freebsd-skq/usr.bin/Makefile

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Makefile
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# From: @(#)Makefile 8.3 (Berkeley) 1/7/94
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# $FreeBSD$
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.include <src.opts.mk>
# XXX MISSING: deroff diction graph learn plot
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# spell spline struct xsend
# XXX Use GNU versions: diff ld patch
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# Moved to secure: bdes
#
SUBDIR= alias \
apply \
asa \
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awk \
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banner \
basename \
brandelf \
bsdiff \
bzip2 \
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bzip2recover \
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cap_mkdb \
chat \
chpass \
cksum \
cmp \
col \
colldef \
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colrm \
column \
comm \
compress \
cpuset \
csplit \
Add the CAM Target Layer (CTL). CTL is a disk and processor device emulation subsystem originally written for Copan Systems under Linux starting in 2003. It has been shipping in Copan (now SGI) products since 2005. It was ported to FreeBSD in 2008, and thanks to an agreement between SGI (who acquired Copan's assets in 2010) and Spectra Logic in 2010, CTL is available under a BSD-style license. The intent behind the agreement was that Spectra would work to get CTL into the FreeBSD tree. Some CTL features: - Disk and processor device emulation. - Tagged queueing - SCSI task attribute support (ordered, head of queue, simple tags) - SCSI implicit command ordering support. (e.g. if a read follows a mode select, the read will be blocked until the mode select completes.) - Full task management support (abort, LUN reset, target reset, etc.) - Support for multiple ports - Support for multiple simultaneous initiators - Support for multiple simultaneous backing stores - Persistent reservation support - Mode sense/select support - Error injection support - High Availability support (1) - All I/O handled in-kernel, no userland context switch overhead. (1) HA Support is just an API stub, and needs much more to be fully functional. ctl.c: The core of CTL. Command handlers and processing, character driver, and HA support are here. ctl.h: Basic function declarations and data structures. ctl_backend.c, ctl_backend.h: The basic CTL backend API. ctl_backend_block.c, ctl_backend_block.h: The block and file backend. This allows for using a disk or a file as the backing store for a LUN. Multiple threads are started to do I/O to the backing device, primarily because the VFS API requires that to get any concurrency. ctl_backend_ramdisk.c: A "fake" ramdisk backend. It only allocates a small amount of memory to act as a source and sink for reads and writes from an initiator. Therefore it cannot be used for any real data, but it can be used to test for throughput. It can also be used to test initiators' support for extremely large LUNs. ctl_cmd_table.c: This is a table with all 256 possible SCSI opcodes, and command handler functions defined for supported opcodes. ctl_debug.h: Debugging support. ctl_error.c, ctl_error.h: CTL-specific wrappers around the CAM sense building functions. ctl_frontend.c, ctl_frontend.h: These files define the basic CTL frontend port API. ctl_frontend_cam_sim.c: This is a CTL frontend port that is also a CAM SIM. This frontend allows for using CTL without any target-capable hardware. So any LUNs you create in CTL are visible in CAM via this port. ctl_frontend_internal.c, ctl_frontend_internal.h: This is a frontend port written for Copan to do some system-specific tasks that required sending commands into CTL from inside the kernel. This isn't entirely relevant to FreeBSD in general, but can perhaps be repurposed. ctl_ha.h: This is a stubbed-out High Availability API. Much more is needed for full HA support. See the comments in the header and the description of what is needed in the README.ctl.txt file for more details. ctl_io.h: This defines most of the core CTL I/O structures. union ctl_io is conceptually very similar to CAM's union ccb. ctl_ioctl.h: This defines all ioctls available through the CTL character device, and the data structures needed for those ioctls. ctl_mem_pool.c, ctl_mem_pool.h: Generic memory pool implementation used by the internal frontend. ctl_private.h: Private data structres (e.g. CTL softc) and function prototypes. This also includes the SCSI vendor and product names used by CTL. ctl_scsi_all.c, ctl_scsi_all.h: CTL wrappers around CAM sense printing functions. ctl_ser_table.c: Command serialization table. This defines what happens when one type of command is followed by another type of command. ctl_util.c, ctl_util.h: CTL utility functions, primarily designed to be used from userland. See ctladm for the primary consumer of these functions. These include CDB building functions. scsi_ctl.c: CAM target peripheral driver and CTL frontend port. This is the path into CTL for commands from target-capable hardware/SIMs. README.ctl.txt: CTL code features, roadmap, to-do list. usr.sbin/Makefile: Add ctladm. ctladm/Makefile, ctladm/ctladm.8, ctladm/ctladm.c, ctladm/ctladm.h, ctladm/util.c: ctladm(8) is the CTL management utility. It fills a role similar to camcontrol(8). It allow configuring LUNs, issuing commands, injecting errors and various other control functions. usr.bin/Makefile: Add ctlstat. ctlstat/Makefile ctlstat/ctlstat.8, ctlstat/ctlstat.c: ctlstat(8) fills a role similar to iostat(8). It reports I/O statistics for CTL. sys/conf/files: Add CTL files. sys/conf/NOTES: Add device ctl. sys/cam/scsi_all.h: To conform to more recent specs, the inquiry CDB length field is now 2 bytes long. Add several mode page definitions for CTL. sys/cam/scsi_all.c: Handle the new 2 byte inquiry length. sys/dev/ciss/ciss.c, sys/dev/ata/atapi-cam.c, sys/cam/scsi/scsi_targ_bh.c, scsi_target/scsi_cmds.c, mlxcontrol/interface.c: Update for 2 byte inquiry length field. scsi_da.h: Add versions of the format and rigid disk pages that are in a more reasonable format for CTL. amd64/conf/GENERIC, i386/conf/GENERIC, ia64/conf/GENERIC, sparc64/conf/GENERIC: Add device ctl. i386/conf/PAE: The CTL frontend SIM at least does not compile cleanly on PAE. Sponsored by: Copan Systems, SGI and Spectra Logic MFC after: 1 month
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ctlstat \
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cut \
dirname \
dpv \
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du \
elf2aout \
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elfdump \
enigma \
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env \
expand \
false \
fetch \
find \
fmt \
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fold \
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fstat \
fsync \
gcore \
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gencat \
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getconf \
getent \
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getopt \
grep \
gzip \
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head \
hexdump \
id \
ident \
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ipcrm \
ipcs \
join \
jot \
keylogin \
keylogout \
killall \
ktrace \
ktrdump \
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lam \
lastcomm \
ldd \
leave \
less \
lessecho \
lesskey \
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limits \
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locale \
localedef \
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lock \
lockf \
logger \
login \
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logins \
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logname \
look \
lorder \
lsvfs \
lzmainfo \
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m4 \
mandoc \
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mesg \
minigzip \
ministat \
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mkdep \
mkfifo \
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mkimg \
mklocale \
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mktemp \
mkuzip \
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mt \
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ncal \
netstat \
newgrp \
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nfsstat \
nice \
nl \
Add an initial NUMA affinity/policy configuration for threads and processes. This is based on work done by jeff@ and jhb@, as well as the numa.diff patch that has been circulating when someone asks for first-touch NUMA on -10 or -11. * Introduce a simple set of VM policy and iterator types. * tie the policy types into the vm_phys path for now, mirroring how the initial first-touch allocation work was enabled. * add syscalls to control changing thread and process defaults. * add a global NUMA VM domain policy. * implement a simple cascade policy order - if a thread policy exists, use it; if a process policy exists, use it; use the default policy. * processes inherit policies from their parent processes, threads inherit policies from their parent threads. * add a simple tool (numactl) to query and modify default thread/process policities. * add documentation for the new syscalls, for numa and for numactl. * re-enable first touch NUMA again by default, as now policies can be set in a variety of methods. This is only relevant for very specific workloads. This doesn't pretend to be a final NUMA solution. The previous defaults in -HEAD (with MAXMEMDOM set) can be achieved by 'sysctl vm.default_policy=rr'. This is only relevant if MAXMEMDOM is set to something other than 1. Ie, if you're using GENERIC or a modified kernel with non-NUMA, then this is a glorified no-op for you. Thank you to Norse Corp for giving me access to rather large (for FreeBSD!) NUMA machines in order to develop and verify this. Thank you to Dell for providing me with dual socket sandybridge and westmere v3 hardware to do NUMA development with. Thank you to Scott Long at Netflix for providing me with access to the two-socket, four-domain haswell v3 hardware. Thank you to Peter Holm for running the stress testing suite against the NUMA branch during various stages of development! Tested: * MIPS (regression testing; non-NUMA) * i386 (regression testing; non-NUMA GENERIC) * amd64 (regression testing; non-NUMA GENERIC) * westmere, 2 socket (thankyou norse!) * sandy bridge, 2 socket (thankyou dell!) * ivy bridge, 2 socket (thankyou norse!) * westmere-EX, 4 socket / 1TB RAM (thankyou norse!) * haswell, 2 socket (thankyou norse!) * haswell v3, 2 socket (thankyou dell) * haswell v3, 2x18 core (thankyou scott long / netflix!) * Peter Holm ran a stress test suite on this work and found one issue, but has not been able to verify it (it doesn't look NUMA related, and he only saw it once over many testing runs.) * I've tested bhyve instances running in fixed NUMA domains and cpusets; all seems to work correctly. Verified: * intel-pcm - pcm-numa.x and pcm-memory.x, whilst selecting different NUMA policies for processes under test. Review: This was reviewed through phabricator (https://reviews.freebsd.org/D2559) as well as privately and via emails to freebsd-arch@. The git history with specific attributes is available at https://github.com/erikarn/freebsd/ in the NUMA branch (https://github.com/erikarn/freebsd/compare/local/adrian_numa_policy). This has been reviewed by a number of people (stas, rpaulo, kib, ngie, wblock) but not achieved a clear consensus. My hope is that with further exposure and testing more functionality can be implemented and evaluated. Notes: * The VM doesn't handle unbalanced domains very well, and if you have an overly unbalanced memory setup whilst under high memory pressure, VM page allocation may fail leading to a kernel panic. This was a problem in the past, but it's much more easily triggered now with these tools. * This work only controls the path through vm_phys; it doesn't yet strongly/predictably affect contigmalloc, KVA placement, UMA, etc. So, driver placement of memory isn't really guaranteed in any way. That's next on my plate. Sponsored by: Norse Corp, Inc.; Dell
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numactl \
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pr \
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printf \
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procstat \
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renice \
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rev \
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rpcinfo \
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tabs \
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tail \
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tar \
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yes
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# NB: keep these sorted by MK_* knobs
SUBDIR.${MK_AT}+= at
SUBDIR.${MK_ATM}+= atm
SUBDIR.${MK_BLUETOOTH}+= bluetooth
SUBDIR.${MK_BSD_CPIO}+= cpio
SUBDIR.${MK_CALENDAR}+= calendar
SUBDIR.${MK_CLANG}+= clang
SUBDIR.${MK_EE}+= ee
SUBDIR.${MK_FILE}+= file
SUBDIR.${MK_FINGER}+= finger
SUBDIR.${MK_FTP}+= ftp
SUBDIR.${MK_GAMES}+= caesar
SUBDIR.${MK_GAMES}+= factor
SUBDIR.${MK_GAMES}+= fortune
SUBDIR.${MK_GAMES}+= grdc
SUBDIR.${MK_GAMES}+= morse
SUBDIR.${MK_GAMES}+= number
SUBDIR.${MK_GAMES}+= pom
SUBDIR.${MK_GAMES}+= primes
SUBDIR.${MK_GAMES}+= random
.if ${MK_GPL_DTC} != "yes"
.if ${COMPILER_FEATURES:Mc++11}
SUBDIR+= dtc
.endif
.endif
SUBDIR.${MK_GROFF}+= vgrind
SUBDIR.${MK_HESIOD}+= hesinfo
SUBDIR.${MK_ICONV}+= iconv
SUBDIR.${MK_ICONV}+= mkcsmapper
SUBDIR.${MK_ICONV}+= mkesdb
SUBDIR.${MK_ISCSI}+= iscsictl
SUBDIR.${MK_KDUMP}+= kdump
SUBDIR.${MK_KDUMP}+= truss
SUBDIR.${MK_KERBEROS_SUPPORT}+= compile_et
SUBDIR.${MK_LDNS_UTILS}+= drill
SUBDIR.${MK_LDNS_UTILS}+= host
SUBDIR.${MK_LOCATE}+= locate
# XXX msgs?
SUBDIR.${MK_MAIL}+= biff
SUBDIR.${MK_MAIL}+= from
SUBDIR.${MK_MAIL}+= mail
SUBDIR.${MK_MAIL}+= msgs
SUBDIR.${MK_MAKE}+= bmake
SUBDIR.${MK_MAN_UTILS}+= catman
.if ${MK_MANDOCDB} == "no" # AND
SUBDIR.${MK_MAN_UTILS}+= makewhatis
.endif
SUBDIR.${MK_MAN_UTILS}+= man
SUBDIR.${MK_NETCAT}+= nc
SUBDIR.${MK_NIS}+= ypcat
SUBDIR.${MK_NIS}+= ypmatch
SUBDIR.${MK_NIS}+= ypwhich
SUBDIR.${MK_OPENSSH}+= ssh-copy-id
SUBDIR.${MK_OPENSSL}+= bc
SUBDIR.${MK_OPENSSL}+= chkey
SUBDIR.${MK_OPENSSL}+= dc
SUBDIR.${MK_OPENSSL}+= newkey
SUBDIR.${MK_QUOTAS}+= quota
SUBDIR.${MK_RCMDS}+= rlogin
SUBDIR.${MK_RCMDS}+= rsh
SUBDIR.${MK_RCMDS}+= ruptime
SUBDIR.${MK_RCMDS}+= rwho
SUBDIR.${MK_SENDMAIL}+= vacation
SUBDIR.${MK_TALK}+= talk
SUBDIR.${MK_TELNET}+= telnet
SUBDIR.${MK_TESTS}+= tests
SUBDIR.${MK_TEXTPROC}+= checknr
SUBDIR.${MK_TEXTPROC}+= colcrt
SUBDIR.${MK_TEXTPROC}+= ul
SUBDIR.${MK_TFTP}+= tftp
SUBDIR.${MK_TOOLCHAIN}+= addr2line
SUBDIR.${MK_TOOLCHAIN}+= ar
SUBDIR.${MK_TOOLCHAIN}+= c89
SUBDIR.${MK_TOOLCHAIN}+= c99
SUBDIR.${MK_TOOLCHAIN}+= ctags
SUBDIR.${MK_TOOLCHAIN}+= cxxfilt
SUBDIR.${MK_TOOLCHAIN}+= elfcopy
SUBDIR.${MK_TOOLCHAIN}+= file2c
.if ${MACHINE_ARCH} != "aarch64" && \ # ARM64TODO gprof does not build
${MACHINE_CPUARCH} != "riscv" # RISCVTODO gprof does not build
SUBDIR.${MK_TOOLCHAIN}+= gprof
.endif
SUBDIR.${MK_TOOLCHAIN}+= indent
SUBDIR.${MK_TOOLCHAIN}+= lex
SUBDIR.${MK_TOOLCHAIN}+= mkstr
SUBDIR.${MK_TOOLCHAIN}+= nm
SUBDIR.${MK_TOOLCHAIN}+= readelf
SUBDIR.${MK_TOOLCHAIN}+= rpcgen
SUBDIR.${MK_TOOLCHAIN}+= unifdef
SUBDIR.${MK_TOOLCHAIN}+= size
SUBDIR.${MK_TOOLCHAIN}+= strings
.if ${MACHINE_ARCH} != "aarch64" # ARM64TODO xlint does not build
SUBDIR.${MK_TOOLCHAIN}+= xlint
.endif
SUBDIR.${MK_TOOLCHAIN}+= xstr
SUBDIR.${MK_TOOLCHAIN}+= yacc
SUBDIR.${MK_VI}+= vi
SUBDIR.${MK_VT}+= vtfontcvt
SUBDIR.${MK_USB}+= usbhidaction
SUBDIR.${MK_USB}+= usbhidctl
SUBDIR.${MK_UTMPX}+= last
.if ${MACHINE_CPUARCH} != "riscv" # RISCVTODO users does not build
SUBDIR.${MK_UTMPX}+= users
.endif
SUBDIR.${MK_UTMPX}+= who
SUBDIR.${MK_SVN}+= svn
SUBDIR.${MK_SVNLITE}+= svn
.include <bsd.arch.inc.mk>
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SUBDIR:= ${SUBDIR:O:u}
SUBDIR_PARALLEL=
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.include <bsd.subdir.mk>