TLS Certificate Verification
Native vs file based
If curl was built with Schannel or Secure Transport support, then curl uses the system native CA store for verification. All other TLS libraries use a file based CA store by default.
Verification
Every trusted server certificate is digitally signed by a Certificate Authority, a CA.
In your local CA store you have a collection of certificates from trusted certificate authorities that TLS clients like curl use to verify servers.
curl does certificate verification by default. This is done by verifying the signature and making sure the certificate was crafted for the server name provided in the URL.
If you communicate with HTTPS, FTPS or other TLS-using servers using certificates signed by a CA whose certificate is present in the store, you can be sure that the remote server really is the one it claims to be.
If the remote server uses a self-signed certificate, if you do not install a CA cert store, if the server uses a certificate signed by a CA that is not included in the store you use or if the remote host is an impostor impersonating your favorite site, the certificate check fails and reports an error.
If you think it wrongly failed the verification, consider one of the following sections.
Skip verification
Tell curl to not verify the peer with
-k
/--insecure
.
We strongly recommend this is avoided and that even if you end up doing this for experimentation or development, never skip verification in production.
Use a custom CA store
Get a CA certificate that can verify the remote server and use the proper option to point out this CA cert for verification when connecting - for this specific transfer only.
With the curl command line tool: --cacert [file]
If you use the curl command line tool without a native CA store, then
you can specify your own CA cert file by setting the environment
variable CURL_CA_BUNDLE
to the path of your choice.
If you are using the curl command line tool on Windows, curl searches
for a CA cert file named curl-ca-bundle.crt
in these
directories and in this order:
- application's directory
- current working directory
- Windows System directory (e.g. C:\Windows\System32)
- Windows Directory (e.g. C:\Windows)
- all directories along %PATH%
curl 8.11.0 added a build-time option to disable this search behavior, and another option to restrict search to the application's directory.
Use the native store
In several environments, in particular on Windows, you can ask curl to use the system's native CA store when verifying the certificate.
With the curl command line tool: --ca-native
.
Modify the CA store
Add the CA cert for your server to the existing default CA certificate store.
Usually you can figure out the path to the local CA store by looking
at the verbose output that curl -v
shows when you connect
to an HTTPS site.
Change curl's default CA store
The default CA certificate store curl uses is set at build time. When you build curl you can point out your preferred path.
Extract CA cert from a server
curl -w %{certs} https://example.com > cacert.pem
The certificate has BEGIN CERTIFICATE
and
END CERTIFICATE
markers.
Get the Mozilla CA store
Download a version of the Firefox CA store converted to PEM format on the CA Extract page. It always features the latest Firefox bundle.
Native CA store
If curl was built with Schannel, Secure Transport or were instructed to use the native CA Store, then curl uses the certificates that are built into the OS. These are the same certificates that appear in the Internet Options control panel (under Windows) or Keychain Access application (under macOS). Any custom security rules for certificates are honored.
Schannel runs CRL checks on certificates unless peer verification is disabled. Secure Transport on iOS runs OCSP checks on certificates unless peer verification is disabled. Secure Transport on macOS runs either OCSP or CRL checks on certificates if those features are enabled, and this behavior can be adjusted in the preferences of Keychain Access.
HTTPS proxy
curl can do HTTPS to the proxy separately from the connection to the
server. This TLS connection is handled and verified separately from the
server connection so instead of --insecure
and
--cacert
to control the certificate verification, you use
--proxy-insecure
and --proxy-cacert
. With
these options, you make sure that the TLS connection and the trust of
the proxy can be kept totally separate from the TLS connection to the
server.