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This commit introduces a Cap_index class for Fiasco.OC's capabilities. A Cap_index is a combination of the global capability id, that is used by Genode to correctly identify a kernel-object, and a corresponding entry in a protection-domain's (kernel-)capability-space. The cap-indices are non-copyable, unique objects, that are held in a Cap_map. The Cap_map is used to re-find capabilities already present in the protection-domain, when a capability is received via IPC. The retrieval of capabilities effectively fixes issue #112, meaning the waste of capability-space entries. Because Cap_index objects are non-copyable (their address indicates the position in the capability-space of the pd), they are inappropriate to use as Native_capability. Therefore, Native_capability is implemented as a reference to Cap_index objects. This design seems to be a good pre-condition to implement smart-pointers for entries in the capability-space, and thereby closing existing leaks (please refer to issue #32). Cap_index, Cap_map, and the allocator for Cap_index objects are designed in a way, that it should be relatively easy to apply the same concept to NOVA also. By now, these classes are located in the `base-foc` repository, but they intentionally contain no Fiasco.OC specific elements. The previously explained changes had extensive impact on the whole Fiasco.OC platform implementation, due to various dependencies. The following things had to be changed: * The Thread object's startup and destruction routine is re-arranged, to enable another thread (that calls the Thread destructor) gaining the capability id of the thread's gate to remove it from the Cap_map, the thread's UTCB had to be made available to the caller, because there is the current location of that id. After having the UTCB available in the Thread object for that reason, the whole thread bootstrapping could be simplified. * In the course of changing the Native_capability's semantic, a new Cap_mapping class was introduced in core, that facilitates the establishment and destruction of capability mappings between core and it's client's, especially mappings related to Platform_thread and Platform_task, that are relevant to task and thread creation and destruction. Thereby, the destruction of threads had to be reworked, which effectively removed a bug (issue #149) where some threads weren't destroyed properly. * In the quick fix for issue #112, something similar to the Cap_map was introduced available in all processes. Moreover, some kind of a capability map already existed in core, to handle cap-session request properly. The introduction of the Cap_map unified both structures, so that the cap-session component code in core had to be reworked too. * The platform initialization code had to be changed sligthly due to the changes in Native_capability * The vcpu initialization in the L4Linux support library had to be adapted according to the already mentioned changes in the Thread object's bootstrap code.
128 lines
3.2 KiB
C++
128 lines
3.2 KiB
C++
/*
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* \brief Capability index allocator for Fiasco.OC.
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* \author Stefan Kalkowski
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* \date 2012-02-16
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*/
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/*
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* Copyright (C) 2012 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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#ifndef _INCLUDE__BASE__CAP_ALLOC_H_
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#define _INCLUDE__BASE__CAP_ALLOC_H_
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#include <base/cap_map.h>
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#include <base/native_types.h>
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namespace Genode {
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/**
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* Cap_index_allocator_tpl implements the Cap_index_allocator for Fiasco.OC.
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*
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* It's designed as a template because we need two distinguished versions
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* for core and non-core processes with respect to dimensioning. Moreover,
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* core needs more information within a Cap_index object, than the base
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* class provides.
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*
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* \param T Cap_index specialization to use
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* \param SZ size of Cap_index array used by the allocator
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*/
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template <typename T, unsigned SZ>
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class Cap_index_allocator_tpl : public Cap_index_allocator
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{
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private:
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Spin_lock _lock; /* used very early in initialization,
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where normal lock isn't feasible */
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enum {
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/* everything above START_IDX is managed by core */
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START_IDX = Fiasco::USER_BASE_CAP >> Fiasco::L4_CAP_SHIFT
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};
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protected:
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unsigned char _data[SZ*sizeof(T)];
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T* _indices;
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public:
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Cap_index_allocator_tpl() : _indices(reinterpret_cast<T*>(&_data)) {
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memset(&_data, 0, sizeof(_data)); }
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/***********************************
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** Cap_index_allocator interface **
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***********************************/
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Cap_index* alloc(size_t cnt)
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{
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Lock_guard<Spin_lock> guard(_lock);
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/*
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* iterate through array and find unused, consecutive entries
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*/
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for (unsigned i = START_IDX, j = 0; (i+cnt) < SZ; i+=j+1, j=0) {
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for (; j < cnt; j++)
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if (_indices[i+j].used())
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break;
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/* if we found a fitting hole, initialize the objects */
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if (j == cnt) {
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for (j = 0; j < cnt; j++)
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new (&_indices[i+j]) T();
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return &_indices[i];
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}
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}
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return 0;
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}
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Cap_index* alloc(addr_t addr, size_t cnt)
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{
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Lock_guard<Spin_lock> guard(_lock);
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/*
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* construct the Cap_index pointer from the given
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* address in capability space
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*/
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T* obj = reinterpret_cast<T*>(kcap_to_idx(addr));
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T* ret = obj;
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/* check whether the consecutive entries are in range and unused */
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for (size_t i = 0; i < cnt; i++, obj++) {
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if (obj < &_indices[0] || obj >= &_indices[SZ])
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throw Index_out_of_bounds();
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if (obj->used())
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throw Region_conflict();
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new (obj) T();
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}
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return ret;
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}
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void free(Cap_index* idx, size_t cnt)
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{
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Lock_guard<Spin_lock> guard(_lock);
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T* obj = static_cast<T*>(idx);
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for (size_t i = 0; i < cnt; obj++, i++) {
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/* range check given pointer address */
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if (obj < &_indices[0] || obj >= &_indices[SZ])
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throw Index_out_of_bounds();
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delete obj;
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}
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}
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addr_t idx_to_kcap(Cap_index *idx) {
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return ((T*)idx - &_indices[0]) << Fiasco::L4_CAP_SHIFT;
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}
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Cap_index* kcap_to_idx(addr_t kcap) {
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return &_indices[kcap >> Fiasco::L4_CAP_SHIFT]; }
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};
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}
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#endif /* _INCLUDE__BASE__CAP_ALLOC_H_ */
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