Fix compiler diagnostics

[netatalk.git] / etc / afpd / status.c

/*
 * Copyright (c) 1990,1993 Regents of The University of Michigan.
 * All Rights Reserved.  See COPYRIGHT.
 */

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif /* HAVE_CONFIG_H */

#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <ctype.h>
#include <string.h>
#include <time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <sys/socket.h>
#include <atalk/logger.h>

#if 0
#ifdef BSD4_4
#include <sys/param.h>
#ifndef HAVE_GETHOSTID
#include <sys/sysctl.h>
#endif /* HAVE_GETHOSTID */
#endif /* BSD4_4 */
#endif

#include <arpa/inet.h>

#ifdef HAVE_KERBEROS
#ifdef HAVE_KRB5_KRB5_H
#include <krb5/krb5.h>
#else
#include <krb5.h>
#endif /* HAVE_KRB5_KRB5_H */
#endif /* HAVE_KERBEROS */

#include <atalk/dsi.h>
#include <atalk/unicode.h>
#include <atalk/util.h>
#include <atalk/globals.h>

#include "status.h"
#include "afp_config.h"
#include "icon.h"
#include "uam_auth.h"

static   size_t maxstatuslen = 0;

static int uam_gss_enabled()
{
    /* XXX: must be a better way to find out if uam_gss is active */
    return auth_uamfind(UAM_SERVER_LOGIN_EXT,
                        "Client Krb v2",
                        sizeof("Client Krb v2")) != NULL;
}

static void status_flags(char *data,
                         const int notif,
                         const int ipok,
                         const unsigned char passwdbits,
                         const int dirsrvcs,
                         int flags)
{
    uint16_t           status;

    status = AFPSRVRINFO_COPY
           | AFPSRVRINFO_SRVSIGNATURE
           | AFPSRVRINFO_SRVMSGS
           | AFPSRVRINFO_FASTBOZO
           | AFPSRVRINFO_SRVUTF8
           | AFPSRVRINFO_EXTSLEEP;

    if (passwdbits & PASSWD_SET) /* some uams may not allow this. */
        status |= AFPSRVRINFO_PASSWD;
    if (passwdbits & PASSWD_NOSAVE)
        status |= AFPSRVRINFO_NOSAVEPASSWD;
    if (ipok) /* only advertise tcp/ip if we have a valid address */
        status |= AFPSRVRINFO_TCPIP;
    if (notif) /* Default is yes */
        status |= AFPSRVRINFO_SRVNOTIFY;
    if (dirsrvcs)
        status |= AFPSRVRINFO_SRVRDIR;
    if (flags & OPTION_UUID)
        status |= AFPSRVRINFO_UUID;

    status = htons(status);
    memcpy(data + AFPSTATUS_FLAGOFF, &status, sizeof(status));
}

static int status_server(char *data, const char *server, const struct afp_options *options)
{
    char                *start = data;
    char                *Obj;
    char                buf[32];
    uint16_t           status;
    size_t              len;

    /* make room for all offsets before server name */
    data += AFPSTATUS_PRELEN;

    /* extract the obj part of the server */
    Obj = (char *) server;
    if ((size_t)-1 == (len = convert_string( 
                           options->unixcharset, options->maccharset, 
                           Obj, -1, buf, sizeof(buf))) ) {
        len = MIN(strlen(Obj), 31);
        *data++ = len;
        memcpy( data, Obj, len );
        LOG ( log_error, logtype_afpd, "Could not set servername, using fallback");
    } else {
        *data++ = len;
        memcpy( data, buf, len );
    }
    if ((len + 1) & 1) /* pad server name and length byte to even boundary */
        len++;
    data += len;

    /* make room for signature and net address offset. save location of
     * signature offset. we're also making room for directory names offset
     * and the utf-8 server name offset.
     *
     * NOTE: technically, we don't need to reserve space for the
     * signature and net address offsets if they're not going to be
     * used. as there are no offsets after them, it doesn't hurt to
     * have them specified though. so, we just do that to simplify
     * things.  
     *
     * NOTE2: AFP3.1 Documentation states that the directory names offset
     * is a required feature, even though it can be set to zero.
     */
    len = data - start;
    status = htons(len + AFPSTATUS_POSTLEN);
    memcpy(start + AFPSTATUS_MACHOFF, &status, sizeof(status));
    return len; /* return the offset to beginning of signature offset */
}

static void status_machine(char *data)
{
    char                *start = data;
    uint16_t           status;
    int                 len;
#ifdef AFS
    const char          *machine = "afs";
#else /* !AFS */
    const char          *machine = "Netatalk%s";
#endif /* AFS */
    char buf[AFPSTATUS_MACHLEN+1];

    memcpy(&status, start + AFPSTATUS_MACHOFF, sizeof(status));
    data += ntohs( status );

    if ((strlen(machine) + strlen(VERSION)) <= AFPSTATUS_MACHLEN) {
        len = snprintf(buf, AFPSTATUS_MACHLEN + 1, machine, VERSION);
    } else {
        if (strlen(VERSION) > AFPSTATUS_MACHLEN) {
            len = snprintf(buf, AFPSTATUS_MACHLEN + 1, VERSION);
        } else {
            (void)snprintf(buf, AFPSTATUS_MACHLEN + 1, machine, "");
            (void)snprintf(buf + AFPSTATUS_MACHLEN - strlen(VERSION),
                           strlen(VERSION) + 1,
                           VERSION);
            len = AFPSTATUS_MACHLEN;
        }
    }

    *data++ = len;
    memcpy( data, buf, len );
    data += len;

    status = htons(data - start);
    memcpy(start + AFPSTATUS_VERSOFF, &status, sizeof(status));
}

/* server signature is a 16-byte quantity */
static uint16_t status_signature(char *data, int *servoffset,
                                  const struct afp_options *options)
{
    char                 *status;
    uint16_t            offset, sigoff;

    status = data;

    /* get server signature offset */
    memcpy(&offset, data + *servoffset, sizeof(offset));
    sigoff = offset = ntohs(offset);

    /* jump to server signature offset */
    data += offset;

    memset(data, 0, 16);
    memcpy(data, options->signature, 16);
    data += 16;

    /* calculate net address offset */
    *servoffset += sizeof(offset);
    offset = htons(data - status);
    memcpy(status + *servoffset, &offset, sizeof(offset));
    return sigoff;
}

static size_t status_netaddress(char *data, int *servoffset,
                             const DSI *dsi,
                             const struct afp_options *options)
{
    char               *begin;
    uint16_t          offset;
    size_t             addresses_len = 0;

    begin = data;

    /* get net address offset */
    memcpy(&offset, data + *servoffset, sizeof(offset));
    data += ntohs(offset);

    /* format:
       Address count (byte) 
       len (byte = sizeof(length + address type + address) 
       address type (byte, ip address = 0x01, ip + port = 0x02,
                           ddp address = 0x03, fqdn = 0x04) 
       address (up to 254 bytes, ip = 4, ip + port = 6, ddp = 4)
       */

    /* number of addresses. this currently screws up if we have a dsi
       connection, but we don't have the ip address. to get around this,
       we turn off the status flag for tcp/ip. */
    *data++ = ((options->fqdn && dsi)? 1 : 0) + (dsi ? 1 : 0) +
              (((options->flags & OPTION_ANNOUNCESSH) && options->fqdn && dsi)? 1 : 0);

    /* ip address */
    if (dsi) {
        if (dsi->server.ss_family == AF_INET) { /* IPv4 */
            const struct sockaddr_in *inaddr = (struct sockaddr_in *)&dsi->server;
            if (inaddr->sin_port == htons(DSI_AFPOVERTCP_PORT)) {
                *data++ = 6; /* length */
                *data++ = 0x01; /* basic ip address */
                memcpy(data, &inaddr->sin_addr.s_addr,
                       sizeof(inaddr->sin_addr.s_addr));
                data += sizeof(inaddr->sin_addr.s_addr);
                addresses_len += 7;
            } else {
                /* ip address + port */
                *data++ = 8;
                *data++ = 0x02; /* ip address with port */
                memcpy(data, &inaddr->sin_addr.s_addr,
                       sizeof(inaddr->sin_addr.s_addr));
                data += sizeof(inaddr->sin_addr.s_addr);
                memcpy(data, &inaddr->sin_port, sizeof(inaddr->sin_port));
                data += sizeof(inaddr->sin_port);
                addresses_len += 9;
            }
        } else { /* IPv6 */
            const struct sockaddr_in6 *sa6 = (struct sockaddr_in6 *)&dsi->server;
            if (sa6->sin6_port == htons(DSI_AFPOVERTCP_PORT)) {
                *data++ = 18; /* length */
                *data++ = 6; /* type */
                memcpy(data, &sa6->sin6_addr.s6_addr, sizeof(sa6->sin6_addr.s6_addr));
                data += sizeof(sa6->sin6_addr.s6_addr);
                addresses_len += 19;
            } else {
                /* ip address + port */
                *data++ = 20; /* length */
                *data++ = 7; /* type*/
                memcpy(data, &sa6->sin6_addr.s6_addr, sizeof(sa6->sin6_addr.s6_addr));
                data += sizeof(sa6->sin6_addr.s6_addr);
                memcpy(data, &sa6->sin6_port, sizeof(sa6->sin6_port));
                data += sizeof(sa6->sin6_port);
                addresses_len += 21;
            }

        }
    }

    /* handle DNS names */
    if (options->fqdn && dsi) {
        size_t len = strlen(options->fqdn);
        if ( len + 2 + addresses_len < maxstatuslen - offset) {
            *data++ = len +2;
            *data++ = 0x04;
            memcpy(data, options->fqdn, len);
            data += len;
            addresses_len += len+2;
        }

        /* Annouce support for SSH tunneled AFP session, 
         * this feature is available since 10.3.2.
         * According to the specs (AFP 3.1 p.225) this should
         * be an IP+Port style value, but it only works with 
         * a FQDN. OSX Server uses FQDN as well.
         */
        if ( len + 2 + addresses_len < maxstatuslen - offset) {
            if (options->flags & OPTION_ANNOUNCESSH) {
                *data++ = len +2;
                *data++ = 0x05;
                memcpy(data, options->fqdn, len);
                data += len;
            }
        }
    }

    /* calculate/store Directory Services Names offset */
    offset = htons(data - begin); 
    *servoffset += sizeof(offset);
    memcpy(begin + *servoffset, &offset, sizeof(offset));

    /* return length of buffer */
    return (data - begin);
}

static bool append_directoryname(char **pdata,
                                 size_t offset,
                                 size_t *size,
                                 char* DirectoryNamesCount,
                                 size_t len,
                                 char *principal)
{
    if (sizeof(uint8_t) + len  > maxstatuslen - offset - *size) {
        LOG(log_error, logtype_afpd,
            "status:DirectoryNames: out of space for principal '%s' (len=%d)",
            principal, len);
        return false;
    } else if (len > 255) {
        LOG(log_error, logtype_afpd,
            "status:DirectoryNames: principal '%s' (len=%d) too long (max=255)",
            principal, len);
        return false;
    }

    LOG(log_info, logtype_afpd,
        "DirectoryNames[%d]=%s",
        *DirectoryNamesCount, principal);

    *DirectoryNamesCount += 1;
    char *data = *pdata;
    *data++ = len;
    strncpy(data, principal, len);

    *pdata += len + 1;
    *size += sizeof(uint8_t) + len;

    return true;
}

/**
 * DirectoryNamesCount offset: uint16_t
 * ...
 * DirectoryNamesCount: uint8_t
 * DirectoryNames: list of UTF-8 Pascal strings (uint8_t + char[1,255])
 */
static size_t status_directorynames(char *data,
                                    int *diroffset,
                                    const DSI *dsi _U_,
                                    const struct afp_options *options _U_)
{
    char *begin = data;
    uint16_t offset;

    memcpy(&offset, begin + *diroffset, sizeof(offset));
    offset = ntohs(offset);
    data += offset;

    char *DirectoryNamesCount = data++;
    size_t size = sizeof(uint8_t);
    *DirectoryNamesCount = 0;

    if (!uam_gss_enabled())
        goto offset_calc;

#ifdef HAVE_KERBEROS
    krb5_context context;
    krb5_error_code ret;
    const char *error_msg;

    if (krb5_init_context(&context)) {
        LOG(log_error, logtype_afpd,
            "status:DirectoryNames failed to intialize a krb5_context");
        goto offset_calc;
    }

    krb5_keytab keytab;
    if ((ret = krb5_kt_default(context, &keytab)))
        goto krb5_error;

    // figure out which service principal to use
    krb5_keytab_entry entry;
    char *principal;
    if (options->k5service && options->fqdn && options->k5realm) {
        LOG(log_debug, logtype_afpd,
            "status:DirectoryNames: using service principal specified in options");

        krb5_principal service_principal;
        if ((ret = krb5_build_principal(context,
                                        &service_principal,
                                        strlen(options->k5realm),
                                        options->k5realm,
                                        options->k5service,
                                        options->fqdn,
                                        NULL)))
            goto krb5_error;

        // try to get the given service principal from keytab
        ret = krb5_kt_get_entry(context,
                                keytab,
                                service_principal,
                                0, // kvno - wildcard
                                0, // enctype - wildcard
                                &entry);
        if (ret == KRB5_KT_NOTFOUND) {
            krb5_unparse_name(context, service_principal, &principal);
            LOG(log_error, logtype_afpd,
                "status:DirectoryNames: specified service principal '%s' not found in keytab",
                principal);
            // XXX: should this be krb5_xfree?
#ifdef HAVE_KRB5_FREE_UNPARSED_NAME
            krb5_free_unparsed_name(context, principal);
#else
            krb5_xfree(principal);
#endif
            goto krb5_cleanup;
        }
        krb5_free_principal(context, service_principal);
        if (ret)
            goto krb5_error;
    } else {
        LOG(log_debug, logtype_afpd,
            "status:DirectoryNames: using first entry from keytab as service principal");

        krb5_kt_cursor cursor;
        if ((ret = krb5_kt_start_seq_get(context, keytab, &cursor)))
            goto krb5_error;

        ret = krb5_kt_next_entry(context, keytab, &entry, &cursor);
        krb5_kt_end_seq_get(context, keytab, &cursor);
        if (ret)
            goto krb5_error;
    }

    krb5_unparse_name(context, entry.principal, &principal);
    krb5_free_keytab_entry_contents(context, &entry);

    append_directoryname(&data,
                         offset,
                         &size,
                         DirectoryNamesCount,
                         strlen(principal),
                         principal);

    free(principal);
    goto krb5_cleanup;

krb5_error:
    if (ret) {
        error_msg = krb5_get_error_message(context, ret);
        LOG(log_note, logtype_afpd, "Can't get principal from default keytab: %s",
            (char *)error_msg);
#ifdef HAVE_KRB5_FREE_ERROR_MESSAGE
        krb5_free_error_message(context, error_msg);
#else
        krb5_xfree(error_msg);
#endif
    }

krb5_cleanup:
    krb5_kt_close(context, keytab);
    krb5_free_context(context);
#else
    if (!options->k5service || !options->fqdn || !options->k5realm)
        goto offset_calc;

    char principal[255];
    size_t len = snprintf(principal, sizeof(principal), "%s/%s@%s",
                          options->k5service, options->fqdn, options->k5realm);

    append_directoryname(&data,
                         offset,
                         &size,
                         DirectoryNamesCount,
                         strlen(principal),
                         principal);
#endif // HAVE_KERBEROS

offset_calc:
    /* Calculate and store offset for UTF8ServerName */
    *diroffset += sizeof(uint16_t);
    offset = htons(data - begin);
    memcpy(begin + *diroffset, &offset, sizeof(uint16_t));

    /* return length of buffer */
    return (data - begin);
}

static size_t status_utf8servername(char *data, int *nameoffset,
                                 const DSI *dsi _U_,
                                 const struct afp_options *options)
{
    uint16_t namelen;
    size_t len;
    char *begin = data;
    uint16_t offset;

    memcpy(&offset, data + *nameoffset, sizeof(offset));
    offset = ntohs(offset);
    data += offset;

    LOG(log_info, logtype_afpd, "servername: %s", options->hostname);

    if ((len = convert_string(options->unixcharset,
                              CH_UTF8_MAC, 
                              options->hostname,
                              -1,
                              data + sizeof(namelen),
                              maxstatuslen-offset)) == (size_t)-1) {
        LOG(log_error, logtype_afpd, "Could not set utf8 servername");

        /* set offset to 0 */
        memset(begin + *nameoffset, 0, sizeof(offset));
        data = begin + offset;
    } else {
        namelen = htons(len);
        memcpy( data, &namelen, sizeof(namelen));
        data += sizeof(namelen);
        data += len;
        offset = htons(offset);
        memcpy(begin + *nameoffset, &offset, sizeof(uint16_t));
    }

    /* return length of buffer */
    return (data - begin);

}

/* returns actual offset to signature */
static void status_icon(char *data, const unsigned char *icondata,
                        const int iconlen, const int sigoffset)
{
    char                *start = data;
    char                *sigdata = data + sigoffset;
    uint16_t            ret, status;

    memcpy(&status, start + AFPSTATUS_ICONOFF, sizeof(status));
    if ( icondata == NULL ) {
        ret = status;
        memset(start + AFPSTATUS_ICONOFF, 0, sizeof(status));
    } else {
        data += ntohs( status );
        memcpy( data, icondata, iconlen);
        data += iconlen;
        ret = htons(data - start);
    }

    /* put in signature offset */
    if (sigoffset)
        memcpy(sigdata, &ret, sizeof(ret));
}

/* ---------------------
 */
void status_init(AFPObj *obj, DSI *dsi)
{
    char *status = dsi->status;
    size_t statuslen;
    int c, sigoff, ipok = 0;
    const struct afp_options *options = &obj->options;

    maxstatuslen = sizeof(dsi->status);

    if (dsi->server.ss_family == AF_INET) { /* IPv4 */
        const struct sockaddr_in *sa4 = (struct sockaddr_in *)&dsi->server;
        ipok = sa4->sin_addr.s_addr ? 1 : 0;
    } else { /* IPv6 */
        const struct sockaddr_in6 *sa6 = (struct sockaddr_in6 *)&dsi->server;
        for (int i=0; i<16; i++) {
            if (sa6->sin6_addr.s6_addr[i]) {
                ipok = 1;
                break;
            }
        }
    }

    /*
     * These routines must be called in order -- earlier calls
     * set the offsets for later calls.
     *
     * using structs is a bad idea, but that's what the original code
     * does. solaris, in fact, will segfault with them. so, now
     * we just use the powers of #defines and memcpy.
     *
     * reply block layout (offsets are 16-bit quantities):
     * machine type offset -> AFP version count offset ->
     * UAM count offset -> vol icon/mask offset -> flags ->
     *
     * server name [padded to even boundary] -> signature offset ->
     * network address offset ->
     *
     * at the appropriate offsets:
     * machine type, afp versions, uams, server signature
     * (16-bytes), network addresses, volume icon/mask 
     */

    status_flags(status,
                 options->flags & OPTION_SERVERNOTIF,
                 (options->fqdn || ipok),
                 options->passwdbits, 
                 1,
                 options->flags);
    /* returns offset to signature offset */
    c = status_server(status, options->hostname, options);
    status_machine(status);
    status_versions(status, dsi);
    status_uams(status, options->uamlist);
    status_icon(status, icon, sizeof(icon), c);

    sigoff = status_signature(status, &c, options);
    /* c now contains the offset where the netaddress offset lives */

    status_netaddress(status, &c, dsi, options);
    /* c now contains the offset where the Directory Names Count offset lives */

    statuslen = status_directorynames(status, &c, dsi, options);
    /* c now contains the offset where the UTF-8 ServerName offset lives */

    if ( statuslen < maxstatuslen) 
        statuslen = status_utf8servername(status, &c, dsi, options);

    dsi->signature = status + sigoff;
    dsi->statuslen = statuslen;
}

/* set_signature()                                                    */
/*                                                                    */
/* If found in conf file, use it.                                     */
/* If not found in conf file, genarate and append in conf file.       */
/* If conf file don't exist, create and genarate.                     */
/* If cannot open conf file, use one-time signature.                  */
/* If signature = xxxxx, use it.                                      */

void set_signature(struct afp_options *options) {
    int fd, i;
    struct stat tmpstat;
    char *servername_conf;
    int header = 0;
    char buf[1024], *p;
    FILE *fp = NULL;
    size_t len;
    char *server_tmp;
    
    server_tmp = options->hostname;
    len = strlen(options->signatureopt);
    if (len == 0) {
        goto server_signature_auto;   /* default */
    } else if (len < 3) {
        LOG(log_warning, logtype_afpd, "WARNING: signature string %s is very short !", options->signatureopt);
        goto server_signature_user;
    } else if (len > 16) {
        LOG(log_warning, logtype_afpd, "WARNING: signature string %s is very long !", options->signatureopt);
        len = 16;
        goto server_signature_user;
    } else {
        LOG(log_info, logtype_afpd, "signature string is %s.", options->signatureopt);
        goto server_signature_user;
    }
    
server_signature_user:
    
    /* Signature is defined in afp.conf */
    memset(options->signature, 0, 16);
    memcpy(options->signature, options->signatureopt, len);
    goto server_signature_done;
    
server_signature_auto:
    
    /* Signature type is auto, using afp_signature.conf */
    if (!stat(options->sigconffile, &tmpstat)) {                /* conf file exists? */
        if ((fp = fopen(options->sigconffile, "r")) != NULL) {  /* read open? */
            /* scan in the conf file */
            while (fgets(buf, sizeof(buf), fp) != NULL) { 
                p = buf;
                while (p && isblank(*p))
                    p++;
                if (!p || (*p == '#') || (*p == '\n'))
                    continue;                             /* invalid line */
                if (*p == '"') {
                    p++;
                    if ((servername_conf = strtok( p, "\"" )) == NULL)
                        continue;                         /* syntax error: invalid quoted servername */
                } else {
                    if ((servername_conf = strtok( p, " \t" )) == NULL)
                        continue;                         /* syntax error: invalid servername */
                }
                p = strchr(p, '\0');
                p++;
                if (*p == '\0')
                    continue;                             /* syntax error: missing signature */
                
                if (strcmp(server_tmp, servername_conf))
                    continue;                             /* another servername */
                
                while (p && isblank(*p))
                    p++;
                if ( 16 == sscanf(p, "%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX%2hhX",
                                  &options->signature[ 0], &options->signature[ 1],
                                  &options->signature[ 2], &options->signature[ 3],
                                  &options->signature[ 4], &options->signature[ 5],
                                  &options->signature[ 6], &options->signature[ 7],
                                  &options->signature[ 8], &options->signature[ 9],
                                  &options->signature[10], &options->signature[11],
                                  &options->signature[12], &options->signature[13],
                                  &options->signature[14], &options->signature[15]
                         )) {
                    fclose(fp);
                    goto server_signature_done;                 /* found in conf file */
                }
            }
            if ((fp = freopen(options->sigconffile, "a+", fp)) != NULL) { /* append because not found */
                fseek(fp, 0L, SEEK_END);
                if(ftell(fp) == 0) {                     /* size = 0 */
                    header = 1;
                    goto server_signature_random;
                } else {
                    fseek(fp, -1L, SEEK_END);
                    if(fgetc(fp) != '\n') fputc('\n', fp); /* last char is \n? */
                    goto server_signature_random;
                }                    
            } else {
                LOG(log_error, logtype_afpd, "ERROR: Cannot write in %s (%s). Using one-time signature.",
                    options->sigconffile, strerror(errno));
                goto server_signature_random;
            }
        } else {
            LOG(log_error, logtype_afpd, "ERROR: Cannot read %s (%s). Using one-time signature.",
                options->sigconffile, strerror(errno));
            goto server_signature_random;
        }
    } else {                                                          /* conf file don't exist */
        if (( fd = creat(options->sigconffile, 0644 )) < 0 ) {
            LOG(log_error, logtype_afpd, "ERROR: Cannot create %s (%s). Using one-time signature.",
                options->sigconffile, strerror(errno));
            goto server_signature_random;
        }
        if (( fp = fdopen( fd, "w" )) == NULL ) {
            LOG(log_error, logtype_afpd, "ERROR: Cannot fdopen %s (%s). Using one-time signature.",
                options->sigconffile, strerror(errno));
            close(fd);
            goto server_signature_random;
        }
        header = 1;
        goto server_signature_random;
    }
    
server_signature_random:
    
    /* generate signature from random number */
    randombytes(options->signature, 16);

    if (fp && header) { /* conf file is created or size=0 */
        fprintf(fp, "# DON'T TOUCH NOR COPY THOUGHTLESSLY!\n");
        fprintf(fp, "# This file is auto-generated by afpd.\n");
        fprintf(fp, "# \n");
        fprintf(fp, "# ServerSignature is unique identifier used to prevent logging on to\n");
        fprintf(fp, "# the same server twice.\n");
        fprintf(fp, "# \n");
        fprintf(fp, "# If setting \"signature = xxxxx\" in afp.conf, this file is not used.\n\n");
    }
    
    if (fp) {
        fprintf(fp, "\"%s\"\t", server_tmp);
        for (i=0 ; i<16 ; i++) {
            fprintf(fp, "%02X", (options->signature)[i]);
        }
        fprintf(fp, "%s", "\n");
        fclose(fp);
    }
    
server_signature_done:
    
    /* retrun */
    LOG(log_info, logtype_afpd,
        "signature is %02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X",
        (options->signature)[ 0], (options->signature)[ 1],
        (options->signature)[ 2], (options->signature)[ 3],
        (options->signature)[ 4], (options->signature)[ 5],
        (options->signature)[ 6], (options->signature)[ 7],
        (options->signature)[ 8], (options->signature)[ 9],
        (options->signature)[10], (options->signature)[11],
        (options->signature)[12], (options->signature)[13],
        (options->signature)[14], (options->signature)[15]);
    
    return;
}

/* this is the same as asp/dsi_getstatus */
int afp_getsrvrinfo(AFPObj *obj, char *ibuf _U_, size_t ibuflen _U_, char *rbuf, size_t *rbuflen)
{
    memcpy(rbuf, obj->dsi->status, obj->dsi->statuslen);
    *rbuflen = obj->dsi->statuslen;

    return AFP_OK;
}