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# Wrappers around socket primitives that are easier to test.
# To test server operations, just run a real client against localhost.
scenario example-server-test [
local-scope
# test server without a fake on a random (real) port
# that way repeatedly running the test will give ports time to timeout and
# close before reusing them
make-random-nondeterministic
port:num <- random-in-range 0/real-random-numbers, 8000, 8100
run [
socket:num <- $open-server-socket port
assert socket, [
F - example-server-test: $open-server-socket failed]
handler-routine:number <- start-running serve-one-request socket, example-handler
]
source:&:source:char <- start-reading-from-network 0/real-resources, [localhost/], port
response:text <- drain source
10:@:char/raw <- copy *response
memory-should-contain [
10:array:character <- [abc]
]
socket <- $close-socket socket
]
# helper just for this scenario
def example-handler query:text -> response:text [
local-scope
load-ingredients
reply [abc]
]
# To test client operations, use `assume-resources` with a filename that
# begins with a hostname. (Filenames starting with '/' are assumed to be
# local.)
scenario example-client-test [
local-scope
assume-resources [
[example.com/] <- [
|abc|
]
]
run [
source:&:source:char <- start-reading-from-network resources, [example.com/]
]
contents:text <- drain source
10:@:char/raw <- copy *contents
memory-should-contain [
10:array:character <- [abc
]
]
]
type request-handler = (recipe text -> text)
def serve-one-request socket:num, request-handler:request-handler -> socket:num [
local-scope
load-ingredients
session:num <- $accept socket
assert session, [
F - example-server-test: $accept failed]
contents:&:source:char, sink:&:sink:char <- new-channel 30
start-running receive-from-socket session, sink
query:text <- drain contents
response:text <- call request-handler, query
write-to-socket session, response
session <- $close-socket session
]
def start-reading-from-network resources:&:resources, uri:text -> contents:&:source:char [
local-scope
load-ingredients
{
port:num, port-found?:boolean <- next-ingredient
break-if port-found?
port <- copy 80/http-port
}
{
break-unless resources
# fake network
contents <- start-reading-from-fake-resources resources, uri
return
}
# real network
host:text, path:text <- split-at uri, 47/slash
socket:num <- $open-client-socket host, port
assert socket, [contents]
req:text <- interpolate [GET _ HTTP/1.1], path
request-socket socket, req
contents:&:source:char, sink:&:sink:char <- new-channel 10000
start-running receive-from-client-socket-and-close socket, sink
]
def request-socket socket:num, s:text -> socket:num [
local-scope
load-ingredients
write-to-socket socket, s
$write-to-socket socket, 13/cr
$write-to-socket socket, 10/lf
# empty line to delimit request
$write-to-socket socket, 13/cr
$write-to-socket socket, 10/lf
]
def receive-from-socket socket:num, sink:&:sink:char -> sink:&:sink:char, socket:num [
local-scope
load-ingredients
{
+next-attempt
c:char, found?:bool, eof?:bool, error:num <- $read-from-socket socket
break-if eof?
break-if error
{
break-unless found?
sink <- write sink, c
}
{
break-if found?
switch
}
loop
}
sink <- close sink
]
def receive-from-client-socket-and-close socket:num, sink:&:sink:char -> sink:&:sink:char, socket:num [
local-scope
load-ingredients
sink <- receive-from-socket socket, sink
socket <- $close-socket socket
]
def write-to-socket socket:num, s:text [
local-scope
load-ingredients
len:num <- length *s
i:num <- copy 0
{
done?:bool <- greater-or-equal i, len
break-if done?
c:char <- index *s, i
$write-to-socket socket, c
i <- add i, 1
loop
}
]
# like split-first, but don't eat the delimiter
def split-at text:text, delim:char -> x:text, y:text [
local-scope
load-ingredients
# empty text? return empty texts
len:num <- length *text
{
empty?:bool <- equal len, 0
break-unless empty?
x:text <- new []
y:text <- new []
return
}
idx:num <- find-next text, delim, 0
x:text <- copy-range text, 0, idx
y:text <- copy-range text, idx, len
]
scenario text-split-at [
local-scope
x:text <- new [a/b]
run [
y:text, z:text <- split-at x, 47/slash
10:@:char/raw <- copy *y
20:@:char/raw <- copy *z
]
memory-should-contain [
10:array:character <- [a]
20:array:character <- [/b]
]
]
|