source/Target/Memory.cpp

80814287SRaphael Isemann//===-- Memory.cpp --------------------------------------------------------===//
d495c534SGreg Clayton//
2946cd70SChandler Carruth// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
2946cd70SChandler Carruth// See https://llvm.org/LICENSE.txt for license information.
2946cd70SChandler Carruth// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
d495c534SGreg Clayton//
d495c534SGreg Clayton//===----------------------------------------------------------------------===//
d495c534SGreg Clayton
d495c534SGreg Clayton#include "lldb/Target/Memory.h"
d495c534SGreg Clayton#include "lldb/Target/Process.h"
666cc0b2SZachary Turner#include "lldb/Utility/DataBufferHeap.h"
*c34698a8SPavel Labath#include "lldb/Utility/LLDBLog.h"
6f9e6901SZachary Turner#include "lldb/Utility/Log.h"
b8093314SPavel Labath#include "lldb/Utility/RangeMap.h"
d821c997SPavel Labath#include "lldb/Utility/State.h"
d495c534SGreg Clayton
796ac80bSJonas Devlieghere#include <cinttypes>
796ac80bSJonas Devlieghere#include <memory>
796ac80bSJonas Devlieghere
d495c534SGreg Claytonusing namespace lldb;
d495c534SGreg Claytonusing namespace lldb_private;
d495c534SGreg Clayton
d495c534SGreg Clayton// MemoryCache constructor
bb19a13cSSaleem AbdulrasoolMemoryCache::MemoryCache(Process &process)
b9c1b51eSKate Stone    : m_mutex(), m_L1_cache(), m_L2_cache(), m_invalid_ranges(),
358cf1eaSGreg Clayton      m_process(process),
b9c1b51eSKate Stone      m_L2_cache_line_byte_size(process.GetMemoryCacheLineSize()) {}
d495c534SGreg Clayton
d495c534SGreg Clayton// Destructor
fd2433e1SJonas DevlieghereMemoryCache::~MemoryCache() = default;
d495c534SGreg Clayton
b9c1b51eSKate Stonevoid MemoryCache::Clear(bool clear_invalid_ranges) {
bb19a13cSSaleem Abdulrasool  std::lock_guard<std::recursive_mutex> guard(m_mutex);
358cf1eaSGreg Clayton  m_L1_cache.clear();
358cf1eaSGreg Clayton  m_L2_cache.clear();
15fc2be7SGreg Clayton  if (clear_invalid_ranges)
15fc2be7SGreg Clayton    m_invalid_ranges.Clear();
358cf1eaSGreg Clayton  m_L2_cache_line_byte_size = m_process.GetMemoryCacheLineSize();
358cf1eaSGreg Clayton}
358cf1eaSGreg Clayton
b9c1b51eSKate Stonevoid MemoryCache::AddL1CacheData(lldb::addr_t addr, const void *src,
b9c1b51eSKate Stone                                 size_t src_len) {
b9c1b51eSKate Stone  AddL1CacheData(
b9c1b51eSKate Stone      addr, DataBufferSP(new DataBufferHeap(DataBufferHeap(src, src_len))));
358cf1eaSGreg Clayton}
358cf1eaSGreg Clayton
b9c1b51eSKate Stonevoid MemoryCache::AddL1CacheData(lldb::addr_t addr,
b9c1b51eSKate Stone                                 const DataBufferSP &data_buffer_sp) {
bb19a13cSSaleem Abdulrasool  std::lock_guard<std::recursive_mutex> guard(m_mutex);
358cf1eaSGreg Clayton  m_L1_cache[addr] = data_buffer_sp;
d495c534SGreg Clayton}
d495c534SGreg Clayton
b9c1b51eSKate Stonevoid MemoryCache::Flush(addr_t addr, size_t size) {
d495c534SGreg Clayton  if (size == 0)
d495c534SGreg Clayton    return;
d495c534SGreg Clayton
bb19a13cSSaleem Abdulrasool  std::lock_guard<std::recursive_mutex> guard(m_mutex);
d495c534SGreg Clayton
358cf1eaSGreg Clayton  // Erase any blocks from the L1 cache that intersect with the flush range
b9c1b51eSKate Stone  if (!m_L1_cache.empty()) {
358cf1eaSGreg Clayton    AddrRange flush_range(addr, size);
7a4eed28SMarianne Mailhot-Sarrasin    BlockMap::iterator pos = m_L1_cache.upper_bound(addr);
b9c1b51eSKate Stone    if (pos != m_L1_cache.begin()) {
7a4eed28SMarianne Mailhot-Sarrasin      --pos;
7a4eed28SMarianne Mailhot-Sarrasin    }
b9c1b51eSKate Stone    while (pos != m_L1_cache.end()) {
358cf1eaSGreg Clayton      AddrRange chunk_range(pos->first, pos->second->GetByteSize());
358cf1eaSGreg Clayton      if (!chunk_range.DoesIntersect(flush_range))
358cf1eaSGreg Clayton        break;
358cf1eaSGreg Clayton      pos = m_L1_cache.erase(pos);
358cf1eaSGreg Clayton    }
358cf1eaSGreg Clayton  }
358cf1eaSGreg Clayton
b9c1b51eSKate Stone  if (!m_L2_cache.empty()) {
358cf1eaSGreg Clayton    const uint32_t cache_line_byte_size = m_L2_cache_line_byte_size;
de0e9d04SGreg Clayton    const addr_t end_addr = (addr + size - 1);
de0e9d04SGreg Clayton    const addr_t first_cache_line_addr = addr - (addr % cache_line_byte_size);
b9c1b51eSKate Stone    const addr_t last_cache_line_addr =
b9c1b51eSKate Stone        end_addr - (end_addr % cache_line_byte_size);
de0e9d04SGreg Clayton    // Watch for overflow where size will cause us to go off the end of the
de0e9d04SGreg Clayton    // 64 bit address space
de0e9d04SGreg Clayton    uint32_t num_cache_lines;
de0e9d04SGreg Clayton    if (last_cache_line_addr >= first_cache_line_addr)
b9c1b51eSKate Stone      num_cache_lines = ((last_cache_line_addr - first_cache_line_addr) /
b9c1b51eSKate Stone                         cache_line_byte_size) +
b9c1b51eSKate Stone                        1;
de0e9d04SGreg Clayton    else
b9c1b51eSKate Stone      num_cache_lines =
b9c1b51eSKate Stone          (UINT64_MAX - first_cache_line_addr + 1) / cache_line_byte_size;
d495c534SGreg Clayton
de0e9d04SGreg Clayton    uint32_t cache_idx = 0;
b9c1b51eSKate Stone    for (addr_t curr_addr = first_cache_line_addr; cache_idx < num_cache_lines;
b9c1b51eSKate Stone         curr_addr += cache_line_byte_size, ++cache_idx) {
358cf1eaSGreg Clayton      BlockMap::iterator pos = m_L2_cache.find(curr_addr);
358cf1eaSGreg Clayton      if (pos != m_L2_cache.end())
358cf1eaSGreg Clayton        m_L2_cache.erase(pos);
358cf1eaSGreg Clayton    }
d495c534SGreg Clayton  }
d495c534SGreg Clayton}
d495c534SGreg Clayton
b9c1b51eSKate Stonevoid MemoryCache::AddInvalidRange(lldb::addr_t base_addr,
b9c1b51eSKate Stone                                  lldb::addr_t byte_size) {
b9c1b51eSKate Stone  if (byte_size > 0) {
bb19a13cSSaleem Abdulrasool    std::lock_guard<std::recursive_mutex> guard(m_mutex);
a9f40ad8SGreg Clayton    InvalidRanges::Entry range(base_addr, byte_size);
a9f40ad8SGreg Clayton    m_invalid_ranges.Append(range);
a9f40ad8SGreg Clayton    m_invalid_ranges.Sort();
a9f40ad8SGreg Clayton  }
a9f40ad8SGreg Clayton}
a9f40ad8SGreg Clayton
b9c1b51eSKate Stonebool MemoryCache::RemoveInvalidRange(lldb::addr_t base_addr,
b9c1b51eSKate Stone                                     lldb::addr_t byte_size) {
b9c1b51eSKate Stone  if (byte_size > 0) {
bb19a13cSSaleem Abdulrasool    std::lock_guard<std::recursive_mutex> guard(m_mutex);
a9f40ad8SGreg Clayton    const uint32_t idx = m_invalid_ranges.FindEntryIndexThatContains(base_addr);
b9c1b51eSKate Stone    if (idx != UINT32_MAX) {
a9f40ad8SGreg Clayton      const InvalidRanges::Entry *entry = m_invalid_ranges.GetEntryAtIndex(idx);
b9c1b51eSKate Stone      if (entry->GetRangeBase() == base_addr &&
b9c1b51eSKate Stone          entry->GetByteSize() == byte_size)
b807a287SPavel Labath        return m_invalid_ranges.RemoveEntryAtIndex(idx);
a9f40ad8SGreg Clayton    }
a9f40ad8SGreg Clayton  }
a9f40ad8SGreg Clayton  return false;
a9f40ad8SGreg Clayton}
a9f40ad8SGreg Clayton
97206d57SZachary Turnersize_t MemoryCache::Read(addr_t addr, void *dst, size_t dst_len,
97206d57SZachary Turner                         Status &error) {
d495c534SGreg Clayton  size_t bytes_left = dst_len;
6076bf4eSJason Molenda
05097246SAdrian Prantl  // Check the L1 cache for a range that contain the entire memory read. If we
05097246SAdrian Prantl  // find a range in the L1 cache that does, we use it. Else we fall back to
05097246SAdrian Prantl  // reading memory in m_L2_cache_line_byte_size byte sized chunks. The L1
05097246SAdrian Prantl  // cache contains chunks of memory that are not required to be
05097246SAdrian Prantl  // m_L2_cache_line_byte_size bytes in size, so we don't try anything tricky
05097246SAdrian Prantl  // when reading from them (no partial reads from the L1 cache).
358cf1eaSGreg Clayton
bb19a13cSSaleem Abdulrasool  std::lock_guard<std::recursive_mutex> guard(m_mutex);
b9c1b51eSKate Stone  if (!m_L1_cache.empty()) {
358cf1eaSGreg Clayton    AddrRange read_range(addr, dst_len);
a38312a9SJason Molenda    BlockMap::iterator pos = m_L1_cache.upper_bound(addr);
b9c1b51eSKate Stone    if (pos != m_L1_cache.begin()) {
358cf1eaSGreg Clayton      --pos;
358cf1eaSGreg Clayton    }
a38312a9SJason Molenda    AddrRange chunk_range(pos->first, pos->second->GetByteSize());
b9c1b51eSKate Stone    if (chunk_range.Contains(read_range)) {
cee6c47aSJason Molenda      memcpy(dst, pos->second->GetBytes() + (addr - chunk_range.GetRangeBase()),
b9c1b51eSKate Stone             dst_len);
358cf1eaSGreg Clayton      return dst_len;
358cf1eaSGreg Clayton    }
358cf1eaSGreg Clayton  }
358cf1eaSGreg Clayton
05097246SAdrian Prantl  // If this memory read request is larger than the cache line size, then we
05097246SAdrian Prantl  // (1) try to read as much of it at once as possible, and (2) don't add the
05097246SAdrian Prantl  // data to the memory cache.  We don't want to split a big read up into more
05097246SAdrian Prantl  // separate reads than necessary, and with a large memory read request, it is
05097246SAdrian Prantl  // unlikely that the caller function will ask for the next
6076bf4eSJason Molenda  // 4 bytes after the large memory read - so there's little benefit to saving
6076bf4eSJason Molenda  // it in the cache.
b9c1b51eSKate Stone  if (dst && dst_len > m_L2_cache_line_byte_size) {
b9c1b51eSKate Stone    size_t bytes_read =
b9c1b51eSKate Stone        m_process.ReadMemoryFromInferior(addr, dst, dst_len, error);
b9c1b51eSKate Stone    // Add this non block sized range to the L1 cache if we actually read
b9c1b51eSKate Stone    // anything
358cf1eaSGreg Clayton    if (bytes_read > 0)
358cf1eaSGreg Clayton      AddL1CacheData(addr, dst, bytes_read);
358cf1eaSGreg Clayton    return bytes_read;
6076bf4eSJason Molenda  }
6076bf4eSJason Molenda
b9c1b51eSKate Stone  if (dst && bytes_left > 0) {
358cf1eaSGreg Clayton    const uint32_t cache_line_byte_size = m_L2_cache_line_byte_size;
d495c534SGreg Clayton    uint8_t *dst_buf = (uint8_t *)dst;
d495c534SGreg Clayton    addr_t curr_addr = addr - (addr % cache_line_byte_size);
d495c534SGreg Clayton    addr_t cache_offset = addr - curr_addr;
d495c534SGreg Clayton
b9c1b51eSKate Stone    while (bytes_left > 0) {
b9c1b51eSKate Stone      if (m_invalid_ranges.FindEntryThatContains(curr_addr)) {
b9c1b51eSKate Stone        error.SetErrorStringWithFormat("memory read failed for 0x%" PRIx64,
b9c1b51eSKate Stone                                       curr_addr);
a9f40ad8SGreg Clayton        return dst_len - bytes_left;
55d24311SJim Ingham      }
a9f40ad8SGreg Clayton
358cf1eaSGreg Clayton      BlockMap::const_iterator pos = m_L2_cache.find(curr_addr);
358cf1eaSGreg Clayton      BlockMap::const_iterator end = m_L2_cache.end();
d495c534SGreg Clayton
b9c1b51eSKate Stone      if (pos != end) {
d495c534SGreg Clayton        size_t curr_read_size = cache_line_byte_size - cache_offset;
d495c534SGreg Clayton        if (curr_read_size > bytes_left)
d495c534SGreg Clayton          curr_read_size = bytes_left;
d495c534SGreg Clayton
b9c1b51eSKate Stone        memcpy(dst_buf + dst_len - bytes_left,
b9c1b51eSKate Stone               pos->second->GetBytes() + cache_offset, curr_read_size);
d495c534SGreg Clayton
d495c534SGreg Clayton        bytes_left -= curr_read_size;
d495c534SGreg Clayton        curr_addr += curr_read_size + cache_offset;
d495c534SGreg Clayton        cache_offset = 0;
d495c534SGreg Clayton
b9c1b51eSKate Stone        if (bytes_left > 0) {
d495c534SGreg Clayton          // Get sequential cache page hits
b9c1b51eSKate Stone          for (++pos; (pos != end) && (bytes_left > 0); ++pos) {
d495c534SGreg Clayton            assert((curr_addr % cache_line_byte_size) == 0);
d495c534SGreg Clayton
d495c534SGreg Clayton            if (pos->first != curr_addr)
d495c534SGreg Clayton              break;
d495c534SGreg Clayton
d495c534SGreg Clayton            curr_read_size = pos->second->GetByteSize();
d495c534SGreg Clayton            if (curr_read_size > bytes_left)
d495c534SGreg Clayton              curr_read_size = bytes_left;
d495c534SGreg Clayton
b9c1b51eSKate Stone            memcpy(dst_buf + dst_len - bytes_left, pos->second->GetBytes(),
b9c1b51eSKate Stone                   curr_read_size);
d495c534SGreg Clayton
d495c534SGreg Clayton            bytes_left -= curr_read_size;
d495c534SGreg Clayton            curr_addr += curr_read_size;
d495c534SGreg Clayton
05097246SAdrian Prantl            // We have a cache page that succeeded to read some bytes but not
05097246SAdrian Prantl            // an entire page. If this happens, we must cap off how much data
05097246SAdrian Prantl            // we are able to read...
d495c534SGreg Clayton            if (pos->second->GetByteSize() != cache_line_byte_size)
d495c534SGreg Clayton              return dst_len - bytes_left;
d495c534SGreg Clayton          }
d495c534SGreg Clayton        }
d495c534SGreg Clayton      }
d495c534SGreg Clayton
d495c534SGreg Clayton      // We need to read from the process
d495c534SGreg Clayton
b9c1b51eSKate Stone      if (bytes_left > 0) {
d495c534SGreg Clayton        assert((curr_addr % cache_line_byte_size) == 0);
d5b44036SJonas Devlieghere        std::unique_ptr<DataBufferHeap> data_buffer_heap_up(
b9c1b51eSKate Stone            new DataBufferHeap(cache_line_byte_size, 0));
b9c1b51eSKate Stone        size_t process_bytes_read = m_process.ReadMemoryFromInferior(
d5b44036SJonas Devlieghere            curr_addr, data_buffer_heap_up->GetBytes(),
d5b44036SJonas Devlieghere            data_buffer_heap_up->GetByteSize(), error);
d495c534SGreg Clayton        if (process_bytes_read == 0)
d495c534SGreg Clayton          return dst_len - bytes_left;
d495c534SGreg Clayton
256e6169SPaolo Severini        if (process_bytes_read != cache_line_byte_size) {
256e6169SPaolo Severini          if (process_bytes_read < data_buffer_heap_up->GetByteSize()) {
256e6169SPaolo Severini            dst_len -= data_buffer_heap_up->GetByteSize() - process_bytes_read;
256e6169SPaolo Severini            bytes_left = process_bytes_read;
256e6169SPaolo Severini          }
d5b44036SJonas Devlieghere          data_buffer_heap_up->SetByteSize(process_bytes_read);
256e6169SPaolo Severini        }
d5b44036SJonas Devlieghere        m_L2_cache[curr_addr] = DataBufferSP(data_buffer_heap_up.release());
d495c534SGreg Clayton        // We have read data and put it into the cache, continue through the
d495c534SGreg Clayton        // loop again to get the data out of the cache...
d495c534SGreg Clayton      }
d495c534SGreg Clayton    }
d495c534SGreg Clayton  }
d495c534SGreg Clayton
d495c534SGreg Clayton  return dst_len - bytes_left;
d495c534SGreg Clayton}
d495c534SGreg Clayton
b9c1b51eSKate StoneAllocatedBlock::AllocatedBlock(lldb::addr_t addr, uint32_t byte_size,
b9c1b51eSKate Stone                               uint32_t permissions, uint32_t chunk_size)
ac7c2ef5SGreg Clayton    : m_range(addr, byte_size), m_permissions(permissions),
ac7c2ef5SGreg Clayton      m_chunk_size(chunk_size)
d495c534SGreg Clayton{
ac7c2ef5SGreg Clayton  // The entire address range is free to start with.
ac7c2ef5SGreg Clayton  m_free_blocks.Append(m_range);
d495c534SGreg Clayton  assert(byte_size > chunk_size);
d495c534SGreg Clayton}
d495c534SGreg Clayton
fd2433e1SJonas DevlieghereAllocatedBlock::~AllocatedBlock() = default;
d495c534SGreg Clayton
b9c1b51eSKate Stonelldb::addr_t AllocatedBlock::ReserveBlock(uint32_t size) {
98f9bcc1SGreg Clayton  // We must return something valid for zero bytes.
98f9bcc1SGreg Clayton  if (size == 0)
98f9bcc1SGreg Clayton    size = 1;
a007a6d8SPavel Labath  Log *log = GetLog(LLDBLog::Process);
d495c534SGreg Clayton
ac7c2ef5SGreg Clayton  const size_t free_count = m_free_blocks.GetSize();
ac7c2ef5SGreg Clayton  for (size_t i=0; i<free_count; ++i)
ac7c2ef5SGreg Clayton  {
21b4b2eaSGreg Clayton    auto &free_block = m_free_blocks.GetEntryRef(i);
ac7c2ef5SGreg Clayton    const lldb::addr_t range_size = free_block.GetByteSize();
ac7c2ef5SGreg Clayton    if (range_size >= size)
ac7c2ef5SGreg Clayton    {
ac7c2ef5SGreg Clayton      // We found a free block that is big enough for our data. Figure out how
05097246SAdrian Prantl      // many chunks we will need and calculate the resulting block size we
05097246SAdrian Prantl      // will reserve.
98f9bcc1SGreg Clayton      addr_t addr = free_block.GetRangeBase();
ac7c2ef5SGreg Clayton      size_t num_chunks = CalculateChunksNeededForSize(size);
ac7c2ef5SGreg Clayton      lldb::addr_t block_size = num_chunks * m_chunk_size;
ac7c2ef5SGreg Clayton      lldb::addr_t bytes_left = range_size - block_size;
ac7c2ef5SGreg Clayton      if (bytes_left == 0)
ac7c2ef5SGreg Clayton      {
ac7c2ef5SGreg Clayton        // The newly allocated block will take all of the bytes in this
ac7c2ef5SGreg Clayton        // available block, so we can just add it to the allocated ranges and
ac7c2ef5SGreg Clayton        // remove the range from the free ranges.
ac7c2ef5SGreg Clayton        m_reserved_blocks.Insert(free_block, false);
ac7c2ef5SGreg Clayton        m_free_blocks.RemoveEntryAtIndex(i);
ac7c2ef5SGreg Clayton      }
ac7c2ef5SGreg Clayton      else
ac7c2ef5SGreg Clayton      {
ac7c2ef5SGreg Clayton        // Make the new allocated range and add it to the allocated ranges.
21b4b2eaSGreg Clayton        Range<lldb::addr_t, uint32_t> reserved_block(free_block);
ac7c2ef5SGreg Clayton        reserved_block.SetByteSize(block_size);
05097246SAdrian Prantl        // Insert the reserved range and don't combine it with other blocks in
05097246SAdrian Prantl        // the reserved blocks list.
ac7c2ef5SGreg Clayton        m_reserved_blocks.Insert(reserved_block, false);
ac7c2ef5SGreg Clayton        // Adjust the free range in place since we won't change the sorted
ac7c2ef5SGreg Clayton        // ordering of the m_free_blocks list.
ac7c2ef5SGreg Clayton        free_block.SetRangeBase(reserved_block.GetRangeEnd());
ac7c2ef5SGreg Clayton        free_block.SetByteSize(bytes_left);
d495c534SGreg Clayton      }
98f9bcc1SGreg Clayton      LLDB_LOGV(log, "({0}) (size = {1} ({1:x})) => {2:x}", this, size, addr);
98f9bcc1SGreg Clayton      return addr;
d495c534SGreg Clayton    }
d495c534SGreg Clayton  }
e7701feeSJim Ingham
98f9bcc1SGreg Clayton  LLDB_LOGV(log, "({0}) (size = {1} ({1:x})) => {2:x}", this, size,
98f9bcc1SGreg Clayton            LLDB_INVALID_ADDRESS);
98f9bcc1SGreg Clayton  return LLDB_INVALID_ADDRESS;
d495c534SGreg Clayton}
d495c534SGreg Clayton
b9c1b51eSKate Stonebool AllocatedBlock::FreeBlock(addr_t addr) {
d495c534SGreg Clayton  bool success = false;
ac7c2ef5SGreg Clayton  auto entry_idx = m_reserved_blocks.FindEntryIndexThatContains(addr);
ac7c2ef5SGreg Clayton  if (entry_idx != UINT32_MAX)
ac7c2ef5SGreg Clayton  {
ac7c2ef5SGreg Clayton    m_free_blocks.Insert(m_reserved_blocks.GetEntryRef(entry_idx), true);
ac7c2ef5SGreg Clayton    m_reserved_blocks.RemoveEntryAtIndex(entry_idx);
d495c534SGreg Clayton    success = true;
d495c534SGreg Clayton  }
a007a6d8SPavel Labath  Log *log = GetLog(LLDBLog::Process);
ac7c2ef5SGreg Clayton  LLDB_LOGV(log, "({0}) (addr = {1:x}) => {2}", this, addr, success);
d495c534SGreg Clayton  return success;
d495c534SGreg Clayton}
d495c534SGreg Clayton
b9c1b51eSKate StoneAllocatedMemoryCache::AllocatedMemoryCache(Process &process)
b9c1b51eSKate Stone    : m_process(process), m_mutex(), m_memory_map() {}
d495c534SGreg Clayton
fd2433e1SJonas DevlieghereAllocatedMemoryCache::~AllocatedMemoryCache() = default;
d495c534SGreg Clayton
b9c1b51eSKate Stonevoid AllocatedMemoryCache::Clear() {
bb19a13cSSaleem Abdulrasool  std::lock_guard<std::recursive_mutex> guard(m_mutex);
b9c1b51eSKate Stone  if (m_process.IsAlive()) {
d495c534SGreg Clayton    PermissionsToBlockMap::iterator pos, end = m_memory_map.end();
d495c534SGreg Clayton    for (pos = m_memory_map.begin(); pos != end; ++pos)
d495c534SGreg Clayton      m_process.DoDeallocateMemory(pos->second->GetBaseAddress());
d495c534SGreg Clayton  }
d495c534SGreg Clayton  m_memory_map.clear();
d495c534SGreg Clayton}
d495c534SGreg Clayton
d495c534SGreg ClaytonAllocatedMemoryCache::AllocatedBlockSP
b9c1b51eSKate StoneAllocatedMemoryCache::AllocatePage(uint32_t byte_size, uint32_t permissions,
97206d57SZachary Turner                                   uint32_t chunk_size, Status &error) {
d495c534SGreg Clayton  AllocatedBlockSP block_sp;
d495c534SGreg Clayton  const size_t page_size = 4096;
d495c534SGreg Clayton  const size_t num_pages = (byte_size + page_size - 1) / page_size;
d495c534SGreg Clayton  const size_t page_byte_size = num_pages * page_size;
d495c534SGreg Clayton
d495c534SGreg Clayton  addr_t addr = m_process.DoAllocateMemory(page_byte_size, permissions, error);
d495c534SGreg Clayton
a007a6d8SPavel Labath  Log *log = GetLog(LLDBLog::Process);
b9c1b51eSKate Stone  if (log) {
63e5fb76SJonas Devlieghere    LLDB_LOGF(log,
63e5fb76SJonas Devlieghere              "Process::DoAllocateMemory (byte_size = 0x%8.8" PRIx32
b9c1b51eSKate Stone              ", permissions = %s) => 0x%16.16" PRIx64,
b9c1b51eSKate Stone              (uint32_t)page_byte_size, GetPermissionsAsCString(permissions),
d495c534SGreg Clayton              (uint64_t)addr);
d495c534SGreg Clayton  }
d495c534SGreg Clayton
b9c1b51eSKate Stone  if (addr != LLDB_INVALID_ADDRESS) {
796ac80bSJonas Devlieghere    block_sp = std::make_shared<AllocatedBlock>(addr, page_byte_size,
796ac80bSJonas Devlieghere                                                permissions, chunk_size);
d495c534SGreg Clayton    m_memory_map.insert(std::make_pair(permissions, block_sp));
d495c534SGreg Clayton  }
d495c534SGreg Clayton  return block_sp;
d495c534SGreg Clayton}
d495c534SGreg Clayton
b9c1b51eSKate Stonelldb::addr_t AllocatedMemoryCache::AllocateMemory(size_t byte_size,
d495c534SGreg Clayton                                                  uint32_t permissions,
97206d57SZachary Turner                                                  Status &error) {
bb19a13cSSaleem Abdulrasool  std::lock_guard<std::recursive_mutex> guard(m_mutex);
d495c534SGreg Clayton
d495c534SGreg Clayton  addr_t addr = LLDB_INVALID_ADDRESS;
b9c1b51eSKate Stone  std::pair<PermissionsToBlockMap::iterator, PermissionsToBlockMap::iterator>
b9c1b51eSKate Stone      range = m_memory_map.equal_range(permissions);
d495c534SGreg Clayton
b9c1b51eSKate Stone  for (PermissionsToBlockMap::iterator pos = range.first; pos != range.second;
b9c1b51eSKate Stone       ++pos) {
d495c534SGreg Clayton    addr = (*pos).second->ReserveBlock(byte_size);
e7701feeSJim Ingham    if (addr != LLDB_INVALID_ADDRESS)
e7701feeSJim Ingham      break;
d495c534SGreg Clayton  }
d495c534SGreg Clayton
b9c1b51eSKate Stone  if (addr == LLDB_INVALID_ADDRESS) {
d495c534SGreg Clayton    AllocatedBlockSP block_sp(AllocatePage(byte_size, permissions, 16, error));
d495c534SGreg Clayton
d495c534SGreg Clayton    if (block_sp)
d495c534SGreg Clayton      addr = block_sp->ReserveBlock(byte_size);
d495c534SGreg Clayton  }
a007a6d8SPavel Labath  Log *log = GetLog(LLDBLog::Process);
63e5fb76SJonas Devlieghere  LLDB_LOGF(log,
b9c1b51eSKate Stone            "AllocatedMemoryCache::AllocateMemory (byte_size = 0x%8.8" PRIx32
b9c1b51eSKate Stone            ", permissions = %s) => 0x%16.16" PRIx64,
b9c1b51eSKate Stone            (uint32_t)byte_size, GetPermissionsAsCString(permissions),
b9c1b51eSKate Stone            (uint64_t)addr);
d495c534SGreg Clayton  return addr;
d495c534SGreg Clayton}
d495c534SGreg Clayton
b9c1b51eSKate Stonebool AllocatedMemoryCache::DeallocateMemory(lldb::addr_t addr) {
bb19a13cSSaleem Abdulrasool  std::lock_guard<std::recursive_mutex> guard(m_mutex);
d495c534SGreg Clayton
d495c534SGreg Clayton  PermissionsToBlockMap::iterator pos, end = m_memory_map.end();
d495c534SGreg Clayton  bool success = false;
b9c1b51eSKate Stone  for (pos = m_memory_map.begin(); pos != end; ++pos) {
b9c1b51eSKate Stone    if (pos->second->Contains(addr)) {
d495c534SGreg Clayton      success = pos->second->FreeBlock(addr);
d495c534SGreg Clayton      break;
d495c534SGreg Clayton    }
d495c534SGreg Clayton  }
a007a6d8SPavel Labath  Log *log = GetLog(LLDBLog::Process);
63e5fb76SJonas Devlieghere  LLDB_LOGF(log,
63e5fb76SJonas Devlieghere            "AllocatedMemoryCache::DeallocateMemory (addr = 0x%16.16" PRIx64
b9c1b51eSKate Stone            ") => %i",
b9c1b51eSKate Stone            (uint64_t)addr, success);
d495c534SGreg Clayton  return success;
d495c534SGreg Clayton}