// Copyright (c) 2013 The Chromium OS Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef CHROMIUMOS_WIDE_PROFILING_ADDRESS_MAPPER_H_ #define CHROMIUMOS_WIDE_PROFILING_ADDRESS_MAPPER_H_ #include #include #include #include namespace quipper { class AddressMapper { private: struct MappedRange; public: AddressMapper() : page_alignment_(0) {} // Copy constructor: copies mappings from |source| to this AddressMapper. This // is useful for copying mappings from parent to child process upon fork(). It // is also useful to copy kernel mappings to any process that is created. AddressMapper(const AddressMapper& other); typedef std::list MappingList; // Maps a new address range [real_addr, real_addr + length) to quipper space. // |id| is an identifier value to be stored along with the mapping. // AddressMapper does not care whether it is unique compared to all other IDs // passed in. That is up to the caller to keep track of. // |offset_base| represents the offset within the original region at which the // mapping begins. The original region can be much larger than the mapped // region. // e.g. Given a mapped region with base=0x4000 and size=0x2000 mapped with // offset_base=0x10000, then the address 0x5000 maps to an offset of 0x11000 // (0x5000 - 0x4000 + 0x10000). // |remove_existing_mappings| indicates whether to remove old mappings that // collide with the new range in real address space, indicating it has been // unmapped. // Returns true if mapping was successful. bool MapWithID(const uint64_t real_addr, const uint64_t size, const uint64_t id, const uint64_t offset_base, bool remove_existing_mappings); // Looks up |real_addr| and returns the mapped address and MappingList // iterator. bool GetMappedAddressAndListIterator(const uint64_t real_addr, uint64_t* mapped_addr, MappingList::const_iterator* iter) const; // Uses MappingList iterator to fetch and return the mapping's ID and offset // from the start of the mapped space. // |real_addr_iter| must be valid and not at the end of the list. void GetMappedIDAndOffset(const uint64_t real_addr, MappingList::const_iterator real_addr_iter, uint64_t* id, uint64_t* offset) const; // Returns true if there are no mappings. bool IsEmpty() const { return mappings_.empty(); } // Returns the number of address ranges that are currently mapped. size_t GetNumMappedRanges() const { return mappings_.size(); } // Returns the maximum length of quipper space containing mapped areas. // There may be gaps in between blocks. // If the result is 2^64 (all of quipper space), this returns 0. Call // IsEmpty() to distinguish this from actual emptiness. uint64_t GetMaxMappedLength() const; // Sets the page alignment size. Set to 0 to disable page alignment. // The alignment value must be a power of two. Any other value passed in will // have no effect. Changing this value in between mappings results in // undefined behavior. void set_page_alignment(uint64_t alignment) { // This also includes the case of 0. if ((alignment & (alignment - 1)) == 0) page_alignment_ = alignment; } // Dumps the state of the address mapper to logs. Useful for debugging. void DumpToLog() const; private: typedef std::map MappingMap; struct MappedRange { uint64_t real_addr; uint64_t mapped_addr; uint64_t size; uint64_t id; uint64_t offset_base; // Length of unmapped space after this range. uint64_t unmapped_space_after; // Determines if this range intersects another range in real space. inline bool Intersects(const MappedRange& range) const { return (real_addr <= range.real_addr + range.size - 1) && (real_addr + size - 1 >= range.real_addr); } // Determines if this range fully covers another range in real space. inline bool Covers(const MappedRange& range) const { return (real_addr <= range.real_addr) && (real_addr + size - 1 >= range.real_addr + range.size - 1); } // Determines if this range fully contains another range in real space. // This is different from Covers() in that the boundaries cannot overlap. inline bool Contains(const MappedRange& range) const { return (real_addr < range.real_addr) && (real_addr + size - 1 > range.real_addr + range.size - 1); } // Determines if this range contains the given address |addr|. inline bool ContainsAddress(uint64_t addr) const { return (addr >= real_addr && addr <= real_addr + size - 1); } }; // Returns an iterator to a MappedRange in |mappings_| that contains // |real_addr|. Returns |mappings_.end()| if no range contains |real_addr|. MappingList::const_iterator GetRangeContainingAddress( uint64_t real_addr) const; // Removes an existing address mapping, given by an iterator pointing to an // element of |mappings_|. void Unmap(MappingList::iterator mapping_iter); // Given an address, and a nonzero, power-of-two |page_alignment_| value, // returns the offset of the address from the start of the page it is on. // Equivalent to |addr % page_alignment_|. Should not be called if // |page_alignment_| is zero. uint64_t GetAlignedOffset(uint64_t addr) const { return addr & (page_alignment_ - 1); } // Container for all the existing mappings. MappingList mappings_; // Maps real addresses to iterators pointing to entries within |mappings_|. // Must maintain a 1:1 entry correspondence with |mappings_|. MappingMap real_addr_to_mapped_range_; // If set to nonzero, use this as a mapping page boundary. If a mapping does // not begin at a multiple of this value, the remapped address should be given // an offset that is the remainder. // // e.g. if alignment=0x1000 and a mapping starts at 0x520100, then the // remapping should treat the mapping as starting at 0x520000, but addresses // are only valid starting at 0x520100. uint64_t page_alignment_; }; } // namespace quipper #endif // CHROMIUMOS_WIDE_PROFILING_ADDRESS_MAPPER_H_