Blockchain и шифрование
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Генерация случайных строк
#!/bin/bash # bash generate random alphanumeric string # # bash generate random 32 character alphanumeric string (upper and lowercase) and NEW_UUID=$(cat /dev/urandom | tr -dc 'a-zA-Z0-9' | fold -w 32 | head -n 1) # bash generate random 32 character alphanumeric string (lowercase only) cat /dev/urandom | tr -dc 'a-zA-Z0-9' | fold -w 32 | head -n 1 # Random numbers in a range, more randomly distributed than $RANDOM which is not # very random in terms of distribution of numbers. # bash generate random number between 0 and 9 cat /dev/urandom | tr -dc '0-9' | fold -w 256 | head -n 1 | head --bytes 1 # bash generate random number between 0 and 99 NUMBER=$(cat /dev/urandom | tr -dc '0-9' | fold -w 256 | head -n 1 | sed -e 's/^0*//' | head --bytes 2) if [ "$NUMBER" == "" ]; then NUMBER=0 fi # bash generate random number between 0 and 999 NUMBER=$(cat /dev/urandom | tr -dc '0-9' | fold -w 256 | head -n 1 | sed -e 's/^0*//' | head --bytes 3) if [ "$NUMBER" == "" ]; then NUMBER=0 fi
Генерация корневого сертификата и дочернего для хоста
#!/usr/bin/env bash ROOT_NAME="rootCA" ROOT_KEY_PASSWORD=`cat /dev/urandom | tr -dc 'a-zA-Z0-9' | fold -w 32 | head -n 1` ROOT_CRT_DAYS=10950 ROOT_CRT_EMAIL="email@example.com" ROOT_CRT_COUNTRY="RU" ROOT_CRT_STATE="Moscow" ROOT_CRT_LOCATION="Moscow" ROOT_CRT_ORGANIZATION="Org" ROOT_CRT_ORGANIZATION_UNIT="Org" ROOT_CRT_COMMON_NAME="example.com" openssl genrsa\ -des3\ -passout pass:${ROOT_KEY_PASSWORD}\ -out ${ROOT_NAME}.key 2048 openssl req\ -x509\ -new\ -key ${ROOT_NAME}.key\ -passin pass:${ROOT_KEY_PASSWORD}\ -days ${ROOT_CRT_DAYS}\ -subj "/emailAddress=${ROOT_CRT_EMAIL}/C=${ROOT_CRT_COUNTRY}/ST=${ROOT_CRT_STATE}/L=${ROOT_CRT_LOCATION}/O=${ROOT_CRT_ORGANIZATION}/OU=${ROOT_CRT_ORGANIZATION_UNIT}/CN=${ROOT_CRT_COMMON_NAME}"\ -out ${ROOT_NAME}.crt NAME="example" KEY_PASSWORD=`cat /dev/urandom | tr -dc 'a-zA-Z0-9' | fold -w 32 | head -n 1` CRT_DAYS=3650 CRT_EMAIL="email@example.com" CRT_COUNTRY="RU" CRT_STATE="Moscow" CRT_LOCATION="Moscow" CRT_ORGANIZATION="Org" CRT_ORGANIZATION_UNIT="Org" CRT_COMMON_NAME="example.com" openssl genrsa\ -des3\ -passout pass:${KEY_PASSWORD}\ -out ${NAME}.key 2048 openssl req\ -new\ -key ${NAME}.key\ -passin pass:${KEY_PASSWORD}\ -subj "/emailAddress=${CRT_EMAIL}/C=${CRT_COUNTRY}/ST=${CRT_STATE}/L=${CRT_LOCATION}/O=${CRT_ORGANIZATION}/OU=${CRT_ORGANIZATION_UNIT}/CN=${CRT_COMMON_NAME}"\ -out ${NAME}.csr openssl x509\ -req\ -in ${NAME}.csr\ -CA ${ROOT_NAME}.crt\ -CAkey ${ROOT_NAME}.key\ -passin pass:${ROOT_KEY_PASSWORD}\ -CAcreateserial\ -days ${CRT_DAYS}\ -extensions v3_req\ -out ${NAME}.crt\ -extfile <(cat /etc/ssl/openssl.cnf <(printf "\n[ v3_req ]\nbasicConstraints = CA:FALSE\nkeyUsage = nonRepudiation, digitalSignature, keyEncipherment\nsubjectAltName = @alt_names\n\n[ alt_names ]\nDNS.1 = ${CRT_COMMON_NAME}")) echo ${KEY_PASSWORD} > ${NAME}.pass openssl x509 -in ${NAME}.crt -text -noout # add to Ubuntu sudo mkdir /usr/share/ca-certificates/extra sudo cp ${ROOT_NAME}.crt /usr/share/ca-certificates/extra/${ROOT_NAME}.crt sudo dpkg-reconfigure ca-certificates sudo update-ca-certificates
Ассиметричное шифрование
Есть 2 ключа. Публичный и приватный.
Концепция делится на 2 части:
- Концепция "достоверность отправителя". Вы подписываете сообщение приватным ключом. Остальные могут убедится, что сообщение написали вы, т.к. подпись проверяется открытым ключом.
- Концепция "почтовый ящик". Вы шифруете сообщение публичным ключом. Расшифровать можно только приватным. Отправляете сообщение в мир, а открыть его может только тот у кого есть ключ.
Концепция "достоверность отправителя"
# keys # keys NAME=alice PASSWORD=`cat /dev/urandom | tr -dc 'a-zA-Z0-9' | fold -w 32 | head -n 1` openssl genrsa -aes256 -passout pass:${PASSWORD} -out ${NAME}.private.pem 8912 openssl rsa -in ${NAME}.private.pem -passin pass:${PASSWORD} -pubout -out ${NAME}.public.pem echo $PASSWORD > ${NAME}.pass NAME=bob PASSWORD=`cat /dev/urandom | tr -dc 'a-zA-Z0-9' | fold -w 32 | head -n 1` openssl genrsa -aes256 -passout pass:${PASSWORD} -out ${NAME}.private.pem 8912 openssl rsa -in ${NAME}.private.pem -passin pass:${PASSWORD} -pubout -out ${NAME}.public.pem echo $PASSWORD > ${NAME}.pass I=0 I=$((I+1)) NAME=alice FILE=`printf "%03d" ${I}`.${NAME}.msg MESSAGE='Hello Bob! I love you' PASSWORD=`cat ${NAME}.pass` echo ${MESSAGE} > ${FILE} openssl rsautl -encrypt -pubin -inkey ${NAME}.private.pem -passin pass:${PASSWORD} -in ${FILE} -out ${FILE} openssl dgst -sha256 -sign ${NAME}.private.pem -passin pass:${PASSWORD} -out ${FILE}.sign.sha256 ${FILE} openssl base64 -in ${FILE}.sign.sha256 -out ${FILE}.sign.sha256.base64 I=$((I+1)) NAME=bob FILE=`printf "%03d" ${I}`.${NAME}.msg MESSAGE='Hello Alice! I love you tooo :*' PASSWORD=`cat ${NAME}.pass` echo ${MESSAGE} > ${FILE} openssl dgst -sha256 -sign ${NAME}.private.pem -passin pass:${PASSWORD} -out ${FILE}.sign.sha256 ${FILE} openssl base64 -in ${FILE}.sign.sha256 -out ${FILE}.sign.sha256.base64 for FILE in `ls -1 *.msg` do NAME=`echo ${FILE} | awk -F\. '{print $2}'` openssl base64 -d -in ${FILE}.sign.sha256.base64 -out ${FILE}.sign.sha256.check openssl dgst -sha256 -verify ${NAME}.public.pem -signature ${FILE}.sign.sha256.check ${FILE} done