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.\" Copyright (c) 1985 The Regents of the University of California. .\" All rights reserved. .\" .\" Redistribution and use in source and binary forms, with or without .\" modification, are permitted provided that the following conditions .\" are met: .\" 1. Redistributions of source code must retain the above copyright .\" notice, this list of conditions and the following disclaimer. .\" 2. Redistributions in binary form must reproduce the above copyright .\" notice, this list of conditions and the following disclaimer in the .\" documentation and/or other materials provided with the distribution. .\" 3. All advertising materials mentioning features or use of this software .\" must display the following acknowledgement: .\" This product includes software developed by the University of .\" California, Berkeley and its contributors. .\" 4. Neither the name of the University nor the names of its contributors .\" may be used to endorse or promote products derived from this software .\" without specific prior written permission. .\" .\" THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND .\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE .\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE .\" ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE .\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL .\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS .\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) .\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT .\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY .\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF .\" SUCH DAMAGE. .\" .\" @(#)5.t 5.1 (Berkeley) 4/17/91 .\" .\" $FreeBSD: release/9.1.0/share/doc/papers/sysperf/5.t 108470 2002-12-30 21:18:15Z schweikh $ .\" .ds RH Functional Extensions .NH Functional Extensions .PP Some of the facilities introduced in 4.2BSD were not completely implemented. An important part of the effort that went into 4.3BSD was to clean up and unify both new and old facilities. .NH 2 Kernel Extensions .PP A significant effort went into improving the networking part of the kernel. The work consisted of fixing bugs, tuning the algorithms, and revamping the lowest levels of the system to better handle heterogeneous network topologies. .NH 3 Subnets, Broadcasts and Gateways .PP To allow sites to expand their network in an autonomous and orderly fashion, subnetworks have been introduced in 4.3BSD [GADS85]. This facility allows sites to subdivide their local Internet address space into multiple subnetwork address spaces that are visible only by hosts at that site. To off-site hosts machines on a site's subnetworks appear to reside on a single network. The routing daemon has been reworked to provide routing support in this type of environment. .PP The default Internet broadcast address is now specified with a host part of all one's, rather than all zero's. The broadcast address may be set at boot time on a per-interface basis. .NH 3 Interface Addressing .PP The organization of network interfaces has been reworked to more cleanly support multiple network protocols. Network interfaces no longer contain a host's address on that network; instead each interface contains a pointer to a list of addresses assigned to that interface. This permits a single interface to support, for example, Internet protocols at the same time as XNS protocols. .PP The Address Resolution Protocol (ARP) support for 10 megabyte/second Ethernet\(dg .FS \(dg Ethernet is a trademark of Xerox. .FE has been made more flexible by allowing hosts to act as a ``clearing house'' for hosts that do not support ARP. In addition, system managers have more control over the contents of the ARP translation cache and may interactively interrogate and modify the cache's contents. .NH 3 User Control of Network Buffering .PP Although the system allocates reasonable default amounts of buffering for most connections, certain operations such as file system dumps to remote machines benefit from significant increases in buffering [Walsh84]. The \fIsetsockopt\fP system call has been extended to allow such requests. In addition, \fIgetsockopt\fP and \fIsetsockopt\fP, are now interfaced to the protocol level allowing protocol-specific options to be manipulated by the user. .NH 3 Number of File Descriptors .PP To allow full use of the many descriptor based services available, the previous hard limit of 30 open files per process has been relaxed. The changes entailed generalizing \fIselect\fP to handle arrays of 32-bit words, removing the dependency on file descriptors from the page table entries, and limiting most of the linear scans of a process's file table. The default per-process descriptor limit was raised from 20 to 64, though there are no longer any hard upper limits on the number of file descriptors. .NH 3 Kernel Limits .PP Many internal kernel configuration limits have been increased by suitable modifications to data structures. The limit on physical memory has been changed from 8 megabyte to 64 megabyte, and the limit of 15 mounted file systems has been changed to 255. The maximum file system size has been increased to 8 gigabyte, number of processes to 65536, and per process size to 64 megabyte of data and 64 megabyte of stack. Note that these are upper bounds, the default limits for these quantities are tuned for systems with 4-8 megabyte of physical memory. .NH 3 Memory Management .PP The global clock page replacement algorithm used to have a single hand that was used both to mark and to reclaim memory. The first time that it encountered a page it would clear its reference bit. If the reference bit was still clear on its next pass across the page, it would reclaim the page. The use of a single hand does not work well with large physical memories as the time to complete a single revolution of the hand can take up to a minute or more. By the time the hand gets around to the marked pages, the information is usually no longer pertinent. During periods of sudden shortages, the page daemon will not be able to find any reclaimable pages until it has completed a full revolution. To alleviate this problem, the clock hand has been split into two separate hands. The front hand clears the reference bits, the back hand follows a constant number of pages behind reclaiming pages that still have cleared reference bits. While the code has been written to allow the distance between the hands to be varied, we have not found any algorithms suitable for determining how to dynamically adjust this distance. .PP The configuration of the virtual memory system used to require a significant understanding of its operation to do such simple tasks as increasing the maximum process size. This process has been significantly improved so that the most common configuration parameters, such as the virtual memory sizes, can be specified using a single option in the configuration file. Standard configurations support data and stack segments of 17, 33 and 64 megabytes. .NH 3 Signals .PP The 4.2BSD signal implementation would push several words onto the normal run-time stack before switching to an alternate signal stack. The 4.3BSD implementation has been corrected so that the entire signal handler's state is now pushed onto the signal stack. Another limitation in the original signal implementation was that it used an undocumented system call to return from signals. Users could not write their own return from exceptions; 4.3BSD formally specifies the \fIsigreturn\fP system call. .PP Many existing programs depend on interrupted system calls. The restartable system call semantics of 4.2BSD signals caused many of these programs to break. To simplify porting of programs from inferior versions of .UX the \fIsigvec\fP system call has been extended so that programmers may specify that system calls are not to be restarted after particular signals. .NH 3 System Logging .PP A system logging facility has been added that sends kernel messages to the syslog daemon for logging in /usr/adm/messages and possibly for printing on the system console. The revised scheme for logging messages eliminates the time lag in updating the messages file, unifies the format of kernel messages, provides a finer granularity of control over the messages that get printed on the console, and eliminates the degradation in response during the printing of low-priority kernel messages. Recoverable system errors and common resource limitations are logged using this facility. Most system utilities such as init and login, have been modified to log errors to syslog rather than writing directly on the console. .NH 3 Windows .PP The tty structure has been augmented to hold information about the size of an associated window or terminal. These sizes can be obtained by programs such as editors that want to know the size of the screen they are manipulating. When these sizes are changed, a new signal, SIGWINCH, is sent the current process group. The editors have been modified to catch this signal and reshape their view of the world, and the remote login program and server now cooperate to propagate window sizes and window size changes across a network. Other programs and libraries such as curses that need the width or height of the screen have been modified to use this facility as well. .NH 3 Configuration of UNIBUS Devices .PP The UNIBUS configuration routines have been extended to allow auto-configuration of dedicated UNIBUS memory held by devices. The new routines simplify the configuration of memory-mapped devices and correct problems occurring on reset of the UNIBUS. .NH 3 Disk Recovery from Errors .PP The MASSBUS disk driver's error recovery routines have been fixed to retry before correcting ECC errors, support ECC on bad-sector replacements, and correctly attempt retries after earlier corrective actions in the same transfer. The error messages are more accurate. .NH 2 Functional Extensions to Libraries and Utilities .PP Most of the changes to the utilities and libraries have been to allow them to handle a more general set of problems, or to handle the same set of problems more quickly. .NH 3 Name Server .PP In 4.2BSD the name resolution routines (\fIgethostbyname\fP, \fIgetservbyname\fP, etc.) were implemented by a set of database files maintained on the local machine. Inconsistencies or obsolescence in these files resulted in inaccessibility of hosts or services. In 4.3BSD these files may be replaced by a network name server that can insure a consistent view of the name space in a multimachine environment. This name server operates in accordance with Internet standards for service on the ARPANET [Mockapetris83]. .NH 3 System Management .PP A new utility, \fIrdist\fP, has been provided to assist system managers in keeping all their machines up to date with a consistent set of sources and binaries. A master set of sources may reside on a single central machine, or be distributed at (known) locations throughout the environment. New versions of \fIgetty\fP, \fIinit\fP, and \fIlogin\fP merge the functions of several files into a single place, and allow more flexibility in the startup of processes such as window managers. .PP The new utility \fItimed\fP keeps the time on a group of cooperating machines (within a single LAN) synchronized to within 30 milliseconds. It does its corrections using a new system call that changes the rate of time advance without stopping or reversing the system clock. It normally selects one machine to act as a master. If the master dies or is partitioned, a new master is elected. Other machines may participate in a purely slave role. .NH 3 Routing .PP Many bugs in the routing daemon have been fixed; it is considerably more robust, and now understands how to properly deal with subnets and point-to-point networks. Its operation has been made more efficient by tuning with the use of execution profiles, along with inline expansion of common operations using the kernel's \fIinline\fP optimizer. .NH 3 Compilers .PP The symbolic debugger \fIdbx\fP has had many new features added, and all the known bugs fixed. In addition \fIdbx\fP has been extended to work with the Pascal compiler. The fortran compiler \fIf77\fP has had numerous bugs fixed. The C compiler has been modified so that it can, optionally, generate single precision floating point instructions when operating on single precision variables.