From a990de90fe41456a23e58bd087d2f107d321f3a1 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Fri, 19 Jul 2024 16:37:58 +0400 Subject: Deleted vendor folder --- vendor/redox_syscall/src/flag.rs | 374 --------------------------------------- 1 file changed, 374 deletions(-) delete mode 100644 vendor/redox_syscall/src/flag.rs (limited to 'vendor/redox_syscall/src/flag.rs') diff --git a/vendor/redox_syscall/src/flag.rs b/vendor/redox_syscall/src/flag.rs deleted file mode 100644 index 45a6e42..0000000 --- a/vendor/redox_syscall/src/flag.rs +++ /dev/null @@ -1,374 +0,0 @@ -use bitflags::bitflags as inner_bitflags; -use core::{mem, ops::Deref, slice}; - -macro_rules! bitflags { - ( - $(#[$outer:meta])* - pub struct $BitFlags:ident: $T:ty { - $( - $(#[$inner:ident $($args:tt)*])* - const $Flag:ident = $value:expr; - )+ - } - ) => { - // First, use the inner bitflags - inner_bitflags! { - #[derive(Default)] - $(#[$outer])* - pub struct $BitFlags: $T { - $( - $(#[$inner $($args)*])* - const $Flag = $value; - )+ - } - } - - // Secondly, re-export all inner constants - // (`pub use self::Struct::*` doesn't work) - $( - $(#[$inner $($args)*])* - pub const $Flag: $BitFlags = $BitFlags::$Flag; - )+ - } -} - -pub const CLOCK_REALTIME: usize = 1; -pub const CLOCK_MONOTONIC: usize = 4; - -bitflags! { - pub struct EventFlags: usize { - const EVENT_NONE = 0; - const EVENT_READ = 1; - const EVENT_WRITE = 2; - } -} - -pub const F_DUPFD: usize = 0; -pub const F_GETFD: usize = 1; -pub const F_SETFD: usize = 2; -pub const F_GETFL: usize = 3; -pub const F_SETFL: usize = 4; - -pub const FUTEX_WAIT: usize = 0; -pub const FUTEX_WAKE: usize = 1; -pub const FUTEX_REQUEUE: usize = 2; -pub const FUTEX_WAIT64: usize = 3; - -// packet.c = fd -pub const SKMSG_FRETURNFD: usize = 0; - -// packet.uid:packet.gid = offset, packet.c = base address, packet.d = page count -pub const SKMSG_PROVIDE_MMAP: usize = 1; - -bitflags! { - pub struct MapFlags: usize { - // TODO: Downgrade PROT_NONE to global constant? (bitflags specifically states zero flags - // can cause buggy behavior). - const PROT_NONE = 0x0000_0000; - - const PROT_EXEC = 0x0001_0000; - const PROT_WRITE = 0x0002_0000; - const PROT_READ = 0x0004_0000; - - const MAP_SHARED = 0x0001; - const MAP_PRIVATE = 0x0002; - - const MAP_FIXED = 0x0004; - const MAP_FIXED_NOREPLACE = 0x000C; - - /// For *userspace-backed mmaps*, return from the mmap call before all pages have been - /// provided by the scheme. This requires the scheme to be trusted, as the current context - /// can block indefinitely, if the scheme does not respond to the page fault handler's - /// request, as it tries to map the page by requesting it from the scheme. - /// - /// In some cases however, such as the program loader, the data needs to be trusted as much - /// with or without MAP_LAZY, and if so, mapping lazily will not cause insecureness by - /// itself. - /// - /// For kernel-backed mmaps, this flag has no effect at all. It is unspecified whether - /// kernel mmaps are lazy or not. - const MAP_LAZY = 0x0010; - } -} -bitflags! { - pub struct MunmapFlags: usize { - /// Indicates whether the funmap call must implicitly do an msync, for the changes to - /// become visible later. - /// - /// This flag will currently be set if and only if MAP_SHARED | PROT_WRITE are set. - const NEEDS_SYNC = 1; - } -} - -pub const MODE_TYPE: u16 = 0xF000; -pub const MODE_DIR: u16 = 0x4000; -pub const MODE_FILE: u16 = 0x8000; -pub const MODE_SYMLINK: u16 = 0xA000; -pub const MODE_FIFO: u16 = 0x1000; -pub const MODE_CHR: u16 = 0x2000; - -pub const MODE_PERM: u16 = 0x0FFF; -pub const MODE_SETUID: u16 = 0o4000; -pub const MODE_SETGID: u16 = 0o2000; - -pub const O_RDONLY: usize = 0x0001_0000; -pub const O_WRONLY: usize = 0x0002_0000; -pub const O_RDWR: usize = 0x0003_0000; -pub const O_NONBLOCK: usize = 0x0004_0000; -pub const O_APPEND: usize = 0x0008_0000; -pub const O_SHLOCK: usize = 0x0010_0000; -pub const O_EXLOCK: usize = 0x0020_0000; -pub const O_ASYNC: usize = 0x0040_0000; -pub const O_FSYNC: usize = 0x0080_0000; -pub const O_CLOEXEC: usize = 0x0100_0000; -pub const O_CREAT: usize = 0x0200_0000; -pub const O_TRUNC: usize = 0x0400_0000; -pub const O_EXCL: usize = 0x0800_0000; -pub const O_DIRECTORY: usize = 0x1000_0000; -pub const O_STAT: usize = 0x2000_0000; -pub const O_SYMLINK: usize = 0x4000_0000; -pub const O_NOFOLLOW: usize = 0x8000_0000; -pub const O_ACCMODE: usize = O_RDONLY | O_WRONLY | O_RDWR; - -bitflags! { - pub struct PhysmapFlags: usize { - const PHYSMAP_WRITE = 0x0000_0001; - const PHYSMAP_WRITE_COMBINE = 0x0000_0002; - const PHYSMAP_NO_CACHE = 0x0000_0004; - } -} -bitflags! { - /// Extra flags for [`physalloc2`] or [`physalloc3`]. - /// - /// [`physalloc2`]: ../call/fn.physalloc2.html - /// [`physalloc3`]: ../call/fn.physalloc3.html - pub struct PhysallocFlags: usize { - /// Only allocate memory within the 32-bit physical memory space. This is necessary for - /// some devices may not support 64-bit memory. - const SPACE_32 = 0x0000_0001; - - /// The frame that will be allocated, is going to reside anywhere in 64-bit space. This - /// flag is redundant for the most part, except when overriding some other default. - const SPACE_64 = 0x0000_0002; - - /// Do a "partial allocation", which means that not all of the frames specified in the - /// frame count `size` actually have to be allocated. This means that if the allocator was - /// unable to find a physical memory range large enough, it can instead return whatever - /// range it decides is optimal. Thus, instead of letting one driver get an expensive - /// 128MiB physical memory range when the physical memory has become fragmented, and - /// failing, it can instead be given a more optimal range. If the device supports - /// scatter-gather lists, then the driver only has to allocate more ranges, and the device - /// will do vectored I/O. - /// - /// PARTIAL_ALLOC supports different allocation strategies, refer to - /// [`Optimal`], [`GreatestRange`]. - /// - /// [`Optimal`]: ./enum.PartialAllocStrategy.html - /// [`GreatestRange`]: ./enum.PartialAllocStrategy.html - const PARTIAL_ALLOC = 0x0000_0004; - } -} - -/// The bitmask of the partial allocation strategy. Currently four different strategies are -/// supported. If [`PARTIAL_ALLOC`] is not set, this bitmask is no longer reserved. -pub const PARTIAL_ALLOC_STRATEGY_MASK: usize = 0x0003_0000; - -#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)] -#[repr(usize)] -pub enum PartialAllocStrategy { - /// The allocator decides itself the size of the memory range, based on e.g. free memory ranges - /// and other processes which require large physical memory chunks. - Optimal = 0x0001_0000, - - /// The allocator returns the absolute greatest range it can find. - GreatestRange = 0x0002_0000, - - /// The allocator returns the first range that fits the minimum count, without searching extra. - Greedy = 0x0003_0000, -} -impl Default for PartialAllocStrategy { - fn default() -> Self { - Self::Optimal - } -} - -impl PartialAllocStrategy { - pub fn from_raw(raw: usize) -> Option { - match raw { - 0x0001_0000 => Some(Self::Optimal), - 0x0002_0000 => Some(Self::GreatestRange), - 0x0003_0000 => Some(Self::Greedy), - _ => None, - } - } -} - -// The top 48 bits of PTRACE_* are reserved, for now - -bitflags! { - pub struct PtraceFlags: u64 { - /// Stop before a syscall is handled. Send PTRACE_FLAG_IGNORE to not - /// handle the syscall. - const PTRACE_STOP_PRE_SYSCALL = 0x0000_0000_0000_0001; - /// Stop after a syscall is handled. - const PTRACE_STOP_POST_SYSCALL = 0x0000_0000_0000_0002; - /// Stop after exactly one instruction. TODO: This may not handle - /// fexec/signal boundaries. Should it? - const PTRACE_STOP_SINGLESTEP = 0x0000_0000_0000_0004; - /// Stop before a signal is handled. Send PTRACE_FLAG_IGNORE to not - /// handle signal. - const PTRACE_STOP_SIGNAL = 0x0000_0000_0000_0008; - /// Stop on a software breakpoint, such as the int3 instruction for - /// x86_64. - const PTRACE_STOP_BREAKPOINT = 0x0000_0000_0000_0010; - /// Stop just before exiting for good. - const PTRACE_STOP_EXIT = 0x0000_0000_0000_0020; - - const PTRACE_STOP_MASK = 0x0000_0000_0000_00FF; - - - /// Sent when a child is cloned, giving you the opportunity to trace it. - /// If you don't catch this, the child is started as normal. - const PTRACE_EVENT_CLONE = 0x0000_0000_0000_0100; - - /// Sent when current-addrspace is changed, allowing the tracer to reopen the memory file. - const PTRACE_EVENT_ADDRSPACE_SWITCH = 0x0000_0000_0000_0200; - - const PTRACE_EVENT_MASK = 0x0000_0000_0000_0F00; - - /// Special meaning, depending on the event. Usually, when fired before - /// an action, it will skip performing that action. - const PTRACE_FLAG_IGNORE = 0x0000_0000_0000_1000; - - const PTRACE_FLAG_MASK = 0x0000_0000_0000_F000; - } -} -impl Deref for PtraceFlags { - type Target = [u8]; - fn deref(&self) -> &Self::Target { - // Same as to_ne_bytes but in-place - unsafe { - slice::from_raw_parts( - &self.bits as *const _ as *const u8, - mem::size_of::() - ) - } - } -} - -pub const SEEK_SET: usize = 0; -pub const SEEK_CUR: usize = 1; -pub const SEEK_END: usize = 2; - -pub const SIGHUP: usize = 1; -pub const SIGINT: usize = 2; -pub const SIGQUIT: usize = 3; -pub const SIGILL: usize = 4; -pub const SIGTRAP: usize = 5; -pub const SIGABRT: usize = 6; -pub const SIGBUS: usize = 7; -pub const SIGFPE: usize = 8; -pub const SIGKILL: usize = 9; -pub const SIGUSR1: usize = 10; -pub const SIGSEGV: usize = 11; -pub const SIGUSR2: usize = 12; -pub const SIGPIPE: usize = 13; -pub const SIGALRM: usize = 14; -pub const SIGTERM: usize = 15; -pub const SIGSTKFLT: usize= 16; -pub const SIGCHLD: usize = 17; -pub const SIGCONT: usize = 18; -pub const SIGSTOP: usize = 19; -pub const SIGTSTP: usize = 20; -pub const SIGTTIN: usize = 21; -pub const SIGTTOU: usize = 22; -pub const SIGURG: usize = 23; -pub const SIGXCPU: usize = 24; -pub const SIGXFSZ: usize = 25; -pub const SIGVTALRM: usize= 26; -pub const SIGPROF: usize = 27; -pub const SIGWINCH: usize = 28; -pub const SIGIO: usize = 29; -pub const SIGPWR: usize = 30; -pub const SIGSYS: usize = 31; - -pub const SIG_DFL: usize = 0; -pub const SIG_IGN: usize = 1; - -pub const SIG_BLOCK: usize = 0; -pub const SIG_UNBLOCK: usize = 1; -pub const SIG_SETMASK: usize = 2; - -bitflags! { - pub struct SigActionFlags: usize { - const SA_NOCLDSTOP = 0x00000001; - const SA_NOCLDWAIT = 0x00000002; - const SA_SIGINFO = 0x00000004; - const SA_RESTORER = 0x04000000; - const SA_ONSTACK = 0x08000000; - const SA_RESTART = 0x10000000; - const SA_NODEFER = 0x40000000; - const SA_RESETHAND = 0x80000000; - } -} - -bitflags! { - pub struct WaitFlags: usize { - const WNOHANG = 0x01; - const WUNTRACED = 0x02; - const WCONTINUED = 0x08; - } -} - -pub const ADDRSPACE_OP_MMAP: usize = 0; -pub const ADDRSPACE_OP_MUNMAP: usize = 1; -pub const ADDRSPACE_OP_MPROTECT: usize = 2; -pub const ADDRSPACE_OP_TRANSFER: usize = 3; - -/// True if status indicates the child is stopped. -pub fn wifstopped(status: usize) -> bool { - (status & 0xff) == 0x7f -} - -/// If wifstopped(status), the signal that stopped the child. -pub fn wstopsig(status: usize) -> usize { - (status >> 8) & 0xff -} - -/// True if status indicates the child continued after a stop. -pub fn wifcontinued(status: usize) -> bool { - status == 0xffff -} - -/// True if STATUS indicates termination by a signal. -pub fn wifsignaled(status: usize) -> bool { - ((status & 0x7f) + 1) as i8 >= 2 -} - -/// If wifsignaled(status), the terminating signal. -pub fn wtermsig(status: usize) -> usize { - status & 0x7f -} - -/// True if status indicates normal termination. -pub fn wifexited(status: usize) -> bool { - wtermsig(status) == 0 -} - -/// If wifexited(status), the exit status. -pub fn wexitstatus(status: usize) -> usize { - (status >> 8) & 0xff -} - -/// True if status indicates a core dump was created. -pub fn wcoredump(status: usize) -> bool { - (status & 0x80) != 0 -} - -bitflags! { - pub struct MremapFlags: usize { - const FIXED = 1; - const FIXED_REPLACE = 3; - // TODO: MAYMOVE, DONTUNMAP - } -} -- cgit v1.2.3