// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef SANDBOX_LINUX_SECCOMP_BPF_SYSCALL_H__ #define SANDBOX_LINUX_SECCOMP_BPF_SYSCALL_H__ #include #include #include "base/macros.h" #include "sandbox/linux/system_headers/linux_signal.h" #include "sandbox/sandbox_export.h" namespace sandbox { // This purely static class can be used to perform system calls with some // low-level control. class SANDBOX_EXPORT Syscall { public: // InvalidCall() invokes Call() with a platform-appropriate syscall // number that is guaranteed to not be implemented (i.e., normally // returns -ENOSYS). // This is primarily meant to be useful for writing sandbox policy // unit tests. static intptr_t InvalidCall(); // System calls can take up to six parameters (up to eight on some // architectures). Traditionally, glibc // implements this property by using variadic argument lists. This works, but // confuses modern tools such as valgrind, because we are nominally passing // uninitialized data whenever we call through this function and pass less // than the full six arguments. // So, instead, we use C++'s template system to achieve a very similar // effect. C++ automatically sets the unused parameters to zero for us, and // it also does the correct type expansion (e.g. from 32bit to 64bit) where // necessary. // We have to use C-style cast operators as we want to be able to accept both // integer and pointer types. template static inline intptr_t Call(int nr, T0 p0, T1 p1, T2 p2, T3 p3, T4 p4, T5 p5, T6 p6, T7 p7) { return Call(nr, (intptr_t)p0, (intptr_t)p1, (intptr_t)p2, (intptr_t)p3, (intptr_t)p4, (intptr_t)p5, (intptr_t)p6, (intptr_t)p7); } template static inline intptr_t Call(int nr, T0 p0, T1 p1, T2 p2, T3 p3, T4 p4, T5 p5, T6 p6) { return Call(nr, (intptr_t)p0, (intptr_t)p1, (intptr_t)p2, (intptr_t)p3, (intptr_t)p4, (intptr_t)p5, (intptr_t)p6, 0); } template static inline intptr_t Call(int nr, T0 p0, T1 p1, T2 p2, T3 p3, T4 p4, T5 p5) { return Call(nr, (intptr_t)p0, (intptr_t)p1, (intptr_t)p2, (intptr_t)p3, (intptr_t)p4, (intptr_t)p5, 0, 0); } template static inline intptr_t Call(int nr, T0 p0, T1 p1, T2 p2, T3 p3, T4 p4) { return Call(nr, p0, p1, p2, p3, p4, 0, 0, 0); } template static inline intptr_t Call(int nr, T0 p0, T1 p1, T2 p2, T3 p3) { return Call(nr, p0, p1, p2, p3, 0, 0, 0, 0); } template static inline intptr_t Call(int nr, T0 p0, T1 p1, T2 p2) { return Call(nr, p0, p1, p2, 0, 0, 0, 0, 0); } template static inline intptr_t Call(int nr, T0 p0, T1 p1) { return Call(nr, p0, p1, 0, 0, 0, 0, 0, 0); } template static inline intptr_t Call(int nr, T0 p0) { return Call(nr, p0, 0, 0, 0, 0, 0, 0, 0); } static inline intptr_t Call(int nr) { return Call(nr, 0, 0, 0, 0, 0, 0, 0, 0); } // Set the registers in |ctx| to match what they would be after a system call // returning |ret_val|. |ret_val| must follow the Syscall::Call() convention // of being -errno on errors. static void PutValueInUcontext(intptr_t ret_val, ucontext_t* ctx); private: // This performs system call |nr| with the arguments p0 to p7 from a constant // userland address, which is for instance observable by seccomp-bpf filters. // The constant userland address from which these system calls are made will // be returned if |nr| is passed as -1. // On error, this function will return a value between -1 and -4095 which // should be interpreted as -errno. static intptr_t Call(int nr, intptr_t p0, intptr_t p1, intptr_t p2, intptr_t p3, intptr_t p4, intptr_t p5, intptr_t p6, intptr_t p7); #if defined(__mips__) // This function basically does on MIPS what SandboxSyscall() is doing on // other architectures. However, because of specificity of MIPS regarding // handling syscall errors, SandboxSyscall() is made as a wrapper for this // function in order for SandboxSyscall() to behave more like on other // architectures on places where return value from SandboxSyscall() is used // directly (like in most tests). // The syscall "nr" is called with arguments that are set in an array on which // pointer "args" points to and an information weather there is an error or no // is returned to SandboxSyscall() by err_stat. static intptr_t SandboxSyscallRaw(int nr, const intptr_t* args, intptr_t* err_stat); #endif // defined(__mips__) DISALLOW_IMPLICIT_CONSTRUCTORS(Syscall); }; } // namespace sandbox #endif // SANDBOX_LINUX_SECCOMP_BPF_SYSCALL_H__