use failure::*; use std::collections::HashMap; use serde_json::{json, Value}; use url::form_urlencoded; use regex::Regex; use std::fmt; use std::sync::Arc; #[derive(Debug, Fail)] pub struct ParameterError { error_list: Vec, } impl ParameterError { pub fn new() -> Self { Self { error_list: vec![] } } pub fn push(&mut self, value: Error) { self.error_list.push(value); } pub fn len(&self) -> usize { self.error_list.len() } } impl fmt::Display for ParameterError { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let msg = self.error_list.iter().fold(String::from(""), |acc, item| { acc + &item.to_string() + "\n" }); write!(f, "{}", msg) } } #[derive(Debug)] pub struct BooleanSchema { pub description: &'static str, pub default: Option, } impl BooleanSchema { pub fn new(description: &'static str) -> Self { BooleanSchema { description: description, default: None, } } pub fn default(mut self, default: bool) -> Self { self.default = Some(default); self } } #[derive(Debug)] pub struct IntegerSchema { pub description: &'static str, pub minimum: Option, pub maximum: Option, pub default: Option, } impl IntegerSchema { pub fn new(description: &'static str) -> Self { IntegerSchema { description: description, default: None, minimum: None, maximum: None, } } pub fn default(mut self, default: isize) -> Self { self.default = Some(default); self } pub fn minimum(mut self, minimum: isize) -> Self { self.minimum = Some(minimum); self } pub fn maximum(mut self, maximium: isize) -> Self { self.maximum = Some(maximium); self } fn check_constraints(&self, value: isize) -> Result<(), Error> { if let Some(minimum) = self.minimum { if value < minimum { bail!("value must have a minimum value of {}", minimum); } } if let Some(maximum) = self.maximum { if value > maximum { bail!("value must have a maximum value of {}", maximum); } } Ok(()) } } #[derive(Debug)] pub struct StringSchema { pub description: &'static str, pub default: Option<&'static str>, pub min_length: Option, pub max_length: Option, pub format: Option>, } impl StringSchema { pub fn new(description: &'static str) -> Self { StringSchema { description: description, default: None, min_length: None, max_length: None, format: None, } } pub fn default(mut self, text: &'static str) -> Self { self.default = Some(text); self } pub fn format(mut self, format: Arc) -> Self { self.format = Some(format); self } pub fn min_length(mut self, min_length: usize) -> Self { self.min_length = Some(min_length); self } pub fn max_length(mut self, max_length: usize) -> Self { self.max_length = Some(max_length); self } fn check_length(&self, length: usize) -> Result<(), Error> { if let Some(min_length) = self.min_length { if length < min_length { bail!("value must be at least {} characters long", min_length); } } if let Some(max_length) = self.max_length { if length > max_length { bail!("value may only be {} characters long", max_length); } } Ok(()) } pub fn check_constraints(&self, value: &str) -> Result<(), Error> { self.check_length(value.chars().count())?; if let Some(ref format) = self.format { match format.as_ref() { ApiStringFormat::Pattern(ref regex) => { if !regex.is_match(value) { bail!("value does not match the regex pattern"); } } ApiStringFormat::Enum(ref stringvec) => { if stringvec.iter().find(|&e| *e == value) == None { bail!("value '{}' is not defined in the enumeration.", value); } } ApiStringFormat::Complex(ref subschema) => { parse_property_string(value, subschema)?; } ApiStringFormat::VerifyFn(verify_fn) => { verify_fn(value)?; } } } Ok(()) } } #[derive(Debug)] pub struct ArraySchema { pub description: &'static str, pub items: Arc, pub min_length: Option, pub max_length: Option, } impl ArraySchema { pub fn new(description: &'static str, item_schema: Arc) -> Self { ArraySchema { description: description, items: item_schema, min_length: None, max_length: None, } } pub fn min_length(mut self, min_length: usize) -> Self { self.min_length = Some(min_length); self } pub fn max_length(mut self, max_length: usize) -> Self { self.max_length = Some(max_length); self } fn check_length(&self, length: usize) -> Result<(), Error> { if let Some(min_length) = self.min_length { if length < min_length { bail!("array must contain at least {} elements", min_length); } } if let Some(max_length) = self.max_length { if length > max_length { bail!("array may only contain {} elements", max_length); } } Ok(()) } } #[derive(Debug)] pub struct ObjectSchema { pub description: &'static str, pub additional_properties: bool, pub properties: HashMap<&'static str, (bool, Arc)>, pub default_key: Option<&'static str>, } impl ObjectSchema { pub fn new(description: &'static str) -> Self { let properties = HashMap::new(); ObjectSchema { description: description, additional_properties: false, properties: properties, default_key: None, } } pub fn additional_properties(mut self, additional_properties: bool) -> Self { self.additional_properties = additional_properties; self } pub fn default_key(mut self, key: &'static str) -> Self { self.default_key = Some(key); self } pub fn required>>(mut self, name: &'static str, schema: S) -> Self { self.properties.insert(name, (false, schema.into())); self } pub fn optional>>(mut self, name: &'static str, schema: S) -> Self { self.properties.insert(name, (true, schema.into())); self } } #[derive(Debug)] pub enum Schema { Null, Boolean(BooleanSchema), Integer(IntegerSchema), String(StringSchema), Object(ObjectSchema), Array(ArraySchema), } impl From for Schema { fn from(string_schema: StringSchema) -> Self { Schema::String(string_schema) } } impl From for Arc { fn from(string_schema: StringSchema) -> Self { Arc::new(Schema::String(string_schema)) } } impl From for Schema { fn from(boolean_schema: BooleanSchema) -> Self { Schema::Boolean(boolean_schema) } } impl From for Arc { fn from(boolean_schema: BooleanSchema) -> Self { Arc::new(Schema::Boolean(boolean_schema)) } } impl From for Schema { fn from(integer_schema: IntegerSchema) -> Self { Schema::Integer(integer_schema) } } impl From for Arc { fn from(integer_schema: IntegerSchema) -> Self { Arc::new(Schema::Integer(integer_schema)) } } impl From for Schema { fn from(object_schema: ObjectSchema) -> Self { Schema::Object(object_schema) } } impl From for Arc { fn from(object_schema: ObjectSchema) -> Self { Arc::new(Schema::Object(object_schema)) } } impl From for Schema { fn from(array_schema: ArraySchema) -> Self { Schema::Array(array_schema) } } impl From for Arc { fn from(array_schema: ArraySchema) -> Self { Arc::new(Schema::Array(array_schema)) } } pub enum ApiStringFormat { Enum(Vec), Pattern(&'static Regex), Complex(Arc), VerifyFn(fn(&str) -> Result<(), Error>), } impl std::fmt::Debug for ApiStringFormat { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self { ApiStringFormat::VerifyFn(fnptr) => { write!(f, "VerifyFn({:p}", fnptr) } ApiStringFormat::Enum(strvec) => { write!(f, "Enum({:?}", strvec) } ApiStringFormat::Pattern(regex) => { write!(f, "Pattern({:?}", regex) } ApiStringFormat::Complex(schema) => { write!(f, "Complex({:?}", schema) } } } } pub fn parse_boolean(value_str: &str) -> Result { match value_str.to_lowercase().as_str() { "1" | "on" | "yes" | "true" => Ok(true), "0" | "off" | "no" | "false" => Ok(false), _ => bail!("Unable to parse boolean option."), } } fn parse_property_string(value_str: &str, schema: &Schema) -> Result { println!("Parse property string: {}", value_str); let mut param_list: Vec<(String, String)> = vec![]; match schema { Schema::Object(object_schema) => { for key_val in value_str.split(',').filter(|s| !s.is_empty()) { let kv: Vec<&str> = key_val.splitn(2, '=').collect(); if kv.len() == 2 { param_list.push((kv[0].into(), kv[1].into())); } else { if let Some(key) = object_schema.default_key { param_list.push((key.into(), kv[0].into())); } else { bail!("Value without key, but schema does not define a default key."); } } } return parse_parameter_strings(¶m_list, &object_schema, true) .map_err(Error::from); } Schema::Array(array_schema) => { let mut array : Vec = vec![]; for value in value_str.split(',').filter(|s| !s.is_empty()) { match parse_simple_value(value, &array_schema.items) { Ok(res) => array.push(res), Err(err) => bail!("unable to parse array element: {}", err), } } array_schema.check_length(array.len())?; return Ok(array.into()); } _ => { bail!("Got unexpetec schema type.") } } } pub fn parse_simple_value(value_str: &str, schema: &Schema) -> Result { let value = match schema { Schema::Null => { bail!("internal error - found Null schema."); } Schema::Boolean(_boolean_schema) => { let res = parse_boolean(value_str)?; Value::Bool(res) } Schema::Integer(integer_schema) => { let res: isize = value_str.parse()?; integer_schema.check_constraints(res)?; Value::Number(res.into()) } Schema::String(string_schema) => { string_schema.check_constraints(value_str)?; Value::String(value_str.into()) } _ => bail!("unable to parse complex (sub) objects."), }; Ok(value) } pub fn parse_parameter_strings(data: &Vec<(String, String)>, schema: &ObjectSchema, test_required: bool) -> Result { println!("QUERY Strings {:?}", data); let mut params = json!({}); let mut errors = ParameterError::new(); let properties = &schema.properties; let additional_properties = schema.additional_properties; for (key, value) in data { if let Some((_optional, prop_schema)) = properties.get::(key) { match prop_schema.as_ref() { Schema::Array(array_schema) => { if params[key] == Value::Null { params[key] = json!([]); } match params[key] { Value::Array(ref mut array) => { match parse_simple_value(value, &array_schema.items) { Ok(res) => array.push(res), // fixme: check_length?? Err(err) => errors.push(format_err!("parameter '{}': {}", key, err)), } } _ => errors.push(format_err!("parameter '{}': expected array - type missmatch", key)), } } _ => { match parse_simple_value(value, prop_schema) { Ok(res) => { if params[key] == Value::Null { params[key] = res; } else { errors.push(format_err!("parameter '{}': duplicate parameter.", key)); } }, Err(err) => errors.push(format_err!("parameter '{}': {}", key, err)), } } } } else { if additional_properties { match params[key] { Value::Null => { params[key] = Value::String(value.to_owned()); }, Value::String(ref old) => { params[key] = Value::Array( vec![Value::String(old.to_owned()), Value::String(value.to_owned())]); } Value::Array(ref mut array) => { array.push(Value::String(value.to_string())); } _ => errors.push(format_err!("parameter '{}': expected array - type missmatch", key)), } } else { errors.push(format_err!("parameter '{}': schema does not allow additional properties.", key)); } } } if test_required && errors.len() == 0 { for (name, (optional, _prop_schema)) in properties { if *optional == false && params[name] == Value::Null { errors.push(format_err!("parameter '{}': parameter is missing and it is not optional.", name)); } } } if errors.len() > 0 { Err(errors) } else { Ok(params) } } pub fn parse_query_string(query: &str, schema: &ObjectSchema, test_required: bool) -> Result { let param_list: Vec<(String, String)> = form_urlencoded::parse(query.as_bytes()).into_owned().collect(); parse_parameter_strings(¶m_list, schema, test_required) } pub fn verify_json(data: &Value, schema: &Schema) -> Result<(), Error> { match schema { Schema::Object(object_schema) => { verify_json_object(data, &object_schema)?; } Schema::Array(array_schema) => { verify_json_array(data, &array_schema)?; } Schema::Null => { if !data.is_null() { bail!("Expected Null, but value is not Null."); } } Schema::Boolean(boolean_schema) => verify_json_boolean(data, &boolean_schema)?, Schema::Integer(integer_schema) => verify_json_integer(data, &integer_schema)?, Schema::String(string_schema) => verify_json_string(data, &string_schema)?, } Ok(()) } pub fn verify_json_string(data: &Value, schema: &StringSchema) -> Result<(), Error> { if let Some(value) = data.as_str() { schema.check_constraints(value) } else { bail!("Expected string value."); } } pub fn verify_json_boolean(data: &Value, _schema: &BooleanSchema) -> Result<(), Error> { if !data.is_boolean() { bail!("Expected boolean value."); } Ok(()) } pub fn verify_json_integer(data: &Value, schema: &IntegerSchema) -> Result<(), Error> { if let Some(value) = data.as_i64() { schema.check_constraints(value as isize) } else { bail!("Expected integer value."); } } pub fn verify_json_array(data: &Value, schema: &ArraySchema) -> Result<(), Error> { let list = match data { Value::Array(ref list) => list, Value::Object(_) => bail!("Expected array - got object."), _ => bail!("Expected array - got scalar value."), }; schema.check_length(list.len())?; for item in list { verify_json(item, &schema.items)?; } Ok(()) } pub fn verify_json_object(data: &Value, schema: &ObjectSchema) -> Result<(), Error> { let map = match data { Value::Object(ref map) => map, Value::Array(_) => bail!("Expected object - got array."), _ => bail!("Expected object - got scalar value."), }; let properties = &schema.properties; let additional_properties = schema.additional_properties; for (key, value) in map { if let Some((_optional, prop_schema)) = properties.get::(key) { match prop_schema.as_ref() { Schema::Object(object_schema) => { verify_json_object(value, object_schema)?; } Schema::Array(array_schema) => { verify_json_array(value, array_schema)?; } _ => verify_json(value, prop_schema)?, } } else { if !additional_properties { bail!("property '{}': schema does not allow additional properties.", key); } } } for (name, (optional, _prop_schema)) in properties { if *optional == false && data[name] == Value::Null { bail!("property '{}': property is missing and it is not optional.", name); } } Ok(()) } #[test] fn test_schema1() { let schema = Schema::Object(ObjectSchema { description: "TEST", additional_properties: false, properties: { let map = HashMap::new(); map }, default_key: None, }); println!("TEST Schema: {:?}", schema); } #[test] fn test_query_string() { let schema = ObjectSchema::new("Parameters.") .required("name", StringSchema::new("Name.")); let res = parse_query_string("", &schema, true); assert!(res.is_err()); let schema = ObjectSchema::new("Parameters.") .optional("name", StringSchema::new("Name.")); let res = parse_query_string("", &schema, true); assert!(res.is_ok()); // TEST min_length and max_length let schema = ObjectSchema::new("Parameters.") .required( "name", StringSchema::new("Name.") .min_length(5) .max_length(10) ); let res = parse_query_string("name=abcd", &schema, true); assert!(res.is_err()); let res = parse_query_string("name=abcde", &schema, true); assert!(res.is_ok()); let res = parse_query_string("name=abcdefghijk", &schema, true); assert!(res.is_err()); let res = parse_query_string("name=abcdefghij", &schema, true); assert!(res.is_ok()); // TEST regex pattern lazy_static! { static ref TEST_REGEX: Regex = Regex::new("test").unwrap(); static ref TEST2_REGEX: Regex = Regex::new("^test$").unwrap(); } let schema = ObjectSchema::new("Parameters.") .required( "name", StringSchema::new("Name.") .format(Arc::new(ApiStringFormat::Pattern(&TEST_REGEX))) ); let res = parse_query_string("name=abcd", &schema, true); assert!(res.is_err()); let res = parse_query_string("name=ateststring", &schema, true); assert!(res.is_ok()); let schema = ObjectSchema::new("Parameters.") .required( "name", StringSchema::new("Name.") .format(Arc::new(ApiStringFormat::Pattern(&TEST2_REGEX))) ); let res = parse_query_string("name=ateststring", &schema, true); assert!(res.is_err()); let res = parse_query_string("name=test", &schema, true); assert!(res.is_ok()); // TEST string enums let schema = ObjectSchema::new("Parameters.") .required( "name", StringSchema::new("Name.") .format(Arc::new(ApiStringFormat::Enum(vec!["ev1".into(), "ev2".into()]))) ); let res = parse_query_string("name=noenum", &schema, true); assert!(res.is_err()); let res = parse_query_string("name=ev1", &schema, true); assert!(res.is_ok()); let res = parse_query_string("name=ev2", &schema, true); assert!(res.is_ok()); let res = parse_query_string("name=ev3", &schema, true); assert!(res.is_err()); } #[test] fn test_query_integer() { let schema = ObjectSchema::new("Parameters.") .required( "count" , IntegerSchema::new("Count.") ); let res = parse_query_string("", &schema, true); assert!(res.is_err()); let schema = ObjectSchema::new("Parameters.") .optional( "count", IntegerSchema::new("Count.") .minimum(-3) .maximum(50) ); let res = parse_query_string("", &schema, true); assert!(res.is_ok()); let res = parse_query_string("count=abc", &schema, false); assert!(res.is_err()); let res = parse_query_string("count=30", &schema, false); assert!(res.is_ok()); let res = parse_query_string("count=-1", &schema, false); assert!(res.is_ok()); let res = parse_query_string("count=300", &schema, false); assert!(res.is_err()); let res = parse_query_string("count=-30", &schema, false); assert!(res.is_err()); let res = parse_query_string("count=50", &schema, false); assert!(res.is_ok()); let res = parse_query_string("count=-3", &schema, false); assert!(res.is_ok()); } #[test] fn test_query_boolean() { let schema = ObjectSchema::new("Parameters.") .required( "force", BooleanSchema::new("Force.") ); let res = parse_query_string("", &schema, true); assert!(res.is_err()); let schema = ObjectSchema::new("Parameters.") .optional( "force", BooleanSchema::new("Force.") ); let res = parse_query_string("", &schema, true); assert!(res.is_ok()); let res = parse_query_string("a=b", &schema, true); assert!(res.is_err()); let res = parse_query_string("force", &schema, true); assert!(res.is_err()); let res = parse_query_string("force=yes", &schema, true); assert!(res.is_ok()); let res = parse_query_string("force=1", &schema, true); assert!(res.is_ok()); let res = parse_query_string("force=On", &schema, true); assert!(res.is_ok()); let res = parse_query_string("force=TRUE", &schema, true); assert!(res.is_ok()); let res = parse_query_string("force=TREU", &schema, true); assert!(res.is_err()); let res = parse_query_string("force=NO", &schema, true); assert!(res.is_ok()); let res = parse_query_string("force=0", &schema, true); assert!(res.is_ok()); let res = parse_query_string("force=off", &schema, true); assert!(res.is_ok()); let res = parse_query_string("force=False", &schema, true); assert!(res.is_ok()); } #[test] fn test_verify_function() { let schema = ObjectSchema::new("Parameters.") .required( "p1", StringSchema::new("P1") .format(ApiStringFormat::VerifyFn(|value| { if value == "test" { return Ok(()) }; bail!("format error"); }).into()) ); let res = parse_query_string("p1=tes", &schema, true); assert!(res.is_err()); let res = parse_query_string("p1=test", &schema, true); assert!(res.is_ok()); } #[test] fn test_verify_complex_object() { let nic_models = Arc::new(ApiStringFormat::Enum( vec!["e1000".into(), "virtio".into()])); let param_schema: Arc = ObjectSchema::new("Properties.") .default_key("model") .required("model", StringSchema::new("Ethernet device Model.") .format(nic_models)) .optional("enable", BooleanSchema::new("Enable device.")) .into(); let schema = ObjectSchema::new("Parameters.") .required( "net0", StringSchema::new("First Network device.") .format(ApiStringFormat::Complex(param_schema).into()) ); let res = parse_query_string("", &schema, true); assert!(res.is_err()); let res = parse_query_string("test=abc", &schema, true); assert!(res.is_err()); let res = parse_query_string("net0=model=abc", &schema, true); assert!(res.is_err()); let res = parse_query_string("net0=model=virtio", &schema, true); assert!(res.is_ok()); let res = parse_query_string("net0=model=virtio,enable=1", &schema, true); assert!(res.is_ok()); let res = parse_query_string("net0=virtio,enable=no", &schema, true); assert!(res.is_ok()); } #[test] fn test_verify_complex_array() { let param_schema: Arc = ArraySchema::new( "Integer List.", Arc::new(IntegerSchema::new("Soemething").into())) .into(); let schema = ObjectSchema::new("Parameters.") .required( "list", StringSchema::new("A list on integers, comma separated.") .format(ApiStringFormat::Complex(param_schema).into()) ); let res = parse_query_string("", &schema, true); assert!(res.is_err()); let res = parse_query_string("list=", &schema, true); assert!(res.is_ok()); let res = parse_query_string("list=abc", &schema, true); assert!(res.is_err()); let res = parse_query_string("list=1", &schema, true); assert!(res.is_ok()); let res = parse_query_string("list=2,3,4,5", &schema, true); assert!(res.is_ok()); let param_schema: Arc = ArraySchema::new( "Integer List.", Arc::new(IntegerSchema::new("Soemething").into())) .min_length(1) .max_length(3) .into(); let schema = ObjectSchema::new("Parameters.") .required( "list", StringSchema::new("A list on integers, comma separated.") .format(ApiStringFormat::Complex(param_schema).into()) ); let res = parse_query_string("list=", &schema, true); assert!(res.is_err()); let res = parse_query_string("list=1,2,3", &schema, true); assert!(res.is_ok()); let res = parse_query_string("list=2,3,4,5", &schema, true); assert!(res.is_err()); }