2015-12-13 14:51:43 +01:00
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// Copyright (c) 2012-2015 The Bitcoin Core developers
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2014-12-13 05:09:33 +01:00
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// Distributed under the MIT software license, see the accompanying
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2014-03-18 10:11:00 +01:00
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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2013-04-13 07:13:08 +02:00
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2012-08-22 11:34:32 +02:00
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#include "util.h"
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2015-01-22 21:02:44 +01:00
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#include "support/allocators/secure.h"
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2016-03-03 20:20:32 +01:00
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#include "test/test_dash.h"
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Split up util.cpp/h
Split up util.cpp/h into:
- string utilities (hex, base32, base64): no internal dependencies, no dependency on boost (apart from foreach)
- money utilities (parsesmoney, formatmoney)
- time utilities (gettime*, sleep, format date):
- and the rest (logging, argument parsing, config file parsing)
The latter is basically the environment and OS handling,
and is stripped of all utility functions, so we may want to
rename it to something else than util.cpp/h for clarity (Matt suggested
osinterface).
Breaks dependency of sha256.cpp on all the things pulled in by util.
2014-08-21 16:11:09 +02:00
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2013-04-13 07:13:08 +02:00
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#include <boost/test/unit_test.hpp>
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2015-03-12 09:34:42 +01:00
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BOOST_FIXTURE_TEST_SUITE(allocator_tests, BasicTestingSetup)
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2012-08-22 11:34:32 +02:00
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2016-11-02 11:16:19 +01:00
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BOOST_AUTO_TEST_CASE(arena_tests)
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2012-08-22 11:34:32 +02:00
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{
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2016-11-02 11:16:19 +01:00
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// Fake memory base address for testing
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// without actually using memory.
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void *synth_base = reinterpret_cast<void*>(0x08000000);
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const size_t synth_size = 1024*1024;
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Arena b(synth_base, synth_size, 16);
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void *chunk = b.alloc(1000);
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#ifdef ARENA_DEBUG
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b.walk();
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#endif
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BOOST_CHECK(chunk != nullptr);
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BOOST_CHECK(b.stats().used == 1008); // Aligned to 16
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BOOST_CHECK(b.stats().total == synth_size); // Nothing has disappeared?
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b.free(chunk);
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#ifdef ARENA_DEBUG
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b.walk();
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#endif
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BOOST_CHECK(b.stats().used == 0);
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BOOST_CHECK(b.stats().free == synth_size);
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try { // Test exception on double-free
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b.free(chunk);
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BOOST_CHECK(0);
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} catch(std::runtime_error &)
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2012-08-22 11:34:32 +02:00
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{
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}
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2016-11-02 11:16:19 +01:00
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void *a0 = b.alloc(128);
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void *a1 = b.alloc(256);
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void *a2 = b.alloc(512);
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BOOST_CHECK(b.stats().used == 896);
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BOOST_CHECK(b.stats().total == synth_size);
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#ifdef ARENA_DEBUG
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b.walk();
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#endif
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b.free(a0);
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#ifdef ARENA_DEBUG
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b.walk();
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#endif
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BOOST_CHECK(b.stats().used == 768);
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b.free(a1);
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BOOST_CHECK(b.stats().used == 512);
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void *a3 = b.alloc(128);
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#ifdef ARENA_DEBUG
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b.walk();
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#endif
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BOOST_CHECK(b.stats().used == 640);
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b.free(a2);
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BOOST_CHECK(b.stats().used == 128);
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b.free(a3);
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BOOST_CHECK(b.stats().used == 0);
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2016-11-07 09:21:15 +01:00
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BOOST_CHECK_EQUAL(b.stats().chunks_used, 0);
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2016-11-02 11:16:19 +01:00
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BOOST_CHECK(b.stats().total == synth_size);
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BOOST_CHECK(b.stats().free == synth_size);
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2016-11-07 09:21:15 +01:00
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BOOST_CHECK_EQUAL(b.stats().chunks_free, 1);
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2016-11-02 11:16:19 +01:00
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std::vector<void*> addr;
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BOOST_CHECK(b.alloc(0) == nullptr); // allocating 0 always returns nullptr
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#ifdef ARENA_DEBUG
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b.walk();
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#endif
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// Sweeping allocate all memory
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for (int x=0; x<1024; ++x)
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addr.push_back(b.alloc(1024));
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BOOST_CHECK(b.stats().free == 0);
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BOOST_CHECK(b.alloc(1024) == nullptr); // memory is full, this must return nullptr
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BOOST_CHECK(b.alloc(0) == nullptr);
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for (int x=0; x<1024; ++x)
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b.free(addr[x]);
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addr.clear();
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BOOST_CHECK(b.stats().total == synth_size);
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BOOST_CHECK(b.stats().free == synth_size);
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// Now in the other direction...
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for (int x=0; x<1024; ++x)
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addr.push_back(b.alloc(1024));
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for (int x=0; x<1024; ++x)
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b.free(addr[1023-x]);
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addr.clear();
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// Now allocate in smaller unequal chunks, then deallocate haphazardly
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// Not all the chunks will succeed allocating, but freeing nullptr is
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// allowed so that is no problem.
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for (int x=0; x<2048; ++x)
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addr.push_back(b.alloc(x+1));
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for (int x=0; x<2048; ++x)
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b.free(addr[((x*23)%2048)^242]);
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addr.clear();
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// Go entirely wild: free and alloc interleaved,
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// generate targets and sizes using pseudo-randomness.
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for (int x=0; x<2048; ++x)
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addr.push_back(0);
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uint32_t s = 0x12345678;
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for (int x=0; x<5000; ++x) {
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int idx = s & (addr.size()-1);
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if (s & 0x80000000) {
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b.free(addr[idx]);
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addr[idx] = 0;
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} else if(!addr[idx]) {
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addr[idx] = b.alloc((s >> 16) & 2047);
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}
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bool lsb = s & 1;
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s >>= 1;
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if (lsb)
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s ^= 0xf00f00f0; // LFSR period 0xf7ffffe0
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2012-08-22 11:34:32 +02:00
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}
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2016-11-02 11:16:19 +01:00
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for (void *ptr: addr)
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b.free(ptr);
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addr.clear();
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2012-08-22 11:34:32 +02:00
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2016-11-02 11:16:19 +01:00
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BOOST_CHECK(b.stats().total == synth_size);
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BOOST_CHECK(b.stats().free == synth_size);
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}
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/** Mock LockedPageAllocator for testing */
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class TestLockedPageAllocator: public LockedPageAllocator
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2012-08-22 11:34:32 +02:00
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{
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2016-11-02 11:16:19 +01:00
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public:
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TestLockedPageAllocator(int count_in, int lockedcount_in): count(count_in), lockedcount(lockedcount_in) {}
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void* AllocateLocked(size_t len, bool *lockingSuccess)
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2012-08-22 11:34:32 +02:00
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{
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2016-11-02 11:16:19 +01:00
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*lockingSuccess = false;
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if (count > 0) {
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--count;
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if (lockedcount > 0) {
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--lockedcount;
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*lockingSuccess = true;
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}
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return reinterpret_cast<void*>(0x08000000 + (count<<24)); // Fake address, do not actually use this memory
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}
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return 0;
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2012-08-22 11:34:32 +02:00
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}
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2016-11-02 11:16:19 +01:00
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void FreeLocked(void* addr, size_t len)
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2012-08-22 11:34:32 +02:00
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{
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}
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2016-11-02 11:16:19 +01:00
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size_t GetLimit()
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2012-08-22 11:34:32 +02:00
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{
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2016-11-02 11:16:19 +01:00
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return std::numeric_limits<size_t>::max();
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2012-08-22 11:34:32 +02:00
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}
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2016-11-02 11:16:19 +01:00
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private:
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int count;
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int lockedcount;
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};
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2012-08-22 11:34:32 +02:00
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2016-11-02 11:16:19 +01:00
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BOOST_AUTO_TEST_CASE(lockedpool_tests_mock)
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{
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// Test over three virtual arenas, of which one will succeed being locked
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std::unique_ptr<LockedPageAllocator> x(new TestLockedPageAllocator(3, 1));
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LockedPool pool(std::move(x));
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BOOST_CHECK(pool.stats().total == 0);
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BOOST_CHECK(pool.stats().locked == 0);
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2012-08-22 11:34:32 +02:00
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2016-11-07 09:21:15 +01:00
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// Ensure unreasonable requests are refused without allocating anything
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void *invalid_toosmall = pool.alloc(0);
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BOOST_CHECK(invalid_toosmall == nullptr);
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BOOST_CHECK(pool.stats().used == 0);
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BOOST_CHECK(pool.stats().free == 0);
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void *invalid_toobig = pool.alloc(LockedPool::ARENA_SIZE+1);
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BOOST_CHECK(invalid_toobig == nullptr);
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BOOST_CHECK(pool.stats().used == 0);
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BOOST_CHECK(pool.stats().free == 0);
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2016-11-02 11:16:19 +01:00
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void *a0 = pool.alloc(LockedPool::ARENA_SIZE / 2);
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BOOST_CHECK(a0);
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BOOST_CHECK(pool.stats().locked == LockedPool::ARENA_SIZE);
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void *a1 = pool.alloc(LockedPool::ARENA_SIZE / 2);
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BOOST_CHECK(a1);
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void *a2 = pool.alloc(LockedPool::ARENA_SIZE / 2);
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BOOST_CHECK(a2);
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void *a3 = pool.alloc(LockedPool::ARENA_SIZE / 2);
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BOOST_CHECK(a3);
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void *a4 = pool.alloc(LockedPool::ARENA_SIZE / 2);
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BOOST_CHECK(a4);
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void *a5 = pool.alloc(LockedPool::ARENA_SIZE / 2);
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BOOST_CHECK(a5);
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// We've passed a count of three arenas, so this allocation should fail
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void *a6 = pool.alloc(16);
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BOOST_CHECK(!a6);
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pool.free(a0);
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pool.free(a2);
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pool.free(a4);
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pool.free(a1);
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pool.free(a3);
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pool.free(a5);
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BOOST_CHECK(pool.stats().total == 3*LockedPool::ARENA_SIZE);
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BOOST_CHECK(pool.stats().locked == LockedPool::ARENA_SIZE);
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BOOST_CHECK(pool.stats().used == 0);
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}
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// These tests used the live LockedPoolManager object, this is also used
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// by other tests so the conditions are somewhat less controllable and thus the
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// tests are somewhat more error-prone.
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BOOST_AUTO_TEST_CASE(lockedpool_tests_live)
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{
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LockedPoolManager &pool = LockedPoolManager::Instance();
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LockedPool::Stats initial = pool.stats();
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void *a0 = pool.alloc(16);
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BOOST_CHECK(a0);
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// Test reading and writing the allocated memory
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*((uint32_t*)a0) = 0x1234;
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BOOST_CHECK(*((uint32_t*)a0) == 0x1234);
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pool.free(a0);
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try { // Test exception on double-free
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pool.free(a0);
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BOOST_CHECK(0);
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} catch(std::runtime_error &)
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2012-08-22 11:34:32 +02:00
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{
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}
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2016-11-02 11:16:19 +01:00
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// If more than one new arena was allocated for the above tests, something is wrong
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BOOST_CHECK(pool.stats().total <= (initial.total + LockedPool::ARENA_SIZE));
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// Usage must be back to where it started
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BOOST_CHECK(pool.stats().used == initial.used);
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2012-08-22 11:34:32 +02:00
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}
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BOOST_AUTO_TEST_SUITE_END()
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