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git.ipfire.org Git - thirdparty/systemd.git/blob - src/basic/architecture.c
1 /* SPDX-License-Identifier: LGPL-2.1-or-later */
3 #include <sys/utsname.h>
5 #include "architecture.h"
7 #include "string-table.h"
8 #include "string-util.h"
10 Architecture
uname_architecture(void) {
12 /* Return a sanitized enum identifying the architecture we are running on. This
13 * is based on uname(), and the user may hence control what this returns by using
14 * personality(). This puts the user in control on systems that can run binaries
15 * of multiple architectures.
17 * We do not translate the string returned by uname() 1:1. Instead we try to
18 * clean it up and break down the confusion on x86 and arm in particular.
20 * We try to distinguish CPUs, not CPU features, i.e. actual architectures that
21 * have genuinely different code. */
27 #if defined(__aarch64__) || defined(__arm__)
28 { "aarch64", ARCHITECTURE_ARM64
},
29 { "aarch64_be", ARCHITECTURE_ARM64_BE
},
30 { "armv8l", ARCHITECTURE_ARM
},
31 { "armv8b", ARCHITECTURE_ARM_BE
},
32 { "armv7ml", ARCHITECTURE_ARM
},
33 { "armv7mb", ARCHITECTURE_ARM_BE
},
34 { "armv7l", ARCHITECTURE_ARM
},
35 { "armv7b", ARCHITECTURE_ARM_BE
},
36 { "armv6l", ARCHITECTURE_ARM
},
37 { "armv6b", ARCHITECTURE_ARM_BE
},
38 { "armv5tl", ARCHITECTURE_ARM
},
39 { "armv5tel", ARCHITECTURE_ARM
},
40 { "armv5tejl", ARCHITECTURE_ARM
},
41 { "armv5tejb", ARCHITECTURE_ARM_BE
},
42 { "armv5teb", ARCHITECTURE_ARM_BE
},
43 { "armv5tb", ARCHITECTURE_ARM_BE
},
44 { "armv4tl", ARCHITECTURE_ARM
},
45 { "armv4tb", ARCHITECTURE_ARM_BE
},
46 { "armv4l", ARCHITECTURE_ARM
},
47 { "armv4b", ARCHITECTURE_ARM_BE
},
49 #elif defined(__alpha__)
50 { "alpha" , ARCHITECTURE_ALPHA
},
52 #elif defined(__arc__)
53 { "arc", ARCHITECTURE_ARC
},
54 { "arceb", ARCHITECTURE_ARC_BE
},
56 #elif defined(__cris__)
57 { "crisv32", ARCHITECTURE_CRIS
},
59 #elif defined(__i386__) || defined(__x86_64__)
60 { "x86_64", ARCHITECTURE_X86_64
},
61 { "i686", ARCHITECTURE_X86
},
62 { "i586", ARCHITECTURE_X86
},
63 { "i486", ARCHITECTURE_X86
},
64 { "i386", ARCHITECTURE_X86
},
66 #elif defined(__ia64__)
67 { "ia64", ARCHITECTURE_IA64
},
69 #elif defined(__hppa__) || defined(__hppa64__)
70 { "parisc64", ARCHITECTURE_PARISC64
},
71 { "parisc", ARCHITECTURE_PARISC
},
73 #elif defined(__loongarch_lp64)
74 { "loongarch64", ARCHITECTURE_LOONGARCH64
},
76 #elif defined(__m68k__)
77 { "m68k", ARCHITECTURE_M68K
},
79 #elif defined(__mips__) || defined(__mips64__)
80 { "mips64", ARCHITECTURE_MIPS64
},
81 { "mips", ARCHITECTURE_MIPS
},
83 #elif defined(__nios2__)
84 { "nios2", ARCHITECTURE_NIOS2
},
86 #elif defined(__powerpc__) || defined(__powerpc64__)
87 { "ppc64le", ARCHITECTURE_PPC64_LE
},
88 { "ppc64", ARCHITECTURE_PPC64
},
89 { "ppcle", ARCHITECTURE_PPC_LE
},
90 { "ppc", ARCHITECTURE_PPC
},
92 #elif defined(__riscv)
93 { "riscv64", ARCHITECTURE_RISCV64
},
94 { "riscv32", ARCHITECTURE_RISCV32
},
95 # if __SIZEOF_POINTER__ == 4
96 { "riscv", ARCHITECTURE_RISCV32
},
97 # elif __SIZEOF_POINTER__ == 8
98 { "riscv", ARCHITECTURE_RISCV64
},
101 #elif defined(__s390__) || defined(__s390x__)
102 { "s390x", ARCHITECTURE_S390X
},
103 { "s390", ARCHITECTURE_S390
},
105 #elif defined(__sh__) || defined(__sh64__)
106 { "sh5", ARCHITECTURE_SH64
},
107 { "sh4a", ARCHITECTURE_SH
},
108 { "sh4", ARCHITECTURE_SH
},
109 { "sh3", ARCHITECTURE_SH
},
110 { "sh2a", ARCHITECTURE_SH
},
111 { "sh2", ARCHITECTURE_SH
},
113 #elif defined(__sparc__)
114 { "sparc64", ARCHITECTURE_SPARC64
},
115 { "sparc", ARCHITECTURE_SPARC
},
117 #elif defined(__tilegx__)
118 { "tilegx", ARCHITECTURE_TILEGX
},
121 # error "Please register your architecture here!"
125 static Architecture cached
= _ARCHITECTURE_INVALID
;
128 if (cached
!= _ARCHITECTURE_INVALID
)
131 assert_se(uname(&u
) >= 0);
133 for (size_t i
= 0; i
< ELEMENTSOF(arch_map
); i
++)
134 if (streq(arch_map
[i
].machine
, u
.machine
))
135 return cached
= arch_map
[i
].arch
;
137 assert_not_reached();
138 return _ARCHITECTURE_INVALID
;
141 /* Maintain same order as in the table above. */
142 static const char *const architecture_table
[_ARCHITECTURE_MAX
] = {
143 [ARCHITECTURE_ARM64
] = "arm64",
144 [ARCHITECTURE_ARM64_BE
] = "arm64-be",
145 [ARCHITECTURE_ARM
] = "arm",
146 [ARCHITECTURE_ARM_BE
] = "arm-be",
147 [ARCHITECTURE_ALPHA
] = "alpha",
148 [ARCHITECTURE_ARC
] = "arc",
149 [ARCHITECTURE_ARC_BE
] = "arc-be",
150 [ARCHITECTURE_CRIS
] = "cris",
151 [ARCHITECTURE_X86_64
] = "x86-64",
152 [ARCHITECTURE_X86
] = "x86",
153 [ARCHITECTURE_IA64
] = "ia64",
154 [ARCHITECTURE_LOONGARCH64
] = "loongarch64",
155 [ARCHITECTURE_M68K
] = "m68k",
156 [ARCHITECTURE_MIPS64_LE
] = "mips64-le",
157 [ARCHITECTURE_MIPS64
] = "mips64",
158 [ARCHITECTURE_MIPS_LE
] = "mips-le",
159 [ARCHITECTURE_MIPS
] = "mips",
160 [ARCHITECTURE_NIOS2
] = "nios2",
161 [ARCHITECTURE_PARISC64
] = "parisc64",
162 [ARCHITECTURE_PARISC
] = "parisc",
163 [ARCHITECTURE_PPC64_LE
] = "ppc64-le",
164 [ARCHITECTURE_PPC64
] = "ppc64",
165 [ARCHITECTURE_PPC
] = "ppc",
166 [ARCHITECTURE_PPC_LE
] = "ppc-le",
167 [ARCHITECTURE_RISCV32
] = "riscv32",
168 [ARCHITECTURE_RISCV64
] = "riscv64",
169 [ARCHITECTURE_S390X
] = "s390x",
170 [ARCHITECTURE_S390
] = "s390",
171 [ARCHITECTURE_SH64
] = "sh64",
172 [ARCHITECTURE_SH
] = "sh",
173 [ARCHITECTURE_SPARC64
] = "sparc64",
174 [ARCHITECTURE_SPARC
] = "sparc",
175 [ARCHITECTURE_TILEGX
] = "tilegx",
178 DEFINE_STRING_TABLE_LOOKUP(architecture
, Architecture
);