OpenSolaris_b135/lib/libipmi/common/ipmi_lan.c
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2010 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
#include <inttypes.h>
#include <string.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <errno.h>
#include <unistd.h>
#include <netdb.h>
#include <fcntl.h>
#include "libipmi.h"
#include "ipmi_lan.h"
#include "ipmi_impl.h"
#define DEF_IPMI_LAN_TIMEOUT 3 /* seconds */
#define DEF_IPMI_LAN_NUM_RETRIES 5
#define IPMI_LAN_CHANNEL_E 0x0e
typedef struct ipmi_rs {
uint8_t ir_data[IPMI_BUF_SIZE];
int ir_dlen;
ipmi_msg_hdr_t ir_ihdr;
uint8_t ir_ccode;
} ipmi_rs_t;
static ipmi_rs_t *ipmi_lan_poll_recv(ipmi_handle_t *);
typedef struct ipmi_rq_entry {
ipmi_list_t ire_list;
ipmi_cmd_t ire_req;
uint8_t ire_target_cmd;
uint8_t ire_rq_seq;
uint8_t *ire_msg_data;
int ire_msg_len;
} ipmi_rq_entry_t;
ipmi_rq_entry_t *ipmi_req_entries = NULL;
/*
* LAN transport-specific data
*/
typedef struct ipmi_lan {
ipmi_handle_t *il_ihp;
char il_host[MAXHOSTNAMELEN + 1];
uint16_t il_port;
char il_user[17];
char il_authcode[IPMI_AUTHCODE_BUF_SIZE + 1];
uint8_t il_challenge[16];
uint32_t il_session_id;
int il_sd;
boolean_t il_send_authcode;
boolean_t il_session_active;
uint8_t il_authtype;
uint8_t il_privlvl;
uint8_t il_num_retries;
uint32_t il_in_seq;
uint32_t il_timeout;
struct sockaddr_in il_addr;
socklen_t il_addrlen;
} ipmi_lan_t;
/*
* Calculate and returns IPMI checksum
*
* Checksum algorithm is described in Section 13.8
*
* d: buffer to check
* s: position in buffer to start checksum from
*/
static uint8_t
ipmi_csum(uint8_t *d, int s)
{
uint8_t c = 0;
for (; s > 0; s--, d++)
c += *d;
return (-c);
}
static ipmi_rq_entry_t *
ipmi_req_add_entry(ipmi_handle_t *ihp, ipmi_cmd_t *req)
{
ipmi_rq_entry_t *e;
if ((e = ipmi_zalloc(ihp, sizeof (ipmi_rq_entry_t))) == NULL)
return (NULL);
(void) memcpy(&e->ire_req, req, sizeof (ipmi_cmd_t));
ipmi_list_append(&ipmi_req_entries->ire_list, e);
return (e);
}
/*ARGSUSED*/
static ipmi_rq_entry_t *
ipmi_req_lookup_entry(ipmi_handle_t *ihp, uint8_t seq, uint8_t cmd)
{
ipmi_rq_entry_t *e;
for (e = ipmi_list_next(&ipmi_req_entries->ire_list); e != NULL;
e = ipmi_list_next(e))
if (e->ire_rq_seq == seq && e->ire_req.ic_cmd == cmd)
return (e);
return (NULL);
}
static void
ipmi_req_remove_entry(ipmi_handle_t *ihp, uint8_t seq, uint8_t cmd)
{
ipmi_rq_entry_t *e;
e = ipmi_req_lookup_entry(ihp, seq, cmd);
if (e) {
ipmi_list_delete(&ipmi_req_entries->ire_list, e);
ipmi_free(ihp, e->ire_msg_data);
ipmi_free(ihp, e);
}
}
static void
ipmi_req_clear_entries(ipmi_handle_t *ihp)
{
ipmi_rq_entry_t *e;
while ((e = ipmi_list_next(&ipmi_req_entries->ire_list)) != NULL) {
ipmi_list_delete(&ipmi_req_entries->ire_list, e);
ipmi_free(ihp, e);
}
}
static int
get_random(void *buf, uint_t len)
{
int fd;
assert(buf != NULL && len > 0);
if ((fd = open("/dev/urandom", O_RDONLY)) < 0)
return (-1);
if (read(fd, buf, len) < 0) {
(void) close(fd);
return (-1);
}
(void) close(fd);
return (0);
}
static int
ipmi_lan_send_packet(ipmi_handle_t *ihp, uint8_t *data, int dlen)
{
ipmi_lan_t *ilp = (ipmi_lan_t *)ihp->ih_tdata;
return (send(ilp->il_sd, data, dlen, 0));
}
static ipmi_rs_t *
ipmi_lan_recv_packet(ipmi_handle_t *ihp)
{
static ipmi_rs_t rsp;
fd_set read_set, err_set;
struct timeval tmout;
ipmi_lan_t *ilp = (ipmi_lan_t *)ihp->ih_tdata;
int ret;
FD_ZERO(&read_set);
FD_SET(ilp->il_sd, &read_set);
FD_ZERO(&err_set);
FD_SET(ilp->il_sd, &err_set);
tmout.tv_sec = ilp->il_timeout;
tmout.tv_usec = 0;
ret = select(ilp->il_sd + 1, &read_set, NULL, &err_set, &tmout);
if (ret < 0 || FD_ISSET(ilp->il_sd, &err_set) ||
!FD_ISSET(ilp->il_sd, &read_set))
return (NULL);
/*
* The first read may return ECONNREFUSED because the rmcp ping
* packet--sent to UDP port 623--will be processed by both the
* BMC and the OS.
*
* The problem with this is that the ECONNREFUSED takes
* priority over any other received datagram; that means that
* the Connection Refused shows up _before_ the response packet,
* regardless of the order they were sent out. (unless the
* response is read before the connection refused is returned)
*/
ret = recv(ilp->il_sd, &rsp.ir_data, IPMI_BUF_SIZE, 0);
if (ret < 0) {
FD_ZERO(&read_set);
FD_SET(ilp->il_sd, &read_set);
FD_ZERO(&err_set);
FD_SET(ilp->il_sd, &err_set);
tmout.tv_sec = ilp->il_timeout;
tmout.tv_usec = 0;
ret = select(ilp->il_sd + 1, &read_set, NULL, &err_set, &tmout);
if (ret < 0) {
if (FD_ISSET(ilp->il_sd, &err_set) ||
!FD_ISSET(ilp->il_sd, &read_set))
return (NULL);
ret = recv(ilp->il_sd, &rsp.ir_data, IPMI_BUF_SIZE, 0);
if (ret < 0)
return (NULL);
}
}
if (ret == 0)
return (NULL);
rsp.ir_data[ret] = '\0';
rsp.ir_dlen = ret;
return (&rsp);
}
/*
* ASF/RMCP Pong Message
*
* See section 13.2.4
*/
struct rmcp_pong {
rmcp_hdr_t rp_rmcp;
asf_hdr_t rp_asf;
uint32_t rp_iana;
uint32_t rp_oem;
uint8_t rp_sup_entities;
uint8_t rp_sup_interact;
uint8_t rp_reserved[6];
};
/*
* parse response RMCP "pong" packet
*
* return -1 if ping response not received
* returns 0 if IPMI is NOT supported
* returns 1 if IPMI is supported
*/
/*ARGSUSED*/
static int
ipmi_handle_pong(ipmi_handle_t *ihp, ipmi_rs_t *rsp)
{
struct rmcp_pong *pong;
if (rsp == NULL)
return (-1);
/*LINTED: E_BAD_PTR_CAST_ALIGN*/
pong = (struct rmcp_pong *)rsp->ir_data;
return ((pong->rp_sup_entities & 0x80) ? 1 : 0);
}
/*
* Build and send RMCP presence ping message
*/
static int
ipmi_lan_ping(ipmi_handle_t *ihp)
{
rmcp_hdr_t rmcp_ping;
asf_hdr_t asf_ping;
uint8_t *data;
int rv, dlen = sizeof (rmcp_ping) + sizeof (asf_ping);
(void) memset(&rmcp_ping, 0, sizeof (rmcp_ping));
rmcp_ping.rh_version = RMCP_VERSION_1;
rmcp_ping.rh_msg_class = RMCP_CLASS_ASF;
rmcp_ping.rh_seq = 0xff;
(void) memset(&asf_ping, 0, sizeof (asf_ping));
asf_ping.ah_iana = htonl(ASF_RMCP_IANA);
asf_ping.ah_msg_type = ASF_TYPE_PING;
if ((data = ipmi_zalloc(ihp, dlen)) == NULL)
return (-1);
(void) memcpy(data, &rmcp_ping, sizeof (rmcp_ping));
(void) memcpy(data + sizeof (rmcp_ping), &asf_ping, sizeof (asf_ping));
rv = ipmi_lan_send_packet(ihp, data, dlen);
ipmi_free(ihp, data);
if (rv < 0)
return (ipmi_set_error(ihp, EIPMI_LAN_PING_FAILED, NULL));
if (ipmi_lan_poll_recv(ihp) == NULL)
return (ipmi_set_error(ihp, EIPMI_LAN_PING_FAILED, NULL));
return (0);
}
static ipmi_rs_t *
ipmi_lan_poll_recv(ipmi_handle_t *ihp)
{
rmcp_hdr_t rmcp_rsp;
ipmi_rs_t *rsp;
ipmi_rq_entry_t *entry;
int off = 0, rv;
ipmi_lan_t *ilp = (ipmi_lan_t *)ihp->ih_tdata;
uint8_t rsp_authtype;
rsp = ipmi_lan_recv_packet(ihp);
while (rsp != NULL) {
/* parse response headers */
(void) memcpy(&rmcp_rsp, rsp->ir_data, 4);
switch (rmcp_rsp.rh_msg_class) {
case RMCP_CLASS_ASF:
/* ping response packet */
rv = ipmi_handle_pong(ihp, rsp);
return ((rv <= 0) ? NULL : rsp);
case RMCP_CLASS_IPMI:
/* handled by rest of function */
break;
default:
/* Invalid RMCP class */
rsp = ipmi_lan_recv_packet(ihp);
continue;
}
off = sizeof (rmcp_hdr_t);
rsp_authtype = rsp->ir_data[off];
if (ilp->il_send_authcode && (rsp_authtype || ilp->il_authtype))
off += 26;
else
off += 10;
(void) memcpy(&rsp->ir_ihdr, (void *)(rsp->ir_data + off),
sizeof (rsp->ir_ihdr));
rsp->ir_ihdr.imh_seq = rsp->ir_ihdr.imh_seq >> 2;
off += sizeof (rsp->ir_ihdr);
rsp->ir_ccode = rsp->ir_data[off++];
entry = ipmi_req_lookup_entry(ihp, rsp->ir_ihdr.imh_seq,
rsp->ir_ihdr.imh_cmd);
if (entry) {
ipmi_req_remove_entry(ihp, rsp->ir_ihdr.imh_seq,
rsp->ir_ihdr.imh_cmd);
} else {
rsp = ipmi_lan_recv_packet(ihp);
continue;
}
break;
}
/* shift response data to start of array */
if (rsp && rsp->ir_dlen > off) {
rsp->ir_dlen -= off + 1;
(void) memmove(rsp->ir_data, rsp->ir_data + off, rsp->ir_dlen);
(void) memset(rsp->ir_data + rsp->ir_dlen, 0,
IPMI_BUF_SIZE - rsp->ir_dlen);
}
return (rsp);
}
/*
* IPMI LAN Request Message Format
*
* See section 13.8
*
* +---------------------+
* | rmcp_hdr_t | 4 bytes
* +---------------------+
* | v15_session_hdr_t | 9 bytes
* +---------------------+
* | [authcode] | 16 bytes (if AUTHTYPE != none)
* +---------------------+
* | msg length | 1 byte
* +---------------------+
* | ipmi_msg_hdr_t | 6 bytes
* +---------------------+
* | [msg data] | variable
* +---------------------+
* | msg data checksum | 1 byte
* +---------------------+
*/
static ipmi_rq_entry_t *
ipmi_lan_build_cmd(ipmi_handle_t *ihp, ipmi_cmd_t *req)
{
ipmi_lan_t *ilp = (ipmi_lan_t *)ihp->ih_tdata;
rmcp_hdr_t rmcp_hdr;
v15_session_hdr_t session_hdr;
ipmi_msg_hdr_t msg_hdr;
uint8_t *msg;
int cs, tmp, off = 0, len;
ipmi_rq_entry_t *entry;
static int curr_seq = 0;
if (curr_seq >= 64)
curr_seq = 0;
if ((entry = ipmi_req_add_entry(ihp, req)) == NULL)
return (NULL);
len = req->ic_dlen + 29;
if (ilp->il_send_authcode && ilp->il_authtype)
len += 16;
if ((msg = ipmi_zalloc(ihp, len)) == NULL)
/* ipmi_errno set */
return (NULL);
/* RMCP header */
(void) memset(&rmcp_hdr, 0, sizeof (rmcp_hdr));
rmcp_hdr.rh_version = RMCP_VERSION_1;
rmcp_hdr.rh_msg_class = RMCP_CLASS_IPMI;
rmcp_hdr.rh_seq = 0xff;
(void) memcpy(msg, &rmcp_hdr, sizeof (rmcp_hdr));
off = sizeof (rmcp_hdr);
/* IPMI session header */
(void) memset(&session_hdr, 0, sizeof (session_hdr));
if (! ilp->il_send_authcode)
session_hdr.sh_authtype = 0x00;
else
/* hardcode passwd authentication */
session_hdr.sh_authtype = 0x04;
(void) memcpy(&session_hdr.sh_seq, &ilp->il_in_seq, sizeof (uint32_t));
(void) memcpy(&session_hdr.sh_id, &ilp->il_session_id,
sizeof (uint32_t));
(void) memcpy(msg + off, &session_hdr, sizeof (session_hdr));
off += sizeof (session_hdr);
/* IPMI session authcode */
if (ilp->il_send_authcode && ilp->il_authtype) {
(void) memcpy(msg + off, ilp->il_authcode, 16);
off += 16;
}
/* message length */
msg[off++] = req->ic_dlen + 7;
cs = off;
/* IPMI message header */
(void) memset(&msg_hdr, 0, sizeof (msg_hdr));
msg_hdr.imh_addr1 = IPMI_BMC_SLAVE_ADDR;
msg_hdr.imh_lun = req->ic_lun;
msg_hdr.imh_netfn = req->ic_netfn;
tmp = off - cs;
msg_hdr.imh_csum = ipmi_csum(msg + cs, tmp);
cs = off;
msg_hdr.imh_addr2 = IPMI_BMC_SLAVE_ADDR;
entry->ire_rq_seq = curr_seq++;
msg_hdr.imh_seq = entry->ire_rq_seq << 2;
msg_hdr.imh_cmd = req->ic_cmd;
(void) memcpy(msg + off, &msg_hdr, sizeof (msg_hdr));
off += sizeof (msg_hdr);
/* message data */
if (req->ic_dlen != 0) {
(void) memcpy(msg + off, req->ic_data, req->ic_dlen);
off += req->ic_dlen;
}
/* message data checksum */
tmp = off - cs;
msg[off++] = ipmi_csum(msg + cs, tmp);
if (ilp->il_in_seq) {
ilp->il_in_seq++;
if (ilp->il_in_seq == 0)
ilp->il_in_seq++;
}
entry->ire_msg_len = off;
entry->ire_msg_data = msg;
return (entry);
}
static int
ipmi_lan_send(void *data, ipmi_cmd_t *cmd, ipmi_cmd_t *response,
int *completion)
{
ipmi_lan_t *ilp = (ipmi_lan_t *)data;
ipmi_rq_entry_t *entry = NULL;
ipmi_rs_t *rsp = NULL;
uint_t try = 0;
for (;;) {
if ((entry = ipmi_lan_build_cmd(ilp->il_ihp, cmd)) == NULL)
return (-1);
if (ipmi_lan_send_packet(ilp->il_ihp, entry->ire_msg_data,
entry->ire_msg_len) < 0) {
if (++try >= ilp->il_num_retries)
return (-1);
(void) usleep(5000);
continue;
}
(void) usleep(100);
if ((rsp = ipmi_lan_poll_recv(ilp->il_ihp)) != NULL)
break;
(void) usleep(5000);
ipmi_req_remove_entry(ilp->il_ihp, entry->ire_rq_seq,
entry->ire_req.ic_cmd);
if (++try >= ilp->il_num_retries)
return (-1);
}
response->ic_netfn = rsp->ir_ihdr.imh_netfn;
response->ic_lun = rsp->ir_ihdr.imh_lun;
response->ic_cmd = rsp->ir_ihdr.imh_cmd;
if (rsp->ir_ccode != 0) {
*completion = rsp->ir_ccode;
response->ic_dlen = 0;
response->ic_data = NULL;
} else {
*completion = 0;
response->ic_dlen = rsp->ir_dlen;
response->ic_data = rsp->ir_data;
}
return (0);
}
/*
* IPMI Get Session Challenge Command
*
* Copies the returned session ID and 16-byte challenge string to the supplied
* buffers
*
* See section 22.16
*/
static int
ipmi_get_session_challenge_cmd(ipmi_handle_t *ihp, uint32_t *session_id,
uint8_t *challenge)
{
ipmi_cmd_t cmd, resp;
ipmi_lan_t *ilp = (ipmi_lan_t *)ihp->ih_tdata;
char msg_data[17];
int ccode;
(void) memset(msg_data, 0, 17);
switch (ilp->il_authtype) {
case IPMI_SESSION_AUTHTYPE_NONE:
msg_data[0] = 0x00;
break;
case IPMI_SESSION_AUTHTYPE_MD2:
msg_data[0] = 0x01;
break;
case IPMI_SESSION_AUTHTYPE_MD5:
msg_data[0] = 0x02;
break;
case IPMI_SESSION_AUTHTYPE_PASSWORD:
msg_data[0] = 0x04;
break;
case IPMI_SESSION_AUTHTYPE_OEM:
msg_data[0] = 0x05;
break;
}
(void) memcpy(msg_data + 1, ilp->il_user, 16);
cmd.ic_netfn = IPMI_NETFN_APP;
cmd.ic_lun = 0;
cmd.ic_cmd = IPMI_CMD_GET_SESSION_CHALLENGE;
cmd.ic_data = msg_data;
cmd.ic_dlen = 17;
if (ipmi_lan_send(ilp, &cmd, &resp, &ccode) != 0 || ccode)
return (ipmi_set_error(ihp, EIPMI_LAN_CHALLENGE, NULL));
(void) memcpy(session_id, resp.ic_data, 4);
(void) memcpy(challenge, (uint8_t *)resp.ic_data + 4, 16);
return (0);
}
/*
* IPMI Activate Session Command
*
* See section 22.17
*/
static int
ipmi_activate_session_cmd(ipmi_handle_t *ihp)
{
ipmi_cmd_t cmd, resp;
ipmi_lan_t *ilp = (ipmi_lan_t *)ihp->ih_tdata;
uint8_t msg_data[22], *resp_data;
int ccode;
cmd.ic_netfn = IPMI_NETFN_APP;
cmd.ic_lun = 0;
cmd.ic_cmd = IPMI_CMD_ACTIVATE_SESSION;
switch (ilp->il_authtype) {
case IPMI_SESSION_AUTHTYPE_NONE:
msg_data[0] = 0x00;
break;
case IPMI_SESSION_AUTHTYPE_MD2:
msg_data[0] = 0x01;
break;
case IPMI_SESSION_AUTHTYPE_MD5:
msg_data[0] = 0x02;
break;
case IPMI_SESSION_AUTHTYPE_PASSWORD:
msg_data[0] = 0x04;
break;
case IPMI_SESSION_AUTHTYPE_OEM:
msg_data[0] = 0x05;
break;
}
msg_data[1] = ilp->il_privlvl;
(void) memcpy(msg_data + 2, ilp->il_challenge, 16);
/* setup initial outbound sequence number */
(void) get_random(msg_data + 18, 4);
cmd.ic_data = msg_data;
cmd.ic_dlen = 22;
ilp->il_send_authcode = B_TRUE;
if (ipmi_lan_send(ilp, &cmd, &resp, &ccode) != 0 || ccode) {
ilp->il_send_authcode = B_FALSE;
return (ipmi_set_error(ihp, EIPMI_LAN_SESSION, NULL));
}
resp_data = (uint8_t *)resp.ic_data;
(void) memcpy(&ilp->il_session_id, resp_data + 1, 4);
ilp->il_in_seq = resp_data[8] << 24 | resp_data[7] << 16 |
resp_data[6] << 8 | resp_data[5];
if (ilp->il_in_seq == 0)
++ilp->il_in_seq;
return (0);
}
/*
* See section 22.18
*
* returns privilege level or -1 on error
*/
static int
ipmi_set_session_privlvl_cmd(ipmi_handle_t *ihp, uint8_t privlvl)
{
ipmi_cmd_t cmd, resp;
int ret = 0, ccode;
if (privlvl > IPMI_SESSION_PRIV_OEM)
return (ipmi_set_error(ihp, EIPMI_BADPARAM, NULL));
cmd.ic_netfn = IPMI_NETFN_APP;
cmd.ic_lun = 0;
cmd.ic_cmd = IPMI_CMD_SET_SESSION_PRIVLVL;
cmd.ic_data = &privlvl;
cmd.ic_dlen = 1;
if (ipmi_lan_send(ihp->ih_tdata, &cmd, &resp, &ccode) != 0)
ret = ipmi_set_error(ihp, EIPMI_LAN_SETPRIV, NULL);
return (ret);
}
/*
* See section 22.19
*/
static int
ipmi_close_session_cmd(ipmi_handle_t *ihp)
{
ipmi_lan_t *ilp = (ipmi_lan_t *)ihp->ih_tdata;
ipmi_cmd_t cmd, resp;
uint8_t msg_data[4];
int ret = 0, ccode;
if (! ilp->il_session_active)
return (-1);
(void) memcpy(&msg_data, &ilp->il_session_id, 4);
cmd.ic_netfn = IPMI_NETFN_APP;
cmd.ic_lun = 0;
cmd.ic_cmd = IPMI_CMD_CLOSE_SESSION;
cmd.ic_data = msg_data;
cmd.ic_dlen = 4;
if (ipmi_lan_send(ilp, &cmd, &resp, &ccode) != 0)
ret = -1;
return (ret);
}
/*
* IPMI LAN Session Activation
*
* See section 13.14
*
* 1. send "RMCP Presence Ping" message, response message will
* indicate whether the platform supports IPMI
* 2. send "Get Channel Authentication Capabilities" command
* with AUTHTYPE = none, response packet will contain information
* about supported challenge/response authentication types
* 3. send "Get Session Challenge" command with AUTHTYPE = none
* and indicate the authentication type in the message, response
* packet will contain challenge string and temporary session ID.
* 4. send "Activate Session" command, authenticated with AUTHTYPE
* sent in previous message. Also sends the initial value for
* the outbound sequence number for BMC.
* 5. BMC returns response confirming session activation and
* session ID for this session and initial inbound sequence.
*/
static int
ipmi_lan_activate_session(ipmi_handle_t *ihp)
{
ipmi_lan_t *ilp = (ipmi_lan_t *)ihp->ih_tdata;
ipmi_channel_auth_caps_t *ac;
if (ipmi_lan_ping(ihp) != 0)
return (-1);
if ((ac = ipmi_get_channel_auth_caps(ihp, IPMI_LAN_CHANNEL_E,
ilp->il_privlvl)) == NULL)
return (-1);
/*
* For the sake of simplicity, we're just supporting basic password
* authentication. If this authentication type is not supported then
* we'll bail here.
*/
if (!(ac->cap_authtype & IPMI_SESSION_AUTHTYPE_PASSWORD)) {
free(ac);
return (ipmi_set_error(ihp, EIPMI_LAN_PASSWD_NOTSUP, NULL));
}
free(ac);
if (ipmi_get_session_challenge_cmd(ihp, &ilp->il_session_id,
ilp->il_challenge) != 0)
return (-1);
if (ipmi_activate_session_cmd(ihp) != 0)
return (-1);
ilp->il_session_active = B_TRUE;
if (ipmi_set_session_privlvl_cmd(ihp, ilp->il_privlvl) != 0)
return (-1);
return (0);
}
static void
ipmi_lan_close(void *data)
{
ipmi_lan_t *ilp = (ipmi_lan_t *)data;
if (ilp->il_session_active)
(void) ipmi_close_session_cmd(ilp->il_ihp);
if (ilp->il_sd >= 0)
(void) close(ilp->il_sd);
ipmi_req_clear_entries(ilp->il_ihp);
ipmi_free(ilp->il_ihp, ipmi_req_entries);
ipmi_free(ilp->il_ihp, ilp);
}
static void *
ipmi_lan_open(ipmi_handle_t *ihp, nvlist_t *params)
{
int rc;
struct hostent *host;
ipmi_lan_t *ilp;
char *hostname, *user, *authcode;
if ((ilp = ipmi_zalloc(ihp, sizeof (ipmi_lan_t))) == NULL) {
/* ipmi errno set */
return (NULL);
}
ilp->il_ihp = ihp;
ihp->ih_tdata = ilp;
/*
* Parse the parameters passed in the params nvlist. The following
* parameters are required
* IPMI_LAN_HOST, IPMI_LAN_USER and IPMI_LAN_PASSWD
*
* If any of these were not specified then we abort
*/
if (nvlist_lookup_string(params, IPMI_LAN_HOST, &hostname) ||
nvlist_lookup_string(params, IPMI_LAN_USER, &user) ||
nvlist_lookup_string(params, IPMI_LAN_PASSWD, &authcode)) {
ipmi_free(ihp, ilp);
(void) ipmi_set_error(ihp, EIPMI_BADPARAM, NULL);
return (NULL);
}
(void) strncpy(ilp->il_host, hostname, MAXHOSTNAMELEN);
(void) strncpy(ilp->il_user, user, 16);
(void) strncpy(ilp->il_authcode, authcode, 16);
/*
* IPMI_LAN_PORT is an optional parameter and defaults to port 623
* IPMI_LAN_PRIVLVL is also optional and defaults to admin
* IPMI_LAN_TIMEOUT is optional and will default to 3 seconds
* IPMI_LAN_NUM_RETIES is optional and will default to 5
*/
if (nvlist_lookup_uint16(params, IPMI_LAN_PORT, &ilp->il_port))
ilp->il_port = RMCP_UDP_PORT;
if (nvlist_lookup_uint8(params, IPMI_LAN_PRIVLVL, &ilp->il_privlvl))
ilp->il_privlvl = IPMI_SESSION_PRIV_ADMIN;
if (nvlist_lookup_uint32(params, IPMI_LAN_TIMEOUT, &ilp->il_timeout))
ilp->il_timeout = DEF_IPMI_LAN_TIMEOUT;
if (nvlist_lookup_uint8(params, IPMI_LAN_NUM_RETRIES,
&ilp->il_num_retries))
ilp->il_num_retries = DEF_IPMI_LAN_NUM_RETRIES;
ilp->il_authtype = IPMI_SESSION_AUTHTYPE_PASSWORD;
/*
* Open up and connect a UDP socket between us and the service
* processor
*/
ilp->il_addr.sin_family = AF_INET;
ilp->il_addr.sin_port = htons(ilp->il_port);
rc = inet_pton(AF_INET, (const char *)ilp->il_host,
&ilp->il_addr.sin_addr);
if (rc <= 0) {
if ((host = gethostbyname((const char *)ilp->il_host))
== NULL) {
ipmi_free(ihp, ilp);
(void) ipmi_set_error(ihp, EIPMI_LAN_OPEN_FAILED, NULL);
return (NULL);
}
ilp->il_addr.sin_family = host->h_addrtype;
(void) memcpy(&ilp->il_addr.sin_addr, host->h_addr,
host->h_length);
}
if ((ilp->il_sd = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP)) < 0) {
ipmi_free(ihp, ilp);
(void) ipmi_set_error(ihp, EIPMI_LAN_OPEN_FAILED, NULL);
return (NULL);
}
if (connect(ilp->il_sd, (struct sockaddr *)&ilp->il_addr,
sizeof (struct sockaddr_in)) < 0) {
ipmi_lan_close(ilp);
(void) ipmi_set_error(ihp, EIPMI_LAN_OPEN_FAILED, NULL);
return (NULL);
}
if ((ipmi_req_entries = ipmi_zalloc(ihp, sizeof (ipmi_rq_entry_t)))
== NULL)
return (NULL);
/*
* Finally we start up the IPMI LAN session
*/
if ((rc = ipmi_lan_activate_session(ihp)) < 0) {
ipmi_lan_close(ilp);
return (NULL);
}
return (ilp);
}
ipmi_transport_t ipmi_transport_lan = {
ipmi_lan_open,
ipmi_lan_close,
ipmi_lan_send
};