net/data/ssl/scripts/generate-multi-root-test-chains.sh - chromium/src.git - Git at Google

 #!/bin/sh

 # Copyright 2014 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 # The following documentation uses the annotation approach from RFC 4158.
 # CAs (entities that share the same name and public key) are denoted in boxes,
 # while the indication that a CA Foo signed a certificate for CA Bar is denoted
 # by directed arrows.
 #
 #   +---+    +-----+
 #   | D |    |  E  |
 #   +---+    +-----+
 #     |       |   |
 #     +--v v--+   |
 #       +---+   +---+
 #       | C |   | F |
 #       +---+   +---+
 #         |       |
 #         v   v---+
 #        +-----+
 #        |  B  |
 #        +-----+
 #           |
 #           v
 #         +---+
 #         | A |
 #         +---+
 #
 # To validate A, there are several possible paths, using A(B) to indicate
 # the certificate A signed by B:
 #
 # 1. A(B) -> B(C) -> C(D) -> D(D)
 # 3. A(B) -> B(C) -> C(E) -> E(E)
 # 4. A(B) -> B(F) -> F(E) -> E(E)
 #
 # That is, there are two different versions of C (signed by D and E) and
 # two versions of B (signed by C and F). Possible trust anchors are D and E,
 # which are both self-signed.
 #
 # The goal is to ensure that, as long as at least one of C or F is still valid,
 # clients are able to successfully build a valid path.

 # Exit script as soon a something fails.
 set -e

 rm -rf out
 mkdir out

 echo Create the serial and index number files.
 serial=1000
 for i in B C D E F
 do
   /bin/sh -c "echo ${serial} > out/${i}-serial"
   touch "out/${i}-index.txt"
 done

 echo Generate the keys.
 for i in A B C D E F
 do
   openssl genrsa -out "out/${i}.key" 2048
 done

 echo "Generating the self-signed roots"
 for i in D E
 do
   echo "Generating CSR ${i}"
   CA_COMMON_NAME="${i} Root CA - Multi-root" \
   CERTIFICATE="${i}" \
   openssl req \
     -config redundant-ca.cnf \
     -new \
     -key "out/${i}.key" \
     -out "out/${i}.csr"

   echo "Generating self-signed ${i}"
   CA_COMMON_NAME="${i} Root CA - Multi-root" \
   CERTIFICATE="${i}" \
   openssl ca \
     -config redundant-ca.cnf \
     -batch \
     -startdate 160102000000Z \
     -enddate 260102000000Z \
     -extensions ca_cert \
     -extfile redundant-ca.cnf \
     -selfsign \
     -in "out/${i}.csr" \
     -out "out/${i}.pem"
 done

 echo "Generating intermediate CSRs"
 for i in B C F
 do
   echo "Generating CSR ${i}"
   CA_COMMON_NAME="${i} CA - Multi-root" \
   CERTIFICATE="${i}" \
   openssl req \
     -config redundant-ca.cnf \
     -new \
     -key "out/${i}.key" \
     -out "out/${i}.csr"
 done

 echo D signs C
 CA_COMMON_NAME="D CA - Multi-root" \
 CERTIFICATE=D \
 openssl ca \
   -config redundant-ca.cnf \
   -batch \
   -startdate 160103000000Z \
   -enddate 260102000000Z \
   -extensions ca_cert \
   -extfile redundant-ca.cnf \
   -in out/C.csr \
   -out out/C.pem

 echo C signs B
 CA_COMMON_NAME="C CA - Multi-root" \
 CERTIFICATE=C \
 openssl ca \
   -config redundant-ca.cnf \
   -batch \
   -startdate 160104000000Z \
   -enddate 260102000000Z \
   -extensions ca_cert \
   -extfile redundant-ca.cnf \
   -in out/B.csr \
   -out out/B.pem

 echo E signs C2
 CA_COMMON_NAME="E CA - Multi-root" \
 CERTIFICATE=E \
 openssl ca \
   -config redundant-ca.cnf \
   -batch \
   -startdate 160105000000Z \
   -enddate 260102000000Z \
   -extensions ca_cert \
   -extfile redundant-ca.cnf \
   -in out/C.csr \
   -out out/C2.pem

 echo E signs F
 CA_COMMON_NAME="E CA - Multi-root" \
 CERTIFICATE=E \
 openssl ca \
   -config redundant-ca.cnf \
   -batch \
   -startdate 160102000000Z \
   -enddate 260102000000Z \
   -extensions ca_cert \
   -extfile redundant-ca.cnf \
   -in out/F.csr \
   -out out/F.pem

 # Note: The startdate for B-by-F MUST be different than that of B-by-C; to make
 # B-by-F more preferable, the startdate is chosen to be GREATER (later) than
 # B-by-C.
 echo F signs B2
 CA_COMMON_NAME="F CA - Multi-root" \
 CERTIFICATE=F \
 openssl ca \
   -config redundant-ca.cnf \
   -batch \
   -startdate 160105000000Z \
   -enddate 260102000000Z \
   -extensions ca_cert \
   -extfile redundant-ca.cnf \
   -in out/B.csr \
   -out out/B2.pem

 echo "Generating leaf CSRs"
 for i in A
 do
   echo "Generating leaf ${i}"
   openssl req \
     -config ee.cnf \
     -new \
     -key "out/${i}.key" \
     -out "out/${i}.csr"
 done

 echo "Signing leaves"
 CA_COMMON_NAME="B CA - Multi-root" \
 CERTIFICATE=B \
 openssl ca \
   -config redundant-ca.cnf \
   -batch \
   -days 3650 \
   -extensions user_cert \
   -extfile redundant-ca.cnf \
   -in out/A.csr \
   -out out/A.pem

 echo "Copying outputs"
 /bin/sh -c "cat out/A.key out/A.pem > ../certificates/multi-root-A-by-B.pem"
 /bin/sh -c "cat out/A.pem out/B.pem out/C.pem out/D.pem \
     > ../certificates/multi-root-chain1.pem"
 /bin/sh -c "cat out/A.pem out/B.pem out/C2.pem out/E.pem \
     > ../certificates/multi-root-chain2.pem"
 cp out/B.pem ../certificates/multi-root-B-by-C.pem
 cp out/B2.pem ../certificates/multi-root-B-by-F.pem
 cp out/C.pem ../certificates/multi-root-C-by-D.pem
 cp out/C2.pem ../certificates/multi-root-C-by-E.pem
 cp out/F.pem ../certificates/multi-root-F-by-E.pem
 cp out/D.pem ../certificates/multi-root-D-by-D.pem
 cp out/E.pem ../certificates/multi-root-E-by-E.pem

 echo "Generating CRLSets"
 # Block D and E by SPKI; invalidates all paths.
 python crlsetutil.py -o ../certificates/multi-root-crlset-D-and-E.raw \
 <<CRLSETDOCBLOCK
 {
   "BlockedBySPKI": [
     "out/D.pem",
     "out/E.pem"
   ]
 }
 CRLSETDOCBLOCK

 # Block E by SPKI.
 python crlsetutil.py -o ../certificates/multi-root-crlset-E.raw \
 <<CRLSETDOCBLOCK
 {
   "BlockedBySPKI": [
     "out/E.pem"
   ]
 }
 CRLSETDOCBLOCK

 # Block C-by-D (serial number 0x1001) and F-by-E (serial number 0x1002) by
 # way of serial number.
 python crlsetutil.py -o ../certificates/multi-root-crlset-CD-and-FE.raw \
 <<CRLSETDOCBLOCK
 {
   "BlockedByHash": {
     "out/D.pem": [4097],
     "out/E.pem": [4098]
   }
 }
 CRLSETDOCBLOCK

 # Block C (all versions) by way of SPKI
 python crlsetutil.py -o ../certificates/multi-root-crlset-C.raw \
 <<CRLSETDOCBLOCK
 {
   "BlockedBySPKI": [ "out/C.pem" ]
 }
 CRLSETDOCBLOCK

 # Block an unrelated/unissued serial (0x0FFF) to enable all paths.
 python crlsetutil.py -o ../certificates/multi-root-crlset-unrelated.raw \
 <<CRLSETDOCBLOCK
 {
   "BlockedByHash": {
     "out/E.pem": [4095]
   }
 }
 CRLSETDOCBLOCK
	#!/bin/sh

	# Copyright 2014 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	# The following documentation uses the annotation approach from RFC 4158.
	# CAs (entities that share the same name and public key) are denoted in boxes,
	# while the indication that a CA Foo signed a certificate for CA Bar is denoted
	# by directed arrows.
	#
	# +---+ +-----+
	# \| D \| \| E \|
	# +---+ +-----+
	# \| \| \|
	# +--v v--+ \|
	# +---+ +---+
	# \| C \| \| F \|
	# +---+ +---+
	# \| \|
	# v v---+
	# +-----+
	# \| B \|
	# +-----+
	# \|
	# v
	# +---+
	# \| A \|
	# +---+
	#
	# To validate A, there are several possible paths, using A(B) to indicate
	# the certificate A signed by B:
	#
	# 1. A(B) -> B(C) -> C(D) -> D(D)
	# 3. A(B) -> B(C) -> C(E) -> E(E)
	# 4. A(B) -> B(F) -> F(E) -> E(E)
	#
	# That is, there are two different versions of C (signed by D and E) and
	# two versions of B (signed by C and F). Possible trust anchors are D and E,
	# which are both self-signed.
	#
	# The goal is to ensure that, as long as at least one of C or F is still valid,
	# clients are able to successfully build a valid path.

	# Exit script as soon a something fails.
	set -e

	rm -rf out
	mkdir out

	echo Create the serial and index number files.
	serial=1000
	for i in B C D E F
	do
	/bin/sh -c "echo ${serial} > out/${i}-serial"
	touch "out/${i}-index.txt"
	done

	echo Generate the keys.
	for i in A B C D E F
	do
	openssl genrsa -out "out/${i}.key" 2048
	done

	echo "Generating the self-signed roots"
	for i in D E
	do
	echo "Generating CSR ${i}"
	CA_COMMON_NAME="${i} Root CA - Multi-root" \
	CERTIFICATE="${i}" \
	openssl req \
	-config redundant-ca.cnf \
	-new \
	-key "out/${i}.key" \
	-out "out/${i}.csr"

	echo "Generating self-signed ${i}"
	CA_COMMON_NAME="${i} Root CA - Multi-root" \
	CERTIFICATE="${i}" \
	openssl ca \
	-config redundant-ca.cnf \
	-batch \
	-startdate 160102000000Z \
	-enddate 260102000000Z \
	-extensions ca_cert \
	-extfile redundant-ca.cnf \
	-selfsign \
	-in "out/${i}.csr" \
	-out "out/${i}.pem"
	done

	echo "Generating intermediate CSRs"
	for i in B C F
	do
	echo "Generating CSR ${i}"
	CA_COMMON_NAME="${i} CA - Multi-root" \
	CERTIFICATE="${i}" \
	openssl req \
	-config redundant-ca.cnf \
	-new \
	-key "out/${i}.key" \
	-out "out/${i}.csr"
	done

	echo D signs C
	CA_COMMON_NAME="D CA - Multi-root" \
	CERTIFICATE=D \
	openssl ca \
	-config redundant-ca.cnf \
	-batch \
	-startdate 160103000000Z \
	-enddate 260102000000Z \
	-extensions ca_cert \
	-extfile redundant-ca.cnf \
	-in out/C.csr \
	-out out/C.pem

	echo C signs B
	CA_COMMON_NAME="C CA - Multi-root" \
	CERTIFICATE=C \
	openssl ca \
	-config redundant-ca.cnf \
	-batch \
	-startdate 160104000000Z \
	-enddate 260102000000Z \
	-extensions ca_cert \
	-extfile redundant-ca.cnf \
	-in out/B.csr \
	-out out/B.pem

	echo E signs C2
	CA_COMMON_NAME="E CA - Multi-root" \
	CERTIFICATE=E \
	openssl ca \
	-config redundant-ca.cnf \
	-batch \
	-startdate 160105000000Z \
	-enddate 260102000000Z \
	-extensions ca_cert \
	-extfile redundant-ca.cnf \
	-in out/C.csr \
	-out out/C2.pem

	echo E signs F
	CA_COMMON_NAME="E CA - Multi-root" \
	CERTIFICATE=E \
	openssl ca \
	-config redundant-ca.cnf \
	-batch \
	-startdate 160102000000Z \
	-enddate 260102000000Z \
	-extensions ca_cert \
	-extfile redundant-ca.cnf \
	-in out/F.csr \
	-out out/F.pem

	# Note: The startdate for B-by-F MUST be different than that of B-by-C; to make
	# B-by-F more preferable, the startdate is chosen to be GREATER (later) than
	# B-by-C.
	echo F signs B2
	CA_COMMON_NAME="F CA - Multi-root" \
	CERTIFICATE=F \
	openssl ca \
	-config redundant-ca.cnf \
	-batch \
	-startdate 160105000000Z \
	-enddate 260102000000Z \
	-extensions ca_cert \
	-extfile redundant-ca.cnf \
	-in out/B.csr \
	-out out/B2.pem

	echo "Generating leaf CSRs"
	for i in A
	do
	echo "Generating leaf ${i}"
	openssl req \
	-config ee.cnf \
	-new \
	-key "out/${i}.key" \
	-out "out/${i}.csr"
	done

	echo "Signing leaves"
	CA_COMMON_NAME="B CA - Multi-root" \
	CERTIFICATE=B \
	openssl ca \
	-config redundant-ca.cnf \
	-batch \
	-days 3650 \
	-extensions user_cert \
	-extfile redundant-ca.cnf \
	-in out/A.csr \
	-out out/A.pem

	echo "Copying outputs"
	/bin/sh -c "cat out/A.key out/A.pem > ../certificates/multi-root-A-by-B.pem"
	/bin/sh -c "cat out/A.pem out/B.pem out/C.pem out/D.pem \
	> ../certificates/multi-root-chain1.pem"
	/bin/sh -c "cat out/A.pem out/B.pem out/C2.pem out/E.pem \
	> ../certificates/multi-root-chain2.pem"
	cp out/B.pem ../certificates/multi-root-B-by-C.pem
	cp out/B2.pem ../certificates/multi-root-B-by-F.pem
	cp out/C.pem ../certificates/multi-root-C-by-D.pem
	cp out/C2.pem ../certificates/multi-root-C-by-E.pem
	cp out/F.pem ../certificates/multi-root-F-by-E.pem
	cp out/D.pem ../certificates/multi-root-D-by-D.pem
	cp out/E.pem ../certificates/multi-root-E-by-E.pem

	echo "Generating CRLSets"
	# Block D and E by SPKI; invalidates all paths.
	python crlsetutil.py -o ../certificates/multi-root-crlset-D-and-E.raw \
	<<CRLSETDOCBLOCK
	{
	"BlockedBySPKI": [
	"out/D.pem",
	"out/E.pem"
	]
	}
	CRLSETDOCBLOCK

	# Block E by SPKI.
	python crlsetutil.py -o ../certificates/multi-root-crlset-E.raw \
	<<CRLSETDOCBLOCK
	{
	"BlockedBySPKI": [
	"out/E.pem"
	]
	}
	CRLSETDOCBLOCK

	# Block C-by-D (serial number 0x1001) and F-by-E (serial number 0x1002) by
	# way of serial number.
	python crlsetutil.py -o ../certificates/multi-root-crlset-CD-and-FE.raw \
	<<CRLSETDOCBLOCK
	{
	"BlockedByHash": {
	"out/D.pem": [4097],
	"out/E.pem": [4098]
	}
	}
	CRLSETDOCBLOCK

	# Block C (all versions) by way of SPKI
	python crlsetutil.py -o ../certificates/multi-root-crlset-C.raw \
	<<CRLSETDOCBLOCK
	{
	"BlockedBySPKI": [ "out/C.pem" ]
	}
	CRLSETDOCBLOCK

	# Block an unrelated/unissued serial (0x0FFF) to enable all paths.
	python crlsetutil.py -o ../certificates/multi-root-crlset-unrelated.raw \
	<<CRLSETDOCBLOCK
	{
	"BlockedByHash": {
	"out/E.pem": [4095]
	}
	}
	CRLSETDOCBLOCK