valentineus/fparkan
0
Fork 0
Code Issues Releases Activity

Initial vendor packages

Browse Source 
Signed-off-by: Valentin Popov <valentin@popov.link>
This commit is contained in:
Valentin Popov
2024-01-08 01:21:28 +04:00
parent 5ecd8cf2cb
commit 1b6a04ca55
7309 changed files with 2160054 additions and 0 deletions
Download Patch File Download Diff File Expand all files Collapse all files

397
vendor/hermit-abi/src/errno.rs vendored Normal file
View File

@@ -0,0 +1,397 @@
/// Operation not permitted
pub const EPERM: i32 = 1;
/// No such file or directory
pub const ENOENT: i32 = 2;
/// No such process
pub const ESRCH: i32 = 3;
/// Interrupted system call
pub const EINTR: i32 = 4;
/// I/O error
pub const EIO: i32 = 5;
/// No such device or address
pub const ENXIO: i32 = 6;
/// Argument list too long
pub const E2BIG: i32 = 7;
/// Exec format error
pub const ENOEXEC: i32 = 8;
/// Bad file number
pub const EBADF: i32 = 9;
/// No child processes
pub const ECHILD: i32 = 10;
/// Try again
pub const EAGAIN: i32 = 11;
/// Out of memory
pub const ENOMEM: i32 = 12;
/// Permission denied
pub const EACCES: i32 = 13;
/// Bad address
pub const EFAULT: i32 = 14;
/// Block device required
pub const ENOTBLK: i32 = 15;
/// Device or resource busy
pub const EBUSY: i32 = 16;
/// File exists
pub const EEXIST: i32 = 17;
/// Cross-device link
pub const EXDEV: i32 = 18;
/// No such device
pub const ENODEV: i32 = 19;
/// Not a directory
pub const ENOTDIR: i32 = 20;
/// Is a directory
pub const EISDIR: i32 = 21;
/// Invalid argument
pub const EINVAL: i32 = 22;
/// File table overflow
pub const ENFILE: i32 = 23;
/// Too many open files
pub const EMFILE: i32 = 24;
/// Not a typewriter
pub const ENOTTY: i32 = 25;
/// Text file busy
pub const ETXTBSY: i32 = 26;
/// File too large
pub const EFBIG: i32 = 27;
/// No space left on device
pub const ENOSPC: i32 = 28;
/// Illegal seek
pub const ESPIPE: i32 = 29;
/// Read-only file system
pub const EROFS: i32 = 30;
/// Too many links
pub const EMLINK: i32 = 31;
/// Broken pipe
pub const EPIPE: i32 = 32;
/// Math argument out of domain of func
pub const EDOM: i32 = 33;
/// Math result not representable
pub const ERANGE: i32 = 34;
/// Resource deadlock would occur
pub const EDEADLK: i32 = 35;
/// File name too long
pub const ENAMETOOLONG: i32 = 36;
/// No record locks available
pub const ENOLCK: i32 = 37;
/// Function not implemented
pub const ENOSYS: i32 = 38;
/// Directory not empty
pub const ENOTEMPTY: i32 = 39;
/// Too many symbolic links encountered
pub const ELOOP: i32 = 40;
/// Operation would block
pub const EWOULDBLOCK: i32 = EAGAIN;
/// No message of desired type
pub const ENOMSG: i32 = 42;
/// Identifier removed
pub const EIDRM: i32 = 43;
/// Channel number out of range
pub const ECHRNG: i32 = 44;
/// Level 2 not synchronized
pub const EL2NSYNC: i32 = 45;
/// Level 3 halted
pub const EL3HLT: i32 = 46;
/// Level 3 reset
pub const EL3RST: i32 = 47;
/// Link number out of range
pub const ELNRNG: i32 = 48;
/// Protocol driver not attached
pub const EUNATCH: i32 = 49;
/// No CSI structure available
pub const ENOCSI: i32 = 50;
/// Level 2 halted
pub const EL2HLT: i32 = 51;
/// Invalid exchange
pub const EBADE: i32 = 52;
/// Invalid request descriptor
pub const EBADR: i32 = 53;
/// Exchange full
pub const EXFULL: i32 = 54;
/// No anode
pub const ENOANO: i32 = 55;
/// Invalid request code
pub const EBADRQC: i32 = 56;
/// Invalid slot
pub const EBADSLT: i32 = 57;
pub const EDEADLOCK: i32 = EDEADLK;
/// Bad font file format
pub const EBFONT: i32 = 59;
/// Device not a stream
pub const ENOSTR: i32 = 60;
/// No data available
pub const ENODATA: i32 = 61;
/// Timer expired
pub const ETIME: i32 = 62;
/// Out of streams resources
pub const ENOSR: i32 = 63;
/// Machine is not on the network
pub const ENONET: i32 = 64;
/// Package not installed
pub const ENOPKG: i32 = 65;
/// Object is remote
pub const EREMOTE: i32 = 66;
/// Link has been severed
pub const ENOLINK: i32 = 67;
/// Advertise error
pub const EADV: i32 = 68;
/// Srmount error
pub const ESRMNT: i32 = 69;
/// Communication error on send
pub const ECOMM: i32 = 70;
/// Protocol error
pub const EPROTO: i32 = 71;
/// Multihop attempted
pub const EMULTIHOP: i32 = 72;
/// RFS specific error
pub const EDOTDOT: i32 = 73;
/// Not a data message
pub const EBADMSG: i32 = 74;
/// Value too large for defined data type
pub const EOVERFLOW: i32 = 75;
/// Name not unique on network
pub const ENOTUNIQ: i32 = 76;
/// File descriptor in bad state
pub const EBADFD: i32 = 77;
/// Remote address changed
pub const EREMCHG: i32 = 78;
/// Can not access a needed shared library
pub const ELIBACC: i32 = 79;
/// Accessing a corrupted shared library
pub const ELIBBAD: i32 = 80;
/// .lib section in a.out corrupted
pub const ELIBSCN: i32 = 81;
/// Attempting to link in too many shared libraries
pub const ELIBMAX: i32 = 82;
/// Cannot exec a shared library directly
pub const ELIBEXEC: i32 = 83;
/// Illegal byte sequence
pub const EILSEQ: i32 = 84;
/// Interrupted system call should be restarted
pub const ERESTART: i32 = 85;
/// Streams pipe error
pub const ESTRPIPE: i32 = 86;
/// Too many users
pub const EUSERS: i32 = 87;
/// Socket operation on non-socket
pub const ENOTSOCK: i32 = 88;
/// Destination address required
pub const EDESTADDRREQ: i32 = 89;
/// Message too long
pub const EMSGSIZE: i32 = 90;
/// Protocol wrong type for socket
pub const EPROTOTYPE: i32 = 91;
/// Protocol not available
pub const ENOPROTOOPT: i32 = 92;
/// Protocol not supported
pub const EPROTONOSUPPORT: i32 = 93;
/// Socket type not supported
pub const ESOCKTNOSUPPORT: i32 = 94;
/// Operation not supported on transport endpoint
pub const EOPNOTSUPP: i32 = 95;
/// Protocol family not supported
pub const EPFNOSUPPORT: i32 = 96;
/// Address family not supported by protocol
pub const EAFNOSUPPORT: i32 = 97;
/// Address already in use
pub const EADDRINUSE: i32 = 98;
/// Cannot assign requested address
pub const EADDRNOTAVAIL: i32 = 99;
/// Network is down
pub const ENETDOWN: i32 = 100;
/// Network is unreachable
pub const ENETUNREACH: i32 = 101;
/// Network dropped connection because of reset
pub const ENETRESET: i32 = 102;
/// Software caused connection abort
pub const ECONNABORTED: i32 = 103;
/// Connection reset by peer
pub const ECONNRESET: i32 = 104;
/// No buffer space available
pub const ENOBUFS: i32 = 105;
/// Transport endpoint is already connected
pub const EISCONN: i32 = 106;
/// Transport endpoint is not connected
pub const ENOTCONN: i32 = 107;
/// Cannot send after transport endpoint shutdown
pub const ESHUTDOWN: i32 = 108;
/// Too many references: cannot splice
pub const ETOOMANYREFS: i32 = 109;
/// Connection timed out
pub const ETIMEDOUT: i32 = 110;
/// Connection refused
pub const ECONNREFUSED: i32 = 111;
/// Host is down
pub const EHOSTDOWN: i32 = 112;
/// No route to host
pub const EHOSTUNREACH: i32 = 113;
/// Operation already in progress
pub const EALREADY: i32 = 114;
/// Operation now in progress
pub const EINPROGRESS: i32 = 115;
/// Stale file handle
pub const ESTALE: i32 = 116;
/// Structure needs cleaning
pub const EUCLEAN: i32 = 117;
/// Not a XENIX named type file
pub const ENOTNAM: i32 = 118;
/// No XENIX semaphores available
pub const ENAVAIL: i32 = 119;
/// Is a named type file
pub const EISNAM: i32 = 120;
/// Remote I/O error
pub const EREMOTEIO: i32 = 121;
/// Quota exceeded
pub const EDQUOT: i32 = 122;
/// No medium found
pub const ENOMEDIUM: i32 = 123;
/// Wrong medium type
pub const EMEDIUMTYPE: i32 = 124;
/// Operation Canceled
pub const ECANCELED: i32 = 125;
/// Required key not available
pub const ENOKEY: i32 = 126;
/// Key has expired
pub const EKEYEXPIRED: i32 = 127;
/// Key has been revoked
pub const EKEYREVOKED: i32 = 128;
/// Key was rejected by service
pub const EKEYREJECTED: i32 = 129;
/// Robust mutexes: Owner died
pub const EOWNERDEAD: i32 = 130;
/// Robust mutexes: State not recoverable
pub const ENOTRECOVERABLE: i32 = 131;
/// Robust mutexes: Operation not possible due to RF-kill
pub const ERFKILL: i32 = 132;
/// Robust mutexes: Memory page has hardware error
pub const EHWPOISON: i32 = 133;

697
vendor/hermit-abi/src/lib.rs vendored Normal file
View File

@@ -0,0 +1,697 @@
//! `hermit-abi` is small interface to call functions from the
//! [Hermit unikernel](https://github.com/hermitcore/kernel).
#![no_std]
#![allow(nonstandard_style)]
#![allow(clippy::missing_safety_doc)]
#![allow(clippy::result_unit_err)]
pub mod errno;
pub mod tcplistener;
pub mod tcpstream;
use core::ffi::{c_int, c_void};
/// A thread handle type
pub type Tid = u32;
/// Maximum number of priorities
pub const NO_PRIORITIES: usize = 31;
/// Priority of a thread
#[derive(PartialEq, Eq, PartialOrd, Ord, Debug, Clone, Copy)]
pub struct Priority(u8);
impl Priority {
pub const fn into(self) -> u8 {
self.0
}
pub const fn from(x: u8) -> Self {
Priority(x)
}
}
pub const HIGH_PRIO: Priority = Priority::from(3);
pub const NORMAL_PRIO: Priority = Priority::from(2);
pub const LOW_PRIO: Priority = Priority::from(1);
/// A handle, identifying a socket
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Default, Hash)]
pub struct Handle(usize);
pub const NSEC_PER_SEC: u64 = 1_000_000_000;
pub const FUTEX_RELATIVE_TIMEOUT: u32 = 1;
pub const CLOCK_REALTIME: u64 = 1;
pub const CLOCK_MONOTONIC: u64 = 4;
pub const STDIN_FILENO: c_int = 0;
pub const STDOUT_FILENO: c_int = 1;
pub const STDERR_FILENO: c_int = 2;
pub const O_RDONLY: i32 = 0o0;
pub const O_WRONLY: i32 = 0o1;
pub const O_RDWR: i32 = 0o2;
pub const O_CREAT: i32 = 0o100;
pub const O_EXCL: i32 = 0o200;
pub const O_TRUNC: i32 = 0o1000;
pub const O_APPEND: i32 = 0o2000;
/// returns true if file descriptor `fd` is a tty
pub fn isatty(_fd: c_int) -> bool {
false
}
/// `timespec` is used by `clock_gettime` to retrieve the
/// current time
#[derive(Copy, Clone, Debug)]
#[repr(C)]
pub struct timespec {
/// seconds
pub tv_sec: i64,
/// nanoseconds
pub tv_nsec: i64,
}
/// Internet protocol version.
#[derive(Debug, Hash, PartialEq, Eq, PartialOrd, Ord, Clone, Copy)]
pub enum Version {
Unspecified,
Ipv4,
Ipv6,
}
/// A four-octet IPv4 address.
#[derive(Debug, Hash, PartialEq, Eq, PartialOrd, Ord, Clone, Copy, Default)]
pub struct Ipv4Address(pub [u8; 4]);
/// A sixteen-octet IPv6 address.
#[derive(Debug, Hash, PartialEq, Eq, PartialOrd, Ord, Clone, Copy, Default)]
pub struct Ipv6Address(pub [u8; 16]);
/// An internetworking address.
#[derive(Debug, Hash, PartialEq, Eq, PartialOrd, Ord, Clone, Copy)]
pub enum IpAddress {
/// An unspecified address.
/// May be used as a placeholder for storage where the address is not assigned yet.
Unspecified,
/// An IPv4 address.
Ipv4(Ipv4Address),
/// An IPv6 address.
Ipv6(Ipv6Address),
}
/// The largest number `rand` will return
pub const RAND_MAX: u64 = 2_147_483_647;
pub const AF_INET: i32 = 0;
pub const AF_INET6: i32 = 1;
pub const IPPROTO_IP: i32 = 0;
pub const IPPROTO_IPV6: i32 = 41;
pub const IPPROTO_UDP: i32 = 17;
pub const IPPROTO_TCP: i32 = 6;
pub const IPV6_ADD_MEMBERSHIP: i32 = 12;
pub const IPV6_DROP_MEMBERSHIP: i32 = 13;
pub const IPV6_MULTICAST_LOOP: i32 = 19;
pub const IPV6_V6ONLY: i32 = 27;
pub const IP_TTL: i32 = 2;
pub const IP_MULTICAST_TTL: i32 = 5;
pub const IP_MULTICAST_LOOP: i32 = 7;
pub const IP_ADD_MEMBERSHIP: i32 = 3;
pub const IP_DROP_MEMBERSHIP: i32 = 4;
pub const SHUT_RD: i32 = 0;
pub const SHUT_WR: i32 = 1;
pub const SHUT_RDWR: i32 = 2;
pub const SOCK_DGRAM: i32 = 2;
pub const SOCK_STREAM: i32 = 1;
pub const SOL_SOCKET: i32 = 4095;
pub const SO_BROADCAST: i32 = 32;
pub const SO_ERROR: i32 = 4103;
pub const SO_RCVTIMEO: i32 = 4102;
pub const SO_REUSEADDR: i32 = 4;
pub const SO_SNDTIMEO: i32 = 4101;
pub const SO_LINGER: i32 = 128;
pub const TCP_NODELAY: i32 = 1;
pub const MSG_PEEK: i32 = 1;
pub const FIONBIO: i32 = 0x8008667eu32 as i32;
pub const EAI_NONAME: i32 = -2200;
pub const EAI_SERVICE: i32 = -2201;
pub const EAI_FAIL: i32 = -2202;
pub const EAI_MEMORY: i32 = -2203;
pub const EAI_FAMILY: i32 = -2204;
pub const POLLIN: i16 = 0x1;
pub const POLLPRI: i16 = 0x2;
pub const POLLOUT: i16 = 0x4;
pub const POLLERR: i16 = 0x8;
pub const POLLHUP: i16 = 0x10;
pub const POLLNVAL: i16 = 0x20;
pub const POLLRDNORM: i16 = 0x040;
pub const POLLRDBAND: i16 = 0x080;
pub const POLLRDHUP: i16 = 0x2000;
pub type sa_family_t = u8;
pub type socklen_t = u32;
pub type in_addr_t = u32;
pub type in_port_t = u16;
pub type time_t = i64;
pub type suseconds_t = i64;
pub type nfds_t = usize;
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct in_addr {
pub s_addr: u32,
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct in6_addr {
pub s6_addr: [u8; 16],
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct sockaddr {
pub sa_len: u8,
pub sa_family: sa_family_t,
pub sa_data: [u8; 14],
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct sockaddr_in {
pub sin_len: u8,
pub sin_family: sa_family_t,
pub sin_port: u16,
pub sin_addr: in_addr,
pub sin_zero: [u8; 8],
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct sockaddr_in6 {
pub sin6_family: sa_family_t,
pub sin6_port: u16,
pub sin6_addr: in6_addr,
pub sin6_flowinfo: u32,
pub sin6_scope_id: u32,
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct addrinfo {
pub ai_flags: i32,
pub ai_family: i32,
pub ai_socktype: i32,
pub ai_protocol: i32,
pub ai_addrlen: socklen_t,
pub ai_addr: *mut sockaddr,
pub ai_canonname: *mut u8,
pub ai_next: *mut addrinfo,
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct sockaddr_storage {
pub s2_len: u8,
pub ss_family: sa_family_t,
pub s2_data1: [i8; 2usize],
pub s2_data2: [u32; 3usize],
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct ip_mreq {
pub imr_multiaddr: in_addr,
pub imr_interface: in_addr,
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct ipv6_mreq {
pub ipv6mr_multiaddr: in6_addr,
pub ipv6mr_interface: u32,
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct linger {
pub l_onoff: i32,
pub l_linger: i32,
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct timeval {
pub tv_sec: time_t,
pub tv_usec: suseconds_t,
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct pollfd {
pub fd: i32, /* file descriptor */
pub events: i16, /* events to look for */
pub revents: i16, /* events returned */
}
#[repr(C)]
pub struct dirent {
pub d_ino: u64,
pub d_off: u64,
pub d_namelen: u32,
pub d_type: u32,
pub d_name: [u8; 0],
}
#[repr(C)]
#[derive(Copy, Clone, Debug)]
pub enum DirectoryEntry {
Invalid(i32),
Valid(*const dirent),
}
#[repr(C)]
#[derive(Debug, Copy, Clone)]
pub struct stat {
pub st_dev: u64,
pub st_ino: u64,
pub st_nlink: u64,
pub st_mode: u32,
pub st_uid: u32,
pub st_gid: u32,
pub st_rdev: u64,
pub st_size: i64,
pub st_blksize: i64,
pub st_blocks: i64,
pub st_atime: i64,
pub st_atime_nsec: i64,
pub st_mtime: i64,
pub st_mtime_nsec: i64,
pub st_ctime: i64,
pub st_ctime_nsec: i64,
}
pub const DT_UNKNOWN: u32 = 0;
pub const DT_FIFO: u32 = 1;
pub const DT_CHR: u32 = 2;
pub const DT_DIR: u32 = 4;
pub const DT_BLK: u32 = 6;
pub const DT_REG: u32 = 8;
pub const DT_LNK: u32 = 10;
pub const DT_SOCK: u32 = 12;
pub const DT_WHT: u32 = 14;
pub const S_IFDIR: u32 = 16384;
pub const S_IFREG: u32 = 32768;
pub const S_IFLNK: u32 = 40960;
pub const S_IFMT: u32 = 61440;
// sysmbols, which are part of the library operating system
extern "C" {
/// If the value at address matches the expected value, park the current thread until it is either
/// woken up with [`futex_wake`] (returns 0) or an optional timeout elapses (returns -ETIMEDOUT).
///
/// Setting `timeout` to null means the function will only return if [`futex_wake`] is called.
/// Otherwise, `timeout` is interpreted as an absolute time measured with [`CLOCK_MONOTONIC`].
/// If [`FUTEX_RELATIVE_TIMEOUT`] is set in `flags` the timeout is understood to be relative
/// to the current time.
///
/// Returns -EINVAL if `address` is null, the timeout is negative or `flags` contains unknown values.
#[link_name = "sys_futex_wait"]
pub fn futex_wait(
address: *mut u32,
expected: u32,
timeout: *const timespec,
flags: u32,
) -> i32;
/// Wake `count` threads waiting on the futex at `address`. Returns the number of threads
/// woken up (saturates to `i32::MAX`). If `count` is `i32::MAX`, wake up all matching
/// waiting threads. If `count` is negative or `address` is null, returns -EINVAL.
#[link_name = "sys_futex_wake"]
pub fn futex_wake(address: *mut u32, count: i32) -> i32;
/// sem_init() initializes the unnamed semaphore at the address
/// pointed to by `sem`. The `value` argument specifies the
/// initial value for the semaphore.
#[link_name = "sys_sem_init"]
pub fn sem_init(sem: *mut *const c_void, value: u32) -> i32;
/// sem_destroy() frees the unnamed semaphore at the address
/// pointed to by `sem`.
#[link_name = "sys_sem_destroy"]
pub fn sem_destroy(sem: *const c_void) -> i32;
/// sem_post() increments the semaphore pointed to by `sem`.
/// If the semaphore's value consequently becomes greater
/// than zero, then another thread blocked in a sem_wait call
/// will be woken up and proceed to lock the semaphore.
#[link_name = "sys_sem_post"]
pub fn sem_post(sem: *const c_void) -> i32;
/// try to decrement a semaphore
///
/// sem_trywait() is the same as sem_timedwait(), except that
/// if the decrement cannot be immediately performed, then call
/// returns a negative value instead of blocking.
#[link_name = "sys_sem_trywait"]
pub fn sem_trywait(sem: *const c_void) -> i32;
/// decrement a semaphore
///
/// sem_timedwait() decrements the semaphore pointed to by `sem`.
/// If the semaphore's value is greater than zero, then the
/// the function returns immediately. If the semaphore currently
/// has the value zero, then the call blocks until either
/// it becomes possible to perform the decrement of the time limit
/// to wait for the semaphore is expired. A time limit `ms` of
/// means infinity waiting time.
#[link_name = "sys_timedwait"]
pub fn sem_timedwait(sem: *const c_void, ms: u32) -> i32;
/// Determines the id of the current thread
#[link_name = "sys_getpid"]
pub fn getpid() -> u32;
/// cause normal termination and return `arg`
/// to the host system
#[link_name = "sys_exit"]
pub fn exit(arg: i32) -> !;
/// cause abnormal termination
#[link_name = "sys_abort"]
pub fn abort() -> !;
/// suspend execution for microsecond intervals
///
/// The usleep() function suspends execution of the calling
/// thread for (at least) `usecs` microseconds.
#[link_name = "sys_usleep"]
pub fn usleep(usecs: u64);
/// spawn a new thread
///
/// spawn() starts a new thread. The new thread starts execution
/// by invoking `func(usize)`; `arg` is passed as the argument
/// to `func`. `prio` defines the priority of the new thread,
/// which can be between `LOW_PRIO` and `HIGH_PRIO`.
/// `core_id` defines the core, where the thread is located.
/// A negative value give the operating system the possibility
/// to select the core by its own.
#[link_name = "sys_spawn"]
pub fn spawn(
id: *mut Tid,
func: extern "C" fn(usize),
arg: usize,
prio: u8,
core_id: isize,
) -> i32;
/// spawn a new thread with user-specified stack size
///
/// spawn2() starts a new thread. The new thread starts execution
/// by invoking `func(usize)`; `arg` is passed as the argument
/// to `func`. `prio` defines the priority of the new thread,
/// which can be between `LOW_PRIO` and `HIGH_PRIO`.
/// `core_id` defines the core, where the thread is located.
/// A negative value give the operating system the possibility
/// to select the core by its own.
/// In contrast to spawn(), spawn2() is able to define the
/// stack size.
#[link_name = "sys_spawn2"]
pub fn spawn2(
func: extern "C" fn(usize),
arg: usize,
prio: u8,
stack_size: usize,
core_id: isize,
) -> Tid;
/// join with a terminated thread
///
/// The join() function waits for the thread specified by `id`
/// to terminate.
#[link_name = "sys_join"]
pub fn join(id: Tid) -> i32;
/// yield the processor
///
/// causes the calling thread to relinquish the CPU. The thread
/// is moved to the end of the queue for its static priority.
#[link_name = "sys_yield"]
pub fn yield_now();
/// get current time
///
/// The clock_gettime() functions allow the calling thread
/// to retrieve the value used by a clock which is specified
/// by `clock_id`.
///
/// `CLOCK_REALTIME`: the system's real time clock,
/// expressed as the amount of time since the Epoch.
///
/// `CLOCK_MONOTONIC`: clock that increments monotonically,
/// tracking the time since an arbitrary point
#[link_name = "sys_clock_gettime"]
pub fn clock_gettime(clock_id: u64, tp: *mut timespec) -> i32;
/// open and possibly create a file
///
/// The open() system call opens the file specified by `name`.
/// If the specified file does not exist, it may optionally
/// be created by open().
#[link_name = "sys_open"]
pub fn open(name: *const i8, flags: i32, mode: i32) -> i32;
/// open a directory
///
/// The opendir() system call opens the directory specified by `name`.
#[link_name = "sys_opendir"]
pub fn opendir(name: *const i8) -> i32;
/// delete the file it refers to `name`
#[link_name = "sys_unlink"]
pub fn unlink(name: *const i8) -> i32;
/// remove directory it refers to `name`
#[link_name = "sys_rmdir"]
pub fn rmdir(name: *const i8) -> i32;
/// stat
#[link_name = "sys_stat"]
pub fn stat(name: *const i8, stat: *mut stat) -> i32;
/// lstat
#[link_name = "sys_lstat"]
pub fn lstat(name: *const i8, stat: *mut stat) -> i32;
/// fstat
#[link_name = "sys_fstat"]
pub fn fstat(fd: i32, stat: *mut stat) -> i32;
/// determines the number of activated processors
#[link_name = "sys_get_processor_count"]
pub fn get_processor_count() -> usize;
#[link_name = "sys_malloc"]
pub fn malloc(size: usize, align: usize) -> *mut u8;
#[doc(hidden)]
#[link_name = "sys_realloc"]
pub fn realloc(ptr: *mut u8, size: usize, align: usize, new_size: usize) -> *mut u8;
#[doc(hidden)]
#[link_name = "sys_free"]
pub fn free(ptr: *mut u8, size: usize, align: usize);
#[link_name = "sys_notify"]
pub fn notify(id: usize, count: i32) -> i32;
#[doc(hidden)]
#[link_name = "sys_add_queue"]
pub fn add_queue(id: usize, timeout_ns: i64) -> i32;
#[doc(hidden)]
#[link_name = "sys_wait"]
pub fn wait(id: usize) -> i32;
#[doc(hidden)]
#[link_name = "sys_init_queue"]
pub fn init_queue(id: usize) -> i32;
#[doc(hidden)]
#[link_name = "sys_destroy_queue"]
pub fn destroy_queue(id: usize) -> i32;
/// initialize the network stack
#[link_name = "sys_network_init"]
pub fn network_init() -> i32;
/// Add current task to the queue of blocked tasks. After calling `block_current_task`,
/// call `yield_now` to switch to another task.
#[link_name = "sys_block_current_task"]
pub fn block_current_task();
/// Add current task to the queue of blocked tasks, but wake it when `timeout` milliseconds
/// have elapsed.
///
/// After calling `block_current_task`, call `yield_now` to switch to another task.
#[link_name = "sys_block_current_task_with_timeout"]
pub fn block_current_task_with_timeout(timeout: u64);
/// Wakeup task with the thread id `tid`
#[link_name = "sys_wakeup_taskt"]
pub fn wakeup_task(tid: Tid);
#[link_name = "sys_accept"]
pub fn accept(s: i32, addr: *mut sockaddr, addrlen: *mut socklen_t) -> i32;
/// bind a name to a socket
#[link_name = "sys_bind"]
pub fn bind(s: i32, name: *const sockaddr, namelen: socklen_t) -> i32;
#[link_name = "sys_connect"]
pub fn connect(s: i32, name: *const sockaddr, namelen: socklen_t) -> i32;
/// read from a file descriptor
///
/// read() attempts to read `len` bytes of data from the object
/// referenced by the descriptor `fd` into the buffer pointed
/// to by `buf`.
#[link_name = "sys_read"]
pub fn read(fd: i32, buf: *mut u8, len: usize) -> isize;
/// 'readdir' returns a pointer to a dirent structure
/// representing the next directory entry in the directory stream
/// pointed to by the file descriptor
#[link_name = "sys_readdir"]
pub fn readdir(fd: i32) -> DirectoryEntry;
/// 'mkdir' attempts to create a directory,
/// it returns 0 on success and -1 on error
#[link_name = "sys_mkdir"]
pub fn mkdir(name: *const i8, mode: u32) -> i32;
/// Fill `len` bytes in `buf` with cryptographically secure random data.
///
/// Returns either the number of bytes written to buf (a positive value) or
/// * `-EINVAL` if `flags` contains unknown flags.
/// * `-ENOSYS` if the system does not support random data generation.
#[link_name = "sys_read_entropy"]
pub fn read_entropy(buf: *mut u8, len: usize, flags: u32) -> isize;
/// receive() a message from a socket
#[link_name = "sys_recv"]
pub fn recv(socket: i32, buf: *mut u8, len: usize, flags: i32) -> isize;
/// receive() a message from a socket
#[link_name = "sys_recvfrom"]
pub fn recvfrom(
socket: i32,
buf: *mut u8,
len: usize,
flags: i32,
addr: *mut sockaddr,
addrlen: *mut socklen_t,
) -> isize;
/// write to a file descriptor
///
/// write() attempts to write `len` of data to the object
/// referenced by the descriptor `fd` from the
/// buffer pointed to by `buf`.
#[link_name = "sys_write"]
pub fn write(fd: i32, buf: *const u8, len: usize) -> isize;
/// close a file descriptor
///
/// The close() call deletes a file descriptor `fd` from the object
/// reference table.
#[link_name = "sys_close"]
pub fn close(fd: i32) -> i32;
/// duplicate an existing file descriptor
#[link_name = "sys_dup"]
pub fn dup(fd: i32) -> i32;
#[link_name = "sys_getpeername"]
pub fn getpeername(s: i32, name: *mut sockaddr, namelen: *mut socklen_t) -> i32;
#[link_name = "sys_getsockname"]
pub fn getsockname(s: i32, name: *mut sockaddr, namelen: *mut socklen_t) -> i32;
#[link_name = "sys_getsockopt"]
pub fn getsockopt(
s: i32,
level: i32,
optname: i32,
optval: *mut c_void,
optlen: *mut socklen_t,
) -> i32;
#[link_name = "sys_setsockopt"]
pub fn setsockopt(
s: i32,
level: i32,
optname: i32,
optval: *const c_void,
optlen: socklen_t,
) -> i32;
#[link_name = "sys_ioctl"]
pub fn ioctl(s: i32, cmd: i32, argp: *mut c_void) -> i32;
#[link_name = "sys_pool"]
pub fn poll(fds: *mut pollfd, nfds: nfds_t, timeout: i32) -> i32;
/// listen for connections on a socket
///
/// The `backlog` parameter defines the maximum length for the queue of pending
/// connections. Currently, the `backlog` must be one.
#[link_name = "sys_listen"]
pub fn listen(s: i32, backlog: i32) -> i32;
#[link_name = "sys_send"]
pub fn send(s: i32, mem: *const c_void, len: usize, flags: i32) -> isize;
#[link_name = "sys_sendto"]
pub fn sendto(
s: i32,
mem: *const c_void,
len: usize,
flags: i32,
to: *const sockaddr,
tolen: socklen_t,
) -> isize;
/// shut down part of a full-duplex connection
#[link_name = "sys_shutdown_socket"]
pub fn shutdown_socket(s: i32, how: i32) -> i32;
#[link_name = "sys_socket"]
pub fn socket(domain: i32, type_: i32, protocol: i32) -> i32;
#[link_name = "sys_freeaddrinfo"]
pub fn freeaddrinfo(ai: *mut addrinfo);
#[link_name = "sys_getaddrinfo"]
pub fn getaddrinfo(
nodename: *const i8,
servname: *const u8,
hints: *const addrinfo,
res: *mut *mut addrinfo,
) -> i32;
fn sys_get_priority() -> u8;
fn sys_set_priority(tid: Tid, prio: u8);
}
/// Determine the priority of the current thread
#[inline(always)]
pub unsafe fn get_priority() -> Priority {
Priority::from(sys_get_priority())
}
/// Determine the priority of the current thread
#[inline(always)]
pub unsafe fn set_priority(tid: Tid, prio: Priority) {
sys_set_priority(tid, prio.into());
}

13
vendor/hermit-abi/src/tcplistener.rs vendored Normal file
View File

@@ -0,0 +1,13 @@
//! `tcplistener` provide an interface to establish tcp socket server.
use crate::{Handle, IpAddress};
extern "Rust" {
fn sys_tcp_listener_accept(port: u16) -> Result<(Handle, IpAddress, u16), ()>;
}
/// Wait for connection at specified address.
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn accept(port: u16) -> Result<(Handle, IpAddress, u16), ()> {
unsafe { sys_tcp_listener_accept(port) }
}

110
vendor/hermit-abi/src/tcpstream.rs vendored Normal file
View File

@@ -0,0 +1,110 @@
//! `tcpstream` provide an interface to establish tcp socket client.
use crate::{Handle, IpAddress};
extern "Rust" {
fn sys_tcp_stream_connect(ip: &[u8], port: u16, timeout: Option<u64>) -> Result<Handle, ()>;
fn sys_tcp_stream_close(handle: Handle) -> Result<(), ()>;
fn sys_tcp_stream_read(handle: Handle, buffer: &mut [u8]) -> Result<usize, ()>;
fn sys_tcp_stream_write(handle: Handle, buffer: &[u8]) -> Result<usize, ()>;
fn sys_tcp_stream_set_read_timeout(handle: Handle, timeout: Option<u64>) -> Result<(), ()>;
fn sys_tcp_stream_get_read_timeout(handle: Handle) -> Result<Option<u64>, ()>;
fn sys_tcp_stream_set_write_timeout(handle: Handle, timeout: Option<u64>) -> Result<(), ()>;
fn sys_tcp_stream_get_write_timeout(handle: Handle) -> Result<Option<u64>, ()>;
fn sys_tcp_stream_peek(handle: Handle, buf: &mut [u8]) -> Result<usize, ()>;
fn sys_tcp_stream_set_nonblocking(handle: Handle, mode: bool) -> Result<(), ()>;
fn sys_tcp_stream_set_tll(handle: Handle, ttl: u32) -> Result<(), ()>;
fn sys_tcp_stream_get_tll(handle: Handle) -> Result<u32, ()>;
fn sys_tcp_stream_shutdown(handle: Handle, how: i32) -> Result<(), ()>;
fn sys_tcp_stream_peer_addr(handle: Handle) -> Result<(IpAddress, u16), ()>;
}
/// Opens a TCP connection to a remote host.
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn connect(ip: &[u8], port: u16, timeout: Option<u64>) -> Result<Handle, ()> {
unsafe { sys_tcp_stream_connect(ip, port, timeout) }
}
/// Close a TCP connection
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn close(handle: Handle) -> Result<(), ()> {
unsafe { sys_tcp_stream_close(handle) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn peek(handle: Handle, buf: &mut [u8]) -> Result<usize, ()> {
unsafe { sys_tcp_stream_peek(handle, buf) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn peer_addr(handle: Handle) -> Result<(IpAddress, u16), ()> {
unsafe { sys_tcp_stream_peer_addr(handle) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn read(handle: Handle, buffer: &mut [u8]) -> Result<usize, ()> {
unsafe { sys_tcp_stream_read(handle, buffer) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn write(handle: Handle, buffer: &[u8]) -> Result<usize, ()> {
unsafe { sys_tcp_stream_write(handle, buffer) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn set_read_timeout(handle: Handle, timeout: Option<u64>) -> Result<(), ()> {
unsafe { sys_tcp_stream_set_read_timeout(handle, timeout) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn set_write_timeout(handle: Handle, timeout: Option<u64>) -> Result<(), ()> {
unsafe { sys_tcp_stream_set_write_timeout(handle, timeout) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn get_read_timeout(handle: Handle) -> Result<Option<u64>, ()> {
unsafe { sys_tcp_stream_get_read_timeout(handle) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn get_write_timeout(handle: Handle) -> Result<Option<u64>, ()> {
unsafe { sys_tcp_stream_get_write_timeout(handle) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn set_nodelay(_: Handle, mode: bool) -> Result<(), ()> {
// smoltcp does not support Nagle's algorithm
// => to enable Nagle's algorithm isn't possible
if mode {
Ok(())
} else {
Err(())
}
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn nodelay(_: Handle) -> Result<bool, ()> {
// smoltcp does not support Nagle's algorithm
// => return always true
Ok(true)
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn set_nonblocking(handle: Handle, mode: bool) -> Result<(), ()> {
unsafe { sys_tcp_stream_set_nonblocking(handle, mode) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn set_tll(handle: Handle, ttl: u32) -> Result<(), ()> {
unsafe { sys_tcp_stream_set_tll(handle, ttl) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn get_tll(handle: Handle) -> Result<u32, ()> {
unsafe { sys_tcp_stream_get_tll(handle) }
}
#[deprecated(since = "0.3.0", note = "please use new BSD socket interface")]
pub fn shutdown(handle: Handle, how: i32) -> Result<(), ()> {
unsafe { sys_tcp_stream_shutdown(handle, how) }
}