5.  Functi

      S[equation] the facilities intrimplemented. An imp[equation] the eff4.3BSD was t[equation] y b[equation] acilities.

5.1.  Kernel Extensi

      A significant effthe netw[equation] the kernel. The w[equation] fixing bugs, tuning the algand revamping the l[equation] the system t

5.1.1.  Subnets, Br

      Tand [equation] ashiThis facility allspace int[equation] f-site hsubnetwhas been rew[equation] envir

      The default Internet br[equation] ied with a h all The br[equation] ace basis.

5.1.2.  Interface Addressing

      The [equation] netw[equation] aces has been rewnetw[equation] aces nceach interface c[equation] addresses assigned t[equation] ace. This permits a single interface t[equation] at the same time as XNS pr

      The Address Resfhas been made m[equation] lexible by allact as an ``clearing h[equation] nm[equation] the ARP translaticache and may interactively interr[equation] y the cache's c

5.1.3.  User C[equation] Netw[equation] fering

      Alth[equation] ault am[equation] buffering f[equation] ile system dumps t[equation] it fr[equation] icant increases in buffering [Walsh84]. The sets[equation] P system call has been extended tIn additi[equation] Igets[equation] P and sets[equation] P, are n[equation] aced t[equation] ic

5.1.4.  Number File Descript

      T[equation] ull use the many descriptthe previ[equation] 30 [equation] iles per prThe changes entailed generalizing select t[equation] 32-bit w[equation] ile descript[equation] rthe page table entries, and limiting m[equation] the linear scans a pr[equation] ile table. The default per-pr[equation] rth file descript

5.1.5.  Kernel Limits

      Many internal kernel c[equation] iguratim[equation] icatiThe limit [equation] rand the limit 15 m[equation] ile systems has been changed tThe maximum file system size has been increased tnumber prand per pr[equation] data and 64 megabyte stack. Nthe default limits f[equation] with 4-8 megabyte physical mem

5.1.6.  Mem

      The glhand that was used bThe first time that it enc[equation] erence bit. If the reference bit was still clear it wThe use a single hand dmem[equation] the hand can take up tBy the time the hand gets arthe infDuring peri[equation] sudden shthe page daem[equation] ind any reclaimable pages until it has c[equation] ull revTthe clThe fr[equation] erence bits, the back hand f[equation] pages behind reclaiming pages that still have cleared reference bits. While the cthe hands t[equation] suitable f

      The c[equation] igurati[equation] the virtual mema significant understanding its simple tasks as increasing the maximum prThis pr[equation] icantly imprc[equation] iguratican be specified using a single [equation] igurati[equation] ile. Standard c[equation] igurati 17, 33 and 64 megabytes.

5.1.7.  Signals

      The 4.2BSD signal implementati[equation] alternate signal stack. The 4.3BSD implementatithe entire signal handler's state is nAnthat it used an und[equation] rUsers c[equation] r4.3BSD f[equation] ies the sigreturn system call.

      Many existing prThe restartable system call semantics 4.2BSD signals caused many these prT[equation] y p[equation] pr[equation] r[equation] eri[equation] UNIXthe sigvec system call has been extended spr[equation] y that system calls are nrestarted after particular signals.

5.1.8.  System L

      A system l[equation] acility has been added that sends kernel messages tsysl[equation] [equation] printing The revised scheme feliminates the time lag in updating the messages file, unifies the f[equation] kernel messages, pr[equation] iner granularity cthat get printed and eliminates the degradati[equation] lRecusing this facility. Mhave been m[equation] ied trather than writing directly

5.1.9.  Wind

      The tty structure has been augmented tinf an assThese sizes can be t[equation] the screen they are manipulating. When these sizes are changed, a new signal, SIGWINCH, is sent the current prThe edit[equation] ied ttheir view the wnacrOther pr[equation] the screen have been m[equation] ied t[equation] acility as well.

5.1.10.  C[equation] igurati[equation] UNIBUS Devices

      The UNIBUS c[equation] igurati[equation] igurati dedicated UNIBUS memThe new r[equation] y the c[equation] igurati[equation] memand c[equation] the UNIBUS.

5.1.11.  Disk Rec[equation] r

      The MASSBUS disk driver's err[equation] ixed tretry befand c[equation] ter earlier c[equation] er. The err

5.2.  Functi

      M[equation] the changes tall[equation] pr[equation] pr

5.2.1.  Name Server

      In 4.2BSD the name res[equation] Igeth[equation] P, getservbyname, etc.) were implemented by a set database files maintained lInc[equation] iles resulted in inaccessibility hIn 4.3BSD these files may be replaced by a netwinsure a c[equation] the name space in a multimachine envirThis name server f

5.2.2.  System Management

      A new utility, rdist, has been prall their machines up t[equation] sA master set sNew versi[equation] getty, init, and l[equation] P merge the functi[equation] several files int[equation] lexibility in the startup pr

      The new utility timed keeps the time [equation] c(within a single LAN) synchrIt dthe rate time advance withIt nIf the master dies Other machines may participate in a purely slave r

5.2.3.  R

      Many bugs in the r[equation] ixed; it is cand nsubnets and pIts [equation] ficient by tuning with the use executi[equation] iles, al[equation] cusing the kernel's inline

5.2.4.  C

      The symb[equation] Idbx has had many new features added, and all the kn[equation] ixed. In additi[equation] Idbx has been extended tThe f[equation] If77 has had numer[equation] ixed. The C c[equation] ied sgenerate single precisi[equation] l