Pike SSL/TLS Implementation Notes
SSL/TLS Standard Documents and Amount of Coverage
SSL and TLS are specified in quite a few documents;
the following is an attempt to list them all, and
the level of implementation in Pike.
[ ] Not implemented at present.
[-] Not implemented and will not be implemented.
Typically an obsolete or insecure standard.
[/] Partially implemented.
[X] Fully implemented.
NB: Constants from documents marked as not implemented may
still be added to SSL.Constants for debug purposes.
The SSL 2.0 protocol was specified in the following document:
[-] SSL 2.0 draft-hickman-netscape-ssl-00.txt
The SSL 3.0 Protocol was specified in the following draft (later an RFC):
[X] SSL 3.0 draft-freier-ssl-version3-02.txt
[X] SSL 3.0 RFC 6101
The TLS 1.0 Protocol is specified in the following RFCs:
[X] SSL 3.1/TLS 1.0 RFC 2246
[/] Kerberos for TLS 1.0 RFC 2712
[X] AES Ciphers for TLS 1.0 RFC 3268
[/] Extensions for TLS 1.0 RFC 3546
[X] TLS Compression Methods RFC 3749
[ ] LZS Compression for TLS RFC 3943
[X] Camellia Cipher for TLS RFC 4132
[ ] SEED Cipher for TLS 1.0 RFC 4162
[X] Pre-Shared Keys for TLS RFC 4279
The TLS 1.1 Protocol is specified in the following RFCs:
[X] SSL 3.2/TLS 1.1 RFC 4346
[/] Extensions for TLS 1.1 RFC 4366
[X] ECC Ciphers for TLS 1.1 RFC 4492
[ ] Session Resumption RFC 4507
[ ] TLS Handshake Message RFC 4680
[ ] User Mapping Extension RFC 4681
[X] PSK with NULL for TLS 1.1 RFC 4785
[ ] SRP with TLS 1.1 RFC 5054
[ ] Session Resumption RFC 5077
[ ] OpenPGP Authentication RFC 5081
[X] Authenticated Encryption RFC 5116
The DTLS 1.0 Protocol is specified in the following RFCs:
[ ] DTLS 1.0 RFC 4347
[ ] DTLS over DCCP RFC 5238
The TLS 1.2 Protocol is specified in the following RFCs:
[X] SSL 3.3/TLS 1.2 RFC 5246
[X] AES GCM Cipher for TLS RFC 5288
[X] ECC with SHA256/384 & GCM RFC 5289
[/] Suite B Profile for TLS RFC 5430
[X] DES and IDEA for TLS RFC 5469
[X] Pre-Shared Keys with GCM RFC 5487
[X] ECDHE_PSK Cipher for TLS RFC 5489
[ ] Renegotiation Extension RFC 5746
[ ] Authorization Extensions RFC 5878
[X] Camellia Cipher for TLS RFC 5932
[ ] KeyNote Auth for TLS RFC 6042
[ ] TLS Extension Definitions RFC 6066
[ ] OpenPGP Authentication RFC 6091
[ ] ARIA Cipher for TLS RFC 6209
[ ] Additional Master Secrets RFC 6358
[X] Camellia Cipher for TLS RFC 6367
[/] Suite B Profile for TLS RFC 6460
[X] Heartbeat Extension RFC 6520
[X] AES-CCM Cipher for TLS RFC 6655
[ ] Multiple Certificates RFC 6961
[ ] Certificate Transparency RFC 6962
[ ] ECC Brainpool Curves RFC 7027
[ ] Raw Public Keys in (D)TLS RFC 7250
[X] AES-CCM ECC Suites for TLS RFC 7251
[X] TLS ALPN Extension RFC 7301
[X] TLS Encrypt-then-MAC RFC 7366
[X] Prohibit RC4 RFC 7465
The DTLS 1.2 Protocol is specified in the following RFCs:
[ ] DTLS 1.2 RFC 6347
Drafts (in order of age, oldest first):
[/] 56-bit Export Cipher draft-ietf-tls-56-bit-ciphersuites-01.txt
[-] Next Protocol Negotiation draft-agl-tls-nextprotoneg
[ ] Chacha20Poly1305 draft-agl-tls-chacha20poly1305-04.txt
[X] TLS Padding draft-ietf-tls-padding
[X] TLS Fallback SCSV draft-ietf-tls-downgrade-scsv-00.txt
[X] Negotiated FF-DHE Parameters draft-ietf-tls-negotiated-ff-dhe
[X] Session Hash and Extended MS draft-ietf-tls-session-hash
[/] SSL 3.4/TLS 1.3 draft-ietf-tls-tls13-04.txt
The TLS parameters registry:
SSL.File and Stdio.File Emulation Overview
The underlying stream object is always in nonblocking
mode, to avoid risk of hanging in Stdio.Buffer.
All I/O-ops are always buffered with Stdio.Buffer.
Internal Callback Handling in Nonblocking Mode:
In nonblocking mode all internal callback handling is
performed directly with the real_backend.
If the main backend has been started (ie master()->asyncp()
is true), we assume that it will handle I/O.
Otherwise if nonthreaded or we are on the backend thread
(master()->backend_thread()), we rotate the real_backend
once with 0.0 timeout per I/O-op.
Note that this may cause problems when using custom
backends without having started the main backend.
Internal Callback Handling in Blocking Mode:
In blocking mode all internal callback handling is
performed with a dedicated local_backend.
The local_backend is created when the SSL.File is
switched to blocking mode.
The local_backend is then rotated until the blocking
call is done.
User Callback Handling:
All user installed callbacks are called via call_out()
on internal_poll() in the real_backend.
Get data from user_read_buffer, install ssl_read_callback
on underflow. In blocking mode rotate the local backend
until all data is available. In nonblocking mode
attempt to rotate the local backend once if no callbacks
Fill write_buffer, install ssl_write_callback.
In blocking mode rotate the local backend until
the write_buffer is empty. In nonblocking mode
attempt to rotate the local backend once if
no callbacks are installed.
Schedule a close packet, and block further calls to
write. If both directions block also further calls
to read. Install both ssl_write_callback and
ssl_read_callback and rotate the local backend until
connection closed from other end, or linger time expires.
Clear user callbacks and switch to nonblocking mode.
Attempt to send a close packet. Terminate the
Decode received data and add it to user_read_buffer.
Schedule read_callback with real_backend call_out.
Uninstall on user_read_buffer full.
Send data from write_buffer, uninstall on write_buffer empty.
Schedule write_callback with real_backend call_out.
On send failure, block futher calls of write.
Schedule close_callback if close() has not been called yet.
Block further calls of read.
As ssl_close_callback, but allow use of stream when done.
Nonblocking mode without callbacks.
Support for set_buffer_mode() et al not yet supported,
neither directly nor in the embedded stream.