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Crates.io

validr

validr = "0.3.1"

Validr will allow you to modify your payload after it has been deserialized and then will validate it with the rules you give it.

usage:

#[macro_use]
use validr::*;
use serde::Deserialize;
use actix_web::{web, HttpResponse, ResponseError};


#[derive(Clone, Deserialize, Debug)]
struct TestObj {
    pub name: Option<String>,
    pub email: Option<String>,
    pub age: Option<u8>
}

impl Validation for TestObj {
    fn modifiers(&self) -> Vec<Modifier<Self>> {
        vec![
            modifier_trim!(name),
            modifier_capitalize!(name),
            modifier_lowercase!(email),
        ]
    }

    fn rules(&self) -> Vec<Rule<Self>> {
        vec![
            rule_required!(name),
            rule_required!(email),
            rule_email!(email),
        ]
    }
}

async fn test_actix_route_handler(test: web::Json<TestObj>) -> HttpResponse {
    match test.into_inner().validate() {
        Ok(item) => {
            println!("This is your data validated and modified: {:?}", item);
            HttpResponse::Ok().body("Validation passed!")
        },
        Err(e) => e.error_response(),
    }
}

Validation rules

There are some rules predefined and provided for you in a form of a macro to simply include in your validation.

Required

For Option<T: ToString + Clone> it will check if the field is present For String it will check if it's not empty.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_required!(field_name_on_self)]
    }
}

Accepted

This rule will work for Option<bool> where it checks if the field is present and true, and it will work for bool where it checks that its true.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<bool>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_accepted!(field_name_on_self)]
    }
}

Email

For Option<T: ToString + Clone> it will check if the field is present and valid email For String it will check if it's valid email.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_email!(field_name_on_self)]
    }
}

Url

For Option<T: ToString + Clone> it will check if the field is present and valid url For String it will check if it's valid url.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_url!(field_name_on_self)]
    }
}

Phone

For Option<T: ToString + Clone> it will check if the field is present and valid phone number For String it will check if it's valid phone number.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_phone!(field_name_on_self)]
    }
}

Non Control Character

For Option<T: ToString + Clone> it will check if the field is present and has no control characters For String it will check if the field has no control characters

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_non_control_character!(field_name_on_self)]
    }
}

IP

For Option<T: ToString + Clone> it will check if the field is present and valid IP For String it will check if it's valid IP.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_ip!(field_name_on_self)]
    }
}

IP V4

For Option<T: ToString + Clone> it will check if the field is present and valid IP V4 For String it will check if it's valid IP V4.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_ip_v4!(field_name_on_self)]
    }
}

IP V6

For Option<T: ToString + Clone> it will check if the field is present and valid IP V6 For String it will check if it's valid IP V6.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_ip_v6!(field_name_on_self)]
    }
}

Credit card

For Option<T: ToString + Clone> it will check if the field is present and valid CC number For String it will check if it's valid CC number.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_credit_card!(field_name_on_self)]
    }
}

Contains

For Option<T: ToString + Clone> it will check if the field is present and contains given needle For String it will check if it contains given needle.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_contains!(field_name_on_self, "needle".to_string())]
    }
}

Equal to

It validates if two given field names are equal.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
    field_name_to_compare_to_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_equalt_to!(field_name_on_self, field_name_to_compare_to_on_self)]
    }
}

Not equal to

It validates if two given field names are not equal.

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
    field_name_to_compare_to_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_not_equalt_to!(field_name_on_self, field_name_to_compare_to_on_self)]
    }
}

In

For Option<T: ToString + Clone> it will check if the field is present and will match its value to haystack of values For String it will check if its in the haystack value

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![
            rule_in!(field_name_on_self, vec![
                "allowed_value".to_string(),
                "another_allowed_value".to_string()
            ]),
        ]
    }
}

length min

For Option<T: ToString + Clone> it will check if the field is present and has min number of chars For String it will check if it has min number of chars

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_length_min!(field_name_on_self, 2)]
    }
}

length max

For Option<T: ToString + Clone> it will check if the field is present and has max number of chars For String it will check if it has max number of chars

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_length_max!(field_name_on_self, 15)]
    }
}

length equal

For Option<T: ToString + Clone> it will check if the field is present and has eq number of chars For String it will check if it has eq number of chars

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_length_eq!(field_name_on_self, 10)]
    }
}

length not equal

For Option<T: ToString + Clone> it will check if the field is present and has ne number of chars For String it will check if it has ne number of chars

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_length_ne!(field_name_on_self, 11)]
    }
}

Range

For Option<T: Into<f64> + PartialOrd + Clone> it will check that the value is present and within given range. For T: Into<f64> it will check if the value is in the given range

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<u8>,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![rule_range!(field_name_on_self, Some(10), Some(15))]
    }
}

Custom validation rule

You can always implement a custom validation rule by instead of using provided macros generate your own Rule::new() definition:

#[macro_use]
use validr::{Validation, error::ValidationError, Rule};
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name: String,
}

impl Validation for Test {
    fn rules(&self) -> Vec<Rule<Self>> {
        vec![
            Rule::new("field_name", |obj: &Self, error: &mut ValidationError| {
                if obj.field_name != "some_validation_rule".to_string() {
                    error.add("my_custom_error_code");
                }
            }),
        ]
    }
}

Field modifiers

Before running validation rules you can modify the input data to format it in whatever way you want. There are some modifiers included, but you can certainly create a custom one to do whatever you want.

Trim

For Option<String> it will check if there is some value and will run the trim on the value. For String it will simply trim it

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn modifiers(&self) -> Vec<Modifier<Self>> {
        vec![modifier_trim!(field_name_on_self)]
    }
}

Lowercase

For Option<String> it will check if there is some value and will run the lowercase on the value. For String it will simply lowercase it

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn modifiers(&self) -> Vec<Modifier<Self>> {
        vec![modifier_lowercase!(field_name_on_self)]
    }
}

Uppercase

For Option<String> it will check if there is some value and will run the uppercase on the value. For String it will simply uppercase it

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn modifiers(&self) -> Vec<Modifier<Self>> {
        vec![modifier_uppercase!(field_name_on_self)]
    }
}

Capitalize

For Option<String> it will check if there is some value and will run the capitalize on the value. For String it will simply capitalize it

Capitalize will turn the first char of the string to uppercase, and everything else will be lowercase

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn modifiers(&self) -> Vec<Modifier<Self>> {
        vec![modifier_capitalize!(field_name_on_self)]
    }
}

Custom modifier

Implementing custom modifier is similar to custom validation rule, you will provide a custom implementation of Modifier::new():

#[macro_use]
use validr::*;
#[derive(serde::Deserialize, Clone)]
struct Test {
    field_name_on_self: Option<String>,
}

impl Validation for Test {
    fn modifiers(&self) -> Vec<Modifier<Self>> {
        vec![
            Modifier::new("field_name_on_self", |obj: &mut Self| {
                obj.field_name_on_self = Some("new_value".to_string());
            }),
        ]
    }
}

License

Licensed under either of

at your option.

Contribution

Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.

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Rust serde deserialized data validator

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