Revision c6b32510c32848d2476d0eb78548ee8d952bc8fe authored by Curtis Vogt on 20 February 2017, 14:09:32 UTC, committed by Tony Kelman on 20 February 2017, 14:09:32 UTC
* Use mbedTLS hostname verification for LibGit2 Corrects issues with hostname verification failing when the SSL subjectAltName is not specified and the CN should be used. * Add test for mbedTLS verification * Made mbedTLS verification a seperate patch * Disable startup-file * Remove use of which * Changes from PR review * Use localhost when hostname isn't set to loopback * Handle getaddrinfo exception * Improve warning message * Add libgit2-mbedtls-hostname.patch dependency libgit2-mbedtls-hostname patch directly depends on the libgit2-mbedtls patch. The libgit2-mbedtls-writer-fix patch also modifies the mbedtls_stream.c file seperate section of the file. To ensure that the patches are always applied in the same order we'll make the hostname patch dependent on the writer-fix patch.
1 parent 9706c8b
socket.jl
# This file is a part of Julia. License is MIT: http://julialang.org/license
@test ip"127.0.0.1" == IPv4(127,0,0,1)
@test ip"192.0" == IPv4(192,0,0,0)
# These used to work, but are now disallowed. Check that they error
@test_throws ArgumentError parse(IPv4, "192.0xFFF") # IPv4(192,0,15,255)
@test_throws ArgumentError parse(IPv4, "192.0xFFFF") # IPv4(192,0,255,255)
@test_throws ArgumentError parse(IPv4, "192.0xFFFFF") # IPv4(192,15,255,255)
@test_throws ArgumentError parse(IPv4, "192.0xFFFFFF") # IPv4(192,255,255,255)
@test_throws ArgumentError parse(IPv4, "022.0.0.1") # IPv4(18,0,0,1)
@test UInt(IPv4(0x01020304)) == 0x01020304
@test Int(IPv4("1.2.3.4")) == Int(0x01020304) == Int32(0x01020304)
@test Int128(IPv6("2001:1::2")) == 42540488241204005274814694018844196866
@test_throws InexactError Int16(IPv4("1.2.3.4"))
@test_throws InexactError Int64(IPv6("2001:1::2"))
let ipv = parse(IPAddr, "127.0.0.1")
@test isa(ipv, IPv4)
@test ipv == ip"127.0.0.1"
end
@test_throws ArgumentError parse(IPv4, "192.0xFFFFFFF")
@test_throws ArgumentError IPv4(192,255,255,-1)
@test_throws ArgumentError IPv4(192,255,255,256)
@test_throws ArgumentError parse(IPv4, "192.0xFFFFFFFFF")
@test_throws ArgumentError parse(IPv4, "192.")
@test ip"::1" == IPv6(1)
@test ip"2605:2700:0:3::4713:93e3" == IPv6(parse(UInt128,"260527000000000300000000471393e3",16))
@test ip"2001:db8:0:0:0:0:2:1" == ip"2001:db8::2:1" == ip"2001:db8::0:2:1"
@test ip"0:0:0:0:0:ffff:127.0.0.1" == IPv6(0xffff7f000001)
let ipv = parse(IPAddr, "0:0:0:0:0:ffff:127.0.0.1")
@test isa(ipv, IPv6)
@test ipv == ip"0:0:0:0:0:ffff:127.0.0.1"
end
@test_throws ArgumentError IPv6(1,1,1,1,1,1,1,-1)
@test_throws ArgumentError IPv6(1,1,1,1,1,1,1,typemax(UInt16)+1)
# test InetAddr constructor
let inet = Base.InetAddr(IPv4(127,0,0,1), 1024)
@test inet.host == ip"127.0.0.1"
@test inet.port == 1024
end
# test InetAddr invalid port
@test_throws InexactError Base.InetAddr(IPv4(127,0,0,1), -1)
@test_throws InexactError Base.InetAddr(IPv4(127,0,0,1), typemax(UInt16)+1)
# isless and comparisons
@test ip"1.2.3.4" < ip"1.2.3.7" < ip"2.3.4.5"
@test ip"1.2.3.4" >= ip"1.2.3.4" >= ip"1.2.3.1"
@test isless(ip"1.2.3.4", ip"1.2.3.5")
@test_throws MethodError sort[ip"2.3.4.5", ip"1.2.3.4", ip"2001:1:2::1"]
# RFC 5952 Compliance
@test repr(ip"2001:db8:0:0:0:0:2:1") == "ip\"2001:db8::2:1\""
@test repr(ip"2001:0db8::0001") == "ip\"2001:db8::1\""
@test repr(ip"2001:db8::1:1:1:1:1") == "ip\"2001:db8:0:1:1:1:1:1\""
@test repr(ip"2001:db8:0:0:1:0:0:1") == "ip\"2001:db8::1:0:0:1\""
@test repr(ip"2001:0:0:1:0:0:0:1") == "ip\"2001:0:0:1::1\""
# test show() function for UDPSocket()
@test repr(UDPSocket()) == "UDPSocket(init)"
port = Channel(1)
defaultport = rand(2000:4000)
tsk = @async begin
p, s = listenany(defaultport)
put!(port, p)
sock = accept(s)
# test write call
write(sock,"Hello World\n")
# test "locked" println to a socket
@sync begin
for i in 1:100
@async println(sock, "a", 1)
end
end
close(s)
close(sock)
end
wait(port)
@test readstring(connect(fetch(port))) == "Hello World\n" * ("a1\n"^100)
wait(tsk)
mktempdir() do tmpdir
socketname = is_windows() ? ("\\\\.\\pipe\\uv-test-" * randstring(6)) : joinpath(tmpdir, "socket")
c = Base.Condition()
tsk = @async begin
s = listen(socketname)
Base.notify(c)
sock = accept(s)
write(sock,"Hello World\n")
close(s)
close(sock)
end
wait(c)
@test readstring(connect(socketname)) == "Hello World\n"
wait(tsk)
end
@test_throws Base.DNSError getaddrinfo(".invalid")
@test_throws ArgumentError getaddrinfo("localhost\0") # issue #10994
@test_throws Base.UVError connect("localhost", 21452)
# test invalid port
@test_throws ArgumentError connect(ip"127.0.0.1",-1)
@test_throws ArgumentError connect(ip"127.0.0.1", typemax(UInt16)+1)
@test_throws ArgumentError connect(ip"0:0:0:0:0:ffff:127.0.0.1", -1)
@test_throws ArgumentError connect(ip"0:0:0:0:0:ffff:127.0.0.1", typemax(UInt16)+1)
p, server = listenany(defaultport)
r = Channel(1)
tsk = @async begin
put!(r, :start)
@test_throws Base.UVError accept(server)
end
@test fetch(r) === :start
close(server)
wait(tsk)
port, server = listenany(defaultport)
@async connect("localhost",port)
s1 = accept(server)
@test_throws ErrorException accept(server,s1)
@test_throws Base.UVError listen(port)
port2, server2 = listenany(port)
@test port != port2
close(server)
close(server2)
@test_throws Base.DNSError connect(".invalid",80)
begin
a = UDPSocket()
b = UDPSocket()
bind(a, ip"127.0.0.1", port)
bind(b, ip"127.0.0.1", port + 1)
c = Condition()
tsk = @async begin
@test String(recv(a)) == "Hello World"
# Issue 6505
tsk2 = @async begin
@test String(recv(a)) == "Hello World"
notify(c)
end
send(b, ip"127.0.0.1", port, "Hello World")
wait(tsk2)
end
send(b, ip"127.0.0.1", port, "Hello World")
wait(c)
wait(tsk)
tsk = @async begin
@test begin
(addr,data) = recvfrom(a)
addr == ip"127.0.0.1" && String(data) == "Hello World"
end
end
send(b, ip"127.0.0.1", port, "Hello World")
wait(tsk)
@test_throws MethodError bind(UDPSocket(),port)
close(a)
close(b)
end
if !is_windows() || Sys.windows_version() >= Sys.WINDOWS_VISTA_VER
a = UDPSocket()
b = UDPSocket()
bind(a, ip"::1", UInt16(port))
bind(b, ip"::1", UInt16(port+1))
tsk = @async begin
@test begin
(addr, data) = recvfrom(a)
addr == ip"::1" && String(data) == "Hello World"
end
end
send(b, ip"::1", port, "Hello World")
wait(tsk)
end
begin
default_port = UInt16(11011)
default_addr = IPv4("127.0.0.1")
sock = Base.TCPServer()
bind(sock,Base.InetAddr(default_addr,default_port))
listen(sock)
new_addr, new_port = getsockname(sock)
@test default_addr == new_addr
@test default_port == new_port
close(sock)
end
begin
default_port = UInt16(21011)
default_addr = IPv6("::1")
sock = Base.TCPServer()
addr = Base.InetAddr(default_addr,default_port)
bind(sock,addr)
listen(sock)
new_addr, new_port = getsockname(sock)
@test default_addr == new_addr
@test default_port == new_port
close(sock)
end
begin
default_port = UInt16(11011)
default_addr = getipaddr()
sock = Base.TCPServer()
bind(sock,Base.InetAddr(default_addr,default_port))
listen(sock)
@async begin
sleep(1)
ssock = connect(default_addr, default_port)
end
csock = accept(sock)
new_addr, new_port = getsockname(csock)
@test default_addr == new_addr
@test new_port > 0
close(csock)
close(sock)
end
# Local-machine broadcast
let
# (Mac OS X's loopback interface doesn't support broadcasts)
bcastdst = is_apple() ? ip"255.255.255.255" : ip"127.255.255.255"
function create_socket()
s = UDPSocket()
bind(s, ip"0.0.0.0", 2000, reuseaddr = true, enable_broadcast = true)
s
end
a, b, c = [create_socket() for i = 1:3]
try
@sync begin
send(c, bcastdst, 2000, "hello")
recvs = [@async @test String(recv(s)) == "hello" for s in (a, b)]
map(wait, recvs)
end
catch e
if isa(e, Base.UVError) && Base.uverrorname(e) == "EPERM"
warn("UDP broadcast test skipped (permission denied upon send, restrictive firewall?)")
else
rethrow()
end
end
[close(s) for s in [a, b, c]]
end
let P = Pipe()
Base.link_pipe(P)
write(P, "hello")
@test nb_available(P) == 0
@test !eof(P)
@test read(P, Char) === 'h'
@test !eof(P)
@test read(P, Char) === 'e'
@test isopen(P)
t = @async begin
# feed uv_read one more event so that it triggers the transition from active -> open
write(P, "w")
while P.out.status != Base.StatusOpen
yield() # wait for that transition
end
close(P.in)
end
# on unix, this proves that the kernel can buffer a single byte
# even with no registered active call to read
# on windows, the kernel fails to do even that
# causing the `write` call to freeze
# so we end up forced to do a slightly weaker test here
is_windows() || wait(t)
@test isopen(P) # without an active uv_reader, P shouldn't be closed yet
@test !eof(P) # should already know this,
@test isopen(P) # so it still shouldn't have an active uv_reader
@test readuntil(P, 'w') == "llow"
is_windows() && wait(t)
@test eof(P)
@test !isopen(P) # eof test should have closed this by now
close(P) # should be a no-op, just make sure
@test !isopen(P)
@test eof(P)
end
# test the method matching connect!(::TCPSocket, ::Base.InetAddr{T<:Base.IPAddr})
let
addr = Base.InetAddr(ip"127.0.0.1", 4444)
function test_connect(addr::Base.InetAddr)
srv = listen(addr)
@async try c = accept(srv); close(c) catch end
yield()
t0 = TCPSocket()
t = t0
@assert t === t0
try
t = connect(addr)
finally
close(srv)
end
test = t !== t0
close(t)
return test
end
@test test_connect(addr)
end
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