base/debug/proc_maps_linux.h - cobalt - Git at Google

 // Copyright (c) 2013 The Chromium 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 BASE_DEBUG_PROC_MAPS_LINUX_H_
 #define BASE_DEBUG_PROC_MAPS_LINUX_H_

 #include <string>
 #include <vector>

 #include "base/base_export.h"
 #include "starboard/types.h"

 namespace base {
 namespace debug {

 // Describes a region of mapped memory and the path of the file mapped.
 struct MappedMemoryRegion {
   enum Permission {
     READ = 1 << 0,
     WRITE = 1 << 1,
     EXECUTE = 1 << 2,
     PRIVATE = 1 << 3,  // If set, region is private, otherwise it is shared.
   };

   // The address range [start,end) of mapped memory.
   uintptr_t start;
   uintptr_t end;

   // Byte offset into |path| of the range mapped into memory.
   unsigned long long offset;

   // Image base, if this mapping corresponds to an ELF image.
   uintptr_t base;

   // Bitmask of read/write/execute/private/shared permissions.
   uint8_t permissions;

   // Name of the file mapped into memory.
   //
   // NOTE: path names aren't guaranteed to point at valid files. For example,
   // "[heap]" and "[stack]" are used to represent the location of the process'
   // heap and stack, respectively.
   std::string path;
 };

 // Reads the data from /proc/self/maps and stores the result in |proc_maps|.
 // Returns true if successful, false otherwise.
 //
 // There is *NO* guarantee that the resulting contents will be free of
 // duplicates or even contain valid entries by time the method returns.
 //
 //
 // THE GORY DETAILS
 //
 // Did you know it's next-to-impossible to atomically read the whole contents
 // of /proc/<pid>/maps? You would think that if we passed in a large-enough
 // buffer to read() that It Should Just Work(tm), but sadly that's not the case.
 //
 // Linux's procfs uses seq_file [1] for handling iteration, text formatting,
 // and dealing with resulting data that is larger than the size of a page. That
 // last bit is especially important because it means that seq_file will never
 // return more than the size of a page in a single call to read().
 //
 // Unfortunately for a program like Chrome the size of /proc/self/maps is
 // larger than the size of page so we're forced to call read() multiple times.
 // If the virtual memory table changed in any way between calls to read() (e.g.,
 // a different thread calling mprotect()), it can make seq_file generate
 // duplicate entries or skip entries.
 //
 // Even if seq_file was changed to keep flushing the contents of its page-sized
 // buffer to the usermode buffer inside a single call to read(), it has to
 // release its lock on the virtual memory table to handle page faults while
 // copying data to usermode. This puts us in the same situation where the table
 // can change while we're copying data.
 //
 // Alternatives such as fork()-and-suspend-the-parent-while-child-reads were
 // attempted, but they present more subtle problems than it's worth. Depending
 // on your use case your best bet may be to read /proc/<pid>/maps prior to
 // starting other threads.
 //
 // [1] http://kernelnewbies.org/Documents/SeqFileHowTo
 BASE_EXPORT bool ReadProcMaps(std::string* proc_maps);

 // Parses /proc/<pid>/maps input data and stores in |regions|. Returns true
 // and updates |regions| if and only if all of |input| was successfully parsed.
 BASE_EXPORT bool ParseProcMaps(const std::string& input,
                                std::vector<MappedMemoryRegion>* regions);

 }  // namespace debug
 }  // namespace base

 #endif  // BASE_DEBUG_PROC_MAPS_LINUX_H_
	// Copyright (c) 2013 The Chromium 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 BASE_DEBUG_PROC_MAPS_LINUX_H_
	#define BASE_DEBUG_PROC_MAPS_LINUX_H_

	#include <string>
	#include <vector>

	#include "base/base_export.h"
	#include "starboard/types.h"

	namespace base {
	namespace debug {

	// Describes a region of mapped memory and the path of the file mapped.
	struct MappedMemoryRegion {
	enum Permission {
	READ = 1 << 0,
	WRITE = 1 << 1,
	EXECUTE = 1 << 2,
	PRIVATE = 1 << 3, // If set, region is private, otherwise it is shared.
	};

	// The address range [start,end) of mapped memory.
	uintptr_t start;
	uintptr_t end;

	// Byte offset into \|path\| of the range mapped into memory.
	unsigned long long offset;

	// Image base, if this mapping corresponds to an ELF image.
	uintptr_t base;

	// Bitmask of read/write/execute/private/shared permissions.
	uint8_t permissions;

	// Name of the file mapped into memory.
	//
	// NOTE: path names aren't guaranteed to point at valid files. For example,
	// "[heap]" and "[stack]" are used to represent the location of the process'
	// heap and stack, respectively.
	std::string path;
	};

	// Reads the data from /proc/self/maps and stores the result in \|proc_maps\|.
	// Returns true if successful, false otherwise.
	//
	// There is NO guarantee that the resulting contents will be free of
	// duplicates or even contain valid entries by time the method returns.
	//
	//
	// THE GORY DETAILS
	//
	// Did you know it's next-to-impossible to atomically read the whole contents
	// of /proc/<pid>/maps? You would think that if we passed in a large-enough
	// buffer to read() that It Should Just Work(tm), but sadly that's not the case.
	//
	// Linux's procfs uses seq_file [1] for handling iteration, text formatting,
	// and dealing with resulting data that is larger than the size of a page. That
	// last bit is especially important because it means that seq_file will never
	// return more than the size of a page in a single call to read().
	//
	// Unfortunately for a program like Chrome the size of /proc/self/maps is
	// larger than the size of page so we're forced to call read() multiple times.
	// If the virtual memory table changed in any way between calls to read() (e.g.,
	// a different thread calling mprotect()), it can make seq_file generate
	// duplicate entries or skip entries.
	//
	// Even if seq_file was changed to keep flushing the contents of its page-sized
	// buffer to the usermode buffer inside a single call to read(), it has to
	// release its lock on the virtual memory table to handle page faults while
	// copying data to usermode. This puts us in the same situation where the table
	// can change while we're copying data.
	//
	// Alternatives such as fork()-and-suspend-the-parent-while-child-reads were
	// attempted, but they present more subtle problems than it's worth. Depending
	// on your use case your best bet may be to read /proc/<pid>/maps prior to
	// starting other threads.
	//
	// [1] http://kernelnewbies.org/Documents/SeqFileHowTo
	BASE_EXPORT bool ReadProcMaps(std::string* proc_maps);

	// Parses /proc/<pid>/maps input data and stores in \|regions\|. Returns true
	// and updates \|regions\| if and only if all of \|input\| was successfully parsed.
	BASE_EXPORT bool ParseProcMaps(const std::string& input,
	std::vector<MappedMemoryRegion>* regions);

	} // namespace debug
	} // namespace base

	#endif // BASE_DEBUG_PROC_MAPS_LINUX_H_