dist/utils/memory.cpp

*6b3a42afSjmmv// Copyright 2012 Google Inc.
*6b3a42afSjmmv// All rights reserved.
*6b3a42afSjmmv//
*6b3a42afSjmmv// Redistribution and use in source and binary forms, with or without
*6b3a42afSjmmv// modification, are permitted provided that the following conditions are
*6b3a42afSjmmv// met:
*6b3a42afSjmmv//
*6b3a42afSjmmv// * Redistributions of source code must retain the above copyright
*6b3a42afSjmmv//   notice, this list of conditions and the following disclaimer.
*6b3a42afSjmmv// * Redistributions in binary form must reproduce the above copyright
*6b3a42afSjmmv//   notice, this list of conditions and the following disclaimer in the
*6b3a42afSjmmv//   documentation and/or other materials provided with the distribution.
*6b3a42afSjmmv// * Neither the name of Google Inc. nor the names of its contributors
*6b3a42afSjmmv//   may be used to endorse or promote products derived from this software
*6b3a42afSjmmv//   without specific prior written permission.
*6b3a42afSjmmv//
*6b3a42afSjmmv// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
*6b3a42afSjmmv// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
*6b3a42afSjmmv// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
*6b3a42afSjmmv// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
*6b3a42afSjmmv// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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*6b3a42afSjmmv// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
*6b3a42afSjmmv// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
*6b3a42afSjmmv// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
*6b3a42afSjmmv// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*6b3a42afSjmmv
*6b3a42afSjmmv#include "utils/memory.hpp"
*6b3a42afSjmmv
*6b3a42afSjmmv#if defined(HAVE_CONFIG_H)
*6b3a42afSjmmv#   include "config.h"
*6b3a42afSjmmv#endif
*6b3a42afSjmmv
*6b3a42afSjmmvextern "C" {
*6b3a42afSjmmv#if defined(HAVE_SYS_TYPES_H)
*6b3a42afSjmmv#   include <sys/types.h>
*6b3a42afSjmmv#endif
*6b3a42afSjmmv#if defined(HAVE_SYS_PARAM_H)
*6b3a42afSjmmv#   include <sys/param.h>
*6b3a42afSjmmv#endif
*6b3a42afSjmmv#if defined(HAVE_SYS_SYSCTL_H)
*6b3a42afSjmmv#   include <sys/sysctl.h>
*6b3a42afSjmmv#endif
*6b3a42afSjmmv}
*6b3a42afSjmmv
*6b3a42afSjmmv#include <cerrno>
*6b3a42afSjmmv#include <cstddef>
*6b3a42afSjmmv#include <cstring>
*6b3a42afSjmmv#include <stdexcept>
*6b3a42afSjmmv
*6b3a42afSjmmv#include "utils/defs.hpp"
*6b3a42afSjmmv#include "utils/format/macros.hpp"
*6b3a42afSjmmv#include "utils/logging/macros.hpp"
*6b3a42afSjmmv#include "utils/units.hpp"
*6b3a42afSjmmv#include "utils/sanity.hpp"
*6b3a42afSjmmv
*6b3a42afSjmmvnamespace units = utils::units;
*6b3a42afSjmmv
*6b3a42afSjmmv
*6b3a42afSjmmvnamespace {
*6b3a42afSjmmv
*6b3a42afSjmmv
*6b3a42afSjmmv/// Name of the method to query the available memory as detected by configure.
*6b3a42afSjmmvstatic const char* query_type = MEMORY_QUERY_TYPE;
*6b3a42afSjmmv
*6b3a42afSjmmv
*6b3a42afSjmmv/// Value of query_type when we do not know how to query the memory.
*6b3a42afSjmmvstatic const char* query_type_unknown = "unknown";
*6b3a42afSjmmv
*6b3a42afSjmmv
*6b3a42afSjmmv/// Value of query_type when we have to use sysctlbyname(3).
*6b3a42afSjmmvstatic const char* query_type_sysctlbyname = "sysctlbyname";
*6b3a42afSjmmv
*6b3a42afSjmmv
*6b3a42afSjmmv/// Name of the sysctl MIB with the physical memory as detected by configure.
*6b3a42afSjmmv///
*6b3a42afSjmmv/// This should only be used if memory_query_type is 'sysctl'.
*6b3a42afSjmmvstatic const char* query_sysctl_mib = MEMORY_QUERY_SYSCTL_MIB;
*6b3a42afSjmmv
*6b3a42afSjmmv
*6b3a42afSjmmv#if !defined(HAVE_SYSCTLBYNAME)
*6b3a42afSjmmv/// Stub for sysctlbyname(3) for systems that don't have it.
*6b3a42afSjmmv///
*6b3a42afSjmmv/// The whole purpose of this fake function is to allow the caller code to be
*6b3a42afSjmmv/// compiled on any machine regardless of the presence of sysctlbyname(3).  This
*6b3a42afSjmmv/// will prevent the code from breaking when it is compiled on a machine without
*6b3a42afSjmmv/// this function.  It also prevents "unused variable" warnings in the caller
*6b3a42afSjmmv/// code.
*6b3a42afSjmmv///
*6b3a42afSjmmv/// \param unused_name Unused.
*6b3a42afSjmmv/// \param unused_oldp Unused.
*6b3a42afSjmmv/// \param unused_oldlenp Unused.
*6b3a42afSjmmv/// \param unused_newp Unused.
*6b3a42afSjmmv/// \param unused_newlen Unused.
*6b3a42afSjmmv///
*6b3a42afSjmmv/// \return Nothing; this always crashes.
*6b3a42afSjmmvstatic int
*6b3a42afSjmmvsysctlbyname(const char* UTILS_UNUSED_PARAM(name),
*6b3a42afSjmmv             void* UTILS_UNUSED_PARAM(oldp),
*6b3a42afSjmmv             std::size_t* UTILS_UNUSED_PARAM(oldlenp),
*6b3a42afSjmmv             const void* UTILS_UNUSED_PARAM(newp),
*6b3a42afSjmmv             std::size_t UTILS_UNUSED_PARAM(newlen))
*6b3a42afSjmmv{
*6b3a42afSjmmv    UNREACHABLE;
*6b3a42afSjmmv}
*6b3a42afSjmmv#endif
*6b3a42afSjmmv
*6b3a42afSjmmv
*6b3a42afSjmmv}  // anonymous namespace
*6b3a42afSjmmv
*6b3a42afSjmmv
*6b3a42afSjmmv/// Gets the value of an integral sysctl MIB.
*6b3a42afSjmmv///
*6b3a42afSjmmv/// \pre The system supports the sysctlbyname(3) function.
*6b3a42afSjmmv///
*6b3a42afSjmmv/// \param mib The name of the sysctl MIB to query.
*6b3a42afSjmmv///
*6b3a42afSjmmv/// \return The value of the MIB, if found.
*6b3a42afSjmmv///
*6b3a42afSjmmv/// \throw std::runtime_error If the sysctlbyname(3) call fails.  This might be
*6b3a42afSjmmv///     a bit drastic.  If it turns out that this causes problems, we could just
*6b3a42afSjmmv///     change the code to log the error instead of raising an exception.
*6b3a42afSjmmvstatic int64_t
*6b3a42afSjmmvquery_sysctl(const char* mib)
*6b3a42afSjmmv{
*6b3a42afSjmmv    // This must be explicitly initialized to 0.  If the sysctl query returned a
*6b3a42afSjmmv    // value smaller in size than value_length, we would get garbage otherwise.
*6b3a42afSjmmv    int64_t value = 0;
*6b3a42afSjmmv    std::size_t value_length = sizeof(value);
*6b3a42afSjmmv    if (::sysctlbyname(mib, &value, &value_length, NULL, 0) == -1) {
*6b3a42afSjmmv        const int original_errno = errno;
*6b3a42afSjmmv        throw std::runtime_error(F("Failed to get sysctl(%s) value: %s") %
*6b3a42afSjmmv                                 mib % std::strerror(original_errno));
*6b3a42afSjmmv    }
*6b3a42afSjmmv    return value;
*6b3a42afSjmmv}
*6b3a42afSjmmv
*6b3a42afSjmmv
*6b3a42afSjmmv/// Queries the total amount of physical memory.
*6b3a42afSjmmv///
*6b3a42afSjmmv/// The real query is run only once and the result is cached.  Further calls to
*6b3a42afSjmmv/// this function will always return the same value.
*6b3a42afSjmmv///
*6b3a42afSjmmv/// \return The amount of physical memory, in bytes.  If the code does not know
*6b3a42afSjmmv/// how to query the memory, this logs a warning and returns 0.
*6b3a42afSjmmvunits::bytes
*6b3a42afSjmmvutils::physical_memory(void)
*6b3a42afSjmmv{
*6b3a42afSjmmv    static int64_t amount = -1;
*6b3a42afSjmmv    if (amount == -1) {
*6b3a42afSjmmv        if (std::strcmp(query_type, query_type_unknown) == 0) {
*6b3a42afSjmmv            LW("Don't know how to query the physical memory");
*6b3a42afSjmmv            amount = 0;
*6b3a42afSjmmv        } else if (std::strcmp(query_type, query_type_sysctlbyname) == 0) {
*6b3a42afSjmmv            amount = query_sysctl(query_sysctl_mib);
*6b3a42afSjmmv        } else
*6b3a42afSjmmv            UNREACHABLE_MSG("Unimplemented memory query type");
*6b3a42afSjmmv        LI(F("Physical memory as returned by query type '%s': %s") %
*6b3a42afSjmmv           query_type % amount);
*6b3a42afSjmmv    }
*6b3a42afSjmmv    POST(amount > -1);
*6b3a42afSjmmv    return units::bytes(amount);
*6b3a42afSjmmv}