File: sysinfo.jl

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# This file is a part of Julia. License is MIT: https://julialang.org/license

module Sys
@doc """
Provide methods for retrieving information about hardware and the operating system.
""" Sys

export BINDIR,
       STDLIB,
       CPU_THREADS,
       CPU_NAME,
       WORD_SIZE,
       ARCH,
       MACHINE,
       KERNEL,
       JIT,
       cpu_info,
       cpu_summary,
       uptime,
       loadavg,
       free_memory,
       total_memory,
       isapple,
       isbsd,
       islinux,
       isunix,
       iswindows,
       isexecutable,
       which

import ..Base: show

global BINDIR = ccall(:jl_get_julia_bindir, Any, ())::String
"""
    Sys.BINDIR

A string containing the full path to the directory containing the `julia` executable.
"""
:BINDIR

"""
    Sys.STDLIB

A string containing the full path to the directory containing the `stdlib` packages.
"""
STDLIB = "$BINDIR/../share/julia/stdlib/v$(VERSION.major).$(VERSION.minor)" # for bootstrap

# helper to avoid triggering precompile warnings

"""
    Sys.CPU_THREADS

The number of logical CPU cores available in the system, i.e. the number of threads
that the CPU can run concurrently. Note that this is not necessarily the number of
CPU cores, for example, in the presence of
[hyper-threading](https://en.wikipedia.org/wiki/Hyper-threading).

See Hwloc.jl or CpuId.jl for extended information, including number of physical cores.
"""
CPU_THREADS = 1 # for bootstrap, changed on startup

"""
    Sys.ARCH

A symbol representing the architecture of the build configuration.
"""
const ARCH = ccall(:jl_get_ARCH, Any, ())


"""
    Sys.KERNEL

A symbol representing the name of the operating system, as returned by `uname` of the build configuration.
"""
const KERNEL = ccall(:jl_get_UNAME, Any, ())

"""
    Sys.MACHINE

A string containing the build triple.
"""
const MACHINE = Base.MACHINE

"""
    Sys.WORD_SIZE

Standard word size on the current machine, in bits.
"""
const WORD_SIZE = Core.sizeof(Int) * 8

function __init__()
    env_threads = nothing
    if haskey(ENV, "JULIA_CPU_THREADS")
        env_threads = ENV["JULIA_CPU_THREADS"]
    end
    global CPU_THREADS = if env_threads !== nothing
        env_threads = tryparse(Int, env_threads)
        if !(env_threads isa Int && env_threads > 0)
            env_threads = Int(ccall(:jl_cpu_threads, Int32, ()))
            Core.print(Core.stderr, "WARNING: couldn't parse `JULIA_CPU_THREADS` environment variable. Defaulting Sys.CPU_THREADS to $env_threads.\n")
        end
        env_threads
    else
        Int(ccall(:jl_cpu_threads, Int32, ()))
    end
    global SC_CLK_TCK = ccall(:jl_SC_CLK_TCK, Clong, ())
    global CPU_NAME = ccall(:jl_get_cpu_name, Ref{String}, ())
    global JIT = ccall(:jl_get_JIT, Ref{String}, ())
    global BINDIR = ccall(:jl_get_julia_bindir, Any, ())::String
    vers = "v$(VERSION.major).$(VERSION.minor)"
    global STDLIB = abspath(BINDIR, "..", "share", "julia", "stdlib", vers)
    nothing
end

mutable struct UV_cpu_info_t
    model::Ptr{UInt8}
    speed::Int32
    cpu_times!user::UInt64
    cpu_times!nice::UInt64
    cpu_times!sys::UInt64
    cpu_times!idle::UInt64
    cpu_times!irq::UInt64
end
mutable struct CPUinfo
    model::String
    speed::Int32
    cpu_times!user::UInt64
    cpu_times!nice::UInt64
    cpu_times!sys::UInt64
    cpu_times!idle::UInt64
    cpu_times!irq::UInt64
    CPUinfo(model,speed,u,n,s,id,ir)=new(model,speed,u,n,s,id,ir)
end
CPUinfo(info::UV_cpu_info_t) = CPUinfo(unsafe_string(info.model), info.speed,
    info.cpu_times!user, info.cpu_times!nice, info.cpu_times!sys,
    info.cpu_times!idle, info.cpu_times!irq)

function _show_cpuinfo(io::IO, info::Sys.CPUinfo, header::Bool=true, prefix::AbstractString="    ")
    tck = SC_CLK_TCK
    if header
        println(io, info.model, ": ")
        print(io, " "^length(prefix))
        println(io, "    ", lpad("speed", 5), "    ", lpad("user", 9), "    ", lpad("nice", 9), "    ",
                lpad("sys", 9), "    ", lpad("idle", 9), "    ", lpad("irq", 9))
    end
    print(io, prefix)
    unit = tck > 0 ? " s  " : "    "
    tc = max(tck, 1)
    d(i, unit=unit) = lpad(string(round(Int64,i)), 9) * unit
    print(io,
          lpad(string(info.speed), 5), " MHz  ",
          d(info.cpu_times!user / tc), d(info.cpu_times!nice / tc), d(info.cpu_times!sys / tc),
          d(info.cpu_times!idle / tc), d(info.cpu_times!irq / tc, tck > 0 ? " s" : "  "))
    if tck <= 0
        print(io, "ticks")
    end
end

show(io::IO, info::CPUinfo) = _show_cpuinfo(io, info, true, "    ")

function _cpu_summary(io::IO, cpu::AbstractVector{CPUinfo}, i, j)
    if j-i < 9
        header = true
        for x = i:j
            header || println(io)
            _show_cpuinfo(io, cpu[x], header, "#$(x-i+1) ")
            header = false
        end
    else
        summary = CPUinfo(cpu[i].model,0,0,0,0,0,0)
        count = j - i + 1
        for x = i:j
            summary.speed += cpu[i].speed
            summary.cpu_times!user += cpu[x].cpu_times!user
            summary.cpu_times!nice += cpu[x].cpu_times!nice
            summary.cpu_times!sys += cpu[x].cpu_times!sys
            summary.cpu_times!idle += cpu[x].cpu_times!idle
            summary.cpu_times!irq += cpu[x].cpu_times!irq
        end
        summary.speed = div(summary.speed,count)
        _show_cpuinfo(io, summary, true, "#1-$(count) ")
    end
    println(io)
end

function cpu_summary(io::IO=stdout, cpu::AbstractVector{CPUinfo} = cpu_info())
    model = cpu[1].model
    first = 1
    for i = 2:length(cpu)
        if model != cpu[i].model
            _cpu_summary(io, cpu, first, i-1)
            first = i
        end
    end
    _cpu_summary(io, cpu, first, length(cpu))
end

function cpu_info()
    UVcpus = Ref{Ptr{UV_cpu_info_t}}()
    count = Ref{Int32}()
    Base.uv_error("uv_cpu_info",ccall(:uv_cpu_info, Int32, (Ptr{Ptr{UV_cpu_info_t}}, Ptr{Int32}), UVcpus, count))
    cpus = Vector{CPUinfo}(undef, count[])
    for i = 1:length(cpus)
        cpus[i] = CPUinfo(unsafe_load(UVcpus[], i))
    end
    ccall(:uv_free_cpu_info, Cvoid, (Ptr{UV_cpu_info_t}, Int32), UVcpus[], count[])
    return cpus
end

"""
    Sys.uptime()

Gets the current system uptime in seconds.
"""
function uptime()
    uptime_ = Ref{Float64}()
    Base.uv_error("uv_uptime",ccall(:uv_uptime, Int32, (Ptr{Float64},), uptime_))
    return uptime_[]
end

"""
    Sys.loadavg()

Get the load average. See: https://en.wikipedia.org/wiki/Load_(computing).
"""
function loadavg()
    loadavg_ = Vector{Float64}(undef, 3)
    ccall(:uv_loadavg, Cvoid, (Ptr{Float64},), loadavg_)
    return loadavg_
end

free_memory() = ccall(:uv_get_free_memory, UInt64, ())
total_memory() = ccall(:uv_get_total_memory, UInt64, ())

"""
    Sys.get_process_title()

Get the process title. On some systems, will always return an empty string.
"""
function get_process_title()
    buf = Vector{UInt8}(undef, 512)
    err = ccall(:uv_get_process_title, Cint, (Ptr{UInt8}, Cint), buf, 512)
    Base.uv_error("get_process_title", err)
    return unsafe_string(pointer(buf))
end

"""
    Sys.set_process_title(title::AbstractString)

Set the process title. No-op on some operating systems.
"""
function set_process_title(title::AbstractString)
    err = ccall(:uv_set_process_title, Cint, (Cstring,), title)
    Base.uv_error("set_process_title", err)
end

"""
    Sys.maxrss()

Get the maximum resident set size utilized in bytes.
See also:
    - man page of getrusage(2) on Linux and FreeBSD.
    - windows api `GetProcessMemoryInfo`
"""
maxrss() = ccall(:jl_maxrss, Csize_t, ())

"""
    Sys.isunix([os])

Predicate for testing if the OS provides a Unix-like interface.
See documentation in [Handling Operating System Variation](@ref).
"""
function isunix(os::Symbol)
    if iswindows(os)
        return false
    elseif islinux(os) || isbsd(os)
        return true
    else
        throw(ArgumentError("unknown operating system \"$os\""))
    end
end

"""
    Sys.islinux([os])

Predicate for testing if the OS is a derivative of Linux.
See documentation in [Handling Operating System Variation](@ref).
"""
islinux(os::Symbol) = (os == :Linux)

"""
    Sys.isbsd([os])

Predicate for testing if the OS is a derivative of BSD.
See documentation in [Handling Operating System Variation](@ref).

!!! note
    The Darwin kernel descends from BSD, which means that `Sys.isbsd()` is
    `true` on macOS systems. To exclude macOS from a predicate, use
    `Sys.isbsd() && !Sys.isapple()`.
"""
isbsd(os::Symbol) = (os == :FreeBSD || os == :OpenBSD || os == :NetBSD || os == :DragonFly || os == :Darwin || os == :Apple)

"""
    Sys.iswindows([os])

Predicate for testing if the OS is a derivative of Microsoft Windows NT.
See documentation in [Handling Operating System Variation](@ref).
"""
iswindows(os::Symbol) = (os == :Windows || os == :NT)

"""
    Sys.isapple([os])

Predicate for testing if the OS is a derivative of Apple Macintosh OS X or Darwin.
See documentation in [Handling Operating System Variation](@ref).
"""
isapple(os::Symbol) = (os == :Apple || os == :Darwin)

for f in (:isunix, :islinux, :isbsd, :isapple, :iswindows)
    @eval $f() = $(getfield(@__MODULE__, f)(KERNEL))
end

if iswindows()
    function windows_version()
        verinfo = ccall(:GetVersion, UInt32, ())
        VersionNumber(verinfo & 0xFF, (verinfo >> 8) & 0xFF, verinfo >> 16)
    end
else
    windows_version() = v"0.0"
end

"""
    Sys.windows_version()

Return the version number for the Windows NT Kernel as a `VersionNumber`,
i.e. `v"major.minor.build"`, or `v"0.0.0"` if this is not running on Windows.
"""
windows_version

const WINDOWS_VISTA_VER = v"6.0"

"""
    Sys.isexecutable(path::String)

Return `true` if the given `path` has executable permissions.
"""
function isexecutable(path::String)
    if iswindows()
        return isfile(path)
    else
        # We use `access()` and `X_OK` to determine if a given path is
        # executable by the current user.  `X_OK` comes from `unistd.h`.
        X_OK = 0x01
        ccall(:access, Cint, (Ptr{UInt8}, Cint), path, X_OK) == 0
    end
end
isexecutable(path::AbstractString) = isexecutable(String(path))

"""
    Sys.which(program_name::String)

Given a program name, search the current `PATH` to find the first binary with
the proper executable permissions that can be run and return an absolute path
to it, or return `nothing` if no such program is available. If a path with
a directory in it is passed in for `program_name`, tests that exact path
for executable permissions only (with `.exe` and `.com` extensions added on
Windows platforms); no searching of `PATH` is performed.
"""
function which(program_name::String)
    # Build a list of program names that we're going to try
    program_names = String[]
    base_pname = basename(program_name)
    if iswindows()
        # If the file already has an extension, try that name first
        if !isempty(splitext(base_pname)[2])
            push!(program_names, base_pname)
        end

        # But also try appending .exe and .com`
        for pe in (".exe", ".com")
            push!(program_names, string(base_pname, pe))
        end
    else
        # On non-windows, we just always search for what we've been given
        push!(program_names, base_pname)
    end

    path_dirs = String[]
    program_dirname = dirname(program_name)
    # If we've been given a path that has a directory name in it, then we
    # check to see if that path exists.  Otherwise, we search the PATH.
    if isempty(program_dirname)
        # If we have been given just a program name (not a relative or absolute
        # path) then we should search `PATH` for it here:
        pathsep = iswindows() ? ';' : ':'
        path_dirs = abspath.(split(get(ENV, "PATH", ""), pathsep))

        # On windows we always check the current directory as well
        if iswindows()
            pushfirst!(path_dirs, pwd())
        end
    else
        push!(path_dirs, abspath(program_dirname))
    end

    # Here we combine our directories with our program names, searching for the
    # first match among all combinations.
    for path_dir in path_dirs
        for pname in program_names
            program_path = joinpath(path_dir, pname)
            # If we find something that matches our name and we can execute
            if isexecutable(program_path)
                return realpath(program_path)
            end
        end
    end

    # If we couldn't find anything, don't return anything
    nothing
end
which(program_name::AbstractString) = which(String(program_name))

end # module Sys