253f2aef0f
Issue #2044
200 lines
5.1 KiB
C++
200 lines
5.1 KiB
C++
/*
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* \brief Protection-domain facility
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* \author Norman Feske
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* \date 2015-05-01
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*/
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/*
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* Copyright (C) 2015 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/log.h>
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/* core includes */
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#include <platform_pd.h>
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#include <platform.h>
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#include <util.h>
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#include <core_cspace.h>
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#include <kernel_object.h>
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/* base-internal includes */
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#include <base/internal/capability_space_sel4.h>
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using namespace Genode;
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/*****************************************
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** Allocator for protection-domain IDs **
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*****************************************/
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struct Pd_id_alloc : Bit_allocator<1024>
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{
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Pd_id_alloc()
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{
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/*
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* Skip 0 because this top-level index is used to address the core
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* CNode.
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*/
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_reserve(0, 1);
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_reserve(Core_cspace::CORE_VM_ID, 1);
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}
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};
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static Pd_id_alloc &pd_id_alloc()
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{
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static Pd_id_alloc inst;
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return inst;
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}
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bool Platform_pd::bind_thread(Platform_thread *thread)
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{
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ASSERT(thread);
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thread->_pd = this;
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/*
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* Map IPC buffer
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*
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* XXX The mapping of the IPC buffer could be evicted from the PD's
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* 'Vm_space'. In contrast to mapping that are created as a result of
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* the RM-session's page-fault resolution, the IPC buffer's mapping
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* won't be recoverable once flushed. For this reason, it is important
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* to attach the UTCB as a dataspace to the stack area to make the RM
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* session aware to the mapping. This code is missing.
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*/
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if (thread->_utcb) {
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_vm_space.map(thread->_info.ipc_buffer_phys, thread->_utcb, 1);
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} else {
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_vm_space.map(thread->_info.ipc_buffer_phys, thread->INITIAL_IPC_BUFFER_VIRT, 1);
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}
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return true;
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}
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void Platform_pd::unbind_thread(Platform_thread *thread)
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{
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if (!thread)
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return;
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if (thread->_utcb)
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_vm_space.unmap(thread->_utcb, 1);
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else
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_vm_space.unmap(thread->INITIAL_IPC_BUFFER_VIRT, 1);
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}
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void Platform_pd::assign_parent(Native_capability parent)
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{
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Capability_space::Ipc_cap_data const ipc_cap_data =
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Capability_space::ipc_cap_data(parent);
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_parent = parent;
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/*
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* Install parent endpoint selector at the predefined position
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* INITIAL_SEL_PARENT within the PD's CSpace.
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*/
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_cspace_cnode_2nd[0]->copy(platform_specific()->core_cnode(),
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Cnode_index(ipc_cap_data.sel),
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Cnode_index(INITIAL_SEL_PARENT));
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}
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addr_t Platform_pd::_init_page_directory()
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{
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addr_t const phys =
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create<Page_directory_kobj>(*platform()->ram_alloc(),
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platform_specific()->core_cnode().sel(),
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_page_directory_sel);
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int const ret = seL4_X86_ASIDPool_Assign(platform_specific()->asid_pool().value(),
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_page_directory_sel.value());
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if (ret != seL4_NoError)
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error("seL4_X86_ASIDPool_Assign returned ", ret);
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return phys;
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}
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Cap_sel Platform_pd::alloc_sel()
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{
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Lock::Guard guard(_sel_alloc_lock);
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return Cap_sel(_sel_alloc.alloc());
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}
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void Platform_pd::free_sel(Cap_sel sel)
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{
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Lock::Guard guard(_sel_alloc_lock);
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_sel_alloc.free(sel.value());
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}
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void Platform_pd::install_mapping(Mapping const &mapping)
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{
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_vm_space.map(mapping.from_phys(), mapping.to_virt(), mapping.num_pages());
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}
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void Platform_pd::flush(addr_t virt_addr, size_t size)
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{
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_vm_space.unmap(virt_addr, round_page(size) >> get_page_size_log2());
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}
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Platform_pd::Platform_pd(Allocator * md_alloc, char const *label,
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signed pd_id, bool create)
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:
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_id(pd_id_alloc().alloc()),
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_page_table_registry(*md_alloc),
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_page_directory_sel(platform_specific()->core_sel_alloc().alloc()),
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_page_directory(_init_page_directory()),
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_vm_space(_page_directory_sel,
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platform_specific()->core_sel_alloc(),
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*platform()->ram_alloc(),
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platform_specific()->top_cnode(),
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platform_specific()->core_cnode(),
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platform_specific()->phys_cnode(),
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_id,
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_page_table_registry,
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label),
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_cspace_cnode_1st(platform_specific()->core_cnode().sel(),
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platform_specific()->core_sel_alloc().alloc(),
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CSPACE_SIZE_LOG2_1ST,
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*platform()->ram_alloc())
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{
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/* add all 2nd level CSpace's to 1st level CSpace */
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for (unsigned i = 0; i < sizeof(_cspace_cnode_2nd) /
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sizeof(_cspace_cnode_2nd[0]); i++) {
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_cspace_cnode_2nd[i].construct(platform_specific()->core_cnode().sel(),
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platform_specific()->core_sel_alloc().alloc(),
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CSPACE_SIZE_LOG2_2ND,
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*platform()->ram_alloc());
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_cspace_cnode_1st.copy(platform_specific()->core_cnode(),
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_cspace_cnode_2nd[i]->sel(),
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Cnode_index(i));
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}
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/* install CSpace selector at predefined position in the PD's CSpace */
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_cspace_cnode_2nd[0]->copy(platform_specific()->core_cnode(),
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_cspace_cnode_1st.sel(),
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Cnode_index(INITIAL_SEL_CNODE));
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}
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Platform_pd::~Platform_pd()
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{
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/* invalidate weak pointers to this object */
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Address_space::lock_for_destruction();
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}
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