/
core_test.clj
302 lines (287 loc) · 11 KB
/
core_test.clj
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(ns randomorg.core-test
(:require [midje.sweet :refer :all]
[randomorg.core :refer :all]))
(def ^:dynamic *TESTING_API_KEY*
"94c2fc83-d5bb-4396-856a-c7001a060d08")
;; api dumb-testing, we only check if results are returned
;; and not validate these results as they come from random.org
(defn error [result]
(and (= (:status result) :error)
(not (empty? (:message result)))))
(defn success [result]
(and (= (:status result) :success)
(not (empty? (:data result)))))
(defn usage [result]
(and (= (:status result) :success)
(not (empty? (:usage result)))))
(defn signed [result]
(and (not (empty? (get-in result [:signed :signature])))
(not (empty? (get-in result [:signed :random])))))
(fact "generate-integers"
(let [g generate-integers] ;; just an alias
(fact "happy case"
(g :n 1 :min 0 :max 10) => success
(g :n 2 :min 0 :max 100) => success
(g :n 10 :min -2 :max 2) => success)
(fact "integration"
(fact "two 6 sided dice rolls"
(g :n 2 :min 1 :max 6) => success)
(fact "shuffle 52 card deck"
(g :n 52 :min 1 :max 52 :replacement false) => success))
(fact "required params"
(g) => error
(g :n 1) => error
(g :n 1 :min 0) => error
(g :n 1 :max 0) => error
(g :n 1 :replacement true :base 10) => error)
(fact "n"
(fact "integer"
(g :n "1" :min 1 :max 10) => error
(g :n 10.2 :min 1 :max 10) => error)
(fact "out of range"
(g :n 0 :min 0 :max 10) => error
(g :n 1e5 :min 0 :max 10) => error))
(fact "min"
(fact "integer"
(g :n 1 :min 0.1 :max 10) => error
(g :n 1 :min "2" :max 10) => error)
(fact "out of range"
(g :n 0 :min 1000000001 :max 1000000002) => error
(g :n 1 :min -1000000001 :max 1) => error))
(fact "max"
(fact "integer"
(g :n 1 :min 0 :max 1.2) => error
(g :n 1 :min 0 :max "1") => error)
(fact "out of range"
(g :n 0 :min 1 :max 1000000001) => error
(g :n 1 :min 0 :max -1000000001) => error))
(fact "replacement"
(fact "boolean"
(g :n 1 :min 0 :max 1 :replacement true) => success
(g :n 1 :min 0 :max 1 :replacement false) => success
(g :n 1 :min 0 :max 1 :replacement nil) => error
(g :n 1 :min 0 :max 1 :replacement 0) => error
(g :n 1 :min 0 :max 1 :replacement "") => error))
(fact "base"
(doseq [base [2 8 10 16]]
(fact (g :n 1 :min 0 :max 1 :base base) => success))
(doseq [base [1 3 5 7]]
(fact (g :n 1 :min 0 :max 1 :base base) => error)))))
(fact "generate-decimal-fractions"
(let [g generate-decimal-fractions] ;; just an alias
(fact "happy case"
(g :n 1 :digits 1) => success
(g :n 2 :digits 10) => success
(g :n 10 :digits 20) => success)
(fact "integration"
(fact "three uniform distribution numbers [0, 1]"
(g :n 3 :digits 2) => success))
(fact "required params"
(g) => error
(g :n 1) => error
(g :digits 2) => error
(g :digits 2 :replacement false) => error
(g :n 1 :replacement true) => error)
(fact "n"
(fact "integer"
(g :n "1" :digits 2) => error
(g :n 10.2 :digits 2) => error)
(fact "out of range"
(g :n 0 :digits 2) => error
(g :n 1e5 :digits 2) => error))
(fact "digits"
(fact "integer"
(g :n 1 :digits 0.1) => error
(g :n 1 :digits "2") => error)
(fact "out of range"
(g :n 1 :digits 0) => error
(g :n 1 :digits 21) => error))
(fact "replacement"
(fact "boolean"
(g :n 1 :digits 2 :replacement true) => success
(g :n 1 :digits 2 :replacement false) => success
(g :n 1 :digits 2 :replacement nil) => error
(g :n 1 :digits 2 :replacement 0) => error
(g :n 1 :digits 2 :replacement "") => error))))
(fact "generate-gaussians"
(let [g generate-gaussians] ;; just an alias
(fact "happy case"
(g :n 1 :mean 0 :std 10.0 :digits 10) => success
(g :n 2 :mean -10 :std 10.0 :digits 10) => success
(g :n 10 :mean 1e6 :std 1 :digits 2) => success)
(fact "integration"
(fact "three normal distribution numbers [0, ~1]"
(g :n 3 :mean 0 :std 1.0 :digits 2) => success))
(fact "required params"
(g) => error
(g :n 1) => error
(g :digits 2) => error
(g :n 1 :digits 2) => error
(g :n 1 :digits 2 :mean 0.0) => error
(g :n 1 :digits 2 :std 1.0) => error)
(fact "n"
(fact "integer"
(g :n "1" :std 1.0 :mean 0 :digits 2) => error
(g :n 10.2 :std 1.0 :mean 0 :digits 2) => error)
(fact "out of range"
(g :n 0 :std 1.0 :mean 0 :digits 2) => error
(g :n 1e5 :std 1.0 :mean 0 :digits 2) => error))
(fact "digits"
(fact "integer"
(g :n 1 :std 1.0 :mean 0 :digits 0.1) => error
(g :n 1 :std 1.0 :mean 0 :digits "2") => error)
(fact "out of range"
(g :n 1 :std 1.0 :mean 0 :digits 0) => error
(g :n 1 :std 1.0 :mean 0 :digits 1) => error
(g :n 1 :std 1.0 :mean 0 :digits 2) => success
(g :n 1 :std 1.0 :mean 0 :digits 20) => success
(g :n 1 :std 1.0 :mean 0 :digits 21) => error))
(fact "mean"
(fact "number"
(g :n 1 :std 1.0 :mean 0 :digits 2) => success
(g :n 1 :std 1.0 :mean 0.5 :digits 2) => success
(g :n 1 :std 1.0 :mean "1.0" :digits 2) => error)
(fact "out of range"
(g :n 1 :std 1.0 :mean 0 :digits 2) => success
(g :n 1 :std 1.0 :mean 1e6 :digits 2) => success
(g :n 1 :std 1.0 :mean -1e6 :digits 2) => success
(g :n 1 :std 1.0 :mean 1e7 :digits 2) => error
(g :n 1 :std 1.0 :mean -1e7 :digits 2) => error))
(fact "std"
(fact "number"
(g :n 1 :std 1 :mean 0.0 :digits 2) => success
(g :n 1 :std 1.5 :mean 0.0 :digits 2) => success
(g :n 1 :std "1.0" :mean 0.0 :digits 2) => error)
(fact "out of range"
(g :n 1 :std 1.0 :mean 0 :digits 2) => success
(g :n 1 :std 1e6 :mean 0 :digits 2) => success
(g :n 1 :std -1e6 :mean 0 :digits 2) => success
(g :n 1 :std 1e7 :mean 0 :digits 2) => error
(g :n 1 :std -1e7 :mean 0 :digits 2) => error))
))
(fact "generate-strings"
(let [g generate-strings] ;; just an alias
(fact "happy case"
(g :n 1 :length 1 :characters lowercase) => success
(g :n 2 :length 20 :characters lowercase) => success
(g :n 10 :length 1 :characters digits :replacement false) => success)
(fact "integration"
(fact "random password"
(g :n 1 :length 12 :characters (str lowercase uppercase digits)) => success))
(fact "required params"
(g) => error
(g :n 1) => error
(g :n 2 :length 1) => error
(g :n 1 :characters lowercase) => error
(g :n 1 :characters digits :replacement false) => error
(g :length 10 :characters lowercase) => error)
(fact "n"
(fact "integer"
(g :n "1" :length 1 :characters lowercase) => error
(g :n 10.2 :length 1 :characters lowercase) => error)
(fact "out of range"
(g :n 0 :length 1 :characters lowercase) => error
(g :n 1e5 :length 1 :characters lowercase) => error))
(fact "length"
(fact "integer"
(g :n 1 :length "1" :characters lowercase) => error
(g :n 1 :length 1.1 :characters lowercase) => error)
(fact "out of range"
(g :n 1 :length 0 :characters lowercase) => error
(g :n 1 :length 1 :characters lowercase) => success
(g :n 1 :length 20 :characters lowercase) => success
(g :n 1 :length 21 :characters lowercase) => error))
(fact "characters"
(fact "string"
(g :n 1 :length 1 :characters 1) => error
(g :n 1 :length 1 :characters nil) => error)
(fact "out of range"
(g :n 1 :length 1 :characters "") => error
(g :n 1 :length 1 :characters (apply str (repeat 40 "1"))) => success
(g :n 1 :length 1 :characters (apply str (repeat 80 "1"))) => success
(g :n 1 :length 1 :characters (apply str (repeat 81 "1"))) => error))))
(fact "generate-uuids"
(let [g generate-uuids] ;; just an alias
(fact "happy case"
(g :n 1) => success)
(fact "integration"
(fact "three uuids password"
(g :n 3) => success))
(fact "required params"
(g) => error)
(fact "n"
(fact "integer"
(g :n "1") => error
(g :n 10.2) => error)
(fact "out of range"
(g :n 0) => error
(g :n 1e4) => error))))
(fact "generate-blobs"
(let [g generate-blobs] ;; just an alias
(fact "happy case"
(g :n 1 :size 8) => success)
(fact "integration"
(fact "garbage"
(g :n 1 :size 128 :format "hex") => success))
(fact "required params"
(g) => error
(g :n 1) => error
(g :size 8) => error)
(fact "n"
(fact "integer"
(g :n "1" :size 8) => error
(g :n 10.2 :size 8) => error)
(fact "out of range"
(g :n 0 :size 8) => error
(g :n 101 :size 8) => error))
(fact "size"
(fact "integer"
(g :n 1 :size "8") => error
(g :n 1 :size 2.3) => error)
(fact "divisible by 8"
(g :n 1 :size 0) => error
(g :n 1 :size 1) => error
(g :n 1 :size 2) => error
(g :n 1 :size 8) => success
(g :n 1 :size 9) => error
(g :n 1 :size 16) => success)
(fact "out of range"
(g :n 1 :size 0) => error
(g :n 1 :size 1048584) => error))
(fact "format"
(g :n 1 :size 8 :format "base64") => success
(g :n 1 :size 8 :format "hex") => success
(g :n 1 :size 8 :format nil) => error
(g :n 1 :size 8 :format "empty") => error)
))
(fact "signed requests"
(fact "generate-integers"
(generate-integers :n 1 :min 0 :max 1 :signed true) => signed
(generate-integers :n 1 :min 0 :max 1) =not=> signed)
(fact "generate-decimal-fractions"
(generate-decimal-fractions :n 1 :digits 2 :signed true) => signed
(generate-decimal-fractions :n 1 :digits 2) =not=> signed)
(fact "generate-gaussians"
(generate-gaussians :n 1 :std 1.0 :mean 0.0 :digits 2 :signed true) => signed
(generate-gaussians :n 1 :std 1.0 :mean 0.0 :digits 2) =not=> signed)
(fact "generate-strings"
(generate-strings :n 1 :length 10 :characters lowercase :signed true) => signed
(generate-strings :n 1 :length 10 :characters lowercase) =not=> signed)
(fact "generate-uuids"
(generate-uuids :n 1 :signed true) => signed
(generate-uuids :n 1 :signed false) =not=> signed)
(fact "generate-blobs"
(generate-blobs :n 1 :size 8 :format "hex" :signed true) => signed
(generate-blobs :n 1 :size 8 :format "hex" :signed false) =not=> signed)
)
(fact "get-usage"
(let [usage-data (get-usage)]
(println usage-data)
usage-data => usage))
(fact "verify-signature"
(verify-signature {}) => error
(let [signed (:signed (generate-uuids :n 1 :signed true))
good-data signed
fake-data (update-in signed [:signature] clojure.string/reverse)]
(:data (verify-signature good-data)) => true
(:status (verify-signature fake-data)) => error))