Yet another self-signed cert question, but I've tried for several days to find the best/correct way to create a self-signed cert that will work in my development environment for the latest versions of Chrome, Android, and iOS.
The instructions I've found here and elsewhere are outdated for at least one of these platforms.
Here is the best I've found, but it only works with Chrome and Android.
openssl req -new -newkey rsa:2048 -days 3650 -nodes -x509 -subj "/C=US/ST=Oklahoma/L=Stillwater/O=My Company/OU=Engineering" -keyout ca.key -out ca.crt openssl genrsa -out "test.key" 2048 openssl req -new -key test.key -out test.csr -config openssl.cnf openssl x509 -req -days 3650 -in test.csr -CA ca.crt -CAkey ca.key -CAcreateserial -extensions v3_req -extfile openssl.cnf -out test.crt openssl x509 -inform PEM -outform DER -in test.crt -out test.der.crt
Contents of openssl.cnf:
[req] default_bits = 2048 encrypt_key = no # Change to encrypt the private key using des3 or similar default_md = sha256 prompt = no utf8 = yes # Specify the DN here so we aren't prompted (along with prompt = no above). distinguished_name = req_distinguished_name # Extensions for SAN IP and SAN DNS req_extensions = v3_req # Be sure to update the subject to match your organization. [req_distinguished_name] C = US ST = Oklahoma L = Stillwater O = My Company OU = Engineering CN = test.com # Allow client and server auth. You may want to only allow server auth. # Link to SAN names. [v3_req] basicConstraints = CA:TRUE subjectKeyIdentifier = hash keyUsage = digitalSignature, keyEncipherment extendedKeyUsage = clientAuth, serverAuth subjectAltName = @alt_names # Alternative names are specified as IP.# and DNS.# for IP addresses and # DNS accordingly. [alt_names] DNS.1 = test.com
After installing test.crt and test.key on my development server, this method works great for Chrome: just added test.crt to my Mac's keychain and turned on "Always Trust" for it.
It also works great for Android: emailed test.der.crt to the device and tapped it to install. Most important: it showed up in the "USER" tab under Settings / Encryption & credentials / Trusted credentials. This is essential for using networkSecurityConfig in my Android app.
Unfortunately it didn't work for iOS:
- I installed it in an Xcode simulator by dragging the certificates to it.
- I had to install both test.crt and ca.crt. If I just installed test.crt, it remained in "unverified" status, which makes sense since the ca.crt is the root certificate.
- It did not show up under Settings / About / Certificate Trust Settings which is required for me to turn it on.
- When my app tries to access my server with NSMutableURLRequest, it gets a "TIC SSL Trust Error" with 10 key-value pairs, including:
- NSErrorPeerCertificateChainKey=1 element, and NSLocalizedDescription=The certificate for this server is invalid. You might be connecting to a server that is pretending to be “test.com” which could put your confidential information at risk.
Any idea how to change what I did so I can turn it on for iOS under "Certificate Trust Settings"?
Note 1: Since other answers to other questions about the -9813 error code suggested there may be a missing intermediate certificate, I added ca.crt to my Apache configuration for the SSLCaCertificateFile setting. It still worked fine for Chrome and Android, but had exactly the same error in iOS.