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|
/*
* Copyright (c) 2016 Pentair Technical Products. All right 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 Pentair Technical Products 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 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
* PENTAIR TECHNICAL SOLUTIONS 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.
*/
#include <ipmitool/helper.h>
#include <ipmitool/ipmi_cc.h>
#include <ipmitool/ipmi_cfgp.h>
#include <ipmitool/ipmi_lanp.h>
#include <ipmitool/ipmi_lanp6.h>
#include <ipmitool/log.h>
#include <errno.h>
#include <stdio.h>
#include <string.h>
#include <arpa/inet.h>
/*
* LAN6 command values.
*/
enum {
LANP_CMD_SAVE,
LANP_CMD_SET,
LANP_CMD_PRINT,
LANP_CMD_LOCK,
LANP_CMD_COMMIT,
LANP_CMD_DISCARD,
LANP_CMD_HELP,
LANP_CMD_ANY = 0xFF
};
/*
* Generic LAN configuration parameters.
*/
const struct ipmi_lanp generic_lanp6[] = {
{ 0, "Set In Progress", 1 },
{ 50, "IPv6/IPv4 Support", 1 },
{ 51, "IPv6/IPv4 Addressing Enables", 1 },
{ 52, "IPv6 Header Traffic Class", 1 },
{ 53, "IPv6 Header Static Hop Limit", 1 },
{ 54, "IPv6 Header Flow Label", 3 },
{ 55, "IPv6 Status", 3 },
{ 56, "IPv6 Static Address", 20 },
{ 57, "IPv6 DHCPv6 Static DUID Storage Length", 1 },
{ 58, "IPv6 DHCPv6 Static DUID", 18 },
{ 59, "IPv6 Dynamic Address", 20 },
{ 60, "IPv6 DHCPv6 Dynamic DUID Storage Length", 1 },
{ 61, "IPv6 DHCPv6 Dynamic DUID", 18 },
{ 62, "IPv6 DHCPv6 Timing Configuration Support", 1 },
{ 63, "IPv6 DHCPv6 Timing Configuration", 18 },
{ 64, "IPv6 Router Address Configuration Control", 1 },
{ 65, "IPv6 Static Router 1 IP Address", 16 },
{ 66, "IPv6 Static Router 1 MAC Address", 6 },
{ 67, "IPv6 Static Router 1 Prefix Length", 1 },
{ 68, "IPv6 Static Router 1 Prefix Value", 16 },
{ 69, "IPv6 Static Router 2 IP Address", 16 },
{ 70, "IPv6 Static Router 2 MAC Address", 6 },
{ 71, "IPv6 Static Router 2 Prefix Length", 1 },
{ 72, "IPv6 Static Router 2 Prefix Value", 16 },
{ 73, "IPv6 Number of Dynamic Router Info Sets", 1 },
{ 74, "IPv6 Dynamic Router Info IP Address", 17 },
{ 75, "IPv6 Dynamic Router Info MAC Address", 7 },
{ 76, "IPv6 Dynamic Router Info Prefix Length", 2 },
{ 77, "IPv6 Dynamic Router Info Prefix Value", 17 },
{ 78, "IPv6 Dynamic Router Received Hop Limit", 1 },
{ 79, "IPv6 ND/SLAAC Timing Configuration Support", 1 },
{ 80, "IPv6 ND/SLAAC Timing Configuration", 18 },
{ 0, NULL, 0 }
};
/*
* Set/Get LAN Configuration Parameters
* command-specific completion codes.
*/
const struct valstr lanp_cc_vals[] = {
{ 0x80, "Parameter not supported" },
{ 0x81, "Set already in progress" },
{ 0x82, "Parameter is read-only" },
{ 0x83, "Write-only parameter" },
{ 0x00, NULL }
};
/*
* IPv6/IPv4 Addressing Enables.
*/
const struct valstr ip6_enable_vals[] = {
{ 0, "ipv4" },
{ 1, "ipv6" },
{ 2, "both" },
{ 0xFF, NULL }
};
/*
* Enable/Disable a static address.
*/
const struct valstr ip6_addr_enable_vals[] = {
{ 0x00, "disable" },
{ 0x80, "enable" },
{ 0xFF, NULL }
};
/*
* IPv6 address source values.
*/
const struct valstr ip6_addr_sources[] = {
{ 0, "static" },
{ 1, "SLAAC" },
{ 2, "DHCPv6" },
{ 0, NULL }
};
/*
* IPv6 address status values.
*/
const struct valstr ip6_addr_statuses[] = {
{ 0, "active" },
{ 1, "disabled" },
{ 2, "pending" },
{ 3, "failed" },
{ 4, "deprecated" },
{ 5, "invalid" },
{ 0xFF, NULL }
};
/*
* DHCPv6 DUID type values.
*/
const struct valstr ip6_duid_types[] = {
{ 0, "unknown" },
{ 1, "DUID-LLT" },
{ 2, "DUID-EN" },
{ 3, "DUID-LL" },
{ 0xFF, NULL }
};
/*
* Timing Configuration support values.
*/
const struct valstr ip6_cfg_sup_vals[] = {
{ 0, "not supported" },
{ 1, "global" },
{ 2, "per interface" },
{ 0xFF, NULL }
};
/*
* Router Address Configuration Control values.
*/
const struct valstr ip6_rtr_configs[] = {
{ 1, "static" },
{ 2, "dynamic" },
{ 3, "both" },
{ 0xFF, NULL }
};
const struct valstr ip6_command_vals[] = {
{ LANP_CMD_SET, "set" },
{ LANP_CMD_SAVE, "save" },
{ LANP_CMD_PRINT, "print" },
{ LANP_CMD_LOCK, "lock" },
{ LANP_CMD_COMMIT, "commit" },
{ LANP_CMD_DISCARD, "discard" },
{ LANP_CMD_HELP, "help" },
{ LANP_CMD_ANY, NULL }
};
static const struct ipmi_cfgp lan_cfgp[] = {
{ .name = "support", .format = NULL, .size = 1,
.access = CFGP_RDONLY,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_SUPPORT
},
{ .name = "enables", .format = "{ipv4|ipv6|both}", .size = 1,
.access = CFGP_RDWR,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_ENABLES
},
{ .name = "traffic_class", .format = "<value>", .size = 1,
.access = CFGP_RDWR,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_TRAFFIC_CLASS
},
{ .name = "static_hops", .format = "<value>", .size = 1,
.access = CFGP_RDWR,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_STATIC_HOPS
},
{ .name = "flow_label", .format = "<value>", .size = 3,
.access = CFGP_RDWR,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_FLOW_LABEL
},
{ .name = "status", .format = NULL, .size = 3,
.access = CFGP_RDONLY,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_STATUS
},
{ .name = "static_addr",
.format = "{enable|disable} <addr> <pfx_len>", .size = 20,
.access = CFGP_RDWR,
.is_set = 1, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_STATIC_ADDR
},
{ .name = "static_duid_stg", .format = NULL, .size = 1,
.access = CFGP_RDONLY,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_STATIC_DUID_STG
},
{ .name = "static_duid", .format = "<data>", .size = 18,
.access = CFGP_RDWR,
.is_set = 1, .first_set = 0, .has_blocks = 1, .first_block = 0,
.specific = IPMI_LANP_IP6_STATIC_DUID
},
{ .name = "dynamic_addr", .format = NULL, .size = 20,
.access = CFGP_RDONLY,
.is_set = 1, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_DYNAMIC_ADDR
},
{ .name = "dynamic_duid_stg", .format = NULL, .size = 1,
.access = CFGP_RDONLY,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_DYNAMIC_DUID_STG
},
{ .name = "dynamic_duid", .format = "<data>", .size = 18,
.access = CFGP_RDWR,
.is_set = 1, .first_set = 0, .has_blocks = 1, .first_block = 0,
.specific = IPMI_LANP_IP6_DYNAMIC_DUID
},
{ .name = "dhcp6_cfg_sup", .format = NULL, .size = 1,
.access = CFGP_RDONLY,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_DHCP6_CFG_SUP
},
{ .name = "dhcp6_cfg", .format = "<data> <data>", .size = 36,
.access = CFGP_RDWR,
.is_set = 1, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_DHCP6_CFG
},
{ .name = "rtr_cfg", .format = "{static|dynamic|both}", .size = 1,
.access = CFGP_RDWR,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_ROUTER_CFG
},
{ .name = "static_rtr",
.format = "<addr> <macaddr> <prefix> <prefix_len>", .size = 43,
.access = CFGP_RDWR,
.is_set = 1, .first_set = 1, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_STATIC_RTR1_ADDR
},
{ .name = "num_dynamic_rtrs", .format = NULL, .size = 1,
.access = CFGP_RDONLY,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_NUM_DYNAMIC_RTRS
},
{ .name = "dynamic_rtr", .format = NULL, .size = 43,
.access = CFGP_RDONLY,
.is_set = 1, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_DYNAMIC_RTR_ADDR
},
{ .name = "dynamic_hops", .format = NULL, .size = 1,
.access = CFGP_RDONLY,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_DYNAMIC_HOPS
},
{ .name = "ndslaac_cfg_sup", .format = NULL, .size = 1,
.access = CFGP_RDONLY,
.is_set = 0, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_NDSLAAC_CFG_SUP
},
{ .name = "ndslaac_cfg", .format = "<data>", .size = 18,
.access = CFGP_RDWR,
.is_set = 1, .first_set = 0, .has_blocks = 0, .first_block = 0,
.specific = IPMI_LANP_IP6_NDSLAAC_CFG
}
};
/*
* Lookup LAN parameter descriptor by parameter selector.
*/
const struct ipmi_lanp *
lookup_lanp(int param)
{
const struct ipmi_lanp *p = generic_lanp6;
while (p->name) {
if (p->selector == param) {
return p;
}
p++;
}
return NULL;
}
/*
* Print request error.
*/
static int
ipmi_lanp_err(const struct ipmi_rs *rsp, const struct ipmi_lanp *p,
const char *action, int quiet)
{
const char *reason;
char cc_msg[10];
int log_level = LOG_ERR;
int err;
if (rsp == NULL) {
reason = "No response";
err = -1;
} else {
err = rsp->ccode;
if (quiet == 1
&& (rsp->ccode == 0x80
|| rsp->ccode == IPMI_CC_PARAM_OUT_OF_RANGE
|| rsp->ccode == IPMI_CC_INV_DATA_FIELD_IN_REQ)) {
/* be quiet */
return err;
}
if (rsp->ccode >= 0xC0) {
/* browse for generic completion codes */
reason = val2str(rsp->ccode, completion_code_vals);
} else {
/* browse for command-specific completion codes first */
reason = val2str(rsp->ccode, lanp_cc_vals);
}
if (reason == NULL) {
/* print completion code value */
snprintf(cc_msg, sizeof(cc_msg), "CC=%02x", rsp->ccode);
reason = cc_msg;
}
if (rsp->ccode == IPMI_CC_OK) {
log_level = LOG_DEBUG;
}
}
lprintf(log_level, "Failed to %s %s: %s", action, p->name, reason);
return err;
}
/*
* Get dynamic OEM LAN configuration parameter from BMC.
* Dynamic in this context is when the base for OEM LAN parameters
* is not known apriori.
*/
int
ipmi_get_dynamic_oem_lanp(void *priv, const struct ipmi_lanp *param,
int oem_base, int set_selector, int block_selector,
void *data, int quiet)
{
struct ipmi_lanp_priv *lp = priv;
struct ipmi_rs *rsp;
struct ipmi_rq req;
uint8_t req_data[4];
int length;
if (!priv || !param || !data) {
return -1;
}
req_data[0] = lp->channel;
req_data[1] = param->selector + oem_base;
req_data[2] = set_selector;
req_data[3] = block_selector;
memset(&req, 0, sizeof(req));
req.msg.netfn = IPMI_NETFN_TRANSPORT;
req.msg.cmd = 2;
req.msg.data = req_data;
req.msg.data_len = 4;
lprintf(LOG_INFO, "Getting parameter '%s' set %d block %d",
param->name, set_selector, block_selector);
rsp = lp->intf->sendrecv(lp->intf, &req);
if (rsp == NULL || rsp->ccode) {
return ipmi_lanp_err(rsp, param, "get", quiet);
}
memset(data, 0, param->size);
if (rsp->data_len - 1 < param->size) {
length = rsp->data_len - 1;
} else {
length = param->size;
}
if (length) {
memcpy(data, rsp->data + 1, length);
}
return 0;
}
/*
* Get generic LAN configuration parameter.
*/
int
ipmi_get_lanp(void *priv, int param_selector, int set_selector,
int block_selector, void *data, int quiet)
{
return ipmi_get_dynamic_oem_lanp(priv, lookup_lanp(param_selector), 0,
set_selector, block_selector, data, quiet);
}
/*
* Set dynamic OEM LAN configuration parameter to BMC.
* Dynamic in this context is when the base for OEM LAN parameters
* is not known apriori.
*/
int
ipmi_set_dynamic_oem_lanp(void *priv, const struct ipmi_lanp *param,
int base, const void *data)
{
struct ipmi_lanp_priv *lp = priv;
struct ipmi_rs *rsp;
struct ipmi_rq req;
uint8_t req_data[32];
if (!priv || !param || !data) {
return -1;
}
/* fill the first two bytes */
req_data[0] = lp->channel;
req_data[1] = param->selector + base;
/* fill the rest data */
memcpy(&req_data[2], data, param->size);
/* fill request */
memset(&req, 0, sizeof(req));
req.msg.netfn = IPMI_NETFN_TRANSPORT;
req.msg.cmd = 1;
req.msg.data = req_data;
req.msg.data_len = param->size + 2;
lprintf(LOG_INFO, "Setting parameter '%s'", param->name);
rsp = lp->intf->sendrecv(lp->intf, &req);
if (rsp == NULL || rsp->ccode) {
return ipmi_lanp_err(rsp, param, "set", 0);
}
return 0;
}
/*
* Set generic LAN configuration parameter.
*/
int
ipmi_set_lanp(void *priv, int param_selector, const void *data)
{
return ipmi_set_dynamic_oem_lanp(priv, lookup_lanp(param_selector),
0, data);
}
static int
lanp_parse_cfgp(const struct ipmi_cfgp *p, int set, int block,
int argc, const char *argv[], unsigned char *data)
{
unsigned int v;
if (argc == 0) {
return -1;
}
switch(p->specific) {
case IPMI_LANP_IP6_ENABLES:
data[0] = str2val(argv[0], ip6_enable_vals);
if (data[0] == 0xFF) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
break;
case IPMI_LANP_IP6_FLOW_LABEL:
if (str2uint(argv[0], &v)) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
data[0] = (v >> 16) & 0x0F;
data[1] = (v >> 8) & 0xFF;
data[2] = v & 0xFF;
break;
case IPMI_LANP_IP6_STATUS:
if (argc < 3) {
return -1;
}
if (str2uchar(argv[0], &data[0])
|| str2uchar(argv[1], &data[1])
|| str2uchar(argv[2], &data[2])) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
break;
case IPMI_LANP_IP6_STATIC_ADDR:
case IPMI_LANP_IP6_DYNAMIC_ADDR:
if (argc < 3) {
return -1;
}
data[0] = set;
if (p->specific == IPMI_LANP_IP6_STATIC_ADDR) {
data[1] = str2val(argv[0], ip6_addr_enable_vals);
} else {
data[1] = str2val(argv[0], ip6_addr_sources);
}
if (data[1] == 0xFF) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
if (inet_pton(AF_INET6, argv[1], &data[2]) != 1) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
if (str2uchar(argv[2], &data[18])) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
if (argc >= 4) {
data[19] = str2val(argv[3], ip6_addr_statuses);
}
break;
case IPMI_LANP_IP6_STATIC_DUID:
case IPMI_LANP_IP6_DYNAMIC_DUID:
case IPMI_LANP_IP6_NDSLAAC_CFG:
data[0] = set;
data[1] = block;
if (ipmi_parse_hex(argv[0], &data[2], 16) < 0) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
break;
case IPMI_LANP_IP6_DHCP6_CFG:
data[0] = set;
data[1] = 0;
data[18] = set;
data[19] = 1;
if (ipmi_parse_hex(argv[0], &data[2], 16) < 0
|| (argc > 1 &&
ipmi_parse_hex(argv[1], &data[20], 6) < 0)) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
break;
case IPMI_LANP_IP6_ROUTER_CFG:
data[0] = str2val(argv[0], ip6_rtr_configs);
if (data[0] == 0xFF) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
break;
case IPMI_LANP_IP6_STATIC_RTR1_ADDR:
if (set > 2) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
case IPMI_LANP_IP6_DYNAMIC_RTR_ADDR:
if (argc < 4) {
return -1;
}
/*
* Data is stored in the following way:
* 0: <set> <addr1>...<addr16>
* 17: <set> <mac1>...<mac6>
* 24: <set> <pfxlen>
* 26: <set> <pfx1>...<pfx16>
*/
data[0] = data[17] = data[24] = data[26] = set;
if (inet_pton(AF_INET6, argv[0], &data[1]) != 1
|| str2mac(argv[1], &data[18])
|| inet_pton(AF_INET6, argv[2], &data[27]) != 1
|| str2uchar(argv[3], &data[25])) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
break;
default:
if (str2uchar(argv[0], &data[0])) {
lprintf(LOG_ERR, "invalid value");
return -1;
}
}
return 0;
}
static int
lanp_set_cfgp(void *priv, const struct ipmi_cfgp *p, const unsigned char *data)
{
int ret;
int param = p->specific;
int off = 0;
switch(param) {
case IPMI_LANP_IP6_DHCP6_CFG:
ret = ipmi_set_lanp(priv, param, &data[0]);
if (ret == 0) {
ret = ipmi_set_lanp(priv, param, &data[18]);
}
break;
case IPMI_LANP_IP6_STATIC_RTR1_ADDR:
if (data[0] == 2) {
param = IPMI_LANP_IP6_STATIC_RTR2_ADDR;
}
off = 1;
case IPMI_LANP_IP6_DYNAMIC_RTR_ADDR:
ret = ipmi_set_lanp(priv, param, &data[0 + off]);
if (ret == 0) {
ret = ipmi_set_lanp(priv, param + 1, &data[17 + off]);
}
if (ret == 0) {
ret = ipmi_set_lanp(priv, param + 2, &data[24 + off]);
}
if (ret == 0) {
ret = ipmi_set_lanp(priv, param + 3, &data[26 + off]);
}
break;
default:
ret = ipmi_set_lanp(priv, param, data);
}
return ret;
}
static int
lanp_get_cfgp(void *priv, const struct ipmi_cfgp *p,
int set, int block, unsigned char *data, int quiet)
{
int ret;
int param = p->specific;
int off = 0;
switch(param) {
case IPMI_LANP_IP6_DHCP6_CFG:
ret = ipmi_get_lanp(priv, param, set, 0, &data[0], quiet);
if (ret == 0) {
ret = ipmi_get_lanp(priv, param, set,
1, &data[18], quiet);
}
break;
case IPMI_LANP_IP6_STATIC_RTR1_ADDR:
if (set > 2) {
return -1;
}
if (set == 2) {
param = IPMI_LANP_IP6_STATIC_RTR2_ADDR;
}
set = 0;
off = 1;
data[0] = data[17] = data[24] = data[26] = set;
case IPMI_LANP_IP6_DYNAMIC_RTR_ADDR:
ret = ipmi_get_lanp(priv, param, set, block,
&data[0 + off], quiet);
if (ret == 0) {
ret = ipmi_get_lanp(priv, param + 1, set, block,
&data[17 + off], 0);
}
if (ret == 0) {
ret = ipmi_get_lanp(priv, param + 2, set, block,
&data[24 + off], 0);
}
if (ret == 0) {
ret = ipmi_get_lanp(priv, param + 3, set, block,
&data[26 + off], 0);
}
break;
default:
ret = ipmi_get_lanp(priv, param, set, block, data, quiet);
}
return ret;
}
static int
lanp_save_cfgp(const struct ipmi_cfgp *p, const unsigned char *data, FILE *file)
{
char addr[INET6_ADDRSTRLEN];
char pfx[INET6_ADDRSTRLEN];
const char *src;
switch(p->specific) {
case IPMI_LANP_IP6_ENABLES:
fputs(val2str(data[0], ip6_enable_vals), file);
break;
case IPMI_LANP_IP6_FLOW_LABEL:
fprintf(file, "0x%xd", (data[0] << 16 ) | (data[1] << 8) | data[2]);
break;
case IPMI_LANP_IP6_STATUS:
fprintf(file, "%d %d %d", data[0], data[1], data[2]);
break;
case IPMI_LANP_IP6_STATIC_ADDR:
case IPMI_LANP_IP6_DYNAMIC_ADDR:
if (p->specific == IPMI_LANP_IP6_STATIC_ADDR) {
src = val2str(data[1], ip6_addr_enable_vals);
} else {
src = val2str(data[1], ip6_addr_sources);
}
fprintf(file, "%s %s %d %s", src,
inet_ntop(AF_INET6, &data[2], addr, sizeof(addr)),
data[18], val2str(data[19], ip6_addr_statuses));
break;
case IPMI_LANP_IP6_STATIC_DUID:
case IPMI_LANP_IP6_DYNAMIC_DUID:
case IPMI_LANP_IP6_NDSLAAC_CFG:
fprintf(file, "%s", buf2str(&data[2], 16));
break;
case IPMI_LANP_IP6_DHCP6_CFG:
fprintf(file, "%s", buf2str(&data[2], 16));
fprintf(file, " %s", buf2str(&data[20], 6));
break;
case IPMI_LANP_IP6_ROUTER_CFG:
fputs(val2str(data[0], ip6_rtr_configs), file);
break;
case IPMI_LANP_IP6_STATIC_RTR1_ADDR:
case IPMI_LANP_IP6_DYNAMIC_RTR_ADDR:
fprintf(file, "%s %s %s %d",
inet_ntop(AF_INET6, &data[1], addr, sizeof(addr)),
mac2str(&data[18]),
inet_ntop(AF_INET6, &data[27], pfx, sizeof(pfx)), data[25]);
break;
default:
fprintf(file, "%d", data[0]);
}
return 0;
}
static int
lanp_print_cfgp(const struct ipmi_cfgp *p,
int set, int block, const unsigned char *data, FILE *file)
{
char addr[INET6_ADDRSTRLEN];
char pfx[INET6_ADDRSTRLEN];
const char *pname;
const struct ipmi_lanp *lanp = lookup_lanp(p->specific);
if (!lanp || !p || !file || !data || !lanp->name) {
return -1;
}
pname = lanp->name;
switch(p->specific) {
case IPMI_LANP_IP6_SUPPORT:
fprintf(file, "%s:\n"
" IPv6 only: %s\n"
" IPv4 and IPv6: %s\n"
" IPv6 Destination Addresses for LAN alerting: %s\n",
pname,
data[0] & 1 ? "yes" : "no",
data[0] & 2 ? "yes" : "no",
data[0] & 4 ? "yes" : "no");
break;
case IPMI_LANP_IP6_ENABLES:
fprintf(file, "%s: %s\n",
pname, val2str(data[0], ip6_enable_vals));
break;
case IPMI_LANP_IP6_FLOW_LABEL:
fprintf(file, "%s: %d\n",
pname, (data[0] << 16 ) | (data[1] << 8) | data[2]);
break;
case IPMI_LANP_IP6_STATUS:
fprintf(file, "%s:\n"
" Static address max: %d\n"
" Dynamic address max: %d\n"
" DHCPv6 support: %s\n"
" SLAAC support: %s\n",
pname,
data[0], data[1],
(data[2] & 1) ? "yes" : "no",
(data[2] & 2) ? "yes" : "no");
break;
case IPMI_LANP_IP6_STATIC_ADDR:
fprintf(file, "%s %d:\n"
" Enabled: %s\n"
" Address: %s/%d\n"
" Status: %s\n",
pname, set,
(data[1] & 0x80) ? "yes" : "no",
inet_ntop(AF_INET6, &data[2], addr, sizeof(addr)),
data[18], val2str(data[19] & 0xF, ip6_addr_statuses));
break;
case IPMI_LANP_IP6_DYNAMIC_ADDR:
fprintf(file, "%s %d:\n"
" Source/Type: %s\n"
" Address: %s/%d\n"
" Status: %s\n",
pname, set,
val2str(data[1] & 0xF, ip6_addr_sources),
inet_ntop(AF_INET6, &data[2], addr, sizeof(addr)),
data[18], val2str(data[19] & 0xF, ip6_addr_statuses));
break;
case IPMI_LANP_IP6_STATIC_DUID:
case IPMI_LANP_IP6_DYNAMIC_DUID:
if (block == 0) {
fprintf(file, "%s %d:\n"
" Length: %d\n"
" Type: %s\n",
pname, set, data[2],
val2str((data[3] << 8) + data[4], ip6_duid_types));
}
fprintf(file, " %s\n", buf2str(&data[2], 16));
break;
case IPMI_LANP_IP6_DHCP6_CFG_SUP:
case IPMI_LANP_IP6_NDSLAAC_CFG_SUP:
fprintf(file, "%s: %s\n",
pname, val2str(data[0], ip6_cfg_sup_vals));
break;
case IPMI_LANP_IP6_DHCP6_CFG:
fprintf(file, "%s %d:\n", pname, set);
fprintf(file,
" SOL_MAX_DELAY: %d\n"
" SOL_TIMEOUT: %d\n"
" SOL_MAX_RT: %d\n"
" REQ_TIMEOUT: %d\n"
" REQ_MAX_RT: %d\n"
" REQ_MAX_RC: %d\n"
" CNF_MAX_DELAY: %d\n"
" CNF_TIMEOUT: %d\n"
" CNF_MAX_RT: %d\n"
" CNF_MAX_RD: %d\n"
" REN_TIMEOUT: %d\n"
" REN_MAX_RT: %d\n"
" REB_TIMEOUT: %d\n"
" REB_MAX_RT: %d\n"
" INF_MAX_DELAY: %d\n"
" INF_TIMEOUT: %d\n"
" INF_MAX_RT: %d\n"
" REL_TIMEOUT: %d\n"
" REL_MAX_RC: %d\n"
" DEC_TIMEOUT: %d\n"
" DEC_MAX_RC: %d\n"
" HOP_COUNT_LIMIT: %d\n",
data[2], data[3], data[4], data[5],
data[6], data[7], data[8], data[9],
data[10], data[11], data[12], data[13],
data[14], data[15], data[16], data[17],
data[20], data[21], data[22], data[23],
data[24], data[25]);
break;
case IPMI_LANP_IP6_ROUTER_CFG:
fprintf(file, "%s:\n"
" Enable static router address: %s\n"
" Enable dynamic router address: %s\n",
pname,
(data[0] & 1) ? "yes" : "no",
(data[0] & 2) ? "yes" : "no");
break;
case IPMI_LANP_IP6_STATIC_RTR1_ADDR:
case IPMI_LANP_IP6_DYNAMIC_RTR_ADDR:
if (p->specific == IPMI_LANP_IP6_STATIC_RTR1_ADDR) {
pname = "IPv6 Static Router";
} else {
pname = "IPv6 Dynamic Router";
}
fprintf(file, "%s %d:\n"
" Address: %s\n"
" MAC: %s\n"
" Prefix: %s/%d\n",
pname, set,
inet_ntop(AF_INET6, &data[1], addr, sizeof(addr)),
mac2str(&data[18]),
inet_ntop(AF_INET6, &data[27], pfx, sizeof(pfx)), data[25]);
break;
case IPMI_LANP_IP6_NDSLAAC_CFG:
fprintf(file, "%s %d:\n"
" MAX_RTR_SOLICITATION_DELAY: %d\n"
" RTR_SOLICITATION_INTERVAL: %d\n"
" MAX_RTR_SOLICITATIONS: %d\n"
" DupAddrDetectTransmits: %d\n"
" MAX_MULTICAST_SOLICIT: %d\n"
" MAX_UNICAST_SOLICIT: %d\n"
" MAX_ANYCAST_DELAY_TIME: %d\n"
" MAX_NEIGHBOR_ADVERTISEMENT: %d\n"
" REACHABLE_TIME: %d\n"
" RETRANS_TIMER: %d\n"
" DELAY_FIRST_PROBE_TIME: %d\n"
" MAX_RANDOM_FACTOR: %d\n"
" MIN_RANDOM_FACTOR: %d\n",
pname, set,
data[2], data[3], data[4], data[5],
data[6], data[7], data[8], data[9],
data[10], data[11], data[12], data[13],
data[14]);
break;
default:
fprintf(file, "%s: %d\n", pname, data[0]);
}
return 0;
}
static int
lanp_ip6_cfgp(void *priv, const struct ipmi_cfgp *p,
const struct ipmi_cfgp_action *action, unsigned char *data)
{
switch (action->type) {
case CFGP_PARSE:
return lanp_parse_cfgp(p, action->set, action->block,
action->argc, action->argv, data);
case CFGP_GET:
return lanp_get_cfgp(priv, p, action->set, action->block,
data, action->quiet);
case CFGP_SET:
return lanp_set_cfgp(priv, p, data);
case CFGP_SAVE:
return lanp_save_cfgp(p, data, action->file);
case CFGP_PRINT:
return lanp_print_cfgp(p, action->set, action->block,
data, action->file);
default:
return -1;
}
return 0;
}
static void lanp_print_usage(int cmd)
{
if (cmd == LANP_CMD_ANY || cmd == LANP_CMD_HELP) {
printf(" help [command]\n");
}
if (cmd == LANP_CMD_ANY || cmd == LANP_CMD_SAVE) {
printf(" save <channel> [<parameter> [<set_sel> [<block_sel>]]]\n");
}
if (cmd == LANP_CMD_ANY || cmd == LANP_CMD_SET) {
printf(" set <channel> [nolock] <parameter> [<set_sel> [<block_sel>]] <values...>\n");
}
if (cmd == LANP_CMD_ANY || cmd == LANP_CMD_PRINT) {
printf(" print <channel> [<parameter> [<set_sel> [<block_sel>]]]\n");
}
if (cmd == LANP_CMD_ANY || cmd == LANP_CMD_LOCK) {
printf(" lock <channel>\n");
}
if (cmd == LANP_CMD_ANY || cmd == LANP_CMD_COMMIT) {
printf(" commit <channel>\n");
}
if (cmd == LANP_CMD_ANY || cmd == LANP_CMD_DISCARD) {
printf(" discard <channel>\n");
}
if (cmd == LANP_CMD_SAVE
|| cmd == LANP_CMD_PRINT
|| cmd == LANP_CMD_SET) {
printf("\n available parameters:\n");
/* 'save' shall use 'write' filter, since it outputs a block
* of 'set's */
ipmi_cfgp_usage(lan_cfgp,
sizeof(lan_cfgp)/sizeof(lan_cfgp[0]),
cmd != LANP_CMD_PRINT);
}
}
static int
lanp_lock(struct ipmi_lanp_priv *lp)
{
unsigned char byte = 1;
return ipmi_set_lanp(lp, 0, &byte);
}
static int
lanp_discard(struct ipmi_lanp_priv *lp)
{
unsigned char byte = 0;
return ipmi_set_lanp(lp, 0, &byte);
}
static int
lanp_commit(struct ipmi_lanp_priv *lp)
{
unsigned char byte = 2;
int ret;
ret = ipmi_set_lanp(lp, 0, &byte);
if (ret == 0) {
ret = lanp_discard(lp);
}
return ret;
}
int
ipmi_lan6_main(struct ipmi_intf *intf, int argc, char **argv)
{
struct ipmi_cfgp_ctx ctx;
struct ipmi_cfgp_sel sel;
struct ipmi_lanp_priv lp;
int cmd;
int chan;
int nolock = 0;
int ret;
if (argc == 0) {
lanp_print_usage(LANP_CMD_ANY);
return 0;
}
cmd = str2val(argv[0], ip6_command_vals);
if (cmd == LANP_CMD_ANY) {
lanp_print_usage(cmd);
return -1;
}
if (cmd == LANP_CMD_HELP) {
if (argc == 1) {
cmd = LANP_CMD_ANY;
} else {
cmd = str2val(argv[1], ip6_command_vals);
}
lanp_print_usage(cmd);
return 0;
}
/*
* the rest commands expect channel number
* with the exception of 'get' and 'print'
*/
if (argc == 1) {
if (cmd == LANP_CMD_SAVE || cmd == LANP_CMD_PRINT) {
chan = find_lan_channel(intf, 1);
if (chan == 0) {
lprintf(LOG_ERR, "No LAN channel found");
return -1;
}
} else {
lanp_print_usage(cmd);
return -1;
}
argc -= 1;
argv += 1;
} else {
if (str2int(argv[1], &chan) != 0) {
lprintf(LOG_ERR, "Invalid channel: %s", argv[1]);
return -1;
}
argc -= 2;
argv += 2;
if (cmd == LANP_CMD_SET) {
if (argc && !strcasecmp(argv[0], "nolock")) {
nolock = 1;
argc -= 1;
argv += 1;
}
}
}
lp.intf = intf;
lp.channel = chan;
/*
* lock/commit/discard commands do not require parsing
* of parameter selection
*/
switch (cmd) {
case LANP_CMD_LOCK:
lprintf(LOG_NOTICE, "Lock parameter(s)...");
return lanp_lock(&lp);
case LANP_CMD_COMMIT:
lprintf(LOG_NOTICE, "Commit parameter(s)...");
return lanp_commit(&lp);
case LANP_CMD_DISCARD:
lprintf(LOG_NOTICE, "Discard parameter(s)...");
return lanp_discard(&lp);
}
/*
* initialize configuration context and parse parameter selection
*/
ipmi_cfgp_init(&ctx, lan_cfgp,
sizeof(lan_cfgp)/sizeof(lan_cfgp[0]), "lan6 set nolock",
lanp_ip6_cfgp, &lp);
ret = ipmi_cfgp_parse_sel(&ctx, argc, (const char **)argv, &sel);
if (ret == -1) {
lanp_print_usage(cmd);
ipmi_cfgp_uninit(&ctx);
return -1;
}
argc -= ret;
argv += ret;
/*
* handle the rest commands
*/
switch (cmd) {
case LANP_CMD_SAVE:
case LANP_CMD_PRINT:
lprintf(LOG_NOTICE, "Getting parameter(s)...");
ret = ipmi_cfgp_get(&ctx, &sel);
if (ret != 0) {
break;
}
if (cmd == LANP_CMD_SAVE) {
static char cmd[20];
FILE *out = stdout;
snprintf(cmd, sizeof(cmd) - 1, "lan6 set %d nolock",
lp.channel);
cmd[sizeof(cmd) - 1] = '\0';
ctx.cmdname = cmd;
fprintf(out, "lan6 lock %d\n", lp.channel);
ret = ipmi_cfgp_save(&ctx, &sel, out);
fprintf(out, "lan6 commit %d\nlan6 discard %d\nexit\n",
lp.channel, lp.channel);
} else {
ret = ipmi_cfgp_print(&ctx, &sel, stdout);
}
break;
case LANP_CMD_SET:
ret = ipmi_cfgp_parse_data(&ctx, &sel, argc,
(const char **)argv);
if (ret != 0) {
break;
}
lprintf(LOG_NOTICE, "Setting parameter(s)...");
if (!nolock) {
ret = lanp_lock(&lp);
if (ret != 0) {
break;
}
}
ret = ipmi_cfgp_set(&ctx, &sel);
if (!nolock) {
if (ret == 0) {
ret = lanp_commit(&lp);
} else {
lanp_discard(&lp);
}
}
break;
}
/*
* free allocated memory
*/
ipmi_cfgp_uninit(&ctx);
return ret;
}
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