284 lines
7.9 KiB
C
284 lines
7.9 KiB
C
/*
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* Copyright (c) 2017, Intel Corporation
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#ifndef ZEPHYR_INCLUDE_SYSCALL_H_
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#define ZEPHYR_INCLUDE_SYSCALL_H_
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#include <syscall_list.h>
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#include <arch/syscall.h>
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#include <stdbool.h>
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#ifndef _ASMLANGUAGE
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#include <zephyr/types.h>
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#include <syscall_macros.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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/*
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* System Call Declaration macros
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*
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* These macros are used in public header files to declare system calls.
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* They generate inline functions which have different implementations
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* depending on the current compilation context:
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*
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* - Kernel-only code, or CONFIG_USERSPACE disabled, these inlines will
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* directly call the implementation
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* - User-only code, these inlines will marshal parameters and elevate
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* privileges
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* - Mixed or indeterminate code, these inlines will do a runtime check
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* to determine what course of action is needed.
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*
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* All system calls require a handler function and an implementation function.
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* These must follow a naming convention. For a system call named k_foo():
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*
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* - The handler function will be named _handler_k_foo(). Handler functions
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* are always of type _k_syscall_handler_t, verify arguments passed up
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* from userspace, and call the implementation function. See
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* documentation for that typedef for more information.
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* - The implementation function will be named _impl_k_foo(). This is the
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* actual implementation of the system call.
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*
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* The basic declartion macros are as follows. System calls with 0 to 10
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* parameters are supported. For a system call with N parameters, that returns
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* a value and is* not implemented inline, the macro is as follows (N noted
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* as {N} for clarity):
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*
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* K_SYSCALL_DECLARE{N}(id, name, ret, t0, p0, ... , t{N-1}, p{N-1})
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* @param id System call ID, one of K_SYSCALL_* defines
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* @param name Symbol name of the system call used to invoke it
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* @param ret Data type of return value
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* @param tX Data type of parameter X
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* @param pX Name of parameter x
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*
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* For system calls that return no value:
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*
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* K_SYSCALL_DECLARE{n}_VOID(id, name, t0, p0, .... , t{N-1}, p{N-1})
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*
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* This is identical to above except there is no 'ret' parameter.
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*
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* For system calls where the implementation is an inline function, we have
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*
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* K_SYSCALL_DECLARE{n}_INLINE(id, name, ret, t0, p0, ... , t{N-1}, p{N-1})
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* K_SYSCALL_DECLARE{n}_VOID_INLINE(id, name, t0, p0, ... , t{N-1}, p{N-1})
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*
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* These are used in the same way as their non-INLINE counterparts.
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*
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* These macros are generated by scripts/gen_syscall_header.py and can be
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* found in $OUTDIR/include/generated/syscall_macros.h
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*/
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/**
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* @typedef _k_syscall_handler_t
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* @brief System call handler function type
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*
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* These are kernel-side skeleton functions for system calls. They are
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* necessary to sanitize the arguments passed into the system call:
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*
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* - Any kernel object or device pointers are validated with _SYSCALL_IS_OBJ()
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* - Any memory buffers passed in are checked to ensure that the calling thread
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* actually has access to them
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* - Many kernel calls do no sanity checking of parameters other than
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* assertions. The handler must check all of these conditions using
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* _SYSCALL_ASSERT()
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* - If the system call has more than 6 arguments, then arg6 will be a pointer
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* to some struct containing arguments 6+. The struct itself needs to be
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* validated like any other buffer passed in from userspace, and its members
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* individually validated (if necessary) and then passed to the real
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* implementation like normal arguments
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*
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* Even if the system call implementation has no return value, these always
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* return something, even 0, to prevent register leakage to userspace.
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*
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* Once everything has been validated, the real implementation will be executed.
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*
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* @param arg1 system call argument 1
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* @param arg2 system call argument 2
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* @param arg3 system call argument 3
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* @param arg4 system call argument 4
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* @param arg5 system call argument 5
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* @param arg6 system call argument 6
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* @param ssf System call stack frame pointer. Used to generate kernel oops
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* via _arch_syscall_oops_at(). Contents are arch-specific.
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* @return system call return value, or 0 if the system call implementation
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* return void
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*
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*/
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typedef u32_t (*_k_syscall_handler_t)(u32_t arg1, u32_t arg2, u32_t arg3,
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u32_t arg4, u32_t arg5, u32_t arg6,
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void *ssf);
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#ifdef CONFIG_USERSPACE
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/**
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* Indicate whether we are currently running in user mode
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*
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* @return true if the CPU is currently running with user permissions
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*/
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static inline bool _arch_is_user_context(void);
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/**
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* Indicate whether the CPU is currently in user mode
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*
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* @return true if the CPU is currently running with user permissions
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*/
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static inline bool _is_user_context(void)
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{
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return _arch_is_user_context();
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}
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/*
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* Helper data structures for system calls with large argument lists
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*/
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struct _syscall_7_args {
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u32_t arg6;
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u32_t arg7;
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};
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struct _syscall_8_args {
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u32_t arg6;
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u32_t arg7;
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u32_t arg8;
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};
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struct _syscall_9_args {
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u32_t arg6;
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u32_t arg7;
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u32_t arg8;
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u32_t arg9;
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};
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struct _syscall_10_args {
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u32_t arg6;
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u32_t arg7;
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u32_t arg8;
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u32_t arg9;
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u32_t arg10;
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};
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/*
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* Interfaces for invoking system calls
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*/
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static inline u32_t _arch_syscall_invoke0(u32_t call_id);
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static inline u32_t _arch_syscall_invoke1(u32_t arg1, u32_t call_id);
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static inline u32_t _arch_syscall_invoke2(u32_t arg1, u32_t arg2,
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u32_t call_id);
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static inline u32_t _arch_syscall_invoke3(u32_t arg1, u32_t arg2, u32_t arg3,
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u32_t call_id);
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static inline u32_t _arch_syscall_invoke4(u32_t arg1, u32_t arg2, u32_t arg3,
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u32_t arg4, u32_t call_id);
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static inline u32_t _arch_syscall_invoke5(u32_t arg1, u32_t arg2, u32_t arg3,
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u32_t arg4, u32_t arg5,
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u32_t call_id);
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static inline u32_t _arch_syscall_invoke6(u32_t arg1, u32_t arg2, u32_t arg3,
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u32_t arg4, u32_t arg5, u32_t arg6,
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u32_t call_id);
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static inline u32_t _syscall_invoke7(u32_t arg1, u32_t arg2, u32_t arg3,
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u32_t arg4, u32_t arg5, u32_t arg6,
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u32_t arg7, u32_t call_id) {
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struct _syscall_7_args args = {
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.arg6 = arg6,
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.arg7 = arg7,
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};
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return _arch_syscall_invoke6(arg1, arg2, arg3, arg4, arg5, (u32_t)&args,
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call_id);
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}
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static inline u32_t _syscall_invoke8(u32_t arg1, u32_t arg2, u32_t arg3,
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u32_t arg4, u32_t arg5, u32_t arg6,
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u32_t arg7, u32_t arg8, u32_t call_id)
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{
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struct _syscall_8_args args = {
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.arg6 = arg6,
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.arg7 = arg7,
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.arg8 = arg8,
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};
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return _arch_syscall_invoke6(arg1, arg2, arg3, arg4, arg5, (u32_t)&args,
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call_id);
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}
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static inline u32_t _syscall_invoke9(u32_t arg1, u32_t arg2, u32_t arg3,
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u32_t arg4, u32_t arg5, u32_t arg6,
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u32_t arg7, u32_t arg8, u32_t arg9,
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u32_t call_id)
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{
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struct _syscall_9_args args = {
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.arg6 = arg6,
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.arg7 = arg7,
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.arg8 = arg8,
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.arg9 = arg9,
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};
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return _arch_syscall_invoke6(arg1, arg2, arg3, arg4, arg5, (u32_t)&args,
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call_id);
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}
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static inline u32_t _syscall_invoke10(u32_t arg1, u32_t arg2, u32_t arg3,
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u32_t arg4, u32_t arg5, u32_t arg6,
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u32_t arg7, u32_t arg8, u32_t arg9,
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u32_t arg10, u32_t call_id)
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{
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struct _syscall_10_args args = {
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.arg6 = arg6,
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.arg7 = arg7,
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.arg8 = arg8,
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.arg9 = arg9,
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.arg10 = arg10
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};
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return _arch_syscall_invoke6(arg1, arg2, arg3, arg4, arg5, (u32_t)&args,
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call_id);
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}
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static inline u64_t _syscall_ret64_invoke0(u32_t call_id)
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{
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u64_t ret;
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(void)_arch_syscall_invoke1((u32_t)&ret, call_id);
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return ret;
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}
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static inline u64_t _syscall_ret64_invoke1(u32_t arg1, u32_t call_id)
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{
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u64_t ret;
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(void)_arch_syscall_invoke2(arg1, (u32_t)&ret, call_id);
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return ret;
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}
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static inline u64_t _syscall_ret64_invoke2(u32_t arg1, u32_t arg2,
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u32_t call_id)
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{
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u64_t ret;
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(void)_arch_syscall_invoke3(arg1, arg2, (u32_t)&ret, call_id);
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return ret;
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}
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#endif /* CONFIG_USERSPACE */
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#ifdef __cplusplus
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}
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#endif
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#endif /* _ASMLANGUAGE */
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#endif
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