d7ddc83fa9
The alternate stack must use the stack area as, e.g., Thread::myself() depends on this property. Hybrid components do not depend on this property and, therefore, use a static stack buffer. Fixes #1935
528 lines
12 KiB
C++
528 lines
12 KiB
C++
/*
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* \brief Supplemental code for hybrid Genode/Linux components
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* \author Norman Feske
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* \date 2011-09-02
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*/
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/*
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* Copyright (C) 2011-2013 Genode Labs GmbH
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*
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* This file is part of the Genode OS framework, which is distributed
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* under the terms of the GNU General Public License version 2.
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*/
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/* Genode includes */
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#include <base/printf.h>
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#include <base/log.h>
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#include <base/component.h>
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#include <linux_syscalls.h>
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#include <linux_native_cpu/client.h>
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/* base-internal includes */
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#include <base/internal/native_thread.h>
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#include <base/internal/globals.h>
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/**
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* Define stack area
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*/
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Genode::addr_t _stack_area_start;
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enum { verbose_atexit = false };
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/**
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* Dummy for symbol that is normally provided by '_main.cc'
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*/
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int genode___cxa_atexit(void (*func)(void*), void *arg, void *dso)
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{
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if (verbose_atexit)
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Genode::raw("genode___cxa_atexit called, not implemented\n");
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return 0;
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}
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/*
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* Manually initialize the 'lx_environ' pointer. For non-hybrid programs, this
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* pointer is initialized by the startup code.
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*/
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extern char **environ;
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extern char **lx_environ;
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static char signal_stack[0x2000] __attribute__((aligned(0x1000)));
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static void empty_signal_handler(int) { }
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extern void lx_exception_signal_handlers();
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/*
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* This function must be called before any other static constructor in the Genode
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* application, so it gets the highest priority (lowest priority number >100)
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*/
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__attribute__((constructor(101))) void lx_hybrid_init()
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{
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lx_environ = environ;
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lx_sigaltstack(signal_stack, sizeof(signal_stack));
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lx_exception_signal_handlers();
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/*
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* Set signal handler such that canceled system calls get not
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* transparently retried after a signal gets received.
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*/
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lx_sigaction(LX_SIGUSR1, empty_signal_handler, false);
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}
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namespace Genode {
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extern void bootstrap_component();
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extern void call_global_static_constructors();
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/*
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* Hook for intercepting the call of the 'Component::construct' method. By
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* hooking this function pointer in a library constructor, the libc is able
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* to create a task context for the component code. This context is
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* scheduled by the libc in a cooperative fashion, i.e. when the
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* component's entrypoint is activated.
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*/
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extern void (*call_component_construct)(Genode::Env &) __attribute__((weak));
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}
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static void lx_hybrid_component_construct(Genode::Env &env)
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{
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Component::construct(env);
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}
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void (*Genode::call_component_construct)(Genode::Env &) = &lx_hybrid_component_construct;
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/*
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* Static constructors are handled by the Linux startup code - so implement
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* this as empty function.
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*/
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void Genode::call_global_static_constructors() { }
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/*
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* Hybrid components are not allowed to implement legacy main(). This enables
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* us to hook in and bootstrap components as usual.
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*/
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int main()
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{
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Genode::init_log();
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Genode::bootstrap_component();
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/* never reached */
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}
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/************
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** Thread **
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************/
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/*
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* For hybrid Linux/Genode programs, Genode's thread API is implemented via
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* POSIX threads.
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*
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* Hybrid Linux/Genode programs are linked against the glibc along with other
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* native Linux libraries. Such libraries may use the 'pthread' API to spawn
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* threads, which then may call Genode code. Vice versa, Genode threads may
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* interact with code of a native Linux libraries. Hence, both worlds Genode
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* and native Linux libraries should use the same underlying threading API.
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* Furthermore, using the pthread API is a precondition to satisfy the glibc's
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* assumption about thread-local storage, which is particularly important
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* for the correct thread-local handling of 'errno'. As another benefit of
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* using the pthread API over the normal Genode thread implementation, hybrid
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* Linux/Genode programs comply with the GNU debugger's expectations. Such
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* programs can be debugged as normal Linux programs.
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*
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* Genode's normal thread API for Linux was introduced to decouple Genode
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* from the glibc. This is especially important when using Genode's libc
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* Mixing both Genode's libc and glibc won't work.
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*/
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/* Genode includes */
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#include <base/thread.h>
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#include <base/env.h>
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/* libc includes */
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#include <pthread.h>
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#include <stdio.h>
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#include <errno.h>
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using namespace Genode;
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/**
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* Return TLS key used to storing the thread meta data
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*/
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static pthread_key_t tls_key()
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{
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struct Tls_key
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{
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pthread_key_t key;
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Tls_key()
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{
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pthread_key_create(&key, 0);
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}
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};
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static Tls_key inst;
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return inst.key;
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}
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namespace Genode {
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/**
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* Meta data tied to the thread via the pthread TLS mechanism
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*/
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struct Native_thread::Meta_data
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{
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/**
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* Linux-specific thread meta data
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*
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* For non-hybrid programs, this information is located at the
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* 'Stack'. But the POSIX threads of hybrid programs have no 'Stack'
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* object. So we have to keep the meta data here.
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*/
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Native_thread native_thread;
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/**
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* Filled out by 'thread_start' function in the stack of the new
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* thread
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*/
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Thread * const thread_base;
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/**
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* POSIX thread handle
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*/
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pthread_t pt;
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/**
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* Constructor
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*
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* \param thread associated 'Thread' object
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*/
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Meta_data(Thread *thread) : thread_base(thread)
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{
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native_thread.meta_data = this;
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}
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/**
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* Used to block the constructor until the new thread has initialized
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* 'id'
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*/
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virtual void wait_for_construction() = 0;
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virtual void constructed() = 0;
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/**
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* Used to block the new thread until 'start' is called
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*/
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virtual void wait_for_start() = 0;
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virtual void started() = 0;
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/**
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* Used to block the 'join()' function until the 'entry()' is done
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*/
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virtual void wait_for_join() = 0;
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virtual void joined() = 0;
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};
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/**
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* Thread meta data for a thread created by Genode
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*/
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class Thread_meta_data_created : public Native_thread::Meta_data
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{
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private:
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/**
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* Lock with the initial state set to LOCKED
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*/
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struct Barrier : Lock { Barrier() : Lock(Lock::LOCKED) { } };
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/**
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* Used to block the constructor until the new thread has initialized
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* 'id'
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*/
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Barrier _construct_lock;
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/**
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* Used to block the new thread until 'start' is called
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*/
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Barrier _start_lock;
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/**
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* Used to block the 'join()' function until the 'entry()' is done
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*/
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Barrier _join_lock;
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public:
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Thread_meta_data_created(Thread *thread)
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: Native_thread::Meta_data(thread) { }
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void wait_for_construction()
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{
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_construct_lock.lock();
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}
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void constructed()
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{
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_construct_lock.unlock();
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}
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void wait_for_start()
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{
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_start_lock.lock();
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}
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void started()
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{
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_start_lock.unlock();
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}
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void wait_for_join()
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{
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_join_lock.lock();
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}
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void joined()
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{
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_join_lock.unlock();
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}
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};
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/**
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* Thread meta data for an adopted thread
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*/
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class Thread_meta_data_adopted : public Native_thread::Meta_data
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{
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public:
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Thread_meta_data_adopted(Thread *thread)
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: Native_thread::Meta_data(thread) { }
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void wait_for_construction()
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{
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PERR("wait_for_construction() called for an adopted thread");
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}
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void constructed()
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{
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PERR("constructed() called for an adopted thread");
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}
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void wait_for_start()
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{
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PERR("wait_for_start() called for an adopted thread");
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}
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void started()
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{
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PERR("started() called for an adopted thread");
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}
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void wait_for_join()
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{
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PERR("wait_for_join() called for an adopted thread");
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}
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void joined()
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{
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PERR("joined() called for an adopted thread");
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}
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};
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}
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static void adopt_thread(Native_thread::Meta_data *meta_data)
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{
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lx_sigaltstack(signal_stack, sizeof(signal_stack));
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/*
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* Set signal handler such that canceled system calls get not
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* transparently retried after a signal gets received.
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*/
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lx_sigaction(LX_SIGUSR1, empty_signal_handler, false);
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/*
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* Prevent children from becoming zombies. (SIG_IGN = 1)
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*/
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lx_sigaction(LX_SIGCHLD, (void (*)(int))1, false);
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/* assign 'Native_thread::Meta_data' pointer to TLS entry */
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pthread_setspecific(tls_key(), meta_data);
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/* enable immediate cancellation when calling 'pthread_cancel' */
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pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS, 0);
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/*
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* Initialize thread meta data
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*/
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Native_thread &native_thread = meta_data->thread_base->native_thread();
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native_thread.tid = lx_gettid();
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native_thread.pid = lx_getpid();
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}
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static void *thread_start(void *arg)
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{
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Native_thread::Meta_data *meta_data = (Native_thread::Meta_data *)arg;
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adopt_thread(meta_data);
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/* unblock 'Thread' constructor */
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meta_data->constructed();
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/* block until the 'Thread::start' gets called */
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meta_data->wait_for_start();
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Thread::myself()->entry();
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meta_data->joined();
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return 0;
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}
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extern "C" void *malloc(::size_t size);
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Thread *Thread::myself()
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{
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void * const tls = pthread_getspecific(tls_key());
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if (tls != 0)
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return ((Native_thread::Meta_data *)tls)->thread_base;
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bool const called_by_main_thread = (lx_getpid() == lx_gettid());
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if (called_by_main_thread)
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return 0;
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/*
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* The function was called from a thread created by other means than
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* Genode's thread API. This may happen if a native Linux library creates
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* threads via the pthread library. If such a thread calls Genode code,
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* which then tries to perform IPC, the program fails because there exists
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* no 'Thread' object. We recover from this unfortunate situation by
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* creating a dummy 'Thread' object and associate it with the calling
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* thread.
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*/
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/*
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* Create dummy 'Thread' object but suppress the execution of its
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* constructor. If we called the constructor, we would create a new Genode
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* thread, which is not what we want. For the allocation, we use glibc
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* malloc because 'Genode::env()->heap()->alloc()' uses IPC.
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*
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* XXX Both the 'Thread' and 'Native_thread::Meta_data' objects are
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* never freed.
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*/
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Thread *thread = (Thread *)malloc(sizeof(Thread));
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memset(thread, 0, sizeof(*thread));
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Native_thread::Meta_data *meta_data = new Thread_meta_data_adopted(thread);
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/*
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* Initialize 'Thread::_native_thread' to point to the default-
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* constructed 'Native_thread' (part of 'Meta_data').
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*/
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meta_data->thread_base->_native_thread = &meta_data->native_thread;
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adopt_thread(meta_data);
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return thread;
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}
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void Thread::start()
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{
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/*
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* Unblock thread that is supposed to slumber in 'thread_start'.
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*/
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native_thread().meta_data->started();
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}
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void Thread::join()
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{
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native_thread().meta_data->wait_for_join();
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}
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Native_thread &Thread::native_thread() { return *_native_thread; }
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Thread::Thread(size_t weight, const char *name, size_t stack_size,
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Type type, Cpu_session * cpu_sess, Affinity::Location)
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: _cpu_session(cpu_sess)
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{
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Native_thread::Meta_data *meta_data =
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new (env()->heap()) Thread_meta_data_created(this);
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_native_thread = &meta_data->native_thread;
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int const ret = pthread_create(&meta_data->pt, 0, thread_start, meta_data);
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if (ret) {
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PERR("pthread_create failed (returned %d, errno=%d)",
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ret, errno);
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destroy(env()->heap(), meta_data);
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throw Out_of_stack_space();
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}
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native_thread().meta_data->wait_for_construction();
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_thread_cap = _cpu_session->create_thread(env()->pd_session_cap(), name,
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Location(), Weight(weight));
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Linux_native_cpu_client native_cpu(_cpu_session->native_cpu());
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native_cpu.thread_id(_thread_cap, native_thread().pid, native_thread().tid);
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}
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Thread::Thread(size_t weight, const char *name, size_t stack_size,
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Type type, Affinity::Location)
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: Thread(weight, name, stack_size, type, env()->cpu_session()) { }
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Thread::Thread(Env &env, Name const &name, size_t stack_size, Location location,
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Weight weight, Cpu_session &cpu)
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: Thread(weight.value, name.string(), stack_size, NORMAL,
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&cpu, location)
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{ }
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Thread::Thread(Env &env, Name const &name, size_t stack_size)
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: Thread(env, name, stack_size, Location(), Weight(), env.cpu()) { }
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void Thread::cancel_blocking()
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{
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/*
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* XXX implement interaction with CPU session
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*/
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}
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Thread::~Thread()
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{
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bool const needs_join = (pthread_cancel(native_thread().meta_data->pt) == 0);
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if (needs_join) {
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int const ret = pthread_join(native_thread().meta_data->pt, 0);
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if (ret)
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PWRN("pthread_join unexpectedly returned with %d (errno=%d)",
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ret, errno);
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}
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Thread_meta_data_created *meta_data =
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dynamic_cast<Thread_meta_data_created *>(native_thread().meta_data);
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if (meta_data)
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destroy(env()->heap(), meta_data);
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_native_thread = nullptr;
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/* inform core about the killed thread */
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_cpu_session->kill_thread(_thread_cap);
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}
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