forked from OSchip/llvm-project
457 lines
16 KiB
C++
457 lines
16 KiB
C++
//===-- Memory.cpp ----------------------------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "lldb/Target/Memory.h"
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// C Includes
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// C++ Includes
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// Other libraries and framework includes
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// Project includes
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#include "lldb/Core/DataBufferHeap.h"
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#include "lldb/Core/State.h"
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#include "lldb/Core/Log.h"
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#include "lldb/Target/Process.h"
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using namespace lldb;
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using namespace lldb_private;
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//----------------------------------------------------------------------
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// MemoryCache constructor
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//----------------------------------------------------------------------
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MemoryCache::MemoryCache(Process &process) :
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m_process (process),
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m_cache_line_byte_size (512),
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m_mutex (Mutex::eMutexTypeRecursive),
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m_cache (),
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m_invalid_ranges ()
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{
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}
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//----------------------------------------------------------------------
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// Destructor
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//----------------------------------------------------------------------
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MemoryCache::~MemoryCache()
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{
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}
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void
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MemoryCache::Clear()
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{
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Mutex::Locker locker (m_mutex);
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m_cache.clear();
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}
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void
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MemoryCache::Flush (addr_t addr, size_t size)
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{
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if (size == 0)
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return;
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Mutex::Locker locker (m_mutex);
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if (m_cache.empty())
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return;
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const uint32_t cache_line_byte_size = m_cache_line_byte_size;
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const addr_t end_addr = (addr + size - 1);
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const addr_t first_cache_line_addr = addr - (addr % cache_line_byte_size);
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const addr_t last_cache_line_addr = end_addr - (end_addr % cache_line_byte_size);
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// Watch for overflow where size will cause us to go off the end of the
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// 64 bit address space
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uint32_t num_cache_lines;
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if (last_cache_line_addr >= first_cache_line_addr)
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num_cache_lines = ((last_cache_line_addr - first_cache_line_addr)/cache_line_byte_size) + 1;
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else
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num_cache_lines = (UINT64_MAX - first_cache_line_addr + 1)/cache_line_byte_size;
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uint32_t cache_idx = 0;
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for (addr_t curr_addr = first_cache_line_addr;
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cache_idx < num_cache_lines;
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curr_addr += cache_line_byte_size, ++cache_idx)
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{
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BlockMap::iterator pos = m_cache.find (curr_addr);
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if (pos != m_cache.end())
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m_cache.erase(pos);
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}
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}
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void
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MemoryCache::AddInvalidRange (lldb::addr_t base_addr, lldb::addr_t byte_size)
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{
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if (byte_size > 0)
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{
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Mutex::Locker locker (m_mutex);
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InvalidRanges::Entry range (base_addr, byte_size);
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m_invalid_ranges.Append(range);
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m_invalid_ranges.Sort();
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}
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}
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bool
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MemoryCache::RemoveInvalidRange (lldb::addr_t base_addr, lldb::addr_t byte_size)
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{
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if (byte_size > 0)
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{
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Mutex::Locker locker (m_mutex);
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const uint32_t idx = m_invalid_ranges.FindEntryIndexThatContains(base_addr);
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if (idx != UINT32_MAX)
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{
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const InvalidRanges::Entry *entry = m_invalid_ranges.GetEntryAtIndex (idx);
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if (entry->GetRangeBase() == base_addr && entry->GetByteSize() == byte_size)
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return m_invalid_ranges.RemoveEntrtAtIndex (idx);
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}
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}
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return false;
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}
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size_t
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MemoryCache::Read (addr_t addr,
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void *dst,
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size_t dst_len,
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Error &error)
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{
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size_t bytes_left = dst_len;
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if (dst && bytes_left > 0)
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{
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const uint32_t cache_line_byte_size = m_cache_line_byte_size;
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uint8_t *dst_buf = (uint8_t *)dst;
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addr_t curr_addr = addr - (addr % cache_line_byte_size);
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addr_t cache_offset = addr - curr_addr;
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Mutex::Locker locker (m_mutex);
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while (bytes_left > 0)
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{
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if (m_invalid_ranges.FindEntryThatContains(curr_addr))
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return dst_len - bytes_left;
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BlockMap::const_iterator pos = m_cache.find (curr_addr);
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BlockMap::const_iterator end = m_cache.end ();
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if (pos != end)
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{
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size_t curr_read_size = cache_line_byte_size - cache_offset;
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if (curr_read_size > bytes_left)
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curr_read_size = bytes_left;
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memcpy (dst_buf + dst_len - bytes_left, pos->second->GetBytes() + cache_offset, curr_read_size);
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bytes_left -= curr_read_size;
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curr_addr += curr_read_size + cache_offset;
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cache_offset = 0;
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if (bytes_left > 0)
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{
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// Get sequential cache page hits
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for (++pos; (pos != end) && (bytes_left > 0); ++pos)
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{
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assert ((curr_addr % cache_line_byte_size) == 0);
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if (pos->first != curr_addr)
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break;
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curr_read_size = pos->second->GetByteSize();
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if (curr_read_size > bytes_left)
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curr_read_size = bytes_left;
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memcpy (dst_buf + dst_len - bytes_left, pos->second->GetBytes(), curr_read_size);
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bytes_left -= curr_read_size;
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curr_addr += curr_read_size;
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// We have a cache page that succeeded to read some bytes
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// but not an entire page. If this happens, we must cap
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// off how much data we are able to read...
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if (pos->second->GetByteSize() != cache_line_byte_size)
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return dst_len - bytes_left;
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}
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}
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}
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// We need to read from the process
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if (bytes_left > 0)
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{
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assert ((curr_addr % cache_line_byte_size) == 0);
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std::auto_ptr<DataBufferHeap> data_buffer_heap_ap(new DataBufferHeap (cache_line_byte_size, 0));
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size_t process_bytes_read = m_process.ReadMemoryFromInferior (curr_addr,
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data_buffer_heap_ap->GetBytes(),
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data_buffer_heap_ap->GetByteSize(),
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error);
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if (process_bytes_read == 0)
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return dst_len - bytes_left;
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if (process_bytes_read != cache_line_byte_size)
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data_buffer_heap_ap->SetByteSize (process_bytes_read);
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m_cache[curr_addr] = DataBufferSP (data_buffer_heap_ap.release());
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// We have read data and put it into the cache, continue through the
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// loop again to get the data out of the cache...
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}
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}
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}
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return dst_len - bytes_left;
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}
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AllocatedBlock::AllocatedBlock (lldb::addr_t addr,
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uint32_t byte_size,
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uint32_t permissions,
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uint32_t chunk_size) :
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m_addr (addr),
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m_byte_size (byte_size),
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m_permissions (permissions),
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m_chunk_size (chunk_size),
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m_offset_to_chunk_size ()
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// m_allocated (byte_size / chunk_size)
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{
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assert (byte_size > chunk_size);
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}
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AllocatedBlock::~AllocatedBlock ()
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{
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}
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lldb::addr_t
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AllocatedBlock::ReserveBlock (uint32_t size)
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{
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addr_t addr = LLDB_INVALID_ADDRESS;
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if (size <= m_byte_size)
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{
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const uint32_t needed_chunks = CalculateChunksNeededForSize (size);
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LogSP log (GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS | LIBLLDB_LOG_VERBOSE));
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if (m_offset_to_chunk_size.empty())
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{
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m_offset_to_chunk_size[0] = needed_chunks;
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if (log)
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log->Printf ("[1] AllocatedBlock::ReserveBlock (size = %u (0x%x)) => offset = 0x%x, %u %u bit chunks", size, size, 0, needed_chunks, m_chunk_size);
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addr = m_addr;
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}
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else
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{
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uint32_t last_offset = 0;
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OffsetToChunkSize::const_iterator pos = m_offset_to_chunk_size.begin();
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OffsetToChunkSize::const_iterator end = m_offset_to_chunk_size.end();
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while (pos != end)
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{
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if (pos->first > last_offset)
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{
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const uint32_t bytes_available = pos->first - last_offset;
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const uint32_t num_chunks = CalculateChunksNeededForSize (bytes_available);
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if (num_chunks >= needed_chunks)
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{
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m_offset_to_chunk_size[last_offset] = needed_chunks;
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if (log)
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log->Printf ("[2] AllocatedBlock::ReserveBlock (size = %u (0x%x)) => offset = 0x%x, %u %u bit chunks", size, size, last_offset, needed_chunks, m_chunk_size);
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addr = m_addr + last_offset;
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break;
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}
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}
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last_offset = pos->first + pos->second * m_chunk_size;
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if (++pos == end)
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{
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// Last entry...
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const uint32_t chunks_left = CalculateChunksNeededForSize (m_byte_size - last_offset);
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if (chunks_left >= needed_chunks)
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{
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m_offset_to_chunk_size[last_offset] = needed_chunks;
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if (log)
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log->Printf ("[3] AllocatedBlock::ReserveBlock (size = %u (0x%x)) => offset = 0x%x, %u %u bit chunks", size, size, last_offset, needed_chunks, m_chunk_size);
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addr = m_addr + last_offset;
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break;
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}
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}
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}
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}
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// const uint32_t total_chunks = m_allocated.size ();
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// uint32_t unallocated_idx = 0;
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// uint32_t allocated_idx = m_allocated.find_first();
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// uint32_t first_chunk_idx = UINT32_MAX;
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// uint32_t num_chunks;
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// while (1)
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// {
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// if (allocated_idx == UINT32_MAX)
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// {
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// // No more bits are set starting from unallocated_idx, so we
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// // either have enough chunks for the request, or we don't.
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// // Eiter way we break out of the while loop...
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// num_chunks = total_chunks - unallocated_idx;
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// if (needed_chunks <= num_chunks)
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// first_chunk_idx = unallocated_idx;
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// break;
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// }
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// else if (allocated_idx > unallocated_idx)
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// {
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// // We have some allocated chunks, check if there are enough
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// // free chunks to satisfy the request?
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// num_chunks = allocated_idx - unallocated_idx;
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// if (needed_chunks <= num_chunks)
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// {
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// // Yep, we have enough!
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// first_chunk_idx = unallocated_idx;
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// break;
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// }
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// }
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//
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// while (unallocated_idx < total_chunks)
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// {
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// if (m_allocated[unallocated_idx])
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// ++unallocated_idx;
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// else
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// break;
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// }
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//
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// if (unallocated_idx >= total_chunks)
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// break;
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//
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// allocated_idx = m_allocated.find_next(unallocated_idx);
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// }
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//
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// if (first_chunk_idx != UINT32_MAX)
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// {
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// const uint32_t end_bit_idx = unallocated_idx + needed_chunks;
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// for (uint32_t idx = first_chunk_idx; idx < end_bit_idx; ++idx)
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// m_allocated.set(idx);
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// return m_addr + m_chunk_size * first_chunk_idx;
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// }
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}
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LogSP log (GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS | LIBLLDB_LOG_VERBOSE));
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if (log)
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log->Printf ("AllocatedBlock::ReserveBlock (size = %u (0x%x)) => 0x%16.16llx", size, size, (uint64_t)addr);
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return addr;
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}
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bool
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AllocatedBlock::FreeBlock (addr_t addr)
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{
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uint32_t offset = addr - m_addr;
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OffsetToChunkSize::iterator pos = m_offset_to_chunk_size.find (offset);
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bool success = false;
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if (pos != m_offset_to_chunk_size.end())
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{
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m_offset_to_chunk_size.erase (pos);
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success = true;
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}
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LogSP log (GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS | LIBLLDB_LOG_VERBOSE));
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if (log)
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log->Printf ("AllocatedBlock::FreeBlock (addr = 0x%16.16llx) => %i", (uint64_t)addr, success);
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return success;
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}
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AllocatedMemoryCache::AllocatedMemoryCache (Process &process) :
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m_process (process),
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m_mutex (Mutex::eMutexTypeRecursive),
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m_memory_map()
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{
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}
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AllocatedMemoryCache::~AllocatedMemoryCache ()
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{
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}
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void
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AllocatedMemoryCache::Clear()
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{
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Mutex::Locker locker (m_mutex);
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if (m_process.IsAlive())
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{
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PermissionsToBlockMap::iterator pos, end = m_memory_map.end();
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for (pos = m_memory_map.begin(); pos != end; ++pos)
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m_process.DoDeallocateMemory(pos->second->GetBaseAddress());
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}
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m_memory_map.clear();
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}
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AllocatedMemoryCache::AllocatedBlockSP
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AllocatedMemoryCache::AllocatePage (uint32_t byte_size,
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uint32_t permissions,
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uint32_t chunk_size,
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Error &error)
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{
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AllocatedBlockSP block_sp;
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const size_t page_size = 4096;
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const size_t num_pages = (byte_size + page_size - 1) / page_size;
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const size_t page_byte_size = num_pages * page_size;
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addr_t addr = m_process.DoAllocateMemory(page_byte_size, permissions, error);
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LogSP log (GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
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if (log)
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{
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log->Printf ("Process::DoAllocateMemory (byte_size = 0x%8.8zx, permissions = %s) => 0x%16.16llx",
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page_byte_size,
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GetPermissionsAsCString(permissions),
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(uint64_t)addr);
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}
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if (addr != LLDB_INVALID_ADDRESS)
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{
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block_sp.reset (new AllocatedBlock (addr, page_byte_size, permissions, chunk_size));
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m_memory_map.insert (std::make_pair (permissions, block_sp));
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}
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return block_sp;
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}
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lldb::addr_t
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AllocatedMemoryCache::AllocateMemory (size_t byte_size,
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uint32_t permissions,
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Error &error)
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{
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Mutex::Locker locker (m_mutex);
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addr_t addr = LLDB_INVALID_ADDRESS;
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std::pair<PermissionsToBlockMap::iterator, PermissionsToBlockMap::iterator> range = m_memory_map.equal_range (permissions);
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for (PermissionsToBlockMap::iterator pos = range.first; pos != range.second; ++pos)
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{
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addr = (*pos).second->ReserveBlock (byte_size);
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}
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if (addr == LLDB_INVALID_ADDRESS)
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{
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AllocatedBlockSP block_sp (AllocatePage (byte_size, permissions, 16, error));
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if (block_sp)
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addr = block_sp->ReserveBlock (byte_size);
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}
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LogSP log (GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
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if (log)
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log->Printf ("AllocatedMemoryCache::AllocateMemory (byte_size = 0x%8.8zx, permissions = %s) => 0x%16.16llx", byte_size, GetPermissionsAsCString(permissions), (uint64_t)addr);
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return addr;
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}
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bool
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AllocatedMemoryCache::DeallocateMemory (lldb::addr_t addr)
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{
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Mutex::Locker locker (m_mutex);
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PermissionsToBlockMap::iterator pos, end = m_memory_map.end();
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bool success = false;
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for (pos = m_memory_map.begin(); pos != end; ++pos)
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{
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if (pos->second->Contains (addr))
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{
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success = pos->second->FreeBlock (addr);
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break;
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}
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}
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LogSP log (GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
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if (log)
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log->Printf("AllocatedMemoryCache::DeallocateMemory (addr = 0x%16.16llx) => %i", (uint64_t)addr, success);
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return success;
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}
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