Rocket/core/codegen/tests/from_form.rs
2021-04-03 17:09:00 -07:00

615 lines
18 KiB
Rust

use rocket::form::{Form, Strict, FromForm, FromFormField, Errors};
fn strict<'f, T: FromForm<'f>>(string: &'f str) -> Result<T, Errors<'f>> {
Form::<Strict<T>>::parse(string).map(|s| s.into_inner())
}
fn lenient<'f, T: FromForm<'f>>(string: &'f str) -> Result<T, Errors<'f>> {
Form::<T>::parse(string)
}
fn strict_encoded<T: 'static>(string: &'static str) -> Result<T, Errors<'static>>
where for<'a> T: FromForm<'a>
{
Form::<Strict<T>>::parse_encoded(string.into()).map(|s| s.into_inner())
}
#[derive(Debug, PartialEq, FromForm)]
struct TodoTask {
description: String,
completed: bool
}
#[test]
fn simple() {
// Same number of arguments: simple case.
let task: Option<TodoTask> = strict("description=Hello&completed=on").ok();
assert_eq!(task, Some(TodoTask {
description: "Hello".to_string(),
completed: true
}));
// Argument in string but not in form.
let task: Option<TodoTask> = strict("other=a&description=Hello&completed=on").ok();
assert!(task.is_none());
let task: Option<TodoTask> = lenient("other=a&description=Hello&completed=on").ok();
assert_eq!(task, Some(TodoTask {
description: "Hello".to_string(),
completed: true
}));
// Ensure _method isn't required.
let task: Option<TodoTask> = strict("_method=patch&description=Hello&completed=off").ok();
assert_eq!(task, Some(TodoTask {
description: "Hello".to_string(),
completed: false
}));
}
#[derive(Debug, PartialEq, FromFormField)]
enum FormOption {
A, B, C
}
#[derive(Debug, PartialEq, FromForm)]
struct FormInput<'r> {
checkbox: bool,
number: usize,
radio: FormOption,
password: &'r str,
textarea: String,
select: FormOption,
}
#[derive(Debug, PartialEq, FromForm)]
struct DefaultInput<'r> {
arg: Option<&'r str>,
}
#[derive(Debug, PartialEq, FromForm)]
struct ManualMethod<'r> {
_method: Option<&'r str>,
done: bool
}
#[derive(Debug, PartialEq, FromForm)]
struct UnpresentCheckbox {
checkbox: bool
}
#[derive(Debug, PartialEq, FromForm)]
struct UnpresentCheckboxTwo<'r> {
checkbox: bool,
something: &'r str
}
#[derive(Debug, PartialEq, FromForm)]
struct FieldNamedV<'r> {
v: &'r str,
}
#[test]
fn base_conditions() {
let form_string = &[
"password=testing", "checkbox=off", "number=10", "textarea=",
"select=a", "radio=c",
].join("&");
let input: Result<FormInput<'_>, _> = strict(&form_string);
assert_eq!(input, Ok(FormInput {
checkbox: false,
number: 10,
radio: FormOption::C,
password: "testing".into(),
textarea: "".to_string(),
select: FormOption::A,
}));
// Argument not in string with default in form.
let default: Option<DefaultInput<'_>> = strict("").ok();
assert_eq!(default, Some(DefaultInput {
arg: None
}));
// Ensure _method can be captured if desired.
let manual: Option<ManualMethod<'_>> = strict("_method=put&done=true").ok();
assert_eq!(manual, Some(ManualMethod {
_method: Some("put".into()),
done: true
}));
let manual: Option<ManualMethod<'_>> = lenient("_method=put&done=true").ok();
assert_eq!(manual, Some(ManualMethod {
_method: Some("put".into()),
done: true
}));
// And ignored when not present.
let manual: Option<ManualMethod<'_>> = strict("done=true").ok();
assert_eq!(manual, Some(ManualMethod {
_method: None,
done: true
}));
// Check that a `bool` value that isn't in the form is marked as `false`.
let manual: Option<UnpresentCheckbox> = lenient("").ok();
assert_eq!(manual, Some(UnpresentCheckbox {
checkbox: false
}));
// Check that a `bool` value that isn't in the form is marked as `false`.
let manual: Option<UnpresentCheckboxTwo<'_>> = lenient("something=hello").ok();
assert_eq!(manual, Some(UnpresentCheckboxTwo {
checkbox: false,
something: "hello".into()
}));
// Check that a structure with one field `v` parses correctly.
let manual: Option<FieldNamedV<'_>> = strict("v=abc").ok();
assert_eq!(manual, Some(FieldNamedV {
v: "abc".into()
}));
}
#[test]
fn lenient_parsing() {
// Check that a structure with one field `v` parses correctly (lenient).
let manual: Option<FieldNamedV<'_>> = lenient("v=abc").ok();
assert_eq!(manual, Some(FieldNamedV { v: "abc".into() }));
let manual: Option<FieldNamedV<'_>> = lenient("v=abc&a=123").ok();
assert_eq!(manual, Some(FieldNamedV { v: "abc".into() }));
let manual: Option<FieldNamedV<'_>> = lenient("c=abcddef&v=abc&a=123").ok();
assert_eq!(manual, Some(FieldNamedV { v: "abc".into() }));
// Check default values (bool) with lenient parsing.
let manual: Option<UnpresentCheckboxTwo<'_>> = lenient("something=hello").ok();
assert_eq!(manual, Some(UnpresentCheckboxTwo {
checkbox: false,
something: "hello".into()
}));
let manual: Option<UnpresentCheckboxTwo<'_>> = lenient("hi=hi&something=hello").ok();
assert_eq!(manual, Some(UnpresentCheckboxTwo {
checkbox: false,
something: "hello".into()
}));
// Check that a missing field doesn't parse, even leniently.
let manual: Option<FieldNamedV<'_>> = lenient("a=abc").ok();
assert!(manual.is_none());
let manual: Option<FieldNamedV<'_>> = lenient("_method=abc").ok();
assert!(manual.is_none());
}
#[test]
fn field_renaming() {
#[derive(Debug, PartialEq, FromForm)]
struct RenamedForm {
single: usize,
#[field(name = "camelCase")]
camel_case: String,
#[field(name = "TitleCase")]
title_case: String,
#[field(name = "type")]
field_type: isize,
#[field(name = "DOUBLE")]
double: String,
#[field(name = "a:b")]
colon: isize,
}
let form_string = &[
"single=100", "camelCase=helloThere", "TitleCase=HiHi", "type=-2",
"DOUBLE=bing_bong", "a:b=123"
].join("&");
let form: Option<RenamedForm> = strict(&form_string).ok();
assert_eq!(form, Some(RenamedForm {
single: 100,
camel_case: "helloThere".into(),
title_case: "HiHi".into(),
field_type: -2,
double: "bing_bong".into(),
colon: 123,
}));
let form_string = &[
"single=100", "camel_case=helloThere", "TitleCase=HiHi", "type=-2",
"DOUBLE=bing_bong", "colon=123"
].join("&");
let form: Option<RenamedForm> = strict(&form_string).ok();
assert!(form.is_none());
#[derive(Debug, PartialEq, FromForm)]
struct MultiName<'r> {
single: usize,
#[field(name = "SomeCase")]
#[field(name = "some_case")]
some_case: &'r str,
}
let form_string = &["single=123", "some_case=hi_im_here"].join("&");
let form: Option<MultiName> = strict(&form_string).ok();
assert_eq!(form, Some(MultiName { single: 123, some_case: "hi_im_here", }));
let form_string = &["single=123", "SomeCase=HiImHere"].join("&");
let form: Option<MultiName> = strict(&form_string).ok();
assert_eq!(form, Some(MultiName { single: 123, some_case: "HiImHere", }));
let form_string = &["single=123", "some_case=hi_im_here", "SomeCase=HiImHere"].join("&");
let form: Option<MultiName> = strict(&form_string).ok();
assert!(form.is_none());
let form_string = &["single=123", "some_case=hi_im_here", "SomeCase=HiImHere"].join("&");
let form: Option<MultiName> = lenient(&form_string).ok();
assert_eq!(form, Some(MultiName { single: 123, some_case: "hi_im_here", }));
let form_string = &["single=123", "SomeCase=HiImHere", "some_case=hi_im_here"].join("&");
let form: Option<MultiName> = lenient(&form_string).ok();
assert_eq!(form, Some(MultiName { single: 123, some_case: "HiImHere", }));
#[derive(Debug, PartialEq, FromForm)]
struct CaseInsensitive<'r> {
#[field(name = uncased("SomeCase"))]
#[field(name = "some_case")]
some_case: &'r str,
#[field(name = uncased("hello"))]
hello: usize,
}
let form_string = &["HeLLO=123", "sOMECASe=hi_im_here"].join("&");
let form: Option<CaseInsensitive> = strict(&form_string).ok();
assert_eq!(form, Some(CaseInsensitive { hello: 123, some_case: "hi_im_here", }));
let form_string = &["hello=456", "SomeCase=HiImHere"].join("&");
let form: Option<CaseInsensitive> = strict(&form_string).ok();
assert_eq!(form, Some(CaseInsensitive { hello: 456, some_case: "HiImHere", }));
let form_string = &["helLO=789", "some_case=hi_there"].join("&");
let form: Option<CaseInsensitive> = strict(&form_string).ok();
assert_eq!(form, Some(CaseInsensitive { hello: 789, some_case: "hi_there", }));
let form_string = &["hello=123", "SOme_case=hi_im_here"].join("&");
let form: Option<CaseInsensitive> = strict(&form_string).ok();
assert!(form.is_none());
}
#[test]
fn generics() {
#[derive(FromForm, Debug, PartialEq)]
struct Oops<A, B, C> {
base: String,
a: A,
b: B,
c: C,
}
#[derive(FromForm, Debug, PartialEq)]
struct YetOneMore<'f, T> {
string: &'f str,
other: T,
}
let form_string = &[
"string=hello", "other=00128"
].join("&");
let form: Option<YetOneMore<'_, usize>> = strict(&form_string).ok();
assert_eq!(form, Some(YetOneMore {
string: "hello".into(),
other: 128,
}));
let form: Option<YetOneMore<'_, u8>> = strict(&form_string).ok();
assert_eq!(form, Some(YetOneMore {
string: "hello".into(),
other: 128,
}));
let form: Option<YetOneMore<'_, i8>> = strict(&form_string).ok();
assert!(form.is_none());
let form_string = "base=just%20a%20test&a=hey%20there&b=a&c=811";
let form: Option<Oops<String, FormOption, usize>> = strict_encoded(&form_string).ok();
assert_eq!(form, Some(Oops {
base: "just a test".into(),
a: "hey there".into(),
b: FormOption::A,
c: 811,
}));
}
#[test]
fn form_errors() {
use rocket::form::error::{ErrorKind, Entity};
#[derive(Debug, PartialEq, FromForm)]
struct WhoopsForm {
complete: bool,
other: usize,
}
let form: Result<WhoopsForm, _> = strict("complete=true&other=781");
assert_eq!(form, Ok(WhoopsForm { complete: true, other: 781 }));
let errors = strict::<WhoopsForm>("complete=true&other=unknown").unwrap_err();
assert!(errors.iter().any(|e| {
e.name.as_ref().unwrap() == "other"
&& e.value.as_deref() == Some("unknown")
&& matches!(e.kind, ErrorKind::Int(..))
}));
let errors = strict::<WhoopsForm>("complete=unknown&other=unknown").unwrap_err();
assert!(errors.iter().any(|e| {
"complete" == e.name.as_ref().unwrap()
&& e.value.as_deref() == Some("unknown")
&& matches!(e.kind, ErrorKind::Bool(..))
}));
let errors = strict::<WhoopsForm>("complete=true&other=1&extra=foo").unwrap_err();
assert!(errors.iter().any(|e| {
e.name.as_ref().unwrap() == "extra"
&& e.value.as_deref() == Some("foo")
&& matches!(e.kind, ErrorKind::Unexpected)
}));
let errors = strict::<WhoopsForm>("complete=unknown&unknown=!").unwrap_err();
assert!(errors.iter().any(|e| {
e.name.as_ref().unwrap() == "complete"
&& e.value.as_deref() == Some("unknown")
&& matches!(e.kind, ErrorKind::Bool(..))
}));
assert!(errors.iter().any(|e| {
e.name.as_ref().unwrap() == "unknown"
&& e.value.as_deref() == Some("!")
&& matches!(e.kind, ErrorKind::Unexpected)
}));
let errors = strict::<WhoopsForm>("unknown=!").unwrap_err();
assert!(errors.iter().any(|e| {
e.name.as_ref().unwrap() == "unknown"
&& e.value.as_deref() == Some("!")
&& matches!(e.kind, ErrorKind::Unexpected)
}));
assert!(errors.iter().any(|e| {
e.name.as_ref().unwrap() == "complete"
&& e.value.is_none()
&& e.entity == Entity::Field
&& matches!(e.kind, ErrorKind::Missing)
}));
assert!(errors.iter().any(|e| {
e.name.as_ref().unwrap() == "other"
&& e.value.is_none()
&& e.entity == Entity::Field
&& matches!(e.kind, ErrorKind::Missing)
}));
let errors = strict::<WhoopsForm>("complete=true").unwrap_err();
assert!(errors.iter().any(|e| {
e.name.as_ref().unwrap() == "other"
&& e.value.is_none()
&& e.entity == Entity::Field
&& matches!(e.kind, ErrorKind::Missing)
}));
}
#[test]
fn raw_ident_form() {
#[derive(Debug, PartialEq, FromForm)]
struct RawIdentForm {
r#type: String,
}
let form: Result<RawIdentForm, _> = strict("type=a");
assert_eq!(form, Ok(RawIdentForm { r#type: "a".into() }));
}
#[test]
fn test_multi() {
use std::collections::HashMap;
#[derive(Debug, PartialEq, FromForm)]
struct Multi<'r> {
checks: Vec<bool>,
names: Vec<&'r str>,
news: Vec<String>,
dogs: HashMap<String, Dog>,
#[field(name = "more:dogs")]
more_dogs: HashMap<&'r str, Dog>,
}
let multi: Multi = strict("checks=true&checks=false&checks=false\
&names=Sam&names[]=Smith&names[]=Bob\
&news[]=Here&news[]=also here\
&dogs[fido].barks=true&dogs[George].barks=false\
&dogs[fido].trained=on&dogs[George].trained=yes\
&dogs[bob boo].trained=no&dogs[bob boo].barks=off\
&more:dogs[k:0]=My Dog&more:dogs[v:0].barks=true&more:dogs[v:0].trained=yes\
").unwrap();
assert_eq!(multi, Multi {
checks: vec![true, false, false],
names: vec!["Sam".into(), "Smith".into(), "Bob".into()],
news: vec!["Here".into(), "also here".into()],
dogs: {
let mut map = HashMap::new();
map.insert("fido".into(), Dog { barks: true, trained: true });
map.insert("George".into(), Dog { barks: false, trained: true });
map.insert("bob boo".into(), Dog { barks: false, trained: false });
map
},
more_dogs: {
let mut map = HashMap::new();
map.insert("My Dog".into(), Dog { barks: true, trained: true });
map
}
});
#[derive(Debug, PartialEq, FromForm)]
struct MultiOwned {
names: Vec<String>,
}
let raw = "names=Sam&names%5B%5D=Smith&names%5B%5D=Bob%20Smith%3F";
let multi: MultiOwned = strict_encoded(raw).unwrap();
assert_eq!(multi, MultiOwned {
names: vec!["Sam".into(), "Smith".into(), "Bob Smith?".into()],
});
}
#[derive(Debug, FromForm, PartialEq)]
struct Dog {
barks: bool,
trained: bool,
}
#[derive(Debug, FromForm, PartialEq)]
struct Cat<'r> {
nip: &'r str,
meows: bool
}
#[derive(Debug, FromForm, PartialEq)]
struct Pet<'r, T> {
pet: T,
name: &'r str,
age: u8
}
#[derive(Debug, PartialEq, FromForm)]
struct Person<'r> {
dogs: Vec<Pet<'r, Dog>>,
cats: Vec<Pet<'r, Cat<'r>>>,
sitting: Dog,
}
#[test]
fn test_nested_multi() {
let person: Person = strict("sitting.barks=true&sitting.trained=true").unwrap();
assert_eq!(person, Person {
sitting: Dog { barks: true, trained: true },
cats: vec![],
dogs: vec![],
});
let person: Person = strict("sitting.barks=true&sitting.trained=true\
&dogs[0].name=fido&dogs[0].pet.trained=yes&dogs[0].age=7&dogs[0].pet.barks=no\
").unwrap();
assert_eq!(person, Person {
sitting: Dog { barks: true, trained: true },
cats: vec![],
dogs: vec![Pet {
pet: Dog { barks: false, trained: true },
name: "fido".into(),
age: 7
}]
});
let person: Person = strict("sitting.trained=no&sitting.barks=true\
&dogs[0].name=fido&dogs[0].pet.trained=yes&dogs[0].age=7&dogs[0].pet.barks=no\
&dogs[1].pet.barks=true&dogs[1].name=Bob&dogs[1].pet.trained=no&dogs[1].age=1\
").unwrap();
assert_eq!(person, Person {
sitting: Dog { barks: true, trained: false },
cats: vec![],
dogs: vec![
Pet {
pet: Dog { barks: false, trained: true },
name: "fido".into(),
age: 7
},
Pet {
pet: Dog { barks: true, trained: false },
name: "Bob".into(),
age: 1
},
]
});
let person: Person = strict("sitting.barks=true&sitting.trained=no\
&dogs[0].name=fido&dogs[0].pet.trained=yes&dogs[0].age=7&dogs[0].pet.barks=no\
&dogs[1].pet.barks=true&dogs[1].name=Bob&dogs[1].pet.trained=no&dogs[1].age=1\
&cats[george].pet.nip=paws&cats[george].name=George&cats[george].age=2\
&cats[george].pet.meows=yes\
").unwrap();
assert_eq!(person, Person {
sitting: Dog { barks: true, trained: false },
cats: vec![
Pet {
pet: Cat { nip: "paws".into(), meows: true },
name: "George".into(),
age: 2
}
],
dogs: vec![
Pet {
pet: Dog { barks: false, trained: true },
name: "fido".into(),
age: 7
},
Pet {
pet: Dog { barks: true, trained: false },
name: "Bob".into(),
age: 1
},
]
});
}
#[test]
fn test_multipart() {
use rocket::http::ContentType;
use rocket::local::blocking::Client;
use rocket::data::TempFile;
#[derive(FromForm)]
struct MyForm<'r> {
names: Vec<&'r str>,
file: TempFile<'r>,
}
#[rocket::post("/", data = "<form>")]
fn form(form: Form<MyForm>) {
assert_eq!(form.names, &["abcd", "123"]);
assert_eq!(form.file.name(), Some("foo"));
}
let client = Client::debug_with(rocket::routes![form]).unwrap();
let ct = "multipart/form-data; boundary=X-BOUNDARY"
.parse::<ContentType>()
.unwrap();
let body = &[
"--X-BOUNDARY",
r#"Content-Disposition: form-data; name="names[]""#,
"",
"abcd",
"--X-BOUNDARY",
r#"Content-Disposition: form-data; name="names[]""#,
"",
"123",
"--X-BOUNDARY",
r#"Content-Disposition: form-data; name="file"; filename="foo.txt""#,
"Content-Type: text/plain",
"",
"hi there",
"--X-BOUNDARY--",
"",
].join("\r\n");
let response = client.post("/")
.header(ct)
.body(body)
.dispatch();
assert!(response.status().class().is_success());
}