cmd: remove sparc-only virtinfo

[unleashed.git] / usr / src / cmd / picl / plugins / sun4u / snowbird / lib / libctsmc / libctsmc.c

/*
 * CDDL HEADER START
 *
 * The contents of this file are subject to the terms of the
 * Common Development and Distribution License, Version 1.0 only
 * (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 2004 Sun Microsystems, Inc.  All rights reserved.
 * Use is subject to license terms.
 */

#pragma ident   "%Z%%M% %I%     %E% SMI"

/*
 * This is utility library that provides APIs to interact with SMC driver
 */

#include <stdio.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <poll.h>
#include <assert.h>
#include <unistd.h>
#include <string.h>
#include <strings.h>
#include <stdarg.h>
#include <stropts.h>
#include <syslog.h>
#include "smclib.h"

static int debug_on = 0;

/* Error messages */
#define SMC_ERRMSG_OPEN         "SMC open failed, cmd = %x\n"
#define SMC_ERRMSG_WRITE        "SMC write failed, cmd = %x\n"
#define SMC_ERRMSG_POLLTIMEOUT  "SMC poll timed out, cmd = %x\n"
#define SMC_ERRMSG_POLLFAILED   "SMC poll failed, cmd = %x\n"
#define SMC_ERRMSG_POLL_T       "SMC poll timed out, dest = %x\n"
#define SMC_ERRMSG_POLL_F       "SMC poll failed, dest = %x\n"
#define SMC_ERRMSG_READ         "SMC read response failed, cmd = %x\n"
#define SMC_ERRMSG_ERROR        "SMC error, cc = %d, msg_id = %x\n"
#define SMC_ERRMSG_SETATTR      "SMC setting read attribute failed\n"
#define SMC_ERRMSG_GET_SEQN     "SMC error in getting seqn for %x\n"
#define SMC_ERRMSG_IPMI_ERR     "SMC IPMI invalid cc:%x, dest = %x\n"
#define SMC_ERRMSG_GET_GEO      "SMC get GeoAddr failed\n"

/* Macros */
#define REQ_SA(_X)      (((_X) < 10) ? (0xb0 + 2 * ((_X) - 1)) :\
                                        (0xb0 + 2 * (_X)))
#define LUN_BITMASK             0x03    /* last two bits */
#define RESPONSE_MSG            0x01    /* last bit */

#define SMC_LOCAL_SEQ_NO        10
#define SMC_POLL_TIME           1000    /* 1 sec */
#define NORMAL_COMPLETION_CODE  0
#define IPMI_MSG_CHANNEL_0      0x0
#define IPMI_REQ_HDR_LEN        0x8     /* includes command & data checksum */
#define IPMI_RSP_HDR_LEN        0x8
#define SMC_NETFN_SEQ_OFFSET    5
#define SMC_CMD_OFFSET          6

#define SMC_NODE                ("/dev/ctsmc")
#define DEFAULT_FD                      -1
#define DEFAULT_SEQN                    128

/*
 * IPMI packet header
 */
typedef struct {
        uint8_t channel_no;             /* channel num */
        uint8_t rs_addr;                /* dest addr */
        uint8_t netfn_lun;              /* netfn and lun */
        uint8_t checksum;               /* checksum for dest and netfn_lun */
        uint8_t rq_addr;                /* sender addr */
        uint8_t seq_num;                /* sequence number */
        uint8_t cmd;                    /* ipmi cmd */
} smc_ipmi_header_t;

/*
 * debug printf
 */
static void
dbg_print(const char *fmt, ...)
{
        if (debug_on > 0) {
                va_list ap;
                va_start(ap, fmt);
                (void) vprintf(fmt, ap);
                va_end(ap);
        }
}

/*
 * send a local command to SMC
 */
static smc_errno_t
smc_send_local_cmd(int fd, sc_reqmsg_t *req_pkt, sc_rspmsg_t *rsp_pkt,
        int poll_time)
{
        int     poll_rc;
        struct pollfd   poll_fds[1];

        poll_fds[0].fd          = fd;
        poll_fds[0].events      = POLLIN|POLLPRI;
        poll_fds[0].revents     = 0;

        /* send the command to SMC */
        if (write(fd, req_pkt, SC_SEND_HEADER + SC_MSG_LEN(req_pkt)) < 0) {
                dbg_print(SMC_ERRMSG_WRITE, SC_MSG_CMD(req_pkt));
                return (SMC_REQ_FAILURE);
        }

        poll_rc = poll(poll_fds, 1, poll_time);
        if (poll_rc == 0) {
                dbg_print(SMC_ERRMSG_POLLTIMEOUT, SC_MSG_CMD(req_pkt));
                return (SMC_ACK_FAILURE);
        } else if (poll_rc == -1) {
                dbg_print(SMC_ERRMSG_POLLFAILED, SC_MSG_CMD(req_pkt));
                return (SMC_ACK_FAILURE);
        }

        /* read the response from SMC */
        if (read(fd, rsp_pkt, SC_MSG_MAX_SIZE) == -1) {
                dbg_print(SMC_ERRMSG_READ, SC_MSG_CMD(req_pkt));
                return (SMC_ACK_FAILURE);
        }

        /* check if response is valid */
        if (SC_MSG_ID(rsp_pkt) != SC_MSG_ID(req_pkt)) {
                dbg_print(SMC_ERRMSG_ERROR, SC_MSG_CC(rsp_pkt),
                        SC_MSG_ID(rsp_pkt));
                return (SMC_INVALID_SEQ);
        }

        if (SC_MSG_CC(rsp_pkt) != 0) {
                return (SMC_FAILURE);
        }

        return (SMC_SUCCESS);
}

/*
 * get_geo_addr -- returns the geographical address of a CPU board
 */
static int
get_geo_addr(uint8_t *geo_addr)
{
        int     fd, rc;
        sc_reqmsg_t     req_pkt;
        sc_rspmsg_t     rsp_pkt;

        if ((fd = open(SMC_NODE, O_RDWR)) < 0) {
                dbg_print(SMC_ERRMSG_OPEN,
                        SMC_GET_GEOGRAPHICAL_ADDRESS);
                return (SMC_FAILURE);
        }

        SC_MSG_CMD(&req_pkt) = SMC_GET_GEOGRAPHICAL_ADDRESS;
        SC_MSG_LEN(&req_pkt) = 0;
        SC_MSG_ID(&req_pkt)  =  SMC_LOCAL_SEQ_NO;

        /* no request data */
        if ((rc = smc_send_local_cmd(fd, &req_pkt, &rsp_pkt,
                SMC_POLL_TIME)) != SMC_SUCCESS) {
                (void) close(fd);
                return (rc);
        }

        *geo_addr = rsp_pkt.data[0];
        (void) close(fd);
        return (SMC_SUCCESS);
}

/*
 * checksum - returns a 2-complement check sum
 */
static uint8_t
checksum(uint8_t buf[], int start, int end)
{
        int     i;
        uint8_t sum = 0x0;

        for (i = start; i <= end; i++) {
                sum += buf[i];
        }
        sum = ~sum + 1;
        return (sum);
}

/*
 * func to send IPMI messages
 */
static smc_errno_t
smc_send_ipmi_message(int fd, sc_reqmsg_t *req_pkt, sc_rspmsg_t *rsp_pkt,
        int poll_time)
{
        int             result, nbytes, i = 0;
        struct          pollfd fds;
        uint8_t         cc, netfn;
        boolean_t       is_response = B_FALSE;
        char data[SC_MSG_MAX_SIZE], *p;

        if (debug_on) {
                bzero(data, SC_MSG_MAX_SIZE);
                p = data;
                for (i = 0; i < SC_MSG_LEN(req_pkt); i++) {
                        (void) sprintf(p, "%02x ", req_pkt->data[i]);
                        p = data + strlen(data);
                }
                p = data;
                syslog(LOG_ERR, "REQ> %s", p);
        }

        netfn = req_pkt->data[2] >> 2;
        if (netfn & RESPONSE_MSG) {
                is_response = B_TRUE;
        }

        if ((nbytes = write(fd, (char *)req_pkt, SC_SEND_HEADER  +
                SC_MSG_LEN(req_pkt))) < 0) {
                dbg_print(SMC_ERRMSG_WRITE, SMC_SEND_MESSAGE);
                return (SMC_REQ_FAILURE);
        }

        if ((nbytes = read(fd, (char *)rsp_pkt, SC_MSG_MAX_SIZE)) < 0) {
                dbg_print(SMC_ERRMSG_READ, SMC_SEND_MESSAGE);
                return (SMC_ACK_FAILURE);
        }

        if (SC_MSG_CC(rsp_pkt) != 0) {
                dbg_print(SMC_ERRMSG_ERROR, SC_MSG_CC(rsp_pkt),
                        SC_MSG_ID(rsp_pkt));
                return (SMC_ACK_FAILURE);
        }

        if (is_response) {      /* need not wait for response */
                return (SMC_SUCCESS);
        }

        fds.fd  = fd;
        fds.events = POLLIN | POLLPRI;
        fds.revents = 0;
        result = poll(&fds, 1, poll_time);

        if (result == 0) {
                dbg_print(SMC_ERRMSG_POLL_T, req_pkt->data[1]);
                return (SMC_RSP_TIMEOUT);
        } else if (result < 0) {
                dbg_print(SMC_ERRMSG_POLL_F, req_pkt->data[1]);
                return (SMC_RSP_ERROR);
        }

        nbytes = read(fd, rsp_pkt, SC_MSG_MAX_SIZE);
        if (nbytes < 0) {
                dbg_print(SMC_ERRMSG_READ, SMC_SEND_MESSAGE);
                return (SMC_RSP_ERROR);
        }

        if (debug_on) {
                bzero(data, SC_MSG_MAX_SIZE);
                p = data;
                for (i = 0; i < nbytes; i++) {
                        (void) sprintf(p, "%02x ", rsp_pkt->data[i]);
                        p = data + strlen(data);
                }
                p = data;
                syslog(LOG_DEBUG, "RES> %s, seq = %x, cmd = %x, len = %x,"
                        "cc = %x", p, SC_MSG_ID(rsp_pkt), SC_MSG_CMD(rsp_pkt),
                                SC_MSG_LEN(rsp_pkt), SC_MSG_CC(rsp_pkt));
        }

        if (SC_MSG_CC(rsp_pkt) != 0) {
                dbg_print(SMC_ERRMSG_IPMI_ERR, rsp_pkt->hdr.cc,
                        req_pkt->data[SMC_CMD_OFFSET]);
                return (SMC_RSP_ERROR);
        }

        if (req_pkt->data[SMC_NETFN_SEQ_OFFSET] !=
                rsp_pkt->data[SMC_NETFN_SEQ_OFFSET]) {
                dbg_print("SMC: Invalid sequence number in"
                " IPMI Response (sent %x, received %x)\n",
                        req_pkt->data[5], rsp_pkt->data[SMC_NETFN_SEQ_OFFSET]);
        }

        if ((cc = rsp_pkt->data[IPMI_RSP_HDR_LEN-1]) != 0) {
                dbg_print("SMC:IPMI response completion "
                        "error %x, command = %x\n",
                                cc, req_pkt->data[SMC_CMD_OFFSET]);
        }
        return (SMC_SUCCESS);
}

/*
 * Initializes the IPMI request packet
 */
smc_errno_t
smc_init_ipmi_msg(sc_reqmsg_t *req_msg, uint8_t cmd, uint8_t msg_id,
        uint8_t msg_data_size, uint8_t *msg_data_buf, int8_t seq_num,
        int ipmb_addr, smc_netfn_t netfn, smc_lun_t lun)
{
        static uint8_t  geo_addr = 0;
        smc_ipmi_header_t ipmi_header;
        uint8_t data[2];
        if (msg_data_size > 0) {
                if ((msg_data_size > (SC_SEND_DSIZE - IPMI_REQ_HDR_LEN)) ||
                        (msg_data_buf == NULL)) {
                        return (SMC_FAILURE);
                }
        }

        /* get the geo addr for first time */
        if (geo_addr == 0) {
                if (get_geo_addr(&geo_addr) != SMC_SUCCESS) {
                        dbg_print(SMC_ERRMSG_GET_GEO);
                        return (SMC_FAILURE);
                }
        }

        SC_MSG_CMD(req_msg) = SMC_SEND_MESSAGE;
        SC_MSG_ID(req_msg) = msg_id;
        SC_MSG_LEN(req_msg) = IPMI_REQ_HDR_LEN + msg_data_size;
        ipmi_header.channel_no = IPMI_MSG_CHANNEL_0;
        ipmi_header.rs_addr = data[0] = ipmb_addr;
        ipmi_header.netfn_lun = data[1] = (netfn << 2) | lun;
        ipmi_header.checksum = checksum(data, 0, 1);
        ipmi_header.rq_addr = REQ_SA(geo_addr);
        ipmi_header.cmd = cmd;
        if (seq_num >= 0 && seq_num < 64) {
                ipmi_header.seq_num = (seq_num << 2) | SMC_SMS_LUN;
        } else {
                ipmi_header.seq_num = DEFAULT_SEQN;
        }

        /* copy the header */
        (void) bcopy((void *)&ipmi_header, SC_MSG_DATA(req_msg),
                sizeof (ipmi_header));

        /* copy the msg data into request packet */
        (void) bcopy((void *)msg_data_buf, (void *)((uchar_t *)req_msg->data +
                (IPMI_REQ_HDR_LEN - 1)), msg_data_size);
        return (SMC_SUCCESS);
}

/*
 * Initialize a SMC packet
 */
smc_errno_t
smc_init_smc_msg(sc_reqmsg_t *req_msg, smc_app_command_t cmd,
        uint8_t msg_id, uint8_t msg_data_size)
{
        if (msg_data_size > SC_SEND_DSIZE) {
                return (SMC_FAILURE);
        }

        /* fill the packet */
        SC_MSG_CMD(req_msg) = cmd;
        SC_MSG_LEN(req_msg) = msg_data_size;
        SC_MSG_ID(req_msg) = msg_id;
        return (SMC_SUCCESS);
}

/*
 * Sends SMC(local) and IPMI messages
 */
smc_errno_t
smc_send_msg(int fd, sc_reqmsg_t *req_msg, sc_rspmsg_t *rsp_msg,
        int poll_time)
{
        int rc = SMC_SUCCESS;
        uint8_t dsize, dest;
        boolean_t close_fd = B_FALSE;
        boolean_t free_seqn = B_FALSE;
        struct strioctl scioc;
        sc_seqdesc_t smc_seq;
        int8_t seq_no;

        if (req_msg == NULL || rsp_msg == NULL) {
                return (SMC_FAILURE);
        }

        if (fd <  0) {
                close_fd = B_TRUE;
                if ((fd = open(SMC_NODE, O_RDWR)) < 0) {
                        dbg_print(SMC_ERRMSG_OPEN,
                                SC_MSG_CMD(req_msg));
                        return (SMC_FAILURE);
                }
        }

        if (ioctl(fd, I_SRDOPT, RMSGD) < 0) {
                dbg_print(SMC_ERRMSG_SETATTR);
                if (close_fd)
                        (void) close(fd);
                return (SMC_FAILURE);
        }

        if (SC_MSG_CMD(req_msg) != SMC_SEND_MESSAGE) {
                rc = smc_send_local_cmd(fd, req_msg, rsp_msg, poll_time);
                if (close_fd) {
                        (void) close(fd);
                }
                return (rc);
        }

        /* This is an IPMI message */
        dsize = SC_MSG_LEN(req_msg) - IPMI_REQ_HDR_LEN;
        if (dsize > (SC_SEND_DSIZE - IPMI_REQ_HDR_LEN)) {
                if (close_fd) {
                        (void) close(fd);
                }
                return (SMC_FAILURE);
        }

        /* check if sequence num is valid or not */
        if (req_msg->data[SMC_NETFN_SEQ_OFFSET] == DEFAULT_SEQN) {
                free_seqn = B_TRUE;
                bzero(&smc_seq, sizeof (sc_seqdesc_t));
                dest = smc_seq.d_addr  = req_msg->data[1]; /* dest */
                smc_seq.n_seqn = 1;
                smc_seq.seq_numbers[0] = 0;
                scioc.ic_cmd = SCIOC_RESERVE_SEQN;
                scioc.ic_timout = 0;
                scioc.ic_len = sizeof (sc_seqdesc_t);
                scioc.ic_dp = (char *)&smc_seq;
                if (ioctl(fd, I_STR, &scioc)  < 0) {
                        dbg_print(SMC_ERRMSG_GET_SEQN, dest);
                        if (close_fd) {
                                (void) close(fd);
                        }
                        return (SMC_FAILURE);
                }
                seq_no = smc_seq.seq_numbers[0];
                req_msg->data[SMC_NETFN_SEQ_OFFSET] =
                        (seq_no << 2) | SMC_SMS_LUN;
        }

        req_msg->data[(IPMI_REQ_HDR_LEN-1)+dsize] =
                checksum(req_msg->data, 4, (IPMI_REQ_HDR_LEN-2)+dsize);

        rc = smc_send_ipmi_message(fd, req_msg, rsp_msg, poll_time);

        if (free_seqn) {        /* free seqn if library reserved it */
                smc_seq.d_addr = dest;
                smc_seq.n_seqn  = 1;
                smc_seq.seq_numbers[0] = seq_no;
                scioc.ic_cmd = SCIOC_FREE_SEQN;
                scioc.ic_timout = 0;
                scioc.ic_len = sizeof (sc_seqdesc_t);
                scioc.ic_dp = (char *)&smc_seq;
                if (ioctl(fd, I_STR, &scioc) < 0) {
                        dbg_print("SMC:Error in releasing sequence "
                                        "number\n");
                        rc = SMC_FAILURE;
                }
        }
        if (close_fd) {
                (void) close(fd);
        }
        return (rc);
}