1 /* SPDX-License-Identifier: GPL-2.0 */
2 /*
3  * syscall_wrapper.h - x86 specific wrappers to syscall definitions
4  */
5 
6 #ifndef _ASM_X86_SYSCALL_WRAPPER_H
7 #define _ASM_X86_SYSCALL_WRAPPER_H
8 
9 #include <asm/ptrace.h>
10 
11 extern long __x64_sys_ni_syscall(const struct pt_regs *regs);
12 extern long __ia32_sys_ni_syscall(const struct pt_regs *regs);
13 
14 /*
15  * Instead of the generic __SYSCALL_DEFINEx() definition, the x86 version takes
16  * struct pt_regs *regs as the only argument of the syscall stub(s) named as:
17  * __x64_sys_*()         - 64-bit native syscall
18  * __ia32_sys_*()        - 32-bit native syscall or common compat syscall
19  * __ia32_compat_sys_*() - 32-bit compat syscall
20  * __x64_compat_sys_*()  - 64-bit X32 compat syscall
21  *
22  * The registers are decoded according to the ABI:
23  * 64-bit: RDI, RSI, RDX, R10, R8, R9
24  * 32-bit: EBX, ECX, EDX, ESI, EDI, EBP
25  *
26  * The stub then passes the decoded arguments to the __se_sys_*() wrapper to
27  * perform sign-extension (omitted for zero-argument syscalls).  Finally the
28  * arguments are passed to the __do_sys_*() function which is the actual
29  * syscall.  These wrappers are marked as inline so the compiler can optimize
30  * the functions where appropriate.
31  *
32  * Example assembly (slightly re-ordered for better readability):
33  *
34  * <__x64_sys_recv>:		<-- syscall with 4 parameters
35  *	callq	<__fentry__>
36  *
37  *	mov	0x70(%rdi),%rdi	<-- decode regs->di
38  *	mov	0x68(%rdi),%rsi	<-- decode regs->si
39  *	mov	0x60(%rdi),%rdx	<-- decode regs->dx
40  *	mov	0x38(%rdi),%rcx	<-- decode regs->r10
41  *
42  *	xor	%r9d,%r9d	<-- clear %r9
43  *	xor	%r8d,%r8d	<-- clear %r8
44  *
45  *	callq	__sys_recvfrom	<-- do the actual work in __sys_recvfrom()
46  *				    which takes 6 arguments
47  *
48  *	cltq			<-- extend return value to 64-bit
49  *	retq			<-- return
50  *
51  * This approach avoids leaking random user-provided register content down
52  * the call chain.
53  */
54 
55 /* Mapping of registers to parameters for syscalls on x86-64 and x32 */
56 #define SC_X86_64_REGS_TO_ARGS(x, ...)					\
57 	__MAP(x,__SC_ARGS						\
58 		,,regs->di,,regs->si,,regs->dx				\
59 		,,regs->r10,,regs->r8,,regs->r9)			\
60 
61 
62 /* SYSCALL_PT_ARGS is Adapted from s390x */
63 #define SYSCALL_PT_ARG6(m, t1, t2, t3, t4, t5, t6)			\
64 	SYSCALL_PT_ARG5(m, t1, t2, t3, t4, t5), m(t6, (regs->bp))
65 #define SYSCALL_PT_ARG5(m, t1, t2, t3, t4, t5)				\
66 	SYSCALL_PT_ARG4(m, t1, t2, t3, t4),  m(t5, (regs->di))
67 #define SYSCALL_PT_ARG4(m, t1, t2, t3, t4)				\
68 	SYSCALL_PT_ARG3(m, t1, t2, t3),  m(t4, (regs->si))
69 #define SYSCALL_PT_ARG3(m, t1, t2, t3)					\
70 	SYSCALL_PT_ARG2(m, t1, t2), m(t3, (regs->dx))
71 #define SYSCALL_PT_ARG2(m, t1, t2)					\
72 	SYSCALL_PT_ARG1(m, t1), m(t2, (regs->cx))
73 #define SYSCALL_PT_ARG1(m, t1) m(t1, (regs->bx))
74 #define SYSCALL_PT_ARGS(x, ...) SYSCALL_PT_ARG##x(__VA_ARGS__)
75 
76 #define __SC_COMPAT_CAST(t, a)						\
77 	(__typeof(__builtin_choose_expr(__TYPE_IS_L(t), 0, 0U)))	\
78 	(unsigned int)a
79 
80 /* Mapping of registers to parameters for syscalls on i386 */
81 #define SC_IA32_REGS_TO_ARGS(x, ...)					\
82 	SYSCALL_PT_ARGS(x, __SC_COMPAT_CAST,				\
83 			__MAP(x, __SC_TYPE, __VA_ARGS__))		\
84 
85 #define __SYS_STUB0(abi, name)						\
86 	long __##abi##_##name(const struct pt_regs *regs);		\
87 	ALLOW_ERROR_INJECTION(__##abi##_##name, ERRNO);			\
88 	long __##abi##_##name(const struct pt_regs *regs)		\
89 		__alias(__do_##name);
90 
91 #define __SYS_STUBx(abi, name, ...)					\
92 	long __##abi##_##name(const struct pt_regs *regs);		\
93 	ALLOW_ERROR_INJECTION(__##abi##_##name, ERRNO);			\
94 	long __##abi##_##name(const struct pt_regs *regs)		\
95 	{								\
96 		return __se_##name(__VA_ARGS__);			\
97 	}
98 
99 #define __COND_SYSCALL(abi, name)					\
100 	__weak long __##abi##_##name(const struct pt_regs *__unused);	\
101 	__weak long __##abi##_##name(const struct pt_regs *__unused)	\
102 	{								\
103 		return sys_ni_syscall();				\
104 	}
105 
106 #ifdef CONFIG_X86_64
107 #define __X64_SYS_STUB0(name)						\
108 	__SYS_STUB0(x64, sys_##name)
109 
110 #define __X64_SYS_STUBx(x, name, ...)					\
111 	__SYS_STUBx(x64, sys##name,					\
112 		    SC_X86_64_REGS_TO_ARGS(x, __VA_ARGS__))
113 
114 #define __X64_COND_SYSCALL(name)					\
115 	__COND_SYSCALL(x64, sys_##name)
116 
117 #else /* CONFIG_X86_64 */
118 #define __X64_SYS_STUB0(name)
119 #define __X64_SYS_STUBx(x, name, ...)
120 #define __X64_COND_SYSCALL(name)
121 #endif /* CONFIG_X86_64 */
122 
123 #if defined(CONFIG_X86_32) || defined(CONFIG_IA32_EMULATION)
124 #define __IA32_SYS_STUB0(name)						\
125 	__SYS_STUB0(ia32, sys_##name)
126 
127 #define __IA32_SYS_STUBx(x, name, ...)					\
128 	__SYS_STUBx(ia32, sys##name,					\
129 		    SC_IA32_REGS_TO_ARGS(x, __VA_ARGS__))
130 
131 #define __IA32_COND_SYSCALL(name)					\
132 	__COND_SYSCALL(ia32, sys_##name)
133 
134 #else /* CONFIG_X86_32 || CONFIG_IA32_EMULATION */
135 #define __IA32_SYS_STUB0(name)
136 #define __IA32_SYS_STUBx(x, name, ...)
137 #define __IA32_COND_SYSCALL(name)
138 #endif /* CONFIG_X86_32 || CONFIG_IA32_EMULATION */
139 
140 #ifdef CONFIG_IA32_EMULATION
141 /*
142  * For IA32 emulation, we need to handle "compat" syscalls *and* create
143  * additional wrappers (aptly named __ia32_sys_xyzzy) which decode the
144  * ia32 regs in the proper order for shared or "common" syscalls. As some
145  * syscalls may not be implemented, we need to expand COND_SYSCALL in
146  * kernel/sys_ni.c to cover this case as well.
147  */
148 #define __IA32_COMPAT_SYS_STUB0(name)					\
149 	__SYS_STUB0(ia32, compat_sys_##name)
150 
151 #define __IA32_COMPAT_SYS_STUBx(x, name, ...)				\
152 	__SYS_STUBx(ia32, compat_sys##name,				\
153 		    SC_IA32_REGS_TO_ARGS(x, __VA_ARGS__))
154 
155 #define __IA32_COMPAT_COND_SYSCALL(name)				\
156 	__COND_SYSCALL(ia32, compat_sys_##name)
157 
158 #else /* CONFIG_IA32_EMULATION */
159 #define __IA32_COMPAT_SYS_STUB0(name)
160 #define __IA32_COMPAT_SYS_STUBx(x, name, ...)
161 #define __IA32_COMPAT_COND_SYSCALL(name)
162 #endif /* CONFIG_IA32_EMULATION */
163 
164 
165 #ifdef CONFIG_X86_X32_ABI
166 /*
167  * For the x32 ABI, we need to create a stub for compat_sys_*() which is aware
168  * of the x86-64-style parameter ordering of x32 syscalls. The syscalls common
169  * with x86_64 obviously do not need such care.
170  */
171 #define __X32_COMPAT_SYS_STUB0(name)					\
172 	__SYS_STUB0(x64, compat_sys_##name)
173 
174 #define __X32_COMPAT_SYS_STUBx(x, name, ...)				\
175 	__SYS_STUBx(x64, compat_sys##name,				\
176 		    SC_X86_64_REGS_TO_ARGS(x, __VA_ARGS__))
177 
178 #define __X32_COMPAT_COND_SYSCALL(name)					\
179 	__COND_SYSCALL(x64, compat_sys_##name)
180 
181 #else /* CONFIG_X86_X32_ABI */
182 #define __X32_COMPAT_SYS_STUB0(name)
183 #define __X32_COMPAT_SYS_STUBx(x, name, ...)
184 #define __X32_COMPAT_COND_SYSCALL(name)
185 #endif /* CONFIG_X86_X32_ABI */
186 
187 
188 #ifdef CONFIG_COMPAT
189 /*
190  * Compat means IA32_EMULATION and/or X86_X32. As they use a different
191  * mapping of registers to parameters, we need to generate stubs for each
192  * of them.
193  */
194 #define COMPAT_SYSCALL_DEFINE0(name)					\
195 	static long							\
196 	__do_compat_sys_##name(const struct pt_regs *__unused);		\
197 	__IA32_COMPAT_SYS_STUB0(name)					\
198 	__X32_COMPAT_SYS_STUB0(name)					\
199 	static long							\
200 	__do_compat_sys_##name(const struct pt_regs *__unused)
201 
202 #define COMPAT_SYSCALL_DEFINEx(x, name, ...)					\
203 	static long __se_compat_sys##name(__MAP(x,__SC_LONG,__VA_ARGS__));	\
204 	static inline long __do_compat_sys##name(__MAP(x,__SC_DECL,__VA_ARGS__));\
205 	__IA32_COMPAT_SYS_STUBx(x, name, __VA_ARGS__)				\
206 	__X32_COMPAT_SYS_STUBx(x, name, __VA_ARGS__)				\
207 	static long __se_compat_sys##name(__MAP(x,__SC_LONG,__VA_ARGS__))	\
208 	{									\
209 		return __do_compat_sys##name(__MAP(x,__SC_DELOUSE,__VA_ARGS__));\
210 	}									\
211 	static inline long __do_compat_sys##name(__MAP(x,__SC_DECL,__VA_ARGS__))
212 
213 /*
214  * As some compat syscalls may not be implemented, we need to expand
215  * COND_SYSCALL_COMPAT in kernel/sys_ni.c to cover this case as well.
216  */
217 #define COND_SYSCALL_COMPAT(name) 					\
218 	__IA32_COMPAT_COND_SYSCALL(name)				\
219 	__X32_COMPAT_COND_SYSCALL(name)
220 
221 #endif /* CONFIG_COMPAT */
222 
223 #define __SYSCALL_DEFINEx(x, name, ...)					\
224 	static long __se_sys##name(__MAP(x,__SC_LONG,__VA_ARGS__));	\
225 	static inline long __do_sys##name(__MAP(x,__SC_DECL,__VA_ARGS__));\
226 	__X64_SYS_STUBx(x, name, __VA_ARGS__)				\
227 	__IA32_SYS_STUBx(x, name, __VA_ARGS__)				\
228 	static long __se_sys##name(__MAP(x,__SC_LONG,__VA_ARGS__))	\
229 	{								\
230 		long ret = __do_sys##name(__MAP(x,__SC_CAST,__VA_ARGS__));\
231 		__MAP(x,__SC_TEST,__VA_ARGS__);				\
232 		__PROTECT(x, ret,__MAP(x,__SC_ARGS,__VA_ARGS__));	\
233 		return ret;						\
234 	}								\
235 	static inline long __do_sys##name(__MAP(x,__SC_DECL,__VA_ARGS__))
236 
237 /*
238  * As the generic SYSCALL_DEFINE0() macro does not decode any parameters for
239  * obvious reasons, and passing struct pt_regs *regs to it in %rdi does not
240  * hurt, we only need to re-define it here to keep the naming congruent to
241  * SYSCALL_DEFINEx() -- which is essential for the COND_SYSCALL() macro
242  * to work correctly.
243  */
244 #define SYSCALL_DEFINE0(sname)						\
245 	SYSCALL_METADATA(_##sname, 0);					\
246 	static long __do_sys_##sname(const struct pt_regs *__unused);	\
247 	__X64_SYS_STUB0(sname)						\
248 	__IA32_SYS_STUB0(sname)						\
249 	static long __do_sys_##sname(const struct pt_regs *__unused)
250 
251 #define COND_SYSCALL(name)						\
252 	__X64_COND_SYSCALL(name)					\
253 	__IA32_COND_SYSCALL(name)
254 
255 
256 /*
257  * For VSYSCALLS, we need to declare these three syscalls with the new
258  * pt_regs-based calling convention for in-kernel use.
259  */
260 long __x64_sys_getcpu(const struct pt_regs *regs);
261 long __x64_sys_gettimeofday(const struct pt_regs *regs);
262 long __x64_sys_time(const struct pt_regs *regs);
263 
264 #endif /* _ASM_X86_SYSCALL_WRAPPER_H */
265