ref: 4f618bf2be8c5b8ee401db4e1787c4d41a7c59f8
dir: /appl/lib/crypt/sslsession.b/
# # SSL Session Cache # implement SSLsession; include "sys.m"; sys : Sys; include "daytime.m"; daytime : Daytime; include "sslsession.m"; # default session id timeout TIMEOUT_SECS : con 5*60; # sec SessionCache: adt { db : list of ref Session; time_out : int; }; # The shared session cache by all ssl contexts is available for efficiently resumming # sessions for different run time contexts. Session_Cache : ref SessionCache; init(): string { sys = load Sys Sys->PATH; if(sys == nil) return "sslsession: load sys module failed"; daytime = load Daytime Daytime->PATH; if(daytime == nil) return "sslsession: load Daytime module failed"; Session_Cache = ref SessionCache(nil, TIMEOUT_SECS); return ""; } Session.new(peer: string, time: int, ver: array of byte): ref Session { s := ref Session; s.peer = peer; s.connection_time = time; s.version = array [2] of byte; s.version[0:] = ver; s.session_id = nil; s.suite = nil; s.master_secret = nil; s.peer_certs = nil; return s; } Session.duplicate(s: self ref Session): ref Session { new := ref Session; new.peer = s.peer; new.connection_time = s.connection_time; new.version = array [len s.version] of byte; new.version[0:] = s.version; new.session_id = array [len s.session_id] of byte; new.session_id[0:] = s.session_id; new.suite = array [len s.suite] of byte; new.suite[0:] = s.suite; new.master_secret = array [len s.master_secret] of byte; new.master_secret[0:] = s.master_secret; l: list of array of byte; pcs := s.peer_certs; while(pcs != nil) { a := hd pcs; b := array [len a] of byte; b[0:] = a; l = b :: l; pcs = tl pcs; } while(l != nil) { new.peer_certs = (hd l) :: new.peer_certs; l = tl l; } return new; } # Each request process should get a copy of a session. A session will be # removed from database if it is expired. The garbage # collector will finally remove it from memory if there are no more # references to it. get_session_byname(peer: string): ref Session { s: ref Session; now := daytime->now(); # not accurate but more efficient l := Session_Cache.db; while(l != nil) { if((hd l).peer == peer) { s = hd l; # TODO: remove expired session if(now > s.connection_time+Session_Cache.time_out) s = nil; break; } l = tl l; } if(s == nil) s = Session.new(peer, now, nil); else s = s.duplicate(); return s; } # replace the old by the new one add_session(s: ref Session) { #old : ref Session; #ls := Session_Cache.db; #while(ls != nil) { # old = hd ls; # if(s.session_id == old.session_id) { # # old = s; # return; # } #} # always resume the most recent if(s != nil) Session_Cache.db = s :: Session_Cache.db; } get_session_byid(session_id: array of byte): ref Session { s: ref Session; now := daytime->now(); # not accurate but more efficient l := Session_Cache.db; while(l != nil) { if(bytes_cmp((hd l).session_id, session_id) == 0) { s = hd l; # replace expired session if(now > s.connection_time+Session_Cache.time_out) s = Session.new(s.peer, now, nil); else s = s.duplicate(); break; } l = tl l; } return s; } set_timeout(t: int) { Session_Cache.time_out = t; } bytes_cmp(a, b: array of byte): int { if(len a != len b) return -1; n := len a; for(i := 0; i < n; i++) { if(a[i] != b[i]) return -1; } return 0; }