/* * Copyright (c) 2005 International Business Machines, Inc. All Rights Reserved. * Copyright (c) 2003 Sun Microsystems, 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: * * Redistribution of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistribution in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Sun Microsystems, Inc. or the names of * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * This software is provided "AS IS," without a warranty of any kind. * ALL EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, * INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A * PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. * SUN MICROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL NOT BE LIABLE * FOR ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING * OR DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL * SUN OR ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, * OR FOR DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR * PUNITIVE DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF * LIABILITY, ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, * EVEN IF SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. */ #include #include #include #include #include #include #include #include #include #include #include static void printf_firewall_usage(void) { lprintf(LOG_NOTICE, "Firmware Firewall Commands:"); lprintf(LOG_NOTICE, "\tinfo [channel H] [lun L]"); lprintf(LOG_NOTICE, "\tinfo [channel H] [lun L [netfn N [command C [subfn S]]]]"); lprintf(LOG_NOTICE, "\tenable [channel H] [lun L [netfn N [command C [subfn S]]]]"); lprintf(LOG_NOTICE, "\tdisable [channel H] [lun L [netfn N [command C [subfn S]]]] [force])"); lprintf(LOG_NOTICE, "\treset [channel H]"); lprintf(LOG_NOTICE, "\t\twhere H is a Channel, L is a LUN, N is a NetFn,"); lprintf(LOG_NOTICE, "\t\tC is a Command and S is a Sub-Function"); } void printf_firewall_info_usage(void) { lprintf(LOG_NOTICE, "info [channel H]"); lprintf(LOG_NOTICE, "\tList all of the firewall information for all LUNs, NetFns"); lprintf(LOG_NOTICE, "\tand Commands, This is a long list and is not very human readable."); lprintf(LOG_NOTICE, "info [channel H] lun L"); lprintf(LOG_NOTICE, "\tThis also prints a long list that is not very human readable."); lprintf(LOG_NOTICE, "info [channel H] lun L netfn N"); lprintf(LOG_NOTICE, "\tThis prints out information for a single LUN/NetFn pair."); lprintf(LOG_NOTICE, "\tThat is not really very usable, but at least it is short."); lprintf(LOG_NOTICE, "info [channel H] lun L netfn N command C"); lprintf(LOG_NOTICE, "\tThis is the one you want -- it prints out detailed human"); lprintf(LOG_NOTICE, "\treadable information. It shows the support, configurable, and"); lprintf(LOG_NOTICE, "\tenabled bits for the Command C on LUN/NetFn pair L,N and the"); lprintf(LOG_NOTICE, "\tsame information about each of its Sub-functions."); } // print n bytes of bit field bf (if invert, print ~bf) static void print_bitfield(const unsigned char * bf, int n, int invert, int loglevel) { int i = 0; if (loglevel < 0) { while (ichannel = channel_tmp; } } else if (strncmp(argv[i], "lun", 3) == 0 && (++i < argc)) { if (str2int(argv[i], &(p->lun)) != 0) { lprintf(LOG_ERR, "Given lun '%s' is invalid.", argv[i]); conv_err = 1; break; } } else if (strncmp(argv[i], "force", 5) == 0) { p->force = 1; } else if (strncmp(argv[i], "netfn", 5) == 0 && (++i < argc)) { if (str2int(argv[i], &(p->netfn)) != 0) { lprintf(LOG_ERR, "Given netfn '%s' is invalid.", argv[i]); conv_err = 1; break; } } else if (strncmp(argv[i], "command", 7) == 0 && (++i < argc)) { if (str2int(argv[i], &(p->command)) != 0) { lprintf(LOG_ERR, "Given command '%s' is invalid.", argv[i]); conv_err = 1; break; } } else if (strncmp(argv[i], "subfn", 5) == 0 && (++i < argc)) { if (str2int(argv[i], &(p->subfn)) != 0) { lprintf(LOG_ERR, "Given subfn '%s' is invalid.", argv[i]); conv_err = 1; break; } } } if (conv_err != 0) { return (-1); } if (p->subfn >= MAX_SUBFN) { lprintf(LOG_ERR, "subfn is out of range (0-%d)", MAX_SUBFN-1); return -1; } if (p->command >= MAX_COMMAND) { lprintf(LOG_ERR, "command is out of range (0-%d)", MAX_COMMAND-1); return -1; } if (p->netfn >= MAX_NETFN) { lprintf(LOG_ERR, "netfn is out of range (0-%d)", MAX_NETFN-1); return -1; } if (p->lun >= MAX_LUN) { lprintf(LOG_ERR, "lun is out of range (0-%d)", MAX_LUN-1); return -1; } if (p->netfn >= 0 && p->lun < 0) { lprintf(LOG_ERR, "if netfn is set, so must be lun"); return -1; } if (p->command >= 0 && p->netfn < 0) { lprintf(LOG_ERR, "if command is set, so must be netfn"); return -1; } if (p->subfn >= 0 && p->command < 0) { lprintf(LOG_ERR, "if subfn is set, so must be command"); return -1; } return 0; } /* _get_netfn_suport * * @intf: ipmi interface * @channel: ipmi channel * @lun: a pointer to a 4 byte field * @netfn: a pointer to a 128-bit bitfield (16 bytes) * * returns 0 on success and fills in the bitfield for * the 32 netfn * 4 LUN pairs that support commands * returns -1 on error */ static int _get_netfn_support(struct ipmi_intf * intf, int channel, unsigned char * lun, unsigned char * netfn) { struct ipmi_rs * rsp; struct ipmi_rq req; unsigned char * d, rqdata; unsigned int l; if (!lun || !netfn) { lprintf(LOG_ERR, "_get_netfn_suport: lun or netfn is NULL"); return -1; } memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_GET_NETFN_SUPPORT; rqdata = (unsigned char) channel; req.msg.data = &rqdata; req.msg.data_len = 1; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Get NetFn Support command failed"); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Get NetFn Support command failed: %s", val2str(rsp->ccode, completion_code_vals)); return -1; } d = rsp->data; for (l=0; l<4; l++) { lun[l] = (*d)>>(2*l) & 0x3; } d++; memcpy(netfn, d, 16); return 0; } /* _get_command_suport * * @intf: ipmi interface * @p: a pointer to a struct ipmi_function_params * @lnfn: a pointer to a struct lun_netfn_support * * returns 0 on success and fills in lnfn according to the request in p * returns -1 on error */ static int _get_command_support(struct ipmi_intf * intf, struct ipmi_function_params * p, struct lun_netfn_support * lnfn) { struct ipmi_rs * rsp; struct ipmi_rq req; unsigned char * d, rqdata[3]; unsigned int c; if (!p || !lnfn) { lprintf(LOG_ERR, "_get_netfn_suport: p or lnfn is NULL"); return -1; } memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_GET_COMMAND_SUPPORT; rqdata[0] = (unsigned char) p->channel; rqdata[1] = p->netfn; rqdata[2] = p->lun; req.msg.data = rqdata; req.msg.data_len = 3; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Get Command Support (LUN=%d, NetFn=%d, op=0) command failed", p->lun, p->netfn); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Get Command Support (LUN=%d, NetFn=%d, op=0) command failed: %s", p->lun, p->netfn, val2str(rsp->ccode, completion_code_vals)); return -1; } d = rsp->data; for (c=0; c<128; c++) { if (!(d[c>>3] & (1<<(c%8)))) lnfn->command[c].support |= BIT_AVAILABLE; } memcpy(lnfn->command_mask, d, MAX_COMMAND_BYTES/2); memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_GET_COMMAND_SUPPORT; rqdata[0] = (unsigned char) p->channel; rqdata[1] = 0x40 | p->netfn; rqdata[2] = p->lun; req.msg.data = rqdata; req.msg.data_len = 3; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Get Command Support (LUN=%d, NetFn=%d, op=1) command failed", p->lun, p->netfn); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Get Command Support (LUN=%d, NetFn=%d, op=1) command failed: %s", p->lun, p->netfn, val2str(rsp->ccode, completion_code_vals)); return -1; } d = rsp->data; for (c=0; c<128; c++) { if (!(d[c>>3] & (1<<(c%8)))) lnfn->command[128+c].support |= BIT_AVAILABLE; } memcpy(lnfn->command_mask+MAX_COMMAND_BYTES/2, d, MAX_COMMAND_BYTES/2); return 0; } /* _get_command_configurable * * @intf: ipmi interface * @p: a pointer to a struct ipmi_function_params * @lnfn: a pointer to a struct lun_netfn_support * * returns 0 on success and fills in lnfn according to the request in p * returns -1 on error */ static int _get_command_configurable(struct ipmi_intf * intf, struct ipmi_function_params * p, struct lun_netfn_support * lnfn) { struct ipmi_rs * rsp; struct ipmi_rq req; unsigned char * d, rqdata[3]; unsigned int c; if (!p || !lnfn) { lprintf(LOG_ERR, "_get_command_configurable: p or lnfn is NULL"); return -1; } memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_GET_CONFIGURABLE_COMMANDS; rqdata[0] = (unsigned char) p->channel; rqdata[1] = p->netfn; rqdata[2] = p->lun; req.msg.data = rqdata; req.msg.data_len = 3; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Get Configurable Command (LUN=%d, NetFn=%d, op=0) command failed", p->lun, p->netfn); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Get Configurable Command (LUN=%d, NetFn=%d, op=0) command failed: %s", p->lun, p->netfn, val2str(rsp->ccode, completion_code_vals)); return -1; } d = rsp->data; for (c=0; c<128; c++) { if (d[c>>3] & (1<<(c%8))) lnfn->command[c].support |= BIT_CONFIGURABLE; } memcpy(lnfn->config_mask, d, MAX_COMMAND_BYTES/2); memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_GET_CONFIGURABLE_COMMANDS; rqdata[0] = (unsigned char) p->channel; rqdata[1] = 0x40 | p->netfn; rqdata[2] = p->lun; req.msg.data = rqdata; req.msg.data_len = 3; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Get Configurable Command (LUN=%d, NetFn=%d, op=1) command failed", p->lun, p->netfn); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Get Configurable Command (LUN=%d, NetFn=%d, op=1) command failed: %s", p->lun, p->netfn, val2str(rsp->ccode, completion_code_vals)); return -1; } d = rsp->data; for (c=0; c<128; c++) { if (d[c>>3] & (1<<(c%8))) lnfn->command[128+c].support |= BIT_CONFIGURABLE; } memcpy(lnfn->config_mask+MAX_COMMAND_BYTES/2, d, MAX_COMMAND_BYTES/2); return 0; } /* _get_command_enables * * @intf: ipmi interface * @p: a pointer to a struct ipmi_function_params * @lnfn: a pointer to a struct lun_netfn_support * * returns 0 on success and fills in lnfn according to the request in p * returns -1 on error */ static int _get_command_enables(struct ipmi_intf * intf, struct ipmi_function_params * p, struct lun_netfn_support * lnfn) { struct ipmi_rs * rsp; struct ipmi_rq req; unsigned char * d, rqdata[3]; unsigned int c; if (!p || !lnfn) { lprintf(LOG_ERR, "_get_command_enables: p or lnfn is NULL"); return -1; } memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_GET_COMMAND_ENABLES; rqdata[0] = (unsigned char) p->channel; rqdata[1] = p->netfn; rqdata[2] = p->lun; req.msg.data = rqdata; req.msg.data_len = 3; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Get Command Enables (LUN=%d, NetFn=%d, op=0) command failed", p->lun, p->netfn); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Get Command Enables (LUN=%d, NetFn=%d, op=0) command failed: %s", p->lun, p->netfn, val2str(rsp->ccode, completion_code_vals)); return -1; } d = rsp->data; for (c=0; c<128; c++) { if (d[c>>3] & (1<<(c%8))) lnfn->command[c].support |= BIT_ENABLED; } memcpy(lnfn->enable_mask, d, MAX_COMMAND_BYTES/2); memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_GET_COMMAND_ENABLES; rqdata[0] = (unsigned char) p->channel; rqdata[1] = 0x40 | p->netfn; rqdata[2] = p->lun; req.msg.data = rqdata; req.msg.data_len = 3; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Get Command Enables (LUN=%d, NetFn=%d, op=1) command failed", p->lun, p->netfn); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Get Command Enables (LUN=%d, NetFn=%d, op=1) command failed: %s", p->lun, p->netfn, val2str(rsp->ccode, completion_code_vals)); return -1; } d = rsp->data; for (c=0; c<128; c++) { if (d[c>>3] & (1<<(c%8))) lnfn->command[128+c].support |= BIT_ENABLED; } memcpy(lnfn->enable_mask+MAX_COMMAND_BYTES/2, d, MAX_COMMAND_BYTES/2); return 0; } /* _set_command_enables * * @intf: ipmi interface * @p: a pointer to a struct ipmi_function_params * @lnfn: a pointer to a struct lun_netfn_support that contains current info * @enable: a pointer to a 32 byte bitfield that contains the desired enable state * @gun: here is a gun to shoot yourself in the foot. If this is true * you are allowed to disable this command * * returns 0 on success * returns -1 on error */ static int _set_command_enables(struct ipmi_intf * intf, struct ipmi_function_params * p, struct lun_netfn_support * lnfn, unsigned char * enable, int gun) { struct ipmi_rs * rsp; struct ipmi_rq req; unsigned char rqdata[19]; unsigned int c; if (!p || !lnfn) { lprintf(LOG_ERR, "_set_command_enables: p or lnfn is NULL"); return -1; } lprintf(LOG_INFO, "support: "); print_bitfield(lnfn->command_mask, MAX_COMMAND_BYTES, 1, LOG_INFO); lprintf(LOG_INFO, "configurable: "); print_bitfield(lnfn->config_mask, MAX_COMMAND_BYTES, 0, LOG_INFO); lprintf(LOG_INFO, "enabled: "); print_bitfield(lnfn->enable_mask, MAX_COMMAND_BYTES, 0, LOG_INFO); lprintf(LOG_INFO, "enable mask before: "); print_bitfield(enable, MAX_COMMAND_BYTES, 0, LOG_INFO); // mask off the appropriate bits (if not configurable, set enable bit // must be the same as the current enable bit) for (c=0; c<(MAX_COMMAND_BYTES); c++) { enable[c] = (lnfn->config_mask[c] & enable[c]) | (~lnfn->config_mask[c] & lnfn->enable_mask[c]); } // take the gun out of their hand if they are not supposed to have it if (!gun) { enable[SET_COMMAND_ENABLE_BYTE] = (lnfn->config_mask[SET_COMMAND_ENABLE_BYTE] & SET_COMMAND_ENABLE_BIT) | (~lnfn->config_mask[SET_COMMAND_ENABLE_BYTE] & lnfn->enable_mask[SET_COMMAND_ENABLE_BYTE]); } lprintf(LOG_INFO, "enable mask after: "); print_bitfield(enable, MAX_COMMAND_BYTES, 0, LOG_INFO); memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_SET_COMMAND_ENABLES; rqdata[0] = (unsigned char) p->channel; rqdata[1] = p->netfn; rqdata[2] = p->lun; memcpy(&rqdata[3], enable, MAX_COMMAND_BYTES/2); req.msg.data = rqdata; req.msg.data_len = 19; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Set Command Enables (LUN=%d, NetFn=%d, op=0) command failed", p->lun, p->netfn); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Set Command Enables (LUN=%d, NetFn=%d, op=0) command failed: %s", p->lun, p->netfn, val2str(rsp->ccode, completion_code_vals)); return -1; } memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_SET_COMMAND_ENABLES; rqdata[0] = (unsigned char) p->channel; rqdata[1] = 0x40 | p->netfn; rqdata[2] = p->lun; memcpy(&rqdata[3], enable+MAX_COMMAND_BYTES/2, MAX_COMMAND_BYTES/2); req.msg.data = rqdata; req.msg.data_len = 19; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Set Command Enables (LUN=%d, NetFn=%d, op=1) command failed", p->lun, p->netfn); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Set Command Enables (LUN=%d, NetFn=%d, op=1) command failed: %s", p->lun, p->netfn, val2str(rsp->ccode, completion_code_vals)); return -1; } return 0; } /* _get_subfn_support * * @intf: ipmi interface * @p: a pointer to a struct ipmi_function_params * @cmd: a pointer to a struct command_support * * returns 0 on success and fills in cmd according to the request in p * returns -1 on error */ static int _get_subfn_support(struct ipmi_intf * intf, struct ipmi_function_params * p, struct command_support * cmd) { struct ipmi_rs * rsp; struct ipmi_rq req; unsigned char rqdata[4]; if (!p || !cmd) { lprintf(LOG_ERR, "_get_subfn_support: p or cmd is NULL"); return -1; } memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_GET_COMMAND_SUBFUNCTION_SUPPORT; rqdata[0] = (unsigned char) p->channel; rqdata[1] = p->netfn; rqdata[2] = p->lun; rqdata[3] = p->command; req.msg.data = rqdata; req.msg.data_len = 4; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Get Command Sub-function Support (LUN=%d, NetFn=%d, command=%d) command failed", p->lun, p->netfn, p->command); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Get Command Sub-function Support (LUN=%d, NetFn=%d, command=%d) command failed: %s", p->lun, p->netfn, p->command, val2str(rsp->ccode, completion_code_vals)); return -1; } memcpy(cmd->subfn_support, rsp->data, sizeof(cmd->subfn_support)); return 0; } /* _get_subfn_configurable * * @intf: ipmi interface * @p: a pointer to a struct ipmi_function_params * @cmd: a pointer to a struct command_support * * returns 0 on success and fills in cmd according to the request in p * returns -1 on error */ static int _get_subfn_configurable(struct ipmi_intf * intf, struct ipmi_function_params * p, struct command_support * cmd) { struct ipmi_rs * rsp; struct ipmi_rq req; unsigned char rqdata[4]; if (!p || !cmd) { lprintf(LOG_ERR, "_get_subfn_configurable: p or cmd is NULL"); return -1; } memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_GET_CONFIGURABLE_COMMAND_SUBFUNCTIONS; rqdata[0] = (unsigned char) p->channel; rqdata[1] = p->netfn; rqdata[2] = p->lun; rqdata[3] = p->command; req.msg.data = rqdata; req.msg.data_len = 4; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Get Configurable Command Sub-function (LUN=%d, NetFn=%d, command=%d) command failed", p->lun, p->netfn, p->command); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Get Configurable Command Sub-function (LUN=%d, NetFn=%d, command=%d) command failed: %s", p->lun, p->netfn, p->command, val2str(rsp->ccode, completion_code_vals)); return -1; } memcpy(cmd->subfn_config, rsp->data, sizeof(cmd->subfn_config)); return 0; } /* _get_subfn_enables * * @intf: ipmi interface * @p: a pointer to a struct ipmi_function_params * @cmd: a pointer to a struct command_support * * returns 0 on success and fills in cmd according to the request in p * returns -1 on error */ static int _get_subfn_enables(struct ipmi_intf * intf, struct ipmi_function_params * p, struct command_support * cmd) { struct ipmi_rs * rsp; struct ipmi_rq req; unsigned char rqdata[4]; if (!p || !cmd) { lprintf(LOG_ERR, "_get_subfn_enables: p or cmd is NULL"); return -1; } memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_GET_COMMAND_SUBFUNCTION_ENABLES; rqdata[0] = (unsigned char) p->channel; rqdata[1] = p->netfn; rqdata[2] = p->lun; rqdata[3] = p->command; req.msg.data = rqdata; req.msg.data_len = 4; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Get Command Sub-function Enables (LUN=%d, NetFn=%d, command=%d) command failed", p->lun, p->netfn, p->command); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Get Command Sub-function Enables (LUN=%d, NetFn=%d, command=%d) command failed: %s", p->lun, p->netfn, p->command, val2str(rsp->ccode, completion_code_vals)); return -1; } memcpy(cmd->subfn_enable, rsp->data, sizeof(cmd->subfn_enable)); return 0; } /* _set_subfn_enables * * @intf: ipmi interface * @p: a pointer to a struct ipmi_function_params * @cmd: a pointer to a struct command_support * @enable: a pointer to a 4 byte bitfield that contains the desired enable state * * returns 0 on success (and modifies enable to be the bits it actually set) * returns -1 on error */ static int _set_subfn_enables(struct ipmi_intf * intf, struct ipmi_function_params * p, struct command_support * cmd, unsigned char * enable) { struct ipmi_rs * rsp; struct ipmi_rq req; unsigned char rqdata[8]; unsigned int c; if (!p || !cmd) { lprintf(LOG_ERR, "_set_subfn_enables: p or cmd is NULL"); return -1; } lprintf(LOG_INFO, "support: "); print_bitfield(cmd->subfn_support, MAX_SUBFN_BYTES, 1, LOG_INFO); lprintf(LOG_INFO, "configurable: "); print_bitfield(cmd->subfn_config, MAX_SUBFN_BYTES, 0, LOG_INFO); lprintf(LOG_INFO, "enabled: "); print_bitfield(cmd->subfn_enable, MAX_SUBFN_BYTES, 0, LOG_INFO); lprintf(LOG_INFO, "enable mask before: "); print_bitfield(enable, MAX_SUBFN_BYTES, 0, LOG_INFO); // mask off the appropriate bits (if not configurable, set enable bit // must be the same as the current enable bit) for (c=0; csubfn_enable); c++) { enable[c] = (cmd->subfn_config[c] & enable[c]) | (~cmd->subfn_config[c] & cmd->subfn_enable[c]); } lprintf(LOG_INFO, "enable mask after: "); print_bitfield(enable, MAX_SUBFN_BYTES, 0, LOG_INFO); memset(&req, 0, sizeof(req)); req.msg.netfn = IPMI_NETFN_APP; req.msg.cmd = BMC_SET_COMMAND_SUBFUNCTION_ENABLES; rqdata[0] = (unsigned char) p->channel; rqdata[1] = p->netfn; rqdata[2] = p->lun; rqdata[3] = p->command; memcpy(&rqdata[4], enable, MAX_SUBFN_BYTES); req.msg.data = rqdata; req.msg.data_len = 8; rsp = intf->sendrecv(intf, &req); if (rsp == NULL) { lprintf(LOG_ERR, "Set Command Sub-function Enables (LUN=%d, NetFn=%d, command=%d) command failed", p->lun, p->netfn, p->command); return -1; } if (rsp->ccode > 0) { lprintf(LOG_ERR, "Set Command Sub-function Enables (LUN=%d, NetFn=%d, command=%d) command failed: %s", p->lun, p->netfn, p->command, val2str(rsp->ccode, completion_code_vals)); return -1; } return 0; } /* _gather_info * * @intf: ipmi interface * @p: a pointer to a struct ipmi_function_params * @bmc: a pointer to a struct bmc_fn_support * @enable: a pointer to a 4 byte bitfield that contains the desired enable state * * returns 0 on success and fills in bmc according to request p * returns -1 on error */ static int _gather_info(struct ipmi_intf * intf, struct ipmi_function_params * p, struct bmc_fn_support * bmc) { int ret, l, n; unsigned char lun[MAX_LUN], netfn[16]; ret = _get_netfn_support(intf, p->channel, lun, netfn); if (!ret) { for (l=0; llun >= 0 && p->lun != l) continue; bmc->lun[l].support = lun[l]; if (lun[l]) { for (n=0; nlun[l].netfn[n].support = !!(netfn[offset>>3] & (1<<(offset%8))); } } } } if (p->netfn >= 0) { if (!((p->lun < 0 || bmc->lun[p->lun].support) && (p->netfn < 0 || bmc->lun[p->lun].netfn[p->netfn>>1].support))) { lprintf(LOG_ERR, "LUN or LUN/NetFn pair %d,%d not supported", p->lun, p->netfn); return 0; } ret = _get_command_support(intf, p, &(bmc->lun[p->lun].netfn[p->netfn>>1])); ret |= _get_command_configurable(intf, p, &(bmc->lun[p->lun].netfn[p->netfn>>1])); ret |= _get_command_enables(intf, p, &(bmc->lun[p->lun].netfn[p->netfn>>1])); if (!ret && p->command >= 0) { ret = _get_subfn_support(intf, p, &(bmc->lun[p->lun].netfn[p->netfn>>1].command[p->command])); ret |= _get_subfn_configurable(intf, p, &(bmc->lun[p->lun].netfn[p->netfn>>1].command[p->command])); ret |= _get_subfn_enables(intf, p, &(bmc->lun[p->lun].netfn[p->netfn>>1].command[p->command])); } } else if (p->lun >= 0) { l = p->lun; if (bmc->lun[l].support) { for (n=0; nnetfn = n*2; if (bmc->lun[l].netfn[n].support) { ret = _get_command_support(intf, p, &(bmc->lun[l].netfn[n])); ret |= _get_command_configurable(intf, p, &(bmc->lun[l].netfn[n])); ret |= _get_command_enables(intf, p, &(bmc->lun[l].netfn[n])); } if (ret) bmc->lun[l].netfn[n].support = 0; } } p->netfn = -1; } else { for (l=0; l<4; l++) { p->lun = l; if (bmc->lun[l].support) { for (n=0; nnetfn = n*2; if (bmc->lun[l].netfn[n].support) { ret = _get_command_support(intf, p, &(bmc->lun[l].netfn[n])); ret |= _get_command_configurable(intf, p, &(bmc->lun[l].netfn[n])); ret |= _get_command_enables(intf, p, &(bmc->lun[l].netfn[n])); } if (ret) bmc->lun[l].netfn[n].support = 0; } } } p->lun = -1; p->netfn = -1; } return 0; } /* ipmi_firewall_info - print out info for firewall functions * * @intf: ipmi inteface * @argc: argument count * @argv: argument list * * returns 0 on success * returns -1 on error */ static int ipmi_firewall_info(struct ipmi_intf * intf, int argc, char ** argv) { int ret = 0; struct ipmi_function_params p = {0xe, -1, -1, -1, -1, 0}; struct bmc_fn_support * bmc_fn_support; unsigned int l, n, c; if ((argc > 0 && strncmp(argv[0], "help", 4) == 0) || ipmi_firewall_parse_args(argc, argv, &p) < 0) { printf_firewall_info_usage(); return 0; } bmc_fn_support = malloc(sizeof(struct bmc_fn_support)); if (!bmc_fn_support) { lprintf(LOG_ERR, "malloc struct bmc_fn_support failed"); return -1; } ret = _gather_info(intf, &p, bmc_fn_support); if (p.command >= 0) { struct command_support * cmd; if (!((p.lun < 0 || bmc_fn_support->lun[p.lun].support) && (p.netfn < 0 || bmc_fn_support->lun[p.lun].netfn[p.netfn>>1].support) && bmc_fn_support->lun[p.lun].netfn[p.netfn>>1].command[p.command].support)) { lprintf(LOG_ERR, "Command 0x%02x not supported on LUN/NetFn pair %02x,%02x", p.command, p.lun, p.netfn); free(bmc_fn_support); bmc_fn_support = NULL; return 0; } cmd = &bmc_fn_support->lun[p.lun].netfn[p.netfn>>1].command[p.command]; c = cmd->support; printf("(A)vailable, (C)onfigurable, (E)nabled: | A | C | E |\n"); printf("-----------------------------------------------------\n"); printf("LUN %01d, NetFn 0x%02x, Command 0x%02x: | %c | %c | %c |\n", p.lun, p.netfn, p.command, (c & BIT_AVAILABLE) ? 'X' : ' ', (c & BIT_CONFIGURABLE) ? 'X' : ' ', (c & BIT_ENABLED) ? 'X': ' '); for (n=0; nsubfn_support, n)) ? 'X' : ' ', (bit_test(cmd->subfn_config, n)) ? 'X' : ' ', (bit_test(cmd->subfn_enable, n)) ? 'X' : ' '); } } else if (p.netfn >= 0) { if (!((p.lun < 0 || bmc_fn_support->lun[p.lun].support) && (bmc_fn_support->lun[p.lun].netfn[p.netfn>>1].support))) { lprintf(LOG_ERR, "LUN or LUN/NetFn pair %02x,%02x not supported", p.lun, p.netfn); free(bmc_fn_support); bmc_fn_support = NULL; return 0; } n = p.netfn >> 1; l = p.lun; printf("Commands on LUN 0x%02x, NetFn 0x%02x\n", p.lun, p.netfn); printf("support: "); print_bitfield(bmc_fn_support->lun[l].netfn[n].command_mask, MAX_COMMAND_BYTES, 1, -1); printf("configurable: "); print_bitfield(bmc_fn_support->lun[l].netfn[n].config_mask, MAX_COMMAND_BYTES, 0, -1); printf("enabled: "); print_bitfield(bmc_fn_support->lun[l].netfn[n].enable_mask, MAX_COMMAND_BYTES, 0, -1); } else { for (l=0; l<4; l++) { p.lun = l; if (bmc_fn_support->lun[l].support) { for (n=0; nlun[l].netfn[n].support) { printf("%02x,%02x support: ", p.lun, p.netfn); print_bitfield(bmc_fn_support->lun[l].netfn[n].command_mask, MAX_COMMAND_BYTES, 1, -1); printf("%02x,%02x configurable: ", p.lun, p.netfn); print_bitfield(bmc_fn_support->lun[l].netfn[n].config_mask, MAX_COMMAND_BYTES, 0, -1); printf("%02x,%02x enabled: ", p.lun, p.netfn); print_bitfield(bmc_fn_support->lun[l].netfn[n].enable_mask, MAX_COMMAND_BYTES, 0, -1); } } } } p.lun = -1; p.netfn = -1; } free(bmc_fn_support); bmc_fn_support = NULL; return ret; } /* ipmi_firewall_enable_disable - enable/disable BMC functions * * @intf: ipmi inteface * @enable: whether to enable or disable * @argc: argument count * @argv: argument list * * returns 0 on success * returns -1 on error */ static int ipmi_firewall_enable_disable(struct ipmi_intf * intf, int enable, int argc, char ** argv) { struct ipmi_function_params p = {0xe, -1, -1, -1, -1, 0}; struct bmc_fn_support * bmc_fn_support; int ret; unsigned int l, n, c; unsigned char enables[MAX_COMMAND_BYTES]; if (argc < 1 || strncmp(argv[0], "help", 4) == 0) { char * s1 = enable?"en":"dis"; char * s2 = enable?"":" [force]"; printf("%sable [channel H] lun L netfn N%s\n", s1, s2); printf("\t%sable all commands on this LUN/NetFn pair\n", s1); printf("%sable [channel H] lun L netfn N command C%s\n", s1, s2); printf("\t%sable Command C and all its Sub-functions for this LUN/NetFn pair\n", s1); printf("%sable [channel H] lun L netfn N command C subfn S\n", s1); printf("\t%sable Sub-function S for Command C for this LUN/NetFn pair\n", s1); if (!enable) { printf("* force will allow you to disable the \"Command Set Enable\" command\n"); printf("\tthereby letting you shoot yourself in the foot\n"); printf("\tthis is only recommended for advanced users\n"); } return 0; } if (ipmi_firewall_parse_args(argc, argv, &p) < 0) return -1; bmc_fn_support = malloc(sizeof(struct bmc_fn_support)); if (!bmc_fn_support) { lprintf(LOG_ERR, "malloc struct bmc_fn_support failed"); return -1; } ret = _gather_info(intf, &p, bmc_fn_support); if (ret < 0) { free(bmc_fn_support); bmc_fn_support = NULL; return ret; } l = p.lun; n = p.netfn>>1; c = p.command; if (p.subfn >= 0) { // firewall (en|dis)able [channel c] lun l netfn n command m subfn s // (en|dis)able this sub-function for this commnad on this lun/netfn pair memcpy(enables, bmc_fn_support->lun[l].netfn[n].command[c].subfn_enable, MAX_SUBFN_BYTES); bit_set(enables, p.subfn, enable); ret = _set_subfn_enables(intf, &p, &bmc_fn_support->lun[l].netfn[n].command[c], enables); } else if (p.command >= 0) { // firewall (en|dis)able [channel c] lun l netfn n command m // (en|dis)able all subfn and command for this commnad on this lun/netfn pair memset(enables, enable?0xff:0, MAX_SUBFN_BYTES); ret = _set_subfn_enables(intf, &p, &bmc_fn_support->lun[l].netfn[n].command[c], enables); memcpy(enables, &bmc_fn_support->lun[l].netfn[n].enable_mask, sizeof(enables)); bit_set(enables, p.command, enable); ret |= _set_command_enables(intf, &p, &bmc_fn_support->lun[l].netfn[n], enables, p.force); } else if (p.netfn >= 0) { // firewall (en|dis)able [channel c] lun l netfn n // (en|dis)able all commnads on this lun/netfn pair memset(enables, enable?0xff:0, sizeof(enables)); ret = _set_command_enables(intf, &p, &bmc_fn_support->lun[l].netfn[n], enables, p.force); /* } else if (p.lun >= 0) { // firewall (en|dis)able [channel c] lun l // (en|dis)able all commnads on all netfn pairs for this lun */ } free(bmc_fn_support); bmc_fn_support = NULL; return ret; } /* ipmi_firewall_reset - reset firmware firewall to enable everything * * @intf: ipmi inteface * @argc: argument count * @argv: argument list * * returns 0 on success * returns -1 on error */ static int ipmi_firewall_reset(struct ipmi_intf * intf, int argc, char ** argv) { struct ipmi_function_params p = {0xe, -1, -1, -1, -1, 0}; struct bmc_fn_support * bmc_fn_support; int ret; unsigned int l, n, c; unsigned char enables[MAX_COMMAND_BYTES]; if (argc < 1) { lprintf(LOG_ERR, "Not enough parameters given."); printf_firewall_usage(); return (-1); } else if (argc > 0 && strncmp(argv[0], "help", 4) == 0) { printf_firewall_usage(); return 0; } if (ipmi_firewall_parse_args(argc, argv, &p) < 0) return -1; bmc_fn_support = malloc(sizeof(struct bmc_fn_support)); if (!bmc_fn_support) { lprintf(LOG_ERR, "malloc struct bmc_fn_support failed"); return -1; } ret = _gather_info(intf, &p, bmc_fn_support); if (ret < 0) { free(bmc_fn_support); bmc_fn_support = NULL; return ret; } for (l=0; llun[l].netfn[n].command[c], enables); } printf("reset lun %d, netfn %d, command\n", l, n); memset(enables, 0xff, sizeof(enables)); ret = _set_command_enables(intf, &p, &bmc_fn_support->lun[l].netfn[n], enables, 0); } } free(bmc_fn_support); bmc_fn_support = NULL; return ret; } /* ipmi_firewall_main - top-level handler for firmware firewall functions * * @intf: ipmi interface * @argc: number of arguments * @argv: argument list * * returns 0 on success * returns -1 on error */ int ipmi_firewall_main(struct ipmi_intf * intf, int argc, char ** argv) { int rc = 0; if (argc < 1 || strncmp(argv[0], "help", 4) == 0) { printf_firewall_usage(); } else if (strncmp(argv[0], "info", 4) == 0) { rc = ipmi_firewall_info(intf, argc-1, &(argv[1])); } else if (strncmp(argv[0], "enable", 6) == 0) { rc = ipmi_firewall_enable_disable(intf, 1, argc-1, &(argv[1])); } else if (strncmp(argv[0], "disable", 7) == 0) { rc = ipmi_firewall_enable_disable(intf, 0, argc-1, &(argv[1])); } else if (strncmp(argv[0], "reset", 5) == 0) { rc = ipmi_firewall_reset(intf, argc-1, &(argv[1])); } else { printf_firewall_usage(); } return rc; }