OpenEnclave PAL: Store enclave heap base/end in inline variables. (#201)
PALOpenEnclave object is lazily constructed. I couldn't figure out a straight-forward way to pass the heap bounds to the constructor of PALOpenEnclave object. As an alternative, store the bounds in inline static variables of the PALOpenEnclave class and set them via static setup_initial_range function. - two_alloc_types/alloc1.cc Define oe_allocator_init to forward base, end values to PALOpenEnclave::setup_inital_range - two_alloc_types/main.cc Use oe_allocator_init function to set up heap range. - fixed_region/fixed_region.cc Initialize heap range via call to PALOpenEnclave::setup_inital_range. Signed-off-by: Anand Krishnamoorthi <anakrish@microsoft.com>
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@@ -3,8 +3,6 @@
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#include "ds/address.h"
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#include "pal_plain.h"
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#ifdef OPEN_ENCLAVE
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extern "C" const void* __oe_get_heap_base();
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extern "C" const void* __oe_get_heap_end();
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extern "C" void* oe_memset_s(void* p, size_t p_size, int c, size_t size);
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extern "C" [[noreturn]] void oe_abort();
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@@ -12,9 +10,19 @@ namespace snmalloc
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{
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class PALOpenEnclave
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{
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std::atomic<void*> oe_base = nullptr;
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static inline std::atomic<void*> oe_base;
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static inline void* oe_end = nullptr;
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public:
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/**
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* This will be called by oe_allocator_init to set up enclave heap bounds.
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*/
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static void setup_initial_range(void* base, void* end)
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{
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oe_base = base;
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oe_end = end;
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}
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/**
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* Bitmap of PalFeatures flags indicating the optional features that this
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* PAL supports.
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@@ -32,17 +40,9 @@ namespace snmalloc
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template<bool committed>
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void* reserve(size_t size) noexcept
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{
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if (oe_base == 0)
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{
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void* dummy = NULL;
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// If this CAS fails then another thread has initialised this.
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oe_base.compare_exchange_strong(
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dummy, const_cast<void*>(__oe_get_heap_base()));
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}
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void* old_base = oe_base;
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void* next_base;
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auto end = __oe_get_heap_end();
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auto end = oe_end;
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do
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{
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auto new_base = old_base;
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@@ -10,18 +10,6 @@
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#endif
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#define assert please_use_SNMALLOC_ASSERT
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void* oe_base;
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void* oe_end;
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extern "C" const void* __oe_get_heap_base()
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{
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return oe_base;
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}
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extern "C" const void* __oe_get_heap_end()
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{
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return oe_end;
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}
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extern "C" void* oe_memset_s(void* p, size_t p_size, int c, size_t size)
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{
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UNUSED(p_size);
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@@ -43,8 +31,9 @@ int main()
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// For 1MiB superslabs, SUPERSLAB_BITS + 4 is not big enough for the example.
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size_t large_class = 28 - SUPERSLAB_BITS;
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size_t size = 1ULL << (SUPERSLAB_BITS + large_class);
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oe_base = mp.reserve<true>(large_class);
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oe_end = (uint8_t*)oe_base + size;
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void* oe_base = mp.reserve<true>(large_class);
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void* oe_end = (uint8_t*)oe_base + size;
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PALOpenEnclave::setup_initial_range(oe_base, oe_end);
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std::cout << "Allocated region " << oe_base << " - " << oe_end << std::endl;
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auto a = ThreadAlloc::get();
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@@ -9,3 +9,8 @@
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// Redefine the namespace, so we can have two versions.
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#define snmalloc snmalloc_enclave
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#include "../../../override/malloc.cc"
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extern "C" void oe_allocator_init(void* base, void* end)
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{
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snmalloc_enclave::PALOpenEnclave::setup_initial_range(base, end);
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}
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@@ -5,18 +5,6 @@
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#include <string.h>
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#include <test/setup.h>
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void* oe_base;
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void* oe_end;
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extern "C" const void* __oe_get_heap_base()
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{
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return oe_base;
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}
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extern "C" const void* __oe_get_heap_end()
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{
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return oe_end;
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}
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extern "C" void* oe_memset_s(void* p, size_t p_size, int c, size_t size)
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{
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UNUSED(p_size);
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@@ -28,6 +16,7 @@ extern "C" void oe_abort()
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abort();
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}
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extern "C" void oe_allocator_init(void* base, void* end);
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extern "C" void* host_malloc(size_t);
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extern "C" void host_free(void*);
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@@ -51,8 +40,9 @@ int main()
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// For 1MiB superslabs, SUPERSLAB_BITS + 2 is not big enough for the example.
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size_t large_class = 26 - SUPERSLAB_BITS;
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size_t size = 1ULL << (SUPERSLAB_BITS + large_class);
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oe_base = mp.reserve<true>(large_class);
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oe_end = (uint8_t*)oe_base + size;
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void* oe_base = mp.reserve<true>(large_class);
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void* oe_end = (uint8_t*)oe_base + size;
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oe_allocator_init(oe_base, oe_end);
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std::cout << "Allocated region " << oe_base << " - " << oe_end << std::endl;
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// Call these functions to trigger asserts if the cast-to-self doesn't work.
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