Fennix/Kernel
1
0
Fork 0
mirror of https://github.com/Fennix-Project/Kernel.git synced 2025-05-25 22:14:37 +00:00
Code Issues Actions Packages Projects Releases Wiki Activity
Kernel/subsystem/linux/syscall.cpp
EnderIce2 19f2a78d35
linux: Move everything to ./subsystem/linux/*
2024-11-20 03:49:15 +02:00

4333 lines
131 KiB
C++
Raw Blame History

/*
This file is part of Fennix Kernel.
Fennix Kernel is free software: you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation, either version 3 of
the License, or (at your option) any later version.
Fennix Kernel is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Fennix Kernel. If not, see <https://www.gnu.org/licenses/>.
*/
#include <syscalls.hpp>
#include <static_vector>
#include <signal.hpp>
#include <dumper.hpp>
#include <utsname.h>
#include <rand.hpp>
#include <limits.h>
#include <exec.hpp>
#include <task.hpp>
#include <debug.h>
#include <cpu.hpp>
#include <time.h>
#include <memory.hpp>
#define INI_IMPLEMENTATION
#include <ini.h>
#include "include/syscalls_amd64.hpp"
#include "include/syscalls_i386.hpp"
#include "include/signals.hpp"
#include "include/defs.hpp"
#include "include/errno.h"
#include "../../kernel.h"
using Tasking::PCB;
using Tasking::TCB;
static_assert(linux_SIGRTMIN == SIGRTMIN);
static_assert(linux_SIGRTMAX == SIGRTMAX);
struct SyscallData
{
const char *Name;
void *Handler;
};
#ifdef DEBUG
const char *lSigStr[] = {
"INVALID",
"SIGHUP",
"SIGINT",
"SIGQUIT",
"SIGILL",
"SIGTRAP",
"SIGABRT",
"SIGBUS",
"SIGFPE",
"SIGKILL",
"SIGUSR1",
"SIGSEGV",
"SIGUSR2",
"SIGPIPE",
"SIGALRM",
"SIGTERM",
"SIGSTKFLT",
"SIGCHLD",
"SIGCONT",
"SIGSTOP",
"SIGTSTP",
"SIGTTIN",
"SIGTTOU",
"SIGURG",
"SIGXCPU",
"SIGXFSZ",
"SIGVTALRM",
"SIGPROF",
"SIGWINCH",
"SIGPOLL",
"SIGPWR",
"SIGSYS",
"SIGRTMIN",
"SIGRT_1",
"SIGRT_2",
"SIGRT_3",
"SIGRT_4",
"SIGRT_5",
"SIGRT_6",
"SIGRT_7",
"SIGRT_8",
"SIGRT_9",
"SIGRT_10",
"SIGRT_11",
"SIGRT_12",
"SIGRT_13",
"SIGRT_14",
"SIGRT_15",
"SIGRT_16",
"SIGRT_17",
"SIGRT_18",
"SIGRT_19",
"SIGRT_20",
"SIGRT_21",
"SIGRT_22",
"SIGRT_23",
"SIGRT_24",
"SIGRT_25",
"SIGRT_26",
"SIGRT_27",
"SIGRT_28",
"SIGRT_29",
"SIGRT_30",
"SIGRT_31",
"SIGRTMAX",
};
const char *nErrnoStr[] = {
"EOK",
"E2BIG",
"EACCES",
"EADDRINUSE",
"EADDRNOTAVAIL",
"EAFNOSUPPORT",
"EAGAIN",
"EALREADY",
"EBADF",
"EBADMSG",
"EBUSY",
"ECANCELED",
"ECHILD",
"ECONNABORTED",
"ECONNREFUSED",
"ECONNRESET",
"EDEADLK",
"EDESTADDRREQ",
"EDOM",
"EDQUOT",
"EEXIST",
"EFAULT",
"EFBIG",
"EHOSTUNREACH",
"EIDRM",
"EILSEQ",
"EINPROGRESS",
"EINTR",
"EINVAL",
"EIO",
"EISCONN",
"EISDIR",
"ELOOP",
"EMFILE",
"EMLINK",
"EMSGSIZE",
"EMULTIHOP",
"ENAMETOOLONG",
"ENETDOWN",
"ENETRESET",
"ENETUNREACH",
"ENFILE",
"ENOBUFS",
"ENODATA",
"ENODEV",
"ENOENT",
"ENOEXEC",
"ENOLCK",
"ENOLINK",
"ENOMEM",
"ENOMSG",
"ENOPROTOOPT",
"ENOSPC",
"ENOSR",
"ENOSTR",
"ENOSYS",
"ENOTCONN",
"ENOTDIR",
"ENOTEMPTY",
"ENOTRECOVERABLE",
"ENOTSOCK",
"ENOTSUP",
"ENOTTY",
"ENXIO",
"EOPNOTSUPP",
"EOVERFLOW",
"EOWNERDEAD",
"EPERM",
"EPIPE",
"EPROTO",
"EPROTONOSUPPORT",
"EPROTOTYPE",
"ERANGE",
"EROFS",
"ESPIPE",
"ESRCH",
"ESTALE",
"ETIME",
"ETIMEDOUT",
"ETXTBSY",
"EWOULDBLOCK",
"EXDEV",
};
const char *lErrnoStr[] = {
"zero",
"EPERM",
"ENOENT",
"ESRCH",
"EINTR",
"EIO",
"ENXIO",
"E2BIG",
"ENOEXEC",
"EBADF",
"ECHILD",
"EAGAIN",
"ENOMEM",
"EACCES",
"EFAULT",
"ENOTBLK",
"EBUSY",
"EEXIST",
"EXDEV",
"ENODEV",
"ENOTDIR",
"EISDIR",
"EINVAL",
"ENFILE",
"EMFILE",
"ENOTTY",
"ETXTBSY",
"EFBIG",
"ENOSPC",
"ESPIPE",
"EROFS",
"EMLINK",
"EPIPE",
"EDOM",
"ERANGE",
"EDEADLK",
"ENAMETOOLONG",
"ENOLCK",
"ENOSYS",
"ENOTEMPTY",
"ELOOP",
"unknown",
"ENOMSG",
"EIDRM",
"ECHRNG",
"EL2NSYNC",
"EL3HLT",
"EL3RST",
"ELNRNG",
"EUNATCH",
"ENOCSI",
"EL2HLT",
"EBADE",
"EBADR",
"EXFULL",
"ENOANO",
"EBADRQC",
"EBADSLT",
"unknown",
"EBFONT",
"ENOSTR",
"ENODATA",
"ETIME",
"ENOSR",
"ENONET",
"ENOPKG",
"EREMOTE",
"ENOLINK",
"EADV",
"ESRMNT",
"ECOMM",
"EPROTO",
"EMULTIHOP",
"EDOTDOT",
"EBADMSG",
"EOVERFLOW",
"ENOTUNIQ",
"EBADFD",
"EREMCHG",
"ELIBACC",
"ELIBBAD",
"ELIBSCN",
"ELIBMAX",
"ELIBEXEC",
"EILSEQ",
"ERESTART",
"ESTRPIPE",
"EUSERS",
"ENOTSOCK",
"EDESTADDRREQ",
"EMSGSIZE",
"EPROTOTYPE",
"ENOPROTOOPT",
"EPROTONOSUPPORT",
"ESOCKTNOSUPPORT",
"EOPNOTSUPP",
"EPFNOSUPPORT",
"EAFNOSUPPORT",
"EADDRINUSE",
"EADDRNOTAVAIL",
"ENETDOWN",
"ENETUNREACH",
"ENETRESET",
"ECONNABORTED",
"ECONNRESET",
"ENOBUFS",
"EISCONN",
"ENOTCONN",
"ESHUTDOWN",
"ETOOMANYREFS",
"ETIMEDOUT",
"ECONNREFUSED",
"EHOSTDOWN",
"EHOSTUNREACH",
"EALREADY",
"EINPROGRESS",
"ESTALE",
"EUCLEAN",
"ENOTNAM",
"ENAVAIL",
"EISNAM",
"EREMOTEIO",
"EDQUOT",
"ENOMEDIUM",
"EMEDIUMTYPE",
"ECANCELED",
"ENOKEY",
"EKEYEXPIRED",
"EKEYREVOKED",
"EKEYREJECTED",
"EOWNERDEAD",
"ENOTRECOVERABLE",
};
#endif
const char *rlimitStr[] = {
"RLIMIT_CPU",
"RLIMIT_FSIZE",
"RLIMIT_DATA",
"RLIMIT_STACK",
"RLIMIT_CORE",
"RLIMIT_RSS",
"RLIMIT_NPROC",
"RLIMIT_NOFILE",
"RLIMIT_MEMLOCK",
"RLIMIT_AS",
"RLIMIT_LOCKS",
"RLIMIT_SIGPENDING",
"RLIMIT_MSGQUEUE",
"RLIMIT_NICE",
"RLIMIT_RTPRIO",
"RLIMIT_RTTIME",
"RLIMIT_NLIMITS",
};
static const struct
{
int linuxSignal;
Signals nativeSignal;
SignalDispositions nativeDisposition;
} signalMapping[] = {
{linux_SIGHUP, SIGHUP, SIG_TERM},
{linux_SIGINT, SIGINT, SIG_TERM},
{linux_SIGQUIT, SIGQUIT, SIG_TERM},
{linux_SIGILL, SIGILL, SIG_CORE},
{linux_SIGTRAP, SIGTRAP, SIG_CORE},
{linux_SIGABRT, SIGABRT, SIG_CORE},
{linux_SIGBUS, SIGBUS, SIG_CORE},
{linux_SIGFPE, SIGFPE, SIG_CORE},
{linux_SIGKILL, SIGKILL, SIG_TERM},
{linux_SIGUSR1, SIGUSR1, SIG_TERM},
{linux_SIGSEGV, SIGSEGV, SIG_CORE},
{linux_SIGUSR2, SIGUSR2, SIG_TERM},
{linux_SIGPIPE, SIGPIPE, SIG_TERM},
{linux_SIGALRM, SIGALRM, SIG_TERM},
{linux_SIGTERM, SIGTERM, SIG_TERM},
{linux_SIGSTKFLT, SIGCOMP1, SIG_IGN},
{linux_SIGCHLD, SIGCHLD, SIG_IGN},
{linux_SIGCONT, SIGCONT, SIG_CONT},
{linux_SIGSTOP, SIGSTOP, SIG_STOP},
{linux_SIGTSTP, SIGTSTP, SIG_STOP},
{linux_SIGTTIN, SIGTTIN, SIG_STOP},
{linux_SIGTTOU, SIGTTOU, SIG_STOP},
{linux_SIGURG, SIGURG, SIG_IGN},
{linux_SIGXCPU, SIGXCPU, SIG_CORE},
{linux_SIGXFSZ, SIGXFSZ, SIG_CORE},
{linux_SIGVTALRM, SIGVTALRM, SIG_TERM},
{linux_SIGPROF, SIGPROF, SIG_TERM},
{linux_SIGWINCH, SIGCOMP2, SIG_IGN},
{linux_SIGPOLL, SIGPOLL, SIG_TERM},
{linux_SIGPWR, SIGCOMP3, SIG_IGN},
{linux_SIGSYS, SIGSYS, SIG_CORE},
{linux_SIGRTMIN, SIGRTMIN, SIG_IGN},
{linux_SIGRTMIN + 1, SIGRT_1, SIG_IGN},
{linux_SIGRTMIN + 2, SIGRT_2, SIG_IGN},
{linux_SIGRTMIN + 3, SIGRT_3, SIG_IGN},
{linux_SIGRTMIN + 4, SIGRT_4, SIG_IGN},
{linux_SIGRTMIN + 5, SIGRT_5, SIG_IGN},
{linux_SIGRTMIN + 6, SIGRT_6, SIG_IGN},
{linux_SIGRTMIN + 7, SIGRT_7, SIG_IGN},
{linux_SIGRTMIN + 8, SIGRT_8, SIG_IGN},
{linux_SIGRTMIN + 9, SIGRT_9, SIG_IGN},
{linux_SIGRTMIN + 10, SIGRT_10, SIG_IGN},
{linux_SIGRTMIN + 11, SIGRT_11, SIG_IGN},
{linux_SIGRTMIN + 12, SIGRT_12, SIG_IGN},
{linux_SIGRTMIN + 13, SIGRT_13, SIG_IGN},
{linux_SIGRTMIN + 14, SIGRT_14, SIG_IGN},
{linux_SIGRTMIN + 15, SIGRT_15, SIG_IGN},
{linux_SIGRTMIN + 16, SIGRT_16, SIG_IGN},
{linux_SIGRTMIN + 17, SIGRT_17, SIG_IGN},
{linux_SIGRTMIN + 18, SIGRT_18, SIG_IGN},
{linux_SIGRTMIN + 19, SIGRT_19, SIG_IGN},
{linux_SIGRTMIN + 20, SIGRT_20, SIG_IGN},
{linux_SIGRTMIN + 21, SIGRT_21, SIG_IGN},
{linux_SIGRTMIN + 22, SIGRT_22, SIG_IGN},
{linux_SIGRTMIN + 23, SIGRT_23, SIG_IGN},
{linux_SIGRTMIN + 24, SIGRT_24, SIG_IGN},
{linux_SIGRTMIN + 25, SIGRT_25, SIG_IGN},
{linux_SIGRTMIN + 26, SIGRT_26, SIG_IGN},
{linux_SIGRTMIN + 27, SIGRT_27, SIG_IGN},
{linux_SIGRTMIN + 28, SIGRT_28, SIG_IGN},
{linux_SIGRTMIN + 29, SIGRT_29, SIG_IGN},
{linux_SIGRTMIN + 30, SIGRT_30, SIG_IGN},
{linux_SIGRTMIN + 31, SIGRT_31, SIG_IGN},
{linux_SIGRTMAX, SIGRTMAX, SIG_IGN},
};
static_vector<int, __ERRNO_MAX> errnoMap = {
/*EOK*/ 0,
/*E2BIG*/ linux_E2BIG,
/*EACCES*/ linux_EACCES,
/*EADDRINUSE*/ linux_EADDRINUSE,
/*EADDRNOTAVAIL*/ linux_EADDRNOTAVAIL,
/*EAFNOSUPPORT*/ linux_EAFNOSUPPORT,
/*EAGAIN*/ linux_EAGAIN,
/*EALREADY*/ linux_EALREADY,
/*EBADF*/ linux_EBADF,
/*EBADMSG*/ linux_EBADMSG,
/*EBUSY*/ linux_EBUSY,
/*ECANCELED*/ linux_ECANCELED,
/*ECHILD*/ linux_ECHILD,
/*ECONNABORTED*/ linux_ECONNABORTED,
/*ECONNREFUSED*/ linux_ECONNREFUSED,
/*ECONNRESET*/ linux_ECONNRESET,
/*EDEADLK*/ linux_EDEADLK,
/*EDESTADDRREQ*/ linux_EDESTADDRREQ,
/*EDOM*/ linux_EDOM,
/*EDQUOT*/ linux_EDQUOT,
/*EEXIST*/ linux_EEXIST,
/*EFAULT*/ linux_EFAULT,
/*EFBIG*/ linux_EFBIG,
/*EHOSTUNREACH*/ linux_EHOSTUNREACH,
/*EIDRM*/ linux_EIDRM,
/*EILSEQ*/ linux_EILSEQ,
/*EINPROGRESS*/ linux_EINPROGRESS,
/*EINTR*/ linux_EINTR,
/*EINVAL*/ linux_EINVAL,
/*EIO*/ linux_EIO,
/*EISCONN*/ linux_EISCONN,
/*EISDIR*/ linux_EISDIR,
/*ELOOP*/ linux_ELOOP,
/*EMFILE*/ linux_EMFILE,
/*EMLINK*/ linux_EMLINK,
/*EMSGSIZE*/ linux_EMSGSIZE,
/*EMULTIHOP*/ linux_EMULTIHOP,
/*ENAMETOOLONG*/ linux_ENAMETOOLONG,
/*ENETDOWN*/ linux_ENETDOWN,
/*ENETRESET*/ linux_ENETRESET,
/*ENETUNREACH*/ linux_ENETUNREACH,
/*ENFILE*/ linux_ENFILE,
/*ENOBUFS*/ linux_ENOBUFS,
/*ENODATA*/ linux_ENODATA,
/*ENODEV*/ linux_ENODEV,
/*ENOENT*/ linux_ENOENT,
/*ENOEXEC*/ linux_ENOEXEC,
/*ENOLCK*/ linux_ENOLCK,
/*ENOLINK*/ linux_ENOLINK,
/*ENOMEM*/ linux_ENOMEM,
/*ENOMSG*/ linux_ENOMSG,
/*ENOPROTOOPT*/ linux_ENOPROTOOPT,
/*ENOSPC*/ linux_ENOSPC,
/*ENOSR*/ linux_ENOSR,
/*ENOSTR*/ linux_ENOSTR,
/*ENOSYS*/ linux_ENOSYS,
/*ENOTCONN*/ linux_ENOTCONN,
/*ENOTDIR*/ linux_ENOTDIR,
/*ENOTEMPTY*/ linux_ENOTEMPTY,
/*ENOTRECOVERABLE*/ linux_ENOTRECOVERABLE,
/*ENOTSOCK*/ linux_ENOTSOCK,
/*ENOTSUP*/ linux_EOPNOTSUPP,
/*ENOTTY*/ linux_ENOTTY,
/*ENXIO*/ linux_ENXIO,
/*EOPNOTSUPP*/ linux_EOPNOTSUPP,
/*EOVERFLOW*/ linux_EOVERFLOW,
/*EOWNERDEAD*/ linux_EOWNERDEAD,
/*EPERM*/ linux_EPERM,
/*EPIPE*/ linux_EPIPE,
/*EPROTO*/ linux_EPROTO,
/*EPROTONOSUPPORT*/ linux_EPROTONOSUPPORT,
/*EPROTOTYPE*/ linux_EPROTOTYPE,
/*ERANGE*/ linux_ERANGE,
/*EROFS*/ linux_EROFS,
/*ESPIPE*/ linux_ESPIPE,
/*ESRCH*/ linux_ESRCH,
/*ESTALE*/ linux_ESTALE,
/*ETIME*/ linux_ETIME,
/*ETIMEDOUT*/ linux_ETIMEDOUT,
/*ETXTBSY*/ linux_ETXTBSY,
/*EWOULDBLOCK*/ linux_EAGAIN,
/*EXDEV*/ linux_EXDEV,
};
inline intptr_t ConvertErrnoToLinux(auto err)
{
intptr_t errc = (intptr_t)err;
if (errc >= 0)
{
debug("no change for %#lx", errc);
return errc;
}
intptr_t ret = errnoMap[-errc];
debug("converted %s(%ld) to %s(%ld)", nErrnoStr[-errc], -errc, lErrnoStr[ret], ret);
return -ret;
}
int ConvertSignalToLinux(Signals sig)
{
if (sig >= SIGRTMIN && sig <= SIGRTMAX)
return sig; /* We ignore for now */
foreach (auto &mapping in signalMapping)
{
if (mapping.nativeSignal == sig)
{
// debug("Converted \"%s\"(%d) to \"%s\"(%d)",
// sigStr[mapping.nativeSignal], sig,
// lSigStr[mapping.linuxSignal], mapping.linuxSignal);
return mapping.linuxSignal;
}
}
debug("Unknown signal %d", sig);
// assert(!"Unknown signal");
return SIG_NULL;
}
Signals ConvertSignalToNative(int sig)
{
if (sig >= linux_SIGRTMIN && sig <= linux_SIGRTMAX)
return (Signals)sig; /* We ignore for now */
foreach (auto &mapping in signalMapping)
{
if (mapping.linuxSignal == sig)
{
// debug("Converted \"%s\"(%d) to \"%s\"(%d)",
// lSigStr[mapping.linuxSignal], sig,
// sigStr[mapping.nativeSignal], mapping.nativeSignal);
return mapping.nativeSignal;
}
}
debug("Unknown signal %d", sig);
// assert(!"Unknown signal");
return SIG_NULL;
}
unsigned long ConvertMaskToNative(unsigned long mask)
{
unsigned long ret = 0;
for (int i = 0; i < 64; i++)
{
if (mask & (1ul << i))
{
int sig = ConvertSignalToNative(i + 1);
if (unlikely(sig == SIG_NULL))
continue;
ret |= 1ul << (sig - 1);
}
}
return ret;
// std::bitset<SIGNAL_MAX + 1> bitMask(mask);
// for (int i = 0; i < SIGNAL_MAX + 1; i++)
// {
// if (bitMask.test(i))
// ret |= 1 << (ConvertSignalToNative(i + 1) - 1);
// }
}
unsigned long ConvertMaskToLinux(unsigned long mask)
{
unsigned long ret = 0;
for (int i = 0; i < 64; i++)
{
if (mask & (1ul << i))
{
int sig = ConvertSignalToLinux((Signals)(i + 1));
if (unlikely(sig == SIG_NULL))
continue;
ret |= 1ul << (sig - 1);
}
}
return ret;
// std::bitset<linux_SIGUNUSED + 1> bitMask(mask);
// for (int i = 0; i < linux_SIGUNUSED + 1; i++)
// {
// if (bitMask.test(i))
// ret |= 1 << (ConvertSignalToLinux(i + 1) - 1);
// }
}
void SetSigActToNative(const k_sigaction *linux, SignalAction *native)
{
native->sa_handler.Handler = linux->handler;
native->Flags = linux->flags;
native->Restorer = linux->restorer;
unsigned long mask = ((unsigned long)linux->mask[1] << 32) | linux->mask[0];
native->Mask = std::bitset<64>(ConvertMaskToNative(mask));
debug("m0:%#lx m1:%#lx | n:%#lx", linux->mask[0], linux->mask[1], native->Mask);
}
void SetSigActToLinux(const SignalAction *native, k_sigaction *linux)
{
linux->handler = native->sa_handler.Handler;
linux->flags = native->Flags;
linux->restorer = native->Restorer;
unsigned long mask = native->Mask.to_ulong();
mask = ConvertMaskToLinux(mask);
linux->mask[0] = mask & 0xFFFFFFFF;
linux->mask[1] = (uint32_t)((mask >> 32) & 0xFFFFFFFF);
debug("m0:%#lx m1:%#lx | n:%#lx", linux->mask[0], linux->mask[1], native->Mask);
}
struct kstat KStatToStat(struct linux_kstat linux_stat)
{
struct kstat stat;
stat.Device = linux_stat.st_dev;
stat.Index = linux_stat.st_ino;
stat.HardLinks = (nlink_t)linux_stat.st_nlink;
stat.Mode = linux_stat.st_mode;
stat.UserID = linux_stat.st_uid;
stat.GroupID = linux_stat.st_gid;
stat.RawDevice = linux_stat.st_rdev;
stat.Size = linux_stat.st_size;
stat.BlockSize = linux_stat.st_blksize;
stat.Blocks = linux_stat.st_blocks;
stat.AccessTime = linux_stat.st_atime;
// stat.st_atime_nsec = linux_stat.st_atime_nsec;
stat.ModifyTime = linux_stat.st_mtime;
// stat.st_mtime_nsec = linux_stat.st_mtime_nsec;
stat.ChangeTime = linux_stat.st_ctime;
// stat.st_ctime_nsec = linux_stat.st_ctime_nsec;
return stat;
}
struct linux_kstat StatToKStat(struct kstat stat)
{
struct linux_kstat linux_stat;
linux_stat.st_dev = stat.Device;
linux_stat.st_ino = stat.Index;
linux_stat.st_nlink = stat.HardLinks;
linux_stat.st_mode = stat.Mode;
linux_stat.st_uid = stat.UserID;
linux_stat.st_gid = stat.GroupID;
linux_stat.st_rdev = stat.RawDevice;
linux_stat.st_size = stat.Size;
linux_stat.st_blksize = stat.BlockSize;
linux_stat.st_blocks = stat.Blocks;
linux_stat.st_atime = stat.AccessTime;
// linux_stat.st_atime_nsec = stat.st_atime_nsec;
linux_stat.st_mtime = stat.ModifyTime;
// linux_stat.st_mtime_nsec = stat.st_mtime_nsec;
linux_stat.st_ctime = stat.ChangeTime;
// linux_stat.st_ctime_nsec = stat.st_ctime_nsec;
return linux_stat;
}
struct kstat OKStatToStat(struct __old_kernel_stat okstat)
{
struct kstat stat;
stat.Device = okstat.st_dev;
stat.Index = okstat.st_ino;
stat.HardLinks = okstat.st_nlink;
stat.Mode = okstat.st_mode;
stat.UserID = okstat.st_uid;
stat.GroupID = okstat.st_gid;
stat.RawDevice = okstat.st_rdev;
stat.Size = okstat.st_size;
stat.AccessTime = okstat.st_atime;
stat.ModifyTime = okstat.st_mtime;
stat.ChangeTime = okstat.st_ctime;
return stat;
}
struct __old_kernel_stat StatToOKStat(struct kstat stat)
{
struct __old_kernel_stat okstat;
okstat.st_dev = (unsigned short)stat.Device;
okstat.st_ino = (unsigned short)stat.Index;
okstat.st_nlink = (unsigned short)stat.HardLinks;
okstat.st_mode = (unsigned short)stat.Mode;
okstat.st_uid = (unsigned short)stat.UserID;
okstat.st_gid = (unsigned short)stat.GroupID;
okstat.st_rdev = (unsigned short)stat.RawDevice;
#ifdef __i386__
okstat.st_size = (unsigned long)stat.Size;
okstat.st_atime = (unsigned long)stat.AccessTime;
okstat.st_mtime = (unsigned long)stat.ModifyTime;
okstat.st_ctime = (unsigned long)stat.ChangeTime;
#else
okstat.st_size = (unsigned int)stat.Size;
okstat.st_atime = (unsigned int)stat.AccessTime;
okstat.st_mtime = (unsigned int)stat.ModifyTime;
okstat.st_ctime = (unsigned int)stat.ChangeTime;
#endif
return okstat;
}
__no_stack_protector void __LinuxForkReturn(void *tableAddr)
{
#if defined(a64)
asmv("movq %0, %%cr3" ::"r"(tableAddr)); /* Load process page table */
asmv("movq $0, %rax\n"); /* Return 0 */
asmv("movq %r8, %rsp\n"); /* Restore stack pointer */
asmv("movq %r8, %rbp\n"); /* Restore base pointer */
asmv("swapgs\n"); /* Swap GS back to the user GS */
asmv("sti\n"); /* Enable interrupts */
asmv("sysretq\n"); /* Return to rcx address in user mode */
#elif defined(a32)
#warning "__LinuxForkReturn not implemented for i386"
#endif
__builtin_unreachable();
}
static ssize_t linux_read(SysFrm *, int fd, void *buf, size_t count)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
void *pBuf = vma->UserCheckAndGetAddress(buf, count);
if (pBuf == nullptr)
return -linux_EFAULT;
func("%d, %p, %d", fd, buf, count);
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
ssize_t ret = ConvertErrnoToLinux(fdt->usr_read(fd, pBuf, count));
if (ret >= 0)
fdt->usr_lseek(fd, ret, SEEK_CUR);
#ifdef DEBUG
DumpData("READ", pBuf, ret < 0 ? 0 : ret);
#endif
return ret;
}
static ssize_t linux_write(SysFrm *, int fd, const void *buf, size_t count)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
const void *pBuf = vma->UserCheckAndGetAddress(buf, count);
if (pBuf == nullptr)
return -linux_EFAULT;
func("%d, %p, %d", fd, buf, count);
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
ssize_t ret = ConvertErrnoToLinux(fdt->usr_write(fd, pBuf, count));
if (ret)
fdt->usr_lseek(fd, ret, SEEK_CUR);
#ifdef DEBUG
DumpData("WRITE", (void *)pBuf, ret < 0 ? 0 : ret);
#endif
return ret;
}
static int linux_open(SysFrm *sf, const char *pathname, int flags, mode_t mode)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
const char *pPathname = vma->UserCheckAndGetAddress(pathname, PAGE_SIZE);
if (pPathname == nullptr)
return -linux_EFAULT;
func("%s, %d, %d", pPathname, flags, mode);
if (flags & 0200000 /* O_DIRECTORY */)
{
FileNode *node = fs->GetByPath(pPathname, pcb->CWD);
if (node == nullptr)
{
debug("Couldn't find %s", pPathname);
return -linux_ENOENT;
}
if (!node->IsDirectory())
{
debug("%s is not a directory", pPathname);
return -linux_ENOTDIR;
}
}
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
return ConvertErrnoToLinux(fdt->usr_open(pPathname, flags, mode));
}
static int linux_close(SysFrm *, int fd)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
return ConvertErrnoToLinux(fdt->usr_close(fd));
}
/* stat, lstat and fstat uses __old_kernel_stat:
https://github.com/torvalds/linux/blob/bfa8f18691ed2e978e4dd51190569c434f93e268/fs/stat.c#L353
if __ARCH_WANT_OLD_STAT is defined
so what about __old_kernel_stat? when it is used? */
static int linux_stat(SysFrm *, const char *pathname, struct linux_kstat *statbuf)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pPathname = vma->UserCheckAndGetAddress(pathname, PAGE_SIZE);
if (pPathname == nullptr)
return -linux_EFAULT;
auto pStatbuf = vma->UserCheckAndGetAddress(statbuf);
if (pStatbuf == nullptr)
return -linux_EFAULT;
struct kstat nstat = KStatToStat(*pStatbuf);
int ret = ConvertErrnoToLinux(fdt->usr_stat(pPathname, &nstat));
*pStatbuf = StatToKStat(nstat);
return ret;
}
static int linux_fstat(SysFrm *, int fd, struct linux_kstat *statbuf)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pStatbuf = vma->UserCheckAndGetAddress(statbuf);
if (pStatbuf == nullptr)
return -linux_EFAULT;
struct kstat nstat = KStatToStat(*pStatbuf);
int ret = ConvertErrnoToLinux(fdt->usr_fstat(fd, &nstat));
*pStatbuf = StatToKStat(nstat);
return ret;
}
static int linux_lstat(SysFrm *, const char *pathname, struct linux_kstat *statbuf)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pPathname = vma->UserCheckAndGetAddress(pathname, PAGE_SIZE);
auto pStatbuf = vma->UserCheckAndGetAddress(statbuf);
if (pPathname == nullptr || pStatbuf == nullptr)
return -linux_EFAULT;
struct kstat nstat = KStatToStat(*pStatbuf);
int ret = ConvertErrnoToLinux(fdt->usr_lstat(pPathname, &nstat));
*pStatbuf = StatToKStat(nstat);
return ret;
}
// #include "../syscalls.h"
static off_t linux_lseek(SysFrm *, int fd, off_t offset, int whence)
{
static_assert(linux_SEEK_SET == SEEK_SET);
static_assert(linux_SEEK_CUR == SEEK_CUR);
static_assert(linux_SEEK_END == SEEK_END);
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
return ConvertErrnoToLinux(fdt->usr_lseek(fd, offset, whence));
}
static void *linux_mmap(SysFrm *, void *addr, size_t length, int prot,
int flags, int fildes, off_t offset)
{
if (length == 0)
return (void *)-linux_EINVAL;
bool p_None = prot & linux_PROT_NONE;
bool p_Read = prot & linux_PROT_READ;
bool p_Write = prot & linux_PROT_WRITE;
bool p_Exec = prot & linux_PROT_EXEC;
bool m_Shared = flags & linux_MAP_SHARED;
bool m_Private = flags & linux_MAP_PRIVATE;
bool m_Fixed = flags & linux_MAP_FIXED;
bool m_Anon = flags & linux_MAP_ANONYMOUS;
UNUSED(p_None);
UNUSED(m_Anon);
debug("None:%d Read:%d Write:%d Exec:%d",
p_None, p_Read, p_Write, p_Exec);
debug("Shared:%d Private:%d Fixed:%d Anon:%d",
m_Shared, m_Private, m_Fixed, m_Anon);
int unknownFlags = flags & ~(linux_MAP_SHARED | linux_MAP_PRIVATE |
linux_MAP_FIXED | linux_MAP_ANONYMOUS);
if (unknownFlags)
{
/* We still have some flags missing afaik... */
fixme("Unknown flags: %x", unknownFlags);
/* FIXME: Continue? */
}
if (offset % PAGE_SIZE)
return (void *)-linux_EINVAL;
if (uintptr_t(addr) % PAGE_SIZE && m_Fixed)
return (void *)-linux_EINVAL;
if ((m_Shared && m_Private) ||
(!m_Shared && !m_Private))
return (void *)-linux_EINVAL;
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
if (fildes != -1 && !m_Anon)
{
fixme("File mapping not fully implemented");
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
auto _fd = fdt->FileMap.find(fildes);
if (_fd == fdt->FileMap.end())
{
debug("Invalid file descriptor %d", fildes);
return (void *)-linux_EBADF;
}
if (p_Read)
{
void *pBuf = vma->RequestPages(TO_PAGES(length));
debug("created buffer at %#lx-%#lx",
pBuf, (uintptr_t)pBuf + length);
uintptr_t mFlags = Memory::US;
if (p_Write)
mFlags |= Memory::RW;
if (m_Fixed)
{
if (m_Shared)
return (void *)-linux_ENOSYS;
int mRet = vma->Map(addr, pBuf, length, mFlags);
if (mRet < 0)
{
debug("Failed to map file: %s", strerror(mRet));
return (void *)(uintptr_t)ConvertErrnoToLinux(mRet);
}
off_t oldOff = fdt->usr_lseek(fildes, 0, SEEK_CUR);
fdt->usr_lseek(fildes, offset, SEEK_SET);
ssize_t ret = fdt->usr_read(fildes, pBuf, length);
fdt->usr_lseek(fildes, oldOff, SEEK_SET);
if (ret < 0)
{
debug("Failed to read file");
return (void *)ConvertErrnoToLinux(ret);
}
return addr;
}
else
{
int mRet = vma->Map(pBuf, pBuf, length, mFlags);
if (mRet < 0)
{
debug("Failed to map file: %s", strerror(mRet));
return (void *)(uintptr_t)ConvertErrnoToLinux(mRet);
}
}
off_t oldOff = fdt->usr_lseek(fildes, 0, SEEK_CUR);
fdt->usr_lseek(fildes, offset, SEEK_SET);
ssize_t ret = fdt->usr_read(fildes, pBuf, length);
fdt->usr_lseek(fildes, oldOff, SEEK_SET);
if (ret < 0)
{
debug("Failed to read file");
return (void *)ConvertErrnoToLinux(ret);
}
return pBuf;
}
debug("???");
return (void *)-linux_ENOSYS;
}
void *ret = vma->CreateCoWRegion(addr, length,
p_Read, p_Write, p_Exec,
m_Fixed, m_Shared);
debug("ret: %#lx", ret);
return (void *)ret;
}
#undef __FENNIX_KERNEL_SYSCALLS_LIST_H__
static int linux_mprotect(SysFrm *, void *addr, size_t len, int prot)
{
if (len == 0)
return -linux_EINVAL;
if (uintptr_t(addr) % PAGE_SIZE)
return -linux_EINVAL;
// bool p_None = prot & linux_PROT_NONE;
bool p_Read = prot & linux_PROT_READ;
bool p_Write = prot & linux_PROT_WRITE;
// bool p_Exec = prot & linux_PROT_EXEC;
PCB *pcb = thisProcess;
Memory::Virtual vmm = Memory::Virtual(pcb->PageTable);
for (uintptr_t i = uintptr_t(addr);
i < uintptr_t(addr) + len;
i += PAGE_SIZE)
{
if (unlikely(vmm.Check((void *)i, Memory::G)))
{
warn("%p is a global page", (void *)i);
return -linux_ENOMEM;
}
Memory::PageTableEntry *pte = vmm.GetPTE(addr);
if (pte == nullptr)
{
debug("Page %#lx is not mapped inside %#lx",
(void *)i, pcb->PageTable);
fixme("Page %#lx is not mapped", (void *)i);
continue;
return -linux_ENOMEM;
}
if (!pte->Present ||
(!pte->UserSupervisor && p_Read) ||
(!pte->ReadWrite && p_Write))
{
debug("Page %p is not mapped with the correct permissions",
(void *)i);
return -linux_EACCES;
}
// pte->Present = !p_None;
pte->UserSupervisor = p_Read;
pte->ReadWrite = p_Write;
// pte->ExecuteDisable = p_Exec;
debug("Changed permissions of page %#lx to %s %s %s %s",
(void *)i,
(prot & linux_PROT_NONE) ? "None" : "",
p_Read ? "Read" : "",
p_Write ? "Write" : "",
(prot & linux_PROT_EXEC) ? "Exec" : "");
#if defined(a64)
CPU::x64::invlpg(addr);
#elif defined(a32)
CPU::x32::invlpg(addr);
#elif defined(aa64)
asmv("dsb sy");
asmv("tlbi vae1is, %0"
:
: "r"(addr)
: "memory");
asmv("dsb sy");
asmv("isb");
#endif
}
return 0;
}
static int linux_munmap(SysFrm *, void *addr, size_t length)
{
if (uintptr_t(addr) % PAGE_SIZE)
return -linux_EINVAL;
if (length == 0)
return -linux_EINVAL;
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
vma->FreePages((void *)addr, TO_PAGES(length));
return 0;
}
static void *linux_brk(SysFrm *, void *addr)
{
PCB *pcb = thisProcess;
void *ret = pcb->ProgramBreak->brk(addr);
debug("brk(%#lx) = %#lx", addr, ret);
return (void *)ConvertErrnoToLinux(ret);
}
static int linux_ioctl(SysFrm *, int fd, unsigned long request, void *argp)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pArgp = vma->UserCheckAndGetAddress(argp);
if (pArgp == nullptr)
return -linux_EFAULT;
int ret = ConvertErrnoToLinux(fdt->usr_ioctl(fd, request, pArgp));
return ret;
}
static ssize_t linux_pread64(SysFrm *, int fd, void *buf, size_t count, off_t offset)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
void *pBuf = vma->UserCheckAndGetAddress(buf, count);
if (pBuf == nullptr)
return -linux_EFAULT;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
off_t oldOff = fdt->usr_lseek(fd, 0, SEEK_CUR);
fdt->usr_lseek(fd, offset, SEEK_SET);
ssize_t ret = fdt->usr_read(fd, pBuf, count);
fdt->usr_lseek(fd, oldOff, SEEK_SET);
return ConvertErrnoToLinux(ret);
}
static ssize_t linux_pwrite64(SysFrm *, int fd, const void *buf, size_t count, off_t offset)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
const void *pBuf = vma->UserCheckAndGetAddress(buf, count);
if (pBuf == nullptr)
return -linux_EFAULT;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
off_t oldOff = fdt->usr_lseek(fd, 0, SEEK_CUR);
fdt->usr_lseek(fd, offset, SEEK_SET);
ssize_t ret = fdt->usr_write(fd, pBuf, count);
fdt->usr_lseek(fd, oldOff, SEEK_SET);
return ConvertErrnoToLinux(ret);
}
static ssize_t linux_readv(SysFrm *sf, int fildes, const struct iovec *iov, int iovcnt)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
const struct iovec *pIov = vma->UserCheckAndGetAddress(iov, sizeof(struct iovec) * iovcnt);
if (pIov == nullptr)
return -linux_EFAULT;
ssize_t Total = 0;
for (int i = 0; i < iovcnt; i++)
{
debug("%d: iov[%d]: %p %d", fildes, i, pIov[i].iov_base, pIov[i].iov_len);
if (!pIov[i].iov_base)
{
debug("invalid iov_base");
return -linux_EFAULT;
}
if (pIov[i].iov_len == 0)
{
debug("invalid iov_len");
continue;
}
ssize_t n = linux_read(sf, fildes, pIov[i].iov_base, pIov[i].iov_len);
if (n < 0)
return ConvertErrnoToLinux(n);
debug("n: %d", n);
Total += n;
if (n < (ssize_t)pIov[i].iov_len)
{
debug("break");
break;
}
}
debug("readv: %d", Total);
return Total;
}
static ssize_t linux_writev(SysFrm *sf, int fildes, const struct iovec *iov, int iovcnt)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
const struct iovec *pIov = vma->UserCheckAndGetAddress(iov, sizeof(struct iovec) * iovcnt);
if (pIov == nullptr)
return -linux_EFAULT;
ssize_t Total = 0;
for (int i = 0; i < iovcnt; i++)
{
debug("%d: iov[%d]: %p %d", fildes, i, pIov[i].iov_base, pIov[i].iov_len);
if (!pIov[i].iov_base)
{
debug("invalid iov_base");
return -linux_EFAULT;
}
if (pIov[i].iov_len == 0)
{
debug("invalid iov_len");
continue;
}
ssize_t n = linux_write(sf, fildes, pIov[i].iov_base, pIov[i].iov_len);
if (n < 0)
return ConvertErrnoToLinux(n);
debug("n: %d", n);
Total += n;
if (n < (ssize_t)pIov[i].iov_len)
{
debug("break");
break;
}
}
debug("writev: %d", Total);
return Total;
}
static int linux_access(SysFrm *, const char *pathname, int mode)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pPathname = vma->UserCheckAndGetAddress(pathname);
if (pPathname == nullptr)
return -linux_EFAULT;
debug("access(%s, %d)", (char *)pPathname, mode);
if (!fs->PathExists(pPathname, pcb->CWD))
return -linux_ENOENT;
stub;
return 0;
}
static int linux_pipe(SysFrm *, int pipefd[2])
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
int *pPipefd = vma->UserCheckAndGetAddress(pipefd);
debug("pipefd=%#lx", pPipefd);
fixme("pipefd=[%d, %d]", pPipefd[0], pPipefd[1]);
return -linux_ENOSYS;
}
static int linux_madvise(SysFrm *, void *addr, size_t length, int advice)
{
// PCB *pcb = thisProcess;
// Memory::VirtualMemoryArea *vma = pcb->vma;
/* TODO: For now we ignore the advice and just return 0 */
/* "man 2 madvise" for more info */
stub;
return 0;
}
static int linux_dup(SysFrm *, int oldfd)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
return ConvertErrnoToLinux(fdt->usr_dup(oldfd));
}
static int linux_dup2(SysFrm *, int oldfd, int newfd)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
return ConvertErrnoToLinux(fdt->usr_dup2(oldfd, newfd));
}
static int linux_pause(SysFrm *)
{
PCB *pcb = thisProcess;
return ConvertErrnoToLinux(pcb->Signals.WaitAnySignal());
}
static int linux_nanosleep(SysFrm *,
const struct timespec *req,
struct timespec *rem)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pReq = vma->UserCheckAndGetAddress(req);
auto pRem = vma->UserCheckAndGetAddress(rem);
if (pReq == nullptr || pRem == nullptr)
return -linux_EFAULT;
if (pReq->tv_nsec < 0 || pReq->tv_nsec > 999999999)
{
debug("Invalid tv_nsec %ld", pReq->tv_nsec);
return -linux_EINVAL;
}
if (pReq->tv_sec < 0)
{
debug("Invalid tv_sec %ld", pReq->tv_sec);
return -linux_EINVAL;
}
debug("tv_nsec=%ld tv_sec=%ld",
pReq->tv_nsec, pReq->tv_sec);
uint64_t nanoTime = pReq->tv_nsec;
uint64_t secTime = pReq->tv_sec * 1000000000; /* Nano */
uint64_t time = TimeManager->GetCounter();
uint64_t sleepTime = TimeManager->CalculateTarget(nanoTime + secTime, Time::Nanoseconds);
debug("time=%ld secTime=%ld nanoTime=%ld sleepTime=%ld",
time, secTime, nanoTime, sleepTime);
while (time < sleepTime)
{
if (pcb->Signals.HasPendingSignal())
{
debug("sleep interrupted by signal");
return -linux_EINTR;
}
pcb->GetContext()->Yield();
time = TimeManager->GetCounter();
}
debug("time= %ld", time);
debug("sleepTime=%ld", sleepTime);
if (rem)
{
pRem->tv_sec = 0;
pRem->tv_nsec = 0;
}
return 0;
}
static pid_t linux_getpid(SysFrm *)
{
PCB *pcb = thisProcess;
return pcb->ID;
}
static int linux_setitimer(SysFrm *, int which,
const struct itimerspec64 *new_value,
struct itimerspec64 *old_value)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pNewValue = vma->UserCheckAndGetAddress(new_value);
auto pOldValue = vma->UserCheckAndGetAddress(old_value);
if (pNewValue == nullptr)
return -linux_EFAULT;
if (pOldValue == nullptr && old_value)
return -linux_EFAULT;
switch (which)
{
case linux_ITIMER_REAL:
{
fixme("ITIMER_REAL not implemented");
return 0;
}
case linux_ITIMER_VIRTUAL:
{
fixme("ITIMER_VIRTUAL not implemented");
return 0;
}
case linux_ITIMER_PROF:
{
fixme("ITIMER_PROF not implemented");
return 0;
}
default:
return -linux_EINVAL;
}
return 0;
}
static int linux_shutdown(SysFrm *, int sockfd, int how)
{
stub;
return -linux_ENOSYS;
}
static pid_t linux_fork(SysFrm *sf)
{
TCB *Thread = thisThread;
PCB *Parent = Thread->Parent;
PCB *NewProcess =
TaskManager->CreateProcess(Parent, Parent->Name,
Parent->Security.ExecutionMode,
true);
if (unlikely(!NewProcess))
{
error("Failed to create process for fork");
return -linux_EAGAIN;
}
NewProcess->Security.ProcessGroupID = Parent->Security.ProcessGroupID;
NewProcess->Security.SessionID = Parent->Security.SessionID;
NewProcess->PageTable = Parent->PageTable->Fork();
NewProcess->vma->Table = NewProcess->PageTable;
NewProcess->vma->Fork(Parent->vma);
NewProcess->ProgramBreak->SetTable(NewProcess->PageTable);
NewProcess->FileDescriptors->Fork(Parent->FileDescriptors);
NewProcess->Executable = Parent->Executable;
NewProcess->CWD = Parent->CWD;
NewProcess->FileCreationMask = Parent->FileCreationMask;
TCB *NewThread =
TaskManager->CreateThread(NewProcess,
0,
nullptr,
nullptr,
std::vector<AuxiliaryVector>(),
Thread->Info.Architecture,
Thread->Info.Compatibility,
true);
if (!NewThread)
{
error("Failed to create thread for fork");
delete NewProcess;
return -linux_EAGAIN;
}
NewThread->Rename(Thread->Name);
TaskManager->UpdateFrame();
NewThread->FPU = Thread->FPU;
NewThread->Stack->Fork(Thread->Stack);
NewThread->Info.Architecture = Thread->Info.Architecture;
NewThread->Info.Compatibility = Thread->Info.Compatibility;
NewThread->Security.IsCritical = Thread->Security.IsCritical;
NewThread->Registers = Thread->Registers;
#if defined(a64)
NewThread->Registers.rip = (uintptr_t)__LinuxForkReturn;
/* For sysretq */
NewThread->Registers.rdi = (uintptr_t)NewProcess->PageTable;
NewThread->Registers.rcx = sf->ReturnAddress;
NewThread->Registers.r8 = sf->StackPointer;
#else
#warning "sys_fork not implemented for other platforms"
#endif
#ifdef a86
NewThread->GSBase = NewThread->ShadowGSBase;
NewThread->ShadowGSBase = Thread->ShadowGSBase;
NewThread->FSBase = Thread->FSBase;
#endif
debug("ret addr: %#lx, stack: %#lx ip: %#lx", sf->ReturnAddress,
sf->StackPointer, (uintptr_t)__LinuxForkReturn);
debug("Forked thread \"%s\"(%d) to \"%s\"(%d)",
Thread->Name, Thread->ID,
NewThread->Name, NewThread->ID);
NewThread->SetState(Tasking::Ready);
// Parent->GetContext()->Yield();
return (int)NewProcess->ID;
}
static pid_t linux_vfork(SysFrm *sf)
{
TCB *Thread = thisThread;
PCB *Parent = Thread->Parent;
PCB *NewProcess =
TaskManager->CreateProcess(Parent, Parent->Name,
Parent->Security.ExecutionMode,
true);
if (unlikely(!NewProcess))
{
error("Failed to create process for vfork");
return -linux_EAGAIN;
}
NewProcess->Security.ProcessGroupID = Parent->Security.ProcessGroupID;
NewProcess->Security.SessionID = Parent->Security.SessionID;
NewProcess->PageTable = Parent->PageTable;
delete NewProcess->vma;
NewProcess->vma = Parent->vma;
delete NewProcess->ProgramBreak;
NewProcess->ProgramBreak = NewProcess->ProgramBreak;
NewProcess->FileDescriptors->Fork(Parent->FileDescriptors);
NewProcess->Executable = Parent->Executable;
NewProcess->CWD = Parent->CWD;
NewProcess->FileCreationMask = Parent->FileCreationMask;
TCB *NewThread =
TaskManager->CreateThread(NewProcess,
0,
nullptr,
nullptr,
std::vector<AuxiliaryVector>(),
Thread->Info.Architecture,
Thread->Info.Compatibility,
true);
if (!NewThread)
{
error("Failed to create thread for fork");
delete NewProcess;
return -linux_EAGAIN;
}
NewThread->Rename(Thread->Name);
TaskManager->UpdateFrame();
NewThread->FPU = Thread->FPU;
delete NewThread->Stack;
NewThread->Stack = Thread->Stack;
NewThread->Info.Architecture = Thread->Info.Architecture;
NewThread->Info.Compatibility = Thread->Info.Compatibility;
NewThread->Security.IsCritical = Thread->Security.IsCritical;
NewThread->Registers = Thread->Registers;
#if defined(a64)
NewThread->Registers.rip = (uintptr_t)__LinuxForkReturn;
/* For sysretq */
NewThread->Registers.rdi = (uintptr_t)NewProcess->PageTable;
NewThread->Registers.rcx = sf->ReturnAddress;
NewThread->Registers.r8 = sf->StackPointer;
#else
#warning "sys_fork not implemented for other platforms"
#endif
#ifdef a86
NewThread->GSBase = NewThread->ShadowGSBase;
NewThread->ShadowGSBase = Thread->ShadowGSBase;
NewThread->FSBase = Thread->FSBase;
#endif
debug("ret addr: %#lx, stack: %#lx ip: %#lx", sf->ReturnAddress,
sf->StackPointer, (uintptr_t)__LinuxForkReturn);
debug("Forked thread \"%s\"(%d) to \"%s\"(%d)",
Thread->Name, Thread->ID,
NewThread->Name, NewThread->ID);
{
CriticalSection cs;
Thread->SetState(Tasking::Frozen);
NewProcess->Linux.vforked = true;
NewProcess->Linux.CallingThread = Thread;
NewThread->SetState(Tasking::Ready);
}
Parent->GetContext()->Yield();
return (int)NewProcess->ID;
}
__no_sanitize("undefined") static int linux_execve(SysFrm *sf, const char *pathname,
char *const argv[],
char *const envp[])
{
/* FIXME: exec doesn't follow the UNIX standard
The pid, open files, etc. should be preserved */
TCB *tcb = thisThread;
PCB *pcb = tcb->Parent;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pPathname = vma->UserCheckAndGetAddress(pathname, PAGE_SIZE);
auto pArgv = vma->UserCheckAndGetAddress(argv, 1 /*MAX_ARG*/); /* MAX_ARG is too much? */
auto pEnvp = vma->UserCheckAndGetAddress(envp, 1 /*MAX_ARG*/);
if (pPathname == nullptr || pArgv == nullptr || pEnvp == nullptr)
return -linux_EFAULT;
func("%s %#lx %#lx", pPathname, pArgv, pEnvp);
int argvLen = 0;
for (argvLen = 0; MAX_ARG; argvLen++)
{
if (vma->UserCheck(pArgv[argvLen]) < 0)
break;
auto arg = pcb->PageTable->Get(pArgv[argvLen]);
if (arg == nullptr)
break;
}
int envpLen = 0;
for (envpLen = 0; MAX_ARG; envpLen++)
{
if (vma->UserCheck(pEnvp[envpLen]) < 0)
break;
auto arg = pcb->PageTable->Get(pEnvp[envpLen]);
if (arg == nullptr)
break;
}
char **safeArgv = (char **)pcb->vma->RequestPages(TO_PAGES(argvLen * sizeof(char *)));
char **safeEnvp = (char **)pcb->vma->RequestPages(TO_PAGES(envpLen * sizeof(char *)));
const char *arg;
char *nArg;
for (int i = 0; i < argvLen; i++)
{
arg = pcb->PageTable->Get(pArgv[i]);
assert(arg != nullptr);
size_t len = strlen(arg);
debug("arg[%d]: %s", i, arg);
nArg = (char *)pcb->vma->RequestPages(TO_PAGES(len));
memcpy((void *)nArg, arg, len);
nArg[len] = '\0';
safeArgv[i] = nArg;
if (likely(i < MAX_ARG - 1))
safeArgv[i + 1] = nullptr;
}
for (int i = 0; i < envpLen; i++)
{
arg = pcb->PageTable->Get(pEnvp[i]);
assert(arg != nullptr);
size_t len = strlen(arg);
debug("env[%d]: %s", i, arg);
nArg = (char *)pcb->vma->RequestPages(TO_PAGES(len));
memcpy((void *)nArg, arg, len);
nArg[len] = '\0';
safeEnvp[i] = nArg;
if (likely(i < MAX_ARG - 1))
safeEnvp[i + 1] = nullptr;
}
FileNode *file = fs->GetByPath(pPathname, pcb->CWD);
if (!file)
{
error("File not found");
return -linux_ENOENT;
}
char shebangMagic[2]{};
file->Read((uint8_t *)shebangMagic, 2, 0);
if (shebangMagic[0] == '#' && shebangMagic[1] == '!')
{
char *origPath = (char *)pcb->vma->RequestPages(TO_PAGES(strlen(pPathname) + 1));
memcpy(origPath, pPathname, strlen(pPathname) + 1);
char *shebang = (char *)pPathname;
size_t shebangLength = 0;
constexpr int shebangLengthMax = 255;
off_t shebangOffset = 2;
while (true)
{
char c;
if (file->Read((uint8_t *)&c, 1, shebangOffset) == 0)
break;
if (c == '\n' || shebangLength == shebangLengthMax)
break;
shebang[shebangLength++] = c;
shebangOffset++;
}
shebang[shebangLength] = '\0';
debug("Shebang: %s", shebang);
char **cSafeArgv = (char **)pcb->vma->RequestPages(TO_PAGES(MAX_ARG));
int i = 0;
for (; safeArgv[i] != nullptr; i++)
{
size_t argLength = strlen(safeArgv[i]);
char *cArg = (char *)pcb->vma->RequestPages(TO_PAGES(argLength));
memcpy((void *)cArg, safeArgv[i], argLength);
cArg[argLength] = '\0';
cSafeArgv[i] = cArg;
debug("cSafeArgv[%d]: %s", i, cSafeArgv[i]);
}
cSafeArgv[i] = nullptr;
char *token = strtok(shebang, " ");
i = 0;
while (token != nullptr)
{
size_t len = strlen(token);
char *t_arg = (char *)pcb->vma->RequestPages(TO_PAGES(len));
memcpy((void *)t_arg, token, len);
t_arg[len] = '\0';
safeArgv[i++] = t_arg;
token = strtok(nullptr, " ");
}
safeArgv[i++] = origPath;
for (int j = 1; cSafeArgv[j] != nullptr; j++)
{
safeArgv[i++] = cSafeArgv[j];
debug("clone: safeArgv[%d]: %s",
i, safeArgv[i - 1]);
}
safeArgv[i] = nullptr;
return ConvertErrnoToLinux(linux_execve(sf, safeArgv[0],
(char *const *)safeArgv,
(char *const *)safeEnvp));
}
if (pcb->Linux.vforked)
{
CriticalSection cs;
pcb->Linux.CallingThread->SetState(Tasking::Ready);
pcb->Linux.vforked = false;
pcb->PageTable = KernelPageTable->Fork();
pcb->vma = new Memory::VirtualMemoryArea(pcb->PageTable);
pcb->ProgramBreak = new Memory::ProgramBreak(pcb->PageTable, pcb->vma);
// tcb->Stack = new Memory::StackGuard(true, pcb->vma);
}
int ret = Execute::Spawn((char *)pPathname,
(const char **)safeArgv,
(const char **)safeEnvp,
pcb, true,
pcb->Info.Compatibility);
if (ret < 0)
{
error("Failed to spawn");
return ConvertErrnoToLinux(ret);
}
const char *baseName;
cwk_path_get_basename(pPathname, &baseName, nullptr);
pcb->Rename(baseName);
pcb->SetWorkingDirectory(file->Parent);
pcb->SetExe(pPathname);
Tasking::Task *ctx = pcb->GetContext();
// ctx->Sleep(1000);
// pcb->SetState(Tasking::Zombie);
// pcb->SetExitCode(0); /* FIXME: get process exit code */
while (true)
ctx->Yield();
__builtin_unreachable();
}
static __noreturn void linux_exit(SysFrm *, int status)
{
TCB *t = thisThread;
{
CriticalSection cs;
trace("Userspace thread %s(%d) exited with code %d (%#x)",
t->Name,
t->ID, status,
status < 0 ? -status : status);
t->SetState(Tasking::Zombie);
t->SetExitCode(status);
if (t->Parent->Linux.vforked)
t->Parent->Linux.CallingThread->SetState(Tasking::Ready);
}
while (true)
t->GetContext()->Yield();
__builtin_unreachable();
}
static pid_t linux_wait4(SysFrm *, pid_t pid, int *wstatus,
int options, struct rusage *rusage)
{
static_assert(sizeof(struct rusage) < PAGE_SIZE);
/* FIXME: this function is very poorly implemented, the way
it handles the zombie & coredump processes is very
inefficient and should be rewritten */
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
if (pid == -1)
{
if (pcb->Children.empty())
{
debug("No children");
return -linux_ECHILD;
}
std::vector<PCB *> wChilds;
for (auto child : pcb->Children)
{
if (child->State == Tasking::Zombie)
{
if (wstatus != nullptr)
{
int *pWstatus = pcb->PageTable->Get(wstatus);
*pWstatus = 0;
bool ProcessExited = true;
int ExitStatus = child->ExitCode.load();
debug("Process returned %d", ExitStatus);
if (ProcessExited)
*pWstatus |= ExitStatus << 8;
}
if (rusage != nullptr)
{
size_t kTime = child->Info.KernelTime;
size_t uTime = child->Info.UserTime;
size_t _maxrss = child->GetSize();
struct rusage *pRusage = vma->UserCheckAndGetAddress(rusage);
if (pRusage == nullptr)
return -linux_EFAULT;
pRusage->ru_utime.tv_sec = uTime / 1000000000000000; /* Seconds */
pRusage->ru_utime.tv_usec = uTime / 1000000000; /* Microseconds */
pRusage->ru_stime.tv_sec = kTime / 1000000000000000; /* Seconds */
pRusage->ru_stime.tv_usec = kTime / 1000000000; /* Microseconds */
pRusage->ru_maxrss = _maxrss;
}
child->SetState(Tasking::Terminated);
return child->ID;
}
if (child->State == Tasking::CoreDump)
{
if (wstatus != nullptr)
{
int *pWstatus = vma->UserCheckAndGetAddress(wstatus);
if (pWstatus == nullptr)
return -linux_EFAULT;
*pWstatus = 0;
bool ProcessExited = true;
int ExitStatus = child->ExitCode.load();
bool ProcessSignaled = true;
bool CoreDumped = true;
int TermSignal = child->Signals.GetLastSignal();
TermSignal = ConvertSignalToLinux((Signals)TermSignal);
assert(TermSignal != SIG_NULL);
debug("Process returned %d", ExitStatus);
if (ProcessExited)
*pWstatus |= ExitStatus << 8;
if (ProcessSignaled)
*pWstatus |= TermSignal;
if (CoreDumped)
*pWstatus |= 0x80;
}
if (rusage != nullptr)
{
size_t kTime = child->Info.KernelTime;
size_t uTime = child->Info.UserTime;
size_t _maxrss = child->GetSize();
struct rusage *pRusage = vma->UserCheckAndGetAddress(rusage);
if (pRusage == nullptr)
return -linux_EFAULT;
pRusage->ru_utime.tv_sec = uTime / 1000000000000000; /* Seconds */
pRusage->ru_utime.tv_usec = uTime / 1000000000; /* Microseconds */
pRusage->ru_stime.tv_sec = kTime / 1000000000000000; /* Seconds */
pRusage->ru_stime.tv_usec = kTime / 1000000000; /* Microseconds */
pRusage->ru_maxrss = _maxrss;
}
child->SetState(Tasking::Terminated);
return child->ID;
}
if (child->State != Tasking::Terminated)
wChilds.push_back(child);
}
if (wChilds.empty())
{
debug("No children");
return -linux_ECHILD;
}
fixme("Waiting for %d children", wChilds.size());
pid = wChilds.front()->ID;
}
if (pid == 0)
{
fixme("Waiting for any child process whose process group ID is equal to that of the calling process");
return -linux_ENOSYS;
}
if (pid < -1)
{
fixme("Waiting for any child process whose process group ID is equal to the absolute value of pid");
return -linux_ENOSYS;
}
/* Wait for a child process, or any process? */
PCB *tPcb = pcb->GetContext()->GetProcessByID(pid);
if (!tPcb)
{
warn("Invalid PID %d", pid);
return -linux_ECHILD;
}
if (options)
{
#define WCONTINUED 1
#define WNOHANG 2
#define WUNTRACED 4
#define WEXITED 8
#define WNOWAIT 16
#define WSTOPPED 32
fixme("options=%#x", options);
}
#ifdef DEBUG
foreach (auto child in pcb->Children)
debug("Child: %s(%d)", child->Name, child->ID);
#endif
debug("Waiting for %d(%#lx) state %d", pid, tPcb, tPcb->State);
while (tPcb->State != Tasking::Zombie &&
tPcb->State != Tasking::CoreDump &&
tPcb->State != Tasking::Terminated)
pcb->GetContext()->Yield();
debug("Waited for %d(%#lx) state %d", pid, tPcb, tPcb->State);
if (wstatus != nullptr)
{
int *pWstatus = vma->UserCheckAndGetAddress(wstatus);
if (pWstatus == nullptr)
return -linux_EFAULT;
*pWstatus = 0;
bool ProcessExited = true;
int ExitStatus = tPcb->ExitCode.load();
bool ProcessSignaled = false;
bool CoreDumped = false;
bool ProcessStopped = false;
bool ProcessContinued = false;
int TermSignal = 0;
debug("Process returned %d", ExitStatus);
if (ProcessExited)
*pWstatus |= ExitStatus << 8;
if (ProcessSignaled)
*pWstatus |= TermSignal;
if (CoreDumped)
*pWstatus |= 0x80;
/* FIXME: Untested */
if (ProcessStopped)
*pWstatus |= 0x7F;
if (ProcessContinued)
*pWstatus = 0xFFFF;
debug("wstatus=%#x", *pWstatus);
}
if (rusage != nullptr)
{
size_t kTime = tPcb->Info.KernelTime;
size_t uTime = tPcb->Info.UserTime;
size_t _maxrss = tPcb->GetSize();
struct rusage *pRusage = vma->UserCheckAndGetAddress(rusage);
if (pRusage == nullptr)
return -linux_EFAULT;
pRusage->ru_utime.tv_sec = uTime / 1000000000000000; /* Seconds */
pRusage->ru_utime.tv_usec = uTime / 1000000000; /* Microseconds */
pRusage->ru_stime.tv_sec = kTime / 1000000000000000; /* Seconds */
pRusage->ru_stime.tv_usec = kTime / 1000000000; /* Microseconds */
pRusage->ru_maxrss = _maxrss;
/* TODO: The rest of the fields */
}
return pid;
}
static int linux_kill(SysFrm *, pid_t pid, int sig)
{
PCB *pcb = thisProcess->GetContext()->GetProcessByID(pid);
if (!pcb)
return -linux_ESRCH;
/* TODO: Check permissions */
if (sig == 0)
return 0;
if (pid == 0)
{
bool found = false;
Signals nSig = ConvertSignalToNative(sig);
assert(nSig != SIG_NULL);
foreach (auto proc in pcb->GetContext()->GetProcessList())
{
if (proc->Security.ProcessGroupID == thisProcess->Security.ProcessGroupID)
{
debug("Sending signal %s to %s(%d)", lSigStr[sig], proc->Name, proc->ID);
proc->SendSignal(nSig);
found = true;
}
}
if (!found)
return -linux_ESRCH;
return 0;
}
if (pid == -1)
{
fixme("Sending signal %d to all processes except init", sig);
return -linux_ENOSYS;
}
if (pid < -1)
{
fixme("Sending signal %d to process group %d", sig, pid);
return -linux_ENOSYS;
}
Signals nSig = ConvertSignalToNative(sig);
assert(nSig != SIG_NULL);
return ConvertErrnoToLinux(pcb->SendSignal(nSig));
}
static int linux_uname(SysFrm *, struct utsname *buf)
{
assert(sizeof(struct utsname) < PAGE_SIZE);
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pBuf = vma->UserCheckAndGetAddress(buf);
if (pBuf == nullptr)
return -linux_EFAULT;
struct utsname uname =
{
/* TODO: This shouldn't be hardcoded */
.sysname = KERNEL_NAME,
.nodename = "fennix",
.release = KERNEL_VERSION,
.version = KERNEL_VERSION,
#if defined(a64)
.machine = "x86_64",
#elif defined(a32)
.machine = "i386",
#elif defined(aa64)
.machine = "arm64",
#elif defined(aa32)
.machine = "arm",
#endif
};
FileNode *rn = fs->GetByPath("/etc/cross/linux", pcb->Info.RootNode);
if (rn)
{
struct kstat st
{
};
rn->Stat(&st);
char *sh = new char[st.Size];
rn->Read(sh, st.Size, 0);
ini_t *ini = ini_load(sh, NULL);
int section = ini_find_section(ini, "uname", NULL);
int sysIdx = ini_find_property(ini, section, "sysname", NULL);
int nodIdx = ini_find_property(ini, section, "nodename", NULL);
int relIdx = ini_find_property(ini, section, "release", NULL);
int verIdx = ini_find_property(ini, section, "version", NULL);
int macIdx = ini_find_property(ini, section, "machine", NULL);
const char *uSys = ini_property_value(ini, section, sysIdx);
const char *uNod = ini_property_value(ini, section, nodIdx);
const char *uRel = ini_property_value(ini, section, relIdx);
const char *uVer = ini_property_value(ini, section, verIdx);
const char *uMac = ini_property_value(ini, section, macIdx);
debug("sysname=%s", uSys);
debug("nodename=%s", uNod);
debug("release=%s", uRel);
debug("version=%s", uVer);
debug("machine=%s", uMac);
if (uSys && strcmp(uSys, "auto") != 0)
strncpy(uname.sysname, uSys, sizeof(uname.sysname));
if (uNod && strcmp(uNod, "auto") != 0)
strncpy(uname.nodename, uNod, sizeof(uname.nodename));
if (uRel && strcmp(uRel, "auto") != 0)
strncpy(uname.release, uRel, sizeof(uname.release));
if (uVer && strcmp(uVer, "auto") != 0)
strncpy(uname.version, uVer, sizeof(uname.version));
if (uMac && strcmp(uMac, "auto") != 0)
strncpy(uname.machine, uMac, sizeof(uname.machine));
ini_destroy(ini);
delete[] sh;
}
else
warn("Couldn't open /etc/cross/linux");
memcpy(pBuf, &uname, sizeof(struct utsname));
return 0;
}
static int linux_fcntl(SysFrm *, int fd, int cmd, void *arg)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
switch (cmd)
{
case linux_F_DUPFD:
return ConvertErrnoToLinux(fdt->usr_dup2(fd, s_cst(int, (uintptr_t)arg)));
case linux_F_GETFD:
return ConvertErrnoToLinux(fdt->GetFlags(fd));
case linux_F_SETFD:
return ConvertErrnoToLinux(fdt->SetFlags(fd, s_cst(int, (uintptr_t)arg)));
case linux_F_GETFL:
{
fixme("F_GETFL is stub?");
return ConvertErrnoToLinux(fdt->GetFlags(fd));
}
case linux_F_SETFL:
{
fixme("F_SETFL is stub?");
int flags = s_cst(int, (uintptr_t)arg);
if (flags & O_APPEND)
fdt->SetFlags(fd, fdt->GetFlags(fd) | O_APPEND);
else
fdt->SetFlags(fd, fdt->GetFlags(fd) & ~O_APPEND);
return 0;
}
case linux_F_DUPFD_CLOEXEC:
{
int ret = fdt->usr_dup2(fd, s_cst(int, (uintptr_t)arg));
if (ret < 0)
return ConvertErrnoToLinux(ret);
auto it = fdt->FileMap.find(fd);
if (it == fdt->FileMap.end())
ReturnLogError(-linux_EBADF, "Invalid fd %d", fd);
it->second.Flags |= linux_FD_CLOEXEC;
return ret;
}
case linux_F_SETOWN:
case linux_F_GETOWN:
case linux_F_SETSIG:
case linux_F_GETSIG:
case linux_F_GETLK:
case linux_F_SETLK:
case linux_F_SETLKW:
case linux_F_SETOWN_EX:
case linux_F_GETOWN_EX:
case linux_F_GETOWNER_UIDS:
case linux_F_OFD_GETLK:
case linux_F_OFD_SETLK:
case linux_F_OFD_SETLKW:
{
fixme("cmd %d not implemented", cmd);
return -linux_ENOSYS;
}
default:
{
debug("Invalid cmd %#x", cmd);
return -linux_EINVAL;
}
}
}
static int linux_creat(SysFrm *, const char *pathname, mode_t mode)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
return ConvertErrnoToLinux(fdt->usr_creat(pathname, mode));
}
static long linux_getcwd(SysFrm *, char *buf, size_t size)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
char *pBuf = vma->UserCheckAndGetAddress(buf, size);
if (pBuf == nullptr)
return -linux_EFAULT;
std::string cwd = pcb->CWD->GetPath();
if (cwd.length() >= size)
{
warn("Buffer too small (%ld < %ld)", cwd.length(), size);
return -linux_ERANGE;
}
strncpy(pBuf, cwd.c_str(), cwd.length());
pBuf[cwd.length()] = '\0';
debug("cwd: \"%s\" with %ld bytes", cwd.c_str(), cwd.length());
return cwd.length();
}
static int linux_chdir(SysFrm *, const char *path)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
const char *pPath = vma->UserCheckAndGetAddress(path);
if (!pPath)
return -linux_EFAULT;
FileNode *n = fs->GetByPath(pPath, pcb->CWD);
if (!n)
return -linux_ENOENT;
pcb->SetWorkingDirectory(n);
debug("Changed cwd to \"%s\"", n->GetPath().c_str());
return 0;
}
static int linux_fchdir(SysFrm *, int fd)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
auto it = fdt->FileMap.find(fd);
if (it == fdt->FileMap.end())
return -linux_EBADF;
pcb->SetWorkingDirectory(it->second.Node);
debug("Changed cwd to \"%s\"", it->second.Node->GetPath().c_str());
return 0;
}
static int linux_mkdir(SysFrm *, const char *pathname, mode_t mode)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
fixme("semi-stub");
const char *pPathname = vma->UserCheckAndGetAddress(pathname);
if (!pPathname)
return -linux_EFAULT;
mode &= ~pcb->FileCreationMask & 0777;
FileNode *n = fs->Create(pcb->CWD, pPathname, mode);
if (!n)
return -linux_EEXIST;
return 0;
}
static ssize_t linux_readlink(SysFrm *, const char *pathname,
char *buf, size_t bufsiz)
{
if (!pathname || !buf)
return -linux_EINVAL;
if (bufsiz > PAGE_SIZE)
{
warn("bufsiz is too large: %ld", bufsiz);
return -linux_EINVAL;
}
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
const char *pPath = vma->UserCheckAndGetAddress(pathname);
char *pBuf = vma->UserCheckAndGetAddress(buf);
if (pPath == nullptr || pBuf == nullptr)
return -linux_EFAULT;
func("%s %#lx %ld", pPath, buf, bufsiz);
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
int fd = fdt->usr_open(pPath, O_RDONLY, 0);
if (fd < 0)
return -linux_ENOENT;
auto it = fdt->FileMap.find(fd);
if (it == fdt->FileMap.end())
ReturnLogError(-linux_EBADF, "Invalid fd %d", fd);
vfs::FileDescriptorTable::Fildes &fildes = it->second;
FileNode *node = fildes.Node;
fdt->usr_close(fd);
if (!node->IsSymbolicLink())
return -linux_EINVAL;
return ConvertErrnoToLinux(node->ReadLink(pBuf, bufsiz));
}
static mode_t linux_umask(SysFrm *, mode_t mask)
{
PCB *pcb = thisProcess;
mode_t old = pcb->FileCreationMask;
pcb->FileCreationMask = mask & 0777;
debug("old=%#o new=%#o (mask: %#lx)", old, pcb->FileCreationMask, mask);
return old;
}
static int linux_getrusage(SysFrm *, int who, struct rusage *usage)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pUsage = vma->UserCheckAndGetAddress(usage);
if (pUsage == nullptr)
return -linux_EFAULT;
switch (who)
{
case linux_RUSAGE_SELF:
{
size_t kTime = pcb->Info.KernelTime;
size_t uTime = pcb->Info.UserTime;
size_t _maxrss = pcb->GetSize();
pUsage->ru_utime.tv_sec = uTime / 1000000000000000; /* Seconds */
pUsage->ru_utime.tv_usec = uTime / 1000000000; /* Microseconds */
pUsage->ru_stime.tv_sec = kTime / 1000000000000000; /* Seconds */
pUsage->ru_stime.tv_usec = kTime / 1000000000; /* Microseconds */
pUsage->ru_maxrss = _maxrss;
break;
}
case linux_RUSAGE_CHILDREN:
{
size_t kTime = 0;
size_t uTime = 0;
size_t _maxrss = 0;
foreach (auto child in pcb->Children)
{
kTime += child->Info.KernelTime;
uTime += child->Info.UserTime;
_maxrss += child->GetSize();
}
pUsage->ru_utime.tv_sec = uTime / 1000000000000000; /* Seconds */
pUsage->ru_utime.tv_usec = uTime / 1000000000; /* Microseconds */
pUsage->ru_stime.tv_sec = kTime / 1000000000000000; /* Seconds */
pUsage->ru_stime.tv_usec = kTime / 1000000000; /* Microseconds */
pUsage->ru_maxrss = _maxrss;
break;
}
case linux_RUSAGE_THREAD:
{
TCB *tcb = thisThread;
size_t kTime = tcb->Info.KernelTime;
size_t uTime = tcb->Info.UserTime;
size_t _maxrss = tcb->GetSize();
pUsage->ru_utime.tv_sec = uTime / 1000000000000000; /* Seconds */
pUsage->ru_utime.tv_usec = uTime / 1000000000; /* Microseconds */
pUsage->ru_stime.tv_sec = kTime / 1000000000000000; /* Seconds */
pUsage->ru_stime.tv_usec = kTime / 1000000000; /* Microseconds */
pUsage->ru_maxrss = _maxrss;
break;
}
default:
return -linux_EINVAL;
}
return 0;
}
static uid_t linux_getuid(SysFrm *)
{
return thisProcess->Security.Real.UserID;
}
static gid_t linux_getgid(SysFrm *)
{
return thisProcess->Security.Real.GroupID;
}
static uid_t linux_geteuid(SysFrm *)
{
return thisProcess->Security.Effective.UserID;
}
static gid_t linux_getegid(SysFrm *)
{
return thisProcess->Security.Effective.GroupID;
}
static pid_t linux_getppid(SysFrm *)
{
return thisProcess->Parent->ID;
}
static pid_t linux_getpgid(SysFrm *, pid_t pid)
{
PCB *pcb = thisProcess;
if (pid == 0)
return pcb->Security.ProcessGroupID;
PCB *target = pcb->GetContext()->GetProcessByID(pid);
if (!target)
return -linux_ESRCH;
return target->Security.ProcessGroupID;
}
static int linux_setpgid(SysFrm *, pid_t pid, pid_t pgid)
{
PCB *pcb = thisProcess;
if (pid == 0)
{
pcb->Security.ProcessGroupID = pgid;
return 0;
}
PCB *target = pcb->GetContext()->GetProcessByID(pid);
if (!target)
return -linux_ESRCH;
if (pgid == 0)
{
target->Security.ProcessGroupID = target->ID;
return 0;
}
target->Security.ProcessGroupID = pgid;
return 0;
}
static int linux_arch_prctl(SysFrm *, int code, unsigned long addr)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
if (vma->UserCheck(addr) < 0)
return -linux_EFAULT;
switch (code)
{
case linux_ARCH_SET_GS:
{
#if defined(a64)
CPU::x64::wrmsr(CPU::x64::MSRID::MSR_GS_BASE, addr);
#elif defined(a32)
CPU::x32::wrmsr(CPU::x32::MSRID::MSR_GS_BASE, addr);
#endif
return 0;
}
case linux_ARCH_SET_FS:
{
#if defined(a64)
CPU::x64::wrmsr(CPU::x64::MSRID::MSR_FS_BASE, addr);
#elif defined(a32)
CPU::x32::wrmsr(CPU::x32::MSRID::MSR_FS_BASE, addr);
#endif
return 0;
}
case linux_ARCH_GET_FS:
{
#if defined(a64)
*r_cst(uint64_t *, addr) =
CPU::x64::rdmsr(CPU::x64::MSRID::MSR_FS_BASE);
#elif defined(a32)
*r_cst(uint64_t *, addr) =
CPU::x32::rdmsr(CPU::x32::MSRID::MSR_FS_BASE);
#endif
return 0;
}
case linux_ARCH_GET_GS:
{
#if defined(a64)
*r_cst(uint64_t *, addr) =
CPU::x64::rdmsr(CPU::x64::MSRID::MSR_GS_BASE);
#elif defined(a32)
*r_cst(uint64_t *, addr) =
CPU::x32::rdmsr(CPU::x32::MSRID::MSR_GS_BASE);
#endif
return 0;
}
case linux_ARCH_GET_CPUID:
case linux_ARCH_SET_CPUID:
case linux_ARCH_GET_XCOMP_SUPP:
case linux_ARCH_GET_XCOMP_PERM:
case linux_ARCH_REQ_XCOMP_PERM:
case linux_ARCH_GET_XCOMP_GUEST_PERM:
case linux_ARCH_REQ_XCOMP_GUEST_PERM:
case linux_ARCH_XCOMP_TILECFG:
case linux_ARCH_XCOMP_TILEDATA:
case linux_ARCH_MAP_VDSO_X32:
case linux_ARCH_MAP_VDSO_32:
case linux_ARCH_MAP_VDSO_64:
case linux_ARCH_GET_UNTAG_MASK:
case linux_ARCH_ENABLE_TAGGED_ADDR:
case linux_ARCH_GET_MAX_TAG_BITS:
case linux_ARCH_FORCE_TAGGED_SVA:
{
fixme("Code %#lx not implemented", code);
return -linux_ENOSYS;
}
default:
{
debug("Invalid code %#lx", code);
return -linux_EINVAL;
}
}
}
static int linux_reboot(SysFrm *, int magic, int magic2, int cmd, void *arg)
{
if (magic != linux_LINUX_REBOOT_MAGIC1 ||
(magic2 != linux_LINUX_REBOOT_MAGIC2 &&
magic2 != linux_LINUX_REBOOT_MAGIC2A &&
magic2 != linux_LINUX_REBOOT_MAGIC2B &&
magic2 != linux_LINUX_REBOOT_MAGIC2C))
{
warn("Invalid magic %#x %#x", magic, magic2);
return -linux_EINVAL;
}
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
debug("cmd=%#x arg=%#lx", cmd, arg);
switch ((unsigned int)cmd)
{
case linux_LINUX_REBOOT_CMD_RESTART:
{
KPrint("Restarting system.");
Tasking::Task *ctx = pcb->GetContext();
ctx->CreateThread(ctx->GetKernelProcess(),
Tasking::IP(KST_Reboot))
->Rename("Restart");
return 0;
}
case linux_LINUX_REBOOT_CMD_HALT:
{
KPrint("System halted.");
pcb->GetContext()->Panic();
CPU::Stop();
}
case linux_LINUX_REBOOT_CMD_POWER_OFF:
{
KPrint("Power down.");
Tasking::Task *ctx = pcb->GetContext();
ctx->CreateThread(ctx->GetKernelProcess(),
Tasking::IP(KST_Shutdown))
->Rename("Shutdown");
return 0;
}
case linux_LINUX_REBOOT_CMD_RESTART2:
{
void *pArg = vma->__UserCheckAndGetAddress(arg, sizeof(void *));
if (pArg == nullptr)
return -linux_EFAULT;
KPrint("Restarting system with command '%s'",
(const char *)pArg);
Tasking::Task *ctx = pcb->GetContext();
ctx->CreateThread(ctx->GetKernelProcess(),
Tasking::IP(KST_Reboot))
->Rename("Restart");
break;
}
case linux_LINUX_REBOOT_CMD_CAD_ON:
case linux_LINUX_REBOOT_CMD_CAD_OFF:
case linux_LINUX_REBOOT_CMD_SW_SUSPEND:
case linux_LINUX_REBOOT_CMD_KEXEC:
{
fixme("cmd %#x not implemented", cmd);
return -linux_ENOSYS;
}
default:
{
debug("Invalid cmd %#x", cmd);
return -linux_EINVAL;
}
}
return 0;
}
static int linux_sigaction(SysFrm *, int signum, const k_sigaction *act,
k_sigaction *oldact, size_t sigsetsize)
{
if (signum < 1 || signum > linux_SIGRTMAX ||
signum == linux_SIGKILL || signum == linux_SIGSTOP)
{
debug("Invalid signal %d", signum);
return -linux_EINVAL;
}
if (sigsetsize != sizeof(sigset_t))
{
warn("Unsupported sigsetsize %d!", sigsetsize);
return -linux_EINVAL;
}
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
debug("signum=%d act=%#lx oldact=%#lx", signum, act, oldact);
if (vma->UserCheck(act) < 0 && act != nullptr)
return -linux_EFAULT;
if (vma->UserCheck(oldact) < 0 && oldact != nullptr)
return -linux_EFAULT;
auto pAct = pcb->PageTable->Get(act);
auto pOldact = pcb->PageTable->Get(oldact);
int ret = 0;
if (pOldact)
{
Signals nSig = ConvertSignalToNative(signum);
assert(nSig != SIG_NULL);
SignalAction nSA{};
SetSigActToNative(pOldact, &nSA);
ret = pcb->Signals.GetAction(nSig, &nSA);
SetSigActToLinux(&nSA, pOldact);
}
if (unlikely(ret < 0))
return ConvertErrnoToLinux(ret);
if (pAct)
{
if (pAct->flags & linux_SA_IMMUTABLE)
{
warn("Immutable signal %d", signum);
return -linux_EINVAL;
}
Signals nSig = ConvertSignalToNative(signum);
assert(nSig != SIG_NULL);
SignalAction nSA{};
SetSigActToNative(pAct, &nSA);
ret = pcb->Signals.SetAction(nSig, &nSA);
SetSigActToLinux(&nSA, (k_sigaction *)pAct);
}
return ConvertErrnoToLinux(ret);
}
static int linux_sigprocmask(SysFrm *, int how, const sigset_t *set,
sigset_t *oldset, size_t sigsetsize)
{
static_assert(sizeof(sigset_t) < PAGE_SIZE);
if (sigsetsize != sizeof(sigset_t))
{
warn("Unsupported sigsetsize %d!", sigsetsize);
return -linux_EINVAL;
}
TCB *tcb = thisThread;
PCB *pcb = tcb->Parent;
Memory::VirtualMemoryArea *vma = pcb->vma;
if (vma->UserCheck(set) < 0 && set != nullptr)
return -linux_EFAULT;
if (vma->UserCheck(oldset) < 0 && oldset != nullptr)
return -linux_EFAULT;
const sigset_t *pSet = (const sigset_t *)pcb->PageTable->Get((void *)set);
sigset_t *pOldset = (sigset_t *)pcb->PageTable->Get(oldset);
debug("how=%#x set=%#lx oldset=%#lx",
how, pSet ? *pSet : 0, pOldset ? *pOldset : 0);
if (pOldset)
{
*pOldset = tcb->Signals.GetMask();
*pOldset = ConvertMaskToLinux(*pOldset);
}
if (!pSet)
return 0;
sigset_t nativeSet = ConvertMaskToNative(*pSet);
switch (how)
{
case SIG_BLOCK:
tcb->Signals.Block(nativeSet);
break;
case SIG_UNBLOCK:
tcb->Signals.Unblock(nativeSet);
break;
case SIG_SETMASK:
tcb->Signals.SetMask(nativeSet);
break;
default:
warn("Invalid how %#x", how);
return -linux_EINVAL;
}
return 0;
}
static void linux_sigreturn(SysFrm *sf)
{
thisProcess->Signals.RestoreHandleSignal(sf, thisThread);
}
static pid_t linux_gettid(SysFrm *)
{
return thisThread->ID;
}
static int linux_tkill(SysFrm *, int tid, int sig)
{
Tasking::TCB *tcb = thisProcess->GetThread(tid);
if (!tcb)
return -linux_ESRCH;
Signals nSig = ConvertSignalToNative(sig);
assert(nSig != SIG_NULL);
return ConvertErrnoToLinux(tcb->SendSignal(nSig));
}
static int linux_sched_setaffinity(SysFrm *, pid_t pid, size_t cpusetsize, const cpu_set_t *mask)
{
PCB *pcb = thisProcess;
TCB *tcb;
if (pid == 0)
tcb = thisThread;
else
tcb = pcb->GetThread(pid);
if (!tcb)
return -linux_ESRCH;
if (cpusetsize < sizeof(cpu_set_t))
return -linux_EINVAL;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pMask = vma->UserCheckAndGetAddress(mask);
if (pMask == nullptr && mask != nullptr)
return -linux_EFAULT;
for (size_t i = 0; i < MAX_CPU && i < CPU_SETSIZE; ++i)
{
if (CPU_ISSET(i, pMask))
tcb->Info.Affinity[i] = true;
else
tcb->Info.Affinity[i] = false;
}
#ifdef DEBUG
for (size_t i = 0; i < MAX_CPU && i < CPU_SETSIZE; ++i)
{
bool isset = CPU_ISSET(i, pMask);
bool affinity = tcb->Info.Affinity[i];
if (isset != affinity)
{
fixme("sched_setaffinity check failed %d != %d (cpu %d)",
isset, affinity, i);
assert(isset == affinity);
}
}
#endif
return 0;
}
static int linux_sched_getaffinity(SysFrm *, pid_t pid, size_t cpusetsize, cpu_set_t *mask)
{
PCB *pcb = thisProcess;
TCB *tcb;
if (pid == 0)
tcb = thisThread;
else
tcb = pcb->GetThread(pid);
if (!tcb)
return -linux_ESRCH;
if (cpusetsize < sizeof(cpu_set_t))
return -linux_EINVAL;
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pMask = vma->UserCheckAndGetAddress(mask);
if (pMask == nullptr && mask != nullptr)
return -linux_EFAULT;
CPU_ZERO(pMask);
for (size_t i = 0; i < MAX_CPU && i < CPU_SETSIZE; ++i)
{
if (tcb->Info.Affinity[i])
CPU_SET(i, pMask);
}
return 0;
}
static pid_t linux_set_tid_address(SysFrm *, int *tidptr)
{
if (tidptr == nullptr)
return -linux_EINVAL;
Tasking::TCB *tcb = thisThread;
tcb->Linux.clear_child_tid = tidptr;
return tcb->ID;
}
__no_sanitize("undefined") static ssize_t linux_getdents64(SysFrm *,
int fd, struct linux_dirent64 *dirp, size_t count)
{
if (unlikely(count < sizeof(struct linux_dirent64)))
{
debug("Invalid count %d", count);
return -linux_EINVAL;
}
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
auto it = fdt->FileMap.find(fd);
if (it == fdt->FileMap.end())
{
debug("Invalid fd %d", fd);
return -linux_EBADF;
}
vfs::FileDescriptorTable::Fildes &fildes = it->second;
if (!fildes.Node->IsDirectory())
{
debug("Not a directory");
return -ENOTDIR;
}
Memory::VirtualMemoryArea *vma = pcb->vma;
auto pDirp = vma->UserCheckAndGetAddress(dirp);
if (pDirp == nullptr)
return -linux_EFAULT;
/* Sanity checks */
static_assert(sizeof(kdirent) == sizeof(linux_dirent64));
static_assert(offsetof(kdirent, d_ino) == offsetof(linux_dirent64, d_ino));
static_assert(offsetof(kdirent, d_off) == offsetof(linux_dirent64, d_off));
static_assert(offsetof(kdirent, d_reclen) == offsetof(linux_dirent64, d_reclen));
static_assert(offsetof(kdirent, d_type) == offsetof(linux_dirent64, d_type));
static_assert(offsetof(kdirent, d_name) == offsetof(linux_dirent64, d_name));
/* The structs are the same, no need for conversion. */
ssize_t ret = fildes.Node->ReadDir((struct kdirent *)pDirp, count, fildes.Offset,
count / sizeof(kdirent));
if (ret > 0)
fildes.Offset += ret;
#ifdef DEBUG
if (ret > 0)
{
for (size_t bpos = 0; bpos < ret;)
{
linux_dirent64 *d = (struct linux_dirent64 *)((char *)pDirp + bpos);
debug("%ld: d_ino:%d d_off:%d d_reclen:%d d_type:%d(%s) d_name:\"%s\"",
bpos, d->d_ino, d->d_off, d->d_reclen, d->d_type,
(d->d_type == DT_REG) ? "REG"
: (d->d_type == DT_DIR) ? "DIR"
: (d->d_type == DT_FIFO) ? "FIFO"
: (d->d_type == DT_SOCK) ? "SOCK"
: (d->d_type == DT_LNK) ? "LNK"
: (d->d_type == DT_BLK) ? "BLK"
: (d->d_type == DT_CHR) ? "CHR"
: "???",
d->d_name);
bpos += (d->d_reclen == 0) ? 1 : d->d_reclen;
}
}
#endif
return ret;
}
static int linux_clock_gettime(SysFrm *, clockid_t clockid, struct timespec *tp)
{
static_assert(sizeof(struct timespec) < PAGE_SIZE);
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
timespec *pTp = vma->UserCheckAndGetAddress(tp);
if (pTp == nullptr)
return -linux_EFAULT;
/* FIXME: This is not correct? */
switch (clockid)
{
case linux_CLOCK_REALTIME:
{
uint64_t time = TimeManager->GetCounter();
pTp->tv_sec = time / Time::ConvertUnit(Time::Seconds);
pTp->tv_nsec = time / Time::ConvertUnit(Time::Nanoseconds);
debug("time=%ld sec=%ld nsec=%ld",
time, pTp->tv_sec, pTp->tv_nsec);
break;
}
case linux_CLOCK_MONOTONIC:
{
uint64_t time = TimeManager->GetCounter();
pTp->tv_sec = time / Time::ConvertUnit(Time::Seconds);
pTp->tv_nsec = time / Time::ConvertUnit(Time::Nanoseconds);
debug("time=%ld sec=%ld nsec=%ld",
time, pTp->tv_sec, pTp->tv_nsec);
break;
}
case linux_CLOCK_PROCESS_CPUTIME_ID:
case linux_CLOCK_THREAD_CPUTIME_ID:
case linux_CLOCK_MONOTONIC_RAW:
case linux_CLOCK_REALTIME_COARSE:
case linux_CLOCK_MONOTONIC_COARSE:
case linux_CLOCK_BOOTTIME:
case linux_CLOCK_REALTIME_ALARM:
case linux_CLOCK_BOOTTIME_ALARM:
case linux_CLOCK_SGI_CYCLE:
case linux_CLOCK_TAI:
{
fixme("clockid %d is stub", clockid);
return -linux_ENOSYS;
}
default:
{
warn("Invalid clockid %#lx", clockid);
return -linux_EINVAL;
}
}
return 0;
}
static int linux_clock_nanosleep(SysFrm *, clockid_t clockid, int flags,
const struct timespec *request,
struct timespec *remain)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
const timespec *pRequest = vma->UserCheckAndGetAddress(request);
timespec *pRemain = vma->UserCheckAndGetAddress(remain);
if (pRequest == nullptr)
return -linux_EFAULT;
UNUSED(pRemain);
UNUSED(flags);
switch (clockid)
{
case linux_CLOCK_REALTIME:
case linux_CLOCK_MONOTONIC:
{
uint64_t time = TimeManager->GetCounter();
uint64_t rqTime = pRequest->tv_sec * Time::ConvertUnit(Time::Seconds) +
pRequest->tv_nsec * Time::ConvertUnit(Time::Nanoseconds);
debug("Sleeping for %ld", rqTime - time);
if (rqTime > time)
pcb->GetContext()->Sleep(rqTime - time);
break;
}
case linux_CLOCK_PROCESS_CPUTIME_ID:
case linux_CLOCK_THREAD_CPUTIME_ID:
case linux_CLOCK_MONOTONIC_RAW:
case linux_CLOCK_REALTIME_COARSE:
case linux_CLOCK_MONOTONIC_COARSE:
case linux_CLOCK_BOOTTIME:
case linux_CLOCK_REALTIME_ALARM:
case linux_CLOCK_BOOTTIME_ALARM:
case linux_CLOCK_SGI_CYCLE:
case linux_CLOCK_TAI:
{
fixme("clockid %d is stub", clockid);
return -linux_ENOSYS;
}
default:
{
warn("Invalid clockid %#lx", clockid);
return -linux_EINVAL;
}
}
return 0;
}
static __noreturn void linux_exit_group(SysFrm *sf, int status)
{
fixme("status=%d", status);
linux_exit(sf, status);
}
static int linux_tgkill(SysFrm *sf, pid_t tgid, pid_t tid, int sig)
{
Tasking::TCB *tcb = thisProcess->GetThread(tid);
if (!tcb || tcb->Linux.tgid != tgid)
{
debug("Invalid tgid %d tid %d", tgid, tid);
tcb = nullptr;
foreach (auto t in thisProcess->Threads)
{
if (t->Linux.tgid == tgid)
{
debug("Found tgid %d tid %d", tgid, t->ID);
tcb = t;
break;
}
}
if (!tcb)
return -linux_ESRCH;
}
Signals nSig = ConvertSignalToNative(sig);
assert(nSig != SIG_NULL);
return ConvertErrnoToLinux(tcb->SendSignal(nSig));
}
static int linux_openat(SysFrm *, int dirfd, const char *pathname, int flags, mode_t mode)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
Memory::VirtualMemoryArea *vma = pcb->vma;
const char *pPathname = vma->UserCheckAndGetAddress(pathname);
if (pPathname == nullptr)
return -linux_EFAULT;
debug("dirfd=%d pathname=%s flags=%#x mode=%#x",
dirfd, pPathname, flags, mode);
if (dirfd == linux_AT_FDCWD)
{
FileNode *absoluteNode = fs->GetByPath(pPathname, pcb->CWD);
if (!absoluteNode)
return -linux_ENOENT;
const char *absPath = new char[strlen(absoluteNode->Path.c_str()) + 1];
strcpy((char *)absPath, absoluteNode->Path.c_str());
int ret = fdt->usr_open(absPath, flags, mode);
delete[] absPath;
return ConvertErrnoToLinux(ret);
}
if (!fs->PathIsRelative(pPathname))
return fdt->usr_open(pPathname, flags, mode);
fixme("dirfd=%d is stub", dirfd);
return -linux_ENOSYS;
}
static long linux_newfstatat(SysFrm *, int dirfd, const char *pathname,
struct linux_kstat *statbuf, int flag)
{
PCB *pcb = thisProcess;
vfs::FileDescriptorTable *fdt = pcb->FileDescriptors;
Memory::VirtualMemoryArea *vma = pcb->vma;
if (flag)
fixme("flag %#x is stub", flag);
const char *pPathname = vma->UserCheckAndGetAddress(pathname);
struct linux_kstat *pStatbuf = vma->UserCheckAndGetAddress(statbuf);
if (pPathname == nullptr || pStatbuf == nullptr)
return -linux_EFAULT;
debug("\"%s\" %#lx %#lx", pPathname, pathname, statbuf);
if (fs->PathIsAbsolute(pPathname))
{
debug("path \"%s\" is absolute", pPathname);
struct kstat nstat = KStatToStat(*pStatbuf);
int ret = fdt->usr_stat(pPathname, &nstat);
*pStatbuf = StatToKStat(nstat);
return ConvertErrnoToLinux(ret);
}
switch (dirfd)
{
case linux_AT_FDCWD:
{
debug("dirfd is AT_FDCWD for \"%s\"", pPathname);
FileNode *node = fs->GetByPath(pPathname, pcb->CWD);
if (!node)
return -linux_ENOENT;
struct kstat nstat = {};
int ret = fdt->usr_stat(node->GetPath().c_str(), &nstat);
*pStatbuf = StatToKStat(nstat);
return ConvertErrnoToLinux(ret);
}
default:
{
debug("dirfd is %d for \"%s\"", dirfd, pPathname);
auto it = fdt->FileMap.find(dirfd);
if (it == fdt->FileMap.end())
ReturnLogError(-linux_EBADF, "Invalid fd %d", dirfd);
vfs::FileDescriptorTable::Fildes &fildes = it->second;
FileNode *node = fs->GetByPath(pPathname, fildes.Node);
debug("node: %s", node->GetPath().c_str());
if (!node)
return -linux_ENOENT;
struct kstat nstat = {};
int ret = fdt->usr_stat(node->GetPath().c_str(), &nstat);
*pStatbuf = StatToKStat(nstat);
return ConvertErrnoToLinux(ret);
}
}
}
static int linux_pipe2(SysFrm *sf, int pipefd[2], int flags)
{
if (flags == 0)
return linux_pipe(sf, pipefd);
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
int *pPipefd = vma->UserCheckAndGetAddress(pipefd);
if (pPipefd == nullptr)
return -linux_EFAULT;
debug("pipefd=%#lx", pPipefd);
fixme("pipefd=[%d, %d] flags=%#x", pPipefd[0], pPipefd[1], flags);
return -linux_ENOSYS;
}
static int linux_prlimit64(SysFrm *, pid_t pid, int resource,
const struct rlimit *new_limit,
struct rlimit *old_limit)
{
static_assert(sizeof(struct rlimit) < PAGE_SIZE);
PCB *pcb = nullptr;
if (likely(pid == 0))
pcb = thisProcess;
else
{
pcb = thisProcess->GetContext()->GetProcessByID(pid);
if (pcb == nullptr)
return -linux_ESRCH;
fixme("implement CAP_SYS_RESOURCE");
return -linux_EPERM;
}
Memory::VirtualMemoryArea *vma = thisProcess->vma;
auto pOldLimit = vma->UserCheckAndGetAddress(old_limit);
auto pNewLimit = vma->UserCheckAndGetAddress(new_limit);
if (pOldLimit == nullptr && old_limit != nullptr)
return -linux_EFAULT;
if (pNewLimit == nullptr && new_limit != nullptr)
return -linux_EFAULT;
if (new_limit)
{
if (pNewLimit->rlim_cur > pNewLimit->rlim_max)
return -linux_EINVAL;
}
switch (resource)
{
case linux_RLIMIT_CPU:
case linux_RLIMIT_FSIZE:
case linux_RLIMIT_DATA:
case linux_RLIMIT_STACK:
case linux_RLIMIT_CORE:
case linux_RLIMIT_RSS:
goto __stub;
case linux_RLIMIT_NPROC:
{
if (old_limit)
{
pOldLimit->rlim_cur = pcb->SoftLimits.Threads;
pOldLimit->rlim_max = pcb->HardLimits.Threads;
debug("read NPROC limit: {%#lx, %#lx}", pOldLimit->rlim_cur, pOldLimit->rlim_max);
}
if (new_limit)
{
if (pNewLimit->rlim_max > pcb->HardLimits.Threads && !pcb->Security.CanAdjustHardLimits)
return -linux_EPERM;
debug("setting NPROC limit to {%#lx, %#lx}->{%#lx, %#lx}",
pcb->SoftLimits.Threads, pcb->HardLimits.Threads,
pNewLimit->rlim_cur, pNewLimit->rlim_max);
pcb->SoftLimits.Threads = pNewLimit->rlim_cur;
pcb->HardLimits.Threads = pNewLimit->rlim_max;
}
return 0;
}
case linux_RLIMIT_NOFILE:
{
if (old_limit)
{
pOldLimit->rlim_cur = pcb->SoftLimits.OpenFiles;
pOldLimit->rlim_max = pcb->HardLimits.OpenFiles;
debug("read NOFILE limit: {%#lx, %#lx}", pOldLimit->rlim_cur, pOldLimit->rlim_max);
}
if (new_limit)
{
if (pNewLimit->rlim_max > pcb->HardLimits.OpenFiles && !pcb->Security.CanAdjustHardLimits)
return -linux_EPERM;
debug("setting NOFILE limit to {%#lx, %#lx}->{%#lx, %#lx}",
pcb->SoftLimits.OpenFiles, pcb->HardLimits.OpenFiles,
pNewLimit->rlim_cur, pNewLimit->rlim_max);
pcb->SoftLimits.OpenFiles = pNewLimit->rlim_cur;
pcb->HardLimits.OpenFiles = pNewLimit->rlim_max;
}
return 0;
}
case linux_RLIMIT_MEMLOCK:
goto __stub;
case linux_RLIMIT_AS:
{
if (old_limit)
{
pOldLimit->rlim_cur = pcb->SoftLimits.Memory;
pOldLimit->rlim_max = pcb->HardLimits.Memory;
debug("read AS limit: {%#lx, %#lx}", pOldLimit->rlim_cur, pOldLimit->rlim_max);
}
if (new_limit)
{
if (pNewLimit->rlim_max > pcb->HardLimits.Memory && !pcb->Security.CanAdjustHardLimits)
return -linux_EPERM;
debug("setting AS limit to {%#lx, %#lx}->{%#lx, %#lx}",
pcb->SoftLimits.Memory, pcb->HardLimits.Memory,
pNewLimit->rlim_cur, pNewLimit->rlim_max);
pcb->SoftLimits.Memory = pNewLimit->rlim_cur;
pcb->HardLimits.Memory = pNewLimit->rlim_max;
}
return 0;
}
case linux_RLIMIT_LOCKS:
case linux_RLIMIT_SIGPENDING:
case linux_RLIMIT_MSGQUEUE:
case linux_RLIMIT_NICE:
case linux_RLIMIT_RTPRIO:
case linux_RLIMIT_RTTIME:
case linux_RLIMIT_NLIMITS:
__stub:
{
fixme("resource %s(%d) is stub", rlimitStr[resource], resource);
return 0; /* just return 0 */
}
default:
{
debug("Invalid resource %d", resource);
return -linux_EINVAL;
}
}
}
static ssize_t linux_getrandom(SysFrm *, void *buf,
size_t buflen, unsigned int flags)
{
PCB *pcb = thisProcess;
Memory::VirtualMemoryArea *vma = pcb->vma;
if (flags & linux_GRND_NONBLOCK)
fixme("GRND_NONBLOCK not implemented");
if (flags & ~(linux_GRND_NONBLOCK |
linux_GRND_RANDOM |
linux_GRND_INSECURE))
{
warn("Invalid flags %#x", flags);
return -linux_EINVAL;
}
auto pBuf = vma->UserCheckAndGetAddress(buf, buflen);
if (pBuf == nullptr)
return -linux_EFAULT;
if (flags & linux_GRND_RANDOM)
{
uint16_t random;
for (size_t i = 0; i < buflen; i++)
{
random = Random::rand16();
((uint8_t *)pBuf)[i] = uint8_t(random & 0xFF);
}
return buflen;
}
return 0;
}
static SyscallData LinuxSyscallsTableAMD64[] = {
[__NR_amd64_read] = {"read", (void *)linux_read},
[__NR_amd64_write] = {"write", (void *)linux_write},
[__NR_amd64_open] = {"open", (void *)linux_open},
[__NR_amd64_close] = {"close", (void *)linux_close},
[__NR_amd64_stat] = {"stat", (void *)linux_stat},
[__NR_amd64_fstat] = {"fstat", (void *)linux_fstat},
[__NR_amd64_lstat] = {"lstat", (void *)linux_lstat},
[__NR_amd64_poll] = {"poll", (void *)nullptr},
[__NR_amd64_lseek] = {"lseek", (void *)linux_lseek},
[__NR_amd64_mmap] = {"mmap", (void *)linux_mmap},
[__NR_amd64_mprotect] = {"mprotect", (void *)linux_mprotect},
[__NR_amd64_munmap] = {"munmap", (void *)linux_munmap},
[__NR_amd64_brk] = {"brk", (void *)linux_brk},
[__NR_amd64_rt_sigaction] = {"rt_sigaction", (void *)linux_sigaction},
[__NR_amd64_rt_sigprocmask] = {"rt_sigprocmask", (void *)linux_sigprocmask},
[__NR_amd64_rt_sigreturn] = {"rt_sigreturn", (void *)linux_sigreturn},
[__NR_amd64_ioctl] = {"ioctl", (void *)linux_ioctl},
[__NR_amd64_pread64] = {"pread64", (void *)linux_pread64},
[__NR_amd64_pwrite64] = {"pwrite64", (void *)linux_pwrite64},
[__NR_amd64_readv] = {"readv", (void *)linux_readv},
[__NR_amd64_writev] = {"writev", (void *)linux_writev},
[__NR_amd64_access] = {"access", (void *)linux_access},
[__NR_amd64_pipe] = {"pipe", (void *)linux_pipe},
[__NR_amd64_select] = {"select", (void *)nullptr},
[__NR_amd64_sched_yield] = {"sched_yield", (void *)nullptr},
[__NR_amd64_mremap] = {"mremap", (void *)nullptr},
[__NR_amd64_msync] = {"msync", (void *)nullptr},
[__NR_amd64_mincore] = {"mincore", (void *)nullptr},
[__NR_amd64_madvise] = {"madvise", (void *)linux_madvise},
[__NR_amd64_shmget] = {"shmget", (void *)nullptr},
[__NR_amd64_shmat] = {"shmat", (void *)nullptr},
[__NR_amd64_shmctl] = {"shmctl", (void *)nullptr},
[__NR_amd64_dup] = {"dup", (void *)linux_dup},
[__NR_amd64_dup2] = {"dup2", (void *)linux_dup2},
[__NR_amd64_pause] = {"pause", (void *)linux_pause},
[__NR_amd64_nanosleep] = {"nanosleep", (void *)linux_nanosleep},
[__NR_amd64_getitimer] = {"getitimer", (void *)nullptr},
[__NR_amd64_alarm] = {"alarm", (void *)nullptr},
[__NR_amd64_setitimer] = {"setitimer", (void *)linux_setitimer},
[__NR_amd64_getpid] = {"getpid", (void *)linux_getpid},
[__NR_amd64_sendfile] = {"sendfile", (void *)nullptr},
[__NR_amd64_socket] = {"socket", (void *)nullptr},
[__NR_amd64_connect] = {"connect", (void *)nullptr},
[__NR_amd64_accept] = {"accept", (void *)nullptr},
[__NR_amd64_sendto] = {"sendto", (void *)nullptr},
[__NR_amd64_recvfrom] = {"recvfrom", (void *)nullptr},
[__NR_amd64_sendmsg] = {"sendmsg", (void *)nullptr},
[__NR_amd64_recvmsg] = {"recvmsg", (void *)nullptr},
[__NR_amd64_shutdown] = {"shutdown", (void *)linux_shutdown},
[__NR_amd64_bind] = {"bind", (void *)nullptr},
[__NR_amd64_listen] = {"listen", (void *)nullptr},
[__NR_amd64_getsockname] = {"getsockname", (void *)nullptr},
[__NR_amd64_getpeername] = {"getpeername", (void *)nullptr},
[__NR_amd64_socketpair] = {"socketpair", (void *)nullptr},
[__NR_amd64_setsockopt] = {"setsockopt", (void *)nullptr},
[__NR_amd64_getsockopt] = {"getsockopt", (void *)nullptr},
[__NR_amd64_clone] = {"clone", (void *)nullptr},
[__NR_amd64_fork] = {"fork", (void *)linux_fork},
[__NR_amd64_vfork] = {"vfork", (void *)linux_vfork},
[__NR_amd64_execve] = {"execve", (void *)linux_execve},
[__NR_amd64_exit] = {"exit", (void *)linux_exit},
[__NR_amd64_wait4] = {"wait4", (void *)linux_wait4},
[__NR_amd64_kill] = {"kill", (void *)linux_kill},
[__NR_amd64_uname] = {"uname", (void *)linux_uname},
[__NR_amd64_semget] = {"semget", (void *)nullptr},
[__NR_amd64_semop] = {"semop", (void *)nullptr},
[__NR_amd64_semctl] = {"semctl", (void *)nullptr},
[__NR_amd64_shmdt] = {"shmdt", (void *)nullptr},
[__NR_amd64_msgget] = {"msgget", (void *)nullptr},
[__NR_amd64_msgsnd] = {"msgsnd", (void *)nullptr},
[__NR_amd64_msgrcv] = {"msgrcv", (void *)nullptr},
[__NR_amd64_msgctl] = {"msgctl", (void *)nullptr},
[__NR_amd64_fcntl] = {"fcntl", (void *)linux_fcntl},
[__NR_amd64_flock] = {"flock", (void *)nullptr},
[__NR_amd64_fsync] = {"fsync", (void *)nullptr},
[__NR_amd64_fdatasync] = {"fdatasync", (void *)nullptr},
[__NR_amd64_truncate] = {"truncate", (void *)nullptr},
[__NR_amd64_ftruncate] = {"ftruncate", (void *)nullptr},
[__NR_amd64_getdents] = {"getdents", (void *)nullptr},
[__NR_amd64_getcwd] = {"getcwd", (void *)linux_getcwd},
[__NR_amd64_chdir] = {"chdir", (void *)linux_chdir},
[__NR_amd64_fchdir] = {"fchdir", (void *)linux_fchdir},
[__NR_amd64_rename] = {"rename", (void *)nullptr},
[__NR_amd64_mkdir] = {"mkdir", (void *)linux_mkdir},
[__NR_amd64_rmdir] = {"rmdir", (void *)nullptr},
[__NR_amd64_creat] = {"creat", (void *)linux_creat},
[__NR_amd64_link] = {"link", (void *)nullptr},
[__NR_amd64_unlink] = {"unlink", (void *)nullptr},
[__NR_amd64_symlink] = {"symlink", (void *)nullptr},
[__NR_amd64_readlink] = {"readlink", (void *)linux_readlink},
[__NR_amd64_chmod] = {"chmod", (void *)nullptr},
[__NR_amd64_fchmod] = {"fchmod", (void *)nullptr},
[__NR_amd64_chown] = {"chown", (void *)nullptr},
[__NR_amd64_fchown] = {"fchown", (void *)nullptr},
[__NR_amd64_lchown] = {"lchown", (void *)nullptr},
[__NR_amd64_umask] = {"umask", (void *)linux_umask},
[__NR_amd64_gettimeofday] = {"gettimeofday", (void *)nullptr},
[__NR_amd64_getrlimit] = {"getrlimit", (void *)nullptr},
[__NR_amd64_getrusage] = {"getrusage", (void *)linux_getrusage},
[__NR_amd64_sysinfo] = {"sysinfo", (void *)nullptr},
[__NR_amd64_times] = {"times", (void *)nullptr},
[__NR_amd64_ptrace] = {"ptrace", (void *)nullptr},
[__NR_amd64_getuid] = {"getuid", (void *)linux_getuid},
[__NR_amd64_syslog] = {"syslog", (void *)nullptr},
[__NR_amd64_getgid] = {"getgid", (void *)linux_getgid},
[__NR_amd64_setuid] = {"setuid", (void *)nullptr},
[__NR_amd64_setgid] = {"setgid", (void *)nullptr},
[__NR_amd64_geteuid] = {"geteuid", (void *)linux_geteuid},
[__NR_amd64_getegid] = {"getegid", (void *)linux_getegid},
[__NR_amd64_setpgid] = {"setpgid", (void *)linux_setpgid},
[__NR_amd64_getppid] = {"getppid", (void *)linux_getppid},
[__NR_amd64_getpgrp] = {"getpgrp", (void *)nullptr},
[__NR_amd64_setsid] = {"setsid", (void *)nullptr},
[__NR_amd64_setreuid] = {"setreuid", (void *)nullptr},
[__NR_amd64_setregid] = {"setregid", (void *)nullptr},
[__NR_amd64_getgroups] = {"getgroups", (void *)nullptr},
[__NR_amd64_setgroups] = {"setgroups", (void *)nullptr},
[__NR_amd64_setresuid] = {"setresuid", (void *)nullptr},
[__NR_amd64_getresuid] = {"getresuid", (void *)nullptr},
[__NR_amd64_setresgid] = {"setresgid", (void *)nullptr},
[__NR_amd64_getresgid] = {"getresgid", (void *)nullptr},
[__NR_amd64_getpgid] = {"getpgid", (void *)linux_getpgid},
[__NR_amd64_setfsuid] = {"setfsuid", (void *)nullptr},
[__NR_amd64_setfsgid] = {"setfsgid", (void *)nullptr},
[__NR_amd64_getsid] = {"getsid", (void *)nullptr},
[__NR_amd64_capget] = {"capget", (void *)nullptr},
[__NR_amd64_capset] = {"capset", (void *)nullptr},
[__NR_amd64_rt_sigpending] = {"rt_sigpending", (void *)nullptr},
[__NR_amd64_rt_sigtimedwait] = {"rt_sigtimedwait", (void *)nullptr},
[__NR_amd64_rt_sigqueueinfo] = {"rt_sigqueueinfo", (void *)nullptr},
[__NR_amd64_rt_sigsuspend] = {"rt_sigsuspend", (void *)nullptr},
[__NR_amd64_sigaltstack] = {"sigaltstack", (void *)nullptr},
[__NR_amd64_utime] = {"utime", (void *)nullptr},
[__NR_amd64_mknod] = {"mknod", (void *)nullptr},
[__NR_amd64_uselib] = {"uselib", (void *)nullptr},
[__NR_amd64_personality] = {"personality", (void *)nullptr},
[__NR_amd64_ustat] = {"ustat", (void *)nullptr},
[__NR_amd64_statfs] = {"statfs", (void *)nullptr},
[__NR_amd64_fstatfs] = {"fstatfs", (void *)nullptr},
[__NR_amd64_sysfs] = {"sysfs", (void *)nullptr},
[__NR_amd64_getpriority] = {"getpriority", (void *)nullptr},
[__NR_amd64_setpriority] = {"setpriority", (void *)nullptr},
[__NR_amd64_sched_setparam] = {"sched_setparam", (void *)nullptr},
[__NR_amd64_sched_getparam] = {"sched_getparam", (void *)nullptr},
[__NR_amd64_sched_setscheduler] = {"sched_setscheduler", (void *)nullptr},
[__NR_amd64_sched_getscheduler] = {"sched_getscheduler", (void *)nullptr},
[__NR_amd64_sched_get_priority_max] = {"sched_get_priority_max", (void *)nullptr},
[__NR_amd64_sched_get_priority_min] = {"sched_get_priority_min", (void *)nullptr},
[__NR_amd64_sched_rr_get_interval] = {"sched_rr_get_interval", (void *)nullptr},
[__NR_amd64_mlock] = {"mlock", (void *)nullptr},
[__NR_amd64_munlock] = {"munlock", (void *)nullptr},
[__NR_amd64_mlockall] = {"mlockall", (void *)nullptr},
[__NR_amd64_munlockall] = {"munlockall", (void *)nullptr},
[__NR_amd64_vhangup] = {"vhangup", (void *)nullptr},
[__NR_amd64_modify_ldt] = {"modify_ldt", (void *)nullptr},
[__NR_amd64_pivot_root] = {"pivot_root", (void *)nullptr},
[__NR_amd64__sysctl] = {"_sysctl", (void *)nullptr},
[__NR_amd64_prctl] = {"prctl", (void *)nullptr},
[__NR_amd64_arch_prctl] = {"arch_prctl", (void *)linux_arch_prctl},
[__NR_amd64_adjtimex] = {"adjtimex", (void *)nullptr},
[__NR_amd64_setrlimit] = {"setrlimit", (void *)nullptr},
[__NR_amd64_chroot] = {"chroot", (void *)nullptr},
[__NR_amd64_sync] = {"sync", (void *)nullptr},
[__NR_amd64_acct] = {"acct", (void *)nullptr},
[__NR_amd64_settimeofday] = {"settimeofday", (void *)nullptr},
[__NR_amd64_mount] = {"mount", (void *)nullptr},
[__NR_amd64_umount2] = {"umount2", (void *)nullptr},
[__NR_amd64_swapon] = {"swapon", (void *)nullptr},
[__NR_amd64_swapoff] = {"swapoff", (void *)nullptr},
[__NR_amd64_reboot] = {"reboot", (void *)linux_reboot},
[__NR_amd64_sethostname] = {"sethostname", (void *)nullptr},
[__NR_amd64_setdomainname] = {"setdomainname", (void *)nullptr},
[__NR_amd64_iopl] = {"iopl", (void *)nullptr},
[__NR_amd64_ioperm] = {"ioperm", (void *)nullptr},
[__NR_amd64_create_module] = {"create_module", (void *)nullptr},
[__NR_amd64_init_module] = {"init_module", (void *)nullptr},
[__NR_amd64_delete_module] = {"delete_module", (void *)nullptr},
[__NR_amd64_get_kernel_syms] = {"get_kernel_syms", (void *)nullptr},
[__NR_amd64_query_module] = {"query_module", (void *)nullptr},
[__NR_amd64_quotactl] = {"quotactl", (void *)nullptr},
[__NR_amd64_nfsservctl] = {"nfsservctl", (void *)nullptr},
[__NR_amd64_getpmsg] = {"getpmsg", (void *)nullptr},
[__NR_amd64_putpmsg] = {"putpmsg", (void *)nullptr},
[__NR_amd64_afs_syscall] = {"afs_syscall", (void *)nullptr},
[__NR_amd64_tuxcall] = {"tuxcall", (void *)nullptr},
[__NR_amd64_security] = {"security", (void *)nullptr},
[__NR_amd64_gettid] = {"gettid", (void *)linux_gettid},
[__NR_amd64_readahead] = {"readahead", (void *)nullptr},
[__NR_amd64_setxattr] = {"setxattr", (void *)nullptr},
[__NR_amd64_lsetxattr] = {"lsetxattr", (void *)nullptr},
[__NR_amd64_fsetxattr] = {"fsetxattr", (void *)nullptr},
[__NR_amd64_getxattr] = {"getxattr", (void *)nullptr},
[__NR_amd64_lgetxattr] = {"lgetxattr", (void *)nullptr},
[__NR_amd64_fgetxattr] = {"fgetxattr", (void *)nullptr},
[__NR_amd64_listxattr] = {"listxattr", (void *)nullptr},
[__NR_amd64_llistxattr] = {"llistxattr", (void *)nullptr},
[__NR_amd64_flistxattr] = {"flistxattr", (void *)nullptr},
[__NR_amd64_removexattr] = {"removexattr", (void *)nullptr},
[__NR_amd64_lremovexattr] = {"lremovexattr", (void *)nullptr},
[__NR_amd64_fremovexattr] = {"fremovexattr", (void *)nullptr},
[__NR_amd64_tkill] = {"tkill", (void *)linux_tkill},
[__NR_amd64_time] = {"time", (void *)nullptr},
[__NR_amd64_futex] = {"futex", (void *)nullptr},
[__NR_amd64_sched_setaffinity] = {"sched_setaffinity", (void *)linux_sched_setaffinity},
[__NR_amd64_sched_getaffinity] = {"sched_getaffinity", (void *)linux_sched_getaffinity},
[__NR_amd64_set_thread_area] = {"set_thread_area", (void *)nullptr},
[__NR_amd64_io_setup] = {"io_setup", (void *)nullptr},
[__NR_amd64_io_destroy] = {"io_destroy", (void *)nullptr},
[__NR_amd64_io_getevents] = {"io_getevents", (void *)nullptr},
[__NR_amd64_io_submit] = {"io_submit", (void *)nullptr},
[__NR_amd64_io_cancel] = {"io_cancel", (void *)nullptr},
[__NR_amd64_get_thread_area] = {"get_thread_area", (void *)nullptr},
[__NR_amd64_lookup_dcookie] = {"lookup_dcookie", (void *)nullptr},
[__NR_amd64_epoll_create] = {"epoll_create", (void *)nullptr},
[__NR_amd64_epoll_ctl_old] = {"epoll_ctl_old", (void *)nullptr},
[__NR_amd64_epoll_wait_old] = {"epoll_wait_old", (void *)nullptr},
[__NR_amd64_remap_file_pages] = {"remap_file_pages", (void *)nullptr},
[__NR_amd64_getdents64] = {"getdents64", (void *)linux_getdents64},
[__NR_amd64_set_tid_address] = {"set_tid_address", (void *)linux_set_tid_address},
[__NR_amd64_restart_syscall] = {"restart_syscall", (void *)nullptr},
[__NR_amd64_semtimedop] = {"semtimedop", (void *)nullptr},
[__NR_amd64_fadvise64] = {"fadvise64", (void *)nullptr},
[__NR_amd64_timer_create] = {"timer_create", (void *)nullptr},
[__NR_amd64_timer_settime] = {"timer_settime", (void *)nullptr},
[__NR_amd64_timer_gettime] = {"timer_gettime", (void *)nullptr},
[__NR_amd64_timer_getoverrun] = {"timer_getoverrun", (void *)nullptr},
[__NR_amd64_timer_delete] = {"timer_delete", (void *)nullptr},
[__NR_amd64_clock_settime] = {"clock_settime", (void *)nullptr},
[__NR_amd64_clock_gettime] = {"clock_gettime", (void *)linux_clock_gettime},
[__NR_amd64_clock_getres] = {"clock_getres", (void *)nullptr},
[__NR_amd64_clock_nanosleep] = {"clock_nanosleep", (void *)linux_clock_nanosleep},
[__NR_amd64_exit_group] = {"exit_group", (void *)linux_exit_group},
[__NR_amd64_epoll_wait] = {"epoll_wait", (void *)nullptr},
[__NR_amd64_epoll_ctl] = {"epoll_ctl", (void *)nullptr},
[__NR_amd64_tgkill] = {"tgkill", (void *)linux_tgkill},
[__NR_amd64_utimes] = {"utimes", (void *)nullptr},
[__NR_amd64_vserver] = {"vserver", (void *)nullptr},
[__NR_amd64_mbind] = {"mbind", (void *)nullptr},
[__NR_amd64_set_mempolicy] = {"set_mempolicy", (void *)nullptr},
[__NR_amd64_get_mempolicy] = {"get_mempolicy", (void *)nullptr},
[__NR_amd64_mq_open] = {"mq_open", (void *)nullptr},
[__NR_amd64_mq_unlink] = {"mq_unlink", (void *)nullptr},
[__NR_amd64_mq_timedsend] = {"mq_timedsend", (void *)nullptr},
[__NR_amd64_mq_timedreceive] = {"mq_timedreceive", (void *)nullptr},
[__NR_amd64_mq_notify] = {"mq_notify", (void *)nullptr},
[__NR_amd64_mq_getsetattr] = {"mq_getsetattr", (void *)nullptr},
[__NR_amd64_kexec_load] = {"kexec_load", (void *)nullptr},
[__NR_amd64_waitid] = {"waitid", (void *)nullptr},
[__NR_amd64_add_key] = {"add_key", (void *)nullptr},
[__NR_amd64_request_key] = {"request_key", (void *)nullptr},
[__NR_amd64_keyctl] = {"keyctl", (void *)nullptr},
[__NR_amd64_ioprio_set] = {"ioprio_set", (void *)nullptr},
[__NR_amd64_ioprio_get] = {"ioprio_get", (void *)nullptr},
[__NR_amd64_inotify_init] = {"inotify_init", (void *)nullptr},
[__NR_amd64_inotify_add_watch] = {"inotify_add_watch", (void *)nullptr},
[__NR_amd64_inotify_rm_watch] = {"inotify_rm_watch", (void *)nullptr},
[__NR_amd64_migrate_pages] = {"migrate_pages", (void *)nullptr},
[__NR_amd64_openat] = {"openat", (void *)linux_openat},
[__NR_amd64_mkdirat] = {"mkdirat", (void *)nullptr},
[__NR_amd64_mknodat] = {"mknodat", (void *)nullptr},
[__NR_amd64_fchownat] = {"fchownat", (void *)nullptr},
[__NR_amd64_futimesat] = {"futimesat", (void *)nullptr},
[__NR_amd64_newfstatat] = {"newfstatat", (void *)linux_newfstatat},
[__NR_amd64_unlinkat] = {"unlinkat", (void *)nullptr},
[__NR_amd64_renameat] = {"renameat", (void *)nullptr},
[__NR_amd64_linkat] = {"linkat", (void *)nullptr},
[__NR_amd64_symlinkat] = {"symlinkat", (void *)nullptr},
[__NR_amd64_readlinkat] = {"readlinkat", (void *)nullptr},
[__NR_amd64_fchmodat] = {"fchmodat", (void *)nullptr},
[__NR_amd64_faccessat] = {"faccessat", (void *)nullptr},
[__NR_amd64_pselect6] = {"pselect6", (void *)nullptr},
[__NR_amd64_ppoll] = {"ppoll", (void *)nullptr},
[__NR_amd64_unshare] = {"unshare", (void *)nullptr},
[__NR_amd64_set_robust_list] = {"set_robust_list", (void *)nullptr},
[__NR_amd64_get_robust_list] = {"get_robust_list", (void *)nullptr},
[__NR_amd64_splice] = {"splice", (void *)nullptr},
[__NR_amd64_tee] = {"tee", (void *)nullptr},
[__NR_amd64_sync_file_range] = {"sync_file_range", (void *)nullptr},
[__NR_amd64_vmsplice] = {"vmsplice", (void *)nullptr},
[__NR_amd64_move_pages] = {"move_pages", (void *)nullptr},
[__NR_amd64_utimensat] = {"utimensat", (void *)nullptr},
[__NR_amd64_epoll_pwait] = {"epoll_pwait", (void *)nullptr},
[__NR_amd64_signalfd] = {"signalfd", (void *)nullptr},
[__NR_amd64_timerfd_create] = {"timerfd_create", (void *)nullptr},
[__NR_amd64_eventfd] = {"eventfd", (void *)nullptr},
[__NR_amd64_fallocate] = {"fallocate", (void *)nullptr},
[__NR_amd64_timerfd_settime] = {"timerfd_settime", (void *)nullptr},
[__NR_amd64_timerfd_gettime] = {"timerfd_gettime", (void *)nullptr},
[__NR_amd64_accept4] = {"accept4", (void *)nullptr},
[__NR_amd64_signalfd4] = {"signalfd4", (void *)nullptr},
[__NR_amd64_eventfd2] = {"eventfd2", (void *)nullptr},
[__NR_amd64_epoll_create1] = {"epoll_create1", (void *)nullptr},
[__NR_amd64_dup3] = {"dup3", (void *)nullptr},
[__NR_amd64_pipe2] = {"pipe2", (void *)linux_pipe2},
[__NR_amd64_inotify_init1] = {"inotify_init1", (void *)nullptr},
[__NR_amd64_preadv] = {"preadv", (void *)nullptr},
[__NR_amd64_pwritev] = {"pwritev", (void *)nullptr},
[__NR_amd64_rt_tgsigqueueinfo] = {"rt_tgsigqueueinfo", (void *)nullptr},
[__NR_amd64_perf_event_open] = {"perf_event_open", (void *)nullptr},
[__NR_amd64_recvmmsg] = {"recvmmsg", (void *)nullptr},
[__NR_amd64_fanotify_init] = {"fanotify_init", (void *)nullptr},
[__NR_amd64_fanotify_mark] = {"fanotify_mark", (void *)nullptr},
[__NR_amd64_prlimit64] = {"prlimit64", (void *)linux_prlimit64},
[__NR_amd64_name_to_handle_at] = {"name_to_handle_at", (void *)nullptr},
[__NR_amd64_open_by_handle_at] = {"open_by_handle_at", (void *)nullptr},
[__NR_amd64_clock_adjtime] = {"clock_adjtime", (void *)nullptr},
[__NR_amd64_syncfs] = {"syncfs", (void *)nullptr},
[__NR_amd64_sendmmsg] = {"sendmmsg", (void *)nullptr},
[__NR_amd64_setns] = {"setns", (void *)nullptr},
[__NR_amd64_getcpu] = {"getcpu", (void *)nullptr},
[__NR_amd64_process_vm_readv] = {"process_vm_readv", (void *)nullptr},
[__NR_amd64_process_vm_writev] = {"process_vm_writev", (void *)nullptr},
[__NR_amd64_kcmp] = {"kcmp", (void *)nullptr},
[__NR_amd64_finit_module] = {"finit_module", (void *)nullptr},
[__NR_amd64_sched_setattr] = {"sched_setattr", (void *)nullptr},
[__NR_amd64_sched_getattr] = {"sched_getattr", (void *)nullptr},
[__NR_amd64_renameat2] = {"renameat2", (void *)nullptr},
[__NR_amd64_seccomp] = {"seccomp", (void *)nullptr},
[__NR_amd64_getrandom] = {"getrandom", (void *)linux_getrandom},
[__NR_amd64_memfd_create] = {"memfd_create", (void *)nullptr},
[__NR_amd64_kexec_file_load] = {"kexec_file_load", (void *)nullptr},
[__NR_amd64_bpf] = {"bpf", (void *)nullptr},
[__NR_amd64_execveat] = {"execveat", (void *)nullptr},
[__NR_amd64_userfaultfd] = {"userfaultfd", (void *)nullptr},
[__NR_amd64_membarrier] = {"membarrier", (void *)nullptr},
[__NR_amd64_mlock2] = {"mlock2", (void *)nullptr},
[__NR_amd64_copy_file_range] = {"copy_file_range", (void *)nullptr},
[__NR_amd64_preadv2] = {"preadv2", (void *)nullptr},
[__NR_amd64_pwritev2] = {"pwritev2", (void *)nullptr},
[__NR_amd64_pkey_mprotect] = {"pkey_mprotect", (void *)nullptr},
[__NR_amd64_pkey_alloc] = {"pkey_alloc", (void *)nullptr},
[__NR_amd64_pkey_free] = {"pkey_free", (void *)nullptr},
[__NR_amd64_statx] = {"statx", (void *)nullptr},
[__NR_amd64_io_pgetevents] = {"io_pgetevents", (void *)nullptr},
[__NR_amd64_rseq] = {"rseq", (void *)nullptr},
[335] = {"reserved", (void *)nullptr},
[336] = {"reserved", (void *)nullptr},
[337] = {"reserved", (void *)nullptr},
[338] = {"reserved", (void *)nullptr},
[339] = {"reserved", (void *)nullptr},
[340] = {"reserved", (void *)nullptr},
[341] = {"reserved", (void *)nullptr},
[342] = {"reserved", (void *)nullptr},
[343] = {"reserved", (void *)nullptr},
[344] = {"reserved", (void *)nullptr},
[345] = {"reserved", (void *)nullptr},
[346] = {"reserved", (void *)nullptr},
[347] = {"reserved", (void *)nullptr},
[348] = {"reserved", (void *)nullptr},
[349] = {"reserved", (void *)nullptr},
[350] = {"reserved", (void *)nullptr},
[351] = {"reserved", (void *)nullptr},
[352] = {"reserved", (void *)nullptr},
[353] = {"reserved", (void *)nullptr},
[354] = {"reserved", (void *)nullptr},
[355] = {"reserved", (void *)nullptr},
[356] = {"reserved", (void *)nullptr},
[357] = {"reserved", (void *)nullptr},
[358] = {"reserved", (void *)nullptr},
[359] = {"reserved", (void *)nullptr},
[360] = {"reserved", (void *)nullptr},
[361] = {"reserved", (void *)nullptr},
[362] = {"reserved", (void *)nullptr},
[363] = {"reserved", (void *)nullptr},
[364] = {"reserved", (void *)nullptr},
[365] = {"reserved", (void *)nullptr},
[366] = {"reserved", (void *)nullptr},
[367] = {"reserved", (void *)nullptr},
[368] = {"reserved", (void *)nullptr},
[369] = {"reserved", (void *)nullptr},
[370] = {"reserved", (void *)nullptr},
[371] = {"reserved", (void *)nullptr},
[372] = {"reserved", (void *)nullptr},
[373] = {"reserved", (void *)nullptr},
[374] = {"reserved", (void *)nullptr},
[375] = {"reserved", (void *)nullptr},
[376] = {"reserved", (void *)nullptr},
[377] = {"reserved", (void *)nullptr},
[378] = {"reserved", (void *)nullptr},
[379] = {"reserved", (void *)nullptr},
[380] = {"reserved", (void *)nullptr},
[381] = {"reserved", (void *)nullptr},
[382] = {"reserved", (void *)nullptr},
[383] = {"reserved", (void *)nullptr},
[384] = {"reserved", (void *)nullptr},
[385] = {"reserved", (void *)nullptr},
[386] = {"reserved", (void *)nullptr},
[387] = {"reserved", (void *)nullptr},
[388] = {"reserved", (void *)nullptr},
[389] = {"reserved", (void *)nullptr},
[390] = {"reserved", (void *)nullptr},
[391] = {"reserved", (void *)nullptr},
[392] = {"reserved", (void *)nullptr},
[393] = {"reserved", (void *)nullptr},
[394] = {"reserved", (void *)nullptr},
[395] = {"reserved", (void *)nullptr},
[396] = {"reserved", (void *)nullptr},
[397] = {"reserved", (void *)nullptr},
[398] = {"reserved", (void *)nullptr},
[399] = {"reserved", (void *)nullptr},
[400] = {"reserved", (void *)nullptr},
[401] = {"reserved", (void *)nullptr},
[402] = {"reserved", (void *)nullptr},
[403] = {"reserved", (void *)nullptr},
[404] = {"reserved", (void *)nullptr},
[405] = {"reserved", (void *)nullptr},
[406] = {"reserved", (void *)nullptr},
[407] = {"reserved", (void *)nullptr},
[408] = {"reserved", (void *)nullptr},
[409] = {"reserved", (void *)nullptr},
[410] = {"reserved", (void *)nullptr},
[411] = {"reserved", (void *)nullptr},
[412] = {"reserved", (void *)nullptr},
[413] = {"reserved", (void *)nullptr},
[414] = {"reserved", (void *)nullptr},
[415] = {"reserved", (void *)nullptr},
[416] = {"reserved", (void *)nullptr},
[417] = {"reserved", (void *)nullptr},
[418] = {"reserved", (void *)nullptr},
[419] = {"reserved", (void *)nullptr},
[420] = {"reserved", (void *)nullptr},
[421] = {"reserved", (void *)nullptr},
[422] = {"reserved", (void *)nullptr},
[423] = {"reserved", (void *)nullptr},
[__NR_amd64_pidfd_send_signal] = {"pidfd_send_signal", (void *)nullptr},
[__NR_amd64_io_uring_setup] = {"io_uring_setup", (void *)nullptr},
[__NR_amd64_io_uring_enter] = {"io_uring_enter", (void *)nullptr},
[__NR_amd64_io_uring_register] = {"io_uring_register", (void *)nullptr},
[__NR_amd64_open_tree] = {"open_tree", (void *)nullptr},
[__NR_amd64_move_mount] = {"move_mount", (void *)nullptr},
[__NR_amd64_fsopen] = {"fsopen", (void *)nullptr},
[__NR_amd64_fsconfig] = {"fsconfig", (void *)nullptr},
[__NR_amd64_fsmount] = {"fsmount", (void *)nullptr},
[__NR_amd64_fspick] = {"fspick", (void *)nullptr},
[__NR_amd64_pidfd_open] = {"pidfd_open", (void *)nullptr},
[__NR_amd64_clone3] = {"clone3", (void *)nullptr},
[__NR_amd64_close_range] = {"close_range", (void *)nullptr},
[__NR_amd64_openat2] = {"openat2", (void *)nullptr},
[__NR_amd64_pidfd_getfd] = {"pidfd_getfd", (void *)nullptr},
[__NR_amd64_faccessat2] = {"faccessat2", (void *)nullptr},
[__NR_amd64_process_madvise] = {"process_madvise", (void *)nullptr},
[__NR_amd64_epoll_pwait2] = {"epoll_pwait2", (void *)nullptr},
[__NR_amd64_mount_setattr] = {"mount_setattr", (void *)nullptr},
[443] = {"reserved", (void *)nullptr},
[__NR_amd64_landlock_create_ruleset] = {"landlock_create_ruleset", (void *)nullptr},
[__NR_amd64_landlock_add_rule] = {"landlock_add_rule", (void *)nullptr},
[__NR_amd64_landlock_restrict_self] = {"landlock_restrict_self", (void *)nullptr},
};
static SyscallData LinuxSyscallsTableI386[] = {
[__NR_i386_restart_syscall] = {"restart_syscall", (void *)nullptr},
[__NR_i386_exit] = {"exit", (void *)linux_exit},
[__NR_i386_fork] = {"fork", (void *)linux_fork},
[__NR_i386_read] = {"read", (void *)linux_read},
[__NR_i386_write] = {"write", (void *)linux_write},
[__NR_i386_open] = {"open", (void *)linux_open},
[__NR_i386_close] = {"close", (void *)linux_close},
[__NR_i386_waitpid] = {"waitpid", (void *)nullptr},
[__NR_i386_creat] = {"creat", (void *)linux_creat},
[__NR_i386_link] = {"link", (void *)nullptr},
[__NR_i386_unlink] = {"unlink", (void *)nullptr},
[__NR_i386_execve] = {"execve", (void *)linux_execve},
[__NR_i386_chdir] = {"chdir", (void *)linux_chdir},
[__NR_i386_time] = {"time", (void *)nullptr},
[__NR_i386_mknod] = {"mknod", (void *)nullptr},
[__NR_i386_chmod] = {"chmod", (void *)nullptr},
[__NR_i386_lchown] = {"lchown", (void *)nullptr},
[__NR_i386_break] = {"break", (void *)nullptr},
[__NR_i386_oldstat] = {"oldstat", (void *)nullptr},
[__NR_i386_lseek] = {"lseek", (void *)linux_lseek},
[__NR_i386_getpid] = {"getpid", (void *)linux_getpid},
[__NR_i386_mount] = {"mount", (void *)nullptr},
[__NR_i386_umount] = {"umount", (void *)nullptr},
[__NR_i386_setuid] = {"setuid", (void *)nullptr},
[__NR_i386_getuid] = {"getuid", (void *)nullptr},
[__NR_i386_stime] = {"stime", (void *)nullptr},
[__NR_i386_ptrace] = {"ptrace", (void *)nullptr},
[__NR_i386_alarm] = {"alarm", (void *)nullptr},
[__NR_i386_oldfstat] = {"oldfstat", (void *)nullptr},
[__NR_i386_pause] = {"pause", (void *)nullptr},
[__NR_i386_utime] = {"utime", (void *)nullptr},
[__NR_i386_stty] = {"stty", (void *)nullptr},
[__NR_i386_gtty] = {"gtty", (void *)nullptr},
[__NR_i386_access] = {"access", (void *)linux_access},
[__NR_i386_nice] = {"nice", (void *)nullptr},
[__NR_i386_ftime] = {"ftime", (void *)nullptr},
[__NR_i386_sync] = {"sync", (void *)nullptr},
[__NR_i386_kill] = {"kill", (void *)linux_kill},
[__NR_i386_rename] = {"rename", (void *)nullptr},
[__NR_i386_mkdir] = {"mkdir", (void *)linux_mkdir},
[__NR_i386_rmdir] = {"rmdir", (void *)nullptr},
[__NR_i386_dup] = {"dup", (void *)linux_dup},
[__NR_i386_pipe] = {"pipe", (void *)nullptr},
[__NR_i386_times] = {"times", (void *)nullptr},
[__NR_i386_prof] = {"prof", (void *)nullptr},
[__NR_i386_brk] = {"brk", (void *)linux_brk},
[__NR_i386_setgid] = {"setgid", (void *)nullptr},
[__NR_i386_getgid] = {"getgid", (void *)linux_getgid},
[__NR_i386_signal] = {"signal", (void *)nullptr},
[__NR_i386_geteuid] = {"geteuid", (void *)linux_geteuid},
[__NR_i386_getegid] = {"getegid", (void *)linux_getegid},
[__NR_i386_acct] = {"acct", (void *)nullptr},
[__NR_i386_umount2] = {"umount2", (void *)nullptr},
[__NR_i386_lock] = {"lock", (void *)nullptr},
[__NR_i386_ioctl] = {"ioctl", (void *)linux_ioctl},
[__NR_i386_fcntl] = {"fcntl", (void *)linux_fcntl},
[__NR_i386_mpx] = {"mpx", (void *)nullptr},
[__NR_i386_setpgid] = {"setpgid", (void *)linux_setpgid},
[__NR_i386_ulimit] = {"ulimit", (void *)nullptr},
[__NR_i386_oldolduname] = {"oldolduname", (void *)nullptr},
[__NR_i386_umask] = {"umask", (void *)linux_umask},
[__NR_i386_chroot] = {"chroot", (void *)nullptr},
[__NR_i386_ustat] = {"ustat", (void *)nullptr},
[__NR_i386_dup2] = {"dup2", (void *)linux_dup2},
[__NR_i386_getppid] = {"getppid", (void *)linux_getppid},
[__NR_i386_getpgrp] = {"getpgrp", (void *)nullptr},
[__NR_i386_setsid] = {"setsid", (void *)nullptr},
[__NR_i386_sigaction] = {"sigaction", (void *)nullptr},
[__NR_i386_sgetmask] = {"sgetmask", (void *)nullptr},
[__NR_i386_ssetmask] = {"ssetmask", (void *)nullptr},
[__NR_i386_setreuid] = {"setreuid", (void *)nullptr},
[__NR_i386_setregid] = {"setregid", (void *)nullptr},
[__NR_i386_sigsuspend] = {"sigsuspend", (void *)nullptr},
[__NR_i386_sigpending] = {"sigpending", (void *)nullptr},
[__NR_i386_sethostname] = {"sethostname", (void *)nullptr},
[__NR_i386_setrlimit] = {"setrlimit", (void *)nullptr},
[__NR_i386_getrlimit] = {"getrlimit", (void *)nullptr},
[__NR_i386_getrusage] = {"getrusage", (void *)linux_getrusage},
[__NR_i386_gettimeofday_time32] = {"gettimeofday_time32", (void *)nullptr},
[__NR_i386_settimeofday_time32] = {"settimeofday_time32", (void *)nullptr},
[__NR_i386_getgroups] = {"getgroups", (void *)nullptr},
[__NR_i386_setgroups] = {"setgroups", (void *)nullptr},
[__NR_i386_select] = {"select", (void *)nullptr},
[__NR_i386_symlink] = {"symlink", (void *)nullptr},
[__NR_i386_oldlstat] = {"oldlstat", (void *)nullptr},
[__NR_i386_readlink] = {"readlink", (void *)linux_readlink},
[__NR_i386_uselib] = {"uselib", (void *)nullptr},
[__NR_i386_swapon] = {"swapon", (void *)nullptr},
[__NR_i386_reboot] = {"reboot", (void *)linux_reboot},
[__NR_i386_readdir] = {"readdir", (void *)nullptr},
[__NR_i386_mmap] = {"mmap", (void *)linux_mmap},
[__NR_i386_munmap] = {"munmap", (void *)linux_munmap},
[__NR_i386_truncate] = {"truncate", (void *)nullptr},
[__NR_i386_ftruncate] = {"ftruncate", (void *)nullptr},
[__NR_i386_fchmod] = {"fchmod", (void *)nullptr},
[__NR_i386_fchown] = {"fchown", (void *)nullptr},
[__NR_i386_getpriority] = {"getpriority", (void *)nullptr},
[__NR_i386_setpriority] = {"setpriority", (void *)nullptr},
[__NR_i386_profil] = {"profil", (void *)nullptr},
[__NR_i386_statfs] = {"statfs", (void *)nullptr},
[__NR_i386_fstatfs] = {"fstatfs", (void *)nullptr},
[__NR_i386_ioperm] = {"ioperm", (void *)nullptr},
[__NR_i386_socketcall] = {"socketcall", (void *)nullptr},
[__NR_i386_syslog] = {"syslog", (void *)nullptr},
[__NR_i386_setitimer] = {"setitimer", (void *)linux_setitimer},
[__NR_i386_getitimer] = {"getitimer", (void *)nullptr},
[__NR_i386_stat] = {"stat", (void *)linux_stat},
[__NR_i386_lstat] = {"lstat", (void *)linux_lstat},
[__NR_i386_fstat] = {"fstat", (void *)linux_fstat},
[__NR_i386_olduname] = {"olduname", (void *)nullptr},
[__NR_i386_iopl] = {"iopl", (void *)nullptr},
[__NR_i386_vhangup] = {"vhangup", (void *)nullptr},
[__NR_i386_idle] = {"idle", (void *)nullptr},
[__NR_i386_vm86old] = {"vm86old", (void *)nullptr},
[__NR_i386_wait4] = {"wait4", (void *)linux_wait4},
[__NR_i386_swapoff] = {"swapoff", (void *)nullptr},
[__NR_i386_sysinfo] = {"sysinfo", (void *)nullptr},
[__NR_i386_ipc] = {"ipc", (void *)nullptr},
[__NR_i386_fsync] = {"fsync", (void *)nullptr},
[__NR_i386_sigreturn] = {"sigreturn", (void *)nullptr},
[__NR_i386_clone] = {"clone", (void *)nullptr},
[__NR_i386_setdomainname] = {"setdomainname", (void *)nullptr},
[__NR_i386_uname] = {"uname", (void *)linux_uname},
[__NR_i386_modify_ldt] = {"modify_ldt", (void *)nullptr},
[__NR_i386_adjtimex] = {"adjtimex", (void *)nullptr},
[__NR_i386_mprotect] = {"mprotect", (void *)linux_mprotect},
[__NR_i386_sigprocmask] = {"sigprocmask", (void *)nullptr},
[__NR_i386_create_module] = {"create_module", (void *)nullptr},
[__NR_i386_init_module] = {"init_module", (void *)nullptr},
[__NR_i386_delete_module] = {"delete_module", (void *)nullptr},
[__NR_i386_get_kernel_syms] = {"get_kernel_syms", (void *)nullptr},
[__NR_i386_quotactl] = {"quotactl", (void *)nullptr},
[__NR_i386_getpgid] = {"getpgid", (void *)linux_getpgid},
[__NR_i386_fchdir] = {"fchdir", (void *)linux_fchdir},
[__NR_i386_bdflush] = {"bdflush", (void *)nullptr},
[__NR_i386_sysfs] = {"sysfs", (void *)nullptr},
[__NR_i386_personality] = {"personality", (void *)nullptr},
[__NR_i386_afs_syscall] = {"afs_syscall", (void *)nullptr},
[__NR_i386_setfsuid] = {"setfsuid", (void *)nullptr},
[__NR_i386_setfsgid] = {"setfsgid", (void *)nullptr},
[__NR_i386__llseek] = {"_llseek", (void *)nullptr},
[__NR_i386_getdents] = {"getdents", (void *)nullptr},
[__NR_i386__newselect] = {"_newselect", (void *)nullptr},
[__NR_i386_flock] = {"flock", (void *)nullptr},
[__NR_i386_msync] = {"msync", (void *)nullptr},
[__NR_i386_readv] = {"readv", (void *)linux_readv},
[__NR_i386_writev] = {"writev", (void *)linux_writev},
[__NR_i386_getsid] = {"getsid", (void *)nullptr},
[__NR_i386_fdatasync] = {"fdatasync", (void *)nullptr},
[__NR_i386__sysctl] = {"_sysctl", (void *)nullptr},
[__NR_i386_mlock] = {"mlock", (void *)nullptr},
[__NR_i386_munlock] = {"munlock", (void *)nullptr},
[__NR_i386_mlockall] = {"mlockall", (void *)nullptr},
[__NR_i386_munlockall] = {"munlockall", (void *)nullptr},
[__NR_i386_sched_setparam] = {"sched_setparam", (void *)nullptr},
[__NR_i386_sched_getparam] = {"sched_getparam", (void *)nullptr},
[__NR_i386_sched_setscheduler] = {"sched_setscheduler", (void *)nullptr},
[__NR_i386_sched_getscheduler] = {"sched_getscheduler", (void *)nullptr},
[__NR_i386_sched_yield] = {"sched_yield", (void *)nullptr},
[__NR_i386_sched_get_priority_max] = {"sched_get_priority_max", (void *)nullptr},
[__NR_i386_sched_get_priority_min] = {"sched_get_priority_min", (void *)nullptr},
[__NR_i386_sched_rr_get_interval] = {"sched_rr_get_interval", (void *)nullptr},
[__NR_i386_nanosleep] = {"nanosleep", (void *)nullptr},
[__NR_i386_mremap] = {"mremap", (void *)nullptr},
[__NR_i386_setresuid] = {"setresuid", (void *)nullptr},
[__NR_i386_getresuid] = {"getresuid", (void *)nullptr},
[__NR_i386_vm86] = {"vm86", (void *)nullptr},
[__NR_i386_query_module] = {"query_module", (void *)nullptr},
[__NR_i386_poll] = {"poll", (void *)nullptr},
[__NR_i386_nfsservctl] = {"nfsservctl", (void *)nullptr},
[__NR_i386_setresgid] = {"setresgid", (void *)nullptr},
[__NR_i386_getresgid] = {"getresgid", (void *)nullptr},
[__NR_i386_prctl] = {"prctl", (void *)nullptr},
[__NR_i386_rt_sigreturn] = {"rt_sigreturn", (void *)linux_sigreturn},
[__NR_i386_rt_sigaction] = {"rt_sigaction", (void *)nullptr},
[__NR_i386_rt_sigprocmask] = {"rt_sigprocmask", (void *)linux_sigprocmask},
[__NR_i386_rt_sigpending] = {"rt_sigpending", (void *)nullptr},
[__NR_i386_rt_sigtimedwait] = {"rt_sigtimedwait", (void *)nullptr},
[__NR_i386_rt_sigqueueinfo] = {"rt_sigqueueinfo", (void *)nullptr},
[__NR_i386_rt_sigsuspend] = {"rt_sigsuspend", (void *)nullptr},
[__NR_i386_pread64] = {"pread64", (void *)linux_pread64},
[__NR_i386_pwrite64] = {"pwrite64", (void *)linux_pwrite64},
[__NR_i386_chown] = {"chown", (void *)nullptr},
[__NR_i386_getcwd] = {"getcwd", (void *)linux_getcwd},
[__NR_i386_capget] = {"capget", (void *)nullptr},
[__NR_i386_capset] = {"capset", (void *)nullptr},
[__NR_i386_sigaltstack] = {"sigaltstack", (void *)nullptr},
[__NR_i386_sendfile] = {"sendfile", (void *)nullptr},
[__NR_i386_getpmsg] = {"getpmsg", (void *)nullptr},
[__NR_i386_putpmsg] = {"putpmsg", (void *)nullptr},
[__NR_i386_vfork] = {"vfork", (void *)linux_vfork},
[__NR_i386_ugetrlimit] = {"ugetrlimit", (void *)nullptr},
[__NR_i386_mmap2] = {"mmap2", (void *)nullptr},
[__NR_i386_truncate64] = {"truncate64", (void *)nullptr},
[__NR_i386_ftruncate64] = {"ftruncate64", (void *)nullptr},
[__NR_i386_stat64] = {"stat64", (void *)nullptr},
[__NR_i386_lstat64] = {"lstat64", (void *)nullptr},
[__NR_i386_fstat64] = {"fstat64", (void *)nullptr},
[__NR_i386_lchown32] = {"lchown32", (void *)nullptr},
[__NR_i386_getuid32] = {"getuid32", (void *)nullptr},
[__NR_i386_getgid32] = {"getgid32", (void *)nullptr},
[__NR_i386_geteuid32] = {"geteuid32", (void *)nullptr},
[__NR_i386_getegid32] = {"getegid32", (void *)nullptr},
[__NR_i386_setreuid32] = {"setreuid32", (void *)nullptr},
[__NR_i386_setregid32] = {"setregid32", (void *)nullptr},
[__NR_i386_getgroups32] = {"getgroups32", (void *)nullptr},
[__NR_i386_setgroups32] = {"setgroups32", (void *)nullptr},
[__NR_i386_fchown32] = {"fchown32", (void *)nullptr},
[__NR_i386_setresuid32] = {"setresuid32", (void *)nullptr},
[__NR_i386_getresuid32] = {"getresuid32", (void *)nullptr},
[__NR_i386_setresgid32] = {"setresgid32", (void *)nullptr},
[__NR_i386_getresgid32] = {"getresgid32", (void *)nullptr},
[__NR_i386_chown32] = {"chown32", (void *)nullptr},
[__NR_i386_setuid32] = {"setuid32", (void *)nullptr},
[__NR_i386_setgid32] = {"setgid32", (void *)nullptr},
[__NR_i386_setfsuid32] = {"setfsuid32", (void *)nullptr},
[__NR_i386_setfsgid32] = {"setfsgid32", (void *)nullptr},
[__NR_i386_pivot_root] = {"pivot_root", (void *)nullptr},
[__NR_i386_mincore] = {"mincore", (void *)nullptr},
[__NR_i386_madvise] = {"madvise", (void *)linux_madvise},
[__NR_i386_getdents64] = {"getdents64", (void *)linux_getdents64},
[__NR_i386_fcntl64] = {"fcntl64", (void *)nullptr},
[222] = {"reserved", (void *)nullptr},
[223] = {"reserved", (void *)nullptr},
[__NR_i386_gettid] = {"gettid", (void *)linux_gettid},
[__NR_i386_readahead] = {"readahead", (void *)nullptr},
[__NR_i386_setxattr] = {"setxattr", (void *)nullptr},
[__NR_i386_lsetxattr] = {"lsetxattr", (void *)nullptr},
[__NR_i386_fsetxattr] = {"fsetxattr", (void *)nullptr},
[__NR_i386_getxattr] = {"getxattr", (void *)nullptr},
[__NR_i386_lgetxattr] = {"lgetxattr", (void *)nullptr},
[__NR_i386_fgetxattr] = {"fgetxattr", (void *)nullptr},
[__NR_i386_listxattr] = {"listxattr", (void *)nullptr},
[__NR_i386_llistxattr] = {"llistxattr", (void *)nullptr},
[__NR_i386_flistxattr] = {"flistxattr", (void *)nullptr},
[__NR_i386_removexattr] = {"removexattr", (void *)nullptr},
[__NR_i386_lremovexattr] = {"lremovexattr", (void *)nullptr},
[__NR_i386_fremovexattr] = {"fremovexattr", (void *)nullptr},
[__NR_i386_tkill] = {"tkill", (void *)linux_tkill},
[__NR_i386_sendfile64] = {"sendfile64", (void *)nullptr},
[__NR_i386_futex] = {"futex", (void *)nullptr},
[__NR_i386_sched_setaffinity] = {"sched_setaffinity", (void *)linux_sched_setaffinity},
[__NR_i386_sched_getaffinity] = {"sched_getaffinity", (void *)linux_sched_getaffinity},
[__NR_i386_set_thread_area] = {"set_thread_area", (void *)nullptr},
[__NR_i386_get_thread_area] = {"get_thread_area", (void *)nullptr},
[__NR_i386_io_setup] = {"io_setup", (void *)nullptr},
[__NR_i386_io_destroy] = {"io_destroy", (void *)nullptr},
[__NR_i386_io_getevents] = {"io_getevents", (void *)nullptr},
[__NR_i386_io_submit] = {"io_submit", (void *)nullptr},
[__NR_i386_io_cancel] = {"io_cancel", (void *)nullptr},
[__NR_i386_fadvise64] = {"fadvise64", (void *)nullptr},
[__NR_i386_set_zone_reclaim] = {"set_zone_reclaim", (void *)nullptr},
[__NR_i386_exit_group] = {"exit_group", (void *)linux_exit_group},
[__NR_i386_lookup_dcookie] = {"lookup_dcookie", (void *)nullptr},
[__NR_i386_epoll_create] = {"epoll_create", (void *)nullptr},
[__NR_i386_epoll_ctl] = {"epoll_ctl", (void *)nullptr},
[__NR_i386_epoll_wait] = {"epoll_wait", (void *)nullptr},
[__NR_i386_remap_file_pages] = {"remap_file_pages", (void *)nullptr},
[__NR_i386_set_tid_address] = {"set_tid_address", (void *)linux_set_tid_address},
[__NR_i386_timer_create] = {"timer_create", (void *)nullptr},
[__NR_i386_timer_settime32] = {"timer_settime32", (void *)nullptr},
[__NR_i386_timer_gettime32] = {"timer_gettime32", (void *)nullptr},
[__NR_i386_timer_getoverrun] = {"timer_getoverrun", (void *)nullptr},
[__NR_i386_timer_delete] = {"timer_delete", (void *)nullptr},
[__NR_i386_clock_settime32] = {"clock_settime32", (void *)nullptr},
[__NR_i386_clock_gettime32] = {"clock_gettime32", (void *)nullptr},
[__NR_i386_clock_getres_time32] = {"clock_getres_time32", (void *)nullptr},
[__NR_i386_clock_nanosleep_time32] = {"clock_nanosleep_time32", (void *)nullptr},
[__NR_i386_statfs64] = {"statfs64", (void *)nullptr},
[__NR_i386_fstatfs64] = {"fstatfs64", (void *)nullptr},
[__NR_i386_tgkill] = {"tgkill", (void *)linux_tgkill},
[__NR_i386_utimes] = {"utimes", (void *)nullptr},
[__NR_i386_fadvise64_64] = {"fadvise64_64", (void *)nullptr},
[__NR_i386_vserver] = {"vserver", (void *)nullptr},
[__NR_i386_mbind] = {"mbind", (void *)nullptr},
[__NR_i386_get_mempolicy] = {"get_mempolicy", (void *)nullptr},
[__NR_i386_set_mempolicy] = {"set_mempolicy", (void *)nullptr},
[__NR_i386_mq_open] = {"mq_open", (void *)nullptr},
[__NR_i386_mq_unlink] = {"mq_unlink", (void *)nullptr},
[__NR_i386_mq_timedsend] = {"mq_timedsend", (void *)nullptr},
[__NR_i386_mq_timedreceive] = {"mq_timedreceive", (void *)nullptr},
[__NR_i386_mq_notify] = {"mq_notify", (void *)nullptr},
[__NR_i386_mq_getsetattr] = {"mq_getsetattr", (void *)nullptr},
[__NR_i386_kexec_load] = {"kexec_load", (void *)nullptr},
[__NR_i386_waitid] = {"waitid", (void *)nullptr},
[__NR_i386_sys_setaltroot] = {"sys_setaltroot", (void *)nullptr},
[__NR_i386_add_key] = {"add_key", (void *)nullptr},
[__NR_i386_request_key] = {"request_key", (void *)nullptr},
[__NR_i386_keyctl] = {"keyctl", (void *)nullptr},
[__NR_i386_ioprio_set] = {"ioprio_set", (void *)nullptr},
[__NR_i386_ioprio_get] = {"ioprio_get", (void *)nullptr},
[__NR_i386_inotify_init] = {"inotify_init", (void *)nullptr},
[__NR_i386_inotify_add_watch] = {"inotify_add_watch", (void *)nullptr},
[__NR_i386_inotify_rm_watch] = {"inotify_rm_watch", (void *)nullptr},
[__NR_i386_migrate_pages] = {"migrate_pages", (void *)nullptr},
[__NR_i386_openat] = {"openat", (void *)linux_openat},
[__NR_i386_mkdirat] = {"mkdirat", (void *)nullptr},
[__NR_i386_mknodat] = {"mknodat", (void *)nullptr},
[__NR_i386_fchownat] = {"fchownat", (void *)nullptr},
[__NR_i386_futimesat] = {"futimesat", (void *)nullptr},
[__NR_i386_fstatat64] = {"fstatat64", (void *)nullptr},
[__NR_i386_unlinkat] = {"unlinkat", (void *)nullptr},
[__NR_i386_renameat] = {"renameat", (void *)nullptr},
[__NR_i386_linkat] = {"linkat", (void *)nullptr},
[__NR_i386_symlinkat] = {"symlinkat", (void *)nullptr},
[__NR_i386_readlinkat] = {"readlinkat", (void *)nullptr},
[__NR_i386_fchmodat] = {"fchmodat", (void *)nullptr},
[__NR_i386_faccessat] = {"faccessat", (void *)nullptr},
[__NR_i386_pselect6] = {"pselect6", (void *)nullptr},
[__NR_i386_ppoll] = {"ppoll", (void *)nullptr},
[__NR_i386_unshare] = {"unshare", (void *)nullptr},
[__NR_i386_set_robust_list] = {"set_robust_list", (void *)nullptr},
[__NR_i386_get_robust_list] = {"get_robust_list", (void *)nullptr},
[__NR_i386_splice] = {"splice", (void *)nullptr},
[__NR_i386_sync_file_range] = {"sync_file_range", (void *)nullptr},
[__NR_i386_tee] = {"tee", (void *)nullptr},
[__NR_i386_vmsplice] = {"vmsplice", (void *)nullptr},
[__NR_i386_move_pages] = {"move_pages", (void *)nullptr},
[__NR_i386_getcpu] = {"getcpu", (void *)nullptr},
[__NR_i386_epoll_pwait] = {"epoll_pwait", (void *)nullptr},
[__NR_i386_utimensat] = {"utimensat", (void *)nullptr},
[__NR_i386_signalfd] = {"signalfd", (void *)nullptr},
[__NR_i386_timerfd_create] = {"timerfd_create", (void *)nullptr},
[__NR_i386_eventfd] = {"eventfd", (void *)nullptr},
[__NR_i386_fallocate] = {"fallocate", (void *)nullptr},
[__NR_i386_timerfd_settime32] = {"timerfd_settime32", (void *)nullptr},
[__NR_i386_timerfd_gettime32] = {"timerfd_gettime32", (void *)nullptr},
[__NR_i386_signalfd4] = {"signalfd4", (void *)nullptr},
[__NR_i386_eventfd2] = {"eventfd2", (void *)nullptr},
[__NR_i386_epoll_create1] = {"epoll_create1", (void *)nullptr},
[__NR_i386_dup3] = {"dup3", (void *)nullptr},
[__NR_i386_pipe2] = {"pipe2", (void *)nullptr},
[__NR_i386_inotify_init1] = {"inotify_init1", (void *)nullptr},
[__NR_i386_preadv] = {"preadv", (void *)nullptr},
[__NR_i386_pwritev] = {"pwritev", (void *)nullptr},
[__NR_i386_rt_tgsigqueueinfo] = {"rt_tgsigqueueinfo", (void *)nullptr},
[__NR_i386_perf_event_open] = {"perf_event_open", (void *)nullptr},
[__NR_i386_recvmmsg] = {"recvmmsg", (void *)nullptr},
[__NR_i386_fanotify_init] = {"fanotify_init", (void *)nullptr},
[__NR_i386_fanotify_mark] = {"fanotify_mark", (void *)nullptr},
[__NR_i386_prlimit64] = {"prlimit64", (void *)nullptr},
[__NR_i386_name_to_handle_at] = {"name_to_handle_at", (void *)nullptr},
[__NR_i386_open_by_handle_at] = {"open_by_handle_at", (void *)nullptr},
[__NR_i386_clock_adjtime] = {"clock_adjtime", (void *)nullptr},
[__NR_i386_syncfs] = {"syncfs", (void *)nullptr},
[__NR_i386_sendmmsg] = {"sendmmsg", (void *)nullptr},
[__NR_i386_setns] = {"setns", (void *)nullptr},
[__NR_i386_process_vm_readv] = {"process_vm_readv", (void *)nullptr},
[__NR_i386_process_vm_writev] = {"process_vm_writev", (void *)nullptr},
[__NR_i386_kcmp] = {"kcmp", (void *)nullptr},
[__NR_i386_finit_module] = {"finit_module", (void *)nullptr},
[__NR_i386_sched_setattr] = {"sched_setattr", (void *)nullptr},
[__NR_i386_sched_getattr] = {"sched_getattr", (void *)nullptr},
[__NR_i386_renameat2] = {"renameat2", (void *)nullptr},
[__NR_i386_seccomp] = {"seccomp", (void *)nullptr},
[__NR_i386_getrandom] = {"getrandom", (void *)linux_getrandom},
[__NR_i386_memfd_create] = {"memfd_create", (void *)nullptr},
[__NR_i386_bpf] = {"bpf", (void *)nullptr},
[__NR_i386_execveat] = {"execveat", (void *)nullptr},
[__NR_i386_socket] = {"socket", (void *)nullptr},
[__NR_i386_socketpair] = {"socketpair", (void *)nullptr},
[__NR_i386_bind] = {"bind", (void *)nullptr},
[__NR_i386_connect] = {"connect", (void *)nullptr},
[__NR_i386_listen] = {"listen", (void *)nullptr},
[__NR_i386_accept4] = {"accept4", (void *)nullptr},
[__NR_i386_getsockopt] = {"getsockopt", (void *)nullptr},
[__NR_i386_setsockopt] = {"setsockopt", (void *)nullptr},
[__NR_i386_getsockname] = {"getsockname", (void *)nullptr},
[__NR_i386_getpeername] = {"getpeername", (void *)nullptr},
[__NR_i386_sendto] = {"sendto", (void *)nullptr},
[__NR_i386_sendmsg] = {"sendmsg", (void *)nullptr},
[__NR_i386_recvfrom] = {"recvfrom", (void *)nullptr},
[__NR_i386_recvmsg] = {"recvmsg", (void *)nullptr},
[__NR_i386_shutdown] = {"shutdown", (void *)linux_shutdown},
[__NR_i386_userfaultfd] = {"userfaultfd", (void *)nullptr},
[__NR_i386_membarrier] = {"membarrier", (void *)nullptr},
[__NR_i386_mlock2] = {"mlock2", (void *)nullptr},
[__NR_i386_copy_file_range] = {"copy_file_range", (void *)nullptr},
[__NR_i386_preadv2] = {"preadv2", (void *)nullptr},
[__NR_i386_pwritev2] = {"pwritev2", (void *)nullptr},
[__NR_i386_pkey_mprotect] = {"pkey_mprotect", (void *)nullptr},
[__NR_i386_pkey_alloc] = {"pkey_alloc", (void *)nullptr},
[__NR_i386_pkey_free] = {"pkey_free", (void *)nullptr},
[__NR_i386_statx] = {"statx", (void *)nullptr},
[__NR_i386_arch_prctl] = {"arch_prctl", (void *)linux_arch_prctl},
[__NR_i386_io_pgetevents] = {"io_pgetevents", (void *)nullptr},
[__NR_i386_rseq] = {"rseq", (void *)nullptr},
[387] = {"reserved", (void *)nullptr},
[388] = {"reserved", (void *)nullptr},
[389] = {"reserved", (void *)nullptr},
[390] = {"reserved", (void *)nullptr},
[391] = {"reserved", (void *)nullptr},
[392] = {"reserved", (void *)nullptr},
[__NR_i386_semget] = {"semget", (void *)nullptr},
[__NR_i386_semctl] = {"semctl", (void *)nullptr},
[__NR_i386_shmget] = {"shmget", (void *)nullptr},
[__NR_i386_shmctl] = {"shmctl", (void *)nullptr},
[__NR_i386_shmat] = {"shmat", (void *)nullptr},
[__NR_i386_shmdt] = {"shmdt", (void *)nullptr},
[__NR_i386_msgget] = {"msgget", (void *)nullptr},
[__NR_i386_msgsnd] = {"msgsnd", (void *)nullptr},
[__NR_i386_msgrcv] = {"msgrcv", (void *)nullptr},
[__NR_i386_msgctl] = {"msgctl", (void *)nullptr},
[__NR_i386_clock_gettime64] = {"clock_gettime64", (void *)nullptr},
[__NR_i386_clock_settime64] = {"clock_settime64", (void *)nullptr},
[__NR_i386_clock_adjtime64] = {"clock_adjtime64", (void *)nullptr},
[__NR_i386_clock_getres_time64] = {"clock_getres_time64", (void *)nullptr},
[__NR_i386_clock_nanosleep_time64] = {"clock_nanosleep_time64", (void *)nullptr},
[__NR_i386_timer_gettime64] = {"timer_gettime64", (void *)nullptr},
[__NR_i386_timer_settime64] = {"timer_settime64", (void *)nullptr},
[__NR_i386_timerfd_gettime64] = {"timerfd_gettime64", (void *)nullptr},
[__NR_i386_timerfd_settime64] = {"timerfd_settime64", (void *)nullptr},
[__NR_i386_utimensat_time64] = {"utimensat_time64", (void *)nullptr},
[__NR_i386_pselect6_time64] = {"pselect6_time64", (void *)nullptr},
[__NR_i386_ppoll_time64] = {"ppoll_time64", (void *)nullptr},
[415] = {"reserved", (void *)nullptr},
[__NR_i386_io_pgetevents_time64] = {"io_pgetevents_time64", (void *)nullptr},
[__NR_i386_recvmmsg_time64] = {"recvmmsg_time64", (void *)nullptr},
[__NR_i386_mq_timedsend_time64] = {"mq_timedsend_time64", (void *)nullptr},
[__NR_i386_mq_timedreceive_time64] = {"mq_timedreceive_time64", (void *)nullptr},
[__NR_i386_semtimedop_time64] = {"semtimedop_time64", (void *)nullptr},
[__NR_i386_rt_sigtimedwait_time64] = {"rt_sigtimedwait_time64", (void *)nullptr},
[__NR_i386_futex_time64] = {"futex_time64", (void *)nullptr},
[__NR_i386_sched_rr_get_interval_time64] = {"sched_rr_get_interval_time64", (void *)nullptr},
[__NR_i386_pidfd_send_signal] = {"pidfd_send_signal", (void *)nullptr},
[__NR_i386_io_uring_setup] = {"io_uring_setup", (void *)nullptr},
[__NR_i386_io_uring_enter] = {"io_uring_enter", (void *)nullptr},
[__NR_i386_io_uring_register] = {"io_uring_register", (void *)nullptr},
[__NR_i386_open_tree] = {"open_tree", (void *)nullptr},
[__NR_i386_move_mount] = {"move_mount", (void *)nullptr},
[__NR_i386_fsopen] = {"fsopen", (void *)nullptr},
[__NR_i386_fsconfig] = {"fsconfig", (void *)nullptr},
[__NR_i386_fsmount] = {"fsmount", (void *)nullptr},
[__NR_i386_fspick] = {"fspick", (void *)nullptr},
[__NR_i386_pidfd_open] = {"pidfd_open", (void *)nullptr},
[__NR_i386_clone3] = {"clone3", (void *)nullptr},
[__NR_i386_close_range] = {"close_range", (void *)nullptr},
[__NR_i386_openat2] = {"openat2", (void *)nullptr},
[__NR_i386_pidfd_getfd] = {"pidfd_getfd", (void *)nullptr},
[__NR_i386_faccessat2] = {"faccessat2", (void *)nullptr},
[__NR_i386_process_madvise] = {"process_madvise", (void *)nullptr},
[__NR_i386_epoll_pwait2] = {"epoll_pwait2", (void *)nullptr},
[__NR_i386_mount_setattr] = {"mount_setattr", (void *)nullptr},
[443] = {"reserved", (void *)nullptr},
[__NR_i386_landlock_create_ruleset] = {"landlock_create_ruleset", (void *)nullptr},
[__NR_i386_landlock_add_rule] = {"landlock_add_rule", (void *)nullptr},
[__NR_i386_landlock_restrict_self] = {"landlock_restrict_self", (void *)nullptr},
};
uintptr_t HandleLinuxSyscalls(SyscallsFrame *Frame)
{
#if defined(a64)
if (Frame->rax > sizeof(LinuxSyscallsTableAMD64) / sizeof(SyscallData))
{
fixme("Syscall %d not implemented",
Frame->rax);
return -linux_ENOSYS;
}
SyscallData Syscall = LinuxSyscallsTableAMD64[Frame->rax];
long (*call)(SysFrm *, long, ...) = r_cst(long (*)(SysFrm *, long, ...),
Syscall.Handler);
if (unlikely(!call))
{
fixme("Syscall %s(%d) not implemented",
Syscall.Name, Frame->rax);
return -linux_ENOSYS;
}
debug("> [%d:\"%s\"]( %#lx %#lx %#lx %#lx %#lx %#lx )",
Frame->rax, Syscall.Name,
Frame->rdi, Frame->rsi, Frame->rdx,
Frame->r10, Frame->r8, Frame->r9);
long sc_ret = call(Frame,
Frame->rdi, Frame->rsi, Frame->rdx,
Frame->r10, Frame->r8, Frame->r9);
debug("< [%ld:\"%s\"] = %ld", Frame->rax, Syscall.Name, sc_ret);
return sc_ret;
#elif defined(a32)
if (Frame->eax > sizeof(LinuxSyscallsTableI386) / sizeof(SyscallData))
{
fixme("Syscall %d not implemented",
Frame->eax);
return -linux_ENOSYS;
}
SyscallData Syscall = LinuxSyscallsTableI386[Frame->eax];
long (*call)(SysFrm *, long, ...) = r_cst(long (*)(SysFrm *, long, ...),
Syscall.Handler);
if (unlikely(!call))
{
fixme("Syscall %s(%d) not implemented",
Syscall.Name, Frame->eax);
return -linux_ENOSYS;
}
debug("> [%d:\"%s\"]( %#lx %#lx %#lx %#lx %#lx %#lx )",
Frame->eax, Syscall.Name,
Frame->ebx, Frame->ecx, Frame->edx,
Frame->esi, Frame->edi, Frame->ebp);
int sc_ret = call(Frame,
Frame->ebx, Frame->ecx, Frame->edx,
Frame->esi, Frame->edi, Frame->ebp);
debug("< [%d:\"%s\"] = %d", Frame->eax, Syscall.Name, sc_ret);
return sc_ret;
#elif defined(aa64)
return -linux_ENOSYS;
#endif
#if defined(a64)
UNUSED(LinuxSyscallsTableI386);
#elif defined(a32)
UNUSED(LinuxSyscallsTableAMD64);
#endif
}
Reference in New Issue View Git Blame Copy Permalink