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29.Dd November 25, 2021
30.Dt ARCH 7
31.Os
32.Sh NAME
33.Nm arch
34.Nd Architecture-specific details
35.Sh DESCRIPTION
36Differences between CPU architectures and platforms supported by
37.Fx .
38.Ss Introduction
39This document is a quick reference of key ABI details of
40.Fx
41architecture ports.
42For full details consult the processor-specific ABI supplement
43documentation.
44.Pp
45If not explicitly mentioned, sizes are in bytes.
46The architecture details in this document apply to
47.Fx 12.0
48and later, unless otherwise noted.
49.Pp
50.Fx
51uses a flat address space.
52Variables of types
53.Vt unsigned long ,
54.Vt uintptr_t ,
55and
56.Vt size_t
57and pointers all have the same representation.
58.Pp
59In order to maximize compatibility with future pointer integrity mechanisms,
60manipulations of pointers as integers should be performed via
61.Vt uintptr_t
62or
63.Vt intptr_t
64and no other types.
65In particular,
66.Vt long
67and
68.Vt ptrdiff_t
69should be avoided.
70.Pp
71On some architectures, e.g.,
72.Dv powerpc
73and AIM variants of
74.Dv powerpc64 ,
75the kernel uses a separate address space.
76On other architectures, kernel and a user mode process share a
77single address space.
78The kernel is located at the highest addresses.
79.Pp
80On each architecture, the main user mode thread's stack starts near
81the highest user address and grows down.
82.Pp
83.Fx
84architecture support varies by release.
85This table shows currently supported CPU architectures along with the first
86.Fx
87release to support each architecture.
88.Bl -column -offset indent "Architecture" "Initial Release"
89.It Sy Architecture Ta Sy Initial Release
90.It aarch64     Ta 11.0
91.It amd64       Ta 5.1
92.It armv6       Ta 10.0
93.It armv7       Ta 12.0
94.It i386        Ta 1.0
95.It powerpc     Ta 6.0
96.It powerpcspe  Ta 12.0
97.It powerpc64   Ta 9.0
98.It powerpc64le Ta 13.0
99.It riscv64     Ta 12.0
100.It riscv64sf   Ta 12.0
101.El
102.Pp
103Discontinued architectures are shown in the following table.
104.Bl -column -offset indent "Architecture" "Initial Release" "Final Release"
105.It Sy Architecture Ta Sy Initial Release Ta Sy Final Release
106.It alpha       Ta 3.2   Ta 6.4
107.It arm         Ta 6.0   Ta 12.x
108.It armeb       Ta 8.0   Ta 11.4
109.It ia64        Ta 5.0   Ta 10.4
110.It mips        Ta 8.0   Ta 13.x
111.It mipsel      Ta 9.0   Ta 13.x
112.It mipselhf    Ta 12.0  Ta 13.x
113.It mipshf      Ta 12.0  Ta 13.x
114.It mipsn32     Ta 9.0   Ta 13.x
115.It mips64      Ta 9.0   Ta 13.x
116.It mips64el    Ta 9.0   Ta 13.x
117.It mips64elhf  Ta 12.0  Ta 13.x
118.It mips64hf    Ta 12.0  Ta 13.x
119.It pc98        Ta 2.2   Ta 11.4
120.It sparc64     Ta 5.0   Ta 12.x
121.El
122.Ss Type sizes
123All
124.Fx
125architectures use some variant of the ELF (see
126.Xr elf 5 )
127.Sy Application Binary Interface
128(ABI) for the machine processor.
129All supported ABIs can be divided into two groups:
130.Bl -tag -width "Dv ILP32"
131.It Dv ILP32
132.Vt int ,
133.Vt long ,
134.Vt void *
135types machine representations all have 4-byte size.
136.It Dv LP64
137.Vt int
138type machine representation uses 4 bytes,
139while
140.Vt long
141and
142.Vt void *
143are 8 bytes.
144.El
145.Pp
146Some machines support more than one
147.Fx
148ABI.
149Typically these are 64-bit machines, where the
150.Dq native
151.Dv LP64
152execution environment is accompanied by the
153.Dq legacy
154.Dv ILP32
155environment, which was the historical 32-bit predecessor for 64-bit evolution.
156Examples are:
157.Bl -column -offset indent "powerpc64" "ILP32 counterpart"
158.It Sy LP64        Ta Sy ILP32 counterpart
159.It Dv amd64       Ta Dv i386
160.It Dv powerpc64   Ta Dv powerpc
161.It Dv mips64*     Ta Dv mips*
162.It Dv aarch64     Ta Dv armv6/armv7
163.El
164.Pp
165.Dv aarch64
166will support execution of
167.Dv armv6
168or
169.Dv armv7
170binaries if the CPU implements
171.Dv AArch32
172execution state, however
173.Dv armv5
174binaries aren't supported.
175.Pp
176On all supported architectures:
177.Bl -column -offset -indent "long long" "Size"
178.It Sy Type Ta Sy Size
179.It short Ta 2
180.It int Ta 4
181.It long Ta sizeof(void*)
182.It long long Ta 8
183.It float Ta 4
184.It double Ta 8
185.El
186.Pp
187Integers are represented in two's complement.
188Alignment of integer and pointer types is natural, that is,
189the address of the variable must be congruent to zero modulo the type size.
190Most ILP32 ABIs, except
191.Dv arm ,
192require only 4-byte alignment for 64-bit integers.
193.Pp
194Machine-dependent type sizes:
195.Bl -column -offset indent "Architecture" "void *" "long double" "time_t"
196.It Sy Architecture Ta Sy void * Ta Sy long double Ta Sy time_t
197.It aarch64     Ta 8 Ta 16 Ta 8
198.It amd64       Ta 8 Ta 16 Ta 8
199.It armv6       Ta 4 Ta  8 Ta 8
200.It armv7       Ta 4 Ta  8 Ta 8
201.It i386        Ta 4 Ta 12 Ta 4
202.It mips        Ta 4 Ta  8 Ta 8
203.It mipsel      Ta 4 Ta  8 Ta 8
204.It mipselhf    Ta 4 Ta  8 Ta 8
205.It mipshf      Ta 4 Ta  8 Ta 8
206.It mipsn32     Ta 4 Ta  8 Ta 8
207.It mips64      Ta 8 Ta  8 Ta 8
208.It mips64el    Ta 8 Ta  8 Ta 8
209.It mips64elhf  Ta 8 Ta  8 Ta 8
210.It mips64hf    Ta 8 Ta  8 Ta 8
211.It powerpc     Ta 4 Ta  8 Ta 8
212.It powerpcspe  Ta 4 Ta  8 Ta 8
213.It powerpc64   Ta 8 Ta  8 Ta 8
214.It powerpc64le Ta 8 Ta  8 Ta 8
215.It riscv64     Ta 8 Ta 16 Ta 8
216.It riscv64sf   Ta 8 Ta 16 Ta 8
217.El
218.Pp
219.Sy time_t
220is 8 bytes on all supported architectures except i386.
221.Ss Endianness and Char Signedness
222.Bl -column -offset indent "Architecture" "Endianness" "char Signedness"
223.It Sy Architecture Ta Sy Endianness Ta Sy char Signedness
224.It aarch64     Ta little Ta unsigned
225.It amd64       Ta little Ta   signed
226.It armv6       Ta little Ta unsigned
227.It armv7       Ta little Ta unsigned
228.It i386        Ta little Ta   signed
229.It mips        Ta big    Ta   signed
230.It mipsel      Ta little Ta   signed
231.It mipselhf    Ta little Ta   signed
232.It mipshf      Ta big    Ta   signed
233.It mipsn32     Ta big    Ta   signed
234.It mips64      Ta big    Ta   signed
235.It mips64el    Ta little Ta   signed
236.It mips64elhf  Ta little Ta   signed
237.It mips64hf    Ta big    Ta   signed
238.It powerpc     Ta big    Ta unsigned
239.It powerpcspe  Ta big    Ta unsigned
240.It powerpc64   Ta big    Ta unsigned
241.It powerpc64le Ta little Ta unsigned
242.It riscv64     Ta little Ta   signed
243.It riscv64sf   Ta little Ta   signed
244.El
245.Ss Page Size
246.Bl -column -offset indent "Architecture" "Page Sizes"
247.It Sy Architecture Ta Sy Page Sizes
248.It aarch64     Ta 4K, 2M, 1G
249.It amd64       Ta 4K, 2M, 1G
250.It armv6       Ta 4K, 1M
251.It armv7       Ta 4K, 1M
252.It i386        Ta 4K, 2M (PAE), 4M
253.It mips        Ta 4K
254.It mipsel      Ta 4K
255.It mipselhf    Ta 4K
256.It mipshf      Ta 4K
257.It mipsn32     Ta 4K
258.It mips64      Ta 4K
259.It mips64el    Ta 4K
260.It mips64elhf  Ta 4K
261.It mips64hf    Ta 4K
262.It powerpc     Ta 4K
263.It powerpcspe  Ta 4K
264.It powerpc64   Ta 4K
265.It powerpc64le Ta 4K
266.It riscv64     Ta 4K, 2M, 1G
267.It riscv64sf   Ta 4K, 2M, 1G
268.El
269.Ss Floating Point
270.Bl -column -offset indent "Architecture" "float, double" "long double"
271.It Sy Architecture Ta Sy float, double Ta Sy long double
272.It aarch64     Ta hard Ta soft, quad precision
273.It amd64       Ta hard Ta hard, 80 bit
274.It armv6       Ta hard Ta hard, double precision
275.It armv7       Ta hard Ta hard, double precision
276.It i386        Ta hard Ta hard, 80 bit
277.It mips        Ta soft Ta identical to double
278.It mipsel      Ta soft Ta identical to double
279.It mipselhf    Ta hard Ta identical to double
280.It mipshf      Ta hard Ta identical to double
281.It mipsn32     Ta soft Ta identical to double
282.It mips64      Ta soft Ta identical to double
283.It mips64el    Ta soft Ta identical to double
284.It mips64elhf  Ta hard Ta identical to double
285.It mips64hf    Ta hard Ta identical to double
286.It powerpc     Ta hard Ta hard, double precision
287.It powerpcspe  Ta hard Ta hard, double precision
288.It powerpc64   Ta hard Ta hard, double precision
289.It powerpc64le Ta hard Ta hard, double precision
290.It riscv64     Ta hard Ta hard, quad precision
291.It riscv64sf   Ta soft Ta soft, quad precision
292.El
293.Ss Default Tool Chain
294.Fx
295uses
296.Xr clang 1
297as the default compiler on all supported CPU architectures,
298LLVM's
299.Xr ld.lld 1
300as the default linker, and
301ELF Tool Chain binary utilities such as
302.Xr objcopy 1
303and
304.Xr readelf 1 .
305.Ss MACHINE_ARCH vs MACHINE_CPUARCH vs MACHINE
306.Dv MACHINE_CPUARCH
307should be preferred in Makefiles when the generic
308architecture is being tested.
309.Dv MACHINE_ARCH
310should be preferred when there is something specific to a particular type of
311architecture where there is a choice of many, or could be a choice of many.
312Use
313.Dv MACHINE
314when referring to the kernel, interfaces dependent on a specific type of kernel
315or similar things like boot sequences.
316.Bl -column -offset indent "Dv MACHINE" "Dv MACHINE_CPUARCH" "Dv MACHINE_ARCH"
317.It Dv MACHINE Ta Dv MACHINE_CPUARCH Ta Dv MACHINE_ARCH
318.It arm64 Ta aarch64 Ta aarch64
319.It amd64 Ta amd64 Ta amd64
320.It arm Ta arm Ta armv6, armv7
321.It i386 Ta i386 Ta i386
322.It mips Ta mips Ta mips, mipsel, mips64, mips64el, mipshf, mipselhf, mips64elhf, mipsn32
323.It powerpc Ta powerpc Ta powerpc, powerpcspe, powerpc64, powerpc64le
324.It riscv Ta riscv Ta riscv64, riscv64sf
325.El
326.Ss Predefined Macros
327The compiler provides a number of predefined macros.
328Some of these provide architecture-specific details and are explained below.
329Other macros, including those required by the language standard, are not
330included here.
331.Pp
332The full set of predefined macros can be obtained with this command:
333.Bd -literal -offset indent
334cc -x c -dM -E /dev/null
335.Ed
336.Pp
337Common type size and endianness macros:
338.Bl -column -offset indent "BYTE_ORDER" "Meaning"
339.It Sy Macro Ta Sy Meaning
340.It Dv __LP64__ Ta 64-bit (8-byte) long and pointer, 32-bit (4-byte) int
341.It Dv __ILP32__ Ta 32-bit (4-byte) int, long and pointer
342.It Dv BYTE_ORDER Ta Either Dv BIG_ENDIAN or Dv LITTLE_ENDIAN .
343.Dv PDP11_ENDIAN
344is not used on
345.Fx .
346.El
347.Pp
348Architecture-specific macros:
349.Bl -column -offset indent "Architecture" "Predefined macros"
350.It Sy Architecture Ta Sy Predefined macros
351.It aarch64     Ta Dv __aarch64__
352.It amd64       Ta Dv __amd64__ , Dv __x86_64__
353.It armv6       Ta Dv __arm__ , Dv __ARM_ARCH >= 6
354.It armv7       Ta Dv __arm__ , Dv __ARM_ARCH >= 7
355.It i386        Ta Dv __i386__
356.It mips        Ta Dv __mips__ , Dv __MIPSEB__ , Dv __mips_o32
357.It mipsel      Ta Dv __mips__ , Dv __mips_o32
358.It mipselhf    Ta Dv __mips__ , Dv __mips_o32
359.It mipshf      Ta Dv __mips__ , Dv __MIPSEB__ , Dv __mips_o32
360.It mipsn32     Ta Dv __mips__ , Dv __MIPSEB__ , Dv __mips_n32
361.It mips64      Ta Dv __mips__ , Dv __MIPSEB__ , Dv __mips_n64
362.It mips64el    Ta Dv __mips__ , Dv __mips_n64
363.It mips64elhf  Ta Dv __mips__ , Dv __mips_n64
364.It mips64hf    Ta Dv __mips__ , Dv __MIPSEB__ , Dv __mips_n64
365.It powerpc     Ta Dv __powerpc__
366.It powerpcspe  Ta Dv __powerpc__ , Dv __SPE__
367.It powerpc64   Ta Dv __powerpc__ , Dv __powerpc64__
368.It powerpc64le Ta Dv __powerpc__ , Dv __powerpc64__
369.It riscv64     Ta Dv __riscv , Dv __riscv_xlen == 64
370.It riscv64sf   Ta Dv __riscv , Dv __riscv_xlen == 64 , Dv __riscv_float_abi_soft
371.El
372.Pp
373Compilers may define additional variants of architecture-specific macros.
374The macros above are preferred for use in
375.Fx .
376.Ss Important Xr make 1 variables
377Most of the externally settable variables are defined in the
378.Xr build 7
379man page.
380These variables are not otherwise documented and are used extensively
381in the build system.
382.Bl -tag -width "MACHINE_CPUARCH"
383.It Dv MACHINE
384Represents the hardware platform.
385This is the same as the native platform's
386.Xr uname 1
387.Fl m
388output.
389It defines both the userland / kernel interface, as well as the
390bootloader / kernel interface.
391It should only be used in these contexts.
392Each CPU architecture may have multiple hardware platforms it supports
393where
394.Dv MACHINE
395differs among them.
396It is used to collect together all the files from
397.Xr config 8
398to build the kernel.
399It is often the same as
400.Dv MACHINE_ARCH
401just as one CPU architecture can be implemented by many different
402hardware platforms, one hardware platform may support multiple CPU
403architecture family members, though with different binaries.
404For example,
405.Dv MACHINE
406of i386 supported the IBM-AT hardware platform while the
407.Dv MACHINE
408of pc98 supported the Japanese company NEC's PC-9801 and PC-9821
409hardware platforms.
410Both of these hardware platforms supported only the
411.Dv MACHINE_ARCH
412of i386 where they shared a common ABI, except for certain kernel /
413userland interfaces relating to underlying hardware platform
414differences in bus architecture, device enumeration and boot interface.
415Generally,
416.Dv MACHINE
417should only be used in src/sys and src/stand or in system imagers or
418installers.
419.It Dv MACHINE_ARCH
420Represents the CPU processor architecture.
421This is the same as the native platforms
422.Xr uname 1
423.Fl p
424output.
425It defines the CPU instruction family supported.
426It may also encode a variation in the byte ordering of multi-byte
427integers (endian).
428It may also encode a variation in the size of the integer or pointer.
429It may also encode a ISA revision.
430It may also encode hard versus soft floating point ABI and usage.
431It may also encode a variant ABI when the other factors do not
432uniquely define the ABI (e.g., MIPS' n32 ABI).
433It, along with
434.Dv MACHINE ,
435defines the ABI used by the system.
436For example, the MIPS CPU processor family supports 9 different
437combinations encoding pointer size, endian and hard versus soft float (for
4388 combinations) as well as N32 (which only ever had one variation of
439all these).
440Generally, the plain CPU name specifies the most common (or at least
441first) variant of the CPU.
442This is why mips and mips64 imply 'big endian' while 'armv6' and 'armv7'
443imply little endian.
444If we ever were to support the so-called x32 ABI (using 32-bit
445pointers on the amd64 architecture), it would most likely be encoded
446as amd64-x32.
447It is unfortunate that amd64 specifies the 64-bit evolution of the x86
448platform (it matches the 'first rule') as everybody else uses x86_64.
449There is no standard name for the processor: each OS selects its own
450conventions.
451.It Dv MACHINE_CPUARCH
452Represents the source location for a given
453.Dv MACHINE_ARCH .
454It is generally the common prefix for all the MACHINE_ARCH that
455share the same implementation, though 'riscv' breaks this rule.
456For example,
457.Dv MACHINE_CPUARCH
458is defined to be mips for all the flavors of mips that we support
459since we support them all with a shared set of sources.
460While amd64 and i386 are closely related, MACHINE_CPUARCH is not x86
461for them.
462The
463.Fx
464source base supports amd64 and i386 with two
465distinct source bases living in subdirectories named amd64 and i386
466(though behind the scenes there's some sharing that fits into this
467framework).
468.It Dv CPUTYPE
469Sets the flavor of
470.Dv MACHINE_ARCH
471to build.
472It is used to optimize the build for a specific CPU / core that the
473binaries run on.
474Generally, this does not change the ABI, though it can be a fine line
475between optimization for specific cases.
476.It Dv TARGET
477Used to set
478.Dv MACHINE
479in the top level Makefile for cross building.
480Unused outside of that scope.
481It is not passed down to the rest of the build.
482Makefiles outside of the top level should not use it at all (though
483some have their own private copy for hysterical raisons).
484.It Dv TARGET_ARCH
485Used to set
486.Dv MACHINE_ARCH
487by the top level Makefile for cross building.
488Like
489.Dv TARGET ,
490it is unused outside of that scope.
491.El
492.Sh SEE ALSO
493.Xr src.conf 5 ,
494.Xr build 7
495.Sh HISTORY
496An
497.Nm
498manual page appeared in
499.Fx 11.1 .
500