// Copyright (c) 2006, Google Inc.
// All rights reserved.
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//
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// contained_range_map-inl.h: Hierarchically-organized range map implementation.
//
// See contained_range_map.h for documentation.
//
// Author: Mark Mentovai
#ifndef PROCESSOR_CONTAINED_RANGE_MAP_INL_H__
#define PROCESSOR_CONTAINED_RANGE_MAP_INL_H__
#include "processor/contained_range_map.h"
#include <assert.h>
#include "processor/logging.h"
namespace google_breakpad {
template<typename AddressType, typename EntryType>
ContainedRangeMap<AddressType, EntryType>::~ContainedRangeMap() {
// Clear frees the children pointed to by the map, and frees the map itself.
Clear();
}
template<typename AddressType, typename EntryType>
bool ContainedRangeMap<AddressType, EntryType>::StoreRange(
const AddressType &base, const AddressType &size, const EntryType &entry) {
AddressType high = base + size - 1;
// Check for undersize or overflow.
if (size <= 0 || high < base) {
//TODO(nealsid) We are commenting this out in order to prevent
// excessive logging. We plan to move to better logging as this
// failure happens quite often and is expected(see comment in
// basic_source_line_resolver.cc:671).
// BPLOG(INFO) << "StoreRange failed, " << HexString(base) << "+"
// << HexString(size) << ", " << HexString(high);
return false;
}
if (!map_)
map_ = new AddressToRangeMap();
MapIterator iterator_base = map_->lower_bound(base);
MapIterator iterator_high = map_->lower_bound(high);
MapIterator iterator_end = map_->end();
if (iterator_base == iterator_high && iterator_base != iterator_end &&
base >= iterator_base->second->base_) {
// The new range is entirely within an existing child range.
// If the new range's geometry is exactly equal to an existing child
// range's, it violates the containment rules, and an attempt to store
// it must fail. iterator_base->first contains the key, which was the
// containing child's high address.
if (iterator_base->second->base_ == base && iterator_base->first == high) {
// TODO(nealsid): See the TODO above on why this is commented out.
// BPLOG(INFO) << "StoreRange failed, identical range is already "
// "present: " << HexString(base) << "+" << HexString(size);
return false;
}
// Pass the new range on to the child to attempt to store.
return iterator_base->second->StoreRange(base, size, entry);
}
// iterator_high might refer to an irrelevant range: one whose base address
// is higher than the new range's high address. Set contains_high to true
// only if iterator_high refers to a range that is at least partially
// within the new range.
bool contains_high = iterator_high != iterator_end &&
high >= iterator_high->second->base_;
// If the new range encompasses any existing child ranges, it must do so
// fully. Partial containment isn't allowed.
if ((iterator_base != iterator_end && base > iterator_base->second->base_) ||
(contains_high && high < iterator_high->first)) {
// TODO(mmentovai): Some symbol files will trip this check frequently
// on STACK lines. Too many messages will be produced. These are more
// suitable for a DEBUG channel than an INFO channel.
// BPLOG(INFO) << "StoreRange failed, new range partially contains "
// "existing range: " << HexString(base) << "+" <<
// HexString(size);
return false;
}
// When copying and erasing contained ranges, the "end" iterator needs to
// point one past the last item of the range to copy. If contains_high is
// false, the iterator's already in the right place; the increment is safe
// because contains_high can't be true if iterator_high == iterator_end.
if (contains_high)
++iterator_high;
// Optimization: if the iterators are equal, no child ranges would be
// moved. Create the new child range with a NULL map to conserve space
// in leaf nodes, of which there will be many.
AddressToRangeMap *child_map = NULL;
if (iterator_base != iterator_high) {
// The children of this range that are contained by the new range must
// be transferred over to the new range. Create the new child range map
// and copy the pointers to range maps it should contain into it.
child_map = new AddressToRangeMap(iterator_base, iterator_high);
// Remove the copied child pointers from this range's map of children.
map_->erase(iterator_base, iterator_high);
}
// Store the new range in the map by its high address. Any children that
// the new child range contains were formerly children of this range but
// are now this range's grandchildren. Ownership of these is transferred
// to the new child range.
map_->insert(MapValue(high,
new ContainedRangeMap(base, entry, child_map)));
return true;
}
template<typename AddressType, typename EntryType>
bool ContainedRangeMap<AddressType, EntryType>::RetrieveRange(
const AddressType &address, EntryType *entry) const {
BPLOG_IF(ERROR, !entry) << "ContainedRangeMap::RetrieveRange requires "
"|entry|";
assert(entry);
// If nothing was ever stored, then there's nothing to retrieve.
if (!map_)
return false;
// Get an iterator to the child range whose high address is equal to or
// greater than the supplied address. If the supplied address is higher
// than all of the high addresses in the range, then this range does not
// contain a child at address, so return false. If the supplied address
// is lower than the base address of the child range, then it is not within
// the child range, so return false.
MapConstIterator iterator = map_->lower_bound(address);
if (iterator == map_->end() || address < iterator->second->base_)
return false;
// The child in iterator->second contains the specified address. Find out
// if it has a more-specific descendant that also contains it. If it does,
// it will set |entry| appropriately. If not, set |entry| to the child.
if (!iterator->second->RetrieveRange(address, entry))
*entry = iterator->second->entry_;
return true;
}
template<typename AddressType, typename EntryType>
void ContainedRangeMap<AddressType, EntryType>::Clear() {
if (map_) {
MapConstIterator end = map_->end();
for (MapConstIterator child = map_->begin(); child != end; ++child)
delete child->second;
delete map_;
map_ = NULL;
}
}
} // namespace google_breakpad
#endif // PROCESSOR_CONTAINED_RANGE_MAP_INL_H__