymac, AdapterList->PhysicalAddress, MAC_LEN); - /* FriendlyName == ifname already */ - result = 1; - break; - } - AdapterList = AdapterList->Next; - } - - if (AdapterAddresses != NULL) { - free(AdapterAddresses); - } - return result; -} - -int FindEthNum(uchar *macadrin) -{ - int i; - uchar macadr[MAC_LEN]; - memcpy(macadr,macadrin,MAC_LEN); - if (fsharedMAC == 0 && vend_id == VENDOR_INTEL) { - /* Intel factory assigns them this way, so use that to compare */ - macadr[MAC_LEN-1] -= 2; /*OS MAC = BMC MAC - 2*/ - } - i = GetLocalIPByMAC(macadr); - if (i == 1) fethfound = 1; - if (fdebug) /* show the local OS eth if and MAC */ - printf("FindEth: OS %s IP=%d.%d.%d.%d MAC=%02x:%02x:%02x:%02x:%02x:%02x\n", - ifname, osmyip[0], osmyip[1], osmyip[2], osmyip[3], - osmymac[0], osmymac[1], osmymac[2], osmymac[3], - osmymac[4], osmymac[5]); - /* The actual Windows ethernet interface is determined - * in Get_IPMac_Addr using ipconfig, so - * init eth interface number as eth0 for Windows. */ - return(0); -} -#elif defined(HPUX) -#define INSAP 22 -#define OUTSAP 24 - -#include <sys/types.h> -#include <fcntl.h> -#include <errno.h> -#include <stdio.h> -#include <string.h> -#include <signal.h> -#include <ctype.h> -#include <sys/stropts.h> -#include <sys/poll.h> -#include <sys/dlpi.h> - -#define bcopy(source, destination, length) memcpy(destination, source, length) -#define AREA_SZ 5000 /*=* buffer length in bytes *=*/ -#define GOT_CTRL 1 -#define GOT_DATA 2 -#define GOT_BOTH 3 -#define GOT_INTR 4 -#define GOT_ERR 128 -static u_long ctl_area[AREA_SZ]; -static u_long dat_area[AREA_SZ]; -static struct strbuf ctl = {AREA_SZ, 0, (char *)ctl_area}; -static struct strbuf dat = {AREA_SZ, 0, (char *)dat_area}; -static char *dlpi_dev[] = {"/dev/dlpi", ""}; - -/*=* get a message from a stream; return type of message *=*/ -static int get_msg(int fd) -{ - int flags = 0; - int res, ret; - ctl_area[0] = 0; - dat_area[0] = 0; - ret = 0; - res = getmsg(fd, &ctl, &dat, &flags); - if(res < 0) { - if(errno == EINTR) { - return(GOT_INTR); - } else { - return(GOT_ERR); - } - } - if(ctl.len > 0) { - ret |= GOT_CTRL; - } - if(dat.len > 0) { - ret |= GOT_DATA; - } - return(ret); -} - -/*=* verify that dl_primitive in ctl_area = prim *=*/ -static int check_ctrl(int prim) -{ - dl_error_ack_t *err_ack = (dl_error_ack_t *)ctl_area; - if(err_ack->dl_primitive != prim) { - return GOT_ERR; - } - return 0; -} - -/*=* put a control message on a stream *=*/ -static int put_ctrl(int fd, int len, int pri) -{ - ctl.len = len; - if(putmsg(fd, &ctl, 0, pri) < 0) { - return GOT_ERR; - } - return 0; -} - -/*=* put a control + data message on a stream *=*/ -static int put_both(int fd, int clen, int dlen, int pri) -{ - ctl.len = clen; - dat.len = dlen; - if(putmsg(fd, &ctl, &dat, pri) < 0) { - return GOT_ERR; - } - return 0; -} - -/*=* open file descriptor and attach *=*/ -static int dl_open(const char *dev, int ppa, int *fd) -{ - dl_attach_req_t *attach_req = (dl_attach_req_t *)ctl_area; - if((*fd = open(dev, O_RDWR)) == -1) { - return GOT_ERR; - } - attach_req->dl_primitive = DL_ATTACH_REQ; - attach_req->dl_ppa = ppa; - put_ctrl(*fd, sizeof(dl_attach_req_t), 0); - get_msg(*fd); - return check_ctrl(DL_OK_ACK); -} - -/*=* send DL_BIND_REQ *=*/ -static int dl_bind(int fd, int sap, u_char *addr) -{ - dl_bind_req_t *bind_req = (dl_bind_req_t *)ctl_area; - dl_bind_ack_t *bind_ack = (dl_bind_ack_t *)ctl_area; - bind_req->dl_primitive = DL_BIND_REQ; - bind_req->dl_sap = sap; - bind_req->dl_max_conind = 1; - bind_req->dl_service_mode = DL_CLDLS; - bind_req->dl_conn_mgmt = 0; - bind_req->dl_xidtest_flg = 0; - put_ctrl(fd, sizeof(dl_bind_req_t), 0); - get_msg(fd); - if (GOT_ERR == check_ctrl(DL_BIND_ACK)) { - return GOT_ERR; - } - bcopy((u_char *)bind_ack + bind_ack->dl_addr_offset, addr, - bind_ack->dl_addr_length); - return 0; -} - -int FindEthNum(uchar *addr) -{ /* Need to use DLPI for HPUX */ - /*See http://cplus.kompf.de/artikel/macaddr.html */ - int fd; - int ppa; - u_char mac_addr[25]; - char **dev; - int i = 0; - - for (dev = dlpi_dev; **dev != ''; ++dev) { - for (ppa=0; ppa<10; ++ppa) { - if (GOT_ERR != dl_open(*dev, ppa, &fd)) { - if (GOT_ERR != dl_bind(fd, INSAP, mac_addr)) { - // bcopy( mac_addr, addr, 6); - i = ppa; - if (memcmp(mac_addr,addr,MAC_LEN) == 0) { - memcpy(osmymac, addr, MAC_LEN); - return(ppa); - } - } - } - close(fd); - } - } - return(i); -} -#else - -static char *get_ifreq_mac(struct ifreq *ifrq) -{ - char *ptr; -#ifdef SOLARIS - ptr = (char *)&ifrq->ifr_ifru.ifru_enaddr[0]; -#elif BSD - ptr = (char *)&ifrq->ifr_ifru.ifru_addr.sa_data[0]; -#elif MACOS - static uchar mactmp[MAC_LEN]; - ptr = &mactmp[0]; - MacSetInvalid(ptr); -#else - ptr = (char *)&ifrq->ifr_hwaddr.sa_data[0]; -#endif - return (ptr); -} - -extern int find_ifname(char *ifname); /*see idiscover.c*/ - -int FindEthNum(uchar *macadrin) -{ /*only used for Linux*/ - struct ifreq ifr; - int skfd; - int nCurDevice; - int devnum = -1; - int devos = 0; - uchar macadr[MAC_LEN]; - uchar macsav[MAC_LEN]; - uchar mactmp[MAC_LEN]; - uchar ipsav[4]; - char szDeviceName[ 16 ]; /* MAX_DEVICE_NAME_LENGTH + 1 */ - uchar fipvalid = 0; - int n; - - memcpy(macadr,macadrin,MAC_LEN); - if (fsharedMAC == 0 && vend_id == VENDOR_INTEL) { - /* Intel factory assigns them this way, so use that to compare */ - macadr[MAC_LEN-1] -= 2; /*OS MAC = BMC MAC - 2*/ - } -#ifdef DBG - if (fdebug) { - uchar *pb; - pb = macadrin; - printf("input mac:%02x:%02x:%02x:%02x:%02x:%02x " - "tmp mac:%02x:%02x:%02x:%02x:%02x:%02x\n", - pb[0],pb[1],pb[2],pb[3],pb[4],pb[5], - macadr[0],macadr[1],macadr[2],macadr[3],macadr[4],macadr[5]); - } -#endif - - n = find_ifname(szDeviceName); - if (n >= 0) { - n = strlen_(szDeviceName); - if (n < sizeof(ifpattn)) { - strcpy(ifpattn,szDeviceName); - ifpattn[n - 1] = 0; /*truncate last digit*/ - } - if (fdebug) - printf("found ifname %s, pattern %s\n",szDeviceName,ifpattn); - } - - if ( ( skfd = socket(AF_INET, SOCK_DGRAM, 0 ) ) < 0) { - if ( fdebug ) { - perror("socket"); - return devnum; - } - } - - for( nCurDevice = 0 ; - (nCurDevice < NUM_DEVICES_TO_CHECK) && (devnum == -1); - nCurDevice++ ) - { - sprintf( szDeviceName, "%s%d", ifpattn, nCurDevice ); /*eth%d*/ - memset((char *)&ifr,0,sizeof(ifr)); - strcpy(ifr.ifr_name, szDeviceName ); -#ifdef SIOCGIFHWADDR - if (ioctl(skfd, SIOCGIFHWADDR, &ifr) > 0) { - if ( fdebug ) - printf("FindEthNum: Could not get MAC address for %s\n", - szDeviceName); - } else -#endif - { - uchar *pb; - pb = (uchar *)get_ifreq_mac(&ifr); -#ifdef DBG - if (fdebug) { - printf("%s mac: %02x:%02x:%02x:%02x:%02x:%02x\n", - szDeviceName, pb[0],pb[1],pb[2],pb[3],pb[4],pb[5]); - } -#endif - memcpy(macsav, pb, MAC_LEN); - /* check if this device is configured for IP addr */ - memset((char *)&ifr,0,sizeof(ifr)); - strcpy(ifr.ifr_name, szDeviceName); - ifr.ifr_addr.sa_family = AF_INET; - if (ioctl(skfd, SIOCGIFADDR, &ifr) >= 0) { - fipvalid = 1; - memcpy(ipsav, &ifr.ifr_addr.sa_data[2], 4); - } else fipvalid = 0; - if (memcmp(macsav, macadr, MAC_LEN) == 0) { /*found match*/ - devnum = nCurDevice; - memcpy(osmymac, macsav, MAC_LEN); - if (fipvalid) memcpy(osmyip, ipsav, 4); - break; - } - if (nCurDevice == 0) { /*set a default of eth0*/ - devos = nCurDevice; - memcpy(osmymac,macsav, MAC_LEN); - if (fipvalid) memcpy(osmyip, ipsav, 4); - } else if (fipvalid) { /*check if NIC1 is eth1,2,3,...*/ - memcpy(mactmp,osmymac,MAC_LEN); - mactmp[MAC_LEN-1] -= 1; - if (memcmp(mactmp,macsav,MAC_LEN) == 0) { - devos = nCurDevice; - memcpy(osmymac, macsav, MAC_LEN); - memcpy(osmyip, ipsav, 4); - } - } - } /*end else*/ - } - if (!fsetifn) { - if (devnum == -1) { /*not found, use devos default*/ - devnum = devos; - sprintf( ifname, "%s%d", ifpattn, devnum ); /*eth%d*/ - } else { /* match was found, devnum set */ - fethfound = 1; - strcpy(ifname, szDeviceName ); - } - } - close(skfd); - if (fdebug) /* show the local OS eth if and MAC */ - printf("FindEth: OS %s IP=%d.%d.%d.%d MAC=%02x:%02x:%02x:%02x:%02x:%02x\n", - ifname, osmyip[0], osmyip[1], osmyip[2], osmyip[3], - osmymac[0], osmymac[1], osmymac[2], osmymac[3], - osmymac[4], osmymac[5]); - return(devnum); -} -#endif - -int show_channels(void) -{ - int ret, rlen; - uchar iData[2]; - uchar rData[10]; - uchar cc, mtype; - int j; - int rv = -1; - - for (j = 1; j < MAXCHAN; j++) { - rlen = sizeof(rData); - iData[0] = (uchar)j; /*channel #*/ - memset(rData,0,9); /*initialize recv data*/ - ret = ipmi_cmd(GET_CHANNEL_INFO, iData, 1, rData, &rlen, &cc, fdebug); - if (rv != 0) rv = ret; - if (ret == 0xcc || cc == 0xcc) /* special case for ipmi_lan */ - continue; - if (ret != 0) { - if (fdebug) printf("get_chan_info rc = %x\n",ret); - break; - } - mtype = rData[1]; /* channel medium type */ - switch(mtype) { - case 4: printf("channel[%d] type = lan\n",j); break; /*802.3 LAN type*/ - case 5: printf("channel[%d] type = serial\n",j); break; - case 7: printf("channel[%d] type = pci_smbus\n",j); break; - case 12: printf("channel[%d] type = system_interface\n",j); break; - default: printf("channel[%d] type = other %d\n",j,mtype); break; - } - rv = 0; - } /*end for j*/ - return(rv); -} - -/* - * GetBmcEthDevice - * Attempt to auto-detect the BMC LAN channel and matching OS eth port. - * INPUT: lan_parm = lan channel from user -L option, 0xFF if not specified - * OUTPUT: lan_ch is set to BMC LAN channel number - * if success, returns index of OS eth port (0, 1, ...). - * if no lan channels found, returns -2. - * if other error, returns -1. - */ -int GetBmcEthDevice(uchar lan_parm, uchar *pchan) -{ - LAN_RECORD LanRecord; - int devnum = -1; - int ret; - uchar bmcMacAddress[ MAC_LEN ]; /*MAC_LEN = 6*/ - int rlen; - uchar iData[2]; - uchar rData[10]; - uchar cc; - int i = 0; - int j, jstart, jend, jlan; - uchar mtype; - uchar *pb; - int fchgmac; - // int found = 0; - - /* Find the LAN channel(s) via Channel Info */ - if (lan_parm < MAXCHAN) { /* try user-specified channel only */ - lan_ch = lan_parm; - jstart = lan_parm; - jend = lan_parm+1; - } else { - jstart = 1; - jend = MAXCHAN; - } - memset(bmcMacAddress,0xff,sizeof(bmcMacAddress)); /*initialize to invalid*/ - for (j = jstart; j < jend; j++) { - rlen = sizeof(rData); - iData[0] = (uchar)j; /*channel #*/ - memset(rData,0,9); /*initialize recv data*/ - ret = ipmi_cmd(GET_CHANNEL_INFO, iData, 1, rData, &rlen, &cc, fdebug); - if (ret == 0xcc || cc == 0xcc) /* special case for ipmi_lan */ - continue; - if (ret != 0) { - if (fdebug) printf("get_chan_info rc = %x\n",ret); - break; - } - mtype = rData[1]; /* channel medium type */ - if (mtype == 4) { /* 802.3 LAN type*/ - if (fdebug) printf("chan[%d] = lan\n",j); - jlan = lan_ch; /*save prev lan chan */ - /* Get BMC MAC for this LAN channel. */ - /* Note: BMC MAC may not be valid yet. */ - lan_ch = (uchar)j; /*set lan channel for GetLanEntry*/ - ret = GetLanEntry( 5 /*MAC_ADDRESS_LAN_PARAM*/,0, &LanRecord); - if ( ret != 0 ) { - lan_ch = (uchar)jlan; /*restore lan_ch*/ - printf( "GetBmcEthDevice: GetLanEntry failed\n" ); - return devnum; - } else { - pb = &LanRecord.data[0]; - if (fdebug) printf("chan[%d] BMC MAC %x:%x:%x:%x:%x:%x\n",j, - pb[0], pb[1], pb[2], pb[3], pb[4], pb[5] ); - fchgmac = 0; - /* use the lowest valid lan channel MAC address */ - if (!MacIsValid(bmcMacAddress)) /* old MAC not valid*/ - fchgmac = 1; - else if (MacIsValid(pb) && /* new MAC is valid and*/ - (memcmp(bmcMacAddress,pb, sizeof(bmcMacAddress)) > 0)) - fchgmac = 1; /* new MAC lower */ - /* if no -L 3 and this is gcm, do not pick it. */ - if ((j == gcm_ch) && (lan_parm == PARM_INIT)) - fchgmac = 0; - if (fchgmac) { /* pick this channel & MAC */ - memcpy(bmcMacAddress,pb,sizeof(bmcMacAddress)); - lan_ch = (uchar)j; - } else lan_ch = (uchar)jlan; /*restore prev lan chan*/ - } - i++; /* i = num lan channels found */ - } else if (mtype == 5) { /* serial type*/ - if (fdebug) printf("chan[%d] = serial\n",j); - ser_ch = (uchar)j; /* set to last serial channel */ - } else if (mtype == 7) { /* PCI SMBus */ - if (fdebug) printf("chan[%d] = pci_smbus\n",j); - } else if (mtype == 12) { /* system interface */ - if (fdebug) printf("chan[%d] = system_interface\n",j); - } else if (mtype == 1) { /* IPMB */ - if (fdebug) printf("chan[%d] = IPMB\n",j); - } else /* other channel medium types, see IPMI 1.5 Table 6-3 */ - if (fdebug) printf("chan[%d] = %d\n",j,mtype); - } - if (i == 0) return(-2); /* no lan channels found */ - if (fdebug) printf("lan_ch detected = %d\n",lan_ch); - - /* This will work if the BMC MAC is shared with the OS */ - /* Otherwise, wait until we get the eth dev from the gateway below */ - devnum = FindEthNum(bmcMacAddress); - if ( fdebug ) - printf("GetBmcEthDevice: channel %d, %s%d\n",lan_ch,ifpattn,devnum); - if (pchan != NULL) *pchan = lan_ch; - return devnum; -} - -/* file_grep/findmatch - No longer used here, see ievents.c */ - -/* - * Get_Mac - * This routine finds a MAC address from a given IP address. - * Usually for the Alert destination. - * It uses ARP cache to do this. - */ -#if defined(WIN32) -int Get_Mac(uchar *ipadr,uchar *macadr, char *nodname) -{ - DWORD dwRetVal; - IPAddr DestIp = 0; - IPAddr SrcIp = 0; /* default for src ip */ - ULONG MacAddr[2]; /* for 6-byte hardware addresses */ - ULONG PhysAddrLen = MAC_LEN; /* default to length of six bytes */ - BYTE *bPhysAddr; - - if (!IpIsValid(ipadr)) { - if (fdebug) printf("Get_Mac: invalid IP addr\n"); - return 1; /*error*/ - } - memcpy(&DestIp, ipadr, 4); - - /* invoke system ARP query */ - dwRetVal = SendARP(DestIp, SrcIp, MacAddr, &PhysAddrLen); - - if (dwRetVal == NO_ERROR) - { /* no error - get the MAC */ - bPhysAddr = (BYTE *) & MacAddr; - if (PhysAddrLen) { - memcpy(macadr, bPhysAddr, MAC_LEN); - } else - printf("Warning: SendArp completed successfully, but returned length=0\n"); - } else if (dwRetVal == ERROR_GEN_FAILURE) - { /* MAC not available in this network - get gateway MAC */ - memcpy(macadr, rggwymac, MAC_LEN); - } else - { /* other errors */ - printf("Error: SendArp failed with error: %d", dwRetVal); - switch (dwRetVal) { - case ERROR_INVALID_PARAMETER: - printf(" (ERROR_INVALID_PARAMETER)\n"); - break; - case ERROR_INVALID_USER_BUFFER: - printf(" (ERROR_INVALID_USER_BUFFER)\n"); - break; - case ERROR_BAD_NET_NAME: - printf(" (ERROR_GEN_FAILURE)\n"); - break; - case ERROR_BUFFER_OVERFLOW: - printf(" (ERROR_BUFFER_OVERFLOW)\n"); - break; - case ERROR_NOT_FOUND: - printf(" (ERROR_NOT_FOUND)\n"); - break; - default: - printf("\n"); - break; - } - return 1; - } - return 0; -} /* end Get_Mac() for WIN32*/ -#elif defined(SOLARIS) -int Get_Mac(uchar *ipadr,uchar *macadr, char *nodename) -{ - FILE *fparp; - char buff[1024]; - /* char arpfile[] = "/proc/net/arp"; */ - char alertfile[] = "/tmp/dest.arping"; - char arping_cmd[128]; - char *pb, *pm; - int num, i; - int foundit = 0; - int ret = 0; - - if (IpIsValid(ipadr)) { /* if valid IP address */ - sprintf(arping_cmd, - "ping %d.%d.%d.%d >/dev/null; arp -a -n |grep %d.%d.%d.%d >%s\n", - ipadr[0],ipadr[1],ipadr[2],ipadr[3], - ipadr[0],ipadr[1],ipadr[2],ipadr[3], alertfile); - } else if (nodename != NULL) { /*if valid nodename */ - sprintf(arping_cmd, - "ping %s >/dev/null; arp -a |grep %s >%s\n", - nodename,nodename,alertfile); - } else ret = -1; - - if (ret == 0) { /* if valid IP address */ - /* make sure the destination is in the arp cache */ - if (fdebug) printf("%s", arping_cmd); - system(arping_cmd); - - fparp = fopen(alertfile,"r"); - if (fparp == NULL) { - fprintf(stdout,"Get_Mac: Cannot open %s, errno = %d\n", - alertfile,get_errno()); - ret = -1; - } else { - /* sample output: */ - /* e1000g0 cooper9 255.255.255.255 o 00:07:e9:06:55:c8 */ - while (fgets(buff, 1023, fparp)) { - /* should only run through loop once */ - num = strcspn(buff," \t"); /* skip 1st word ("e1000g0") */ - i = strspn(&buff[num]," \t"); /* skip whitespace */ - pb = &buff[num+i]; - num = strcspn(pb," \t"); /* skip 2nd word (nodename/IP) */ - i = strspn(&pb[num]," \t"); /* skip whitespace */ - pb += (num+i); - pm = &pb[25]; /* Now pb[25] has the MAC address */ - { /*validate new address?*/ - if (fdebug) printf("Get_Mac: mac=%s\n",pm); - foundit = 1; - if (!MacIsValid(macadr)) atomac(macadr,pm); - break; - } - } /*end while*/ - fclose(fparp); - } /*end else file opened*/ - } /*endif valid IP */ - - if (foundit == 0) { /* no errors, but no mac reply */ - if (MacIsValid(rggwymac) && !MacIsValid(macadr)) - /* this is useful if the ipadr is not in the local subnet */ - memcpy(macadr,rggwymac,6); /* get to it from the default gateway */ - } - return(ret); -} /*end Get_Mac for Solaris*/ -#elif defined(BSD) -int Get_Mac(uchar *ipadr,uchar *macadr, char *nodename) -{ - FILE *fparp; - char buff[1024]; - /* char arpfile[] = "/proc/net/arp"; */ - char alertfile[] = "/tmp/dest.arping"; - char arping_cmd[128]; - char *pb, *pm; - int num, i, j; - int foundit = 0; - int ret = 0; - - if (IpIsValid(ipadr)) { /* if valid IP address */ - sprintf(arping_cmd, - "ping -c2 %d.%d.%d.%d >/dev/null; arp -a -n |grep %d.%d.%d.%d >%s\n", - ipadr[0],ipadr[1],ipadr[2],ipadr[3], - ipadr[0],ipadr[1],ipadr[2],ipadr[3], alertfile); - } else if (nodename != NULL) { /*if valid nodename */ - sprintf(arping_cmd, - "ping -c2 %s >/dev/null; arp -a |grep %s >%s\n", - nodename,nodename,alertfile); - } else ret = -1; - - if (ret == 0) { /* if valid IP address */ - /* make sure the destination is in the arp cache */ - if (fdebug) printf("%s", arping_cmd); - system(arping_cmd); - - fparp = fopen(alertfile,"r"); - if (fparp == NULL) { - fprintf(stdout,"Get_Mac: Cannot open %s, errno = %d\n", - alertfile,get_errno()); - ret = -1; - } else { - /* sample output of arp -a -n: */ - /* ? (192.168.1.200) at 00:0e:0c:e5:df:65 on em0 [ethernet] */ - /* sample output of arp -a: */ - /* telcoserv (192.168.1.200) at 00:0e:0c:e5:df:65 on em0 [ethernet] */ - while (fgets(buff, 1023, fparp)) { - /* should only run through loop once */ - pb = &buff[0]; - for (j = 0; j < 3; j++) { /* skip 3 words */ - num = strcspn(pb," \t"); /* skip jth word */ - i = strspn(&pb[num]," \t"); /* skip whitespace */ - pb += (num+i); - } - pm = &pb[0]; /* Now pb[0] has the MAC address */ - { /* no need to validate new address*/ - if (fdebug) printf("Get_Mac: mac=%s\n",pm); - foundit = 1; - if (!MacIsValid(macadr)) atomac(macadr,pm); - break; - } - } /*end while*/ - fclose(fparp); - } /*end else file opened*/ - } /*endif valid IP */ - - if (foundit == 0) { /* no errors, but no mac reply */ - if (MacIsValid(rggwymac) && !MacIsValid(macadr)) - /* this is useful if the ipadr is not in the local subnet */ - memcpy(macadr,rggwymac,6); /* get to it from the default gateway */ - } - return(ret); -} /*end Get_Mac for BSD */ -#else -int Get_Mac(uchar *ipadr,uchar *macadr, char *nodename) -{ /* Get_Mac for Linux */ - FILE *fparp; - char buff[1024]; - /* char arpfile[] = "/proc/net/arp"; */ - char alertfile[] = "/tmp/dest.arping"; - char arping_cmd[128]; - char *pb, *pm, *px; - int num, i; - int foundit = 0; - int ret = 0; - char *_ifname; - - if (strcmp(ifname,"gcm") == 0) _ifname = ifname0; /*see gcm_ch instead*/ - else _ifname = ifname; - - /* Get a MAC address for a given IP address or nodename */ - if (IpIsValid(ipadr)) { /* if valid IP address */ - sprintf(arping_cmd, - "arping -I %s -c 2 %d.%d.%d.%d |grep reply |tail -n1 >%s\n", - _ifname,ipadr[0],ipadr[1],ipadr[2],ipadr[3],alertfile); - } else if (nodename != NULL) { /*if valid nodename */ - sprintf(arping_cmd, - "arping -I %s -c 2 %s |grep reply |tail -n1 >%s\n", - _ifname,nodename,alertfile); - } else ret = -1; - - if (ret == 0) { /* if valid IP address */ - /* make sure the destination is in the arp cache */ - if (fdebug) printf("%s", arping_cmd); - ret = system(arping_cmd); - - fparp = fopen(alertfile,"r"); - if (fparp == NULL) { - fprintf(stdout,"Get_Mac: Cannot open %s, errno = %d\n", - alertfile,get_errno()); - ret = -1; - } else { - ret = 0; - while (fgets(buff, 1023, fparp)) { - /* should only run through loop once */ - num = strcspn(buff," \t"); /* skip 1st word ("Unicast") */ - i = strspn(&buff[num]," \t"); - pb = &buff[num+i]; - if (strncmp(pb,"reply",5) == 0) { /* valid output */ - /* Find the ip address */ - pb += 6 + 5; /* skip "reply from " */ - num = strcspn(pb," \t"); - pb[num] = 0; - if (fdebug) printf("Get_Mac: ip=%s\n",pb); - /* IP address should already match input param */ - if (!IpIsValid(ipadr)) /* had nodname only*/ - atoip(ipadr,pb); /* fill in ipadr */ - /* Now find the mac address */ - pm = strchr(&pb[num+1],'['); - if (pm == NULL) pm = &pb[num+2]; /* just in case */ - pm++; - px = strchr(pm,']'); - if (px == NULL) px = pm + 17; /* just in case */ - px[0] = 0; - if (fdebug) printf("Get_Mac: mac=%s\n",pm); - foundit = 1; - if (!MacIsValid(macadr)) atomac(macadr,pm); - break; - } - } /*end while*/ - fclose(fparp); - } /*end else file opened*/ - } /*endif valid IP */ - - if (foundit == 0) { /* no errors, but no mac reply */ - if (MacIsValid(rggwymac) && !MacIsValid(macadr)) - /* this is useful if the ipadr is not in the local subnet */ - memcpy(macadr,rggwymac,6); /* get to it from the default gateway */ - } - return(ret); -} /* end Get_Mac() for Linux*/ -#endif - -#ifdef WIN32 -/* - * Set subnet mask based on current IP address (Windows). - */ -int SetSubnetMask() { - PMIB_IPADDRTABLE pIPAddrTable; - unsigned int i; - DWORD dwSize = 0, dwRetVal; - LPVOID lpMsgBuf; - - pIPAddrTable = (MIB_IPADDRTABLE*) malloc( sizeof( MIB_IPADDRTABLE) ); - - if ( pIPAddrTable ) { - // Make an initial call to GetIpAddrTable to get the - // necessary size into the dwSize variable - if (GetIpAddrTable(pIPAddrTable, &dwSize, 0) == ERROR_INSUFFICIENT_BUFFER) { - free( pIPAddrTable ); - pIPAddrTable = (MIB_IPADDRTABLE *) malloc ( dwSize ); - } - } else - printf("Memory allocation failed.\n"); - - if ( pIPAddrTable ) { - // Make a second call to GetIpAddrTable to get the - // actual data we want - if ( (dwRetVal = GetIpAddrTable( pIPAddrTable, &dwSize, 0 )) == NO_ERROR ) { - for(i = 0; i < pIPAddrTable->dwNumEntries; ++i) { - if(memcmp(&(pIPAddrTable->table[i].dwAddr), rgmyip, 4) == 0) { - memcpy(rgsubnet, &(pIPAddrTable->table[i].dwMask), 4); - free( pIPAddrTable ); - return 1; - } - } - } else { - if (FormatMessage( - FORMAT_MESSAGE_ALLOCATE_BUFFER | - FORMAT_MESSAGE_FROM_SYSTEM | - FORMAT_MESSAGE_IGNORE_INSERTS, - NULL, - dwRetVal, - MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language - (LPTSTR) &lpMsgBuf, - 0, - NULL )) { - printf("\tError: %s", lpMsgBuf); - } - - printf("Call to GetIpAddrTable failed.\n"); - } - } - - if ( pIPAddrTable ) - free( pIPAddrTable ); - - return 0; -} - -/* - * Extract gateway address from routing table (Windows). - */ -int SetDefaultGateway() { - PMIB_IPFORWARDTABLE pIpForwardTable; - DWORD dwRetVal, dwSize; - - unsigned int nord_mask; - unsigned int nord_ip; - unsigned int nord_net; - - unsigned int i; - - nord_mask = *((unsigned int *)rgsubnet); - nord_ip = *((unsigned int *)rgmyip); - - nord_net = nord_ip & nord_mask; - - pIpForwardTable = (MIB_IPFORWARDTABLE*) malloc(sizeof(MIB_IPFORWARDTABLE)); - if (pIpForwardTable == NULL) { - printf("Error allocating memory\n"); - return 0; - } - - dwSize = 0; - if (GetIpForwardTable(pIpForwardTable, &dwSize, 0) == ERROR_INSUFFICIENT_BUFFER) { - free(pIpForwardTable); - pIpForwardTable = (MIB_IPFORWARDTABLE*) malloc(dwSize); - if (pIpForwardTable == NULL) { - printf("Error allocating memory\n"); - return 0; - } - } - - /* - * Note that the IPv4 addresses returned in - * GetIpForwardTable entries are in network byte order - */ - if ((dwRetVal = GetIpForwardTable(pIpForwardTable, &dwSize, 0)) == NO_ERROR) { - for (i = 0; i < (int) pIpForwardTable->dwNumEntries; i++) { - unsigned int gwaddr = pIpForwardTable->table[i].dwForwardNextHop; - if(nord_net == (gwaddr & nord_mask) && nord_ip != gwaddr) - { /* searching for gateways from our network with different address than ours */ - memcpy(rggwyip, &gwaddr, 4); - return 0; - } - } - free(pIpForwardTable); - return 1; - } - else { - printf("\tGetIpForwardTable failed.\n"); - free(pIpForwardTable); - return 0; - } - -} -/*endif WIN32*/ -#endif - -/* - * Get_IPMac_Addr - * This routine finds the IP and MAC for the local interface, - * the default gateway, and SNMP alert destination from the - * BMC and OS information. - * - * Linux snmpd.conf locations (see ipmiutil.spec): - * RedHat, MontaVista: /etc/snmp/snmpd.conf - * SuSE SLES 8: /etc/ucdsnmpd.conf - * SuSE SLES 9: /etc/snmpd.conf - */ -#ifdef WIN32 -int Get_IPMac_Addr() -{ /*for Windows*/ - char ipstr[] = "IP Address"; - char macstr[] = "Physical Address"; - char gwystr[] = "Default Gateway"; - char substr[] = "Subnet Mask"; - int found = 0; - char fgetmac; - - if (IpIsValid(rgmyip)) - { /* user-specified ip, get mac */ - if (fdebug) printf("User IP was specified\n"); - if (!MacIsValid(rgmymac)) - { /* no user-specified MAC, get it from IP */ - if (fdebug) printf("No user MAC specified\n"); - if(!GetLocalMACByIP()) - { /* couldn't get MAC from IP, get old one */ - if (fdebug) printf("No MAC from IP, use old\n"); - if(IpIsValid(bmcmyip) && MacIsValid(bmcmymac)) - { - printf("Using current BMC MAC %02x:%02x:%02x:%02x:%02x:%02x\n", - bmcmymac[0], bmcmymac[1], - bmcmymac[2], bmcmymac[3], - bmcmymac[4], bmcmymac[5]); - memcpy(rgmymac,bmcmymac,MAC_LEN); - } else { - printf("Failed to obtain valid MAC\n"); - } - } else { - printf("Using adapter MAC %02x:%02x:%02x:%02x:%02x:%02x\n", - rgmymac[0], rgmymac[1], - rgmymac[2], rgmymac[3], - rgmymac[4], rgmymac[5]); - } - } else { /* user MAC available */ - printf("Using user MAC %02x:%02x:%02x:%02x:%02x:%02x\n", - rgmymac[0], rgmymac[1], - rgmymac[2], rgmymac[3], - rgmymac[4], rgmymac[5]); - } - } else { /* no user-specified IP */ - if (fdebug) printf("No user IP specified\n"); - if (!MacIsValid(rgmymac)) - { /* no user-specified MAC, get it from interface */ - if(!GetLocalDataByIface()) - { /* use existing MAC an IP */ - printf("Using current BMC IP %d.%d.%d.%d\n", - bmcmyip[0], bmcmyip[1], - bmcmyip[2], bmcmyip[3]); - memcpy(rgmyip,bmcmyip,4); - printf("Using current BMC MAC %02x:%02x:%02x:%02x:%02x:%02x\n", - bmcmymac[0], bmcmymac[1], - bmcmymac[2], bmcmymac[3], - bmcmymac[4], bmcmymac[5]); - memcpy(rgmymac,bmcmymac,MAC_LEN); - - } - } else { /* user-specified MAC */ - if(!GetLocalIPByMAC(rgmymac)) - { /* use existing MAC and IP */ - printf("Using current BMC IP %d.%d.%d.%d\n", - bmcmyip[0], bmcmyip[1], - bmcmyip[2], bmcmyip[3]); - memcpy(rgmyip,bmcmyip,4); - printf("Using current BMC MAC %02x:%02x:%02x:%02x:%02x:%02x\n", - bmcmymac[0], bmcmymac[1], - bmcmymac[2], bmcmymac[3], - bmcmymac[4], bmcmymac[5]); - memcpy(rgmymac,bmcmymac,MAC_LEN); - } - } - } - - if (rghostname[0] == 0) { /*hostname not specified*/ - if (!fipmilan) - gethostname(rghostname,sizeof(rghostname)); - } - if (fdebug) /* show the local OS eth if and MAC */ - printf("OS %s IP=%d.%d.%d.%d %s MAC=%02x:%02x:%02x:%02x:%02x:%02x used for arp\n", - ifname, osmyip[0],osmyip[1],osmyip[2],osmyip[3], rghostname, - osmymac[0], osmymac[1], osmymac[2], osmymac[3], - osmymac[4], osmymac[5]); - - if(!SubnetIsValid(rgsubnet)) { - SetSubnetMask(); - } - if (!IpIsValid(rggwyip)) { /* if gwy ip not user-specified */ - SetDefaultGateway(); - } - - if (lan_ch == gcm_ch) { - if (SubnetIsSame(rgmyip,rggwyip,rgsubnet)) fgetmac = 1; - else fgetmac = 0; - } else fgetmac = 1; - - if (fgetmac) { - if (IpIsValid(rggwyip) && !MacIsValid(rggwymac)) /*gwy mac not specified*/ - Get_Mac(rggwyip,rggwymac,NULL); - - if (IpIsValid(rggwy2ip) && !MacIsValid(rggwy2mac)) /*gwy2 mac not valid*/ - Get_Mac(rggwy2ip,rggwy2mac,NULL); - } - - return(0); -} /* end Get_IPMac_Addr for Windows */ - -#elif defined(HPUX) -int Get_IPMac_Addr() -{ /*for HP-UX*/ - return(-1); -} -#else -int Get_IPMac_Addr() -{ /*for Linux*/ -#if defined(SOLARIS) - char rtfile[] = "/tmp/route"; - char snmpfile[] = "/etc/snmp/conf/snmpd.conf"; -#elif defined(BSD) - char rtfile[] = "/tmp/route"; - char snmpfile[] = "/etc/snmpd.config"; -#else - char rtfile[] = "/proc/net/route"; - char snmpfile[] = "/etc/snmp/snmpd.conf"; -#endif - // char alertfile[] = "/tmp/alert.arping"; - // FILE *fparp; - FILE *fprt; - int fd = -1; - int skfd; - uchar *pc; - int rc = 0; - int i,j; - uchar bnetadr[4]; - uchar bgateadr[4]; - char gate_addr[128]; - char iface[16]; - char defcommunity[19] = "public"; - char buff[1024]; - char alertname[60]; - int num, nmatch; - struct ifreq ifr; - char *_ifname; - char fgetmac; - - /* Get the IP address and associated MAC address specified. */ - /* Local for ethN; Default Gateway; Alert Destination */ - - /* Get the default gateway IP */ -#if defined(SOLARIS) || defined(BSD) - char rtcmd[80]; - sprintf(rtcmd,"netstat -r -n |grep default |awk '{ print $2 }' >%s",rtfile); - system(rtcmd); - /* use rtfile output from netstat -r, see also /etc/defaultroute */ - fprt = fopen(rtfile,"r"); - if (fprt == NULL) { - fprintf(stdout,"netstat: Cannot open %s, errno = %d\n",rtfile,get_errno()); - } else { - while (fgets(buff, 1023, fprt)) { - if ((buff[0] > '0') && (buff[0] <= '9')) { /*valid*/ - atoip(bgateadr,buff); - if (fdebug) - printf("default gateway: %s, %d.%d.%d.%d %s\n",buff, - bgateadr[0], bgateadr[1], bgateadr[2], bgateadr[3],ifname); - if (!IpIsValid(rggwyip)) /* if not user-specified */ - memcpy(rggwyip,bgateadr,4); - break; - } - } - fclose(fprt); - } /*end-else good open */ -#else - /* cat /proc/net/route and save Gwy if Dest == 0 and Gateway != 0 */ - fprt = fopen(rtfile,"r"); - if (fprt == NULL) { - fprintf(stdout,"route: Cannot open %s, errno = %d\n",rtfile,get_errno()); - } else { - char rtfmt[] = "%16s %128s %128s %X %d %d %d %128s %d %d %d\n"; - int iflags, refcnt, use, metric, mss, window, irtt; - char mask_addr[128], net_addr[128]; - uint *pnet; - uint *pgate; - - pnet = (uint *)&bnetadr[0]; - pgate = (uint *)&bgateadr[0]; - while (fgets(buff, 1023, fprt)) { - num = sscanf(buff, rtfmt, - iface, net_addr, gate_addr, - &iflags, &refcnt, &use, &metric, mask_addr, - &mss, &window, &irtt); - if (num < 10 || !(iflags & RTF_UP)) - continue; - - j = 6; - for (i = 0; i < 4; i ++) { - bnetadr[i] = htoi(&net_addr[j]); - bgateadr[i] = htoi(&gate_addr[j]); - j -= 2; - } - if ((*pnet == 0) && (*pgate != 0)) { /* found default gateway */ - if (fdebug) - printf("default gateway: %s, %d.%d.%d.%d %s\n",gate_addr, - bgateadr[0], bgateadr[1], bgateadr[2], bgateadr[3],iface); - if (!IpIsValid(rggwyip)) /* if not user-specified */ - memcpy(rggwyip,bgateadr,4); - _ifname = iface; /*use this iface for gwy mac */ - if (!fsetifn) strncpy(ifname,iface,16); - break; - } - } /*end while*/ - fclose(fprt); - } /*end-else good open */ -#endif - - /* Create a channel to the NET kernel. */ - if ((skfd = socket(AF_INET, SOCK_DGRAM, 0)) < 0) { - perror("socket"); - return(-3); - } - - /* Find a valid local BMC MAC Address */ - if (lan_ch == gcm_ch) { - /* GCM has its own unique mac address */ - if (!MacIsValid(rgmymac)) { - if (MacIsValid(bmcmymac)) { - memcpy(rgmymac,bmcmymac,MAC_LEN); /*use existing*/ - } else { /*error*/ - printf("invalid MAC address for gcm\n"); - } - } /*else use rgmymac if specified*/ - _ifname = iface; /*use the iface from gwy (e.g. eth0) */ - fsharedMAC = 0; /*gcm has separate NIC, separate MAC*/ - - // fd = -1; - fd = skfd; // get_socket_for_af(AF_INET) below; - } else { /*else not gcm*/ - if (!fsetifn && !fethfound) { /*do not have ifname yet*/ - i = FindEthNum(bmcmymac); - if (i >= 0) sprintf(ifname,"%s%d",ifpattn,i); - } - ifr.ifr_addr.sa_family = AF_INET; - if (fdebug) printf("getipmac: ifname=%s\n",ifname); - _ifname = ifname; - strcpy(ifr.ifr_name, _ifname); - -#ifdef SIOCGIFHWADDR - /* Get the local if HWADDR (MAC Address) from OS */ - if (ioctl(skfd, SIOCGIFHWADDR, &ifr) < 0) { - if (fdebug) - printf("ioctl(SIOCGIFHWADDR,%s) error, errno = %d\n",_ifname,get_errno()); - } else memcpy(osmymac,get_ifreq_mac(&ifr),MAC_LEN); /*OS mac*/ -#endif - - if (memcmp(bmcmymac,osmymac,MAC_LEN) == 0) { - /* osmymac and ifname were set above by FindEthNum */ - printf("\tBMC shares IP/MAC with OS NIC %s\n",_ifname); - fsharedMAC = 1; - } /* else fsharedMAC = 0; */ - - if (fsharedMAC == 0) { /* then BMC has separate MAC */ - if (!MacIsValid(rgmymac) && MacIsValid(bmcmymac)) - memcpy(rgmymac,bmcmymac,MAC_LEN); /*use existing*/ - } else { /* else OS & BMC share a MAC */ - /* Use the local if HWADDR (MAC Address) from OS */ - if (!MacIsValid(rgmymac)) { /* if not user-specified */ - if (MacIsValid(bmcmymac)) - memcpy(rgmymac,bmcmymac,MAC_LEN); /*use existing*/ - else memcpy(rgmymac,osmymac,MAC_LEN); /*use OS mac*/ - } - } - fd = skfd; // get_socket_for_af(AF_INET) below; - } - - if (fd >= 0) { /* if valid fd, find OS IP */ - strcpy(ifr.ifr_name, _ifname); - ifr.ifr_addr.sa_family = AF_INET; - /* Get the IFADDR (IP Address) from OS */ - if (ioctl(fd, SIOCGIFADDR, &ifr) < 0) { - int err; - err = get_errno(); - /* errno 99 here means that eth0 is not enabled/up/defined. */ - if (err == 99) - printf("ioctl(SIOCGIFADDR) error, %s not enabled\n",_ifname); - else if (fdebug) - printf("ioctl(SIOCGIFADDR,%s) error, errno=%d\n",_ifname,err); - } else { /* got the local OS IP successfully */ - pc = (uchar *)&ifr.ifr_addr.sa_data[2]; - if (fdebug) - printf("%s addr = %d.%d.%d.%d\n",_ifname,pc[0],pc[1],pc[2],pc[3]); - memcpy(osmyip, pc, 4); - if (!IpIsValid(rgmyip) && (fsharedMAC==1)) /*not specified, shared*/ - memcpy(rgmyip, osmyip, 4); - - /* get the local OS netmask */ - strcpy(ifr.ifr_name, _ifname); - if (ioctl(fd, SIOCGIFNETMASK, &ifr) < 0) { - if (fdebug) - printf("ioctl(SIOCGIFNETMASK) error, errno=%d\n",get_errno()); - /* if leave invalid, will use default rgsubnet */ - } else { // sizeof(struct sockaddr) - pc = (uchar *)&ifr.ifr_netmask.sa_data[2]; - if (fdebug) - printf("subnet = %d.%d.%d.%d \n", pc[0],pc[1],pc[2],pc[3]); - memcpy(ossubnet, pc, 4); - if (!SubnetIsValid(rgsubnet) && fsharedMAC) /*not specified*/ - memcpy(rgsubnet, pc, 4); - } - -#ifdef SIOCGIFHWADDR - /* Get the localhost OS HWADDR (MAC Address) */ - if (ioctl(fd, SIOCGIFHWADDR, &ifr) < 0) { - if (fdebug) - printf("ioctl(SIOCGIFHWADDR,%s) error, errno = %d\n", - _ifname,get_errno()); - } else memcpy(osmymac,get_ifreq_mac(&ifr),MAC_LEN); /*OS mac*/ -#endif - } - } - close(skfd); /* done, close the socket */ - - if (rghostname[0] == 0) { /*hostname not specified*/ - if (!fipmilan) - gethostname(rghostname,sizeof(rghostname)); - } - if (fdebug) /* show the local OS eth if and MAC */ - printf("OS %s IP=%d.%d.%d.%d %s MAC=%02x:%02x:%02x:%02x:%02x:%02x used for arp\n", - _ifname, osmyip[0],osmyip[1],osmyip[2],osmyip[3], rghostname, - osmymac[0], osmymac[1], osmymac[2], osmymac[3], - osmymac[4], osmymac[5]); - - if (!IpIsValid(rgmyip) && IpIsValid(bmcmyip)) { - /* If no user-specified IP and there is a valid IP already in the - * BMC LAN configuration, use the existing BMC LAN IP. */ - memcpy(rgmyip,bmcmyip,4); - if (fdebug) printf("Using current IP %d.%d.%d.%d\n", - bmcmyip[0], bmcmyip[1], - bmcmyip[2], bmcmyip[3]); - } - - /* Get the default gateway MAC */ - if (lan_ch == gcm_ch) { - if (SubnetIsSame(osmyip,rggwyip,ossubnet)) fgetmac = 1; - else { /* gateway is not on the same subnet as RMM/GCM */ - fgetmac = 0; /*don't try to get mac if not the same subnet*/ - if ((fset_ip & GWYIP) == 0) memset(rggwyip,0,4); - } - } else fgetmac = 1; - if (fgetmac && IpIsValid(rggwyip) && !MacIsValid(rggwymac)) - Get_Mac(rggwyip,rggwymac,NULL); /*gwy mac not specified, so get mac*/ - - /* Get the Alert Destination IP */ - /* By default, attempt to obtain this from /etc/snmp/snmpd.conf. */ - /* cat /etc/snmp/snmpd.conf | grep trapsink |tail -n1 | cut -f2 -d' ' */ - alertname[0] = 0; /* default to null string */ - fprt = fopen(snmpfile,"r"); - if (fprt == NULL) { - printf("snmp: Cannot open %s, errno = %d\n",snmpfile,get_errno()); - } else { - // char snmpfmt[] = "%20s %60s\n"; - // char *keywd, *value; - while (fgets(buff, 1023, fprt)) { - /* parse each line */ - if (buff[0] == '#') continue; /*skip comment lines*/ - /* skip leading whitespace here */ - j = strspn(&buff[0]," \t"); - if (strncmp(&buff[j],"com2sec",7) == 0) { /* found community line */ - /* usu like this: "com2sec demouser default public" */ - i = j + 7; - for (j = 0; j < 3; j++) { - num = strspn(&buff[i]," \t"); - i += num; - num = strcspn(&buff[i]," \t\r\n"); - if (j < 2) i += num; - } - buff[i+num] = 0; - if (fsetcommunity == 0) { /* if not user-specified */ - strcpy(rgcommunity,&buff[i]); - strcpy(defcommunity,&buff[i]); - } - } -#ifdef BSD - if (strncmp(&buff[j],"traphost :=",11) == 0) nmatch = 11; - else nmatch = 0; -#else - if (strncmp(&buff[j],"trapsink",8) == 0) nmatch = 8; - else if (strncmp(&buff[j],"trap2sink",9) == 0) nmatch = 9; - else nmatch = 0; -#endif - if (nmatch > 0) { /* found trapsink line match */ - if (fdebug) printf("%s: %s",snmpfile,&buff[j]); - num = strspn(&buff[j+nmatch]," \t"); - i = j + nmatch + num; - if (buff[i] == '`') continue; - num = strcspn(&buff[i]," \t\r\n"); - strncpy(alertname,&buff[i],num); /* save alert destination */ - alertname[num] = 0; - i += num; - num = strspn(&buff[i]," \t"); /*skip whitespace*/ - i += num; - num = strcspn(&buff[i]," \t\r\n"); /*span next word*/ - if (num != 0) { /* there is another word, that is community */ - if (fsetcommunity == 0) { /* if not user-specified */ - strncpy(rgcommunity,&buff[i],num); /* save community */ - rgcommunity[num] = 0; - } - } else { /*have trapsink node with no community*/ - /* use previously discovered default community from above */ - strcpy(rgcommunity,defcommunity); - } - /* dont break, keep looking, use the last one */ - } - } /*end while*/ - fclose(fprt); - if (fdebug) - printf("snmp alertname=%s community=%s\n",alertname,rgcommunity); - } /*end else snmpfile*/ - - /* Get the Alert Destination MAC from the alertname. */ - if (alertname[0] != 0) { -#ifdef TEST - char arping_cmd[128]; - char *pb, *pm, *px; - int num, i; - if (fdebug) printf("alert %s ip=%d.%d.%d.%d osip=%d.%d.%d.%d " - "mac=%02x:%02x:%02x:%02x:%02x:%02x " - "osmac=%02x:%02x:%02x:%02x:%02x:%02x\n", - alertname, - rgdestip[0], rgdestip[1], rgdestip[2], rgdestip[3], - osmyip[0], osmyip[1], osmyip[2], osmyip[3], - rgdestmac[0], rgdestmac[1], rgdestmac[2], rgdestmac[3], - rgdestmac[4], rgdestmac[5], - osmymac[0], osmymac[1], osmymac[2], osmymac[3], - osmymac[4], osmymac[5]); -#endif - if (!IpIsValid(rgdestip)) { /* if not user-specified with -A */ - if (IpIsValid(bmcdestip)) { /* use existing if valid */ - memcpy(rgdestip,bmcdestip,4); - if (MacIsValid(bmcdestmac)) - memcpy(rgdestmac,bmcdestmac,MAC_LEN); - } - else if ((strncmp(alertname,"localhost",9) == 0) ) - { /* snmpd.conf = localhost (self) is the SNMP alert destination */ - if (IpIsValid(osmyip)) - memcpy(rgdestip,osmyip,4); - if (!MacIsValid(rgdestmac)) { /* if not user-specified */ - // Get_Mac(rgdestip,rgdestmac,alertname); (wont work for local) - memcpy(rgdestmac,osmymac,MAC_LEN); - } - } /*endif local */ - } - if (!MacIsValid(rgdestmac)) /* if MAC not vaild or user-specified */ - { - /* Use arping to get MAC from alertname or IP */ - Get_Mac(rgdestip,rgdestmac,alertname); - } - } /*endif have alertname*/ - - return(rc); -} /* end Get_IPMac_Addr */ -#endif - -int ShowChanAcc(uchar bchan) -{ - LAN_RECORD LanRecord; - int ret = 0; - uchar access; - char *pstr; - uchar pb0, pb1; - - if (bchan == lan_ch) pstr = "lan"; - else if (bchan == ser_ch) pstr = "ser"; - else pstr = "?"; - ret = GetChanAcc(bchan, 0x40, &LanRecord); - if (fdebug) - printf(" GetChanAcc(%d), ret = %d, data = %02x %02x\n", - bchan,ret, LanRecord.data[0], LanRecord.data[1]); - pb0 = LanRecord.data[0]; - pb1 = LanRecord.data[1]; - if (fcanonical) - printf("Channel %d Access Mode %s%c ",bchan,pspace3,bdelim); - else - printf("Channel(%d=%s) Access Mode: %02x %02x : ",bchan,pstr,pb0,pb1); - access = pb0; - switch (access & 0x03) { - case 0: printf("Disabled, "); break; - case 1: printf("Pre-Boot, "); break; - case 2: printf("Always Avail, "); break; - case 3: printf("Shared, "); break; - } - if (access & 0x20) printf("PEF Alerts Disabled\n"); /*0*/ - else printf("PEF Alerts Enabled\n"); /*1*/ - return(ret); -} - -static int GetSessionInfo(uchar *rData, int sz) -{ - int rv, rlen; - uchar ccode; - uchar iData[5]; - - iData[0] = 0x00; /*get data for this session*/ - rlen = sz; - rv = ipmi_cmdraw(CMD_GET_SESSION_INFO,NETFN_APP, BMC_SA,PUBLIC_BUS,BMC_LUN, - iData,1,rData, &rlen, &ccode, fdebug); - if ((rv == 0) && (ccode != 0)) rv = ccode; - return(rv); -} - -static int GetPefCapabilities(uchar *bmax) -{ - int rv, rlen; - uchar ccode; - uchar rData[MAX_BUFFER_SIZE]; - - rlen = sizeof(rData); - rv = ipmi_cmdraw(0x10, NETFN_SEVT, BMC_SA,PUBLIC_BUS,BMC_LUN, - NULL,0,rData, &rlen, &ccode, fdebug); - if ((rv == 0) && (ccode != 0)) rv = ccode; - if ((rv == 0) && (bmax != NULL)) - *bmax = rData[2]; /*max num PEF table entries*/ - return(rv); -} - -int GetSerialOverLan( uchar chan, uchar bset, uchar block ) -{ - uchar requestData[24]; - uchar rData[MAX_BUFFER_SIZE]; - int rlen; - int status, i; - uchar ccode; - uchar enable_parm, auth_parm, baud_parm; - ushort getsolcmd; - uchar user; - - if (fIPMI20 && fSOL20) { - getsolcmd = GET_SOL_CONFIG2; - enable_parm = SOL_ENABLE_PARAM; - auth_parm = SOL_AUTHENTICATION_PARAM; - baud_parm = SOL_BAUD_RATE_PARAM; - } else { - getsolcmd = GET_SOL_CONFIG; - enable_parm = SOL_ENABLE_PARAM; - auth_parm = SOL_AUTHENTICATION_PARAM; - baud_parm = SOL_BAUD_RATE_PARAM; - chan = 0; /*override chan for IPMI 1.5*/ - } - if (!fcanonical) - printf("%s, GetSOL for channel %d ...\n",progname,chan); - - requestData[0] = chan; /*channel*/ - requestData[1] = enable_parm; - requestData[2] = bset; /*set*/ - requestData[3] = block; /*block*/ - rlen = sizeof(rData); - status = ipmi_cmd(getsolcmd, requestData,4, rData, &rlen,&ccode,fdebug); - if (status != 0) return(status); - if (ccode) { - if (ccode == 0xC1) { /* unsupported command */ - printf("Serial-Over-Lan not available on this platform\n"); - return(status); - } else { - printf("SOL Enable ccode = %x\n",ccode); - status = ccode; - } - } else { /*success*/ - if (fcanonical) { - printf("Channel %d SOL Enable %s",chan,pspace3); - } else { - printf("SOL Enable: "); - for (i = 1; i < rlen; i++) printf("%02x ",rData[i]); - } - if (rData[1] == 0x01) printf("%c enabled\n",bdelim); - else printf("%c disabled\n",bdelim); - } - - if (!fcanonical) - { - requestData[0] = chan; - requestData[1] = auth_parm; - requestData[2] = bset; // selector - requestData[3] = block; // block - rlen = sizeof(rData); - status = ipmi_cmd(getsolcmd,requestData,4,rData,&rlen,&ccode,fdebug); - if (status != 0) return(status); - if (ccode) { - printf("SOL Auth ccode = %x\n",ccode); - status = ccode; - } else { /*success*/ - printf("SOL Auth: "); - for (i = 1; i < rlen; i++) printf("%02x ",rData[i]); - printf(": "); - show_priv(rData[1]); /* priv level = User,Admin,... */ - printf("\n"); - } - - requestData[0] = chan; - requestData[1] = SOL_ACC_INTERVAL_PARAM; - requestData[2] = bset; - requestData[3] = block; - rlen = sizeof(rData); - status = ipmi_cmd(getsolcmd,requestData,4,rData,&rlen,&ccode,fdebug); - if (status != 0) return(status); - if (ccode) { - printf("SOL Accum Interval ccode = %x\n",ccode); - status = ccode; - } else { /*success*/ - printf("SOL Accum Interval: "); - for (i = 1; i < rlen; i++) printf("%02x ",rData[i]); - printf(": %d msec\n",(rData[1] * 5)); - } - - requestData[0] = chan; - requestData[1] = SOL_RETRY_PARAM; - requestData[2] = bset; - requestData[3] = block; - rlen = sizeof(rData); - status = ipmi_cmd(getsolcmd,requestData,4,rData,&rlen,&ccode,fdebug); - if (status != 0) return(status); - if (ccode) { - printf("SOL Retry ccode = %x\n",ccode); - status = ccode; - } else { /*success*/ - printf("SOL Retry Interval: "); - for (i = 1; i < rlen; i++) printf("%02x ",rData[i]); - printf(": %d msec\n",(rData[2] * 10)); - } - } - - if (!fRomley) - { - requestData[0] = chan; - requestData[1] = baud_parm; - requestData[2] = bset; - requestData[3] = block; - rlen = sizeof(rData); - status = ipmi_cmd(getsolcmd,requestData,4,rData, &rlen,&ccode,fdebug); - if (status != 0) return(status); - if (ccode) { - printf("SOL nvol Baud ccode = %x\n",ccode); - status = ccode; - } else { /*success*/ - uchar b; - if (fcanonical) { - printf("Channel %d SOL Baud Rate%s",chan,pspace3); - } else { - printf("SOL nvol Baud Rate: "); - for (i = 1; i < rlen; i++) printf("%02x ",rData[i]); - } - /* if not user-specified and previously enabled, use existing */ - b = (rData[1] & 0x0f); - if ((fnewbaud == 0) && BaudValid(b)) { - sol_baud = b; - sol_bvalid = 1; - } - printf("%c %s\n",bdelim,Baud2Str(b)); - } - - if (!fcanonical) - { - requestData[0] = chan; - requestData[1] = SOL_VOL_BAUD_RATE_PARAM; /*0x06*/ - requestData[2] = bset; - requestData[3] = block; - rlen = sizeof(rData); - status = ipmi_cmd(getsolcmd,requestData,4,rData,&rlen,&ccode,fdebug); - if (status != 0) return(status); - if (ccode) { - printf("SOL vol Baud ccode = %x\n",ccode); - status = ccode; - } else { /*success*/ - printf("SOL vol Baud Rate: "); - for (i = 1; i < rlen; i++) printf("%02x ",rData[i]); - printf("%c %s\n",bdelim,Baud2Str(rData[1])); - } - } - } - if (fIPMI20) { - if (vend_id != VENDOR_IBM) { - /* IBM 0x00DC returns invalid cmd for SOL Payload commands. */ - if (!fcanonical) { - requestData[0] = chan; - rlen = sizeof(rData); - status = ipmi_cmdraw(GET_PAYLOAD_SUPPORT, NETFN_APP, - BMC_SA,PUBLIC_BUS,BMC_LUN, - requestData,1,rData, &rlen, &ccode, fdebug); - if ((status != 0) || (ccode != 0)) { - printf("SOL Payload Support error %d, ccode = %x\n",status,ccode); - if (status == 0) status = ccode; - } else { /*success*/ - printf("SOL Payload Support(%d): ",chan); - for (i = 0; i < rlen; i++) printf("%02x ",rData[i]); - printf("\n"); - } - } /*endif not canonical*/ - /* get Payload Access for 4 users, not just lan_user */ - for (user = 1; user <= show_users; user++) - { - /* mBMC doesn't support more than 1 user */ - if (fmBMC && (user > 1)) break; - /* IPMI 2.0 has >= 4 users */ - requestData[0] = chan; - requestData[1] = user; - rlen = sizeof(rData); - status = ipmi_cmdraw(GET_PAYLOAD_ACCESS, NETFN_APP, - BMC_SA,PUBLIC_BUS,BMC_LUN, - requestData,2,rData, &rlen, &ccode, fdebug); - if ((status != 0) || (ccode != 0)) { - printf("SOL Payload Access(%d,%d) error %d, ccode = %x\n", - chan,user,status,ccode); - if (status == 0) status = ccode; - } else { /*success*/ - if (fcanonical) { - printf("Channel %d SOL Payload Access(user%d)%s",chan,user, - pspace1); - } else { - printf("SOL Payload Access(%d,%d): ",chan,user); - for (i = 0; i < rlen; i++) printf("%02x ",rData[i]); - } - if ((rData[0] & 0x02) != 0) printf("%c enabled\n",bdelim); - else printf("%c disabled\n",bdelim); - } - } /*end user loop*/ - } /*endif not IBM*/ - } - - return(status); -} /*end GetSerialOverLan */ - -/* -ECHO SOL Config Enable -CMDTOOL 20 30 21 %1 01 01 - -ECHO SOL Authentication (Administrator) -CMDTOOL 20 30 21 %1 02 04 - -ECHO SOL Accumlate Interval and threshold -CMDTOOL 20 30 21 %1 03 06 14 - -ECHO SOL Retry Interval and threshold -CMDTOOL 20 30 21 %1 04 06 14 - -ECHO SOL non-volatile baud rate -CMDTOOL 20 30 21 %1 05 07 - -ECHO SOL volatile baud rate -CMDTOOL 20 30 21 %1 06 07 - -ECHO Set user Payload Access for user 1 -CMDTOOL 20 18 4c %1 01 02 00 00 00 - */ -int SetupSerialOverLan( int benable ) -{ - uchar requestData[24]; - uchar responseData[MAX_BUFFER_SIZE]; - int responseLength = MAX_BUFFER_SIZE; - int status; - uchar completionCode; - uchar enable_parm, auth_parm, baud_parm; - ushort setsolcmd; - ushort getsolcmd; - uchar bchan, b; - - if (fIPMI20 && fSOL20) { - setsolcmd = SET_SOL_CONFIG2; - getsolcmd = GET_SOL_CONFIG2; - enable_parm = SOL_ENABLE_PARAM; - auth_parm = SOL_AUTHENTICATION_PARAM; - baud_parm = SOL_BAUD_RATE_PARAM; - bchan = lan_ch; - } else { - setsolcmd = SET_SOL_CONFIG; - getsolcmd = GET_SOL_CONFIG; - enable_parm = SOL_ENABLE_PARAM; - auth_parm = SOL_AUTHENTICATION_PARAM; - baud_parm = SOL_BAUD_RATE_PARAM; - bchan = 0x00; /*override chan for IPMI 1.5*/ - } - memset(requestData, 0, sizeof(requestData)); /* zero-fill */ - requestData[0] = bchan; - requestData[1] = enable_parm; - if (benable == 0) - requestData[2] = SOL_DISABLE_FLAG; - else - requestData[2] = SOL_ENABLE_FLAG; - responseLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(setsolcmd, requestData,3,responseData, - &responseLength, &completionCode, fdebug); - if (status == ACCESS_OK) { - switch( completionCode ) { - case 0x00: /* success */ - break; - case 0xC1: /* unsupported command */ - SELprintf("SetupSerialOverLan: SOL not available on this platform\n"); - return 0; - default: /* other error */ - SELprintf("SetupSerialOverLan: SOL_ENABLE_PARAM ccode=%x\n", - completionCode); - return -1; - break; - } - } else { - SELprintf( "SET_SOL_CONFIG, enable SOL failed\n" ); - return -1; - } - if (benable == 0) return 0; - - requestData[0] = bchan; /* channel */ - requestData[1] = auth_parm; - requestData[2] = 0x00; /* set selector */ - requestData[3] = 0x00; /* block selector */ - responseLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(getsolcmd, requestData,4,responseData, - &responseLength, &completionCode, fdebug); - if (status == ACCESS_OK) { - if( completionCode ) { - SELprintf("SetupSerialOverLan: GET_SOL_AUTHENTICATION_PARAM code=%x\n", - completionCode); - - return -1; - } - } else { - SELprintf( "SOL_CONFIG, get SOL authentication failed\n" ); - return -1; - } - - if ((vend_id == VENDOR_SUPERMICROX) || - (vend_id == VENDOR_SUPERMICRO)) b = SOL_PRIVILEGE_LEVEL_OPERATOR; - else b = SOL_PRIVILEGE_LEVEL_USER; - requestData[0] = bchan; - requestData[1] = auth_parm; - requestData[2] = b | ( responseData[1] & 0x80 ); /* priv | enable */ - responseLength = MAX_BUFFER_SIZE; - status = ipmi_cmd(setsolcmd, requestData,3,responseData, - &responseLength, &completionCode, fdebug); - if (status == ACCESS_OK) { - if( completionCode ) { - SELprintf("SET_SOL_AUTHENTICATION_PARAM code=%x\n", - completionCode); - - return -1; - } - } else { - SELprintf( "SET_SOL_CONFIG, set SOL authentication failed\n" ); - return -1; - } - - requestData[0] = bchan; - requestData[1] = SOL_ACC_INTERVAL_PARAM; - requestData[2] = sol_accum[0]; //0x04; - requestData[3] = sol_accum[1]; //0x32; - responseLength = MAX_BUFFER_SIZE; - if (fdebug) SELprintf("Setting SOL AccumInterval\n"); - status = ipmi_cmd(setsolcmd, requestData,4,responseData, - &responseLength, &completionCode, fdebug); - if (status != ACCESS_OK || completionCode) { - SELprintf("SET SOL AccumInterval ret=%d ccode=%x\n", - status,completionCode); - return -1; - } - - /* Some BMCs return sporadic errors for SOL params (e.g. Kontron)*/ - // if (vend_id == VENDOR_KONTRON) ; - // else - { - requestData[0] = bchan; - requestData[1] = SOL_RETRY_PARAM; - requestData[2] = sol_retry[0]; //0x06; - requestData[3] = sol_retry[1]; //0x14; - responseLength = MAX_BUFFER_SIZE; - if (fdebug) SELprintf("Setting SOL RetryInterval\n"); - status = ipmi_cmd(setsolcmd, requestData,4,responseData, - &responseLength, &completionCode, fdebug); - if (status != ACCESS_OK || completionCode) { - SELprintf("SET SOL RetryInterval ret=%d ccode=%x\n", - status,completionCode); - return -1; - } - } - - if (fRomley) ; /* skip SOL BAUD */ - else { /* else SOL BAUD is used, so set it. */ - if (fnewbaud == 0) { /* no user-specified SOL baud */ - /* if sol_bvalid, sol_baud was set to existing value above */ - if (!sol_bvalid) { - status = GetSerEntry(7, (LAN_RECORD *)&responseData); - if (status == 0) { /* use Serial baud for SOL */ - sol_baud = responseData[1]; - if (fdebug) SELprintf("Serial Baud is %s\n",Baud2Str(sol_baud)); - } - } - } - requestData[0] = bchan; - requestData[1] = baud_parm; - requestData[2] = sol_baud; - responseLength = MAX_BUFFER_SIZE; - if (fdebug) SELprintf("Setting SOL BAUD to %s\n",Baud2Str(sol_baud)); - status = ipmi_cmd(setsolcmd, requestData,3,responseData, - &responseLength, &completionCode, fdebug); - if (status != ACCESS_OK || completionCode) { - SELprintf("SET SOL BAUD ret=%d ccode=%x\n", status,completionCode); - return -1; - } - - requestData[0] = bchan; - requestData[1] = SOL_VOL_BAUD_RATE_PARAM; - requestData[2] = sol_baud; - responseLength = MAX_BUFFER_SIZE; - if (fdebug) - printf("Setting SOL vol BAUD to %s\n",Baud2Str(sol_baud)); - status = ipmi_cmd(setsolcmd, requestData,3,responseData, - &responseLength, &completionCode, fdebug); - if (status != ACCESS_OK || completionCode) { - printf("SET SOL vol BAUD ret=%d ccode=%x\n",status,completionCode); - return -1; - } - } - - if (fIPMI20 && fSOL20) { - if (vend_id == VENDOR_KONTRON && lan_user == 1) { - if (fdebug) SELprintf("Skipping SOL Payload Access for user %d\n", - lan_user); - } else if (vend_id == VENDOR_IBM) { /*non-conformance*/ - if (fdebug) SELprintf("Skipping SOL Payload Access for user %d\n", - lan_user); - } else { - if (fdebug) SELprintf("Setting SOL Payload Access for user %d\n", - lan_user); - requestData[0] = bchan; - requestData[1] = lan_user; /*enable this user*/ - requestData[2] = 0x02; /*enable std 2.0 SOL*/ - requestData[3] = 0; - requestData[4] = 0; - requestData[5] = 0; - responseLength = MAX_BUFFER_SIZE; - status = ipmi_cmdraw(SET_PAYLOAD_ACCESS, NETFN_APP, - BMC_SA,PUBLIC_BUS,BMC_LUN, - requestData,6,responseData, &responseLength, - &completionCode, fdebug); - if (status != ACCESS_OK || completionCode) { - SELprintf("SET SOL Payload Access ret=%d ccode=%x\n", - status,completionCode); - return -1; - } - } - } - return 0; -} /*end SetupSerialOverLan */ - -static char *PefDesc(int idx, uchar stype) -{ - char *pdesc, *p; - static char mystr[60]; - int mylen = sizeof(mystr); - pdesc = &mystr[0]; - if (pefdesc != NULL) strcpy(pdesc,pefdesc[idx]); /* if Intel, pre-defined */ - else strcpy(pdesc,"reserved"); /* else set default to detect */ - if ((stype != 0) && (strcmp(pdesc,"reserved") == 0)) { - /* Dynamically set the pef desc string from the sensor type */ - switch(stype) { - case 0x01: strcpy(pdesc,"Temperature"); break; - case 0x02: strcpy(pdesc,"Voltage"); break; - case 0x04: strcpy(pdesc,"Fan"); break; - case 0x05: strcpy(pdesc,"Chassis"); break; - case 0x07: strcpy(pdesc,"BIOS"); break; - case 0x08: strcpy(pdesc,"Power Supply"); break; - case 0x09: strcpy(pdesc,"Power Unit"); break; - case 0x0c: strcpy(pdesc,"Memory"); break; - case 0x0f: strcpy(pdesc,"Boot"); break; - case 0x12: strcpy(pdesc,"System Restart"); break; - case 0x13: strcpy(pdesc,"NMI"); break; - case 0x23: strcpy(pdesc,"Watchdog"); break; - case 0x20: strcpy(pdesc,"OS Critical Stop"); break; - default: -#ifdef METACOMMAND - p = get_sensor_type_desc(stype); - if (p != NULL) { - strncpy(pdesc,p,mylen); - mystr[mylen-1] = 0; /*stringify*/ - } -#else - sprintf(pdesc,"Other[%02x]",stype); -#endif - break; - } - if (pef_array[idx-1][4] == PEF_SEV_OK) strcat(pdesc," OK"); - } - return(pdesc); -} - - -#ifdef METACOMMAND -int i_lan(int argc, char **argv) -#else -#ifdef WIN32 -int __cdecl -#else -int -#endif -main(int argc, char **argv) -#endif -{ - int ret; - PEF_RECORD PefRecord; - LAN_RECORD LanRecord; - int i, idx, j; - int c; - char *pstr; - uchar bset; - int ndest = 4; - int idest; - char mystr[80]; - char fpefok = 1; - uchar * pc; int sz; - char *pa; - char *pb; - - // progname = argv[0]; - printf("%s ver %s \n",progname,progver); - j = 0; freadonly = FLAG_INIT; - idx = argc; /*getopt loop counter*/ - /* available opt chars: y O Q + = ~ _ */ - while ((c = getopt(argc, argv,"a:b:cdef:gh:i:j:klm:n:op:q:rstu:v:w:xy:z#::A:B:C:DEF:G:H:I:J:K:L:M:N:OP:Q:R:S:T:U:V:X:YZ:?")) != EOF) { - switch(c) { - case 'a': /* alert dest number (usu 1 thru 4) */ - alertnum = atob(optarg); - if (alertnum > alertmax) alertnum = 1; - j++; - break; - case 'b': bAuth = htoi(optarg); j++; break; /*undocumented*/ - case 'c': fcanonical = 1; bdelim = BDELIM; break; - case 'd': fenable = 0; fdisable = 1; freadonly = 0; break; - case 'e': fenable = 1; fdisable = 0; freadonly = 0; break; - case 'f': i = atoi(optarg); /*set arp_ctl*/ - if (i < 0 || i > 3) printf("Invalid ARP control %d\n",i); - else { - arp_ctl = i; - fsetarp = 1; - j++; - } - break; - case 'l': fpefenable = 0; fenable = 2; - fdisable = 0; freadonly = 0; break; - case 'h': /* VLAN ID */ - i = atoi(optarg); - if (i > 4095) vlan_enable = 0; - else { - vlan_enable = 1; - vlan_id = (ushort)i; - } - j++; - break; - case 'y': /* OEM LAN Failover enable/disable */ - i = atoi(optarg); - if (i < 0) printf("Failover(-y) parameter is negative\n"); - else failover_enable = i; - j++; - break; - case 'Q': /* VLAN Priority */ - i = atoi(optarg); - if (i > 7 || i < 0) vlan_enable = 0; - else { - vlan_enable = 1; - vlan_prio = (uchar)i; - } - j++; - break; - case 'i': /* eth interface (ifname) */ - fsetifn = 1; - i = sizeof(ifname); - if (strlen(optarg) > (uint)i) optarg[i] = 0; - strcpy(ifname,optarg); - if (fdebug) printf("ifname = %s\n",ifname); - j++; - break; - case 'j': fCustomPEF = 1; /*custom 10 PEF bytes */ - fpefenable = 1; /* PEF is implied here */ - freadonly = 0; - memset(custPEF,0,sizeof(custPEF)); - custPEF[0] = htoi(&optarg[0]); /*action */ - custPEF[1] = htoi(&optarg[2]); /*policy */ - custPEF[2] = htoi(&optarg[4]); /*severity*/ - custPEF[3] = htoi(&optarg[6]); /*genid1 */ - custPEF[4] = htoi(&optarg[8]); /*genid2 */ - custPEF[5] = htoi(&optarg[10]); /*sensor_type*/ - custPEF[6] = htoi(&optarg[12]); /*sensor_num */ - custPEF[7] = htoi(&optarg[14]); /*evt_trigger*/ - custPEF[8] = htoi(&optarg[16]); /*data1offset*/ - custPEF[9] = htoi(&optarg[18]); /*data1mask */ - if (optarg[20] != 0) { - /* optionally get 8 extra PEF entry bytes */ - custPEF[10] = htoi(&optarg[20]); /*data1cmp1 */ - custPEF[11] = htoi(&optarg[22]); /*data1cmp2 */ - custPEF[12] = htoi(&optarg[24]); /*data2mask */ - custPEF[13] = htoi(&optarg[26]); /*data2cmp1 */ - custPEF[14] = htoi(&optarg[28]); /*data2cmp2 */ - custPEF[15] = htoi(&optarg[30]); /*data3mask */ - custPEF[16] = htoi(&optarg[32]); /*data3cmp1 */ - custPEF[17] = htoi(&optarg[34]); /*data3cmp2 */ - } - j++; - break; - case 'k': fSetPEFOks = 1; j++; break; /*configure PEF OK rules */ - case 'm': set_max_kcs_loops(atoi(optarg)); break; - case 'n': /* number/index in PEF table to insert new entry */ - fpefenable = 1; - pefnum = atob(optarg); - if (pefnum >= MAXPEF) { - pefnum = MAXPEF - 1; - fAdjustPefNum = 1; - } else fUserPefNum = 1; - j++; - break; - case 'o': fdisableSOL = 1; /*disable SOL only*/ - fpefenable = 0; /*no change to PEF*/ - freadonly = 0; - break; - case 'r': freadonly = 1; fenable = 0; break; - case 's': fgetser = 1; break; - case 't': ftestonly = 1; freadonly = 1; break; - case 'v': /* user access privilege level */ - i = atoi(optarg); - if (valid_priv(i)) lan_access = i & 0x0f; - else printf("Invalid privilege -v %d, using Admin\n",i); - j++; - break; - case 'w': i = atoi(optarg); /*set grat arp interval, in #sec*/ - if (i >= 0 && i < 256) arp_interval = i * 2; - else printf("Invalid arp interval -w %d, skipping\n",i); - break; - case 'x': fdebug = 1; break; - case 'z': flanstats = 1; break; - case 'D': lan_dhcp = 1; j++; break; - case 'O': flansecure = 1; j++; break; - case 'I': /* My BMC IP Address */ - fset_ip |= MYIP; - atoip(rgmyip,optarg); - j++; - break; - case 'M': /* My BMC MAC Address */ - atomac(rgmymac,optarg); - if (!MacIsValid(rgmymac)) printf("Invalid MAC for -M\n"); - j++; - break; - case 'S': /* Subnet IP Address */ - atoip(rgsubnet,optarg); - j++; - break; - case 'G': /* Gateway IP Address */ - fset_ip |= GWYIP; - atoip(rggwyip,optarg); - j++; - break; - case 'g': /* Secondary Gateway IP Address */ - fset_ip |= GWYIP; - atoip(rggwy2ip,optarg); - j++; - break; - case 'H': /* Gateway MAC Address */ - atomac(rggwymac,optarg); - if (!MacIsValid(rggwymac)) printf("Invalid MAC for -H\n"); - j++; - break; - case 'B': /* SOL Baud rate */ - fnewbaud = 1; - sol_baud = Str2Baud(optarg); - j++; - break; - case 'A': /* Alert Dest IP Address */ - fset_ip |= DESTIP; - /* allow name or ip here via Get_Mac() ? */ - atoip(rgdestip,optarg); - fpefenable = 1; /* PEF is implied here */ - j++; - break; - case 'X': /* Alert Dest MAC Address */ - atomac(rgdestmac,optarg); - if (!MacIsValid(rgdestmac)) printf("Invalid MAC for -X\n"); - fpefenable = 1; /* PEF is implied here */ - j++; - break; - case 'K': /* Kontron IPMI hostname */ - i = sizeof(rghostname); /*usu 18*/ - if (strlen(optarg) > (uint)i) optarg[i] = 0; - strcpy(rghostname,optarg); - j++; - break; - case 'C': /* Community String */ - fsetcommunity = 1; - i = sizeof(rgcommunity); /*usu 18*/ - if (strlen(optarg) > (uint)i) optarg[i] = 0; - strcpy(rgcommunity,optarg); - fpefenable = 1; /* PEF is implied here */ - j++; - break; - case 'u': /* username to set */ - myuser = strdup_(optarg); /*remote username */ - j++; - break; - case 'p': /* password to set */ - fpassword = 1; - if (strlen(optarg) > PSW_MAX) optarg[PSW_MAX] = 0; - strcpy(passwordData,optarg); - if (fdebug) printf("Password = %s\n",passwordData); - /* Hide password from 'ps' */ - memset(optarg, ' ', strlen(optarg)); - j++; - break; - case 'q': - case '#': - usernum = atob(optarg); - if (usernum > 15) usernum = 0; /*MAX_IPMI_USERS = 15*/ - j++; - break; - case 'L': - if (strcmp(optarg,"list") == 0) fshowchan = 1; - lan_ch_parm = atob(optarg); - if (lan_ch_parm > MAXCHAN) lan_ch_parm = PARM_INIT; /*invalid*/ - break; - case 'V': /* priv level */ - fprivset = 1; - case 'N': /* nodename */ - case 'U': /* remote username */ - case 'P': /* remote password */ - case 'R': /* remote password */ - case 'E': /* get password from IPMI_PASSWORD environment var */ - case 'F': /* force driver type */ - case 'T': /* auth type */ - case 'J': /* cipher suite */ - case 'Y': /* prompt for remote password */ - case 'Z': /* set local MC address */ - parse_lan_options(c,optarg,fdebug); - break; - default: - printf("Usage: %s [-abcdefghijklmnopq#rstuvwxyzBDQK]\n",progname); - printf(" \t [-a alertnum -i eth1 -n pefnum ]\n"); - printf(" \t [-I ipadr -M macadr -S subnet ]\n"); - printf(" \t [-G gwyip -H gwymac -L lan_channel_num]\n"); - printf(" \t [-A alertip -X alertmac -C community ]\n"); - printf(" \t [-g 2nd_gwyip -v priv -B sol_baud ]\n"); - printf(" \t [-j 10_bytes_custom_pef -b authmask ]\n"); - printf("where -c shows Canonical, simpler output format\n"); - printf(" -d Disables BMC LAN & PEF\n"); - printf(" -e Enables BMC LAN & PEF\n"); - printf(" -f set ARP Control to 1=grat, 2=resp, 3=both\n"); - printf(" -g secondary Gateway IP (-G=primary_gwy_ip)\n"); - printf(" -h VLAN ID (>=4096 to disable)\n"); - printf(" -j specify custom PEF rule (10 or 18 hex bytes)\n"); - printf(" -k add PEF oK rules, if PEF enable\n"); - printf(" -l Enables BMC LAN only, not PEF\n"); - printf(" -o disable Only SOL\n"); - printf(" -p password to set \n"); - printf(" -q/-# User number of LAN username_to_set\n"); - printf(" -r Read-only BMC LAN & PEF settings\n"); - printf(" -s Show some Serial settings also \n"); - printf(" -t Test if BMC LAN is already configured\n"); - printf(" -u username to set \n"); - printf(" -v access priVilege: 4=Admin,3=Operator,2=User\n"); - printf(" -w set Grat ARP Interval to specified # seconds\n"); - printf(" -x Show eXtra debug messages\n"); - printf(" -y OEM LAN Failover (1=enable,0=disable if Intel)\n"); - printf(" -z Show IPMI LAN statistics\n"); - printf(" -B Baud for SerialOverLan (19.2K,115.2K,...)\n"); - printf(" -D Use DHCP instead of static IP (-I for server)\n"); - printf(" -K (Kontron) IPMI hostname to set\n"); - printf(" -Q VLAN Priority (default =0)\n"); - printf(" -O Force LAN security: no null user, cipher 0 off\n"); - print_lan_opt_usage(0); - ret = ERR_USAGE; - goto do_exit; - } /*end switch*/ - nopts++; - } /*end while*/ - - if ((freadonly == FLAG_INIT) && (j > 0)) { - /* got some options implying set, but no -e -l -d option specified. */ - foptmsg = 1; /*show warning message later*/ - freadonly = 1; /*assume read only*/ - } - fipmilan = is_remote(); - if (fipmilan && !fprivset) - parse_lan_options('V',"4",0); /*even if freadonly request admin*/ - if ((fsetarp == 0) && ostype == OS_WINDOWS) - arp_ctl = 0x03; /*grat arp & arp resp enabled */ - - ret = GetDeviceID( &LanRecord); - if (ret != 0) { - goto do_exit; - } else { /* success */ - uchar ipmi_maj, ipmi_min; - ipmi_maj = LanRecord.data[4] & 0x0f; - ipmi_min = LanRecord.data[4] >> 4; - show_devid( LanRecord.data[2], LanRecord.data[3], ipmi_maj, ipmi_min); - if (ipmi_maj == 0) fIPMI10 = 1; - else if (ipmi_maj == 1 && ipmi_min < 5) fIPMI10 = 1; - else fIPMI10 = 0; /* >= IPMI 1.5 is ok */ - if (ipmi_maj >= 2) fIPMI20 = 1; - if (fIPMI20) show_users = 5; - else show_users = 3; - if (fIPMI10) { - printf("This IPMI v%d.%d system does not support PEF records.\n", - ipmi_maj,ipmi_min); - /* Wont handle PEF, but continue and look for BMC LAN anyway */ - // fIPMI10 = 1; - // ipmi_close_(); - // exit(1); - } - prod_id = LanRecord.data[9] + (LanRecord.data[10] << 8); - vend_id = LanRecord.data[6] + (LanRecord.data[7] << 8) - + (LanRecord.data[8] << 16); - /* check Device ID response for Manufacturer ID = 0x0322 (NSC) */ - if (vend_id == VENDOR_NSC) { /* NSC = 0x000322 */ - fmBMC = 1; /*NSC miniBMC*/ - if (pefnum == 12) pefnum = 10; /* change CritStop pefnum to 0x0a */ - pefdesc = &pefdesc2[0]; /*mini-BMC PEF*/ - pefmax = 30; - fsharedMAC = 1; /* shared MAC with OS */ - } else if (vend_id == VENDOR_LMC) { /* LMC (on SuperMicro) = 0x000878 */ - pefdesc = NULL; /* unknown, see PefDesc() */ - if (pefnum == 12) pefnum = 15; /* change CritStop pefnum */ - pefmax = 16; - fsharedMAC = 0; /* not-shared BMC LAN port */ - } else if (vend_id == VENDOR_INTEL) { /* Intel = 0x000157 */ - pefdesc = &pefdesc1[0]; /*default Intel PEF*/ - pefmax = 20; /*default Intel PEF*/ - switch(prod_id) { - case 0x4311: /* Intel NSI2U w SE7520JR23 */ - fmBMC = 1; /* Intel miniBMC*/ - if (pefnum == 12) pefnum = 14; /* change CritStop pefnum */ - pefdesc = &pefdesc2[0]; /*mini-BMC PEF*/ - pefmax = 30; - fsharedMAC = 1; /* shared-MAC BMC LAN port, same MAC */ - break; - case 0x0022: /* Intel TIGI2U w SE7520JR23 +IMM*/ - fsharedMAC = 1; /* shared-MAC BMC LAN port, same MAC */ - gcm_ch = 3; /* IMM GCM port, dedicated MAC */ - show_users = 4; - break; - case 0x000C: /*TSRLT2*/ - case 0x001B: /*TIGPR2U*/ - /* fmBMC=0; Intel Sahalee BMC*/ - fsharedMAC = 1; /* shared-MAC BMC LAN port, same MAC */ - break; - case 0x0026: /*S5000 Bridgeport*/ - case 0x0028: /*S5000PAL Alcolu*/ - case 0x0029: /*S5000PSL StarLake*/ - case 0x0811: /*S5000PHB TIGW1U */ - /* fmBMC=0; Intel Sahalee ESB2 BMC*/ - fsharedMAC = 0; /* not-shared BMC LAN port, separate MAC */ - gcm_ch = 3; - parm7 = &iparm7[0]; /*TTL=30*/ - break; - case 0x003E: /*NSN2U or CG2100 Urbanna*/ - fiBMC = 1; /* Intel iBMC */ - fsharedMAC = 0; /* not-shared BMC LAN port, separate MAC */ - // gcm_ch = 3; - parm7 = &iparm7[0]; /*TTL=30*/ - if (fsetarp == 0) - arp_ctl = 0x02; /*grat arp disabled, arp resp enabled */ - arp_interval = 0x00; /*0 sec, since grat arp disabled */ - sol_accum[0] = 0x0c; /*Intel defaults*/ - sol_accum[1] = 0x60; /*Intel defaults*/ - sol_retry[0] = 0x07; /*Intel defaults*/ - sol_retry[1] = 0x32; /*Intel defaults*/ - set_max_kcs_loops(URNLOOPS); /*longer for SetLan cmds (default 300)*/ - break; - case 0x0107: /* Intel Caneland*/ - fsharedMAC = 0; /* not-shared BMC LAN port, separate MAC */ - gcm_ch = 3; - break; - case 0x0100: /*Tiger2 ia64*/ - /* for ia64 set chan_pefon, chan_pefoff accordingly*/ - chan_pefon = CHAN_ACC_PEFON64; - chan_pefoff = CHAN_ACC_PEFOFF64; - /* fall through */ - default: /* else other Intel */ - /* fmBMC = 0; * Intel Sahalee BMC*/ - if (fIPMI20) fsharedMAC = 0; /* recent, not-shared BMC MAC */ - else fsharedMAC = 1; /* usu IPMI 1.x has shared BMC MAC */ - break; - } /*end switch*/ - if (is_romley(vend_id,prod_id)) fRomley = 1; - if (is_grantley(vend_id,prod_id)) fGrantley = 1; - if (fRomley) { - fiBMC = 1; /* Intel iBMC */ - fsharedMAC = 0; /* not-shared BMC LAN port, separate MAC */ - set_max_kcs_loops(URNLOOPS); /*longer for SetLan (default 300)*/ - fipv6 = 1; - if (fsetarp == 0) arp_ctl = 0x03; /*default to both for Romley*/ - } - } else { /* else other vendors */ - if (fIPMI20) fsharedMAC = 0; /* recent, not-shared BMC MAC */ - else fsharedMAC = 1; /* usu IPMI 1.x has shared BMC MAC */ - pefdesc = NULL; /* unknown, see PefDesc() */ - if (pefnum == 12) pefnum = 15; /* change CritStop pefnum to 15? */ - pefmax = 20; - if (!fUserPefNum) fAdjustPefNum = 1; - } - if (fmBMC) show_users = 1; /* mBMC doesn't support more than 1 user */ - } - - if (fshowchan) { - ret = show_channels(); - exit(ret); - } - - ret = GetPefCapabilities(&bset); - if ((ret == 0) && (bset <= MAXPEF)) pefmax = bset; - - /* Get the BMC LAN channel & match it to an OS eth if. */ - i = GetBmcEthDevice(lan_ch_parm,&lan_ch); - if (i == -2) { /* no lan channels found (see lan_ch) */ - if (lan_ch_parm == PARM_INIT) - printf("This system does not support IPMI LAN channels.\n"); - else /*specified a LAN channel*/ - printf("BMC channel %d does not support IPMI LAN.\n",lan_ch_parm); - ret = LAN_ERR_NOTSUPPORT; - goto do_exit; - } else if (i < 0) { /* mac not found, use platform defaults */ - i = 0; /* default to eth0, lan_ch set already. */ - if (vend_id == VENDOR_INTEL) { - if ((prod_id == 0x001B) || (prod_id == 0x000c)) { - /* Intel TIGPR2U or TSRLT2 defaults are special */ - if (lan_ch_parm == 6) - { i = 0; lan_ch = 6; } - else { i = 1; lan_ch = 7; } - ser_ch = 1; - } - } - } - if ((i == gcm_ch) && (gcm_ch != PARM_INIT) && (lan_ch_parm == PARM_INIT)) { - /* Has a GCM, defaulted to it, and user didn't specify -L */ - /* Need this to avoid picking channel 3, the IMM/RMM GCM channel. */ - lan_ch = 1; /*default BMC LAN channel*/ - // i = 0; /*default eth0 (was eth1) */ - } - if (fsetifn == 0) { /*not user specified, use the detected one*/ - // if (lan_ch == gcm_ch) strcpy(ifname,"gcm"); - sprintf(ifname,"%s%d",ifpattn,i); /*eth%d*/ - } - if (fdebug) printf("lan_ch = %d, ifname = %s\n",lan_ch,ifname); - - /* set the lan_user appropriately */ - if (myuser == NULL) { /* if no -u param */ - if (ipmi_reserved_user(vend_id, 1)) lan_user = 2; - else if (flansecure) lan_user = 2; - else lan_user = 1; /*use default null user */ - } else if (usernum != 0) lan_user = usernum; /*use -q specified usernum*/ - /* else use default lan_user (=2) if -u and not -q */ - - if (ftestonly) { /*test only if BMC LAN is configured or not */ - /* TODO: test gcm also, if present */ - ret = GetLanEntry(4, 0, &LanRecord); /*ip addr src*/ - if (ret == 0) { - if ((LanRecord.data[0] == SRC_BIOS) || - (LanRecord.data[0] == SRC_DHCP)) ret = 0; /* DHCP, so ok */ - else { /*static IP*/ - ret = GetLanEntry(3, 0, &LanRecord); /* ip address */ - if (ret == 0) { - if (!IpIsValid(LanRecord.data)) { - printf("invalid BMC IP address\n"); - ret = 1; /* invalid ip */ - } else ret = GetLanEntry(12, 0, &LanRecord); /*gateway ip*/ - if (ret == 0) { - if (!IpIsValid(LanRecord.data)) { - printf("invalid gateway ip\n"); - ret = 2; /*invalid gwy ip*/ - } else ret = GetLanEntry(13, 0, &LanRecord); - if (ret == 0) { - if (!MacIsValid(&LanRecord.data[0])) { - printf("invalid gateway mac\n"); - ret = 3; /*invalid gwy mac */ - } - } - } - } - } - } /*endif GetLanEntry ok*/ - if (ret == 0) printf("BMC LAN already configured\n"); - else printf("BMC LAN not configured\n"); - goto do_exit; - } /*endif ftestonly*/ - - memset(SessInfo,0,sizeof(SessInfo)); - ret = GetSessionInfo(SessInfo,sizeof(SessInfo)); - // rlen = sizeof(SessInfo)); ret = get_session_info(0,0,SessInfo,&rlen); - if (fdebug) printf("GetSessionInfo ret=%d, data: %02x %02x %02x %02x \n", - ret,SessInfo[0],SessInfo[1],SessInfo[2],SessInfo[3]); - if (!freadonly && fipmilan) { /* setting LAN params, and using IPMI LAN */ - if (SessInfo[2] > 1) { /* another session is active also */ - printf("Another session is also active, cannot change IPMI LAN settings now.\n"); - ret = ERR_NOT_ALLOWED; - goto do_exit; - } - } - - if (!fIPMI10) { - if (fcanonical) - { /* canonical/simple output */ - ret = GetPefEntry(0x01, 0,(PEF_RECORD *)&LanRecord); - if (ret != 0) ndest = 0; - else { /*success*/ - j = LanRecord.data[0]; - mystr[0] = 0; - if (j == 0) strcat(mystr,"none "); - else { - if (j & 0x01) strcat(mystr,"PEFenable "); - if (j & 0x02) strcat(mystr,"DoEventMsgs "); - if (j & 0x04) strcat(mystr,"Delay "); - if (j & 0x08) strcat(mystr,"AlertDelay "); - } - printf("PEF Control %s%c %s\n",pspace4,bdelim,mystr); - } - } else { /* normal/full output */ - ret = GetPefEntry(0x01, 0,(PEF_RECORD *)&LanRecord); - if (ret == 0 && (LanRecord.data[0] != 0)) { - fpefok = 1; - bmcpefctl = LanRecord.data[0]; - } else { /* skip PEF rules/params if disabled */ - printf("PEF Control %s%c %s\n",pspace4,bdelim,"none "); - ndest = 0; - fpefok = 0; - } - - if (fpefok) { - printf("%s, GetPefEntry ...\n",progname); - for (idx = 1; idx <= pefmax; idx++) - { - ret = GetPefEntry( 0x06, (ushort)idx, &PefRecord); - if (ret == 0) { // Show the PEF record - pc = (uchar *)&PefRecord; - sz = 21; // sizeof(PEF_RECORD) = 21 - if (PefRecord.sensor_type == 0) { - if (idx <= pefnum) - printf("PEFilter(%02d): empty\n",idx); - memcpy(pef_array[idx-1], &PefRecord, sz); - if (fAdjustPefNum) pefnum = (char)idx; - } else { - memcpy(pef_array[idx-1], &PefRecord, sz); - if (PefRecord.fconfig & 0x80) pb = "enabled"; - else pb = "disabled"; - i = PefRecord.rec_id; - switch(PefRecord.action) { - case 0x01: pa = "alert"; break; - case 0x02: pa = "poweroff"; break; - case 0x04: pa = "reset"; break; - case 0x08: pa = "powercycle"; break; - case 0x10: pa = "OEMaction"; break; - case 0x20: pa = "NMI"; break; - default: pa = "no action"; - } - printf("PEFilter(%02d): %02x %s event - %s for %s\n", - idx, PefRecord.sensor_type, - PefDesc(i,PefRecord.sensor_type), pb,pa); - } - if (fdebug) { /* show raw PEFilter record */ - pc = &PefRecord.rec_id; - printf("raw PEF(%.2d): ",pc[0]); - for (i = 0; i < sz; i++) printf("%02x ",pc[i]); - printf("\n"); - } - } else { - printf("GetPefEntry(%d), ret = %d\n",idx,ret); - if (ret == 0xC1) { /*PEF is not supported, so skip the rest. */ - fpefok = 0; - ndest = 0; /* if no PEF, no alerts & no alert dest */ - break; - } - } - } - } /*endif fpefok*/ - if (fpefok) { - if (fdebug) ShowPef(); - ret = GetPefEntry(0x01, 0,(PEF_RECORD *)&LanRecord); - if (ret == 0) { - j = LanRecord.data[0]; - mystr[0] = 0; - if (j & 0x01) strcat(mystr,"PEFenable "); - if (j & 0x02) strcat(mystr,"DoEventMsgs "); - if (j & 0x04) strcat(mystr,"Delay "); - if (j & 0x08) strcat(mystr,"AlertDelay "); - printf("PEF Control: %02x : %s\n",j, mystr); - } - ret = GetPefEntry(0x02, 0,(PEF_RECORD *)&LanRecord); - if (ret == 0) { - j = LanRecord.data[0]; - mystr[0] = 0; - if (j & 0x01) strcat(mystr,"Alert "); - if (j & 0x02) strcat(mystr,"PwrDn "); - if (j & 0x04) strcat(mystr,"Reset "); - if (j & 0x08) strcat(mystr,"PwrCyc "); - if (j & 0x10) strcat(mystr,"OEM "); - if (j & 0x20) strcat(mystr,"DiagInt "); - printf("PEF Actions: %02x : %s\n",j, mystr); - } - ret = GetPefEntry(0x03, 0,(PEF_RECORD *)&LanRecord); - if (ret == 0) printf("PEF Startup Delay: %02x : %d sec\n", - LanRecord.data[0],LanRecord.data[0]); - if (!fmBMC) { - ret = GetPefEntry(0x04, 0,(PEF_RECORD *)&LanRecord); - if (ret == 0) printf("PEF Alert Startup Delay: %02x: %d sec\n", - LanRecord.data[0],LanRecord.data[0]); - /* fmBMC gets cc=0x80 here */ - } - /* note that ndest should be read from lan param 17 below. */ - for (i = 1; i <= ndest; i++) - { - ret = GetPefEntry(0x09, (ushort)i,(PEF_RECORD *)&LanRecord); - if (ret == 0) { - mystr[0] = 0; - j = LanRecord.data[2]; - if (LanRecord.data[1] & 0x08) { - sprintf(mystr,"Chan[%d] Dest[%d] ",((j & 0xf0) >> 4),(j & 0x0f)); - strcat(mystr,"Enabled "); - } else strcpy(mystr,"Disabled "); - printf("PEF Alert Policy[%d]: %02x %02x %02x %02x : %s\n",i, - LanRecord.data[0], LanRecord.data[1], - LanRecord.data[2], LanRecord.data[3],mystr); - } - } /*endfor ndest*/ - } /*endif fpefok*/ - } /*endif not canonical*/ - - if (fpefenable && !freadonly) { /* fenable or fdisable */ - if (fSetPEFOks) pefadd = 5; - else pefadd = 2; - sz = (pefnum - 1) + pefadd + fCustomPEF; - printf("\n%s, SetPefEntry(1-%d) ...\n",progname,sz); - if (fdebug) printf("pefnum = %d, pefmax = %d\n",pefnum,pefmax); - for (idx = 1; idx <= pefmax; idx++) - { - // Set & Enable all PEF records - memset(&PefRecord.rec_id,0,sizeof(PEF_RECORD)); - PefRecord.rec_id = (uchar)idx; /* next record, or user-specified */ - if (idx < pefnum) { /* pefnum defaults to 12.(0x0c) */ - if (pef_array[idx-1][7] == 0) /*empty pef record, set to default*/ - memcpy(&PefRecord.rec_id,pef_defaults[idx-1],sizeof(PEF_RECORD)); - else { /* set config however it was previously */ - memcpy(&PefRecord.rec_id,pef_array[idx-1],sizeof(PEF_RECORD)); - if (PefRecord.severity == 0) - PefRecord.severity = pef_defaults[idx-1][4]; - } - } else if ((idx == pefnum) && /* new OS Crit Stop entry */ - (PefRecord.sensor_type == 0)) { - // Set PEF values for 0x20, OS Critical Stop event - PefRecord.severity = PEF_SEV_CRIT; - PefRecord.genid1 = 0xff; - PefRecord.genid2 = 0xff; - PefRecord.sensor_type = 0x20; /* OS Critical Stop */ - PefRecord.sensor_no = 0xff; - PefRecord.event_trigger = 0x6f; - PefRecord.data1 = 0xff; - PefRecord.mask1 = 0x00; - } else if ((idx == pefnum+1) && /* new Power Redundancy entry */ - (PefRecord.sensor_type == 0)) { - // Set PEF values for 0x09/0x02/0x0b/0x41, Power Redundancy Lost - PefRecord.severity = PEF_SEV_WARN; - PefRecord.genid1 = 0xff; - PefRecord.genid2 = 0xff; - PefRecord.sensor_type = 0x09; /* Power Unit */ - PefRecord.sensor_no = 0xff; /* usu 01 or 02 */ - PefRecord.event_trigger = 0x0b; /* event trigger */ - PefRecord.data1 = 0x02; /* 02 -> 41=Redundancy Lost */ - PefRecord.mask1 = 0x00; - } else if (fSetPEFOks && idx == (pefnum+2)) { - PefRecord.severity = PEF_SEV_OK; - PefRecord.genid1 = 0xff; - PefRecord.genid2 = 0xff; - PefRecord.sensor_type = 0x09; /* Power Unit, Redund OK */ - PefRecord.sensor_no = 0xff; /* usu 01 or 02 */ - PefRecord.event_trigger = 0x0b; /* event trigger */ - PefRecord.data1 = 0x01; /* 01 -> 40=Redundancy OK */ - PefRecord.mask1 = 0x00; - } else if (fSetPEFOks && idx == (pefnum+3)) { - PefRecord.severity = PEF_SEV_OK; - PefRecord.genid1 = 0xff; - PefRecord.genid2 = 0xff; - PefRecord.sensor_type = 0x01; /* Temp OK */ - PefRecord.sensor_no = 0xff; /* usu 01 or 02 */ - PefRecord.event_trigger = 0x81; /* event trigger */ - PefRecord.data1 = 0x95; /* 95 -> 50(NC),52(Crit) match */ - PefRecord.mask1 = 0x0a; - } else if (fSetPEFOks && idx == (pefnum+4)) { - PefRecord.severity = PEF_SEV_OK; - PefRecord.genid1 = 0xff; - PefRecord.genid2 = 0xff; - PefRecord.sensor_type = 0x02; /* Voltage OK */ - PefRecord.sensor_no = 0xff; /* usu 01 or 02 */ - PefRecord.event_trigger = 0x81; /* event trigger */ - PefRecord.data1 = 0x95; /* 95 -> 50(NC),52(Crit) match */ - PefRecord.mask1 = 0x0a; - } else if (fCustomPEF && idx == (pefnum+pefadd)) { - /* user entered 10 or 18 PEF entry bytes */ - PefRecord.action = custPEF[0]; - PefRecord.policy = custPEF[1]; - PefRecord.severity = custPEF[2]; - PefRecord.genid1 = custPEF[3]; - PefRecord.genid2 = custPEF[4]; - PefRecord.sensor_type = custPEF[5]; - PefRecord.sensor_no = custPEF[6]; - PefRecord.event_trigger = custPEF[7]; - PefRecord.data1 = custPEF[8]; - PefRecord.mask1 = custPEF[9]; - memcpy(&PefRecord.action,custPEF,18); - } else { - memcpy(&PefRecord.rec_id,pef_array[idx-1],sizeof(PEF_RECORD)); - if (PefRecord.sensor_type == 0) continue; /* if reserved, skip it */ - } - if (fdebug && (PefRecord.rec_id != idx)) { - /* memcpy from pef_defaults or pef_array clobbered rec_id */ - printf("Warning: SetPef idx=%d, rec_id=%d\n",idx,PefRecord.rec_id); - PefRecord.rec_id = (uchar)idx; /*fix it*/ - } - if (fdisable) { - /* Disable all PEF rules */ - if (idx >= pefnum) PefRecord.fconfig = 0x00; /*disabled, software*/ - else PefRecord.fconfig = 0x40; /*disabled, preset */ - PefRecord.action = 0x00; - PefRecord.policy = 0x00; - } else { /*fenable*/ - if (PefRecord.sensor_type != 0) { /* not an empty PEF entry */ - /* Enable all non-empty PEF rules */ - if (fCustomPEF && (idx == (pefnum+pefadd))) { - PefRecord.action = custPEF[0]; - PefRecord.policy = custPEF[1]; - } else { - PefRecord.action = 0x01; /*Alert*/ - PefRecord.policy = 0x01; /*see Alert Policy #1*/ - } - if (idx < pefnum) { /* special handling for presets, 1 thru 11 */ - PefRecord.fconfig = 0x80; /* enabled, software */ - ret = SetPefEntry(&PefRecord); - if (fdebug) - printf("SetPefEntry(%d/80) ret=%d\n",PefRecord.rec_id,ret); - // if (ret != 0) { nerrs++; lasterr = ret; } - // else ngood++; - PefRecord.fconfig = 0xC0; /* enabled, preset */ - } else { - PefRecord.fconfig = 0x80; /* enabled, software */ - } - } /*endif not empty*/ - } - { // Show the new PEF record before setting it. - pc = (uchar *)&PefRecord; - sz = 21; - printf("PEFilter(%d): ",PefRecord.rec_id); - for (i = 0; i < sz; i++) printf("%02x ",pc[i]); - printf("\n"); - } - ret = SetPefEntry(&PefRecord); - if (fdebug) - printf("SetPefEntry(%d) ret = %d\n", PefRecord.rec_id,ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } /*end for*/ - } - } /*end if not fIPMI10*/ - - if (!fcanonical) - printf("\n%s, GetLanEntry for channel %d ...\n",progname,lan_ch); - idest = 1; - for (idx = 0; idx < NLAN; idx++) - { - int ival; - if (fcanonical && (canon_param[idx] == 0)) continue; - if (idx == 8 || idx == 9) continue; /* not implemented */ - ival = lanparams[idx].cmd; - if (ival >= 96 && ival <= 98) continue; /* not implemented */ - if (ival >= 102 && ival <= 108) { /*custom IPv6 parameters*/ - if (fipv6 == 0) continue; /*skip these*/ - } - if (ival == 194 && vend_id == VENDOR_KONTRON) { /*oem hostname parm*/ - lanparams[idx].sz = 36; - strcpy(lanparams[idx].desc,"IPMI Hostname"); - } else if (ival >= 192 && ival <= 194) { /*custom DHCP parameters*/ - if (vend_id != VENDOR_INTEL) continue; - if (fmBMC || fiBMC || fcanonical) continue; /*skip these*/ - } - if (ival >= 20 && ival <= 25) { - if (!fIPMI20) continue; /*VLAN params 20-25, fIPMI20 only/opt*/ - } - if ((ndest == 0) && (ival >= 18 && ival <= 19)) continue; /*skip dest*/ - if (ival == 11) { /*grat arp interval*/ - if (vend_id == VENDOR_SUPERMICROX) continue; - if (vend_id == VENDOR_SUPERMICRO) continue; - } - if (ival == 14 || ival == 15) { /*secondary gateway is optional*/ - if (vend_id == VENDOR_KONTRON) continue; - } - if (ival == 201) { /*Get Channel Access*/ - ret = ShowChanAcc(lan_ch); - } else { - if (ival == 18 || ival == 19) { /*dest params*/ - if (ndest == 0) continue; /*skip if ndest==0 */ - bset = (uchar)idest; /* dest id = 1 thru n */ - } else bset = 0; - ret = GetLanEntry((uchar)ival, bset, &LanRecord); - } - if (ret == 0) { // Show the LAN record - pc = (uchar *)&LanRecord; - sz = lanparams[idx].sz; - if (ival == 18) { /*skip if invalid dest type param*/ - if ((idest > 1) && (pc[2] == 0)) { idest = 1; continue; } - } else if (ival == 19) { /*skip if invalid dest addr param*/ - if ((idest > 1) && !IpIsValid(&pc[3])) { idest = 1; continue; } - } - if (ival == 201) ; /* did it above */ - else { - if (fcanonical) { - if ((ival == 19) && (idest > 1)) ; /*skip it*/ - else { - j = strlen_(lanparams[idx].desc); - // (ival < 7) || (ival == 19) || ival == 102) - if (j <= 12) pstr = pspace3; - else pstr = pspace2; - printf("Channel %d %s %s%c ",lan_ch, - lanparams[idx].desc,pstr,bdelim); - } - } else - printf("Lan Param(%d) %s: ",ival,lanparams[idx].desc); - } - if (ival == 1) { - authmask = pc[0]; /* auth type support mask */ - /* if (fmBMC) authmask is usually 0x15, else 0x14 */ - } else if (ival == 3) { - if (IpIsValid(pc)) memcpy(bmcmyip,pc,4); - } else if (ival == 5) { - if (MacIsValid(pc)) memcpy(bmcmymac,pc,MAC_LEN); - } else if (ival == 6) { - if (SubnetIsValid(pc)) memcpy(bmcsubnet,pc,4); - /* else if invalid, leave default as 255.255.255.0 */ - //} else if (ival == 7) { - // if (pc[0] >= 30) memcpy(bparm7,pc,3); - } else if (ival == 17) { /* num dest */ - ndest = pc[0]; /* save the number of destinations */ - } else if (ival == 12) { /* gateway addr */ - if (IpIsValid(pc)) memcpy(bmcgwyip,pc,4); - } else if (ival == 13) { /* gateway mac */ - if (MacIsValid(pc)) memcpy(bmcgwymac,pc,MAC_LEN); - } else if (ival == 19) { /* dest addr */ - if (IpIsValid(&pc[3])) memcpy(bmcdestip,&pc[3],4); - if (MacIsValid(&pc[7])) memcpy(bmcdestmac,&pc[7],MAC_LEN); - } else if (ival == 22) { /*Cipher Suite Support*/ - nciphers = pc[0]; - } - /* now start to display data */ - if (ival == 16) { printf("%s \n",pc); /* string */ - } else if (ival == 194 && vend_id == VENDOR_KONTRON) { - printf("%s \n",pc); /* string */ - } else if (ival == 201) { ; /* did it above */ - } else { /* print results for all other ival's */ - pstr = ""; /*interpreted meaning*/ - if (fcanonical) { - switch(ival) { - case 4: /*param 4, ip src*/ - if (pc[0] == SRC_STATIC) pstr = "Static"; /*0x01*/ - else if (pc[0] == SRC_DHCP) pstr = "DHCP"; /*0x02*/ - else if (pc[0] == SRC_BIOS) pstr = "BIOS"; /*0x03*/ - else pstr = "Other"; - printf("%s\n",pstr); - break; - case 5: /*param 5, mac addr*/ - case 13: /*param 6, def gwy mac*/ - printf("%02x:%02x:%02x:%02x:%02x:%02x\n", - pc[0], pc[1], pc[2], pc[3], pc[4], pc[5]); - break; - case 3: /*param 4, ip address*/ - case 6: /*param 6, subnet mask*/ - case 12: /*param 12, def gwy ip*/ - case 14: /*param 14, sec gwy ip*/ - case 192: /*param 192, DHCP svr ip*/ - printf("%d.%d.%d.%d\n",pc[0], pc[1], pc[2], pc[3]); - break; - case 19: /*param 19, dest address*/ - if (idest == 1) { - printf("IP=%d.%d.%d.%d " - "MAC=%02x:%02x:%02x:%02x:%02x:%02x\n", - pc[3], pc[4], pc[5], pc[6], - pc[7], pc[8], pc[9], pc[10], pc[11], pc[12]); - } - break; - case 102: /*param 102, IPv6 enable*/ - if (pc[0] == 0x01) printf("enabled\n"); - else printf("disabled\n"); - break; - default: - printf("%02x \n",pc[0]); - break; - } - } else { /*not canonical */ - if (ival == 3 || ival == 6 || ival == 12 || ival == 14 - || ival == 192) { - printf("%d.%d.%d.%d",pc[0], pc[1], pc[2], pc[3]); - } else if (ival == 23) { /*Cipher Suites*/ - for (i = 1; i <= nciphers; i++) { - if (pc[i] == 0) ncipher0 = pc[i]; - printf("%2d ",pc[i]); - } - } else if (ival == 24) { /*Cipher Suite Privi Levels*/ - j = 0; - for (i = 1; i < 9; i++) { - char c1, c2; - char *p; - p = parse_priv((pc[i] & 0x0f)); - c1 = p[0]; - p = parse_priv((pc[i] & 0xf0) >> 4); - c2 = p[0]; - rgciphers[j++] = (pc[i] & 0x0f); - rgciphers[j++] = ((pc[i] & 0xf0) >> 4); - if ((i*2) >= nciphers) c2 = ' '; - printf(" %c %c ",c1,c2); - if ((i*2) > nciphers) break; - } -} else - for (i = 0; i < sz; i++) -{ - /* print in hex, decimal, or string, based on ival */ - if (ival == 1) { /* Auth type support */ - pstr = &mystr[0]; - getauthstr(authmask,pstr); - printf("%02x ",authmask); - } else if (ival == 4) { /* IP addr source */ - if (pc[i] == SRC_STATIC) pstr = "Static"; /*0x01*/ - else if (pc[i] == SRC_DHCP) pstr = "DHCP"; /*0x02*/ - else if (pc[i] == SRC_BIOS) pstr = "BIOS"; /*0x03*/ - else pstr = "Other"; - printf("%02x ",pc[i]); - } else if (ival == 10) { /* grat ARP */ - mystr[0] = 0; - if (pc[i] == 0) strcat(mystr,"ARP disabled "); - else if (pc[i] & 0x01) strcat(mystr,"Grat-ARP enabled"); - else strcat(mystr,"Grat-ARP disabled"); - if (pc[i] & 0x02) strcat(mystr,", ARP-resp enabled"); - pstr = &mystr[0]; - printf("%02x ",pc[i]); - } else if (ival == 11) { /* grat ARP interval */ - float f; - f = (float)pc[i] / (float)2; /*500msec increments*/ - sprintf(mystr,"%.1f sec",f); - pstr = &mystr[0]; - printf("%02x ",pc[i]); - } else if (ival == 19) { /* dest addr */ - if (i > 2 && i < 7) { - char *sepstr; - if (i == 3) printf("["); - if (i == 6) sepstr = "] "; - else if (i >=3 && i < 6) sepstr = "."; - else sepstr = " "; - printf("%d%s",pc[i],sepstr); /* IP address in dec */ - } - else printf("%02x ",pc[i]); /* show mac/etc. in hex */ - } - else printf("%02x ",pc[i]); /* show in hex */ - } /*end for*/ -if (ival == 2) { /*Auth type enables*/ - pstr = &mystr[0]; - i = 0; - if (lan_ch > 0) i = lan_ch - 1; - getauthstr(pc[i],pstr); -} - if (pstr[0] != 0) printf(": %s\n",pstr); - else printf("\n"); - } /*end-else not canonical*/ - } /*end-else others*/ - if (ival == 18 || ival == 19) { -if (idest < ndest) { - idest++; - idx--; /* repeat this param*/ -} else idest = 1; - } - } else { /* ret != 0 */ - if (ival >= 20 && ival <= 25) { /*if errors, optional*/ - if (fdebug) printf("GetLanEntry(%d), ret = %d\n",ival,ret); - } else - printf("GetLanEntry(%d), ret = %d\n",ival,ret); - if (ival == 17) ndest = 0; /*error getting num dest*/ - } - } /*end for*/ - if (fRomley || fGrantley) { /*get LAN Failover param*/ - uchar b; - ret = lan_failover_intel(0xFF,(uchar *)&b); - if (ret != 0) - printf("Intel Lan Failover, ret = %d\n",ret); - else { - if (b == 1) pstr = "enabled"; - else pstr = "disabled"; - if (fcanonical) - printf("Intel Lan Failover %s%c %s\n", - pspace3, bdelim,pstr); - else printf("Intel Lan Failover %s%c %02x %c %s\n", - pspace2, bdelim,b,bdelim,pstr); - } - } - if (vend_id == VENDOR_SUPERMICROX || vend_id == VENDOR_SUPERMICRO) { - ret = oem_supermicro_get_lan_port(&bset); - if (ret == 0) { - pstr = oem_supermicro_lan_port_string(bset); - if (fcanonical) - printf("SuperMicro Lan Interface %s%c %s\n", - pspace2, bdelim,pstr); - else printf("SuperMicro Lan Interface %c %02x %c %s\n", - bdelim,bset,bdelim,pstr); - } else { - if (fdebug) printf("oem_supermicro_get_lan_port error %d\n",ret); - ret = 0; /*may not be supported on all smc plaforms*/ - } - } - // if (fmBMC) lan_access = 0x04; /*Admin*/ - // else lan_access = 0x04; /*Admin*/ - if (!fIPMI10) { /* Get SOL params */ - ret = GetSerialOverLan(lan_ch,0,0); - if (ret != 0) printf("GetSOL error %d\n",ret); - } - for (i = 1; i <= show_users; i++) - GetUser((uchar)i,lan_ch); - - if (fgetser && !fcanonical) { - printf("\n%s, GetSerEntry ...\n",progname); - if (fmBMC) /* mBMC doesn't support serial */ - printf("No serial channel support on this platform\n"); - else - for (idx = 0; idx < NSER; idx++) { - int ival; - // if (idx == 9) continue; /* not implemented */ - ival = serparams[idx].cmd; - if (ival == 201) { - ret = GetChanAcc(ser_ch, 0x40, &LanRecord); - } else { - ret = GetSerEntry((uchar)ival, &LanRecord); - } - if (ret == 0) { // Show the SER record - pc = (uchar *)&LanRecord; - sz = serparams[idx].sz; - printf("Serial Param(%d) %s: ",ival,serparams[idx].desc); - if (idx == 10) { /* modem init string */ - pc[sz] = 0; - printf("%02x %s\n",pc[0],&pc[1]); - } - else if ((idx >= 11 && idx <= 13) || idx == 15) { /* strings */ - printf("%s\n",pc); - } - else { - for (i = 0; i < sz; i++) { -printf("%02x ",pc[i]); /* show in hex */ -} - printf("\n"); - } /*end else*/ - } - } /*end for*/ - } /*endif fgetser*/ - - if (!freadonly) /* Set IPMI LAN enable/disable params. */ - { - if (fipmilan) /* Sets not valid via ipmi_lan if same channel. */ - printf("\nWarning: Setting LAN %d params while using a LAN channel.\n", lan_ch); - - { - if (fenable && (fsharedMAC==0) && !lan_dhcp) { - /* must have an IP from -I option */ - if (!IpIsValid(rgmyip)) { /* if not user-specified */ - if (IpIsValid(bmcmyip)) { - memcpy(rgmyip,bmcmyip,4); - if (fdebug) printf("Using current IP %d.%d.%d.%d\n", - bmcmyip[0], bmcmyip[1], - bmcmyip[2], bmcmyip[3]); - } else { - printf("\nNot shared BMC LAN, must specify a unique " - "IP address via -I\n"); - ret = ERR_BAD_PARAM; - goto do_exit; - } - } - } - /* Set LAN parameters. fenable or fdisable */ - printf("\n%s, SetLanEntry for channel %d ...\n",progname,lan_ch); - /* use ifname to resolve MAC addresses below */ - if (fdisable) { - if (!fIPMI10) { - ret = DisablePef(alertnum); - printf("DisablePef, ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } -else ngood++; - } - if (lan_user != 0) { - j = DisableUser(lan_user,lan_ch); /*disable this lan user*/ - printf("DisableUser(%d), ret = %d\n",lan_user,j); - if (j != 0) { nerrs++; lasterr = j; } - else ngood++; - } - LanRecord.data[0] = 0x01; /* static IP address source */ - ret = SetLanEntry(4, &LanRecord, 1); - printf("SetLanEntry(4), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - /* clear the BMC IP address */ - memset(&LanRecord,0,4); - ret = SetLanEntry(3, &LanRecord, 4); - printf("SetLanEntry(3), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - /* clear the gateway IP address */ - memset(&LanRecord,0,4); - ret = SetLanEntry(12, &LanRecord, 4); - printf("SetLanEntry(12), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - /* clear the gateway MAC address */ - memset(&LanRecord,0,6); - ret = SetLanEntry(13, &LanRecord, 6); - printf("SetLanEntry(13), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } else if (fdisableSOL) { - ret = SetupSerialOverLan(0); /*disable*/ - SELprintf("SetupSerialOverLan: ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } else { /*fenable*/ - uchar chanctl; - if (bmcpefctl != 0) chanctl = chan_pefon; /*previously on*/ - else chanctl = chan_pefoff; - ret = SetChanAcc(lan_ch, 0x80, chanctl); - if (fdebug) printf("SetChanAcc(lan/active), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - ret = SetChanAcc(lan_ch, 0x40, chanctl); - if (fdebug) printf("SetChanAcc(lan/nonvol), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - if (flansecure) { - j = DisableUser(0,lan_ch); /*disable the default null user*/ - printf("DisableUser(0), ret = %d\n",j); - } - ret = SetUser(lan_user,myuser,passwordData,lan_ch); - printf("SetUser(%d), ret = %d\n",lan_user,ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - if (fdisable && (vend_id == VENDOR_SUPERMICROX - || vend_id == VENDOR_SUPERMICRO) ) { - failover_enable = 0; /*dedicated*/ - ret = oem_supermicro_set_lan_port(failover_enable); - printf("Set SuperMicro Lan port to %s, ret = %d\n", - oem_supermicro_lan_port_string(failover_enable),ret); - if (ret != 0) { nerrs++; lasterr = ret; } - } - - if (fdisable || fdisableSOL) { -// if (nerrs > 0) printf("Warning: %d errors occurred\n",nerrs); - goto do_exit; - } - - if (authmask == 0) authmask = 0x17; /*if none from GetLanEntry(1)*/ - LanRecord.data[0] = (bAuth & authmask); /*Callback level*/ - LanRecord.data[1] = (bAuth & authmask); /*User level */ - LanRecord.data[2] = (bAuth & authmask); /*Operator level*/ - LanRecord.data[3] = (bAuth & authmask); /*Admin level */ - LanRecord.data[4] = 0; /*OEM level*/ - if (fdebug) printf("SetLanEntry(2): %02x %02x %02x %02x %02x\n", - LanRecord.data[0],LanRecord.data[1],LanRecord.data[2], - LanRecord.data[3],LanRecord.data[4]); - ret = SetLanEntry(2, &LanRecord, 5); - printf("SetLanEntry(2), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - - /* Get the values to use from Linux eth0, etc. */ - ret = Get_IPMac_Addr(); - if (lan_dhcp) { /* use DHCP */ - LanRecord.data[0] = SRC_DHCP; /* BMC running DHCP */ - /* = SRC_BIOS; * address source = BIOS using DHCP */ - ret = SetLanEntry(4, &LanRecord, 1); - printf("SetLanEntry(4), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - if (MacIsValid(rgmymac)) { - memcpy(&LanRecord,rgmymac,6); - ret = SetLanEntry(5, &LanRecord, 6); - if (ret == 0x82) { /*BMC may not allow the MAC to be set*/ - if (fdebug) - printf("SetLanEntry(5), ret = %x cannot modify MAC\n",ret); - } else { - printf("SetLanEntry(5), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - } - - /* DHCP also relates to OEM LAN params 192, 193, 194 */ - if ((vend_id == VENDOR_INTEL) && !fmBMC && !fiBMC) - { /*DHCP params 192-194 are Intel only*/ - if (IpIsValid(rgmyip)) - { - /* Set DHCP Server IP in param 192 from -I param. */ - memcpy(&LanRecord,rgmyip,4); - ret = SetLanEntry(192, &LanRecord, 4); - printf("SetLanEntry(192), ret = %d\n",ret); - if (!MacIsValid(rgdhcpmac)) /* if MAC not set yet */ - ret = Get_Mac(rgmyip,rgdhcpmac,NULL); - if (ret == 0) { - memcpy(&LanRecord,rgdhcpmac,MAC_LEN); - ret = SetLanEntry(193, &LanRecord, MAC_LEN); - printf("SetLanEntry(193), ret = %d\n",ret); - } - } - LanRecord.data[0] = 0x01; /*enable DHCP*/ - ret = SetLanEntry(194, &LanRecord, 1); - printf("SetLanEntry(194), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - } else { /* use static IP */ - printf("LAN%d (%s)\tip=%d.%d.%d.%d mac=%02x:%02x:%02x:%02x:%02x:%02x\n", -lan_ch,ifname, rgmyip[0], rgmyip[1], rgmyip[2], rgmyip[3], -rgmymac[0], rgmymac[1], rgmymac[2], rgmymac[3], -rgmymac[4], rgmymac[5]); - if (IpIsValid(rgmyip)) { - if (lan_ch != gcm_ch) { /*skip if gcm*/ - LanRecord.data[0] = 0x00; /*disable grat arp while setting IP*/ - ret = SetLanEntry(10, &LanRecord, 1); - if (fdebug) printf("SetLanEntry(10,0), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - } - LanRecord.data[0] = 0x01; /* static IP address source */ - ret = SetLanEntry(4, &LanRecord, 1); - printf("SetLanEntry(4), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - memcpy(&LanRecord,rgmyip,4); - ret = SetLanEntry(3, &LanRecord, 4); - printf("SetLanEntry(3), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - if (MacIsValid(rgmymac)) { - memcpy(&LanRecord,rgmymac,6); - ret = SetLanEntry(5, &LanRecord, 6); - if (ret == 0x82) { - - /* Do not show anything, not an error if BMC does not - allow the BMC MAC to be changed. */ - if (fdebug) - - printf("SetLanEntry(5), ret = %x cannot modify MAC\n",ret); - } else { - - printf("SetLanEntry(5), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - } - if (!SubnetIsValid(rgsubnet)) /* not specified, use previous */ - memcpy(rgsubnet,bmcsubnet,4); - memcpy(&LanRecord,rgsubnet,4); - ret = SetLanEntry(6, &LanRecord, 4); - printf("SetLanEntry(6), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - if (vend_id != VENDOR_PEPPERCON) { - /* may want to check bparm7 here */ - LanRecord.data[0] = parm7[0]; /*IPv4 header, TTL */ - LanRecord.data[1] = parm7[1]; /*IPv4 header, Flags */ - LanRecord.data[2] = parm7[2]; /*IPv4 hdr, Precedence/Service */ - ret = SetLanEntry(7, &LanRecord, 3); - printf("SetLanEntry(7), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - /* if lan_ch == 3, gcm gets error setting grat arp (ccode=0xCD) */ - if (lan_ch != gcm_ch) { /*skip if gcm*/ - /* 01=enable grat arp, 02=enable arp resp, 03=both */ - LanRecord.data[0] = arp_ctl; /*grat arp*/ - ret = SetLanEntry(10, &LanRecord, 1); - printf("SetLanEntry(10,%x), ret = %d\n",arp_ctl,ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - LanRecord.data[0] = arp_interval; /*grat arp interval*/ - ret = SetLanEntry(11, &LanRecord, 1); - printf("SetLanEntry(11), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - if ((vend_id == VENDOR_INTEL) && !fmBMC && !fiBMC) { - LanRecord.data[0] = 0x00; /*disable DHCP*/ - ret = SetLanEntry(194, &LanRecord, 1); - printf("SetLanEntry(194), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - } else { /* error, don't continue */ - printf("Missing IP Address, can't continue. Use -I to specify\n"); - ret = ERR_BAD_PARAM; - goto do_exit; - } - if (vend_id == VENDOR_KONTRON && rghostname[0] != 0) { - /* set the IPMI Hostname if specified */ - sz = strlen_(rghostname); - /* LanRecord is larger than rghostname, bounds ok */ - strncpy((char *)&LanRecord.data,rghostname,sz); - ret = SetLanEntry(194, &LanRecord, sz); - printf("SetLanEntry(194), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else { - LanRecord.data[0] = 0x31; - ret = SetLanEntry(195, &LanRecord, 1); /*re-read hostname*/ - // printf("SetLanEntry(195), ret = %d\n",ret); - // if (ret != 0) { nerrs++; lasterr = ret; } - } - } - if (IpIsValid(rggwyip)) { - if (!MacIsValid(rggwymac)) /* if gwy MAC not set by user */ - ret = Get_Mac(rggwyip,rggwymac,NULL); - printf("gateway \tip=%d.%d.%d.%d mac=%02x:%02x:%02x:%02x:%02x:%02x\n", - rggwyip[0], rggwyip[1], rggwyip[2], rggwyip[3], - rggwymac[0], rggwymac[1], rggwymac[2], rggwymac[3], - rggwymac[4], rggwymac[5]); - if (!SubnetIsSame(rgmyip,rggwyip,rgsubnet)) { - printf("WARNING: IP Address and Gateway are not on the same subnet," -" setting Gateway to previous value\n"); - memcpy(rggwyip,bmcgwyip,4); - memcpy(rggwymac,bmcgwymac,6); - } - - /* Set the Default Gateway IP & MAC */ - memcpy(&LanRecord,rggwyip,4); - ret = SetLanEntry(12, &LanRecord, 4); - printf("SetLanEntry(12), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - if (!MacIsValid(rggwymac)) { /* if gwy MAC not resolved */ - printf(" Warning: Gateway MAC address was not resolved! " - "Check %s interface, use -i ethN, or use -H gwymac.\n", - ifname); - memcpy(&LanRecord,bmcgwymac,6); - } else { - memcpy(&LanRecord,rggwymac,6); - } - ret = SetLanEntry(13, &LanRecord, 6); - printf("SetLanEntry(13), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - if (IpIsValid(rggwy2ip)) { - if (!MacIsValid(rggwy2mac)) /* if gwy2 MAC not set by user */ - ret = Get_Mac(rggwy2ip,rggwy2mac,NULL); - /* Set the Secondary Gateway IP & MAC */ - memcpy(&LanRecord,rggwy2ip,4); - ret = SetLanEntry(14, &LanRecord, 4); - printf("SetLanEntry(14), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - memcpy(&LanRecord,rggwy2mac,6); - ret = SetLanEntry(15, &LanRecord, 6); - printf("SetLanEntry(15), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - } /* end-else static IP */ - if (flansecure) { /* disable cipher 0 */ - char c1, c2; - memset(&LanRecord,0,12); - j = 1; - for (i = 0; i < nciphers; i+=2) { - c1 = rgciphers[i]; - c2 = rgciphers[i+1]; - /* 0x0f may be vendor-specific, 0x00 = Reserved/Unused */ - if (i == ncipher0) c1 = 0x00; - if ((i+1) == ncipher0) c2 = 0x00; - LanRecord.data[j++] = (c2 << 4) | c1; - } - ret = SetLanEntry(24, &LanRecord, 9); - printf("SetLanEntry(24) disable cipher0, ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - ret = SetupSerialOverLan(1); /*enable*/ - SELprintf("SetupSerialOverLan: ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - if (!IpIsValid(rgdestip) && IpIsValid(bmcdestip)) { - memcpy(rgdestip,bmcdestip,4); - if (fdebug) printf("Using current dest IP %d.%d.%d.%d\n", - bmcdestip[0], bmcdestip[1], - bmcdestip[2], bmcdestip[3]); - } - if (ndest == 0) { - if (fdebug) printf("ndest==0, anum=%d rgdestip=%d.%d.%d.%d\n", - alertnum, rgdestip[0], rgdestip[1], rgdestip[2], rgdestip[3]); - printf("alert dest \tnot supported\n"); - } else if (!IpIsValid(rgdestip)) { - printf("alert dest \taddress not specified\n"); - } else { /* valid alert dest ip */ - if (!MacIsValid(rgdestmac)) /* if dest MAC not set by user */ - ret = Get_Mac(rgdestip,rgdestmac,NULL); /*try to resolve MAC */ - if (!MacIsValid(rgdestmac)) { /* if dest MAC not resolved */ - printf(" Warning: Alert mac address was not resolved!" - " Check %s interface or use -i.\n",ifname); - /* use existing BMC alert dest mac (as best guess) */ - memcpy(rgdestmac,bmcdestmac,6); - } - /* show destination data */ - printf("alert dest %d\tip=%d.%d.%d.%d mac=%02x:%02x:%02x:%02x:%02x:%02x\n", - alertnum, rgdestip[0], rgdestip[1], rgdestip[2], rgdestip[3], - rgdestmac[0], rgdestmac[1], rgdestmac[2], rgdestmac[3], - rgdestmac[4], rgdestmac[5]); - printf("snmp community \t%s\n",rgcommunity); - /* Only need the SNMP community if there is an Alert Destination */ - memset(&LanRecord.data[0], 0, 18); /* make sure zero-filled */ - strcpy((char *)&LanRecord.data[0],rgcommunity); - ret = SetLanEntry(16, &LanRecord, 18); - printf("SetLanEntry(16), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - /* Set Alert Destination Type */ - LanRecord.data[0] = alertnum; /* dest id = 1 */ - LanRecord.data[1] = 0x00; /* dest type = PET, no ack */ - LanRecord.data[2] = 0x01; /* ack timeout / retry interval */ - LanRecord.data[3] = 0x00; /* no retries */ - // LanRecord.data[4] = 0x69; - ret = SetLanEntry(18, &LanRecord, 4); - printf("SetLanEntry(18), ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - { - /* Set the Alert Destination IP & MAC (param 19) */ - LanRecord.data[0] = alertnum; /* dest id = 1 */ - LanRecord.data[1] = 0x00; - LanRecord.data[2] = 0x00; - memcpy(&LanRecord.data[3],rgdestip,4); - memcpy(&LanRecord.data[7],rgdestmac,6); - ret = SetLanEntry(19, &LanRecord, 13); - printf("SetLanEntry(19), ret = %d\n", ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - } /*endif valid alert*/ - - /* Now enable PEF since we have an Alert destination. */ - if (!fdisable && !fIPMI10 && fpefenable) { /*fpefenable*/ - ret = EnablePef(alertnum); - printf("EnablePef, ret = %d\n",ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - /* ChanAcc changed, so show it again */ - j = ShowChanAcc(lan_ch); - } - - if ((vlan_enable != PARM_INIT) && (fIPMI20)) { - if (vlan_enable == 0) { /*disable vlan*/ - LanRecord.data[0] = 0x00; - LanRecord.data[1] = 0x00; - ret = SetLanEntry(20, &LanRecord, 2); - printf("SetLanEntry(20,disable) ret = %d\n", ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } else { /*vlan_enable == 1, enable vlan with id */ - LanRecord.data[0] = (vlan_id & 0x00ff); - LanRecord.data[1] = ((vlan_id & 0x0f00) >> 8) | 0x80; - ret = SetLanEntry(20, &LanRecord, 2); - printf("SetLanEntry(20,%d), ret = %d\n", vlan_id,ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - LanRecord.data[0] = vlan_prio; - ret = SetLanEntry(21, &LanRecord, 1); - printf("SetLanEntry(21), ret = %d\n", ret); - if (ret != 0) { nerrs++; lasterr = ret; } - else ngood++; - } - } - if (failover_enable != PARM_INIT) { - if (fRomley || fGrantley) { - if (failover_enable > 1) failover_enable = 0; /*default*/ - ret = lan_failover_intel(failover_enable,(uchar *)&i); - printf("Set Intel Lan Failover (%d), ret = %d\n", - failover_enable,ret); - if (ret != 0) { nerrs++; lasterr = ret; } - } else if (vend_id == VENDOR_SUPERMICROX - || vend_id == VENDOR_SUPERMICRO) { - if (failover_enable > 2) failover_enable = 2; /*default*/ - ret = oem_supermicro_set_lan_port(failover_enable); - printf("Set SuperMicro Lan port to %s, ret = %d\n", - oem_supermicro_lan_port_string(failover_enable),ret); - if (ret != 0) { nerrs++; lasterr = ret; } - } - } /*endif failover specified*/ - } /*end-else not via ipmi_lan*/ - } /*endif not readonly*/ - - if (flanstats) - { /* get BMC LAN Statistics */ -#ifdef METACOMMAND - j = get_lan_stats(lan_ch); -#else - uchar idata[2]; - uchar rdata[20]; - int rlen; - uchar cc; - idata[0] = lan_ch; - idata[1] = 0x00; /*do not clear stats*/ - rlen = sizeof(rdata); - j = ipmi_cmd(GET_LAN_STATS, idata,2, rdata,&rlen, &cc, fdebug); - if (j == 0) { /*show BMC LAN stats*/ - ushort *rw; - rw = (ushort *)&rdata[0]; - printf("IPMI LAN channel %d statistics: \n",lan_ch); - printf(" \tReceived IP Packets = %d\n",rw[0]); - printf(" \tRecvd IP Header errors = %d\n",rw[1]); - printf(" \tRecvd IP Address errors = %d\n",rw[2]); - printf(" \tRecvd IP Fragments = %d\n",rw[3]); - printf(" \tTransmitted IP Packets = %d\n",rw[4]); - printf(" \tReceived UDP Packets = %d\n",rw[5]); - printf(" \tReceived Valid RMCP Pkts = %d\n",rw[6]); - printf(" \tReceived UDP Proxy Pkts = %d\n",rw[7]); - printf(" \tDropped UDP Proxy Pkts = %d\n",rw[8]); - } -#endif - } - -do_exit: - ipmi_close_(); - if (foptmsg) { - if (fset_ip != 0) - printf("WARNING: IP address options were specified, but no -e,-l,-d option.\n"); - else - printf("WARNING: %d options were specified, but no -e,-l,-d option.\n", -nopts); - printf("Read-only usage assumed.\n"); - } - if (nerrs > 0) { - printf("Warning: %d ok, %d errors occurred, last error = %d\n",ngood,nerrs,lasterr); - ret = lasterr; - } - // show_outcome(progname,ret); - return(ret); -} /* end main()*/ - -/* end ilan.c */ |