cleaning temporary files

collect-deps.sh

@@ -1 +1,11 @@
-~/.sdkman/candidates/java/21.0.2-graalce/bin/java -agentlib:native-image-agent=config-output-dir=META-INF/native-image -jar target/clj-topt-1.0.32-standalone.jar g TUGOBTEHPSCMUCYAT6UPELNWGE -c
+#!/usr/bin/env sh
+
+JAVA_CMD=~/.sdkman/candidates/java/21.0.2-graalce/bin/java
+UBERJAR=$(realpath --relative-to=. target/clj-totp-cli-*-standalone.jar)
+
+echo "Using uberjar $UBERJAR"
+
+$JAVA_CMD -agentlib:native-image-agent=config-output-dir=target/native-image\
+ -jar $UBERJAR import "deleteme" "otpauth-migration://offline?data=CkkKEJ0M4MyHfITKCwCfqPIttjESFHJ1YmVuY2pAMThCMTY5RDVGRjAwGgRTTldMIAEoATACQhMzYjkxMDQxNzI3NzgzNDIzNDYyEAIYASAA" 
+
+java -jar $UBERJAR delete "deleteme"

compile_proto.sh

@@ -1,4 +0,0 @@
-#!/bin/env sh
-
-protoc --java_out java/protoc/ resources/proto/otpauth-migration.proto
-#javac -cp resources/protobuf-java-3.25.8.jar -d target/classes/proto src/OtpauthMigration.java

deps.edn

@@ -6,6 +6,7 @@
            clj-totp/core {:local/root "projects/core"}
            clj-totp/cli  {:local/root "projects/cli"}
            clj-totp/web  {:local/root "projects/web"}
+           clj-totp/gui  {:local/root "projects/gui"}
            }
 
  :aliases {;; Execute the app.
@@ -14,7 +15,8 @@
 
            ;; Execute the app (prepared for more subprojects)
            :run/cli {:main-opts ["-m" "totp.app"]}
-           ;:run {:exec-fn totp.app/-main}
+
+           :run/gui {:main-opts ["-m" "totp.gui"]}
 
            ;; Kaocha runner. You can use the 'kaocha' wrapper located in ~/bin/kaocha
            ;; Check test.edn for kaocha runner's config
@@ -46,6 +48,12 @@
                        :exec-fn jar
                        :exec-args {:subproj "web"}}
            
+           :build/gui {:deps {io.github.clojure/tools.build {:mvn/version "0.10.10"}}
+                       :replace-deps {clj-totp/core {:local/root "projects/core"}}
+                       :ns-default build
+                       :exec-fn jar
+                       :exec-args {:subproj "gui"}}
+           
            ;; Build the three libraries
            :build/all {:deps {io.github.clojure/tools.build {:mvn/version "0.10.10"}}
                        :replace-deps {clj-totp/core {:local/root "projects/core"}}
@@ -56,5 +64,11 @@
            :uber/cli {:deps {io.github.clojure/tools.build {:mvn/version "0.10.10"}}
                       :ns-default build
                       :exec-fn uber
-                      :exec-args {:subproj "cli" :main-ns "totp.app"}}}}
+                      :exec-args {:subproj "cli" :main-ns "totp.app"}}
+           
+           ;; Build uber jar for CLI app
+           :uber/gui {:deps {io.github.clojure/tools.build {:mvn/version "0.10.10"}}
+                      :ns-default build
+                      :exec-fn uber
+                      :exec-args {:subproj "gui" :main-ns "totp.app"}}}}
 

native_cli.sh

@@ -4,8 +4,10 @@ NATIVE=~/.sdkman/candidates/java/21.0.2-graalce/bin/native-image
 BIN_FILE=totp
 
 echo "Creating uberjar"
-clojure -T:build uber
-UBERJAR=$(realpath --relative-to=target target/clj-totp-*-standalone.jar)
+#clojure -T:uber/cli
+UBERJAR=$(realpath --relative-to=target target/clj-totp-cli-*-standalone.jar)
+
+echo "Using uberjar $UBERJAR"
 
 echo "Creating native image"
 $NATIVE -jar target/$UBERJAR -o target/$BIN_FILE\
@@ -17,10 +19,13 @@ $NATIVE -jar target/$UBERJAR -o target/$BIN_FILE\
     --strict-image-heap\
     -march=native\
     -R:MaxHeapSize=10m\
+    --trace-object-instantiation=java.lang.Thread\
     --initialize-at-build-time=org.fusesource.jansi.Ansi\
     --initialize-at-build-time='org.fusesource.jansi.Ansi$Color'\
     --initialize-at-build-time='org.fusesource.jansi.Ansi$Attribute'\
-    '--initialize-at-build-time=org.fusesource.jansi.Ansi$1'
+    --initialize-at-build-time='org.fusesource.jansi.Ansi$1'\
+    --initialize-at-run-time=cljc_long.constants__init
+    
 
 echo "Executable created on target/$BIN_FILE"
 cp target/$BIN_FILE ~/bin

projects/cli/deps.edn

@@ -3,7 +3,8 @@
            org.clojure/clojure                 {:mvn/version "1.12.1"}
            cli-matic/cli-matic                 {:mvn/version "0.5.4"}   ;; https://github.com/l3nz/cli-matic
            ;; Progress bar
-           com.github.pmonks/spinner           {:mvn/version "2.0.284"}}
+           com.github.pmonks/spinner           {:mvn/version "2.0.284"}
+           com.github.clj-easy/graal-build-time {:mvn/version "1.0.5"}}
 
  :aliases {;; Execute the app
            ;:run      {:main-opts   ["-m" "totp.app"]}

projects/core/.cpcache/425892293.main

@@ -1,2 +0,0 @@
--m
-kaocha.runner

projects/core/deps.edn

@@ -3,6 +3,8 @@
            mvxcvi/alphabase                    {:mvn/version "3.0.185"} ;; https://github.com/greglook/alphabase
            ;; Protobuf for java
            com.google.protobuf/protobuf-java   {:mvn/version "3.25.8"}
+           ;; Dynamic protobuf
+           com.github.s-expresso/clojobuf      {:mvn/version "0.2.1"}
            }
 
  :aliases {;; Kaocha runner. You can use the 'kaocha' wrapper located in ~/bin/kaocha

projects/core/src/totp/core.clj

@@ -99,3 +99,29 @@
                    (rem (int (m/pow 10 digits))))))))
   ([secret]
    (get-otp secret "sha1" 6 30)))
+
+
+(defn calculate-offset-millis
+  [period]
+  (let [step-millis (* 1000 period)
+        now         (System/currentTimeMillis)]
+    (int (rem now step-millis))))
+
+
+(defn calculate-delay-millis
+  [period]
+  (let [step-millis (* 1000 period)]
+    (- step-millis (calculate-offset-millis period))))
+
+
+(comment
+  (let [now (System/currentTimeMillis)
+        off (calculate-offset-millis 30)
+        delay (calculate-delay-millis 30)
+        ]
+    (println "Now:   " (int (/ now 1000)) "secs" now "millis")
+    (println "Offset:" (int (/ off 1000)) "secs" off "millis")
+    (println "Delay: " (int (/ delay 1000)) "secs" delay "millis")
+    (println "Total: " (+ (int (/ off 1000)) (int (/ delay 1000))) "secs" (+ delay off) "millis")
+    )
+  )

projects/core/src/totp/data.clj

@@ -1,11 +1,11 @@
 (ns totp.data
-  (:require [clojure.edn :as e]
+  (:require [totp.otp-proto :as proto]
+            [clojure.edn :as e]
             [clojure.string :as str]
             [clojure.java.io :as io]
             [clojure.pprint :as pp]
             [alphabase.base64 :as b64]
-            [alphabase.base32 :as b32])
-  (:import [protoc OtpauthMigration$MigrationPayload]))
+            [alphabase.base32 :as b32]))
 
 (defn join-path
   "Joins several subpaths using system's path separator (/ un *NIX and \\ in windows)"
@@ -89,11 +89,16 @@
 
 (defn list-apps
   [cfg]
-  (map :name
-       (filter #(contains? % :name) cfg)))
+  (->> cfg
+       (filter #(contains? % :name))
+       (map :name)))
 
 (comment
-  (list-apps (load-config)))
+  (list-apps (load-config))
+  (with-config #_{:clj-kondo/ignore [:unresolved-symbol]}
+               (list-apps cfg))
+  )
+
 
 (defn get-app
   [cfg name]
@@ -202,28 +207,26 @@
   (when (some? url)
     (let [b64-data   (second (str/split url #"=" -1))
           data-b     (b64/decode b64-data)
-          parsed     (OtpauthMigration$MigrationPayload/parseFrom data-b)
-          payload    (bean (.getOtpParameters parsed 0))
-          ;{:keys [name secret name issuer digitsValue algorithmValue typeValue]} payload
-          secret-b   (:secret payload)
-          secret     (b32/encode (.toByteArray secret-b))
+          payload    (proto/parse-data data-b)
+          ;{:keys [name secret name issuer digits algorithm type]} payload
+          secret     (:secret payload)
           user       (:name payload)
           issuer     (:issuer payload)
-          algorithm  (case (:algorithmValuei payload) 2 "sha256" 3 "sha512" "sha1")
-          digits     (case (:digitsValue payload) 2 8 6)
-          valid-type (= 2 (:typeValue payload))
+          algorithm  (:algorithm payload)
+          digits     (:digits payload)
+          valid-type (= 2 (:type payload))
           ]
-      (println "name:" name "user:" user "issuer:" issuer "digitsValue:" digits "algorithm:" algorithm "valid type?" valid-type)
+      ;(println "name:" name "user:" user "issuer:" issuer "digits:" digits "algorithm:" algorithm "valid type?" valid-type)
       (if valid-type
         (create-app name secret user issuer algorithm digits 30)
-        (println "Invalid OTP type" (:typeValue payload)))
+        (println "Invalid OTP type" (:type payload)))
       )))
 
 (comment
   (url-export->app "test"
-                    "otpauth-migration://offline?data=CkkKEJ0M4MyHfITKCwCfqPIttjESFHJ1YmVuY2pAMThCMTY5RDVGRjAwGgRTTldMIAEoATACQhMzYjkxMDQxNzI3NzgzNDIzNDYyEAIYASAA"
-                    )
+                   "otpauth-migration://offline?data=CkkKEJ0M4MyHfITKCwCfqPIttjESFHJ1YmVuY2pAMThCMTY5RDVGRjAwGgRTTldMIAEoATACQhMzYjkxMDQxNzI3NzgzNDIzNDYyEAIYASAA"
   )
+)
 
 
 

projects/core/src/totp/otp_import.clj

@@ -0,0 +1,385 @@
+(ns totp.otp-import
+  (:require [alphabase.bytes :as b]
+            [alphabase.base16 :as hex]
+            [alphabase.base64 :as b64]
+            [alphabase.base2 :as b2]
+            [clojure.math :as m]
+            [clojure.string :as s]))
+
+;; Original description of the export protocol uses Google's Protocol Buffers
+;; https://protobuf.dev/
+
+(def WIRE_TYPES {:varint 0  ;; Integeres of variable length encoding
+                 :i64 1     ;; Fixed 64 bits numbers (integer or decimal)
+                 :len 2     ;; Block of bytes with a predefined length
+                 :sgroup 3  ;; Group end (deprecated)
+                 :egroup 4  ;; Group start (deprecated)
+                 :i32 5     ;; Fixed 32 bits number (integer or decimal)
+                 })   
+
+(comment
+  (let [encoded "CkkKEJ0M4MyHfITKCwCfqPIttjESFHJ1YmVuY2pAMThCMTY5RDVGRjAwGgRTTldMIAEoATACQhMzYjkxMDQxNzI3NzgzNDIzNDYyEAIYASAA"
+        decoded (b64/decode encoded)]
+    (print (hex/encode decoded))
+    (print (b/to-string decoded))))
+
+
+(defn to-fancy-bin
+  "Return a string with bits from number in a fancy manner"
+  [x]
+  (s/join " "
+          (map s/join
+               (partition 8 (b2/encode (byte-array (map #(b/to-byte %) x)))))))
+
+
+(defn to-fancy-hex
+  "Return a string with hex values from number in a fancy manner"
+  ([x]
+   (to-fancy-hex x 2))
+  ([x group-size]
+   (s/join " "
+           (map s/join
+                (partition group-size (hex/encode (byte-array (map #(b/to-byte %) x))))))))
+
+
+(defn len-bits
+  "How may blocks of n bits are needed to encode this number?
+   
+   We use the following formula, for calculating the number of digits required
+   to encode the number n in the base b:
+
+       digits = ceil ( log_n ( x + 1 ) )
+   "
+  [n x]
+  (case x
+    nil 0 ;; nill is encoded with zero bytes
+    0 1   ;; One block to zero
+    9223372036854775807 (len-bits n (dec x)) ;; Beware the overflow!! it's best to lose some precision
+    (when (and (>= x 0) (some? n) (> n 0))
+      (long (m/ceil (/ (m/log (inc x)) (m/log (m/pow 2 n))))))))
+
+(comment
+  (len-bits 8 513)
+  (len-bits 8 Long/MAX_VALUE)
+  (len-bits 8 (dec Long/MAX_VALUE)))
+
+
+(defn len-bytes
+  "How may bytes are needed to encode this number?"
+  [x]
+  (len-bits 8 x))
+
+
+(defn integer>bytes
+  "Converts an integer to a byte array"
+  [x]
+  (when x (let [len (len-bytes x)
+                hex-len (* 2 len)]
+            (hex/decode (String/format (str "%0" hex-len "x") (into-array [x]))))))
+
+(comment
+  (integer>bytes 513)
+  10r3
+  3r10)
+
+
+(defn euclidean-quot
+  "Euclidean division for integers
+   
+   More info: https://en.wikipedia.org/wiki/Euclidean_division
+   "
+  [a b]
+  (when (zero? b)
+    (throw (IllegalArgumentException. "You can't divide by zero!")))
+  (let [b-abs (Math/abs b)
+        r     (mod a b-abs)] ;; 0 <= r < |b|
+    (quot (- a r) b)         ;; adjusts quotient with the positive remainder 
+    ))
+
+
+(defn euclidean-rem
+  "Modulus for euclidean division for integers
+   
+   More info: https://en.wikipedia.org/wiki/Euclidean_division
+   "
+  [a b]
+  (when (zero? b)
+    (throw (IllegalArgumentException. "You can't divide by zero!")))
+  (let [b-abs (Math/abs b)]
+    (mod a b-abs);; 0 <= r < |b|
+    ))
+
+
+(defn euclid-div
+  "Euclidean division. Returns quotient and remainder as a map. The remainder is
+   allways a positive number.
+   
+   More info: https://en.wikipedia.org/wiki/Euclidean_division"
+  [a b]
+  (when (zero? b)
+    (throw (IllegalArgumentException. "You can't divide by zero!")))
+  (let [b-abs (Math/abs b)
+        r     (mod a b-abs)        ;; 0 <= r < |b|
+        q     (quot (- a r) b)]    ;; adjusts quotient with the positive remainder 
+    {:q q :r r}))
+
+
+(comment
+  (euclid-div 7 3)
+  (euclid-div -7 3)
+  (euclid-div 7 -3)
+  (euclid-div -7 -3))
+
+
+
+(defn decimal->base
+  "Converts a decimal number to an arbitrary base. Each digit is encoded as an 
+   integer with value between 0 and base-1.
+   
+   For example, 10 in base 4 will be encoded as:
+       [2 0 2]
+   , 127 in base 126 will be:
+       [1 1]
+   and so on.
+
+   We will use the sucessive division method: do a integer division of the number
+   to the base until the quotient is zero, and take the reminders backwards. For
+   example, if we want to converto 127 to base 5:
+
+       127 / 5 = 25 rem 2
+        25 / 5 =  5 rem 0
+         5 / 5 =  1 rem 0
+         1 / 5 =  0 rem 1
+   
+   so, 127 in base 5 is 1002.
+
+   The maximum digits this method can return is 65. Max size for a long is base 2
+   is 64, so if you obtain a result with 65 digits is very probable that the
+   conversion has failed.
+
+   If the number is negative and the base is possitive, we return the conversion
+   of the absolute value. You must take care of the sign in your implementation.
+       
+   There are negative bases as -2 that can encode possitive and negative numbers.
+   "
+  ([base n]
+   (decimal->base base n true))
+  ([base n reverse?]
+   (if (or (nil? n) (nil? base) (zero? n) (zero? base))
+     [0] ;; Allways [0] for base zero or number zero
+     (loop [acc []
+            x (if (and (< n 0) (> base 0)) (abs n) n)] ;; If n < 0 and b > 0 => |n|, else n
+       (let [q (euclidean-quot x base)
+             r (euclidean-rem x base)]
+         ;;(printf "Acc: %s Calculating: %s/%s -> %s rem %s%n" acc x base q r)
+         (if (or (zero? x) (> (count acc) (inc Long/SIZE))) ;; max digits is 65
+           (vec (if reverse? (reverse acc) acc)) ;; When x is zero, we have finished
+           (recur
+            (conj acc r) ;; Accumulate the remainder
+            q            ;; Pass the quotient to the next step
+            )))))))
+
+(comment
+  (decimal->base 2 8)
+  2r1000
+  (decimal->base 2 3)
+
+  (letfn [(step [x b name q r]
+            (printf "%s -> %d/%d = %d rem %d%n" name x b q r))
+          (examples [x b exp-q exp-r]
+            (step x b "EXPECTED   " exp-q exp-r)
+            (step x b "IEEE       " (int (m/IEEE-remainder x b)) (rem x b))
+            (step x b "With rem   " (quot x b) (rem x b))
+            (step x b "With mod   " (quot x b) (mod x b))
+            (step x b "floor      " (m/floor-div x b) (m/floor-mod x b))
+            (step x b "Manual 1   " (int (clojure.math/round (double (/ x b)))) (rem x b))
+            (step x b "Manual 2   " (int (clojure.math/rint (double (/ x b)))) (rem x b))
+            (step x b "Unchecked  " (unchecked-divide-int x b) (unchecked-remainder-int x b))
+            (step x b "Euclidean  " (euclidean-quot x b) (euclidean-rem x b)))]
+    (examples -3 -2 2 1)
+    (println)
+    (examples 2 -2 -1 0)
+    (println)
+    (examples -1 -2 1 1)
+    (println)
+    (examples 1 -2 0 1)
+    (println)
+    (println)
+    (examples 7 3 2 1)
+    (println)
+    (examples -7 3 -3 2)
+    (println)
+    (examples 7 -3 -2 1)
+    (println)
+    (examples -7 -3 3 2)))
+
+
+(defn base->decimal
+  "Converts from an array with values in an arbitrary base into decimal values"
+  [base n]
+  (if (or (nil? n) (nil? base) (zero? (count n)))
+    0
+    (long (reduce-kv
+           (fn [acc k v]
+             (+ acc (* v (m/pow base k))))
+           0 (vec (reverse n))))))
+
+(comment
+  (reduce-kv #(+ %1 (* %3 (m/pow 2 %2))) 0 [1 0 0 0]) ;; backwards!
+  (base->decimal 2 [1 0 0 0]))
+
+
+(defn int->varint
+  "Converts a integer value to a varint, that is encoded in 7 bits, where the first
+   bit is used to indicate if there are more bytes.
+   
+   For example, the number 255 is usually encoded in a byte as follows:
+       11111111
+   but in a varint it will turn to:
+       10000001 01111111
+   
+   First byte has the MSB set to 1, because there is another byte after it. The
+   second byte is the last one, so the MSB is set to 0.
+
+   The result is a byte array.
+   "
+  [x]
+  (let [b128 (decimal->base 128 x false)]
+    (byte-array (conj
+                 (vec (map #(bit-or 2r10000000 %)  (butlast b128)))
+                 (bit-and 2r01111111 (peek b128))))))
+
+
+(defn varint->int
+  "Converts a varint to an integer. Each byte in varint uses the MSB as a continuation
+   bit: if it's value is 1, there are more bites, if it's 0 it's the last block.
+   
+   For example, this varint with two bytes:
+       10000001 01111111
+   
+   first byte's MSB has value 1, so there is another byte. The second one has a zero
+   in the MSB, so it's the last block. To calculate the final value, you must ignore
+   the MSB and concatenate both bytes:
+       110010110 00000001 -> original value
+         0010110  0000001 -> delete MSB
+         0000001  0010110 -> reverse bytes (little-endian to big endian)
+           00000010010110 -> concatenate
+       00000000 10010110  -> fill the bytes
+   "
+  [x]
+  (base->decimal 128 (reverse (map #(bit-and 2r01111111 %) x))))
+
+
+(comment
+  ;; 150
+  (to-fancy-bin [-106, 1])
+  (to-fancy-bin (map #(bit-and 2r01111111 %) [-106, 1]))
+  (to-fancy-bin (reverse (map #(bit-and 2r01111111 %) [-106, 1])))
+  (varint->int [-106, 1])
+
+  (varint->int [-106, 1])
+  (varint->int [-105, 1])
+
+  ;; Long/MAX_VALUE
+  (to-fancy-bin (map #(bit-and 2r01111111 %) [-1, -1, -1, -1, -1, -1, -1, -1, 128]))
+  (varint->int [-2, -1, -1, -1, -1, -1, -1, -1, 127]))
+
+
+(defn more-blocks?
+  "True if the MSB bit is 1"
+  [b]
+  (when b
+    (< 0 (bit-and 2r10000000 b))))
+
+(comment
+  (bit-and 2r10000000 2r10000001)
+  (bit-and 2r10000000 2r00000001)
+  ( more-blocks? 2r10000001)
+  (more-blocks? 2r00000001)
+  )
+
+
+(defn extract-varint-blocks
+  "Group varints in a byte array"
+  [bytes]
+  (loop [acc []   ;; Groups of varints
+         group [] ;; Current varint
+         r bytes] ;; Current tested byte
+    (if (empty? r) ;; Final condition: no more bytes to test
+      (if ((complement empty?) group)
+        (conj acc group) ;; Return acc with the last group added if not empty
+        acc)             ;; if empty, return acc
+      (if (more-blocks? (first r))
+        ;; If more blocks remains:
+        (recur acc
+               (conj group (first r)) ;; add current byte to current group
+               (next r))
+        ;; If it's last in varint:
+        (recur (->> (first r)
+                    (conj group) ;; add byte to group
+                    (conj acc))  ;; add group to accumulator
+               []                ;; and start a new empty group
+               (next r))))))
+
+(comment  
+  (extract-varint-blocks [2r11111111 2r01111111, 2r10000001 2r10101001 2r00000001, 2r00000111])
+  )
+
+
+(defn extract-varints
+  "Group varints in an byte array and convert them to decimal"
+  [bytes]
+  (map varint->int (extract-varint-blocks bytes)))
+
+(comment 
+  (extract-varints [2r11111111 2r01111111, 2r10000001 2r10101001 2r00000001, 2r00000111])
+
+  (varint->int [2r11111111 2r01111111])
+  (varint->int [2r10000001 2r10101001 2r00000001])
+  (varint->int [2r00000111])
+  )
+
+
+(defn bytes->len-type
+  "Prepend byte array with length in varint format"
+  [bytes]
+  (concat (int->varint (count bytes))
+          bytes))
+
+(comment 
+  (to-fancy-hex (bytes->len-type (.getBytes "testing")))
+  )
+
+
+(defn pack-bytes-as-tlv
+  "Pack the value as TLV.
+   
+   Type can one of those 6 IDs:
+   ID	Name	  Used For
+   0	VARINT	int32, int64, uint32, uint64, sint32, sint64, bool, enum
+   1	I64	    fixed64, sfixed64, double
+   2	LEN	    string, bytes, embedded messages, packed repeated fields
+   3	SGROUP	group start (deprecated)
+   4	EGROUP	group end (deprecated)
+   5	I32	    fixed32, sfixed32, float
+   "
+  ([{:keys [field type value]}]
+   (pack-bytes-as-tlv field type value))
+  ([field-number type value]
+   (let [field-displaced (bit-shift-left field-number 3)
+         tag (int->varint (bit-or field-displaced type))]
+     (concat tag value))))
+
+
+(defn unpack-tlv-bytes
+  "Returns a map with 3 pairs:
+   - :field is the field number
+   - :type is one of the values of WIRE_TYPES
+   - :value is the byte array with the payload"
+  [packed]
+  (let [first-byte (bit-and 2r01111111 (first packed)) ;; bye bye, MSB
+        type (bit-and 2r00000111 first-byte)
+        field-number (bit-shift-right first-byte 3)]
+    {:field field-number :type type :value (rest packed)}))
+
+

projects/core/src/totp/otp_proto.clj

@@ -0,0 +1,45 @@
+(ns totp.otp-proto
+  (:require [clojobuf.core :refer [protoc decode]]
+            [alphabase.base64 :as b64]
+            [alphabase.base32 :as b32]))
+
+
+;; Where lookup for proto files
+(def registry (protoc ["resourcse/proto/"
+                       "projects/core/resources/proto/"]
+                      ["otpauth-migration.proto"]))
+
+
+(defn parse-data
+  [binary-data]
+  (let [decoded (decode registry :MigrationPayload binary-data)
+        msg (get-in decoded [:otp_parameters 0])]
+    ;(println "Decoded:" msg)
+    (when msg
+      {:secret (b32/encode (:secret msg))
+       :name (:name msg)
+       :issuer (:issuer msg)
+       :algorithm (case (:algorithm msg)
+                    :ALGORITHM_SHA256 "sha256"
+                    :ALGORITHM_SHA512 "sha512"
+                    :ALGORITHM_MD5 "md5"
+                    "sha1") ;; sha1 by default
+       :digits (case (:digits msg)
+                 :DIGIT_COUNT_EIGHT 8
+                 6) ;; 6 digits by default
+       :type (case (:type msg)
+               :OTP_TYPE_UNSPECIFIED 0
+               :OTP_TYPE_HOTP 1
+               :OTP_TYPE_TOTP 2) ;; Only TOTP is supported
+       })))
+
+
+(comment
+  (let [b64-data "CkkKEJ0M4MyHfITKCwCfqPIttjESFHJ1YmVuY2pAMThCMTY5RDVGRjAwGgRTTldMIAEoATACQhMzYjkxMDQxNzI3NzgzNDIzNDYyEAIYASAA"
+        bin-data (b64/decode b64-data)
+        decoded (decode registry :MigrationPayload bin-data)]
+    ;(get-in decoded [:otp_parameters 0])
+    (parse-data bin-data)
+    )
+  )
+

projects/core/target/classes/totp/core.clj

@@ -1,101 +0,0 @@
-(ns totp.core
-  (:require [alphabase.base32 :as b32]
-            [clojure.math :as m])
-  (:import (javax.crypto Mac)
-           (javax.crypto.spec SecretKeySpec)
-           (java.util Base64 Arrays)
-           (java.nio ByteBuffer)))
-
-(def ^:private byte-array-type (type (.getBytes "")))
-
-(defn timestamp->steps
-  "Converts from UNIX timestamp in milliseconds to a number os steps of 's' seconds of duration"
-  [time, step-size]
-  (if (or (nil? time) (nil? step-size) (zero? step-size))
-    0
-    (int (quot time (* 1000 step-size)))))
-
-
-(defn bytes-array?
-  "Return true if x is a byte[]"
-  [x]
-  (= byte-array-type (type x)))
-
-
-(defn get-alg
-  [alg]
-  (case alg
-    "sha1"  "HmacSHA1"
-    "sha256" "HmacSHA256"
-    "sha512" "HmacSHA512"
-    ""))
-
-
-(defmulti hmac
-  "Generates an HMAC. Algorithms supported: sha1, sha256, sha512.
-   The key and the message can be (both) string or array of bytes, nil otherwise"
-  (fn [algorithm key message]
-    (cond
-      (and (string? key) (string? message) (some? (get-alg algorithm))) :string
-      (and (bytes-array? key) (bytes-array? message) (some? (get-alg algorithm))) :byte
-      :else :nil)))
-
-;; By default
-(defmethod hmac :nil [_ _ _]
-  nil)
-
-;; When key and message are strings
-(defmethod hmac :string [algorithm key message]
-  (if (or (empty? key) (empty? message))
-    ""
-    (let [mac (doto (Mac/getInstance (get-alg algorithm)) (.init (SecretKeySpec. (.getBytes key) (get-alg algorithm))))
-          hmac-bytes (.doFinal mac (.getBytes message))]
-      ;; Return the Base64 encoded HMAC
-      (.encodeToString (Base64/getEncoder) hmac-bytes))))
-
-;; When key and message are arrays of bytes
-(defmethod hmac :byte [algorithm key message]
-  (if (nil? message)
-    (bytes (byte-array 0))
-    (let [mac (doto (Mac/getInstance (get-alg algorithm)) (.init (SecretKeySpec. key (get-alg algorithm))))
-          hmac-bytes (.doFinal mac message)]
-      ;; Return the Base64 encoded HMAC
-      (Base64/getEncoder) hmac-bytes)))
-
-
-(defn long->bytes
-  "Converts a long to an array of 8 bytes"
-  [l]
-  ;;Java equivalent: ByteBuffer.allocate(Long.SIZE / Byte.SIZE).putLong(someLong).array();
-  (when (integer? l)
-    (-> (ByteBuffer/allocate (/ Long/SIZE Byte/SIZE))
-        (.putLong l)
-        (.array))))
-
-
-(defn bytes->int
-  "Converts an array of 4 bytes to an integer"
-  [bytes]
-  ;;Java equivalent:  ByteBuffer.wrap(data).getInt()
-  (when (some? bytes)
-    (.getInt (ByteBuffer/wrap bytes))))
-
-
-(defn get-otp
-  "Generate an OTP with the given secret (in base32) for the specified timestep"
-  ([secret algorithm digits period] ;;algorithm digits period
-   (when (and secret period)
-     (let [step (timestamp->steps (System/currentTimeMillis) period)
-           k (b32/decode secret)
-           c (long->bytes step)
-           hs (hmac algorithm k c)
-           offset (bit-and (get hs (dec (count hs))) 0x0f) ;; int offset = hs[hs.length-1] & 0xf;
-           chunk (Arrays/copyOfRange hs offset (+ offset 4)) ;(take 4 (drop offset hs)) ;; byte[] chunk = Arrays.copyOfRange(hs, offset, offset+4) 
-           ]
-       (format (str "%0" digits "d")
-               (-> chunk
-                   (bytes->int)
-                   (bit-and 0x7fffffff)
-                   (rem (int (m/pow 10 digits))))))))
-  ([secret]
-   (get-otp secret "sha1" 6 30)))