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ladybird/Kernel/API/Syscall.h
Mart G e7310ba45a Kernel+LibC: Add fstatat 
The function fstatat can do the same thing as the stat and lstat
functions. However, it can be passed the file descriptor of a directory
which will be used when as the starting point for relative paths. This
is contrary to stat and lstat which use the current working directory as
the starting for relative paths.
2021-05-14 23:32:10 +02:00

511 lines
12 KiB
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/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/Types.h>
#include <AK/Userspace.h>
#ifdef __serenity__
# include <LibC/fd_set.h>
#endif
constexpr int syscall_vector = 0x82;
extern "C" {
struct pollfd;
struct timeval;
struct timespec;
struct sockaddr;
struct siginfo;
struct stat;
typedef u32 socklen_t;
}
namespace Kernel {
#define ENUMERATE_SYSCALLS(S) \
S(yield) \
S(open) \
S(close) \
S(read) \
S(lseek) \
S(kill) \
S(getuid) \
S(exit) \
S(geteuid) \
S(getegid) \
S(getgid) \
S(getpid) \
S(getppid) \
S(getresuid) \
S(getresgid) \
S(waitid) \
S(mmap) \
S(munmap) \
S(get_dir_entries) \
S(getcwd) \
S(gettimeofday) \
S(gethostname) \
S(sethostname) \
S(chdir) \
S(uname) \
S(set_mmap_name) \
S(readlink) \
S(write) \
S(ttyname) \
S(stat) \
S(getsid) \
S(setsid) \
S(getpgid) \
S(setpgid) \
S(getpgrp) \
S(fork) \
S(execve) \
S(dup2) \
S(sigaction) \
S(umask) \
S(getgroups) \
S(setgroups) \
S(sigreturn) \
S(sigprocmask) \
S(sigpending) \
S(pipe) \
S(killpg) \
S(seteuid) \
S(setegid) \
S(setuid) \
S(setgid) \
S(setreuid) \
S(setresuid) \
S(setresgid) \
S(alarm) \
S(fstat) \
S(access) \
S(fcntl) \
S(ioctl) \
S(mkdir) \
S(times) \
S(utime) \
S(sync) \
S(ptsname) \
S(select) \
S(unlink) \
S(poll) \
S(rmdir) \
S(chmod) \
S(socket) \
S(bind) \
S(accept) \
S(listen) \
S(connect) \
S(link) \
S(chown) \
S(fchmod) \
S(symlink) \
S(sendmsg) \
S(recvmsg) \
S(getsockopt) \
S(setsockopt) \
S(create_thread) \
S(gettid) \
S(donate) \
S(rename) \
S(ftruncate) \
S(exit_thread) \
S(mknod) \
S(writev) \
S(beep) \
S(getsockname) \
S(getpeername) \
S(socketpair) \
S(sched_setparam) \
S(sched_getparam) \
S(fchown) \
S(halt) \
S(reboot) \
S(mount) \
S(umount) \
S(dump_backtrace) \
S(dbgputch) \
S(dbgputstr) \
S(create_inode_watcher) \
S(inode_watcher_add_watch) \
S(inode_watcher_remove_watch) \
S(mprotect) \
S(realpath) \
S(get_process_name) \
S(fchdir) \
S(getrandom) \
S(getkeymap) \
S(setkeymap) \
S(clock_gettime) \
S(clock_settime) \
S(clock_nanosleep) \
S(join_thread) \
S(module_load) \
S(module_unload) \
S(detach_thread) \
S(set_thread_name) \
S(get_thread_name) \
S(madvise) \
S(purge) \
S(profiling_enable) \
S(profiling_disable) \
S(profiling_free_buffer) \
S(futex) \
S(chroot) \
S(pledge) \
S(unveil) \
S(perf_event) \
S(shutdown) \
S(get_stack_bounds) \
S(ptrace) \
S(sendfd) \
S(recvfd) \
S(sysconf) \
S(set_process_name) \
S(disown) \
S(adjtime) \
S(allocate_tls) \
S(prctl) \
S(mremap) \
S(set_coredump_metadata) \
S(anon_create) \
S(msyscall) \
S(readv) \
S(emuctl)
namespace Syscall {
enum Function {
#undef __ENUMERATE_SYSCALL
#define __ENUMERATE_SYSCALL(x) SC_##x,
ENUMERATE_SYSCALLS(__ENUMERATE_SYSCALL)
#undef __ENUMERATE_SYSCALL
__Count
};
constexpr const char* to_string(Function function)
{
switch (function) {
#undef __ENUMERATE_SYSCALL
#define __ENUMERATE_SYSCALL(x) \
case SC_##x: \
return #x;
ENUMERATE_SYSCALLS(__ENUMERATE_SYSCALL)
#undef __ENUMERATE_SYSCALL
default:
break;
}
return "Unknown";
}
#ifdef __serenity__
struct StringArgument {
const char* characters;
size_t length { 0 };
};
template<typename DataType, typename SizeType>
struct MutableBufferArgument {
DataType* data { nullptr };
SizeType size { 0 };
};
struct StringListArgument {
StringArgument* strings {};
size_t length { 0 };
};
struct SC_mmap_params {
uintptr_t addr;
size_t size;
size_t alignment;
int32_t prot;
int32_t flags;
int32_t fd;
int64_t offset;
StringArgument name;
};
struct SC_mremap_params {
uintptr_t old_address;
size_t old_size;
size_t new_size;
int32_t flags;
};
struct SC_open_params {
int dirfd;
StringArgument path;
int options;
u16 mode;
};
struct SC_select_params {
int nfds;
fd_set* readfds;
fd_set* writefds;
fd_set* exceptfds;
const struct timespec* timeout;
const u32* sigmask;
};
struct SC_poll_params {
struct pollfd* fds;
unsigned nfds;
const struct timespec* timeout;
const u32* sigmask;
};
struct SC_clock_nanosleep_params {
int clock_id;
int flags;
const struct timespec* requested_sleep;
struct timespec* remaining_sleep;
};
struct SC_getsockopt_params {
int sockfd;
int level;
int option;
void* value;
socklen_t* value_size;
};
struct SC_setsockopt_params {
int sockfd;
int level;
int option;
const void* value;
socklen_t value_size;
};
struct SC_getsockname_params {
int sockfd;
sockaddr* addr;
socklen_t* addrlen;
};
struct SC_getpeername_params {
int sockfd;
sockaddr* addr;
socklen_t* addrlen;
};
struct SC_socketpair_params {
int domain;
int type;
int protocol;
int* sv;
};
struct SC_futex_params {
u32* userspace_address;
int futex_op;
u32 val;
union {
const timespec* timeout;
uintptr_t val2;
};
u32* userspace_address2;
u32 val3;
};
struct SC_setkeymap_params {
const u32* map;
const u32* shift_map;
const u32* alt_map;
const u32* altgr_map;
const u32* shift_altgr_map;
StringArgument map_name;
};
struct SC_getkeymap_params {
u32* map;
u32* shift_map;
u32* alt_map;
u32* altgr_map;
u32* shift_altgr_map;
MutableBufferArgument<char, size_t> map_name;
};
struct SC_create_thread_params {
unsigned int m_detach_state = 0; // JOINABLE or DETACHED
int m_schedule_priority = 30; // THREAD_PRIORITY_NORMAL
// FIXME: Implement guard pages in create_thread (unreadable pages at "overflow" end of stack)
// "If an implementation rounds up the value of guardsize to a multiple of {PAGESIZE},
// a call to pthread_attr_getguardsize() specifying attr shall store in the guardsize
// parameter the guard size specified by the previous pthread_attr_setguardsize() function call"
// ... ok, if you say so posix. Guess we get to lie to people about guard page size
unsigned int m_guard_page_size = 0; // Rounded up to PAGE_SIZE
unsigned int m_reported_guard_page_size = 0; // The lie we tell callers
unsigned int m_stack_size = 4 * MiB; // Default PTHREAD_STACK_MIN
void* m_stack_location; // nullptr means any, o.w. process virtual address
};
struct SC_realpath_params {
StringArgument path;
MutableBufferArgument<char, size_t> buffer;
};
struct SC_set_mmap_name_params {
void* addr;
size_t size;
StringArgument name;
};
struct SC_execve_params {
StringArgument path;
StringListArgument arguments;
StringListArgument environment;
};
struct SC_readlink_params {
StringArgument path;
MutableBufferArgument<char, size_t> buffer;
};
struct SC_link_params {
StringArgument old_path;
StringArgument new_path;
};
struct SC_chown_params {
StringArgument path;
u32 uid;
u32 gid;
};
struct SC_mknod_params {
StringArgument path;
u16 mode;
u32 dev;
};
struct SC_symlink_params {
StringArgument target;
StringArgument linkpath;
};
struct SC_rename_params {
StringArgument old_path;
StringArgument new_path;
};
struct SC_mount_params {
int source_fd;
StringArgument target;
StringArgument fs_type;
int flags;
};
struct SC_pledge_params {
StringArgument promises;
StringArgument execpromises;
};
struct SC_unveil_params {
StringArgument path;
StringArgument permissions;
};
struct SC_waitid_params {
int idtype;
int id;
struct siginfo* infop;
int options;
};
struct SC_stat_params {
int dirfd;
StringArgument path;
struct stat* statbuf;
int follow_symlinks;
};
struct SC_ptrace_params {
int request;
pid_t tid;
u8* addr;
int data;
};
struct SC_ptrace_peek_params {
const u32* address;
u32* out_data;
};
struct SC_set_coredump_metadata_params {
StringArgument key;
StringArgument value;
};
struct SC_inode_watcher_add_watch_params {
int fd;
StringArgument user_path;
u32 event_mask;
};
void initialize();
int sync();
inline uintptr_t invoke(Function function)
{
uintptr_t result;
asm volatile("int $0x82"
: "=a"(result)
: "a"(function)
: "memory");
return result;
}
template<typename T1>
inline uintptr_t invoke(Function function, T1 arg1)
{
uintptr_t result;
asm volatile("int $0x82"
: "=a"(result)
: "a"(function), "d"((uintptr_t)arg1)
: "memory");
return result;
}
template<typename T1, typename T2>
inline uintptr_t invoke(Function function, T1 arg1, T2 arg2)
{
uintptr_t result;
asm volatile("int $0x82"
: "=a"(result)
: "a"(function), "d"((uintptr_t)arg1), "c"((uintptr_t)arg2)
: "memory");
return result;
}
template<typename T1, typename T2, typename T3>
inline uintptr_t invoke(Function function, T1 arg1, T2 arg2, T3 arg3)
{
uintptr_t result;
asm volatile("int $0x82"
: "=a"(result)
: "a"(function), "d"((uintptr_t)arg1), "c"((uintptr_t)arg2), "b"((uintptr_t)arg3)
: "memory");
return result;
}
#endif
}
#undef __ENUMERATE_SYSCALL
#define __ENUMERATE_SYSCALL(x) using Syscall::SC_##x;
ENUMERATE_SYSCALLS(__ENUMERATE_SYSCALL)
#undef __ENUMERATE_SYSCALL
}
using namespace Kernel;
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