dccd(8)               Distributed Checksum Clearinghouse               dccd(8)


NAME

     dccd -- Distributed Checksum Clearinghouse Daemon


SYNOPSIS

     dccd [-dVbfFQ] -i server-ID [-n brand] [-h homedir] -I [host-ID][,user]
          [-a [server-addr][,server-port]] [-q qsize]
          [-G [on,][weak-body,][weak-IP,][embargo][,window][,white]]
          [-W [rate][,chg][,dbsize]] [-K [no-]type] [-T [no-]tracemode]
          [-u anon-delay[,inflate]] [-C dbclean] [-L ltype,facility.level]
          [-R [RL_SUB],[RL_ANON],[RL_ALL_ANON],[RL_BUGS]]


DESCRIPTION

     Dccd receives reports of checksums related to mail received by DCC
     clients and queries about the total number of reports of particular
     checksums.  A DCC server never receives mail, address, headers, or other
     information from clients, but only cryptographically secure checksums of
     such information.  A DCC server cannot determine the text or other infor-
     mation that corresponds to the checksums it receives.  It only acts as a
     clearinghouse of total counts of checksums computed by clients.

     Each DCC server is identified by a numeric server-ID.  Each DCC client is
     identified by a client-ID, either explicitly listed in the /var/dcc/ids
     file or the special anonymous client-ID.  Many computers are expected to
     share a single client-ID.  A server-ID is between 100 and 32768 while a
     client-ID is between 32768 and 16777215.  DCC server-IDs need be known
     only to DCC servers and the people running them.  The passwords associ-
     ated with DCC server-IDs should be protected, because DCC servers listen
     to commands authenticated with server-IDs and their associated passwords.
     Each client that does not use the anonymous ID must know the client-ID
     and password used by each of its servers.  A single client computer can
     use different passwords with different server computers.  See the
     /var/dcc/ids file.

     A /var/dcc/whitelist of known good (or bad) sources of email prevents
     legitimate mailing lists from being seen as unsolicited bulk email by DCC
     clients.  The whitelist used by a DCC server is built into the database
     when old entries are removed by dbclean(8).  Each DCC client has its own,
     local whitelist, and in general, whitelists work better in DCC clients
     than servers.

     A dccd /var/dcc/whitelist file containing IP addresses that should be in
     client whiteclnt files is useful.  When -T WLIST tracing is enabled (as
     it is by default), dccd complains to the system log when an authenticated
     client reports mail from IP addresses listed as OK, MX, or MXDCC.  It is
     often useful to have a /var/dcc/whitecommon file containing whitelisted
     IP addresses.

     The effectiveness of a Distributed Checksum Clearinghouse increases as
     the number of subscribers increases.  Flooding reports of checksums among
     DCC servers increases the effective number of subscribers to each server.
     Each dccd daemon tries to maintain TCP/IP connections to the other
     servers listed in the /var/dcc/flod file, and send them reports contain-
     ing checksums with total counts exceeding thresholds.  Changes in the
     flod file are noticed automatically within minutes.

     Controls on report flooding are specified in the flod file.  Each line
     specifies a hostname and port number to which reports should be flooded,
     a server-ID to identify and authenticate the output stream, a server-ID
     to identify and authenticate an input stream from the same server, and
     flags with each ID.  The ability to delete reports of checksums is handy,
     but could be abused.  If del is not present among the in-opts options for
     the incoming ID, incoming delete requests are logged and then ignored.
     Floods from DCC "brands" that count only mail to spam traps and whose
     servers use the -Q option to count extremely bulk mail should be marked
     with traps.  They can be seen as counting millions of targets, so the
     traps flag on their /var/dcc/flod file entry changes their incoming
     flooded reports counts to many.

     Dccd automatically checks its /var/dcc/flod and /var/dcc/ids files peri-
     odically.  Cdcc(8) has the commands new ids and flood check to tell dccd
     to check those two files immediately.  Both files are also checked for
     changes after the SIGHUP signal.

   OPTIONS
     The following options are available.  Most of them should set by changing
     the /var/dcc/dcc_conf control file.

     -d   enables debugging output.  Additional -d options increase the number
          of messages.

     -V   displays the version of the DCC server daemon.  Two or more -V
          options show the options with which it was built.

     -b   causes the server to not detach itself from the controlling tty or
          put itself into the background.

     -F   uses write() instead of mmap() and msync() in some cases to modify
          the DCC database.  It is the default on Solaris except when the
          database is in a memory mapped file system.  See -f.

     -f   uses mmap() and msync() to modify the DCC database.  See -F.

     -Q   causes the server to treat reports of checksums as queries except
          from DCC clients marked trusted in the /var/dcc/ids file with
          rpt-ok.  See -u to turn off access by anonymous or unauthenticated
          clients.

     -i server-ID
          specifies the ID of this DCC server.  Each server identifies itself
          as responsible for checksums that it forwards to other servers.

     -n brand
          is an arbitrary string of letters and numbers that identifies the
          organization running the DCC server.  The brand is required, and
          appears in the SMTP X-DCC headers generated by the DCC.

     -h homedir
          overrides the default DCC home directory, /var/dcc.

     -I [host-ID][,user]
          sets the UID and GID of the process or the server's name for asser-
          tions of its -i server-ID flooded to peers.  The default name is the
          first 16 characters of the host name.  If present, user must be a
          valid user name.

     -a [server-addr][,server-port]
          adds an hostname or IP address to the list of local IP addresses
          that the server answers.  Multiple -a options can be used to specify
          a subset of the available network interfaces or to use more than one
          port number.  The default without any -a options is to listen on all
          local IP addresses.  It can be useful to list some of the IP
          addresses of multi-homed hosts to deal with firewalls.  By default
          server-port is 6277 for DCC servers and 6276 for greylist servers.
          It is the UDP port at which DCC requests are received and the TCP
          port for incoming floods of reports.

          If server-addr is absent and if the getifaddrs(8) function is sup-
          ported, separate UDP sockets are bound to each configured network
          interface so that each DCC clients receives replies from the IP
          addresses to which corresponding request are sent.  If dccd is
          started before all network interfaces are turned on or there are
          interfaces that are turned on and off or change their addresses such
          as PPP interfaces, then the special string @ should be used to tell
          dccd to bind to an INADDR_ANY UDP socket.

          Outgoing TCP connections to flood checksum reports to other DCC
          servers used the IP address of a single -a option, but only if there
          is single option that is not localhost.  See also the /var/dcc/flod
          file.

     -q qsize
          specifies the maximum size of the queue of requests from anonymous
          or unauthenticated clients.  The default value is the maximum DCC
          RTT in seconds times 200 or 1000.

     -G [on,][weak-body,][weak-IP,][embargo][,window][,white]
          changes dccd to a greylist server for dccm(8) or dccifd(8).
          Greylisting consists of temporarily rejecting or embargoing mail
          from unfamiliar combinations of SMTP client IP address, SMTP enve-
          lope sender, and SMTP envelope recipient.  If the SMTP client per-
          sists for embargo seconds and so is probably not an open proxy,
          worm-infected personal computer, or other transient source of spam,
          the triple of (IP address,sender,recipient) is added to a database
          similar to the usual DCC database.  If the SMTP client does not try
          again after embargo seconds and before window seconds after the
          first attempt, the triple is forgotten.  If the SMTP client persists
          past the embargo, the triple is added to the database and becomes
          familiar and the message is accepted.  Familiar triples are remem-
          bered for white seconds after the last accepted mail message.  The
          triple is forgotten if it is ever associated with unsolicited bulk
          email.

          All three durations can be a number of minutes, hours, days, or
          weeks followed by MINUTES, M, HOURS, H, DAYS, D, WEEKS or W.  The
          default is -G 270seconds,7days,63days.  The first duration or the
          embargo should be longer than open proxies can linger retransmit-
          ting.  The second window time should be as long as legitimate mail
          servers persist in retransmitting to recognize embargoed messages
          whose retransmissions were not received because of network or other
          problems.  The white time should be long enough to recognize and not
          embargo messages from regular senders.

          Usually the DCC greylist system requires that an almost identical
          copy of the message be retransmitted during the embargo.  If
          weak-body is present, any message with the same triple of sender IP
          address, sender mail address, and target mail address ends the
          embargo, even if the body of the message differs.

          If weak-IP is present, all mail from an SMTP client at an IP address
          is accept after any message from the same IP address has been
          accepted.

          Unlike DCC checksums, the contents of greylist databases are private
          and do not benefit from broad sharing.  However, large installations
          can use more two or more greylist servers flooding triples among
          themselves.  Flooding among greylist servers is controlled by the
          /var/dcc/grey_flod file.

          All greylist cooperating or flooding greylist servers must use the
          same -G values.

          Clients of greylist servers cannot be anonymous and must have
          client-IDs and passwords assigned in the /var/dcc/ids file.  This
          implies that cdcc commands directed to greylist servers must specify
          the server-ID.

          White- and blacklists are honored by the DCC clients.  whitelisted
          messages are embargoed or checked with a greylist server.  The
          greylist triples of blacklisted messages, messages whose DCC counts
          make them spam, and other messages known to be spam are sent to a
          greylist server to be removed from the greylist database and cause
          an embargo on the next messages with those triples.

          Messages whose checksums match greylist server whitelists are not
          embargoed and the checksums of their triples are not added to the
          greylist database.

          The target counts of embargoed messages are reported to the DCC net-
          work to improve the detection of bulk mail.

     -W [rate][,chg][,dbsize]
          controls quick database cleaning.  If the database is larger than
          dbsize in MBytes, the database has not recently been cleand and is
          not about to be cleaned, and dccd is receiving fewer than rate
          requests per second, or if telling DCC clients that the database is
          about to be cleaned reduces the requests/second by chg, then dccd
          starts dbclean(8) for a quick database cleaning.  The cleaning is
          abandoned if it takes too long.

          The defaults are equivalent to -W 1.0,40.0,RSS where RSS is the max-
          imum dccd resident set size displayed in the system log when the
          database is opened.  A rate of -W 0.0 disables quick cleanings.

     -K [no-]type
          marks checksums of type (not) be kept or counted in the database
          (unless they appear in the /var/dcc/whitelist file).  Explicit set-
          tings add to or remove from the initial contents of the list, which
          is equivalent to -K Body -K Fuz1 -K Fuz2.

     -T [no-]tracemode
          causes the server to trace or record some operations.  tracemode
          must be one of the following:
            ADMN    administrative requests from the control program, cdcc(8)
            ANON    errors by anonymous clients
            CLNT    errors by authenticated clients
            RLIM    rate-limited messages
            QUERY   all queries and reports
            RIDC    some messages concerning the report-ID cache that is used
                    to detect duplicate reports from clients
            FLOOD1  messages about inter-server flooding connections
            FLOOD2  messages about flooded reports
            BL      requests from clients in the /var/dcc/blacklist file.
            DB      odd database events including long chains of duplicate
                    checksums
            WLIST   reports of whitelisted checksums from authenticated, not
                    anonymous DCC clients
          The default is ANON CLNT WLIST except for a greylist server which
          uses ANON CLNT WLIST IDS.

     -u anon-delay[,inflate]
          changes the number of milliseconds anonymous or unauthenticated
          clients must wait for answers to their queries and reports.  The
          purpose of this delay is to discourage large anonymous clients.  The
          anon-delay is multiplied by 1 plus the number of recent anonymous
          requests from IPv4 addresses in a /24 block or IPv6 addresses a /56
          block divided by the inflate value.

          The string FOREVER turns off all anonymous or unauthenticated access
          not only for checksum queries and reports but also cdcc(8) stats
          requests.  A missing value for inflate turns off inflation.

          The default value is 50, except when -G is used in which case
          FOREVER is assumed and required.

     -C dbclean
          changes the default name or path of the program used to rebuild the
          hash table when it becomes too full.  The default value is
          /var/dcc/libexec/dbclean.  The value can include arguments as in -C
          '/var/dcc/libexec/dbclean -F'.

          Dbclean should not be run by dccd except in emergencies such as
          database corruption or hash table overflow.  Dbclean(8) should be
          run daily with the /var/dcc/libexec/cron-dccd cron script

     -L ltype,facility.level
          specifies how messages should be logged.  Ltype must be error, info,
          or off to indicate which of the two types of messages are being con-
          trolled or to turn off all syslog(3) messages from dccd.  Level must
          be a syslog(3) level among EMERG, ALERT, CRIT, ERR, WARNING, NOTICE,
          INFO, and DEBUG.  Facility must be among AUTH, AUTHPRIV, CRON,
          DAEMON, FTP, KERN, LPR, MAIL, NEWS, USER, UUCP, and LOCAL0 through
          LOCAL7.  The default is equivalent to
                -L info,MAIL.NOTICE -L error,MAIL.ERR

     -R [RL_SUB],[RL_ANON],[RL_ALL_ANON],[RL_BUGS]
          sets one or more of the four rate-limits.  RL_SUB limits the number
          of DCC transactions per second from subscribers or DCC clients with
          known client-IDs and passwords.  This limit applies to each IP
          address independently.

          RL_ANON limits the number of DCC transactions per second from anony-
          mous DCC clients.  This limit applies to each IP address indepen-
          dently.  It is better to use -u than to change this value to exclude
          anonymous clients.

          RL_ALL_ANON limits the number of DCC transactions per second from
          all anonymous DCC clients.  This limit applies to all anonymous
          clients as a group, regardless of their IP addresses.

          RL_BUGS limits the number of complaints or error messages per second
          for all anonymous DCC clients as a group as well as for each DCC
          client by IP address.

          The default is equivalent to -R 400,50,2000,0.1


FILES

     /var/dcc  is the DCC home directory containing data and control files.
     dcc_conf  is the DCC control file.
     dcc_db    is the database of mail checksums.
     dcc_db.hash is the mail checksum database hash table.
     grey_db   is the database of greylist checksums.
     grey_db.hash is the greylist database hash table.
     flod      contains lines controlling DCC flooding of the form:
               host[,rport][;src[,lport]] rem-ID [passwd-ID [o-opt [i-opt]]]
               where absent optional values are signaled with "-" and
                host is the IP address or name of a DCC server and rport is
                    the name or number of the TCP port used by the remote
                    server.
                src and lport are the source IP address or host name and TCP
                    port from which the outgoing flooding connection should
                    come.  The string * specifies any source IP address.
                    Incoming flooding connections must arrive at an address
                    and port specified with -a.
                rem-id is the server-ID of the remote DCC server.
                passwd-ID is a server-ID that is not assigned to a server, but
                    whose first password is used to sign checksum reports sent
                    to the remote system.  Either of its passwords are
                    required with incoming reports.  If it is absent or "-",
                    outgoing floods are signed with the first password of the
                    local server in the ids file and incoming floods must be
                    signed with either password of the remote server-ID.
                i-opt and o-opt are comma separated lists of
                     off turns off flooding to the remote or local system.
                     no-del says checksum delete requests are refused by the
                         remote or local server and so turns off sending or
                         accepting delete requests, respectively.  By default,
                         delete requests are sent to remote servers and
                         accepted in incoming floods if and only if the peers
                         are exchanging DCC reputations.
                     del says delete requests are accepted by the remote or
                         local server.
                     no-log-del turns off logging of incoming requests to
                         delete checksums.
                     passive is used to tell a server outside a firewall to
                         expect a peer inside to create both of the pair of
                         input and output TCP connections used for flooding.
                         The peer inside the firewall should use SOCKS or NAT
                         on its flod file entry for this system.
                     SOCKS is used to tell a server inside a firewall that it
                         should create both of the TCP connections used for
                         flooding and that SOCKS protocol should be used.  The
                         peer outside the firewall should use passive on its
                         flod file entry for this system.
                     NAT differs from SOCKS only by not using the SOCKS proto-
                         col.
                     IDS->result converts server-IDs in flooded reports.  IDS
                         may be the string `self' to specify the server's own
                         ID.  IDS can instead be the string `all' to specify
                         all server-IDs or a pair of server-IDs separated by a
                         dash to specify an inclusive range.  result can be
                         the string `self' to translate to the server's own
                         ID.  `ok' sends or receives reports without transla-
                         tion.  The string `reject' to not send outgoing or
                         refuse incoming reports.  Only the first matching
                         conversion is applied.  For example, when
                         `self->ok,all->reject' is applied to a locally gener-
                         ated report, the first conversion is made and the
                         second is ignored.
                     leaf=path-len does not send reports with paths longer
                         than path-len server-IDs.  A path-len of 0 blocks
                         reports from this server.
                     IPv4 requires only IPv4 addresses to connect to this
                         flooding peer.
                     IPv6 requires only IPv6 addresses to connect to this
                         flooding peer.
                     vers specifies the version of the DCC flooding protocol
                         used by the remote DCC server with a string such as
                         `version2'.
                     trace1 sends information about a single peer like the
                         cdcc(8) command trace FLOOD1 on does for all peers.
                     trace2 sends information about individual flooded reports
                         like the cdcc(8) command trace FLOOD2 on does for all
                         peers.
     grey_flod is the equivalent of the /var/dcc/flod file used by dccd when
               it is a greylist server.
     flod.map  is an automatically generated file in which dccd records its
               progress sending or flooding reports to DCC peers.
     grey_flod.map is the equivalent of the /var/dcc/flod.map file used by
               dccd when it is a greylist server.
     ids       contains the IDs and passwords known by the DCC server.  An ids
               file that can be read by others cannot be used.  It contains
               blank lines, comments starting with "#" and lines of the form:
                     id[,rpt-ok][,trace][,delay=ms[*inflate]] pass1 [pass2]
               where
                id  is a DCC client-ID or server-ID.
                trace logs activity from clients and flooding peers using the
                    ID.
                rpt-ok overrides -Q by saying that this client is trusted to
                    report only checksums for unsolicited bulk mail.
                delay=ms[*inflate] delays answers to systems using the client
                    id.  The delay in milliseconds is multiplied by 1 plus the
                    number of recent requests from an IP address using id
                    divided by the inflate value.  See -u.
                pass1 is the password currently used by clients with identi-
                    fier id.  It is a 1 to 32 character string that does not
                    contain blank, tab, newline or carriage return characters.
                pass2 is the optional next password that those clients will
                    use.  A DCC server accepts either password if both are
                    present in the file.
               Both passwords can be absent if the entry not used except to
               tell dccd that server-IDs in the flooded reports are valid.
               The string unknown is equivalent to the null string.
     whitelist contains the DCC server whitelist.  It is not used directly but
               is loaded into the database when dbclean(8) is run.
     grey_whitelist contains the greylist server whitelist.  It is not used
               directly but is loaded into the database when dbclean(8) is run
               with -G.
     blacklist if present, contains a list of IP addresses and blocks of IP
               addresses of DCC clients and flooding peers that are ignored.
               Each line in the file should be blank, a comment starting with
               '#', or an IP address or block of IP addresses in the form
                     [trace,][ok,][bad,][no-anon][flood-ok] address
               Addresses are single IPv4 or IPv6 addresses, CIDR blocks in the
               usual form, or a pair of addresses separated by a hyphen (-)
               specifying an inclusive range.  The last line in the file that
               cover an address applies.  Changes to the file are automati-
               cally noticed within a few minutes.  An IP address is assigned
               all of the flags from all of lines that apply to it.  Addresses
               or blocks of addresses can be preceded with ok to "punch holes"
               in blacklisted blocks or specify tracing without blacklisting.
               Trace logs activity.  No-anon blacklists clients only when they
               use the anonymous client-ID.  flood-ok says that DCC flood
               peering is allowed.  Bad is assumed when only an address is
               present.  This mechanism is intended for no more than a few
               dozen blocks of addresses.
     dccd_clients contains client IP addresses and activity counts.
     grey_clients contains greylist client IP addresses and activity counts.


EXAMPLES

     dccd is usually started with other system daemons with something like the
     script /var/dcc/libexec/rcDCC.  That scripts uses values in
     /var/dcc/dcc_conf to start the server.  With the argument stop,
     /var/dcc/libexec/rcDCC can be used to stop the daemon.

     The database grows too large unless old reports are removed.  dbclean(8)
     should be run daily with the /var/dcc/libexec/cron-dccd cron(8) script


SEE ALSO

     cdcc(8), dcc(8), dbclean(8), dblist(8), dccifd(8), dccm(8), dccproc(8).
     dccsight(8),


HISTORY

     dccd is based on an idea from Paul Vixie.  It was designed and written at
     Rhyolite Software, starting in 2000.  This document describes version
     1.3.162.

                               December 06, 2017

Man(1) output converted with man2html modified for DCC $Date 2001/04/29 03:22:18 $