2014-01-25 01:37:51 -06:00
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// Copyright 2013-2014 The Rust Project Developers. See the COPYRIGHT
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2013-02-03 20:15:43 -06:00
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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2013-12-12 20:01:59 -06:00
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use std::libc::c_void;
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use std::uint;
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use std::cast::{transmute, transmute_mut_unsafe,
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transmute_region, transmute_mut_region};
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use stack::Stack;
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use std::unstable::stack;
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2013-07-12 16:43:57 -05:00
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// FIXME #7761: Registers is boxed so that it is 16-byte aligned, for storing
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// SSE regs. It would be marginally better not to do this. In C++ we
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// use an attribute on a struct.
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// FIXME #7761: It would be nice to define regs as `~Option<Registers>` since
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// the registers are sometimes empty, but the discriminant would
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// then misalign the regs again.
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pub struct Context {
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/// The context entry point, saved here for later destruction
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priv start: Option<~proc()>,
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/// Hold the registers while the task or scheduler is suspended
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priv regs: ~Registers,
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/// Lower bound and upper bound for the stack
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priv stack_bounds: Option<(uint, uint)>,
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}
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impl Context {
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pub fn empty() -> Context {
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Context {
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start: None,
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regs: new_regs(),
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stack_bounds: None,
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}
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}
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/// Create a new context that will resume execution by running proc()
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pub fn new(start: proc(), stack: &mut Stack) -> Context {
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// The C-ABI function that is the task entry point
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//
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// Note that this function is a little sketchy. We're taking a
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// procedure, transmuting it to a stack-closure, and then calling to
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// closure. This leverages the fact that the representation of these two
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// types is the same.
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//
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// The reason that we're doing this is that this procedure is expected
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// to never return. The codegen which frees the environment of the
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// procedure occurs *after* the procedure has completed, and this means
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// that we'll never actually free the procedure.
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//
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// To solve this, we use this transmute (to not trigger the procedure
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// deallocation here), and then store a copy of the procedure in the
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// `Context` structure returned. When the `Context` is deallocated, then
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// the entire procedure box will be deallocated as well.
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extern fn task_start_wrapper(f: &proc()) {
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unsafe {
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let f: &|| = transmute(f);
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(*f)()
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}
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}
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let sp: *uint = stack.end();
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let sp: *mut uint = unsafe { transmute_mut_unsafe(sp) };
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// Save and then immediately load the current context,
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// which we will then modify to call the given function when restored
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let mut regs = new_regs();
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unsafe {
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rust_swap_registers(transmute_mut_region(&mut *regs),
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transmute_region(&*regs));
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};
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// FIXME #7767: Putting main into a ~ so it's a thin pointer and can
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// be passed to the spawn function. Another unfortunate
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// allocation
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let start = ~start;
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initialize_call_frame(&mut *regs,
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task_start_wrapper as *c_void,
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unsafe { transmute(&*start) },
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sp);
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2013-10-17 03:40:33 -05:00
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// Scheduler tasks don't have a stack in the "we allocated it" sense,
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// but rather they run on pthreads stacks. We have complete control over
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// them in terms of the code running on them (and hopefully they don't
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// overflow). Additionally, their coroutine stacks are listed as being
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// zero-length, so that's how we detect what's what here.
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let stack_base: *uint = stack.start();
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let bounds = if sp as uint == stack_base as uint {
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None
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} else {
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Some((stack_base as uint, sp as uint))
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};
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return Context {
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start: Some(start),
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regs: regs,
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stack_bounds: bounds,
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}
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}
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2013-03-12 02:48:41 -05:00
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/* Switch contexts
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Suspend the current execution context and resume another by
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saving the registers values of the executing thread to a Context
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then loading the registers from a previously saved Context.
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*/
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pub fn swap(out_context: &mut Context, in_context: &Context) {
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rtdebug!("swapping contexts");
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let out_regs: &mut Registers = match out_context {
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&Context { regs: ~ref mut r, .. } => r
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};
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let in_regs: &Registers = match in_context {
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&Context { regs: ~ref r, .. } => r
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};
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rtdebug!("noting the stack limit and doing raw swap");
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unsafe {
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// Right before we switch to the new context, set the new context's
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// stack limit in the OS-specified TLS slot. This also means that
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// we cannot call any more rust functions after record_stack_bounds
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// returns because they would all likely fail due to the limit being
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// invalid for the current task. Lucky for us `rust_swap_registers`
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// is a C function so we don't have to worry about that!
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match in_context.stack_bounds {
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Some((lo, hi)) => stack::record_stack_bounds(lo, hi),
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// If we're going back to one of the original contexts or
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// something that's possibly not a "normal task", then reset
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// the stack limit to 0 to make morestack never fail
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None => stack::record_stack_bounds(0, uint::MAX),
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}
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rust_swap_registers(out_regs, in_regs)
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}
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}
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}
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#[link(name = "rustrt", kind = "static")]
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extern {
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fn rust_swap_registers(out_regs: *mut Registers, in_regs: *Registers);
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}
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2013-10-17 03:40:33 -05:00
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// Register contexts used in various architectures
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//
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// These structures all represent a context of one task throughout its
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// execution. Each struct is a representation of the architecture's register
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// set. When swapping between tasks, these register sets are used to save off
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// the current registers into one struct, and load them all from another.
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//
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// Note that this is only used for context switching, which means that some of
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// the registers may go unused. For example, for architectures with
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// callee/caller saved registers, the context will only reflect the callee-saved
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// registers. This is because the caller saved registers are already stored
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// elsewhere on the stack (if it was necessary anyway).
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//
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// Additionally, there may be fields on various architectures which are unused
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// entirely because they only reflect what is theoretically possible for a
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// "complete register set" to show, but user-space cannot alter these registers.
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// An example of this would be the segment selectors for x86.
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//
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// These structures/functions are roughly in-sync with the source files inside
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// of src/rt/arch/$arch. The only currently used function from those folders is
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// the `rust_swap_registers` function, but that's only because for now segmented
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// stacks are disabled.
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#[cfg(target_arch = "x86")]
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struct Registers {
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eax: u32, ebx: u32, ecx: u32, edx: u32,
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ebp: u32, esi: u32, edi: u32, esp: u32,
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cs: u16, ds: u16, ss: u16, es: u16, fs: u16, gs: u16,
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eflags: u32, eip: u32
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}
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#[cfg(target_arch = "x86")]
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fn new_regs() -> ~Registers {
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~Registers {
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eax: 0, ebx: 0, ecx: 0, edx: 0,
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ebp: 0, esi: 0, edi: 0, esp: 0,
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cs: 0, ds: 0, ss: 0, es: 0, fs: 0, gs: 0,
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eflags: 0, eip: 0
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}
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}
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#[cfg(target_arch = "x86")]
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fn initialize_call_frame(regs: &mut Registers, fptr: *c_void, arg: *c_void,
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sp: *mut uint) {
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let sp = align_down(sp);
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let sp = mut_offset(sp, -4);
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unsafe { *sp = arg as uint };
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let sp = mut_offset(sp, -1);
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unsafe { *sp = 0 }; // The final return address
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regs.esp = sp as u32;
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regs.eip = fptr as u32;
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// Last base pointer on the stack is 0
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regs.ebp = 0;
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}
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2013-10-17 03:40:33 -05:00
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// windows requires saving more registers (both general and XMM), so the windows
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// register context must be larger.
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#[cfg(windows, target_arch = "x86_64")]
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type Registers = [uint, ..34];
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#[cfg(not(windows), target_arch = "x86_64")]
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type Registers = [uint, ..22];
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#[cfg(windows, target_arch = "x86_64")]
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fn new_regs() -> ~Registers { ~([0, .. 34]) }
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#[cfg(not(windows), target_arch = "x86_64")]
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fn new_regs() -> ~Registers { ~([0, .. 22]) }
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#[cfg(target_arch = "x86_64")]
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fn initialize_call_frame(regs: &mut Registers, fptr: *c_void, arg: *c_void,
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sp: *mut uint) {
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// Redefinitions from rt/arch/x86_64/regs.h
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static RUSTRT_ARG0: uint = 3;
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static RUSTRT_RSP: uint = 1;
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static RUSTRT_IP: uint = 8;
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static RUSTRT_RBP: uint = 2;
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let sp = align_down(sp);
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let sp = mut_offset(sp, -1);
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// The final return address. 0 indicates the bottom of the stack
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unsafe { *sp = 0; }
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rtdebug!("creating call frame");
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rtdebug!("fptr {}", fptr);
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rtdebug!("arg {}", arg);
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rtdebug!("sp {}", sp);
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regs[RUSTRT_ARG0] = arg as uint;
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regs[RUSTRT_RSP] = sp as uint;
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regs[RUSTRT_IP] = fptr as uint;
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// Last base pointer on the stack should be 0
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regs[RUSTRT_RBP] = 0;
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}
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#[cfg(target_arch = "arm")]
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type Registers = [uint, ..32];
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#[cfg(target_arch = "arm")]
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fn new_regs() -> ~Registers { ~([0, .. 32]) }
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#[cfg(target_arch = "arm")]
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fn initialize_call_frame(regs: &mut Registers, fptr: *c_void, arg: *c_void,
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sp: *mut uint) {
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let sp = align_down(sp);
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// sp of arm eabi is 8-byte aligned
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let sp = mut_offset(sp, -2);
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// The final return address. 0 indicates the bottom of the stack
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unsafe { *sp = 0; }
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regs[0] = arg as uint; // r0
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regs[13] = sp as uint; // #53 sp, r13
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regs[14] = fptr as uint; // #60 pc, r15 --> lr
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}
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#[cfg(target_arch = "mips")]
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type Registers = [uint, ..32];
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#[cfg(target_arch = "mips")]
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fn new_regs() -> ~Registers { ~([0, .. 32]) }
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#[cfg(target_arch = "mips")]
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fn initialize_call_frame(regs: &mut Registers, fptr: *c_void, arg: *c_void,
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2013-10-17 03:40:33 -05:00
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sp: *mut uint) {
|
2013-05-20 22:58:08 -05:00
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let sp = align_down(sp);
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// sp of mips o32 is 8-byte aligned
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let sp = mut_offset(sp, -2);
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2013-02-03 20:15:43 -06:00
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2013-03-12 01:17:40 -05:00
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// The final return address. 0 indicates the bottom of the stack
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unsafe { *sp = 0; }
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2013-02-03 20:15:43 -06:00
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2013-03-12 01:17:40 -05:00
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regs[4] = arg as uint;
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|
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regs[29] = sp as uint;
|
2013-03-19 00:34:12 -05:00
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|
regs[25] = fptr as uint;
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2013-03-12 01:17:40 -05:00
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|
regs[31] = fptr as uint;
|
2013-02-03 20:15:43 -06:00
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|
|
}
|
|
|
|
|
|
|
|
fn align_down(sp: *mut uint) -> *mut uint {
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|
|
|
unsafe {
|
2013-04-27 04:07:32 -05:00
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|
let sp: uint = transmute(sp);
|
2013-02-03 20:15:43 -06:00
|
|
|
let sp = sp & !(16 - 1);
|
|
|
|
transmute::<uint, *mut uint>(sp)
|
|
|
|
}
|
|
|
|
}
|
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|
|
|
2013-07-12 16:43:57 -05:00
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|
// ptr::mut_offset is positive ints only
|
2013-06-18 16:45:18 -05:00
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|
|
#[inline]
|
2013-03-21 23:20:48 -05:00
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|
|
pub fn mut_offset<T>(ptr: *mut T, count: int) -> *mut T {
|
2013-12-12 20:01:59 -06:00
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|
|
use std::mem::size_of;
|
2013-04-09 00:31:23 -05:00
|
|
|
(ptr as int + count * (size_of::<T>() as int)) as *mut T
|
2013-02-03 20:15:43 -06:00
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|
|
}
|