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base: actix:utils-v2.0.0-beta.1
Branches Tags
actix:master actix:gh-pages actix:proxy-protocol actix:win-full-disk-ci actix:circleci-project-setup actix:fallible-services actix:ulimit-checks actix:rt-fix actix:remove-mpsc actix:feat/path-extract-enum actix:1.0 actix:lets-encrypt actix:stable-0.2
actix:server-v2.6.0 actix:service-v2.0.3 actix:server-v2.5.1 actix:bytestring-v1.4.0 actix:server-v2.5.0 actix:server-v2.4.0 actix:rt-v2.10.0 actix:tls-v3.4.0 actix:tls-v3.3.0 actix:codec-v0.5.2 actix:tls-v3.2.0 actix:local-waker-v0.1.4 actix:local-channel-v0.1.5 actix:bytestring-v1.3.1 actix:local-channel-v0.1.4 actix:tls-v3.1.1 actix:tls-v3.1.0 actix:server-v2.3.0 actix:rt-v2.9.0 actix:macros-v0.2.4 actix:bytestring-v1.3.0 actix:server-v2.2.0 actix:rt-v2.8.0 actix:bytestring-v1.2.1 actix:bytestring-v1.2.0 actix:utils-v3.0.1 actix:bytestring-v1.1.0 actix:local-channel-v0.1.3 actix:local-waker-v0.1.3 actix:tls-v3.0.4 actix:codec-v0.5.1 actix:server-v2.1.1 actix:rt-v2.7.0 actix:server-v2.1.0 actix:tls-v3.0.3 actix:server-v2.0.0 actix:codec-v0.5.0 actix:tls-v3.0.2 actix:server-v2.0.0-rc.4 actix:rt-v2.6.0 actix:tls-v3.0.1 actix:server-v2.0.0-rc.3 actix:rt-v2.5.1 actix:codec-v0.4.2 actix:server-v2.0.0-rc.2 actix:tls-v3.0.0 actix:service-v2.0.2 actix:local-waker-v0.1.2 actix:tls-v3.0.0-rc.2 actix:server-v2.0.0-rc.1 actix:tls-v3.0.0-rc.1 actix:tls-v3.0.0-beta.9 actix:rt-v2.5.0 actix:tls-v3.0.0-beta.8 actix:server-v2.0.0-beta.9 actix:server-2.0.0-beta.8 actix:rt-v2.4.0 actix:codec-v0.4.1 actix:server-v2.0.0-beta.7 actix:tls-v3.0.0-beta.7 actix:tls-v3.0.0-beta.6 actix:macros-v0.2.3 actix:macros-v0.2.2 actix:rt-v2.3.0 actix:server-v2.0.0-beta.6 actix:service-v2.0.1 actix:router-v0.5.0-beta.1 actix:macros-v0.2.1 actix:router-v0.4.0 actix:codec-0.4.0 actix:server-v2.0.0-beta.5 actix:utils-v3.0.0 actix:service-v2.0.0 actix:utils-v3.0.0-beta.4 actix:utils-v3.0.0-beta.3 actix:server-v2.0.0-beta.4 actix:rt-v2.2.0 actix:tls-v3.0.0-beta.5 actix:rt-v2.1.0 actix:tls-v3.0.0-beta.4 actix:rt-v2.0.2 actix:router-v0.2.7 actix:tls-v3.0.0-beta.3 actix:utils-v3.0.0-beta.2 actix:server-v2.0.0-beta.3 actix:rt-v2.0.1 actix:service-v2.0.0-beta.4 actix:macros-v0.2.0 actix:rt-v2.0.0 actix:rt-v2.0.0-beta.3 actix:rt-v2.0.0-beta.2 actix:macros-v0.2.0-beta.1 actix:service-v2.0.0-beta.3 actix:router-v0.2.6 actix:service-v2.0.0-beta.2 actix:tls-v3.0.0-beta.2 actix:server-v2.0.0-beta.2 actix:bytestring-v1.0.0 actix:tls-v3.0.0-beta.1 actix:server-v2.0.0-beta.1 actix:testing-v2.0.0-beta.1 actix:codec-v0.4.0-beta.1 actix:utils-v3.0.0-beta.1 actix:service-v2.0.0-beta.1 actix:rt-v2.0.0-beta.1 actix:macros-v0.1.3 actix:router-v0.2.5 actix:server-v1.0.4 actix:tls-v2.0.0 actix:connect-v2.0.0 actix:utils-v2.0.0 actix:codec-v0.3.0 actix:codec-v0.3.0-beta.2 actix:utils-v2.0.0-beta.1 actix:codec-v0.3.0-beta.1 actix:codec-0.3.0-beta.1 actix:tls-v2.0.0-alpha.2 actix:connect-v2.0.0-alpha.4 actix:service-v1.0.6 actix:threadpool-v0.3.3 actix:threadpool-v0.3.2 actix:testing-v1.0.1 actix:server-v1.0.3 actix:macros-v0.1.2 actix:connect-v2.0.0-alpha.3 actix:rt-1.1.1 actix:rt-1.1.0 actix:connect-v2.0.0-alpha.2 actix:tls-v2.0.0-alpha.1 actix:connect-v2.0.0-alpha.1 actix:server-v1.0.2 actix:service-v1.0.5 actix:tracing-0.1.0 actix:service-v1.0.3 actix:bytestring-0.1.3 actix:service-v1.0.2 actix:utils-v1.0.5 actix:router-v0.2.4 actix:router-v0.3.0 actix:server-v1.0.1 actix:router-v0.2.1 actix:service-v1.0.1 actix:bytestring-0.1.2 actix:utils-v1.0.4 actix:connect-v1.0.1 actix:utils-v1.0.2 actix:testing actix:testing-v1.0.0 actix:server-v1.0.0 actix:utils-v1.0.0 actix:rt-1.0.0 actix:service-v1.0.0 actix:codec-0.2.0 actix:router-v0.2.0 actix:async-await-alpha.3 actix:bytestring-0.1.0 actix:async-await-alpha.1 actix:rt-0.2.6 actix:utils-v0.4.7 actix:testing-v0.2.0 actix:utils-v0.4.6 actix:server-v0.7.0 actix:server-config-v0.2.0 actix:connect-v0.3.0 actix:ioframe-v0.1.0 actix:server-v0.6.1 actix:testing-v0.1.0 actix:connect-v0.2.5 actix:connect-v0.2.4 actix:rt-0.2.5 actix:service-v0.4.2 actix:threadpool-v0.1.2 actix:connect-v0.2.3 actix:connect-v0.2.2 actix:utils-v0.4.5 actix:server-v0.6.0 actix:server-config-v0.1.2 actix:utils-v0.4.4 actix:utils-v0.4.3 actix:rt-0.2.4 actix:connect-v0.2.1 actix:utils-v0.4.2 actix:rt-0.2.3 actix:service-v0.4.1 actix:threadpool-v0.1.1 actix:server-v0.5.1 actix:router-v0.1.5 actix:router-v0.1.4 actix:utils-v0.4.1 actix:connect-v0.2.0 actix:test-server-v0.2.2 actix:server-v0.5.0 actix:utils-v0.4.0 actix:service-v0.4.0 actix:router-v0.1.3 actix:connect-v0.1.5 actix:server-config-v0.1.1 actix:server-v0.4.3 actix:connect-v0.1.4 actix:test-server-v0.2.1 actix:connect-v0.1.3 actix:router-v0.1.2 actix:service-v0.3.6 actix:connect-v0.1.2 actix:utils-v0.3.5 actix:router-v0.1.1 actix:server-v0.4.2 actix:service-v0.3.5 actix:rt-0.2.2 actix:threadpool-v0.1.0 actix:codec-0.1.2 actix:connect-v0.1.1 actix:connect-v0.1.0 actix:server-v0.4.1 actix:test-server-v0.2.0 actix:server-v0.4.0 actix:service-v0.3.4 actix:server-config-v0.1.0 actix:utils-v0.3.4 actix:rt-0.2.1 actix:router-v0.1.0 actix:utils-v0.3.3 actix:service-v0.3.3 actix:codec-0.1.1 actix:rt-0.2.0 actix:utils-v0.3.2 actix:service-v0.3.2 actix:utils-v0.3.1 actix:service-v0.3.1 actix:test-server-v0.1.0 actix:connector-0.3.0 actix:server-v0.3.0 actix:utils-0.3.0 actix:service-v0.3.0 actix:utils-0.2.4 actix:utils-0.2.3 actix:service-v0.2.2 actix:utils-0.2.2 actix:server-0.2.1 actix:utils-0.2.1 actix:service-v0.2.1 actix:connector-0.2.0 actix:server-0.2.0 actix:utils-0.2.0 actix:service-v0.2.0 actix:service-v0.1.6 actix:service-v0.1.5 actix:connector-0.1.1 actix:service-v0.1.4 actix:v0.2.6 actix:server-0.1.3 actix:v0.2.5 actix:service-v0.1.3 actix:service-v0.1.2 actix:server-0.1.2 actix:server-0.1.1 actix:utils-0.1.0 actix:server-0.1.0 actix:connector-0.1.0 actix:rt-0.1.0 actix:codec-0.1.0 actix:service-v0.1.1 actix:ser actix:service-v0.1.0 actix:v0.2.4 actix:v0.2.3 actix:v0.2.2 actix:v0.2.0 actix:v0.1.1 actix:v0.1.0
...
compare: actix:utils-v3.0.0-beta.1
Branches Tags
actix:master actix:gh-pages actix:proxy-protocol actix:win-full-disk-ci actix:circleci-project-setup actix:fallible-services actix:ulimit-checks actix:rt-fix actix:remove-mpsc actix:feat/path-extract-enum actix:1.0 actix:lets-encrypt actix:stable-0.2
actix:server-v2.6.0 actix:service-v2.0.3 actix:server-v2.5.1 actix:bytestring-v1.4.0 actix:server-v2.5.0 actix:server-v2.4.0 actix:rt-v2.10.0 actix:tls-v3.4.0 actix:tls-v3.3.0 actix:codec-v0.5.2 actix:tls-v3.2.0 actix:local-waker-v0.1.4 actix:local-channel-v0.1.5 actix:bytestring-v1.3.1 actix:local-channel-v0.1.4 actix:tls-v3.1.1 actix:tls-v3.1.0 actix:server-v2.3.0 actix:rt-v2.9.0 actix:macros-v0.2.4 actix:bytestring-v1.3.0 actix:server-v2.2.0 actix:rt-v2.8.0 actix:bytestring-v1.2.1 actix:bytestring-v1.2.0 actix:utils-v3.0.1 actix:bytestring-v1.1.0 actix:local-channel-v0.1.3 actix:local-waker-v0.1.3 actix:tls-v3.0.4 actix:codec-v0.5.1 actix:server-v2.1.1 actix:rt-v2.7.0 actix:server-v2.1.0 actix:tls-v3.0.3 actix:server-v2.0.0 actix:codec-v0.5.0 actix:tls-v3.0.2 actix:server-v2.0.0-rc.4 actix:rt-v2.6.0 actix:tls-v3.0.1 actix:server-v2.0.0-rc.3 actix:rt-v2.5.1 actix:codec-v0.4.2 actix:server-v2.0.0-rc.2 actix:tls-v3.0.0 actix:service-v2.0.2 actix:local-waker-v0.1.2 actix:tls-v3.0.0-rc.2 actix:server-v2.0.0-rc.1 actix:tls-v3.0.0-rc.1 actix:tls-v3.0.0-beta.9 actix:rt-v2.5.0 actix:tls-v3.0.0-beta.8 actix:server-v2.0.0-beta.9 actix:server-2.0.0-beta.8 actix:rt-v2.4.0 actix:codec-v0.4.1 actix:server-v2.0.0-beta.7 actix:tls-v3.0.0-beta.7 actix:tls-v3.0.0-beta.6 actix:macros-v0.2.3 actix:macros-v0.2.2 actix:rt-v2.3.0 actix:server-v2.0.0-beta.6 actix:service-v2.0.1 actix:router-v0.5.0-beta.1 actix:macros-v0.2.1 actix:router-v0.4.0 actix:codec-0.4.0 actix:server-v2.0.0-beta.5 actix:utils-v3.0.0 actix:service-v2.0.0 actix:utils-v3.0.0-beta.4 actix:utils-v3.0.0-beta.3 actix:server-v2.0.0-beta.4 actix:rt-v2.2.0 actix:tls-v3.0.0-beta.5 actix:rt-v2.1.0 actix:tls-v3.0.0-beta.4 actix:rt-v2.0.2 actix:router-v0.2.7 actix:tls-v3.0.0-beta.3 actix:utils-v3.0.0-beta.2 actix:server-v2.0.0-beta.3 actix:rt-v2.0.1 actix:service-v2.0.0-beta.4 actix:macros-v0.2.0 actix:rt-v2.0.0 actix:rt-v2.0.0-beta.3 actix:rt-v2.0.0-beta.2 actix:macros-v0.2.0-beta.1 actix:service-v2.0.0-beta.3 actix:router-v0.2.6 actix:service-v2.0.0-beta.2 actix:tls-v3.0.0-beta.2 actix:server-v2.0.0-beta.2 actix:bytestring-v1.0.0 actix:tls-v3.0.0-beta.1 actix:server-v2.0.0-beta.1 actix:testing-v2.0.0-beta.1 actix:codec-v0.4.0-beta.1 actix:utils-v3.0.0-beta.1 actix:service-v2.0.0-beta.1 actix:rt-v2.0.0-beta.1 actix:macros-v0.1.3 actix:router-v0.2.5 actix:server-v1.0.4 actix:tls-v2.0.0 actix:connect-v2.0.0 actix:utils-v2.0.0 actix:codec-v0.3.0 actix:codec-v0.3.0-beta.2 actix:utils-v2.0.0-beta.1 actix:codec-v0.3.0-beta.1 actix:codec-0.3.0-beta.1 actix:tls-v2.0.0-alpha.2 actix:connect-v2.0.0-alpha.4 actix:service-v1.0.6 actix:threadpool-v0.3.3 actix:threadpool-v0.3.2 actix:testing-v1.0.1 actix:server-v1.0.3 actix:macros-v0.1.2 actix:connect-v2.0.0-alpha.3 actix:rt-1.1.1 actix:rt-1.1.0 actix:connect-v2.0.0-alpha.2 actix:tls-v2.0.0-alpha.1 actix:connect-v2.0.0-alpha.1 actix:server-v1.0.2 actix:service-v1.0.5 actix:tracing-0.1.0 actix:service-v1.0.3 actix:bytestring-0.1.3 actix:service-v1.0.2 actix:utils-v1.0.5 actix:router-v0.2.4 actix:router-v0.3.0 actix:server-v1.0.1 actix:router-v0.2.1 actix:service-v1.0.1 actix:bytestring-0.1.2 actix:utils-v1.0.4 actix:connect-v1.0.1 actix:utils-v1.0.2 actix:testing actix:testing-v1.0.0 actix:server-v1.0.0 actix:utils-v1.0.0 actix:rt-1.0.0 actix:service-v1.0.0 actix:codec-0.2.0 actix:router-v0.2.0 actix:async-await-alpha.3 actix:bytestring-0.1.0 actix:async-await-alpha.1 actix:rt-0.2.6 actix:utils-v0.4.7 actix:testing-v0.2.0 actix:utils-v0.4.6 actix:server-v0.7.0 actix:server-config-v0.2.0 actix:connect-v0.3.0 actix:ioframe-v0.1.0 actix:server-v0.6.1 actix:testing-v0.1.0 actix:connect-v0.2.5 actix:connect-v0.2.4 actix:rt-0.2.5 actix:service-v0.4.2 actix:threadpool-v0.1.2 actix:connect-v0.2.3 actix:connect-v0.2.2 actix:utils-v0.4.5 actix:server-v0.6.0 actix:server-config-v0.1.2 actix:utils-v0.4.4 actix:utils-v0.4.3 actix:rt-0.2.4 actix:connect-v0.2.1 actix:utils-v0.4.2 actix:rt-0.2.3 actix:service-v0.4.1 actix:threadpool-v0.1.1 actix:server-v0.5.1 actix:router-v0.1.5 actix:router-v0.1.4 actix:utils-v0.4.1 actix:connect-v0.2.0 actix:test-server-v0.2.2 actix:server-v0.5.0 actix:utils-v0.4.0 actix:service-v0.4.0 actix:router-v0.1.3 actix:connect-v0.1.5 actix:server-config-v0.1.1 actix:server-v0.4.3 actix:connect-v0.1.4 actix:test-server-v0.2.1 actix:connect-v0.1.3 actix:router-v0.1.2 actix:service-v0.3.6 actix:connect-v0.1.2 actix:utils-v0.3.5 actix:router-v0.1.1 actix:server-v0.4.2 actix:service-v0.3.5 actix:rt-0.2.2 actix:threadpool-v0.1.0 actix:codec-0.1.2 actix:connect-v0.1.1 actix:connect-v0.1.0 actix:server-v0.4.1 actix:test-server-v0.2.0 actix:server-v0.4.0 actix:service-v0.3.4 actix:server-config-v0.1.0 actix:utils-v0.3.4 actix:rt-0.2.1 actix:router-v0.1.0 actix:utils-v0.3.3 actix:service-v0.3.3 actix:codec-0.1.1 actix:rt-0.2.0 actix:utils-v0.3.2 actix:service-v0.3.2 actix:utils-v0.3.1 actix:service-v0.3.1 actix:test-server-v0.1.0 actix:connector-0.3.0 actix:server-v0.3.0 actix:utils-0.3.0 actix:service-v0.3.0 actix:utils-0.2.4 actix:utils-0.2.3 actix:service-v0.2.2 actix:utils-0.2.2 actix:server-0.2.1 actix:utils-0.2.1 actix:service-v0.2.1 actix:connector-0.2.0 actix:server-0.2.0 actix:utils-0.2.0 actix:service-v0.2.0 actix:service-v0.1.6 actix:service-v0.1.5 actix:connector-0.1.1 actix:service-v0.1.4 actix:v0.2.6 actix:server-0.1.3 actix:v0.2.5 actix:service-v0.1.3 actix:service-v0.1.2 actix:server-0.1.2 actix:server-0.1.1 actix:utils-0.1.0 actix:server-0.1.0 actix:connector-0.1.0 actix:rt-0.1.0 actix:codec-0.1.0 actix:service-v0.1.1 actix:ser actix:service-v0.1.0 actix:v0.2.4 actix:v0.2.3 actix:v0.2.2 actix:v0.2.0 actix:v0.1.1 actix:v0.1.0

41 Commits
utils-v2.0 ... utils-v3.0

Author SHA1 Message Date
Rob Ede
a09f9abfcb prepare utils release 3.0.0-beta.1 2020-12-28 03:32:28 +00:00
Rob Ede
e4a44b77e6 prepare codec release 0.4.0-beta.1 2020-12-28 03:24:43 +00:00
fakeshadow
2ee8f45f5d update actix-codec and actix-utils to tokio 1.0 (#237) 2020-12-28 03:16:37 +00:00
Rob Ede
f48e3f4cb0 prepare release for rt and service 2020-12-28 01:58:31 +00:00
Rob Ede
3d3bd60368 fix rt override 2020-12-28 01:53:11 +00:00
Rob Ede
d684128831 fix rt override 2020-12-28 01:48:19 +00:00
fakeshadow
0c12930796 update to tokio 1.0 for actix-rt (#236) 2020-12-28 01:40:22 +00:00
Rob Ede
ba44ea7d0b remove futures-util from service deps (#235) 2020-12-27 18:24:57 +00:00
Rob Ede
8a58a341a4 service improvements (#233) 2020-12-27 14:15:42 +00:00
Rob Ede
33c9aa6988 bump msrv to 1.46 2020-12-27 04:36:08 +00:00
Rob Ede
3ab8c3eb69 service trait takes request type parameter (#232) 2020-12-27 04:28:00 +00:00
fakeshadow
518bf3f6a6 remove RUNNING Q PENDING thread locals from actix-rt (#207) 2020-12-26 23:26:02 +00:00
fakeshadow
43ce25cda1 Remove unused mods in actix-utils (#229) 2020-12-26 21:27:59 +00:00
Yuki Okushi
4e4122b702 Disable PR comment from codecov 2020-12-17 21:42:21 +09:00
Aravinth Manivannan
b296d0f254 Intradoc links conversion (#227) 
* intra doc conversion

* rm trailing blank comment
 2020-12-14 08:22:30 +00:00
Juan Aguilar
02a902068f Refactor LocalWaker (#224) 2020-12-13 19:26:57 +00:00
fakeshadow
049795662f remove ServerMessage type. remove one unused InternalServiceFactory impl (#225) 2020-12-13 00:46:32 +00:00
Rob Ede
4e43216b99 standardise compiler lints across all crates (#226) 2020-12-12 23:24:00 +00:00
Rob Ede
93889776c4 prevent double registration of sockets when backpressure is resolved (#223) 2020-12-12 17:19:20 +00:00
Yuki Okushi
ab496a71b5 Fix release date 2020-12-03 08:59:59 +09:00
Yuki Okushi
76d956e25c macros: Add actix-reexport feature (#218) 2020-12-03 08:59:13 +09:00
Ivan Babrou
89e56cf661 Notify about paused accept loop (#215) 2020-11-29 15:30:13 +00:00
Rob Ede
8aca8d4d07 fix clippy warnings (#214) 
and make my spelling checker happy
 2020-11-25 01:41:14 +00:00
fakeshadow
e0dd2a3d76 remove actix-threadpool re-export from actix-rt (#212) 2020-11-24 17:03:09 +00:00
Rob Ede
59e976aaca address clippy error (#213) 2020-11-24 16:35:47 +00:00
Zura Benashvili
4cc1c87724 docs(transform): remove extra generic parameter (#211) 2020-11-20 22:45:57 +00:00
Yuki Okushi
ca39917d2c Update CoC contact information 2020-10-31 12:08:06 +09:00
ghizzo01
704af672b9 Bump pin-project to 1.0 (#202) 2020-10-25 19:42:40 +09:00
Rob Ede
242bef269f delete ioframe removed package readme 
closes #199
 2020-09-22 12:29:07 +01:00
Rob Ede
6c65e2a79f prepare router 0.2.5 release (#198) 2020-09-21 22:46:59 +01:00
nujz
e5ca271764 actix-router: fix from_hex error (#196) 2020-09-20 18:04:18 +01:00
nujz
98a2197a09 fix doc error (#195) 2020-09-19 23:12:41 +09:00
Rob Ede
fb0aa02b3c move and update server+tls examples (#190) 2020-09-13 10:12:07 +01:00
Rob Ede
681eeb497d prepare server release 1.0.4 (#188) 2020-09-12 15:28:17 +01:00
Igor Aleksanov
3e04b87311 actix-service: Fix broken link in readme (#189) 2020-09-12 15:08:03 +01:00
Rob Ede
77b7826658 prepare tls v2 release (#186) 2020-09-08 18:00:07 +01:00
Igor Aleksanov
b7a9cb7bb4 actix-rt: Make the process of running System in existing Runtime more clear (#173) 2020-09-06 11:01:24 +01:00
Robert Gabriel Jakabosky
88d99ac89c Fix clippy errors. (#187) 2020-09-06 10:41:42 +01:00
Rob Ede
7632f51509 prepare connect v2 stable release (#185) 2020-09-02 22:14:07 +01:00
Rob Ede
d28687d0d7 promote codec/utils out of beta (#184) 2020-08-24 09:18:37 +01:00
Rob Ede
27c6be9881 remove unused type parameter from Framed::replace_codec (#183) 2020-08-20 00:30:26 +01:00
111 changed files with 2682 additions and 4781 deletions
Expand all files Collapse all files

29
.github/workflows/bench.yml vendored
View File

@@ -1,29 +0,0 @@
name: Benchmark (Linux)
on:
pull_request:
types: [opened, synchronize, reopened]
push:
branches:
- master
- '1.0'
jobs:
check_benchmark:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- name: Install Rust
uses: actions-rs/toolchain@v1
with:
toolchain: nightly
profile: minimal
override: true
- name: Check benchmark
uses: actions-rs/cargo@v1
with:
command: bench
args: --package=actix-service

2
.github/workflows/clippy-fmt.yml vendored
View File

@@ -31,4 +31,4 @@ jobs:
uses: actions-rs/clippy-check@v1
with:
token: ${{ secrets.GITHUB_TOKEN }}
args: --all-features --all --tests
args: --workspace --tests

8
.github/workflows/linux.yml vendored
View File

@@ -14,7 +14,7 @@ jobs:
fail-fast: false
matrix:
version:
- 1.42.0
- 1.46.0
- stable
- nightly
@@ -53,20 +53,20 @@ jobs:
uses: actions-rs/cargo@v1
with:
command: check
args: --all --bins --examples --tests
args: --workspace --bins --examples --tests
- name: tests
uses: actions-rs/cargo@v1
timeout-minutes: 40
with:
command: test
args: --all --all-features --no-fail-fast -- --nocapture
args: --workspace --exclude=actix-tls --no-fail-fast -- --nocapture
- name: Generate coverage file
if: matrix.version == 'stable' && (github.ref == 'refs/heads/master' || github.event_name == 'pull_request')
run: |
cargo install cargo-tarpaulin
cargo tarpaulin --out Xml --workspace --all-features
cargo tarpaulin --out Xml --workspace
- name: Upload to Codecov
if: matrix.version == 'stable' && (github.ref == 'refs/heads/master' || github.event_name == 'pull_request')

4
.github/workflows/macos.yml vendored
View File

@@ -34,10 +34,10 @@ jobs:
uses: actions-rs/cargo@v1
with:
command: check
args: --all --bins --examples --tests
args: --workspace --bins --examples --tests
- name: tests
uses: actions-rs/cargo@v1
with:
command: test
args: --all --all-features --no-fail-fast -- --nocapture
args: --workspace --exclude=actix-tls --no-fail-fast -- --nocapture

2
.github/workflows/windows-mingw.yml vendored
View File

@@ -42,4 +42,4 @@ jobs:
uses: actions-rs/cargo@v1
with:
command: check
args: --all --bins --examples --tests
args: --workspace --bins --examples --tests

4
.github/workflows/windows.yml vendored
View File

@@ -60,10 +60,10 @@ jobs:
uses: actions-rs/cargo@v1
with:
command: check
args: --all --bins --examples --tests
args: --workspace --bins --examples --tests
- name: tests
uses: actions-rs/cargo@v1
with:
command: test
args: --all --all-features --no-fail-fast -- --nocapture
args: --workspace --exclude=actix-tls --no-fail-fast -- --nocapture

5
CODE_OF_CONDUCT.md
View File

@@ -34,10 +34,13 @@ This Code of Conduct applies both within project spaces and in public spaces whe
## Enforcement
Instances of abusive, harassing, or otherwise unacceptable behavior may be reported by contacting the project team at fafhrd91@gmail.com. The project team will review and investigate all complaints, and will respond in a way that it deems appropriate to the circumstances. The project team is obligated to maintain confidentiality with regard to the reporter of an incident. Further details of specific enforcement policies may be posted separately.
Instances of abusive, harassing, or otherwise unacceptable behavior may be reported by contacting the project team at robjtede@icloud.com ([@robjtede]) or huyuumi@neet.club ([@JohnTitor]). The project team will review and investigate all complaints, and will respond in a way that it deems appropriate to the circumstances. The project team is obligated to maintain confidentiality with regard to the reporter of an incident. Further details of specific enforcement policies may be posted separately.
Project maintainers who do not follow or enforce the Code of Conduct in good faith may face temporary or permanent repercussions as determined by other members of the project's leadership.
[@robjtede]: https://github.com/robjtede
[@JohnTitor]: https://github.com/JohnTitor
## Attribution
This Code of Conduct is adapted from the [Contributor Covenant][homepage], version 1.4, available at [http://contributor-covenant.org/version/1/4][version]

8
Cargo.toml
View File

@@ -16,16 +16,16 @@ members = [
]
[patch.crates-io]
actix-codec = { path = "actix-codec" }
actix-codec = { git = "https://github.com/actix/actix-net.git", rev = "ba44ea7d0bafaf5fccb9a34003d503e1910943ee" }
actix-connect = { path = "actix-connect" }
actix-rt = { path = "actix-rt" }
actix-rt = { git = "https://github.com/actix/actix-net.git", rev = "ba44ea7d0bafaf5fccb9a34003d503e1910943ee" }
actix-macros = { path = "actix-macros" }
actix-server = { path = "actix-server" }
actix-service = { path = "actix-service" }
actix-service = { git = "https://github.com/actix/actix-net.git", rev = "ba44ea7d0bafaf5fccb9a34003d503e1910943ee" }
actix-testing = { path = "actix-testing" }
actix-threadpool = { path = "actix-threadpool" }
actix-tls = { path = "actix-tls" }
actix-tracing = { path = "actix-tracing" }
actix-utils = { path = "actix-utils" }
actix-utils = { git = "https://github.com/actix/actix-net.git", rev = "ba44ea7d0bafaf5fccb9a34003d503e1910943ee" }
actix-router = { path = "router" }
bytestring = { path = "string" }

2
README.md
View File

@@ -14,7 +14,7 @@ Actix net - framework for composable network services
## Documentation & community resources
* [Chat on Gitter](https://gitter.im/actix/actix)
* Minimum supported Rust version: 1.42 or later
* Minimum supported Rust version: 1.46 or later
## Example

33
actix-codec/CHANGES.md
View File

@@ -2,6 +2,24 @@
## Unreleased - 2020-xx-xx
## 0.4.0-beta.1 - 2020-12-28
* Replace `pin-project` with `pin-project-lite`. [#237]
* Upgrade `tokio` dependency to `1`. [#237]
* Upgrade `tokio-util` dependency to `0.6`. [#237]
* Upgrade `bytes` dependency to `1`. [#237]
[#237]: https://github.com/actix/actix-net/pull/237
## 0.3.0 - 2020-08-23
* No changes from beta 2.
## 0.3.0-beta.2 - 2020-08-19
* Remove unused type parameter from `Framed::replace_codec`.
## 0.3.0-beta.1 - 2020-08-19
* Use `.advance()` instead of `.split_to()`.
* Upgrade `tokio-util` to `0.3`.
@@ -11,32 +29,31 @@
* Add method on `Framed` to get a pinned reference to the underlying I/O.
* Add method on `Framed` check emptiness of read buffer.
## [0.2.0] - 2019-12-10
## 0.2.0 - 2019-12-10
* Use specific futures dependencies
## [0.2.0-alpha.4]
## 0.2.0-alpha.4
* Fix buffer remaining capacity calculation
## [0.2.0-alpha.3]
## 0.2.0-alpha.3
* Use tokio 0.2
* Fix low/high watermark for write/read buffers
## [0.2.0-alpha.2]
## 0.2.0-alpha.2
* Migrated to `std::future`
## [0.1.2] - 2019-03-27
## 0.1.2 - 2019-03-27
* Added `Framed::map_io()` method.
## [0.1.1] - 2019-03-06
## 0.1.1 - 2019-03-06
* Added `FramedParts::with_read_buffer()` method.
## [0.1.0] - 2018-12-09
## 0.1.0 - 2018-12-09
* Move codec to separate crate

16
actix-codec/Cargo.toml
View File

@@ -1,8 +1,8 @@
[package]
name = "actix-codec"
version = "0.3.0-beta.1"
version = "0.4.0-beta.1"
authors = ["Nikolay Kim <fafhrd91@gmail.com>"]
description = "Utilities for encoding and decoding frames"
description = "Codec utilities for working with framed protocols"
keywords = ["network", "framework", "async", "futures"]
homepage = "https://actix.rs"
repository = "https://github.com/actix/actix-net.git"
@@ -17,10 +17,10 @@ path = "src/lib.rs"
[dependencies]
bitflags = "1.2.1"
bytes = "0.5.2"
futures-core = { version = "0.3.4", default-features = false }
futures-sink = { version = "0.3.4", default-features = false }
bytes = "1"
futures-core = { version = "0.3.7", default-features = false }
futures-sink = { version = "0.3.7", default-features = false }
log = "0.4"
pin-project = "0.4.17"
tokio = { version = "0.2.5", default-features = false }
tokio-util = { version = "0.3.1", default-features = false, features = ["codec"] }
pin-project-lite = "0.2"
tokio = "1"
tokio-util = { version = "0.6", features = ["codec", "io"] }

2
actix-codec/src/bcodec.rs
View File

@@ -14,7 +14,7 @@ impl Encoder<Bytes> for BytesCodec {
#[inline]
fn encode(&mut self, item: Bytes, dst: &mut BytesMut) -> Result<(), Self::Error> {
dst.extend_from_slice(item.bytes());
dst.extend_from_slice(item.chunk());
Ok(())
}
}

39
actix-codec/src/framed.rs
View File

@@ -5,7 +5,6 @@ use std::{fmt, io};
use bytes::{Buf, BytesMut};
use futures_core::{ready, Stream};
use futures_sink::Sink;
use pin_project::pin_project;
use crate::{AsyncRead, AsyncWrite, Decoder, Encoder};
@@ -21,22 +20,23 @@ bitflags::bitflags! {
}
}
/// A unified `Stream` and `Sink` interface to an underlying I/O object, using
/// the `Encoder` and `Decoder` traits to encode and decode frames.
///
/// Raw I/O objects work with byte sequences, but higher-level code usually
/// wants to batch these into meaningful chunks, called "frames". This
/// method layers framing on top of an I/O object, by using the `Encoder`/`Decoder`
/// traits to handle encoding and decoding of message frames. Note that
/// the incoming and outgoing frame types may be distinct.
#[pin_project]
pub struct Framed<T, U> {
#[pin]
io: T,
codec: U,
flags: Flags,
read_buf: BytesMut,
write_buf: BytesMut,
pin_project_lite::pin_project! {
/// A unified `Stream` and `Sink` interface to an underlying I/O object, using
/// the `Encoder` and `Decoder` traits to encode and decode frames.
///
/// Raw I/O objects work with byte sequences, but higher-level code usually
/// wants to batch these into meaningful chunks, called "frames". This
/// method layers framing on top of an I/O object, by using the `Encoder`/`Decoder`
/// traits to handle encoding and decoding of message frames. Note that
/// the incoming and outgoing frame types may be distinct.
pub struct Framed<T, U> {
#[pin]
io: T,
codec: U,
flags: Flags,
read_buf: BytesMut,
write_buf: BytesMut,
}
}
impl<T, U> Framed<T, U>
@@ -117,7 +117,7 @@ impl<T, U> Framed<T, U> {
}
/// Consume the `Frame`, returning `Frame` with different codec.
pub fn replace_codec<U2, I2>(self, codec: U2) -> Framed<T, U2> {
pub fn replace_codec<U2>(self, codec: U2) -> Framed<T, U2> {
Framed {
codec,
io: self.io,
@@ -220,7 +220,8 @@ impl<T, U> Framed<T, U> {
if remaining < LW {
this.read_buf.reserve(HW - remaining)
}
let cnt = match this.io.poll_read_buf(cx, &mut this.read_buf) {
let cnt = match tokio_util::io::poll_read_buf(this.io, cx, this.read_buf) {
Poll::Pending => return Poll::Pending,
Poll::Ready(Err(e)) => return Poll::Ready(Some(Err(e.into()))),
Poll::Ready(Ok(cnt)) => cnt,

11
actix-codec/src/lib.rs
View File

@@ -1,16 +1,16 @@
//! Utilities for encoding and decoding frames.
//! Codec utilities for working with framed protocols.
//!
//! Contains adapters to go from streams of bytes, [`AsyncRead`] and
//! [`AsyncWrite`], to framed streams implementing [`Sink`] and [`Stream`].
//! Framed streams are also known as `transports`.
//!
//! [`AsyncRead`]: AsyncRead
//! [`AsyncWrite`]: AsyncWrite
//! [`Sink`]: futures_sink::Sink
//! [`Stream`]: futures_core::Stream
#![deny(rust_2018_idioms)]
#![deny(rust_2018_idioms, nonstandard_style)]
#![warn(missing_docs)]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
mod bcodec;
mod framed;
@@ -18,5 +18,6 @@ mod framed;
pub use self::bcodec::BytesCodec;
pub use self::framed::{Framed, FramedParts};
pub use tokio::io::{AsyncRead, AsyncWrite};
pub use tokio::io::{AsyncRead, AsyncWrite, ReadBuf};
pub use tokio_util::codec::{Decoder, Encoder};
pub use tokio_util::io::poll_read_buf;

5
actix-connect/CHANGES.md
View File

@@ -1,8 +1,11 @@
# Changes
## Unreleased
## Unreleased - 2020-xx-xx
## 2.0.0 - 2020-09-02
- No significant changes from `2.0.0-alpha.4`.
## 2.0.0-alpha.4 - 2020-08-17
### Changed

19
actix-connect/Cargo.toml
View File

@@ -1,8 +1,8 @@
[package]
name = "actix-connect"
version = "2.0.0-alpha.4"
version = "2.0.0"
authors = ["Nikolay Kim <fafhrd91@gmail.com>"]
description = "Actix connect - tcp connector service"
description = "TCP connector service for Actix ecosystem."
keywords = ["network", "framework", "async", "futures"]
homepage = "https://actix.rs"
repository = "https://github.com/actix/actix-net.git"
@@ -31,10 +31,11 @@ rustls = ["rust-tls", "tokio-rustls", "webpki"]
uri = ["http"]
[dependencies]
actix-service = "1.0.3"
actix-codec = "0.2.0"
actix-utils = "1.0.6"
actix-rt = "1.0.0"
actix-service = "1.0.6"
actix-codec = "0.3.0"
actix-utils = "2.0.0"
actix-rt = "1.1.1"
derive_more = "0.99.2"
either = "1.5.3"
futures-util = { version = "0.3.4", default-features = false }
@@ -44,14 +45,14 @@ trust-dns-proto = { version = "0.19", default-features = false, features = ["tok
trust-dns-resolver = { version = "0.19", default-features = false, features = ["tokio-runtime", "system-config"] }
# openssl
open-ssl = { version="0.10", package = "openssl", optional = true }
open-ssl = { package = "openssl", version = "0.10", optional = true }
tokio-openssl = { version = "0.4.0", optional = true }
# rustls
rust-tls = { version = "0.18.0", package = "rustls", optional = true }
rust-tls = { package = "rustls", version = "0.18.0", optional = true }
tokio-rustls = { version = "0.14.0", optional = true }
webpki = { version = "0.21", optional = true }
[dev-dependencies]
bytes = "0.5.3"
actix-testing = { version="1.0.0" }
actix-testing = "1.0.0"

13
actix-connect/src/connect.rs
View File

@@ -43,7 +43,7 @@ pub struct Connect<T> {
}
impl<T: Address> Connect<T> {
/// Create `Connect` instance by spliting the string by ':' and convert the second part to u16
/// Create `Connect` instance by splitting the string by ':' and convert the second part to u16
pub fn new(req: T) -> Connect<T> {
let (_, port) = parse(req.host());
Connect {
@@ -53,7 +53,8 @@ impl<T: Address> Connect<T> {
}
}
/// Create new `Connect` instance from host and address. Connector skips name resolution stage for such connect messages.
/// Create new `Connect` instance from host and address. Connector skips name resolution stage
/// for such connect messages.
pub fn with(req: T, addr: SocketAddr) -> Connect<T> {
Connect {
req,
@@ -102,7 +103,7 @@ impl<T: Address> Connect<T> {
self.req.port().unwrap_or(self.port)
}
/// Preresolved addresses of the request.
/// Pre-resolved addresses of the request.
pub fn addrs(&self) -> ConnectAddrsIter<'_> {
let inner = match self.addr {
None => Either::Left(None),
@@ -113,7 +114,7 @@ impl<T: Address> Connect<T> {
ConnectAddrsIter { inner }
}
/// Takes preresolved addresses of the request.
/// Takes pre-resolved addresses of the request.
pub fn take_addrs(&mut self) -> ConnectTakeAddrsIter {
let inner = match self.addr.take() {
None => Either::Left(None),
@@ -137,7 +138,7 @@ impl<T: Address> fmt::Display for Connect<T> {
}
}
/// Iterator over addresses in a [`Connect`](struct.Connect.html) request.
/// Iterator over addresses in a [`Connect`] request.
#[derive(Clone)]
pub struct ConnectAddrsIter<'a> {
inner: Either<Option<SocketAddr>, vec_deque::Iter<'a, SocketAddr>>,
@@ -172,7 +173,7 @@ impl ExactSizeIterator for ConnectAddrsIter<'_> {}
impl FusedIterator for ConnectAddrsIter<'_> {}
/// Owned iterator over addresses in a [`Connect`](struct.Connect.html) request.
/// Owned iterator over addresses in a [`Connect`] request.
#[derive(Debug)]
pub struct ConnectTakeAddrsIter {
inner: Either<Option<SocketAddr>, vec_deque::IntoIter<SocketAddr>>,

19
actix-connect/src/connector.rs
View File

@@ -13,7 +13,7 @@ use futures_util::future::{err, ok, BoxFuture, Either, FutureExt, Ready};
use super::connect::{Address, Connect, Connection};
use super::error::ConnectError;
/// Tcp connector service factory
/// TCP connector service factory
#[derive(Debug)]
pub struct TcpConnectorFactory<T>(PhantomData<T>);
@@ -22,7 +22,7 @@ impl<T> TcpConnectorFactory<T> {
TcpConnectorFactory(PhantomData)
}
/// Create tcp connector service
/// Create TCP connector service
pub fn service(&self) -> TcpConnector<T> {
TcpConnector(PhantomData)
}
@@ -40,8 +40,7 @@ impl<T> Clone for TcpConnectorFactory<T> {
}
}
impl<T: Address> ServiceFactory for TcpConnectorFactory<T> {
type Request = Connect<T>;
impl<T: Address> ServiceFactory<Connect<T>> for TcpConnectorFactory<T> {
type Response = Connection<T, TcpStream>;
type Error = ConnectError;
type Config = ();
@@ -54,7 +53,7 @@ impl<T: Address> ServiceFactory for TcpConnectorFactory<T> {
}
}
/// Tcp connector service
/// TCP connector service
#[derive(Default, Debug)]
pub struct TcpConnector<T>(PhantomData<T>);
@@ -70,15 +69,13 @@ impl<T> Clone for TcpConnector<T> {
}
}
impl<T: Address> Service for TcpConnector<T> {
type Request = Connect<T>;
impl<T: Address> Service<Connect<T>> for TcpConnector<T> {
type Response = Connection<T, TcpStream>;
type Error = ConnectError;
#[allow(clippy::type_complexity)]
type Future = Either<TcpConnectorResponse<T>, Ready<Result<Self::Response, Self::Error>>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
actix_service::always_ready!();
fn call(&mut self, req: Connect<T>) -> Self::Future {
let port = req.port();
@@ -94,7 +91,7 @@ impl<T: Address> Service for TcpConnector<T> {
}
#[doc(hidden)]
/// Tcp stream connector response future
/// TCP stream connector response future
pub struct TcpConnectorResponse<T> {
req: Option<T>,
port: u16,

2
actix-connect/src/error.rs
View File

@@ -20,7 +20,7 @@ pub enum ConnectError {
#[display(fmt = "Connector received `Connect` method with unresolved host")]
Unresolved,
/// Connection io error
/// Connection IO error
#[display(fmt = "{}", _0)]
Io(io::Error),
}

32
actix-connect/src/lib.rs
View File

@@ -1,12 +1,14 @@
//! Actix connect - tcp connector service
//! TCP connector service for Actix ecosystem.
//!
//! ## Package feature
//!
//! * `openssl` - enables ssl support via `openssl` crate
//! * `rustls` - enables ssl support via `rustls` crate
#![deny(rust_2018_idioms, warnings)]
#![allow(clippy::type_complexity)]
//! * `openssl` - enables TLS support via `openssl` crate
//! * `rustls` - enables TLS support via `rustls` crate
#![deny(rust_2018_idioms, nonstandard_style)]
#![recursion_limit = "128"]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
#[macro_use]
extern crate log;
@@ -71,20 +73,20 @@ pub async fn start_default_resolver() -> Result<AsyncResolver, ConnectError> {
get_default_resolver().await
}
/// Create tcp connector service
/// Create TCP connector service.
pub fn new_connector<T: Address + 'static>(
resolver: AsyncResolver,
) -> impl Service<Request = Connect<T>, Response = Connection<T, TcpStream>, Error = ConnectError>
+ Clone {
) -> impl Service<Connect<T>, Response = Connection<T, TcpStream>, Error = ConnectError> + Clone
{
pipeline(Resolver::new(resolver)).and_then(TcpConnector::new())
}
/// Create tcp connector service
/// Create TCP connector service factory.
pub fn new_connector_factory<T: Address + 'static>(
resolver: AsyncResolver,
) -> impl ServiceFactory<
Connect<T>,
Config = (),
Request = Connect<T>,
Response = Connection<T, TcpStream>,
Error = ConnectError,
InitError = (),
@@ -92,17 +94,17 @@ pub fn new_connector_factory<T: Address + 'static>(
pipeline_factory(ResolverFactory::new(resolver)).and_then(TcpConnectorFactory::new())
}
/// Create connector service with default parameters
/// Create connector service with default parameters.
pub fn default_connector<T: Address + 'static>(
) -> impl Service<Request = Connect<T>, Response = Connection<T, TcpStream>, Error = ConnectError>
+ Clone {
) -> impl Service<Connect<T>, Response = Connection<T, TcpStream>, Error = ConnectError> + Clone
{
pipeline(Resolver::default()).and_then(TcpConnector::new())
}
/// Create connector service factory with default parameters
/// Create connector service factory with default parameters.
pub fn default_connector_factory<T: Address + 'static>() -> impl ServiceFactory<
Connect<T>,
Config = (),
Request = Connect<T>,
Response = Connection<T, TcpStream>,
Error = ConnectError,
InitError = (),

11
actix-connect/src/resolve.rs
View File

@@ -54,8 +54,7 @@ impl<T> Clone for ResolverFactory<T> {
}
}
impl<T: Address> ServiceFactory for ResolverFactory<T> {
type Request = Connect<T>;
impl<T: Address> ServiceFactory<Connect<T>> for ResolverFactory<T> {
type Response = Connect<T>;
type Error = ConnectError;
type Config = ();
@@ -102,18 +101,16 @@ impl<T> Clone for Resolver<T> {
}
}
impl<T: Address> Service for Resolver<T> {
type Request = Connect<T>;
impl<T: Address> Service<Connect<T>> for Resolver<T> {
type Response = Connect<T>;
type Error = ConnectError;
#[allow(clippy::type_complexity)]
type Future = Either<
Pin<Box<dyn Future<Output = Result<Self::Response, Self::Error>>>>,
Ready<Result<Connect<T>, Self::Error>>,
>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
actix_service::always_ready!();
fn call(&mut self, mut req: Connect<T>) -> Self::Future {
if req.addr.is_some() {

26
actix-connect/src/service.rs
View File

@@ -70,8 +70,7 @@ impl<T> Clone for ConnectServiceFactory<T> {
}
}
impl<T: Address> ServiceFactory for ConnectServiceFactory<T> {
type Request = Connect<T>;
impl<T: Address> ServiceFactory<Connect<T>> for ConnectServiceFactory<T> {
type Response = Connection<T, TcpStream>;
type Error = ConnectError;
type Config = ();
@@ -90,15 +89,12 @@ pub struct ConnectService<T> {
resolver: Resolver<T>,
}
impl<T: Address> Service for ConnectService<T> {
type Request = Connect<T>;
impl<T: Address> Service<Connect<T>> for ConnectService<T> {
type Response = Connection<T, TcpStream>;
type Error = ConnectError;
type Future = ConnectServiceResponse<T>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
actix_service::always_ready!();
fn call(&mut self, req: Connect<T>) -> Self::Future {
ConnectServiceResponse {
@@ -109,11 +105,12 @@ impl<T: Address> Service for ConnectService<T> {
}
enum ConnectState<T: Address> {
Resolve(<Resolver<T> as Service>::Future),
Connect(<TcpConnector<T> as Service>::Future),
Resolve(<Resolver<T> as Service<Connect<T>>>::Future),
Connect(<TcpConnector<T> as Service<Connect<T>>>::Future),
}
impl<T: Address> ConnectState<T> {
#[allow(clippy::type_complexity)]
fn poll(
&mut self,
cx: &mut Context<'_>,
@@ -159,15 +156,12 @@ pub struct TcpConnectService<T> {
resolver: Resolver<T>,
}
impl<T: Address + 'static> Service for TcpConnectService<T> {
type Request = Connect<T>;
impl<T: Address + 'static> Service<Connect<T>> for TcpConnectService<T> {
type Response = TcpStream;
type Error = ConnectError;
type Future = TcpConnectServiceResponse<T>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
actix_service::always_ready!();
fn call(&mut self, req: Connect<T>) -> Self::Future {
TcpConnectServiceResponse {
@@ -178,8 +172,8 @@ impl<T: Address + 'static> Service for TcpConnectService<T> {
}
enum TcpConnectState<T: Address> {
Resolve(<Resolver<T> as Service>::Future),
Connect(<TcpConnector<T> as Service>::Future),
Resolve(<Resolver<T> as Service<Connect<T>>>::Future),
Connect(<TcpConnector<T> as Service<Connect<T>>>::Future),
}
impl<T: Address> TcpConnectState<T> {

15
actix-connect/src/ssl/openssl.rs
View File

@@ -17,7 +17,7 @@ use crate::{
Address, Connect, ConnectError, ConnectService, ConnectServiceFactory, Connection,
};
/// Openssl connector factory
/// OpenSSL connector factory
pub struct OpensslConnector<T, U> {
connector: SslConnector,
_t: PhantomData<(T, U)>,
@@ -97,11 +97,10 @@ where
type Request = Connection<T, U>;
type Response = Connection<T, SslStream<U>>;
type Error = io::Error;
#[allow(clippy::type_complexity)]
type Future = Either<ConnectAsyncExt<T, U>, Ready<Result<Self::Response, Self::Error>>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
actix_service::always_ready!();
fn call(&mut self, stream: Connection<T, U>) -> Self::Future {
trace!("SSL Handshake start for: {:?}", stream.host());
@@ -164,7 +163,7 @@ impl<T> OpensslConnectServiceFactory<T> {
}
}
/// Construct new connect service with custom dns resolver
/// Construct new connect service with custom DNS resolver
pub fn with_resolver(connector: SslConnector, resolver: AsyncResolver) -> Self {
OpensslConnectServiceFactory {
tcp: ConnectServiceFactory::with_resolver(resolver),
@@ -172,7 +171,7 @@ impl<T> OpensslConnectServiceFactory<T> {
}
}
/// Construct openssl connect service
/// Construct OpenSSL connect service
pub fn service(&self) -> OpensslConnectService<T> {
OpensslConnectService {
tcp: self.tcp.service(),
@@ -219,9 +218,7 @@ impl<T: Address + 'static> Service for OpensslConnectService<T> {
type Error = ConnectError;
type Future = OpensslConnectServiceResponse<T>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
actix_service::always_ready!();
fn call(&mut self, req: Connect<T>) -> Self::Future {
OpensslConnectServiceResponse {

4
actix-connect/src/ssl/rustls.rs
View File

@@ -96,9 +96,7 @@ where
type Error = std::io::Error;
type Future = ConnectAsyncExt<T, U>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
actix_service::always_ready!();
fn call(&mut self, stream: Connection<T, U>) -> Self::Future {
trace!("SSL Handshake start for: {:?}", stream.host());

6
actix-connect/tests/test_connect.rs
View File

@@ -88,9 +88,9 @@ async fn test_new_service() {
assert_eq!(con.peer_addr().unwrap(), srv.addr());
}
#[cfg(feature = "openssl")]
#[cfg(all(feature = "openssl", feature = "uri"))]
#[actix_rt::test]
async fn test_uri() {
async fn test_openssl_uri() {
use std::convert::TryFrom;
let srv = TestServer::with(|| {
@@ -107,7 +107,7 @@ async fn test_uri() {
assert_eq!(con.peer_addr().unwrap(), srv.addr());
}
#[cfg(feature = "rustls")]
#[cfg(all(feature = "rustls", feature = "uri"))]
#[actix_rt::test]
async fn test_rustls_uri() {
use std::convert::TryFrom;

3
actix-ioframe/README.md
View File

@@ -1,3 +0,0 @@
# actix-ioframe
**This crate has been deprecated and removed.**

4
actix-macros/CHANGES.md
View File

@@ -1,5 +1,9 @@
# CHANGES
## 0.1.3 - 2020-12-3
* Add `actix-reexport` feature
## 0.1.2 - 2020-05-18
### Changed

5
actix-macros/Cargo.toml
View File

@@ -1,6 +1,6 @@
[package]
name = "actix-macros"
version = "0.1.2"
version = "0.1.3"
authors = ["Nikolay Kim <fafhrd91@gmail.com>"]
description = "Actix runtime macros"
repository = "https://github.com/actix/actix-net"
@@ -16,6 +16,9 @@ proc-macro = true
quote = "1.0.3"
syn = { version = "^1", features = ["full"] }
[features]
actix-reexport = []
[dev-dependencies]
actix-rt = "1.0"

32
actix-macros/src/lib.rs
View File

@@ -1,5 +1,8 @@
//! Macros for use with Tokio
extern crate proc_macro;
#![deny(rust_2018_idioms, nonstandard_style)]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
use proc_macro::TokenStream;
use quote::quote;
@@ -33,14 +36,25 @@ pub fn main(_: TokenStream, item: TokenStream) -> TokenStream {
sig.asyncness = None;
(quote! {
#(#attrs)*
#vis #sig {
actix_rt::System::new(stringify!(#name))
.block_on(async move { #body })
}
})
.into()
if cfg!(feature = "actix-reexport") {
(quote! {
#(#attrs)*
#vis #sig {
actix::System::new(stringify!(#name))
.block_on(async move { #body })
}
})
.into()
} else {
(quote! {
#(#attrs)*
#vis #sig {
actix_rt::System::new(stringify!(#name))
.block_on(async move { #body })
}
})
.into()
}
}
/// Marks async test function to be executed by actix runtime.

22
actix-rt/CHANGES.md
View File

@@ -1,5 +1,27 @@
# Changes
## Unreleased - 2020-xx-xx
## 2.0.0-beta.1 - 2020-12-28
### Added
* Add `System::attach_to_tokio` method. [#173]
### Changed
* Update `tokio` dependency to `1.0`. [#236]
* Rename `time` module `delay_for` to `sleep`, `delay_until` to `sleep_until`, `Delay` to `Sleep`
to stay aligned with Tokio's naming. [#236]
* Remove `'static` lifetime requirement for `Runtime::block_on` and `SystemRunner::block_on`.
* These methods now accept `&self` when calling. [#236]
* Remove `'static` lifetime requirement for `System::run` and `Builder::run`. [#236]
* `Arbiter::spawn` now panics when `System` is not in scope. [#207]
### Fixed
* Fix work load issue by removing `PENDING` thread local. [#207]
[#207]: https://github.com/actix/actix-net/pull/207
[#236]: https://github.com/actix/actix-net/pull/236
## [1.1.1] - 2020-04-30
### Fixed

12
actix-rt/Cargo.toml
View File

@@ -1,8 +1,8 @@
[package]
name = "actix-rt"
version = "1.1.1"
version = "2.0.0-beta.1"
authors = ["Nikolay Kim <fafhrd91@gmail.com>"]
description = "Actix runtime"
description = "Tokio-based single-thread async runtime for the Actix ecosystem"
keywords = ["network", "framework", "async", "futures"]
homepage = "https://actix.rs"
repository = "https://github.com/actix/actix-net.git"
@@ -17,9 +17,5 @@ path = "src/lib.rs"
[dependencies]
actix-macros = "0.1.0"
actix-threadpool = "0.3"
futures-channel = { version = "0.3.4", default-features = false }
futures-util = { version = "0.3.4", default-features = false, features = ["alloc"] }
copyless = "0.1.4"
smallvec = "1"
tokio = { version = "0.2.6", default-features = false, features = ["rt-core", "rt-util", "io-driver", "tcp", "uds", "udp", "time", "signal", "stream"] }
tokio = { version = "1", features = ["rt", "net", "signal", "sync", "time"] }

242
actix-rt/src/arbiter.rs
View File

@@ -1,31 +1,30 @@
use std::any::{Any, TypeId};
use std::cell::{Cell, RefCell};
use std::cell::RefCell;
use std::collections::HashMap;
use std::future::Future;
use std::pin::Pin;
use std::sync::atomic::{AtomicUsize, Ordering};
use std::task::{Context, Poll};
use std::{fmt, thread};
use futures_channel::mpsc::{unbounded, UnboundedReceiver, UnboundedSender};
use futures_channel::oneshot::{channel, Canceled, Sender};
use futures_util::{
future::{self, Future, FutureExt},
stream::Stream,
};
use tokio::sync::mpsc::{unbounded_channel, UnboundedReceiver, UnboundedSender};
use tokio::sync::oneshot::{channel, error::RecvError as Canceled, Sender};
// use futures_util::stream::FuturesUnordered;
// use tokio::task::JoinHandle;
// use tokio::stream::StreamExt;
use tokio::task::LocalSet;
use crate::runtime::Runtime;
use crate::system::System;
use copyless::BoxHelper;
use smallvec::SmallVec;
pub use tokio::task::JoinHandle;
thread_local!(
static ADDR: RefCell<Option<Arbiter>> = RefCell::new(None);
static RUNNING: Cell<bool> = Cell::new(false);
static Q: RefCell<Vec<Pin<Box<dyn Future<Output = ()>>>>> = RefCell::new(Vec::new());
static PENDING: RefCell<SmallVec<[JoinHandle<()>; 8]>> = RefCell::new(SmallVec::new());
// TODO: Commented out code are for Arbiter::local_join function.
// It can be safely removed if this function is not used in actix-*.
//
// /// stores join handle for spawned async tasks.
// static HANDLE: RefCell<FuturesUnordered<JoinHandle<()>>> =
// RefCell::new(FuturesUnordered::new());
static STORAGE: RefCell<HashMap<TypeId, Box<dyn Any>>> = RefCell::new(HashMap::new());
);
@@ -69,14 +68,14 @@ impl Default for Arbiter {
}
impl Arbiter {
pub(crate) fn new_system() -> Self {
let (tx, rx) = unbounded();
pub(crate) fn new_system(local: &LocalSet) -> Self {
let (tx, rx) = unbounded_channel();
let arb = Arbiter::with_sender(tx);
ADDR.with(|cell| *cell.borrow_mut() = Some(arb.clone()));
RUNNING.with(|cell| cell.set(false));
STORAGE.with(|cell| cell.borrow_mut().clear());
Arbiter::spawn(ArbiterController { stop: None, rx });
local.spawn_local(ArbiterController { rx });
arb
}
@@ -91,13 +90,14 @@ impl Arbiter {
}
/// Check if current arbiter is running.
#[deprecated(note = "Thread local variables for running state of Arbiter is removed")]
pub fn is_running() -> bool {
RUNNING.with(|cell| cell.get())
false
}
/// Stop arbiter from continuing it's event loop.
pub fn stop(&self) {
let _ = self.sender.unbounded_send(ArbiterCommand::Stop);
let _ = self.sender.send(ArbiterCommand::Stop);
}
/// Spawn new thread and run event loop in spawned thread.
@@ -106,72 +106,47 @@ impl Arbiter {
let id = COUNT.fetch_add(1, Ordering::Relaxed);
let name = format!("actix-rt:worker:{}", id);
let sys = System::current();
let (arb_tx, arb_rx) = unbounded();
let arb_tx2 = arb_tx.clone();
let (tx, rx) = unbounded_channel();
let handle = thread::Builder::new()
.name(name.clone())
.spawn(move || {
let mut rt = Runtime::new().expect("Can not create Runtime");
let arb = Arbiter::with_sender(arb_tx);
.spawn({
let tx = tx.clone();
move || {
let rt = Runtime::new().expect("Can not create Runtime");
let arb = Arbiter::with_sender(tx);
let (stop, stop_rx) = channel();
RUNNING.with(|cell| cell.set(true));
STORAGE.with(|cell| cell.borrow_mut().clear());
STORAGE.with(|cell| cell.borrow_mut().clear());
System::set_current(sys);
System::set_current(sys);
// start arbiter controller
rt.spawn(ArbiterController {
stop: Some(stop),
rx: arb_rx,
});
ADDR.with(|cell| *cell.borrow_mut() = Some(arb.clone()));
ADDR.with(|cell| *cell.borrow_mut() = Some(arb.clone()));
// register arbiter
let _ = System::current()
.sys()
.unbounded_send(SystemCommand::RegisterArbiter(id, arb));
// register arbiter
let _ = System::current()
.sys()
.send(SystemCommand::RegisterArbiter(id, arb));
// run loop
let _ = match rt.block_on(stop_rx) {
Ok(code) => code,
Err(_) => 1,
};
// start arbiter controller
// run loop
rt.block_on(ArbiterController { rx });
// unregister arbiter
let _ = System::current()
.sys()
.unbounded_send(SystemCommand::UnregisterArbiter(id));
// unregister arbiter
let _ = System::current()
.sys()
.send(SystemCommand::UnregisterArbiter(id));
}
})
.unwrap_or_else(|err| {
panic!("Cannot spawn an arbiter's thread {:?}: {:?}", &name, err)
});
Arbiter {
sender: arb_tx2,
sender: tx,
thread_handle: Some(handle),
}
}
pub(crate) fn run_system(rt: Option<&Runtime>) {
RUNNING.with(|cell| cell.set(true));
Q.with(|cell| {
let mut v = cell.borrow_mut();
for fut in v.drain(..) {
if let Some(rt) = rt {
rt.spawn(fut);
} else {
tokio::task::spawn_local(fut);
}
}
});
}
pub(crate) fn stop_system() {
RUNNING.with(|cell| cell.set(false));
}
/// Spawn a future on the current thread. This does not create a new Arbiter
/// or Arbiter address, it is simply a helper for spawning futures on the current
/// thread.
@@ -179,26 +154,12 @@ impl Arbiter {
where
F: Future<Output = ()> + 'static,
{
RUNNING.with(move |cell| {
if cell.get() {
// Spawn the future on running executor
let len = PENDING.with(move |cell| {
let mut p = cell.borrow_mut();
p.push(tokio::task::spawn_local(future));
p.len()
});
if len > 7 {
// Before reaching the inline size
tokio::task::spawn_local(CleanupPending);
}
} else {
// Box the future and push it to the queue, this results in double boxing
// because the executor boxes the future again, but works for now
Q.with(move |cell| {
cell.borrow_mut().push(Pin::from(Box::alloc().init(future)))
});
}
});
// HANDLE.with(|handle| {
// let handle = handle.borrow();
// handle.push(tokio::task::spawn_local(future));
// });
// let _ = tokio::task::spawn_local(CleanupPending);
let _ = tokio::task::spawn_local(future);
}
/// Executes a future on the current thread. This does not create a new Arbiter
@@ -209,7 +170,9 @@ impl Arbiter {
F: FnOnce() -> R + 'static,
R: Future<Output = ()> + 'static,
{
Arbiter::spawn(future::lazy(|_| f()).flatten())
Arbiter::spawn(async {
f();
})
}
/// Send a future to the Arbiter's thread, and spawn it.
@@ -217,9 +180,7 @@ impl Arbiter {
where
F: Future<Output = ()> + Send + Unpin + 'static,
{
let _ = self
.sender
.unbounded_send(ArbiterCommand::Execute(Box::new(future)));
let _ = self.sender.send(ArbiterCommand::Execute(Box::new(future)));
}
/// Send a function to the Arbiter's thread, and execute it. Any result from the function
@@ -230,7 +191,7 @@ impl Arbiter {
{
let _ = self
.sender
.unbounded_send(ArbiterCommand::ExecuteFn(Box::new(move || {
.send(ArbiterCommand::ExecuteFn(Box::new(move || {
f();
})));
}
@@ -246,8 +207,8 @@ impl Arbiter {
let (tx, rx) = channel();
let _ = self
.sender
.unbounded_send(ArbiterCommand::ExecuteFn(Box::new(move || {
if !tx.is_canceled() {
.send(ArbiterCommand::ExecuteFn(Box::new(move || {
if !tx.is_closed() {
let _ = tx.send(f());
}
})));
@@ -316,40 +277,33 @@ impl Arbiter {
/// Returns a future that will be completed once all currently spawned futures
/// have completed.
pub fn local_join() -> impl Future<Output = ()> {
PENDING.with(move |cell| {
let current = cell.replace(SmallVec::new());
future::join_all(current).map(|_| ())
})
#[deprecated(since = "1.2.0", note = "Arbiter::local_join function is removed.")]
pub async fn local_join() {
// let handle = HANDLE.with(|fut| std::mem::take(&mut *fut.borrow_mut()));
// async move {
// handle.collect::<Vec<_>>().await;
// }
unimplemented!("Arbiter::local_join function is removed.")
}
}
/// Future used for cleaning-up already finished `JoinHandle`s
/// from the `PENDING` list so the vector doesn't grow indefinitely
struct CleanupPending;
impl Future for CleanupPending {
type Output = ();
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
PENDING.with(move |cell| {
let mut pending = cell.borrow_mut();
let mut i = 0;
while i != pending.len() {
if let Poll::Ready(_) = Pin::new(&mut pending[i]).poll(cx) {
pending.remove(i);
} else {
i += 1;
}
}
});
Poll::Ready(())
}
}
// /// Future used for cleaning-up already finished `JoinHandle`s
// /// from the `PENDING` list so the vector doesn't grow indefinitely
// struct CleanupPending;
//
// impl Future for CleanupPending {
// type Output = ();
//
// fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
// HANDLE.with(move |handle| {
// recycle_join_handle(&mut *handle.borrow_mut(), cx);
// });
//
// Poll::Ready(())
// }
// }
struct ArbiterController {
stop: Option<Sender<i32>>,
rx: UnboundedReceiver<ArbiterCommand>,
}
@@ -371,25 +325,17 @@ impl Future for ArbiterController {
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
loop {
match Pin::new(&mut self.rx).poll_next(cx) {
match Pin::new(&mut self.rx).poll_recv(cx) {
Poll::Ready(None) => return Poll::Ready(()),
Poll::Ready(Some(item)) => match item {
ArbiterCommand::Stop => {
if let Some(stop) = self.stop.take() {
let _ = stop.send(0);
};
return Poll::Ready(());
}
ArbiterCommand::Stop => return Poll::Ready(()),
ArbiterCommand::Execute(fut) => {
let len = PENDING.with(move |cell| {
let mut p = cell.borrow_mut();
p.push(tokio::task::spawn_local(fut));
p.len()
});
if len > 7 {
// Before reaching the inline size
tokio::task::spawn_local(CleanupPending);
}
// HANDLE.with(|handle| {
// let mut handle = handle.borrow_mut();
// handle.push(tokio::task::spawn_local(fut));
// recycle_join_handle(&mut *handle, cx);
// });
tokio::task::spawn_local(fut);
}
ArbiterCommand::ExecuteFn(f) => {
f.call_box();
@@ -401,6 +347,20 @@ impl Future for ArbiterController {
}
}
// fn recycle_join_handle(handle: &mut FuturesUnordered<JoinHandle<()>>, cx: &mut Context<'_>) {
// let _ = Pin::new(&mut *handle).poll_next(cx);
//
// // Try to recycle more join handles and free up memory.
// //
// // this is a guess. The yield limit for FuturesUnordered is 32.
// // So poll an extra 3 times would make the total poll below 128.
// if handle.len() > 64 {
// (0..3).for_each(|_| {
// let _ = Pin::new(&mut *handle).poll_next(cx);
// })
// }
// }
#[derive(Debug)]
pub(crate) enum SystemCommand {
Exit(i32),
@@ -430,7 +390,7 @@ impl Future for SystemArbiter {
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
loop {
match Pin::new(&mut self.commands).poll_next(cx) {
match Pin::new(&mut self.commands).poll_recv(cx) {
Poll::Ready(None) => return Poll::Ready(()),
Poll::Ready(Some(cmd)) => match cmd {
SystemCommand::Exit(code) => {

80
actix-rt/src/builder.rs
View File

@@ -1,9 +1,9 @@
use std::borrow::Cow;
use std::future::Future;
use std::io;
use futures_channel::mpsc::unbounded;
use futures_channel::oneshot::{channel, Receiver};
use futures_util::future::{lazy, Future, FutureExt};
use tokio::sync::mpsc::unbounded_channel;
use tokio::sync::oneshot::{channel, Receiver};
use tokio::task::LocalSet;
use crate::arbiter::{Arbiter, SystemArbiter};
@@ -65,16 +65,17 @@ impl Builder {
/// Function `f` get called within tokio runtime context.
pub fn run<F>(self, f: F) -> io::Result<()>
where
F: FnOnce() + 'static,
F: FnOnce(),
{
self.create_runtime(f).run()
}
fn create_async_runtime(self, local: &LocalSet) -> AsyncSystemRunner {
let (stop_tx, stop) = channel();
let (sys_sender, sys_receiver) = unbounded();
let (sys_sender, sys_receiver) = unbounded_channel();
let system = System::construct(sys_sender, Arbiter::new_system(), self.stop_on_panic);
let system =
System::construct(sys_sender, Arbiter::new_system(local), self.stop_on_panic);
// system arbiter
let arb = SystemArbiter::new(stop_tx, sys_receiver);
@@ -87,21 +88,26 @@ impl Builder {
fn create_runtime<F>(self, f: F) -> SystemRunner
where
F: FnOnce() + 'static,
F: FnOnce(),
{
let (stop_tx, stop) = channel();
let (sys_sender, sys_receiver) = unbounded();
let (sys_sender, sys_receiver) = unbounded_channel();
let system = System::construct(sys_sender, Arbiter::new_system(), self.stop_on_panic);
let rt = Runtime::new().unwrap();
let system = System::construct(
sys_sender,
Arbiter::new_system(rt.local()),
self.stop_on_panic,
);
// system arbiter
let arb = SystemArbiter::new(stop_tx, sys_receiver);
let mut rt = Runtime::new().unwrap();
rt.spawn(arb);
// init system arbiter and run configuration method
rt.block_on(lazy(move |_| f()));
rt.block_on(async { f() });
SystemRunner { rt, stop, system }
}
@@ -120,27 +126,21 @@ impl AsyncSystemRunner {
let AsyncSystemRunner { stop, .. } = self;
// run loop
lazy(|_| {
Arbiter::run_system(None);
async {
let res = match stop.await {
Ok(code) => {
if code != 0 {
Err(io::Error::new(
io::ErrorKind::Other,
format!("Non-zero exit code: {}", code),
))
} else {
Ok(())
}
async {
match stop.await {
Ok(code) => {
if code != 0 {
Err(io::Error::new(
io::ErrorKind::Other,
format!("Non-zero exit code: {}", code),
))
} else {
Ok(())
}
Err(e) => Err(io::Error::new(io::ErrorKind::Other, e)),
};
Arbiter::stop_system();
return res;
}
Err(e) => Err(io::Error::new(io::ErrorKind::Other, e)),
}
})
.flatten()
}
}
}
@@ -157,11 +157,10 @@ impl SystemRunner {
/// This function will start event loop and will finish once the
/// `System::stop()` function is called.
pub fn run(self) -> io::Result<()> {
let SystemRunner { mut rt, stop, .. } = self;
let SystemRunner { rt, stop, .. } = self;
// run loop
Arbiter::run_system(Some(&rt));
let result = match rt.block_on(stop) {
match rt.block_on(stop) {
Ok(code) => {
if code != 0 {
Err(io::Error::new(
@@ -173,19 +172,12 @@ impl SystemRunner {
}
}
Err(e) => Err(io::Error::new(io::ErrorKind::Other, e)),
};
Arbiter::stop_system();
result
}
}
/// Execute a future and wait for result.
pub fn block_on<F, O>(&mut self, fut: F) -> O
where
F: Future<Output = O> + 'static,
{
Arbiter::run_system(Some(&self.rt));
let res = self.rt.block_on(fut);
Arbiter::stop_system();
res
#[inline]
pub fn block_on<F: Future>(&self, fut: F) -> F::Output {
self.rt.block_on(fut)
}
}

23
actix-rt/src/lib.rs
View File

@@ -1,6 +1,11 @@
//! A runtime implementation that runs everything on the current thread.
#![deny(rust_2018_idioms, warnings)]
//! Tokio-based single-thread async runtime for the Actix ecosystem.
#![deny(rust_2018_idioms, nonstandard_style)]
#![allow(clippy::type_complexity)]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
use std::future::Future;
#[cfg(not(test))] // Work around for rust-lang/rust#62127
pub use actix_macros::{main, test};
@@ -15,23 +20,17 @@ pub use self::builder::{Builder, SystemRunner};
pub use self::runtime::Runtime;
pub use self::system::System;
#[doc(hidden)]
pub use actix_threadpool as blocking;
/// Spawns a future on the current arbiter.
///
/// # Panics
///
/// This function panics if actix system is not running.
#[inline]
pub fn spawn<F>(f: F)
where
F: futures_util::future::Future<Output = ()> + 'static,
F: Future<Output = ()> + 'static,
{
if !System::is_set() {
panic!("System is not running");
}
Arbiter::spawn(f);
Arbiter::spawn(f)
}
/// Asynchronous signal handling
@@ -60,7 +59,7 @@ pub mod net {
/// Utilities for tracking time.
pub mod time {
pub use tokio::time::Instant;
pub use tokio::time::{delay_for, delay_until, Delay};
pub use tokio::time::{interval, interval_at, Interval};
pub use tokio::time::{sleep, sleep_until, Sleep};
pub use tokio::time::{timeout, Timeout};
}

19
actix-rt/src/runtime.rs
View File

@@ -7,7 +7,7 @@ use tokio::{runtime, task::LocalSet};
///
/// See [module level][mod] documentation for more details.
///
/// [mod]: index.html
/// [mod]: crate
#[derive(Debug)]
pub struct Runtime {
local: LocalSet,
@@ -18,10 +18,9 @@ impl Runtime {
#[allow(clippy::new_ret_no_self)]
/// Returns a new runtime initialized with default configuration values.
pub fn new() -> io::Result<Runtime> {
let rt = runtime::Builder::new()
let rt = runtime::Builder::new_current_thread()
.enable_io()
.enable_time()
.basic_scheduler()
.build()?;
Ok(Runtime {
@@ -30,11 +29,15 @@ impl Runtime {
})
}
pub(super) fn local(&self) -> &LocalSet {
&self.local
}
/// Spawn a future onto the single-threaded runtime.
///
/// See [module level][mod] documentation for more details.
///
/// [mod]: index.html
/// [mod]: crate
///
/// # Examples
///
@@ -44,7 +47,7 @@ impl Runtime {
///
/// # fn dox() {
/// // Create the runtime
/// let mut rt = Runtime::new().unwrap();
/// let rt = Runtime::new().unwrap();
///
/// // Spawn a future onto the runtime
/// rt.spawn(future::lazy(|_| {
@@ -82,10 +85,10 @@ impl Runtime {
///
/// The caller is responsible for ensuring that other spawned futures
/// complete execution by calling `block_on` or `run`.
pub fn block_on<F>(&mut self, f: F) -> F::Output
pub fn block_on<F>(&self, f: F) -> F::Output
where
F: Future + 'static,
F: Future,
{
self.local.block_on(&mut self.rt, f)
self.local.block_on(&self.rt, f)
}
}

126
actix-rt/src/system.rs
View File

@@ -3,7 +3,7 @@ use std::future::Future;
use std::io;
use std::sync::atomic::{AtomicUsize, Ordering};
use futures_channel::mpsc::UnboundedSender;
use tokio::sync::mpsc::UnboundedSender;
use tokio::task::LocalSet;
use crate::arbiter::{Arbiter, SystemCommand};
@@ -57,10 +57,57 @@ impl System {
Self::builder().name(name).build()
}
#[allow(clippy::new_ret_no_self)]
/// Create new system using provided tokio Handle.
/// Create new system using provided tokio `LocalSet`.
///
/// This method panics if it can not spawn system arbiter
///
/// Note: This method uses provided `LocalSet` to create a `System` future only.
/// All the [`Arbiter`]s will be started in separate threads using their own tokio `Runtime`s.
/// It means that using this method currently it is impossible to make `actix-rt` work in the
/// alternative `tokio` `Runtime`s (e.g. provided by [`tokio_compat`]).
///
/// [`tokio_compat`]: https://crates.io/crates/tokio-compat
///
/// # Examples
///
/// ```rust,ignore
/// use tokio::{runtime::Runtime, task::LocalSet};
/// use actix_rt::System;
/// use futures_util::future::try_join_all;
///
/// async fn run_application() {
/// let first_task = tokio::spawn(async {
/// // ...
/// # println!("One task");
/// # Ok::<(),()>(())
/// });
///
/// let second_task = tokio::spawn(async {
/// // ...
/// # println!("Another task");
/// # Ok::<(),()>(())
/// });
///
/// try_join_all(vec![first_task, second_task])
/// .await
/// .expect("Some of the futures finished unexpectedly");
/// }
///
///
/// let runtime = tokio::runtime::Builder::new_multi_thread()
/// .worker_threads(2)
/// .enable_all()
/// .build()
/// .unwrap();
///
///
/// let actix_system_task = LocalSet::new();
/// let sys = System::run_in_tokio("actix-main-system", &actix_system_task);
/// actix_system_task.spawn_local(sys);
///
/// let rest_operations = run_application();
/// runtime.block_on(actix_system_task.run_until(rest_operations));
/// ```
pub fn run_in_tokio<T: Into<String>>(
name: T,
local: &LocalSet,
@@ -71,6 +118,75 @@ impl System {
.run_nonblocking()
}
/// Consume the provided tokio Runtime and start the `System` in it.
/// This method will create a `LocalSet` object and occupy the current thread
/// for the created `System` exclusively. All the other asynchronous tasks that
/// should be executed as well must be aggregated into one future, provided as the last
/// argument to this method.
///
/// Note: This method uses provided `Runtime` to create a `System` future only.
/// All the [`Arbiter`]s will be started in separate threads using their own tokio `Runtime`s.
/// It means that using this method currently it is impossible to make `actix-rt` work in the
/// alternative `tokio` `Runtime`s (e.g. provided by `tokio_compat`).
///
/// [`tokio_compat`]: https://crates.io/crates/tokio-compat
///
/// # Arguments
///
/// - `name`: Name of the System
/// - `runtime`: A tokio Runtime to run the system in.
/// - `rest_operations`: A future to be executed in the runtime along with the System.
///
/// # Examples
///
/// ```rust,ignore
/// use tokio::runtime::Runtime;
/// use actix_rt::System;
/// use futures_util::future::try_join_all;
///
/// async fn run_application() {
/// let first_task = tokio::spawn(async {
/// // ...
/// # println!("One task");
/// # Ok::<(),()>(())
/// });
///
/// let second_task = tokio::spawn(async {
/// // ...
/// # println!("Another task");
/// # Ok::<(),()>(())
/// });
///
/// try_join_all(vec![first_task, second_task])
/// .await
/// .expect("Some of the futures finished unexpectedly");
/// }
///
///
/// let runtime = tokio::runtime::Builder::new_multi_thread()
/// .worker_threads(2)
/// .enable_all()
/// .build()
/// .unwrap();
///
/// let rest_operations = run_application();
/// System::attach_to_tokio("actix-main-system", runtime, rest_operations);
/// ```
pub fn attach_to_tokio<Fut, R>(
name: impl Into<String>,
runtime: tokio::runtime::Runtime,
rest_operations: Fut,
) -> R
where
Fut: std::future::Future<Output = R>,
{
let actix_system_task = LocalSet::new();
let sys = System::run_in_tokio(name.into(), &actix_system_task);
actix_system_task.spawn_local(sys);
runtime.block_on(actix_system_task.run_until(rest_operations))
}
/// Get current running system.
pub fn current() -> System {
CURRENT.with(|cell| match *cell.borrow() {
@@ -115,7 +231,7 @@ impl System {
/// Stop the system with a particular exit code.
pub fn stop_with_code(&self, code: i32) {
let _ = self.sys.unbounded_send(SystemCommand::Exit(code));
let _ = self.sys.send(SystemCommand::Exit(code));
}
pub(crate) fn sys(&self) -> &UnboundedSender<SystemCommand> {
@@ -138,7 +254,7 @@ impl System {
/// Function `f` get called within tokio runtime context.
pub fn run<F>(f: F) -> io::Result<()>
where
F: FnOnce() + 'static,
F: FnOnce(),
{
Self::builder().run(f)
}

110
actix-rt/tests/integration_tests.rs
View File

@@ -1,25 +1,11 @@
use std::time::{Duration, Instant};
#[test]
fn start_and_stop() {
actix_rt::System::new("start_and_stop").block_on(async move {
assert!(
actix_rt::Arbiter::is_running(),
"System doesn't seem to have started"
);
});
assert!(
!actix_rt::Arbiter::is_running(),
"System doesn't seem to have stopped"
);
}
#[test]
fn await_for_timer() {
let time = Duration::from_secs(2);
let instant = Instant::now();
actix_rt::System::new("test_wait_timer").block_on(async move {
tokio::time::delay_for(time).await;
tokio::time::sleep(time).await;
});
assert!(
instant.elapsed() >= time,
@@ -34,7 +20,7 @@ fn join_another_arbiter() {
actix_rt::System::new("test_join_another_arbiter").block_on(async move {
let mut arbiter = actix_rt::Arbiter::new();
arbiter.send(Box::pin(async move {
tokio::time::delay_for(time).await;
tokio::time::sleep(time).await;
actix_rt::Arbiter::current().stop();
}));
arbiter.join().unwrap();
@@ -49,7 +35,7 @@ fn join_another_arbiter() {
let mut arbiter = actix_rt::Arbiter::new();
arbiter.exec_fn(move || {
actix_rt::spawn(async move {
tokio::time::delay_for(time).await;
tokio::time::sleep(time).await;
actix_rt::Arbiter::current().stop();
});
});
@@ -64,7 +50,7 @@ fn join_another_arbiter() {
actix_rt::System::new("test_join_another_arbiter").block_on(async move {
let mut arbiter = actix_rt::Arbiter::new();
arbiter.send(Box::pin(async move {
tokio::time::delay_for(time).await;
tokio::time::sleep(time).await;
actix_rt::Arbiter::current().stop();
}));
arbiter.stop();
@@ -76,39 +62,65 @@ fn join_another_arbiter() {
);
}
// #[test]
// fn join_current_arbiter() {
// let time = Duration::from_secs(2);
//
// let instant = Instant::now();
// actix_rt::System::new("test_join_current_arbiter").block_on(async move {
// actix_rt::spawn(async move {
// tokio::time::delay_for(time).await;
// actix_rt::Arbiter::current().stop();
// });
// actix_rt::Arbiter::local_join().await;
// });
// assert!(
// instant.elapsed() >= time,
// "Join on current arbiter should wait for all spawned futures"
// );
//
// let large_timer = Duration::from_secs(20);
// let instant = Instant::now();
// actix_rt::System::new("test_join_current_arbiter").block_on(async move {
// actix_rt::spawn(async move {
// tokio::time::delay_for(time).await;
// actix_rt::Arbiter::current().stop();
// });
// let f = actix_rt::Arbiter::local_join();
// actix_rt::spawn(async move {
// tokio::time::delay_for(large_timer).await;
// actix_rt::Arbiter::current().stop();
// });
// f.await;
// });
// assert!(
// instant.elapsed() < large_timer,
// "local_join should await only for the already spawned futures"
// );
// }
#[test]
fn join_current_arbiter() {
let time = Duration::from_secs(2);
fn non_static_block_on() {
let string = String::from("test_str");
let str = string.as_str();
let instant = Instant::now();
actix_rt::System::new("test_join_current_arbiter").block_on(async move {
actix_rt::spawn(async move {
tokio::time::delay_for(time).await;
actix_rt::Arbiter::current().stop();
});
actix_rt::Arbiter::local_join().await;
});
assert!(
instant.elapsed() >= time,
"Join on current arbiter should wait for all spawned futures"
);
let sys = actix_rt::System::new("borrow some");
let large_timer = Duration::from_secs(20);
let instant = Instant::now();
actix_rt::System::new("test_join_current_arbiter").block_on(async move {
actix_rt::spawn(async move {
tokio::time::delay_for(time).await;
actix_rt::Arbiter::current().stop();
});
let f = actix_rt::Arbiter::local_join();
actix_rt::spawn(async move {
tokio::time::delay_for(large_timer).await;
actix_rt::Arbiter::current().stop();
});
f.await;
sys.block_on(async {
actix_rt::time::sleep(Duration::from_millis(1)).await;
assert_eq!("test_str", str);
});
assert!(
instant.elapsed() < large_timer,
"local_join should await only for the already spawned futures"
);
let rt = actix_rt::Runtime::new().unwrap();
rt.block_on(async {
actix_rt::time::sleep(Duration::from_millis(1)).await;
assert_eq!("test_str", str);
});
actix_rt::System::run(|| {
assert_eq!("test_str", str);
actix_rt::System::current().stop();
})
.unwrap();
}

155
actix-server/CHANGES.md
View File

@@ -1,216 +1,133 @@
# Changes
## Unreleased
## Unreleased - 2020-xx-xx
* Added explicit info log message on accept queue pause. [#215]
* Prevent double registration of sockets when back-pressure is resolved. [#223]
### Changed
[#215]: https://github.com/actix/actix-net/pull/215
[#223]: https://github.com/actix/actix-net/pull/223
* workers must be greater than 0
## [1.0.3] - 2020-05-19
## 1.0.4 - 2020-09-12
* Update actix-codec to 0.3.0.
* Workers must be greater than 0. [#167]
### Changed
[#167]: https://github.com/actix/actix-net/pull/167
## 1.0.3 - 2020-05-19
* Replace deprecated `net2` crate with `socket2` [#140]
[#140]: https://github.com/actix/actix-net/pull/140
## [1.0.2] - 2020-02-26
### Fixed
## 1.0.2 - 2020-02-26
* Avoid error by calling `reregister()` on Windows [#103]
[#103]: https://github.com/actix/actix-net/pull/103
## [1.0.1] - 2019-12-29
### Changed
## 1.0.1 - 2019-12-29
* Rename `.start()` method to `.run()`
## [1.0.0] - 2019-12-11
### Changed
## 1.0.0 - 2019-12-11
* Use actix-net releases
## [1.0.0-alpha.4] - 2019-12-08
### Changed
## 1.0.0-alpha.4 - 2019-12-08
* Use actix-service 1.0.0-alpha.4
## [1.0.0-alpha.3] - 2019-12-07
### Changed
## 1.0.0-alpha.3 - 2019-12-07
* Migrate to tokio 0.2
### Fixed
* Fix compilation on non-unix platforms
* Better handling server configuration
## [1.0.0-alpha.2] - 2019-12-02
### Changed
## 1.0.0-alpha.2 - 2019-12-02
* Simplify server service (remove actix-server-config)
* Allow to wait on `Server` until server stops
## [0.8.0-alpha.1] - 2019-11-22
### Changed
## 0.8.0-alpha.1 - 2019-11-22
* Migrate to `std::future`
## [0.7.0] - 2019-10-04
### Changed
## 0.7.0 - 2019-10-04
* Update `rustls` to 0.16
* Minimum required Rust version upped to 1.37.0
## [0.6.1] - 2019-09-25
### Added
## 0.6.1 - 2019-09-25
* Add UDS listening support to `ServerBuilder`
## [0.6.0] - 2019-07-18
### Added
## 0.6.0 - 2019-07-18
* Support Unix domain sockets #3
## [0.5.1] - 2019-05-18
### Changed
## 0.5.1 - 2019-05-18
* ServerBuilder::shutdown_timeout() accepts u64
## [0.5.0] - 2019-05-12
### Added
## 0.5.0 - 2019-05-12
* Add `Debug` impl for `SslError`
* Derive debug for `Server` and `ServerCommand`
### Changed
* Upgrade to actix-service 0.4
## [0.4.3] - 2019-04-16
### Added
## 0.4.3 - 2019-04-16
* Re-export `IoStream` trait
### Changed
* Deppend on `ssl` and `rust-tls` features from actix-server-config
* Depend on `ssl` and `rust-tls` features from actix-server-config
## [0.4.2] - 2019-03-30
### Fixed
## 0.4.2 - 2019-03-30
* Fix SIGINT force shutdown
## [0.4.1] - 2019-03-14
### Added
## 0.4.1 - 2019-03-14
* `SystemRuntime::on_start()` - allow to run future before server service initialization
## [0.4.0] - 2019-03-12
### Changed
## 0.4.0 - 2019-03-12
* Use `ServerConfig` for service factory
* Wrap tcp socket to `Io` type
* Upgrade actix-service
## [0.3.1] - 2019-03-04
### Added
## 0.3.1 - 2019-03-04
* Add `ServerBuilder::maxconnrate` sets the maximum per-worker number of concurrent connections
* Add helper ssl error `SslError`
### Changed
* Rename `StreamServiceFactory` to `ServiceFactory`
* Deprecate `StreamServiceFactory`
## [0.3.0] - 2019-03-02
### Changed
## 0.3.0 - 2019-03-02
* Use new `NewService` trait
## [0.2.1] - 2019-02-09
### Changed
## 0.2.1 - 2019-02-09
* Drop service response
## [0.2.0] - 2019-02-01
### Changed
## 0.2.0 - 2019-02-01
* Migrate to actix-service 0.2
* Updated rustls dependency
## [0.1.3] - 2018-12-21
### Fixed
## 0.1.3 - 2018-12-21
* Fix max concurrent connections handling
## [0.1.2] - 2018-12-12
### Changed
## 0.1.2 - 2018-12-12
* rename ServiceConfig::rt() to ServiceConfig::apply()
### Fixed
* Fix back-pressure for concurrent ssl handshakes
## [0.1.1] - 2018-12-11
## 0.1.1 - 2018-12-11
* Fix signal handling on windows
## [0.1.0] - 2018-12-09
## 0.1.0 - 2018-12-09
* Move server to separate crate

16
actix-server/Cargo.toml
View File

@@ -1,8 +1,8 @@
[package]
name = "actix-server"
version = "1.0.3"
version = "1.0.4"
authors = ["Nikolay Kim <fafhrd91@gmail.com>"]
description = "Actix server - General purpose tcp server"
description = "General purpose TCP server built for the Actix ecosystem"
keywords = ["network", "framework", "async", "futures"]
homepage = "https://actix.rs"
repository = "https://github.com/actix/actix-net.git"
@@ -11,7 +11,6 @@ categories = ["network-programming", "asynchronous"]
license = "MIT OR Apache-2.0"
exclude = [".gitignore", ".cargo/config"]
edition = "2018"
workspace = ".."
[lib]
name = "actix_server"
@@ -21,13 +20,13 @@ path = "src/lib.rs"
default = []
[dependencies]
actix-service = "1.0.1"
actix-rt = "1.0.0"
actix-codec = "0.2.0"
actix-utils = "1.0.4"
actix-service = "1.0.6"
actix-rt = "1.1.1"
actix-codec = "0.3.0"
actix-utils = "2.0.0"
log = "0.4"
num_cpus = "1.11"
num_cpus = "1.13"
mio = "0.6.19"
socket2 = "0.3"
futures-channel = { version = "0.3.4", default-features = false }
@@ -42,3 +41,4 @@ mio-uds = { version = "0.6.7" }
bytes = "0.5"
env_logger = "0.7"
actix-testing = "1.0.0"
tokio = { version = "0.2", features = ["io-util"] }

88
actix-server/examples/basic.rs Normal file
View File

@@ -0,0 +1,88 @@
//! Simple composite-service TCP echo server.
//!
//! Using the following command:
//!
//! ```sh
//! nc 127.0.0.1 8080
//! ```
//!
//! Start typing. When you press enter the typed line will be echoed back. The server will log
//! the length of each line it echos and the total size of data sent when the connection is closed.
use std::sync::{
atomic::{AtomicUsize, Ordering},
Arc,
};
use std::{env, io};
use actix_rt::net::TcpStream;
use actix_server::Server;
use actix_service::pipeline_factory;
use bytes::BytesMut;
use futures_util::future::ok;
use log::{error, info};
use tokio::io::{AsyncReadExt, AsyncWriteExt};
#[actix_rt::main]
async fn main() -> io::Result<()> {
env::set_var("RUST_LOG", "actix=trace,basic=trace");
env_logger::init();
let count = Arc::new(AtomicUsize::new(0));
let addr = ("127.0.0.1", 8080);
info!("starting server on port: {}", &addr.0);
// Bind socket address and start worker(s). By default, the server uses the number of available
// logical CPU cores as the worker count. For this reason, the closure passed to bind needs
// to return a service *factory*; so it can be created once per worker.
Server::build()
.bind("echo", addr, move || {
let count = Arc::clone(&count);
let num2 = Arc::clone(&count);
pipeline_factory(move |mut stream: TcpStream| {
let count = Arc::clone(&count);
async move {
let num = count.fetch_add(1, Ordering::SeqCst);
let num = num + 1;
let mut size = 0;
let mut buf = BytesMut::new();
loop {
match stream.read_buf(&mut buf).await {
// end of stream; bail from loop
Ok(0) => break,
// more bytes to process
Ok(bytes_read) => {
info!("[{}] read {} bytes", num, bytes_read);
stream.write_all(&buf[size..]).await.unwrap();
size += bytes_read;
}
// stream error; bail from loop with error
Err(err) => {
error!("Stream Error: {:?}", err);
return Err(());
}
}
}
// send data down service pipeline
Ok((buf.freeze(), size))
}
})
.map_err(|err| error!("Service Error: {:?}", err))
.and_then(move |(_, size)| {
let num = num2.load(Ordering::SeqCst);
info!("[{}] total bytes read: {}", num, size);
ok(size)
})
})?
.workers(1)
.run()
.await
}

6
actix-server/src/accept.rs
View File

@@ -370,6 +370,11 @@ impl Accept {
if !on {
self.backpressure = false;
for (token, info) in self.sockets.iter() {
if info.timeout.is_some() {
// socket will attempt to re-register itself when its timeout completes
continue;
}
if let Err(err) = self.register(token, info) {
error!("Can not resume socket accept process: {}", err);
} else {
@@ -381,6 +386,7 @@ impl Accept {
self.backpressure = true;
for (_, info) in self.sockets.iter() {
let _ = self.poll.deregister(&info.sock);
info!("Accepting connections on {} has been paused", info.addr);
}
}
}

2
actix-server/src/builder.rs
View File

@@ -286,7 +286,7 @@ impl ServerBuilder {
// handle signals
if !self.no_signals {
Signals::start(self.server.clone()).unwrap();
Signals::start(self.server.clone());
}
// start http server actor

41
actix-server/src/config.rs
View File

@@ -2,16 +2,18 @@ use std::collections::HashMap;
use std::{fmt, io, net};
use actix_rt::net::TcpStream;
use actix_service as actix;
use actix_service::{
fn_service, IntoServiceFactory as IntoBaseServiceFactory,
ServiceFactory as BaseServiceFactory,
};
use actix_utils::counter::CounterGuard;
use futures_util::future::{ok, Future, FutureExt, LocalBoxFuture};
use log::error;
use super::builder::bind_addr;
use super::service::{
BoxedServerService, InternalServiceFactory, ServerMessage, StreamService,
};
use super::service::{BoxedServerService, InternalServiceFactory, StreamService};
use super::Token;
use crate::socket::StdStream;
pub struct ServiceConfig {
pub(crate) services: Vec<(String, net::TcpListener)>,
@@ -142,16 +144,14 @@ impl InternalServiceFactory for ConfiguredService {
let name = names.remove(&token).unwrap().0;
res.push((
token,
Box::new(StreamService::new(actix::fn_service(
move |_: TcpStream| {
error!("Service {:?} is not configured", name);
ok::<_, ()>(())
},
))),
Box::new(StreamService::new(fn_service(move |_: TcpStream| {
error!("Service {:?} is not configured", name);
ok::<_, ()>(())
}))),
));
};
}
return Ok(res);
Ok(res)
}
.boxed_local()
}
@@ -209,8 +209,8 @@ impl ServiceRuntime {
/// *ServiceConfig::bind()* or *ServiceConfig::listen()* methods.
pub fn service<T, F>(&mut self, name: &str, service: F)
where
F: actix::IntoServiceFactory<T>,
T: actix::ServiceFactory<Config = (), Request = TcpStream> + 'static,
F: IntoBaseServiceFactory<T, TcpStream>,
T: BaseServiceFactory<TcpStream, Config = ()> + 'static,
T::Future: 'static,
T::Service: 'static,
T::InitError: fmt::Debug,
@@ -238,8 +238,8 @@ impl ServiceRuntime {
}
type BoxedNewService = Box<
dyn actix::ServiceFactory<
Request = (Option<CounterGuard>, ServerMessage),
dyn BaseServiceFactory<
(Option<CounterGuard>, StdStream),
Response = (),
Error = (),
InitError = (),
@@ -253,32 +253,31 @@ struct ServiceFactory<T> {
inner: T,
}
impl<T> actix::ServiceFactory for ServiceFactory<T>
impl<T> BaseServiceFactory<(Option<CounterGuard>, StdStream)> for ServiceFactory<T>
where
T: actix::ServiceFactory<Config = (), Request = TcpStream>,
T: BaseServiceFactory<TcpStream, Config = ()>,
T::Future: 'static,
T::Service: 'static,
T::Error: 'static,
T::InitError: fmt::Debug + 'static,
{
type Request = (Option<CounterGuard>, ServerMessage);
type Response = ();
type Error = ();
type InitError = ();
type Config = ();
type Service = BoxedServerService;
type InitError = ();
type Future = LocalBoxFuture<'static, Result<BoxedServerService, ()>>;
fn new_service(&self, _: ()) -> Self::Future {
let fut = self.inner.new_service(());
async move {
return match fut.await {
match fut.await {
Ok(s) => Ok(Box::new(StreamService::new(s)) as BoxedServerService),
Err(e) => {
error!("Can not construct service: {:?}", e);
Err(())
}
};
}
}
.boxed_local()
}

10
actix-server/src/lib.rs
View File

@@ -1,6 +1,8 @@
//! General purpose tcp server
#![deny(rust_2018_idioms, warnings)]
#![allow(clippy::type_complexity)]
//! General purpose TCP server.
#![deny(rust_2018_idioms, nonstandard_style)]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
mod accept;
mod builder;
@@ -19,7 +21,7 @@ pub use self::service::ServiceFactory;
#[doc(hidden)]
pub use self::socket::FromStream;
/// Socket id token
/// Socket ID token
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
pub(crate) struct Token(usize);

85
actix-server/src/service.rs
View File

@@ -1,10 +1,9 @@
use std::marker::PhantomData;
use std::net::SocketAddr;
use std::task::{Context, Poll};
use std::time::Duration;
use actix_rt::spawn;
use actix_service::{self as actix, Service, ServiceFactory as ActixServiceFactory};
use actix_service::{Service, ServiceFactory as BaseServiceFactory};
use actix_utils::counter::CounterGuard;
use futures_util::future::{err, ok, LocalBoxFuture, Ready};
use futures_util::{FutureExt, TryFutureExt};
@@ -13,18 +12,8 @@ use log::error;
use super::Token;
use crate::socket::{FromStream, StdStream};
/// Server message
pub(crate) enum ServerMessage {
/// New stream
Connect(StdStream),
/// Gracefull shutdown
Shutdown(Duration),
/// Force shutdown
ForceShutdown,
}
pub trait ServiceFactory<Stream: FromStream>: Send + Clone + 'static {
type Factory: actix::ServiceFactory<Config = (), Request = Stream>;
type Factory: BaseServiceFactory<Stream, Config = ()>;
fn create(&self) -> Self::Factory;
}
@@ -39,31 +28,34 @@ pub(crate) trait InternalServiceFactory: Send {
pub(crate) type BoxedServerService = Box<
dyn Service<
Request = (Option<CounterGuard>, ServerMessage),
(Option<CounterGuard>, StdStream),
Response = (),
Error = (),
Future = Ready<Result<(), ()>>,
>,
>;
pub(crate) struct StreamService<T> {
service: T,
pub(crate) struct StreamService<S, I> {
service: S,
_phantom: PhantomData<I>,
}
impl<T> StreamService<T> {
pub(crate) fn new(service: T) -> Self {
StreamService { service }
impl<S, I> StreamService<S, I> {
pub(crate) fn new(service: S) -> Self {
StreamService {
service,
_phantom: PhantomData,
}
}
}
impl<T, I> Service for StreamService<T>
impl<S, I> Service<(Option<CounterGuard>, StdStream)> for StreamService<S, I>
where
T: Service<Request = I>,
T::Future: 'static,
T::Error: 'static,
S: Service<I>,
S::Future: 'static,
S::Error: 'static,
I: FromStream,
{
type Request = (Option<CounterGuard>, ServerMessage);
type Response = ();
type Error = ();
type Future = Ready<Result<(), ()>>;
@@ -72,25 +64,20 @@ where
self.service.poll_ready(ctx).map_err(|_| ())
}
fn call(&mut self, (guard, req): (Option<CounterGuard>, ServerMessage)) -> Self::Future {
match req {
ServerMessage::Connect(stream) => {
let stream = FromStream::from_stdstream(stream).map_err(|e| {
error!("Can not convert to an async tcp stream: {}", e);
fn call(&mut self, (guard, req): (Option<CounterGuard>, StdStream)) -> Self::Future {
match FromStream::from_stdstream(req) {
Ok(stream) => {
let f = self.service.call(stream);
spawn(async move {
let _ = f.await;
drop(guard);
});
if let Ok(stream) = stream {
let f = self.service.call(stream);
spawn(async move {
let _ = f.await;
drop(guard);
});
ok(())
} else {
err(())
}
ok(())
}
Err(e) => {
error!("Can not convert to an async tcp stream: {}", e);
err(())
}
_ => ok(()),
}
}
}
@@ -157,24 +144,10 @@ where
}
}
impl InternalServiceFactory for Box<dyn InternalServiceFactory> {
fn name(&self, token: Token) -> &str {
self.as_ref().name(token)
}
fn clone_factory(&self) -> Box<dyn InternalServiceFactory> {
self.as_ref().clone_factory()
}
fn create(&self) -> LocalBoxFuture<'static, Result<Vec<(Token, BoxedServerService)>, ()>> {
self.as_ref().create()
}
}
impl<F, T, I> ServiceFactory<I> for F
where
F: Fn() -> T + Send + Clone + 'static,
T: actix::ServiceFactory<Config = (), Request = I>,
T: BaseServiceFactory<I, Config = ()>,
I: FromStream,
{
type Factory = T;

7
actix-server/src/signals.rs
View File

@@ -1,5 +1,4 @@
use std::future::Future;
use std::io;
use std::pin::Pin;
use std::task::{Context, Poll};
@@ -24,13 +23,13 @@ pub(crate) enum Signal {
pub(crate) struct Signals {
srv: Server,
#[cfg(not(unix))]
stream: Pin<Box<dyn Future<Output = io::Result<()>>>>,
stream: Pin<Box<dyn Future<Output = std::io::Result<()>>>>,
#[cfg(unix)]
streams: Vec<(Signal, actix_rt::signal::unix::Signal)>,
}
impl Signals {
pub(crate) fn start(srv: Server) -> io::Result<()> {
pub(crate) fn start(srv: Server) {
actix_rt::spawn(lazy(|_| {
#[cfg(not(unix))]
{
@@ -66,8 +65,6 @@ impl Signals {
actix_rt::spawn(Signals { srv, streams })
}
}));
Ok(())
}
}

18
actix-server/src/worker.rs
View File

@@ -14,7 +14,7 @@ use futures_util::{future::Future, stream::Stream, FutureExt, TryFutureExt};
use log::{error, info, trace};
use crate::accept::AcceptNotify;
use crate::service::{BoxedServerService, InternalServiceFactory, ServerMessage};
use crate::service::{BoxedServerService, InternalServiceFactory};
use crate::socket::{SocketAddr, StdStream};
use crate::Token;
@@ -228,23 +228,12 @@ impl Worker {
self.services.iter_mut().for_each(|srv| {
if srv.status == WorkerServiceStatus::Available {
srv.status = WorkerServiceStatus::Stopped;
actix_rt::spawn(
srv.service
.call((None, ServerMessage::ForceShutdown))
.map(|_| ()),
);
}
});
} else {
let timeout = self.shutdown_timeout;
self.services.iter_mut().for_each(move |srv| {
if srv.status == WorkerServiceStatus::Available {
srv.status = WorkerServiceStatus::Stopping;
actix_rt::spawn(
srv.service
.call((None, ServerMessage::Shutdown(timeout)))
.map(|_| ()),
);
}
});
}
@@ -303,6 +292,7 @@ enum WorkerState {
Restarting(
usize,
Token,
#[allow(clippy::type_complexity)]
Pin<Box<dyn Future<Output = Result<Vec<(Token, BoxedServerService)>, ()>>>>,
),
Shutdown(
@@ -360,7 +350,7 @@ impl Future for Worker {
let guard = self.conns.get();
let _ = self.services[conn.token.0]
.service
.call((Some(guard), ServerMessage::Connect(conn.io)));
.call((Some(guard), conn.io));
} else {
self.state = WorkerState::Available;
self.availability.set(true);
@@ -454,7 +444,7 @@ impl Future for Worker {
let guard = self.conns.get();
let _ = self.services[msg.token.0]
.service
.call((Some(guard), ServerMessage::Connect(msg.io)));
.call((Some(guard), msg.io));
continue;
}
Ok(false) => {

107
actix-server/tests/test_server.rs
View File

@@ -22,13 +22,16 @@ fn test_bind() {
let (tx, rx) = mpsc::channel();
let h = thread::spawn(move || {
let sys = actix_rt::System::new("test");
let srv = Server::build()
.workers(1)
.disable_signals()
.bind("test", addr, move || fn_service(|_| ok::<_, ()>(())))
.unwrap()
.start();
let mut sys = actix_rt::System::new("test");
let srv = sys.block_on(lazy(|_| {
Server::build()
.workers(1)
.disable_signals()
.bind("test", addr, move || fn_service(|_| ok::<_, ()>(())))
.unwrap()
.start()
}));
let _ = tx.send((srv, actix_rt::System::current()));
let _ = sys.run();
});
@@ -46,14 +49,16 @@ fn test_listen() {
let (tx, rx) = mpsc::channel();
let h = thread::spawn(move || {
let sys = actix_rt::System::new("test");
let mut sys = actix_rt::System::new("test");
let lst = net::TcpListener::bind(addr).unwrap();
Server::build()
.disable_signals()
.workers(1)
.listen("test", lst, move || fn_service(|_| ok::<_, ()>(())))
.unwrap()
.start();
sys.block_on(lazy(|_| {
Server::build()
.disable_signals()
.workers(1)
.listen("test", lst, move || fn_service(|_| ok::<_, ()>(())))
.unwrap()
.start()
}));
let _ = tx.send(actix_rt::System::current());
let _ = sys.run();
});
@@ -78,19 +83,21 @@ fn test_start() {
let (tx, rx) = mpsc::channel();
let h = thread::spawn(move || {
let sys = actix_rt::System::new("test");
let srv: Server = Server::build()
.backlog(100)
.disable_signals()
.bind("test", addr, move || {
fn_service(|io: TcpStream| async move {
let mut f = Framed::new(io, BytesCodec);
f.send(Bytes::from_static(b"test")).await.unwrap();
Ok::<_, ()>(())
let mut sys = actix_rt::System::new("test");
let srv = sys.block_on(lazy(|_| {
Server::build()
.backlog(100)
.disable_signals()
.bind("test", addr, move || {
fn_service(|io: TcpStream| async move {
let mut f = Framed::new(io, BytesCodec);
f.send(Bytes::from_static(b"test")).await.unwrap();
Ok::<_, ()>(())
})
})
})
.unwrap()
.start();
.unwrap()
.start()
}));
let _ = tx.send((srv, actix_rt::System::current()));
let _ = sys.run();
@@ -144,29 +151,31 @@ fn test_configure() {
let h = thread::spawn(move || {
let num = num2.clone();
let sys = actix_rt::System::new("test");
let srv = Server::build()
.disable_signals()
.configure(move |cfg| {
let num = num.clone();
let lst = net::TcpListener::bind(addr3).unwrap();
cfg.bind("addr1", addr1)
.unwrap()
.bind("addr2", addr2)
.unwrap()
.listen("addr3", lst)
.apply(move |rt| {
let num = num.clone();
rt.service("addr1", fn_service(|_| ok::<_, ()>(())));
rt.service("addr3", fn_service(|_| ok::<_, ()>(())));
rt.on_start(lazy(move |_| {
let _ = num.fetch_add(1, Relaxed);
}))
})
})
.unwrap()
.workers(1)
.start();
let mut sys = actix_rt::System::new("test");
let srv = sys.block_on(lazy(|_| {
Server::build()
.disable_signals()
.configure(move |cfg| {
let num = num.clone();
let lst = net::TcpListener::bind(addr3).unwrap();
cfg.bind("addr1", addr1)
.unwrap()
.bind("addr2", addr2)
.unwrap()
.listen("addr3", lst)
.apply(move |rt| {
let num = num.clone();
rt.service("addr1", fn_service(|_| ok::<_, ()>(())));
rt.service("addr3", fn_service(|_| ok::<_, ()>(())));
rt.on_start(lazy(move |_| {
let _ = num.fetch_add(1, Relaxed);
}))
})
})
.unwrap()
.workers(1)
.start()
}));
let _ = tx.send((srv, actix_rt::System::current()));
let _ = sys.run();
});

20
actix-service/CHANGES.md
View File

@@ -3,11 +3,29 @@
## Unreleased - 2020-xx-xx
## 2.0.0-beta.1 - 2020-12-28
* `Service`, other traits, and many type signatures now take the the request type as a type
parameter instead of an associated type. [#232]
* Add `always_ready!` and `forward_ready!` macros. [#233]
* Crate is now `no_std`. [#233]
* Migrate pin projections to `pin-project-lite`. [#233]
* Remove `AndThenApplyFn` and Pipeline `and_then_apply_fn`. Use the
`.and_then(apply_fn(...))` construction. [#233]
* Move non-vital methods to `ServiceExt` and `ServiceFactoryExt` extension traits. [#235]
[#232]: https://github.com/actix/actix-net/pull/232
[#233]: https://github.com/actix/actix-net/pull/233
[#235]: https://github.com/actix/actix-net/pull/235
## 1.0.6 - 2020-08-09
### Fixed
* Removed unsound custom Cell implementation that allowed obtaining several mutable references to the same data, which is undefined behavior in Rust and could lead to violations of memory safety. External code could obtain several mutable references to the same data through service combinators. Attempts to acquire several mutable references to the same data will instead result in a panic.
* Removed unsound custom Cell implementation that allowed obtaining several mutable references to
the same data, which is undefined behavior in Rust and could lead to violations of memory safety. External code could obtain several mutable references to the same data through
service combinators. Attempts to acquire several mutable references to the same data will instead
result in a panic.
## [1.0.5] - 2020-01-16

21
actix-service/Cargo.toml
View File

@@ -1,7 +1,10 @@
[package]
name = "actix-service"
version = "1.0.6"
authors = ["Nikolay Kim <fafhrd91@gmail.com>"]
version = "2.0.0-beta.1"
authors = [
"Nikolay Kim <fafhrd91@gmail.com>",
"Rob Ede <robjtede@icloud.com>",
]
description = "Service trait and combinators for representing asynchronous request/response operations."
keywords = ["network", "framework", "async", "futures", "service"]
homepage = "https://actix.rs"
@@ -17,17 +20,9 @@ name = "actix_service"
path = "src/lib.rs"
[dependencies]
futures-util = "0.3.1"
pin-project = "0.4.17"
futures-core = { version = "0.3.7", default-features = false }
pin-project-lite = "0.2"
[dev-dependencies]
actix-rt = "1.0.0"
criterion = "0.3"
[[bench]]
name = "unsafecell_vs_refcell"
harness = false
[[bench]]
name = "and_then"
harness = false
futures-util = { version = "0.3.7", default-features = false }

2
actix-service/README.md
View File

@@ -2,6 +2,6 @@
> Service trait and combinators for representing asynchronous request/response operations.
See documentation for detailed explanations these components: [https://docs.rs/actix-service](docs).
See documentation for detailed explanations these components: [https://docs.rs/actix-service][docs].
[docs]: https://docs.rs/actix-service

332
actix-service/benches/and_then.rs
View File

@@ -1,332 +0,0 @@
use actix_service::boxed::BoxFuture;
use actix_service::IntoService;
use actix_service::Service;
/// Benchmark various implementations of and_then
use criterion::{criterion_main, Criterion};
use futures_util::future::join_all;
use futures_util::future::TryFutureExt;
use std::cell::{RefCell, UnsafeCell};
use std::future::Future;
use std::pin::Pin;
use std::rc::Rc;
use std::task::{Context, Poll};
/*
* Test services A,B for AndThen service implementations
*/
async fn svc1(_: ()) -> Result<usize, ()> {
Ok(1)
}
async fn svc2(req: usize) -> Result<usize, ()> {
Ok(req + 1)
}
/*
* AndThenUC - original AndThen service based on UnsafeCell
* Cut down version of actix_service::AndThenService based on actix-service::Cell
*/
struct AndThenUC<A, B>(Rc<UnsafeCell<(A, B)>>);
impl<A, B> AndThenUC<A, B> {
fn new(a: A, b: B) -> Self
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
Self(Rc::new(UnsafeCell::new((a, b))))
}
}
impl<A, B> Clone for AndThenUC<A, B> {
fn clone(&self) -> Self {
Self(self.0.clone())
}
}
impl<A, B> Service for AndThenUC<A, B>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
type Request = A::Request;
type Response = B::Response;
type Error = A::Error;
type Future = AndThenServiceResponse<A, B>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
fn call(&mut self, req: A::Request) -> Self::Future {
let fut = unsafe { &mut *(*self.0).get() }.0.call(req);
AndThenServiceResponse {
state: State::A(fut, Some(self.0.clone())),
}
}
}
#[pin_project::pin_project]
pub(crate) struct AndThenServiceResponse<A, B>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
#[pin]
state: State<A, B>,
}
#[pin_project::pin_project(project = StateProj)]
enum State<A, B>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
A(#[pin] A::Future, Option<Rc<UnsafeCell<(A, B)>>>),
B(#[pin] B::Future),
Empty,
}
impl<A, B> Future for AndThenServiceResponse<A, B>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
type Output = Result<B::Response, A::Error>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let mut this = self.as_mut().project();
match this.state.as_mut().project() {
StateProj::A(fut, b) => match fut.poll(cx)? {
Poll::Ready(res) => {
let b = b.take().unwrap();
this.state.set(State::Empty); // drop fut A
let fut = unsafe { &mut (*b.get()).1 }.call(res);
this.state.set(State::B(fut));
self.poll(cx)
}
Poll::Pending => Poll::Pending,
},
StateProj::B(fut) => fut.poll(cx).map(|r| {
this.state.set(State::Empty);
r
}),
StateProj::Empty => {
panic!("future must not be polled after it returned `Poll::Ready`")
}
}
}
}
/*
* AndThenRC - AndThen service based on RefCell
*/
struct AndThenRC<A, B>(Rc<RefCell<(A, B)>>);
impl<A, B> AndThenRC<A, B> {
fn new(a: A, b: B) -> Self
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
Self(Rc::new(RefCell::new((a, b))))
}
}
impl<A, B> Clone for AndThenRC<A, B> {
fn clone(&self) -> Self {
Self(self.0.clone())
}
}
impl<A, B> Service for AndThenRC<A, B>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
type Request = A::Request;
type Response = B::Response;
type Error = A::Error;
type Future = AndThenServiceResponseRC<A, B>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
fn call(&mut self, req: A::Request) -> Self::Future {
let fut = self.0.borrow_mut().0.call(req);
AndThenServiceResponseRC {
state: StateRC::A(fut, Some(self.0.clone())),
}
}
}
#[pin_project::pin_project]
pub(crate) struct AndThenServiceResponseRC<A, B>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
#[pin]
state: StateRC<A, B>,
}
#[pin_project::pin_project(project = StateRCProj)]
enum StateRC<A, B>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
A(#[pin] A::Future, Option<Rc<RefCell<(A, B)>>>),
B(#[pin] B::Future),
Empty,
}
impl<A, B> Future for AndThenServiceResponseRC<A, B>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
type Output = Result<B::Response, A::Error>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let mut this = self.as_mut().project();
match this.state.as_mut().project() {
StateRCProj::A(fut, b) => match fut.poll(cx)? {
Poll::Ready(res) => {
let b = b.take().unwrap();
this.state.set(StateRC::Empty); // drop fut A
let fut = b.borrow_mut().1.call(res);
this.state.set(StateRC::B(fut));
self.poll(cx)
}
Poll::Pending => Poll::Pending,
},
StateRCProj::B(fut) => fut.poll(cx).map(|r| {
this.state.set(StateRC::Empty);
r
}),
StateRCProj::Empty => {
panic!("future must not be polled after it returned `Poll::Ready`")
}
}
}
}
/*
* AndThenRCFuture - AndThen service based on RefCell
* and standard futures::future::and_then combinator in a Box
*/
struct AndThenRCFuture<A, B>(Rc<RefCell<(A, B)>>);
impl<A, B> AndThenRCFuture<A, B> {
fn new(a: A, b: B) -> Self
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
Self(Rc::new(RefCell::new((a, b))))
}
}
impl<A, B> Clone for AndThenRCFuture<A, B> {
fn clone(&self) -> Self {
Self(self.0.clone())
}
}
impl<A, B> Service for AndThenRCFuture<A, B>
where
A: Service + 'static,
A::Future: 'static,
B: Service<Request = A::Response, Error = A::Error> + 'static,
B::Future: 'static,
{
type Request = A::Request;
type Response = B::Response;
type Error = A::Error;
type Future = BoxFuture<Self::Response, Self::Error>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
fn call(&mut self, req: A::Request) -> Self::Future {
let fut = self.0.borrow_mut().0.call(req);
let core = self.0.clone();
let fut2 = move |res| (*core).borrow_mut().1.call(res);
Box::pin(fut.and_then(fut2))
}
}
/// Criterion Benchmark for async Service
/// Should be used from within criterion group:
/// ```rust,ignore
/// let mut criterion: ::criterion::Criterion<_> =
/// ::criterion::Criterion::default().configure_from_args();
/// bench_async_service(&mut criterion, ok_service(), "async_service_direct");
/// ```
///
/// Usable for benching Service wrappers:
/// Using minimum service code implementation we first measure
/// time to run minimum service, then measure time with wrapper.
///
/// Sample output
/// async_service_direct time: [1.0908 us 1.1656 us 1.2613 us]
pub fn bench_async_service<S>(c: &mut Criterion, srv: S, name: &str)
where
S: Service<Request = (), Response = usize, Error = ()> + Clone + 'static,
{
let mut rt = actix_rt::System::new("test");
// start benchmark loops
c.bench_function(name, move |b| {
b.iter_custom(|iters| {
let mut srvs: Vec<_> = (1..iters).map(|_| srv.clone()).collect();
// exclude request generation, it appears it takes significant time vs call (3us vs 1us)
let start = std::time::Instant::now();
// benchmark body
rt.block_on(async move { join_all(srvs.iter_mut().map(|srv| srv.call(()))).await });
// check that at least first request succeeded
start.elapsed()
})
});
}
pub fn service_benches() {
let mut criterion: ::criterion::Criterion<_> =
::criterion::Criterion::default().configure_from_args();
bench_async_service(
&mut criterion,
AndThenUC::new(svc1.into_service(), svc2.into_service()),
"AndThen with UnsafeCell",
);
bench_async_service(
&mut criterion,
AndThenRC::new(svc1.into_service(), svc2.into_service()),
"AndThen with RefCell",
);
bench_async_service(
&mut criterion,
AndThenUC::new(svc1.into_service(), svc2.into_service()),
"AndThen with UnsafeCell",
);
bench_async_service(
&mut criterion,
AndThenRC::new(svc1.into_service(), svc2.into_service()),
"AndThen with RefCell",
);
bench_async_service(
&mut criterion,
AndThenRCFuture::new(svc1.into_service(), svc2.into_service()),
"AndThen with RefCell via future::and_then",
);
}
criterion_main!(service_benches);

112
actix-service/benches/unsafecell_vs_refcell.rs
View File

@@ -1,112 +0,0 @@
use actix_service::Service;
use criterion::{criterion_main, Criterion};
use futures_util::future::join_all;
use futures_util::future::{ok, Ready};
use std::cell::{RefCell, UnsafeCell};
use std::rc::Rc;
use std::task::{Context, Poll};
struct SrvUC(Rc<UnsafeCell<usize>>);
impl Default for SrvUC {
fn default() -> Self {
Self(Rc::new(UnsafeCell::new(0)))
}
}
impl Clone for SrvUC {
fn clone(&self) -> Self {
Self(self.0.clone())
}
}
impl Service for SrvUC {
type Request = ();
type Response = usize;
type Error = ();
type Future = Ready<Result<Self::Response, ()>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
fn call(&mut self, _: ()) -> Self::Future {
unsafe { *(*self.0).get() = *(*self.0).get() + 1 };
ok(unsafe { *self.0.get() })
}
}
struct SrvRC(Rc<RefCell<usize>>);
impl Default for SrvRC {
fn default() -> Self {
Self(Rc::new(RefCell::new(0)))
}
}
impl Clone for SrvRC {
fn clone(&self) -> Self {
Self(self.0.clone())
}
}
impl Service for SrvRC {
type Request = ();
type Response = usize;
type Error = ();
type Future = Ready<Result<Self::Response, ()>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
fn call(&mut self, _: ()) -> Self::Future {
let prev = *self.0.borrow();
*(*self.0).borrow_mut() = prev + 1;
ok(*self.0.borrow())
}
}
/// Criterion Benchmark for async Service
/// Should be used from within criterion group:
/// ```rust,ignore
/// let mut criterion: ::criterion::Criterion<_> =
/// ::criterion::Criterion::default().configure_from_args();
/// bench_async_service(&mut criterion, ok_service(), "async_service_direct");
/// ```
///
/// Usable for benching Service wrappers:
/// Using minimum service code implementation we first measure
/// time to run minimum service, then measure time with wrapper.
///
/// Sample output
/// async_service_direct time: [1.0908 us 1.1656 us 1.2613 us]
pub fn bench_async_service<S>(c: &mut Criterion, srv: S, name: &str)
where
S: Service<Request = (), Response = usize, Error = ()> + Clone + 'static,
{
let mut rt = actix_rt::System::new("test");
// start benchmark loops
c.bench_function(name, move |b| {
b.iter_custom(|iters| {
let mut srvs: Vec<_> = (1..iters).map(|_| srv.clone()).collect();
// exclude request generation, it appears it takes significant time vs call (3us vs 1us)
let start = std::time::Instant::now();
// benchmark body
rt.block_on(async move { join_all(srvs.iter_mut().map(|srv| srv.call(()))).await });
// check that at least first request succeeded
start.elapsed()
})
});
}
pub fn service_benches() {
let mut criterion: ::criterion::Criterion<_> =
::criterion::Criterion::default().configure_from_args();
bench_async_service(&mut criterion, SrvUC::default(), "Service with UnsafeCell");
bench_async_service(&mut criterion, SrvRC::default(), "Service with RefCell");
bench_async_service(&mut criterion, SrvUC::default(), "Service with UnsafeCell");
bench_async_service(&mut criterion, SrvRC::default(), "Service with RefCell");
}
criterion_main!(service_benches);

194
actix-service/src/and_then.rs
View File

@@ -1,43 +1,47 @@
use std::cell::RefCell;
use std::future::Future;
use std::pin::Pin;
use std::rc::Rc;
use std::task::{Context, Poll};
use alloc::rc::Rc;
use core::{
cell::RefCell,
future::Future,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use pin_project_lite::pin_project;
use super::{Service, ServiceFactory};
/// Service for the `and_then` combinator, chaining a computation onto the end
/// of another service which completes successfully.
///
/// This is created by the `ServiceExt::and_then` method.
pub(crate) struct AndThenService<A, B>(Rc<RefCell<(A, B)>>);
/// This is created by the `Pipeline::and_then` method.
pub(crate) struct AndThenService<A, B, Req>(Rc<RefCell<(A, B)>>, PhantomData<Req>);
impl<A, B> AndThenService<A, B> {
impl<A, B, Req> AndThenService<A, B, Req> {
/// Create new `AndThen` combinator
pub(crate) fn new(a: A, b: B) -> Self
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
A: Service<Req>,
B: Service<A::Response, Error = A::Error>,
{
Self(Rc::new(RefCell::new((a, b))))
Self(Rc::new(RefCell::new((a, b))), PhantomData)
}
}
impl<A, B> Clone for AndThenService<A, B> {
impl<A, B, Req> Clone for AndThenService<A, B, Req> {
fn clone(&self) -> Self {
AndThenService(self.0.clone())
AndThenService(self.0.clone(), PhantomData)
}
}
impl<A, B> Service for AndThenService<A, B>
impl<A, B, Req> Service<Req> for AndThenService<A, B, Req>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
A: Service<Req>,
B: Service<A::Response, Error = A::Error>,
{
type Request = A::Request;
type Response = B::Response;
type Error = A::Error;
type Future = AndThenServiceResponse<A, B>;
type Future = AndThenServiceResponse<A, B, Req>;
fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
let mut srv = self.0.borrow_mut();
@@ -49,38 +53,51 @@ where
}
}
fn call(&mut self, req: A::Request) -> Self::Future {
fn call(&mut self, req: Req) -> Self::Future {
AndThenServiceResponse {
state: State::A(self.0.borrow_mut().0.call(req), Some(self.0.clone())),
state: State::A {
fut: self.0.borrow_mut().0.call(req),
b: Some(self.0.clone()),
},
}
}
}
#[pin_project::pin_project]
pub(crate) struct AndThenServiceResponse<A, B>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
#[pin]
state: State<A, B>,
pin_project! {
pub(crate) struct AndThenServiceResponse<A, B, Req>
where
A: Service<Req>,
B: Service<A::Response, Error = A::Error>,
{
#[pin]
state: State<A, B, Req>,
}
}
#[pin_project::pin_project(project = StateProj)]
enum State<A, B>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
{
A(#[pin] A::Future, Option<Rc<RefCell<(A, B)>>>),
B(#[pin] B::Future),
Empty,
pin_project! {
#[project = StateProj]
enum State<A, B, Req>
where
A: Service<Req>,
B: Service<A::Response, Error = A::Error>,
{
A {
#[pin]
fut: A::Future,
b: Option<Rc<RefCell<(A, B)>>>,
},
B {
#[pin]
fut: B::Future,
},
Empty,
}
}
impl<A, B> Future for AndThenServiceResponse<A, B>
impl<A, B, Req> Future for AndThenServiceResponse<A, B, Req>
where
A: Service,
B: Service<Request = A::Response, Error = A::Error>,
A: Service<Req>,
B: Service<A::Response, Error = A::Error>,
{
type Output = Result<B::Response, A::Error>;
@@ -88,17 +105,17 @@ where
let mut this = self.as_mut().project();
match this.state.as_mut().project() {
StateProj::A(fut, b) => match fut.poll(cx)? {
StateProj::A { fut, b } => match fut.poll(cx)? {
Poll::Ready(res) => {
let b = b.take().unwrap();
this.state.set(State::Empty); // drop fut A
let fut = b.borrow_mut().1.call(res);
this.state.set(State::B(fut));
this.state.set(State::B { fut });
self.poll(cx)
}
Poll::Pending => Poll::Pending,
},
StateProj::B(fut) => fut.poll(cx).map(|r| {
StateProj::B { fut } => fut.poll(cx).map(|r| {
this.state.set(State::Empty);
r
}),
@@ -110,27 +127,28 @@ where
}
/// `.and_then()` service factory combinator
pub(crate) struct AndThenServiceFactory<A, B>
pub(crate) struct AndThenServiceFactory<A, B, Req>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
A::Config: Clone,
B: ServiceFactory<
A::Response,
Config = A::Config,
Request = A::Response,
Error = A::Error,
InitError = A::InitError,
>,
{
inner: Rc<(A, B)>,
_phantom: PhantomData<Req>,
}
impl<A, B> AndThenServiceFactory<A, B>
impl<A, B, Req> AndThenServiceFactory<A, B, Req>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
A::Config: Clone,
B: ServiceFactory<
A::Response,
Config = A::Config,
Request = A::Response,
Error = A::Error,
InitError = A::InitError,
>,
@@ -139,29 +157,29 @@ where
pub(crate) fn new(a: A, b: B) -> Self {
Self {
inner: Rc::new((a, b)),
_phantom: PhantomData,
}
}
}
impl<A, B> ServiceFactory for AndThenServiceFactory<A, B>
impl<A, B, Req> ServiceFactory<Req> for AndThenServiceFactory<A, B, Req>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
A::Config: Clone,
B: ServiceFactory<
A::Response,
Config = A::Config,
Request = A::Response,
Error = A::Error,
InitError = A::InitError,
>,
{
type Request = A::Request;
type Response = B::Response;
type Error = A::Error;
type Config = A::Config;
type Service = AndThenService<A::Service, B::Service>;
type Service = AndThenService<A::Service, B::Service, Req>;
type InitError = A::InitError;
type Future = AndThenServiceFactoryResponse<A, B>;
type Future = AndThenServiceFactoryResponse<A, B, Req>;
fn new_service(&self, cfg: A::Config) -> Self::Future {
let inner = &*self.inner;
@@ -172,13 +190,13 @@ where
}
}
impl<A, B> Clone for AndThenServiceFactory<A, B>
impl<A, B, Req> Clone for AndThenServiceFactory<A, B, Req>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
A::Config: Clone,
B: ServiceFactory<
A::Response,
Config = A::Config,
Request = A::Response,
Error = A::Error,
InitError = A::InitError,
>,
@@ -186,29 +204,31 @@ where
fn clone(&self) -> Self {
Self {
inner: self.inner.clone(),
_phantom: PhantomData,
}
}
}
#[pin_project::pin_project]
pub(crate) struct AndThenServiceFactoryResponse<A, B>
where
A: ServiceFactory,
B: ServiceFactory<Request = A::Response>,
{
#[pin]
fut_a: A::Future,
#[pin]
fut_b: B::Future,
pin_project! {
pub(crate) struct AndThenServiceFactoryResponse<A, B, Req>
where
A: ServiceFactory<Req>,
B: ServiceFactory<A::Response>,
{
#[pin]
fut_a: A::Future,
#[pin]
fut_b: B::Future,
a: Option<A::Service>,
b: Option<B::Service>,
a: Option<A::Service>,
b: Option<B::Service>,
}
}
impl<A, B> AndThenServiceFactoryResponse<A, B>
impl<A, B, Req> AndThenServiceFactoryResponse<A, B, Req>
where
A: ServiceFactory,
B: ServiceFactory<Request = A::Response>,
A: ServiceFactory<Req>,
B: ServiceFactory<A::Response>,
{
fn new(fut_a: A::Future, fut_b: B::Future) -> Self {
AndThenServiceFactoryResponse {
@@ -220,12 +240,12 @@ where
}
}
impl<A, B> Future for AndThenServiceFactoryResponse<A, B>
impl<A, B, Req> Future for AndThenServiceFactoryResponse<A, B, Req>
where
A: ServiceFactory,
B: ServiceFactory<Request = A::Response, Error = A::Error, InitError = A::InitError>,
A: ServiceFactory<Req>,
B: ServiceFactory<A::Response, Error = A::Error, InitError = A::InitError>,
{
type Output = Result<AndThenService<A::Service, B::Service>, A::InitError>;
type Output = Result<AndThenService<A::Service, B::Service, Req>, A::InitError>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.project();
@@ -253,18 +273,21 @@ where
#[cfg(test)]
mod tests {
use std::cell::Cell;
use std::rc::Rc;
use std::task::{Context, Poll};
use alloc::rc::Rc;
use core::{
cell::Cell,
task::{Context, Poll},
};
use futures_util::future::{lazy, ok, ready, Ready};
use futures_util::future::lazy;
use crate::{fn_factory, pipeline, pipeline_factory, Service, ServiceFactory};
use crate::{
fn_factory, ok, pipeline, pipeline_factory, ready, Ready, Service, ServiceFactory,
};
struct Srv1(Rc<Cell<usize>>);
impl Service for Srv1 {
type Request = &'static str;
impl Service<&'static str> for Srv1 {
type Response = &'static str;
type Error = ();
type Future = Ready<Result<Self::Response, ()>>;
@@ -282,8 +305,7 @@ mod tests {
#[derive(Clone)]
struct Srv2(Rc<Cell<usize>>);
impl Service for Srv2 {
type Request = &'static str;
impl Service<&'static str> for Srv2 {
type Response = (&'static str, &'static str);
type Error = ();
type Future = Ready<Result<Self::Response, ()>>;

326
actix-service/src/and_then_apply_fn.rs
View File

@@ -1,326 +0,0 @@
use std::cell::RefCell;
use std::future::Future;
use std::marker::PhantomData;
use std::pin::Pin;
use std::rc::Rc;
use std::task::{Context, Poll};
use crate::{Service, ServiceFactory};
/// `Apply` service combinator
pub(crate) struct AndThenApplyFn<A, B, F, Fut, Res, Err>
where
A: Service,
B: Service,
F: FnMut(A::Response, &mut B) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error> + From<B::Error>,
{
srv: Rc<RefCell<(A, B, F)>>,
r: PhantomData<(Fut, Res, Err)>,
}
impl<A, B, F, Fut, Res, Err> AndThenApplyFn<A, B, F, Fut, Res, Err>
where
A: Service,
B: Service,
F: FnMut(A::Response, &mut B) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error> + From<B::Error>,
{
/// Create new `Apply` combinator
pub(crate) fn new(a: A, b: B, f: F) -> Self {
Self {
srv: Rc::new(RefCell::new((a, b, f))),
r: PhantomData,
}
}
}
impl<A, B, F, Fut, Res, Err> Clone for AndThenApplyFn<A, B, F, Fut, Res, Err>
where
A: Service,
B: Service,
F: FnMut(A::Response, &mut B) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error> + From<B::Error>,
{
fn clone(&self) -> Self {
AndThenApplyFn {
srv: self.srv.clone(),
r: PhantomData,
}
}
}
impl<A, B, F, Fut, Res, Err> Service for AndThenApplyFn<A, B, F, Fut, Res, Err>
where
A: Service,
B: Service,
F: FnMut(A::Response, &mut B) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error> + From<B::Error>,
{
type Request = A::Request;
type Response = Res;
type Error = Err;
type Future = AndThenApplyFnFuture<A, B, F, Fut, Res, Err>;
fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
let mut inner = self.srv.borrow_mut();
let not_ready = inner.0.poll_ready(cx)?.is_pending();
if inner.1.poll_ready(cx)?.is_pending() || not_ready {
Poll::Pending
} else {
Poll::Ready(Ok(()))
}
}
fn call(&mut self, req: A::Request) -> Self::Future {
let fut = self.srv.borrow_mut().0.call(req);
AndThenApplyFnFuture {
state: State::A(fut, Some(self.srv.clone())),
}
}
}
#[pin_project::pin_project]
pub(crate) struct AndThenApplyFnFuture<A, B, F, Fut, Res, Err>
where
A: Service,
B: Service,
F: FnMut(A::Response, &mut B) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error>,
Err: From<B::Error>,
{
#[pin]
state: State<A, B, F, Fut, Res, Err>,
}
#[pin_project::pin_project(project = StateProj)]
enum State<A, B, F, Fut, Res, Err>
where
A: Service,
B: Service,
F: FnMut(A::Response, &mut B) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error>,
Err: From<B::Error>,
{
A(#[pin] A::Future, Option<Rc<RefCell<(A, B, F)>>>),
B(#[pin] Fut),
Empty,
}
impl<A, B, F, Fut, Res, Err> Future for AndThenApplyFnFuture<A, B, F, Fut, Res, Err>
where
A: Service,
B: Service,
F: FnMut(A::Response, &mut B) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error> + From<B::Error>,
{
type Output = Result<Res, Err>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let mut this = self.as_mut().project();
match this.state.as_mut().project() {
StateProj::A(fut, b) => match fut.poll(cx)? {
Poll::Ready(res) => {
let b = b.take().unwrap();
this.state.set(State::Empty);
let (_, b, f) = &mut *b.borrow_mut();
let fut = f(res, b);
this.state.set(State::B(fut));
self.poll(cx)
}
Poll::Pending => Poll::Pending,
},
StateProj::B(fut) => fut.poll(cx).map(|r| {
this.state.set(State::Empty);
r
}),
StateProj::Empty => {
panic!("future must not be polled after it returned `Poll::Ready`")
}
}
}
}
/// `AndThenApplyFn` service factory
pub(crate) struct AndThenApplyFnFactory<A, B, F, Fut, Res, Err> {
srv: Rc<(A, B, F)>,
r: PhantomData<(Fut, Res, Err)>,
}
impl<A, B, F, Fut, Res, Err> AndThenApplyFnFactory<A, B, F, Fut, Res, Err>
where
A: ServiceFactory,
B: ServiceFactory<Config = A::Config, InitError = A::InitError>,
F: FnMut(A::Response, &mut B::Service) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error> + From<B::Error>,
{
/// Create new `ApplyNewService` new service instance
pub(crate) fn new(a: A, b: B, f: F) -> Self {
Self {
srv: Rc::new((a, b, f)),
r: PhantomData,
}
}
}
impl<A, B, F, Fut, Res, Err> Clone for AndThenApplyFnFactory<A, B, F, Fut, Res, Err> {
fn clone(&self) -> Self {
Self {
srv: self.srv.clone(),
r: PhantomData,
}
}
}
impl<A, B, F, Fut, Res, Err> ServiceFactory for AndThenApplyFnFactory<A, B, F, Fut, Res, Err>
where
A: ServiceFactory,
A::Config: Clone,
B: ServiceFactory<Config = A::Config, InitError = A::InitError>,
F: FnMut(A::Response, &mut B::Service) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error> + From<B::Error>,
{
type Request = A::Request;
type Response = Res;
type Error = Err;
type Service = AndThenApplyFn<A::Service, B::Service, F, Fut, Res, Err>;
type Config = A::Config;
type InitError = A::InitError;
type Future = AndThenApplyFnFactoryResponse<A, B, F, Fut, Res, Err>;
fn new_service(&self, cfg: A::Config) -> Self::Future {
let srv = &*self.srv;
AndThenApplyFnFactoryResponse {
a: None,
b: None,
f: srv.2.clone(),
fut_a: srv.0.new_service(cfg.clone()),
fut_b: srv.1.new_service(cfg),
}
}
}
#[pin_project::pin_project]
pub(crate) struct AndThenApplyFnFactoryResponse<A, B, F, Fut, Res, Err>
where
A: ServiceFactory,
B: ServiceFactory<Config = A::Config, InitError = A::InitError>,
F: FnMut(A::Response, &mut B::Service) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error>,
Err: From<B::Error>,
{
#[pin]
fut_b: B::Future,
#[pin]
fut_a: A::Future,
f: F,
a: Option<A::Service>,
b: Option<B::Service>,
}
impl<A, B, F, Fut, Res, Err> Future for AndThenApplyFnFactoryResponse<A, B, F, Fut, Res, Err>
where
A: ServiceFactory,
B: ServiceFactory<Config = A::Config, InitError = A::InitError>,
F: FnMut(A::Response, &mut B::Service) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
Err: From<A::Error> + From<B::Error>,
{
type Output =
Result<AndThenApplyFn<A::Service, B::Service, F, Fut, Res, Err>, A::InitError>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.project();
if this.a.is_none() {
if let Poll::Ready(service) = this.fut_a.poll(cx)? {
*this.a = Some(service);
}
}
if this.b.is_none() {
if let Poll::Ready(service) = this.fut_b.poll(cx)? {
*this.b = Some(service);
}
}
if this.a.is_some() && this.b.is_some() {
Poll::Ready(Ok(AndThenApplyFn {
srv: Rc::new(RefCell::new((
this.a.take().unwrap(),
this.b.take().unwrap(),
this.f.clone(),
))),
r: PhantomData,
}))
} else {
Poll::Pending
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use futures_util::future::{lazy, ok, Ready, TryFutureExt};
use crate::{fn_service, pipeline, pipeline_factory, Service, ServiceFactory};
#[derive(Clone)]
struct Srv;
impl Service for Srv {
type Request = ();
type Response = ();
type Error = ();
type Future = Ready<Result<(), ()>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
#[allow(clippy::unit_arg)]
fn call(&mut self, req: Self::Request) -> Self::Future {
ok(req)
}
}
#[actix_rt::test]
async fn test_service() {
let mut srv = pipeline(ok).and_then_apply_fn(Srv, |req: &'static str, s| {
s.call(()).map_ok(move |res| (req, res))
});
let res = lazy(|cx| srv.poll_ready(cx)).await;
assert_eq!(res, Poll::Ready(Ok(())));
let res = srv.call("srv").await;
assert!(res.is_ok());
assert_eq!(res.unwrap(), ("srv", ()));
}
#[actix_rt::test]
async fn test_service_factory() {
let new_srv = pipeline_factory(|| ok::<_, ()>(fn_service(ok))).and_then_apply_fn(
|| ok(Srv),
|req: &'static str, s| s.call(()).map_ok(move |res| (req, res)),
);
let mut srv = new_srv.new_service(()).await.unwrap();
let res = lazy(|cx| srv.poll_ready(cx)).await;
assert_eq!(res, Poll::Ready(Ok(())));
let res = srv.call("srv").await;
assert!(res.is_ok());
assert_eq!(res.unwrap(), ("srv", ()));
}
}

253
actix-service/src/apply.rs
View File

@@ -1,227 +1,230 @@
use std::future::Future;
use std::marker::PhantomData;
use std::pin::Pin;
use std::task::{Context, Poll};
use core::{
future::Future,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use futures_core::ready;
use pin_project_lite::pin_project;
use super::{IntoService, IntoServiceFactory, Service, ServiceFactory};
/// Apply tranform function to a service.
pub fn apply_fn<T, F, R, In, Out, Err, U>(service: U, f: F) -> Apply<T, F, R, In, Out, Err>
/// Apply transform function to a service.
///
/// The In and Out type params refer to the request and response types for the wrapped service.
pub fn apply_fn<I, S, F, Fut, Req, In, Res, Err>(
service: I,
wrap_fn: F,
) -> Apply<S, F, Req, In, Res, Err>
where
T: Service<Error = Err>,
F: FnMut(In, &mut T) -> R,
R: Future<Output = Result<Out, Err>>,
U: IntoService<T>,
I: IntoService<S, In>,
S: Service<In, Error = Err>,
F: FnMut(Req, &mut S) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
{
Apply::new(service.into_service(), f)
Apply::new(service.into_service(), wrap_fn)
}
/// Service factory that prodices `apply_fn` service.
pub fn apply_fn_factory<T, F, R, In, Out, Err, U>(
service: U,
/// Service factory that produces `apply_fn` service.
///
/// The In and Out type params refer to the request and response types for the wrapped service.
pub fn apply_fn_factory<I, SF, F, Fut, Req, In, Res, Err>(
service: I,
f: F,
) -> ApplyServiceFactory<T, F, R, In, Out, Err>
) -> ApplyFactory<SF, F, Req, In, Res, Err>
where
T: ServiceFactory<Error = Err>,
F: FnMut(In, &mut T::Service) -> R + Clone,
R: Future<Output = Result<Out, Err>>,
U: IntoServiceFactory<T>,
I: IntoServiceFactory<SF, In>,
SF: ServiceFactory<In, Error = Err>,
F: FnMut(Req, &mut SF::Service) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
{
ApplyServiceFactory::new(service.into_factory(), f)
ApplyFactory::new(service.into_factory(), f)
}
/// `Apply` service combinator
pub struct Apply<T, F, R, In, Out, Err>
/// `Apply` service combinator.
///
/// The In and Out type params refer to the request and response types for the wrapped service.
pub struct Apply<S, F, Req, In, Res, Err>
where
T: Service<Error = Err>,
S: Service<In, Error = Err>,
{
service: T,
f: F,
r: PhantomData<(In, Out, R)>,
service: S,
wrap_fn: F,
_phantom: PhantomData<(Req, In, Res, Err)>,
}
impl<T, F, R, In, Out, Err> Apply<T, F, R, In, Out, Err>
impl<S, F, Fut, Req, In, Res, Err> Apply<S, F, Req, In, Res, Err>
where
T: Service<Error = Err>,
F: FnMut(In, &mut T) -> R,
R: Future<Output = Result<Out, Err>>,
S: Service<In, Error = Err>,
F: FnMut(Req, &mut S) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
{
/// Create new `Apply` combinator
fn new(service: T, f: F) -> Self {
fn new(service: S, wrap_fn: F) -> Self {
Self {
service,
f,
r: PhantomData,
wrap_fn,
_phantom: PhantomData,
}
}
}
impl<T, F, R, In, Out, Err> Clone for Apply<T, F, R, In, Out, Err>
impl<S, F, Fut, Req, In, Res, Err> Clone for Apply<S, F, Req, In, Res, Err>
where
T: Service<Error = Err> + Clone,
F: FnMut(In, &mut T) -> R + Clone,
R: Future<Output = Result<Out, Err>>,
S: Service<In, Error = Err> + Clone,
F: FnMut(Req, &mut S) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
{
fn clone(&self) -> Self {
Apply {
service: self.service.clone(),
f: self.f.clone(),
r: PhantomData,
wrap_fn: self.wrap_fn.clone(),
_phantom: PhantomData,
}
}
}
impl<T, F, R, In, Out, Err> Service for Apply<T, F, R, In, Out, Err>
impl<S, F, Fut, Req, In, Res, Err> Service<Req> for Apply<S, F, Req, In, Res, Err>
where
T: Service<Error = Err>,
F: FnMut(In, &mut T) -> R,
R: Future<Output = Result<Out, Err>>,
S: Service<In, Error = Err>,
F: FnMut(Req, &mut S) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
{
type Request = In;
type Response = Out;
type Response = Res;
type Error = Err;
type Future = R;
type Future = Fut;
fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(futures_util::ready!(self.service.poll_ready(cx)))
}
crate::forward_ready!(service);
fn call(&mut self, req: In) -> Self::Future {
(self.f)(req, &mut self.service)
fn call(&mut self, req: Req) -> Self::Future {
(self.wrap_fn)(req, &mut self.service)
}
}
/// `apply()` service factory
pub struct ApplyServiceFactory<T, F, R, In, Out, Err>
where
T: ServiceFactory<Error = Err>,
F: FnMut(In, &mut T::Service) -> R + Clone,
R: Future<Output = Result<Out, Err>>,
{
service: T,
f: F,
r: PhantomData<(R, In, Out)>,
/// `ApplyFactory` service factory combinator.
pub struct ApplyFactory<SF, F, Req, In, Res, Err> {
factory: SF,
wrap_fn: F,
_phantom: PhantomData<(Req, In, Res, Err)>,
}
impl<T, F, R, In, Out, Err> ApplyServiceFactory<T, F, R, In, Out, Err>
impl<SF, F, Fut, Req, In, Res, Err> ApplyFactory<SF, F, Req, In, Res, Err>
where
T: ServiceFactory<Error = Err>,
F: FnMut(In, &mut T::Service) -> R + Clone,
R: Future<Output = Result<Out, Err>>,
SF: ServiceFactory<In, Error = Err>,
F: FnMut(Req, &mut SF::Service) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
{
/// Create new `ApplyNewService` new service instance
fn new(service: T, f: F) -> Self {
/// Create new `ApplyFactory` new service instance
fn new(factory: SF, wrap_fn: F) -> Self {
Self {
f,
service,
r: PhantomData,
factory,
wrap_fn,
_phantom: PhantomData,
}
}
}
impl<T, F, R, In, Out, Err> Clone for ApplyServiceFactory<T, F, R, In, Out, Err>
impl<SF, F, Fut, Req, In, Res, Err> Clone for ApplyFactory<SF, F, Req, In, Res, Err>
where
T: ServiceFactory<Error = Err> + Clone,
F: FnMut(In, &mut T::Service) -> R + Clone,
R: Future<Output = Result<Out, Err>>,
SF: ServiceFactory<In, Error = Err> + Clone,
F: FnMut(Req, &mut SF::Service) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
{
fn clone(&self) -> Self {
Self {
service: self.service.clone(),
f: self.f.clone(),
r: PhantomData,
factory: self.factory.clone(),
wrap_fn: self.wrap_fn.clone(),
_phantom: PhantomData,
}
}
}
impl<T, F, R, In, Out, Err> ServiceFactory for ApplyServiceFactory<T, F, R, In, Out, Err>
impl<SF, F, Fut, Req, In, Res, Err> ServiceFactory<Req>
for ApplyFactory<SF, F, Req, In, Res, Err>
where
T: ServiceFactory<Error = Err>,
F: FnMut(In, &mut T::Service) -> R + Clone,
R: Future<Output = Result<Out, Err>>,
SF: ServiceFactory<In, Error = Err>,
F: FnMut(Req, &mut SF::Service) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
{
type Request = In;
type Response = Out;
type Response = Res;
type Error = Err;
type Config = T::Config;
type Service = Apply<T::Service, F, R, In, Out, Err>;
type InitError = T::InitError;
type Future = ApplyServiceFactoryResponse<T, F, R, In, Out, Err>;
type Config = SF::Config;
type Service = Apply<SF::Service, F, Req, In, Res, Err>;
type InitError = SF::InitError;
type Future = ApplyServiceFactoryResponse<SF, F, Fut, Req, In, Res, Err>;
fn new_service(&self, cfg: T::Config) -> Self::Future {
ApplyServiceFactoryResponse::new(self.service.new_service(cfg), self.f.clone())
fn new_service(&self, cfg: SF::Config) -> Self::Future {
let svc = self.factory.new_service(cfg);
ApplyServiceFactoryResponse::new(svc, self.wrap_fn.clone())
}
}
#[pin_project::pin_project]
pub struct ApplyServiceFactoryResponse<T, F, R, In, Out, Err>
where
T: ServiceFactory<Error = Err>,
F: FnMut(In, &mut T::Service) -> R,
R: Future<Output = Result<Out, Err>>,
{
#[pin]
fut: T::Future,
f: Option<F>,
r: PhantomData<(In, Out)>,
pin_project! {
pub struct ApplyServiceFactoryResponse<SF, F, Fut, Req, In, Res, Err>
where
SF: ServiceFactory<In, Error = Err>,
F: FnMut(Req, &mut SF::Service) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
{
#[pin]
fut: SF::Future,
wrap_fn: Option<F>,
_phantom: PhantomData<(Req, Res)>,
}
}
impl<T, F, R, In, Out, Err> ApplyServiceFactoryResponse<T, F, R, In, Out, Err>
impl<SF, F, Fut, Req, In, Res, Err> ApplyServiceFactoryResponse<SF, F, Fut, Req, In, Res, Err>
where
T: ServiceFactory<Error = Err>,
F: FnMut(In, &mut T::Service) -> R,
R: Future<Output = Result<Out, Err>>,
SF: ServiceFactory<In, Error = Err>,
F: FnMut(Req, &mut SF::Service) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
{
fn new(fut: T::Future, f: F) -> Self {
fn new(fut: SF::Future, wrap_fn: F) -> Self {
Self {
f: Some(f),
fut,
r: PhantomData,
wrap_fn: Some(wrap_fn),
_phantom: PhantomData,
}
}
}
impl<T, F, R, In, Out, Err> Future for ApplyServiceFactoryResponse<T, F, R, In, Out, Err>
impl<SF, F, Fut, Req, In, Res, Err> Future
for ApplyServiceFactoryResponse<SF, F, Fut, Req, In, Res, Err>
where
T: ServiceFactory<Error = Err>,
F: FnMut(In, &mut T::Service) -> R,
R: Future<Output = Result<Out, Err>>,
SF: ServiceFactory<In, Error = Err>,
F: FnMut(Req, &mut SF::Service) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
{
type Output = Result<Apply<T::Service, F, R, In, Out, Err>, T::InitError>;
type Output = Result<Apply<SF::Service, F, Req, In, Res, Err>, SF::InitError>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.project();
if let Poll::Ready(svc) = this.fut.poll(cx)? {
Poll::Ready(Ok(Apply::new(svc, this.f.take().unwrap())))
} else {
Poll::Pending
}
let svc = ready!(this.fut.poll(cx))?;
Poll::Ready(Ok(Apply::new(svc, this.wrap_fn.take().unwrap())))
}
}
#[cfg(test)]
mod tests {
use std::task::{Context, Poll};
use core::task::Poll;
use futures_util::future::{lazy, ok, Ready};
use futures_util::future::lazy;
use super::*;
use crate::{pipeline, pipeline_factory, Service, ServiceFactory};
use crate::{ok, pipeline, pipeline_factory, Ready, Service, ServiceFactory};
#[derive(Clone)]
struct Srv;
impl Service for Srv {
type Request = ();
impl Service<()> for Srv {
type Response = ();
type Error = ();
type Future = Ready<Result<(), ()>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
crate::always_ready!();
fn call(&mut self, _: ()) -> Self::Future {
ok(())

254
actix-service/src/apply_cfg.rs
View File

@@ -1,227 +1,237 @@
use std::cell::RefCell;
use std::future::Future;
use std::marker::PhantomData;
use std::pin::Pin;
use std::rc::Rc;
use std::task::{Context, Poll};
use alloc::rc::Rc;
use core::{
cell::RefCell,
future::Future,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use pin_project_lite::pin_project;
use crate::{Service, ServiceFactory};
/// Convert `Fn(Config, &mut Service1) -> Future<Service2>` fn to a service factory
pub fn apply_cfg<F, C, T, R, S, E>(
srv: T,
/// Convert `Fn(Config, &mut Service1) -> Future<Service2>` fn to a service factory.
pub fn apply_cfg<S1, Req, F, Cfg, Fut, S2, Err>(
srv: S1,
f: F,
) -> impl ServiceFactory<
Config = C,
Request = S::Request,
Response = S::Response,
Error = S::Error,
Service = S,
InitError = E,
Future = R,
Req,
Config = Cfg,
Response = S2::Response,
Error = S2::Error,
Service = S2,
InitError = Err,
Future = Fut,
> + Clone
where
F: FnMut(C, &mut T) -> R,
T: Service,
R: Future<Output = Result<S, E>>,
S: Service,
S1: Service<Req>,
F: FnMut(Cfg, &mut S1) -> Fut,
Fut: Future<Output = Result<S2, Err>>,
S2: Service<Req>,
{
ApplyConfigService {
srv: Rc::new(RefCell::new((srv, f))),
_t: PhantomData,
_phantom: PhantomData,
}
}
/// Convert `Fn(Config, &mut Service1) -> Future<Service2>` fn to a service factory
/// Convert `Fn(Config, &mut ServiceFactory1) -> Future<ServiceFactory2>` fn to a service factory.
///
/// Service1 get constructed from `T` factory.
pub fn apply_cfg_factory<F, C, T, R, S>(
factory: T,
pub fn apply_cfg_factory<SF, Req, F, Cfg, Fut, S>(
factory: SF,
f: F,
) -> impl ServiceFactory<
Config = C,
Request = S::Request,
Req,
Config = Cfg,
Response = S::Response,
Error = S::Error,
Service = S,
InitError = T::InitError,
InitError = SF::InitError,
> + Clone
where
F: FnMut(C, &mut T::Service) -> R,
T: ServiceFactory<Config = ()>,
T::InitError: From<T::Error>,
R: Future<Output = Result<S, T::InitError>>,
S: Service,
SF: ServiceFactory<Req, Config = ()>,
F: FnMut(Cfg, &mut SF::Service) -> Fut,
SF::InitError: From<SF::Error>,
Fut: Future<Output = Result<S, SF::InitError>>,
S: Service<Req>,
{
ApplyConfigServiceFactory {
srv: Rc::new(RefCell::new((factory, f))),
_t: PhantomData,
_phantom: PhantomData,
}
}
/// Convert `Fn(Config, &mut Server) -> Future<Service>` fn to NewService\
struct ApplyConfigService<F, C, T, R, S, E>
struct ApplyConfigService<S1, Req, F, Cfg, Fut, S2, Err>
where
F: FnMut(C, &mut T) -> R,
T: Service,
R: Future<Output = Result<S, E>>,
S: Service,
S1: Service<Req>,
F: FnMut(Cfg, &mut S1) -> Fut,
Fut: Future<Output = Result<S2, Err>>,
S2: Service<Req>,
{
srv: Rc<RefCell<(T, F)>>,
_t: PhantomData<(C, R, S)>,
srv: Rc<RefCell<(S1, F)>>,
_phantom: PhantomData<(Cfg, Req, Fut, S2)>,
}
impl<F, C, T, R, S, E> Clone for ApplyConfigService<F, C, T, R, S, E>
impl<S1, Req, F, Cfg, Fut, S2, Err> Clone for ApplyConfigService<S1, Req, F, Cfg, Fut, S2, Err>
where
F: FnMut(C, &mut T) -> R,
T: Service,
R: Future<Output = Result<S, E>>,
S: Service,
S1: Service<Req>,
F: FnMut(Cfg, &mut S1) -> Fut,
Fut: Future<Output = Result<S2, Err>>,
S2: Service<Req>,
{
fn clone(&self) -> Self {
ApplyConfigService {
srv: self.srv.clone(),
_t: PhantomData,
_phantom: PhantomData,
}
}
}
impl<F, C, T, R, S, E> ServiceFactory for ApplyConfigService<F, C, T, R, S, E>
impl<S1, Req, F, Cfg, Fut, S2, Err> ServiceFactory<Req>
for ApplyConfigService<S1, Req, F, Cfg, Fut, S2, Err>
where
F: FnMut(C, &mut T) -> R,
T: Service,
R: Future<Output = Result<S, E>>,
S: Service,
S1: Service<Req>,
F: FnMut(Cfg, &mut S1) -> Fut,
Fut: Future<Output = Result<S2, Err>>,
S2: Service<Req>,
{
type Config = C;
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type Service = S;
type Config = Cfg;
type Response = S2::Response;
type Error = S2::Error;
type Service = S2;
type InitError = E;
type Future = R;
type InitError = Err;
type Future = Fut;
fn new_service(&self, cfg: C) -> Self::Future {
fn new_service(&self, cfg: Cfg) -> Self::Future {
let (t, f) = &mut *self.srv.borrow_mut();
f(cfg, t)
}
}
/// Convert `Fn(&Config) -> Future<Service>` fn to NewService
struct ApplyConfigServiceFactory<F, C, T, R, S>
struct ApplyConfigServiceFactory<SF, Req, F, Cfg, Fut, S>
where
F: FnMut(C, &mut T::Service) -> R,
T: ServiceFactory<Config = ()>,
R: Future<Output = Result<S, T::InitError>>,
S: Service,
SF: ServiceFactory<Req, Config = ()>,
F: FnMut(Cfg, &mut SF::Service) -> Fut,
Fut: Future<Output = Result<S, SF::InitError>>,
S: Service<Req>,
{
srv: Rc<RefCell<(T, F)>>,
_t: PhantomData<(C, R, S)>,
srv: Rc<RefCell<(SF, F)>>,
_phantom: PhantomData<(Cfg, Req, Fut, S)>,
}
impl<F, C, T, R, S> Clone for ApplyConfigServiceFactory<F, C, T, R, S>
impl<SF, Req, F, Cfg, Fut, S> Clone for ApplyConfigServiceFactory<SF, Req, F, Cfg, Fut, S>
where
F: FnMut(C, &mut T::Service) -> R,
T: ServiceFactory<Config = ()>,
R: Future<Output = Result<S, T::InitError>>,
S: Service,
SF: ServiceFactory<Req, Config = ()>,
F: FnMut(Cfg, &mut SF::Service) -> Fut,
Fut: Future<Output = Result<S, SF::InitError>>,
S: Service<Req>,
{
fn clone(&self) -> Self {
Self {
srv: self.srv.clone(),
_t: PhantomData,
_phantom: PhantomData,
}
}
}
impl<F, C, T, R, S> ServiceFactory for ApplyConfigServiceFactory<F, C, T, R, S>
impl<SF, Req, F, Cfg, Fut, S> ServiceFactory<Req>
for ApplyConfigServiceFactory<SF, Req, F, Cfg, Fut, S>
where
F: FnMut(C, &mut T::Service) -> R,
T: ServiceFactory<Config = ()>,
T::InitError: From<T::Error>,
R: Future<Output = Result<S, T::InitError>>,
S: Service,
SF: ServiceFactory<Req, Config = ()>,
SF::InitError: From<SF::Error>,
F: FnMut(Cfg, &mut SF::Service) -> Fut,
Fut: Future<Output = Result<S, SF::InitError>>,
S: Service<Req>,
{
type Config = C;
type Request = S::Request;
type Config = Cfg;
type Response = S::Response;
type Error = S::Error;
type Service = S;
type InitError = T::InitError;
type Future = ApplyConfigServiceFactoryResponse<F, C, T, R, S>;
type InitError = SF::InitError;
type Future = ApplyConfigServiceFactoryResponse<SF, Req, F, Cfg, Fut, S>;
fn new_service(&self, cfg: C) -> Self::Future {
fn new_service(&self, cfg: Cfg) -> Self::Future {
ApplyConfigServiceFactoryResponse {
cfg: Some(cfg),
store: self.srv.clone(),
state: State::A(self.srv.borrow().0.new_service(())),
state: State::A {
fut: self.srv.borrow().0.new_service(()),
},
}
}
}
#[pin_project::pin_project]
struct ApplyConfigServiceFactoryResponse<F, C, T, R, S>
where
F: FnMut(C, &mut T::Service) -> R,
T: ServiceFactory<Config = ()>,
T::InitError: From<T::Error>,
R: Future<Output = Result<S, T::InitError>>,
S: Service,
{
cfg: Option<C>,
store: Rc<RefCell<(T, F)>>,
#[pin]
state: State<T, R, S>,
pin_project! {
struct ApplyConfigServiceFactoryResponse<SF, Req, F, Cfg, Fut, S>
where
SF: ServiceFactory<Req, Config = ()>,
SF::InitError: From<SF::Error>,
F: FnMut(Cfg, &mut SF::Service) -> Fut,
Fut: Future<Output = Result<S, SF::InitError>>,
S: Service<Req>,
{
cfg: Option<Cfg>,
store: Rc<RefCell<(SF, F)>>,
#[pin]
state: State<SF, Fut, S, Req>,
}
}
#[pin_project::pin_project(project = StateProj)]
enum State<T, R, S>
where
T: ServiceFactory<Config = ()>,
T::InitError: From<T::Error>,
R: Future<Output = Result<S, T::InitError>>,
S: Service,
{
A(#[pin] T::Future),
B(T::Service),
C(#[pin] R),
pin_project! {
#[project = StateProj]
enum State<SF, Fut, S, Req>
where
SF: ServiceFactory<Req, Config = ()>,
SF::InitError: From<SF::Error>,
Fut: Future<Output = Result<S, SF::InitError>>,
S: Service<Req>,
{
A { #[pin] fut: SF::Future },
B { svc: SF::Service },
C { #[pin] fut: Fut },
}
}
impl<F, C, T, R, S> Future for ApplyConfigServiceFactoryResponse<F, C, T, R, S>
impl<SF, Req, F, Cfg, Fut, S> Future
for ApplyConfigServiceFactoryResponse<SF, Req, F, Cfg, Fut, S>
where
F: FnMut(C, &mut T::Service) -> R,
T: ServiceFactory<Config = ()>,
T::InitError: From<T::Error>,
R: Future<Output = Result<S, T::InitError>>,
S: Service,
SF: ServiceFactory<Req, Config = ()>,
SF::InitError: From<SF::Error>,
F: FnMut(Cfg, &mut SF::Service) -> Fut,
Fut: Future<Output = Result<S, SF::InitError>>,
S: Service<Req>,
{
type Output = Result<S, T::InitError>;
type Output = Result<S, SF::InitError>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let mut this = self.as_mut().project();
match this.state.as_mut().project() {
StateProj::A(fut) => match fut.poll(cx)? {
StateProj::A { fut } => match fut.poll(cx)? {
Poll::Pending => Poll::Pending,
Poll::Ready(srv) => {
this.state.set(State::B(srv));
Poll::Ready(svc) => {
this.state.set(State::B { svc });
self.poll(cx)
}
},
StateProj::B(srv) => match srv.poll_ready(cx)? {
StateProj::B { svc } => match svc.poll_ready(cx)? {
Poll::Ready(_) => {
{
let (_, f) = &mut *this.store.borrow_mut();
let fut = f(this.cfg.take().unwrap(), srv);
this.state.set(State::C(fut));
let fut = f(this.cfg.take().unwrap(), svc);
this.state.set(State::C { fut });
}
self.poll(cx)
}
Poll::Pending => Poll::Pending,
},
StateProj::C(fut) => fut.poll(cx),
StateProj::C { fut } => fut.poll(cx),
}
}
}

122
actix-service/src/boxed.rs
View File

@@ -1,145 +1,141 @@
use std::future::Future;
use std::pin::Pin;
use std::task::{Context, Poll};
use futures_util::future::FutureExt;
use alloc::boxed::Box;
use core::{
future::Future,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use crate::{Service, ServiceFactory};
pub type BoxFuture<I, E> = Pin<Box<dyn Future<Output = Result<I, E>>>>;
pub type BoxFuture<T> = Pin<Box<dyn Future<Output = T>>>;
pub type BoxService<Req, Res, Err> =
Box<dyn Service<Request = Req, Response = Res, Error = Err, Future = BoxFuture<Res, Err>>>;
Box<dyn Service<Req, Response = Res, Error = Err, Future = BoxFuture<Result<Res, Err>>>>;
pub struct BoxServiceFactory<C, Req, Res, Err, InitErr>(Inner<C, Req, Res, Err, InitErr>);
pub struct BoxServiceFactory<Cfg, Req, Res, Err, InitErr>(Inner<Cfg, Req, Res, Err, InitErr>);
/// Create boxed service factory
pub fn factory<T>(
factory: T,
) -> BoxServiceFactory<T::Config, T::Request, T::Response, T::Error, T::InitError>
pub fn factory<SF, Req>(
factory: SF,
) -> BoxServiceFactory<SF::Config, Req, SF::Response, SF::Error, SF::InitError>
where
T: ServiceFactory + 'static,
T::Request: 'static,
T::Response: 'static,
T::Service: 'static,
T::Future: 'static,
T::Error: 'static,
T::InitError: 'static,
SF: ServiceFactory<Req> + 'static,
Req: 'static,
SF::Response: 'static,
SF::Service: 'static,
SF::Future: 'static,
SF::Error: 'static,
SF::InitError: 'static,
{
BoxServiceFactory(Box::new(FactoryWrapper {
factory,
_t: std::marker::PhantomData,
_t: PhantomData,
}))
}
/// Create boxed service
pub fn service<T>(service: T) -> BoxService<T::Request, T::Response, T::Error>
pub fn service<S, Req>(service: S) -> BoxService<Req, S::Response, S::Error>
where
T: Service + 'static,
T::Future: 'static,
S: Service<Req> + 'static,
Req: 'static,
S::Future: 'static,
{
Box::new(ServiceWrapper(service))
Box::new(ServiceWrapper(service, PhantomData))
}
type Inner<C, Req, Res, Err, InitErr> = Box<
dyn ServiceFactory<
Req,
Config = C,
Request = Req,
Response = Res,
Error = Err,
InitError = InitErr,
Service = BoxService<Req, Res, Err>,
Future = BoxFuture<BoxService<Req, Res, Err>, InitErr>,
Future = BoxFuture<Result<BoxService<Req, Res, Err>, InitErr>>,
>,
>;
impl<C, Req, Res, Err, InitErr> ServiceFactory for BoxServiceFactory<C, Req, Res, Err, InitErr>
impl<C, Req, Res, Err, InitErr> ServiceFactory<Req>
for BoxServiceFactory<C, Req, Res, Err, InitErr>
where
Req: 'static,
Res: 'static,
Err: 'static,
InitErr: 'static,
{
type Request = Req;
type Response = Res;
type Error = Err;
type InitError = InitErr;
type Config = C;
type Service = BoxService<Req, Res, Err>;
type Future = BoxFuture<Self::Service, InitErr>;
type Future = BoxFuture<Result<Self::Service, InitErr>>;
fn new_service(&self, cfg: C) -> Self::Future {
self.0.new_service(cfg)
}
}
struct FactoryWrapper<C, T: ServiceFactory> {
factory: T,
_t: std::marker::PhantomData<C>,
struct FactoryWrapper<SF, Req, Cfg> {
factory: SF,
_t: PhantomData<(Req, Cfg)>,
}
impl<C, T, Req, Res, Err, InitErr> ServiceFactory for FactoryWrapper<C, T>
impl<SF, Req, Cfg, Res, Err, InitErr> ServiceFactory<Req> for FactoryWrapper<SF, Req, Cfg>
where
Req: 'static,
Res: 'static,
Err: 'static,
InitErr: 'static,
T: ServiceFactory<
Config = C,
Request = Req,
Response = Res,
Error = Err,
InitError = InitErr,
>,
T::Future: 'static,
T::Service: 'static,
<T::Service as Service>::Future: 'static,
SF: ServiceFactory<Req, Config = Cfg, Response = Res, Error = Err, InitError = InitErr>,
SF::Future: 'static,
SF::Service: 'static,
<SF::Service as Service<Req>>::Future: 'static,
{
type Request = Req;
type Response = Res;
type Error = Err;
type InitError = InitErr;
type Config = C;
type Config = Cfg;
type Service = BoxService<Req, Res, Err>;
type Future = BoxFuture<Self::Service, Self::InitError>;
type Future = BoxFuture<Result<Self::Service, Self::InitError>>;
fn new_service(&self, cfg: C) -> Self::Future {
Box::pin(
self.factory
.new_service(cfg)
.map(|res| res.map(ServiceWrapper::boxed)),
)
fn new_service(&self, cfg: Cfg) -> Self::Future {
let fut = self.factory.new_service(cfg);
Box::pin(async {
let res = fut.await;
res.map(ServiceWrapper::boxed)
})
}
}
struct ServiceWrapper<T: Service>(T);
struct ServiceWrapper<S: Service<Req>, Req>(S, PhantomData<Req>);
impl<T> ServiceWrapper<T>
impl<S, Req> ServiceWrapper<S, Req>
where
T: Service + 'static,
T::Future: 'static,
S: Service<Req> + 'static,
Req: 'static,
S::Future: 'static,
{
fn boxed(service: T) -> BoxService<T::Request, T::Response, T::Error> {
Box::new(ServiceWrapper(service))
fn boxed(service: S) -> BoxService<Req, S::Response, S::Error> {
Box::new(ServiceWrapper(service, PhantomData))
}
}
impl<T, Req, Res, Err> Service for ServiceWrapper<T>
impl<S, Req, Res, Err> Service<Req> for ServiceWrapper<S, Req>
where
T: Service<Request = Req, Response = Res, Error = Err>,
T::Future: 'static,
S: Service<Req, Response = Res, Error = Err>,
S::Future: 'static,
{
type Request = Req;
type Response = Res;
type Error = Err;
type Future = BoxFuture<Res, Err>;
type Future = BoxFuture<Result<Res, Err>>;
fn poll_ready(&mut self, ctx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
self.0.poll_ready(ctx)
}
fn call(&mut self, req: Self::Request) -> Self::Future {
fn call(&mut self, req: Req) -> Self::Future {
Box::pin(self.0.call(req))
}
}

70
actix-service/src/ext.rs Normal file
View File

@@ -0,0 +1,70 @@
use crate::{dev, Service, ServiceFactory};
pub trait ServiceExt<Req>: Service<Req> {
/// Map this service's output to a different type, returning a new service
/// of the resulting type.
///
/// This function is similar to the `Option::map` or `Iterator::map` where
/// it will change the type of the underlying service.
///
/// Note that this function consumes the receiving service and returns a
/// wrapped version of it, similar to the existing `map` methods in the
/// standard library.
fn map<F, R>(self, f: F) -> dev::Map<Self, F, Req, R>
where
Self: Sized,
F: FnMut(Self::Response) -> R,
{
dev::Map::new(self, f)
}
/// Map this service's error to a different error, returning a new service.
///
/// This function is similar to the `Result::map_err` where it will change
/// the error type of the underlying service. For example, this can be useful to
/// ensure that services have the same error type.
///
/// Note that this function consumes the receiving service and returns a
/// wrapped version of it.
fn map_err<F, E>(self, f: F) -> dev::MapErr<Self, Req, F, E>
where
Self: Sized,
F: Fn(Self::Error) -> E,
{
dev::MapErr::new(self, f)
}
}
impl<S, Req> ServiceExt<Req> for S where S: Service<Req> {}
pub trait ServiceFactoryExt<Req>: ServiceFactory<Req> {
/// Map this service's output to a different type, returning a new service
/// of the resulting type.
fn map<F, R>(self, f: F) -> crate::map::MapServiceFactory<Self, F, Req, R>
where
Self: Sized,
F: FnMut(Self::Response) -> R + Clone,
{
crate::map::MapServiceFactory::new(self, f)
}
/// Map this service's error to a different error, returning a new service.
fn map_err<F, E>(self, f: F) -> crate::map_err::MapErrServiceFactory<Self, Req, F, E>
where
Self: Sized,
F: Fn(Self::Error) -> E + Clone,
{
crate::map_err::MapErrServiceFactory::new(self, f)
}
/// Map this factory's init error to a different error, returning a new service.
fn map_init_err<F, E>(self, f: F) -> crate::map_init_err::MapInitErr<Self, F, Req, E>
where
Self: Sized,
F: Fn(Self::InitError) -> E + Clone,
{
crate::map_init_err::MapInitErr::new(self, f)
}
}
impl<S, Req> ServiceFactoryExt<Req> for S where S: ServiceFactory<Req> {}

131
actix-service/src/fn_service.rs
View File

@@ -1,10 +1,6 @@
use std::future::Future;
use std::marker::PhantomData;
use std::task::{Context, Poll};
use core::{future::Future, marker::PhantomData, task::Poll};
use futures_util::future::{ok, Ready};
use crate::{IntoService, IntoServiceFactory, Service, ServiceFactory};
use crate::{ok, IntoService, IntoServiceFactory, Ready, Service, ServiceFactory};
/// Create `ServiceFactory` for function that can act as a `Service`
pub fn fn_service<F, Fut, Req, Res, Err, Cfg>(
@@ -53,9 +49,11 @@ where
/// Ok(())
/// }
/// ```
pub fn fn_factory<F, Cfg, Srv, Fut, Err>(f: F) -> FnServiceNoConfig<F, Cfg, Srv, Fut, Err>
pub fn fn_factory<F, Cfg, Srv, Req, Fut, Err>(
f: F,
) -> FnServiceNoConfig<F, Cfg, Srv, Req, Fut, Err>
where
Srv: Service,
Srv: Service<Req>,
F: Fn() -> Fut,
Fut: Future<Output = Result<Srv, Err>>,
{
@@ -92,13 +90,13 @@ where
/// Ok(())
/// }
/// ```
pub fn fn_factory_with_config<F, Fut, Cfg, Srv, Err>(
pub fn fn_factory_with_config<F, Fut, Cfg, Srv, Req, Err>(
f: F,
) -> FnServiceConfig<F, Fut, Cfg, Srv, Err>
) -> FnServiceConfig<F, Fut, Cfg, Srv, Req, Err>
where
F: Fn(Cfg) -> Fut,
Fut: Future<Output = Result<Srv, Err>>,
Srv: Service,
Srv: Service<Req>,
{
FnServiceConfig::new(f)
}
@@ -132,26 +130,23 @@ where
}
}
impl<F, Fut, Req, Res, Err> Service for FnService<F, Fut, Req, Res, Err>
impl<F, Fut, Req, Res, Err> Service<Req> for FnService<F, Fut, Req, Res, Err>
where
F: FnMut(Req) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
{
type Request = Req;
type Response = Res;
type Error = Err;
type Future = Fut;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
crate::always_ready!();
fn call(&mut self, req: Req) -> Self::Future {
(self.f)(req)
}
}
impl<F, Fut, Req, Res, Err> IntoService<FnService<F, Fut, Req, Res, Err>> for F
impl<F, Fut, Req, Res, Err> IntoService<FnService<F, Fut, Req, Res, Err>, Req> for F
where
F: FnMut(Req) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
@@ -190,31 +185,28 @@ where
}
}
impl<F, Fut, Req, Res, Err> Service for FnServiceFactory<F, Fut, Req, Res, Err, ()>
impl<F, Fut, Req, Res, Err> Service<Req> for FnServiceFactory<F, Fut, Req, Res, Err, ()>
where
F: FnMut(Req) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
{
type Request = Req;
type Response = Res;
type Error = Err;
type Future = Fut;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
crate::always_ready!();
fn call(&mut self, req: Self::Request) -> Self::Future {
fn call(&mut self, req: Req) -> Self::Future {
(self.f)(req)
}
}
impl<F, Fut, Req, Res, Err, Cfg> ServiceFactory for FnServiceFactory<F, Fut, Req, Res, Err, Cfg>
impl<F, Fut, Req, Res, Err, Cfg> ServiceFactory<Req>
for FnServiceFactory<F, Fut, Req, Res, Err, Cfg>
where
F: FnMut(Req) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
{
type Request = Req;
type Response = Res;
type Error = Err;
@@ -229,7 +221,7 @@ where
}
impl<F, Fut, Req, Res, Err, Cfg>
IntoServiceFactory<FnServiceFactory<F, Fut, Req, Res, Err, Cfg>> for F
IntoServiceFactory<FnServiceFactory<F, Fut, Req, Res, Err, Cfg>, Req> for F
where
F: Fn(Req) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
@@ -240,32 +232,32 @@ where
}
/// Convert `Fn(&Config) -> Future<Service>` fn to NewService
pub struct FnServiceConfig<F, Fut, Cfg, Srv, Err>
pub struct FnServiceConfig<F, Fut, Cfg, Srv, Req, Err>
where
F: Fn(Cfg) -> Fut,
Fut: Future<Output = Result<Srv, Err>>,
Srv: Service,
Srv: Service<Req>,
{
f: F,
_t: PhantomData<(Fut, Cfg, Srv, Err)>,
_t: PhantomData<(Fut, Cfg, Req, Srv, Err)>,
}
impl<F, Fut, Cfg, Srv, Err> FnServiceConfig<F, Fut, Cfg, Srv, Err>
impl<F, Fut, Cfg, Srv, Req, Err> FnServiceConfig<F, Fut, Cfg, Srv, Req, Err>
where
F: Fn(Cfg) -> Fut,
Fut: Future<Output = Result<Srv, Err>>,
Srv: Service,
Srv: Service<Req>,
{
fn new(f: F) -> Self {
FnServiceConfig { f, _t: PhantomData }
}
}
impl<F, Fut, Cfg, Srv, Err> Clone for FnServiceConfig<F, Fut, Cfg, Srv, Err>
impl<F, Fut, Cfg, Srv, Req, Err> Clone for FnServiceConfig<F, Fut, Cfg, Srv, Req, Err>
where
F: Fn(Cfg) -> Fut + Clone,
Fut: Future<Output = Result<Srv, Err>>,
Srv: Service,
Srv: Service<Req>,
{
fn clone(&self) -> Self {
FnServiceConfig {
@@ -275,13 +267,13 @@ where
}
}
impl<F, Fut, Cfg, Srv, Err> ServiceFactory for FnServiceConfig<F, Fut, Cfg, Srv, Err>
impl<F, Fut, Cfg, Srv, Req, Err> ServiceFactory<Req>
for FnServiceConfig<F, Fut, Cfg, Srv, Req, Err>
where
F: Fn(Cfg) -> Fut,
Fut: Future<Output = Result<Srv, Err>>,
Srv: Service,
Srv: Service<Req>,
{
type Request = Srv::Request;
type Response = Srv::Response;
type Error = Srv::Error;
@@ -296,76 +288,77 @@ where
}
/// Converter for `Fn() -> Future<Service>` fn
pub struct FnServiceNoConfig<F, C, S, R, E>
pub struct FnServiceNoConfig<F, Cfg, Srv, Req, Fut, Err>
where
F: Fn() -> R,
S: Service,
R: Future<Output = Result<S, E>>,
F: Fn() -> Fut,
Srv: Service<Req>,
Fut: Future<Output = Result<Srv, Err>>,
{
f: F,
_t: PhantomData<C>,
_t: PhantomData<(Cfg, Req)>,
}
impl<F, C, S, R, E> FnServiceNoConfig<F, C, S, R, E>
impl<F, Cfg, Srv, Req, Fut, Err> FnServiceNoConfig<F, Cfg, Srv, Req, Fut, Err>
where
F: Fn() -> R,
R: Future<Output = Result<S, E>>,
S: Service,
F: Fn() -> Fut,
Fut: Future<Output = Result<Srv, Err>>,
Srv: Service<Req>,
{
fn new(f: F) -> Self {
Self { f, _t: PhantomData }
}
}
impl<F, C, S, R, E> ServiceFactory for FnServiceNoConfig<F, C, S, R, E>
impl<F, Cfg, Srv, Req, Fut, Err> ServiceFactory<Req>
for FnServiceNoConfig<F, Cfg, Srv, Req, Fut, Err>
where
F: Fn() -> R,
R: Future<Output = Result<S, E>>,
S: Service,
F: Fn() -> Fut,
Fut: Future<Output = Result<Srv, Err>>,
Srv: Service<Req>,
{
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type Service = S;
type Config = C;
type InitError = E;
type Future = R;
type Response = Srv::Response;
type Error = Srv::Error;
type Service = Srv;
type Config = Cfg;
type InitError = Err;
type Future = Fut;
fn new_service(&self, _: C) -> Self::Future {
fn new_service(&self, _: Cfg) -> Self::Future {
(self.f)()
}
}
impl<F, C, S, R, E> Clone for FnServiceNoConfig<F, C, S, R, E>
impl<F, Cfg, Srv, Req, Fut, Err> Clone for FnServiceNoConfig<F, Cfg, Srv, Req, Fut, Err>
where
F: Fn() -> R + Clone,
R: Future<Output = Result<S, E>>,
S: Service,
F: Fn() -> Fut + Clone,
Fut: Future<Output = Result<Srv, Err>>,
Srv: Service<Req>,
{
fn clone(&self) -> Self {
Self::new(self.f.clone())
}
}
impl<F, C, S, R, E> IntoServiceFactory<FnServiceNoConfig<F, C, S, R, E>> for F
impl<F, Cfg, Srv, Req, Fut, Err>
IntoServiceFactory<FnServiceNoConfig<F, Cfg, Srv, Req, Fut, Err>, Req> for F
where
F: Fn() -> R,
R: Future<Output = Result<S, E>>,
S: Service,
F: Fn() -> Fut,
Fut: Future<Output = Result<Srv, Err>>,
Srv: Service<Req>,
{
fn into_factory(self) -> FnServiceNoConfig<F, C, S, R, E> {
fn into_factory(self) -> FnServiceNoConfig<F, Cfg, Srv, Req, Fut, Err> {
FnServiceNoConfig::new(self)
}
}
#[cfg(test)]
mod tests {
use std::task::Poll;
use core::task::Poll;
use futures_util::future::{lazy, ok};
use futures_util::future::lazy;
use super::*;
use crate::{Service, ServiceFactory};
use crate::{ok, Service, ServiceFactory};
#[actix_rt::test]
async fn test_fn_service() {

206
actix-service/src/lib.rs
View File

@@ -1,36 +1,47 @@
//! See [`Service`](trait.Service.html) docs for information on this crate's foundational trait.
//! See [`Service`] docs for information on this crate's foundational trait.
#![deny(rust_2018_idioms, warnings)]
#![no_std]
#![deny(rust_2018_idioms, nonstandard_style)]
#![allow(clippy::type_complexity)]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
use std::cell::RefCell;
use std::future::Future;
use std::rc::Rc;
use std::sync::Arc;
use std::task::{self, Context, Poll};
extern crate alloc;
use alloc::{boxed::Box, rc::Rc, sync::Arc};
use core::{
cell::RefCell,
future::Future,
task::{self, Context, Poll},
};
mod and_then;
mod and_then_apply_fn;
mod apply;
mod apply_cfg;
pub mod boxed;
mod ext;
mod fn_service;
mod map;
mod map_config;
mod map_err;
mod map_init_err;
mod pipeline;
mod ready;
mod then;
mod transform;
mod transform_err;
pub use self::apply::{apply_fn, apply_fn_factory};
pub use self::apply_cfg::{apply_cfg, apply_cfg_factory};
pub use self::ext::{ServiceExt, ServiceFactoryExt};
pub use self::fn_service::{fn_factory, fn_factory_with_config, fn_service};
pub use self::map_config::{map_config, unit_config};
pub use self::pipeline::{pipeline, pipeline_factory, Pipeline, PipelineFactory};
pub use self::transform::{apply, Transform};
#[allow(unused_imports)]
use self::ready::{err, ok, ready, Ready};
/// An asynchronous operation from `Request` to a `Response`.
///
/// The `Service` trait models a request/response interaction, receiving requests and returning
@@ -65,19 +76,16 @@ pub use self::transform::{apply, Transform};
/// ```
///
/// Sometimes it is not necessary to implement the Service trait. For example, the above service
/// could be rewritten as a simple function and passed to [fn_service](fn.fn_service.html).
/// could be rewritten as a simple function and passed to [fn_service](fn_service()).
///
/// ```rust,ignore
/// async fn my_service(req: u8) -> Result<u64, MyError>;
/// ```
pub trait Service {
/// Requests handled by the service.
type Request;
pub trait Service<Req> {
/// Responses given by the service.
type Response;
/// Errors produced by the service.
/// Errors produced by the service when polling readiness or executing call.
type Error;
/// The future response value.
@@ -107,40 +115,7 @@ pub trait Service {
///
/// Calling `call` without calling `poll_ready` is permitted. The
/// implementation must be resilient to this fact.
fn call(&mut self, req: Self::Request) -> Self::Future;
/// Map this service's output to a different type, returning a new service
/// of the resulting type.
///
/// This function is similar to the `Option::map` or `Iterator::map` where
/// it will change the type of the underlying service.
///
/// Note that this function consumes the receiving service and returns a
/// wrapped version of it, similar to the existing `map` methods in the
/// standard library.
fn map<F, R>(self, f: F) -> crate::dev::Map<Self, F, R>
where
Self: Sized,
F: FnMut(Self::Response) -> R,
{
crate::dev::Map::new(self, f)
}
/// Map this service's error to a different error, returning a new service.
///
/// This function is similar to the `Result::map_err` where it will change
/// the error type of the underlying service. For example, this can be useful to
/// ensure that services have the same error type.
///
/// Note that this function consumes the receiving service and returns a
/// wrapped version of it.
fn map_err<F, E>(self, f: F) -> crate::dev::MapErr<Self, F, E>
where
Self: Sized,
F: Fn(Self::Error) -> E,
{
crate::dev::MapErr::new(self, f)
}
fn call(&mut self, req: Req) -> Self::Future;
}
/// Factory for creating `Service`s.
@@ -152,10 +127,7 @@ pub trait Service {
/// requests on that new TCP stream.
///
/// `Config` is a service factory configuration type.
pub trait ServiceFactory {
/// Requests handled by the created services.
type Request;
pub trait ServiceFactory<Req> {
/// Responses given by the created services.
type Response;
@@ -166,11 +138,7 @@ pub trait ServiceFactory {
type Config;
/// The kind of `Service` created by this factory.
type Service: Service<
Request = Self::Request,
Response = Self::Response,
Error = Self::Error,
>;
type Service: Service<Req, Response = Self::Response, Error = Self::Error>;
/// Errors potentially raised while building a service.
type InitError;
@@ -180,41 +148,12 @@ pub trait ServiceFactory {
/// Create and return a new service asynchronously.
fn new_service(&self, cfg: Self::Config) -> Self::Future;
/// Map this service's output to a different type, returning a new service
/// of the resulting type.
fn map<F, R>(self, f: F) -> crate::map::MapServiceFactory<Self, F, R>
where
Self: Sized,
F: FnMut(Self::Response) -> R + Clone,
{
crate::map::MapServiceFactory::new(self, f)
}
/// Map this service's error to a different error, returning a new service.
fn map_err<F, E>(self, f: F) -> crate::map_err::MapErrServiceFactory<Self, F, E>
where
Self: Sized,
F: Fn(Self::Error) -> E + Clone,
{
crate::map_err::MapErrServiceFactory::new(self, f)
}
/// Map this factory's init error to a different error, returning a new service.
fn map_init_err<F, E>(self, f: F) -> crate::map_init_err::MapInitErr<Self, F, E>
where
Self: Sized,
F: Fn(Self::InitError) -> E + Clone,
{
crate::map_init_err::MapInitErr::new(self, f)
}
}
impl<'a, S> Service for &'a mut S
impl<'a, S, Req> Service<Req> for &'a mut S
where
S: Service + 'a,
S: Service<Req> + 'a,
{
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type Future = S::Future;
@@ -223,16 +162,15 @@ where
(**self).poll_ready(ctx)
}
fn call(&mut self, request: Self::Request) -> S::Future {
fn call(&mut self, request: Req) -> S::Future {
(**self).call(request)
}
}
impl<S> Service for Box<S>
impl<S, Req> Service<Req> for Box<S>
where
S: Service + ?Sized,
S: Service<Req> + ?Sized,
{
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type Future = S::Future;
@@ -241,16 +179,15 @@ where
(**self).poll_ready(ctx)
}
fn call(&mut self, request: Self::Request) -> S::Future {
fn call(&mut self, request: Req) -> S::Future {
(**self).call(request)
}
}
impl<S> Service for RefCell<S>
impl<S, Req> Service<Req> for RefCell<S>
where
S: Service,
S: Service<Req>,
{
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type Future = S::Future;
@@ -259,16 +196,15 @@ where
self.borrow_mut().poll_ready(ctx)
}
fn call(&mut self, request: Self::Request) -> S::Future {
fn call(&mut self, request: Req) -> S::Future {
self.borrow_mut().call(request)
}
}
impl<S> Service for Rc<RefCell<S>>
impl<S, Req> Service<Req> for Rc<RefCell<S>>
where
S: Service,
S: Service<Req>,
{
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type Future = S::Future;
@@ -277,16 +213,15 @@ where
self.borrow_mut().poll_ready(ctx)
}
fn call(&mut self, request: Self::Request) -> S::Future {
fn call(&mut self, request: Req) -> S::Future {
(&mut (**self).borrow_mut()).call(request)
}
}
impl<S> ServiceFactory for Rc<S>
impl<S, Req> ServiceFactory<Req> for Rc<S>
where
S: ServiceFactory,
S: ServiceFactory<Req>,
{
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type Config = S::Config;
@@ -299,11 +234,10 @@ where
}
}
impl<S> ServiceFactory for Arc<S>
impl<S, Req> ServiceFactory<Req> for Arc<S>
where
S: ServiceFactory,
S: ServiceFactory<Req>,
{
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type Config = S::Config;
@@ -317,52 +251,52 @@ where
}
/// Trait for types that can be converted to a `Service`
pub trait IntoService<T>
pub trait IntoService<S, Req>
where
T: Service,
S: Service<Req>,
{
/// Convert to a `Service`
fn into_service(self) -> T;
fn into_service(self) -> S;
}
/// Trait for types that can be converted to a `ServiceFactory`
pub trait IntoServiceFactory<T>
pub trait IntoServiceFactory<SF, Req>
where
T: ServiceFactory,
SF: ServiceFactory<Req>,
{
/// Convert `Self` to a `ServiceFactory`
fn into_factory(self) -> T;
fn into_factory(self) -> SF;
}
impl<T> IntoService<T> for T
impl<S, Req> IntoService<S, Req> for S
where
T: Service,
S: Service<Req>,
{
fn into_service(self) -> T {
fn into_service(self) -> S {
self
}
}
impl<T> IntoServiceFactory<T> for T
impl<SF, Req> IntoServiceFactory<SF, Req> for SF
where
T: ServiceFactory,
SF: ServiceFactory<Req>,
{
fn into_factory(self) -> T {
fn into_factory(self) -> SF {
self
}
}
/// Convert object of type `T` to a service `S`
pub fn into_service<T, S>(tp: T) -> S
/// Convert object of type `U` to a service `S`
pub fn into_service<I, S, Req>(tp: I) -> S
where
S: Service,
T: IntoService<S>,
I: IntoService<S, Req>,
S: Service<Req>,
{
tp.into_service()
}
pub mod dev {
pub use crate::apply::{Apply, ApplyServiceFactory};
pub use crate::apply::{Apply, ApplyFactory};
pub use crate::fn_service::{
FnService, FnServiceConfig, FnServiceFactory, FnServiceNoConfig,
};
@@ -373,3 +307,27 @@ pub mod dev {
pub use crate::transform::ApplyTransform;
pub use crate::transform_err::TransformMapInitErr;
}
#[macro_export]
macro_rules! always_ready {
() => {
fn poll_ready(
&mut self,
_: &mut ::core::task::Context<'_>,
) -> ::core::task::Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
};
}
#[macro_export]
macro_rules! forward_ready {
($field:ident) => {
fn poll_ready(
&mut self,
cx: &mut ::core::task::Context<'_>,
) -> ::core::task::Poll<Result<(), Self::Error>> {
self.$field.poll_ready(cx)
}
};
}

135
actix-service/src/map.rs
View File

@@ -1,25 +1,29 @@
use std::future::Future;
use std::marker::PhantomData;
use std::pin::Pin;
use std::task::{Context, Poll};
use core::{
future::Future,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use pin_project_lite::pin_project;
use super::{Service, ServiceFactory};
/// Service for the `map` combinator, changing the type of a service's response.
///
/// This is created by the `ServiceExt::map` method.
pub struct Map<A, F, Response> {
pub struct Map<A, F, Req, Res> {
service: A,
f: F,
_t: PhantomData<Response>,
_t: PhantomData<(Req, Res)>,
}
impl<A, F, Response> Map<A, F, Response> {
impl<A, F, Req, Res> Map<A, F, Req, Res> {
/// Create new `Map` combinator
pub(crate) fn new(service: A, f: F) -> Self
where
A: Service,
F: FnMut(A::Response) -> Response,
A: Service<Req>,
F: FnMut(A::Response) -> Res,
{
Self {
service,
@@ -29,7 +33,7 @@ impl<A, F, Response> Map<A, F, Response> {
}
}
impl<A, F, Response> Clone for Map<A, F, Response>
impl<A, F, Req, Res> Clone for Map<A, F, Req, Res>
where
A: Clone,
F: Clone,
@@ -43,52 +47,50 @@ where
}
}
impl<A, F, Response> Service for Map<A, F, Response>
impl<A, F, Req, Res> Service<Req> for Map<A, F, Req, Res>
where
A: Service,
F: FnMut(A::Response) -> Response + Clone,
A: Service<Req>,
F: FnMut(A::Response) -> Res + Clone,
{
type Request = A::Request;
type Response = Response;
type Response = Res;
type Error = A::Error;
type Future = MapFuture<A, F, Response>;
type Future = MapFuture<A, F, Req, Res>;
fn poll_ready(&mut self, ctx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
self.service.poll_ready(ctx)
}
crate::forward_ready!(service);
fn call(&mut self, req: A::Request) -> Self::Future {
fn call(&mut self, req: Req) -> Self::Future {
MapFuture::new(self.service.call(req), self.f.clone())
}
}
#[pin_project::pin_project]
pub struct MapFuture<A, F, Response>
where
A: Service,
F: FnMut(A::Response) -> Response,
{
f: F,
#[pin]
fut: A::Future,
pin_project! {
pub struct MapFuture<A, F, Req, Res>
where
A: Service<Req>,
F: FnMut(A::Response) -> Res,
{
f: F,
#[pin]
fut: A::Future,
}
}
impl<A, F, Response> MapFuture<A, F, Response>
impl<A, F, Req, Res> MapFuture<A, F, Req, Res>
where
A: Service,
F: FnMut(A::Response) -> Response,
A: Service<Req>,
F: FnMut(A::Response) -> Res,
{
fn new(fut: A::Future, f: F) -> Self {
MapFuture { f, fut }
}
}
impl<A, F, Response> Future for MapFuture<A, F, Response>
impl<A, F, Req, Res> Future for MapFuture<A, F, Req, Res>
where
A: Service,
F: FnMut(A::Response) -> Response,
A: Service<Req>,
F: FnMut(A::Response) -> Res,
{
type Output = Result<Response, A::Error>;
type Output = Result<Res, A::Error>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.project();
@@ -102,17 +104,17 @@ where
}
/// `MapNewService` new service combinator
pub struct MapServiceFactory<A, F, Res> {
pub struct MapServiceFactory<A, F, Req, Res> {
a: A,
f: F,
r: PhantomData<Res>,
r: PhantomData<(Res, Req)>,
}
impl<A, F, Res> MapServiceFactory<A, F, Res> {
impl<A, F, Req, Res> MapServiceFactory<A, F, Req, Res> {
/// Create new `Map` new service instance
pub(crate) fn new(a: A, f: F) -> Self
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: FnMut(A::Response) -> Res,
{
Self {
@@ -123,7 +125,7 @@ impl<A, F, Res> MapServiceFactory<A, F, Res> {
}
}
impl<A, F, Res> Clone for MapServiceFactory<A, F, Res>
impl<A, F, Req, Res> Clone for MapServiceFactory<A, F, Req, Res>
where
A: Clone,
F: Clone,
@@ -137,39 +139,39 @@ where
}
}
impl<A, F, Res> ServiceFactory for MapServiceFactory<A, F, Res>
impl<A, F, Req, Res> ServiceFactory<Req> for MapServiceFactory<A, F, Req, Res>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: FnMut(A::Response) -> Res + Clone,
{
type Request = A::Request;
type Response = Res;
type Error = A::Error;
type Config = A::Config;
type Service = Map<A::Service, F, Res>;
type Service = Map<A::Service, F, Req, Res>;
type InitError = A::InitError;
type Future = MapServiceFuture<A, F, Res>;
type Future = MapServiceFuture<A, F, Req, Res>;
fn new_service(&self, cfg: A::Config) -> Self::Future {
MapServiceFuture::new(self.a.new_service(cfg), self.f.clone())
}
}
#[pin_project::pin_project]
pub struct MapServiceFuture<A, F, Res>
where
A: ServiceFactory,
F: FnMut(A::Response) -> Res,
{
#[pin]
fut: A::Future,
f: Option<F>,
pin_project! {
pub struct MapServiceFuture<A, F, Req, Res>
where
A: ServiceFactory<Req>,
F: FnMut(A::Response) -> Res,
{
#[pin]
fut: A::Future,
f: Option<F>,
}
}
impl<A, F, Res> MapServiceFuture<A, F, Res>
impl<A, F, Req, Res> MapServiceFuture<A, F, Req, Res>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: FnMut(A::Response) -> Res,
{
fn new(fut: A::Future, f: F) -> Self {
@@ -177,12 +179,12 @@ where
}
}
impl<A, F, Res> Future for MapServiceFuture<A, F, Res>
impl<A, F, Req, Res> Future for MapServiceFuture<A, F, Req, Res>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: FnMut(A::Response) -> Res,
{
type Output = Result<Map<A::Service, F, Res>, A::InitError>;
type Output = Result<Map<A::Service, F, Req, Res>, A::InitError>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.project();
@@ -197,22 +199,21 @@ where
#[cfg(test)]
mod tests {
use futures_util::future::{lazy, ok, Ready};
use futures_util::future::lazy;
use super::*;
use crate::{IntoServiceFactory, Service, ServiceFactory};
use crate::{
ok, IntoServiceFactory, Ready, Service, ServiceExt, ServiceFactory, ServiceFactoryExt,
};
struct Srv;
impl Service for Srv {
type Request = ();
impl Service<()> for Srv {
type Response = ();
type Error = ();
type Future = Ready<Result<(), ()>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
crate::always_ready!();
fn call(&mut self, _: ()) -> Self::Future {
ok(())

132
actix-service/src/map_config.rs
View File

@@ -1,4 +1,4 @@
use std::marker::PhantomData;
use core::marker::PhantomData;
use super::{IntoServiceFactory, ServiceFactory};
@@ -6,121 +6,123 @@ use super::{IntoServiceFactory, ServiceFactory};
///
/// Note that this function consumes the receiving service factory and returns
/// a wrapped version of it.
pub fn map_config<T, U, F, C>(factory: U, f: F) -> MapConfig<T, F, C>
pub fn map_config<I, SF, S, Req, F, Cfg>(factory: I, f: F) -> MapConfig<SF, Req, F, Cfg>
where
T: ServiceFactory,
U: IntoServiceFactory<T>,
F: Fn(C) -> T::Config,
I: IntoServiceFactory<SF, Req>,
SF: ServiceFactory<Req>,
F: Fn(Cfg) -> SF::Config,
{
MapConfig::new(factory.into_factory(), f)
}
/// Replace config with unit
pub fn unit_config<T, U, C>(factory: U) -> UnitConfig<T, C>
/// Replace config with unit.
pub fn unit_config<I, SF, Cfg, Req>(factory: I) -> UnitConfig<SF, Cfg, Req>
where
T: ServiceFactory<Config = ()>,
U: IntoServiceFactory<T>,
I: IntoServiceFactory<SF, Req>,
SF: ServiceFactory<Req, Config = ()>,
{
UnitConfig::new(factory.into_factory())
}
/// `map_config()` adapter service factory
pub struct MapConfig<A, F, C> {
a: A,
f: F,
e: PhantomData<C>,
pub struct MapConfig<SF, Req, F, Cfg> {
factory: SF,
cfg_mapper: F,
e: PhantomData<(Cfg, Req)>,
}
impl<A, F, C> MapConfig<A, F, C> {
impl<SF, Req, F, Cfg> MapConfig<SF, Req, F, Cfg> {
/// Create new `MapConfig` combinator
pub(crate) fn new(a: A, f: F) -> Self
pub(crate) fn new(factory: SF, cfg_mapper: F) -> Self
where
A: ServiceFactory,
F: Fn(C) -> A::Config,
SF: ServiceFactory<Req>,
F: Fn(Cfg) -> SF::Config,
{
Self {
a,
f,
factory,
cfg_mapper,
e: PhantomData,
}
}
}
impl<A, F, C> Clone for MapConfig<A, F, C>
impl<SF, Req, F, Cfg> Clone for MapConfig<SF, Req, F, Cfg>
where
A: Clone,
SF: Clone,
F: Clone,
{
fn clone(&self) -> Self {
Self {
a: self.a.clone(),
f: self.f.clone(),
factory: self.factory.clone(),
cfg_mapper: self.cfg_mapper.clone(),
e: PhantomData,
}
}
}
impl<A, F, C> ServiceFactory for MapConfig<A, F, C>
impl<SF, Req, F, Cfg> ServiceFactory<Req> for MapConfig<SF, Req, F, Cfg>
where
A: ServiceFactory,
F: Fn(C) -> A::Config,
SF: ServiceFactory<Req>,
F: Fn(Cfg) -> SF::Config,
{
type Request = A::Request;
type Response = A::Response;
type Error = A::Error;
type Response = SF::Response;
type Error = SF::Error;
type Config = C;
type Service = A::Service;
type InitError = A::InitError;
type Future = A::Future;
type Config = Cfg;
type Service = SF::Service;
type InitError = SF::InitError;
type Future = SF::Future;
fn new_service(&self, cfg: C) -> Self::Future {
self.a.new_service((self.f)(cfg))
fn new_service(&self, cfg: Self::Config) -> Self::Future {
let mapped_cfg = (self.cfg_mapper)(cfg);
self.factory.new_service(mapped_cfg)
}
}
/// `unit_config()` config combinator
pub struct UnitConfig<A, C> {
a: A,
e: PhantomData<C>,
pub struct UnitConfig<SF, Cfg, Req> {
factory: SF,
_phantom: PhantomData<(Cfg, Req)>,
}
impl<A, C> UnitConfig<A, C>
impl<SF, Cfg, Req> UnitConfig<SF, Cfg, Req>
where
A: ServiceFactory<Config = ()>,
SF: ServiceFactory<Req, Config = ()>,
{
/// Create new `UnitConfig` combinator
pub(crate) fn new(a: A) -> Self {
Self { a, e: PhantomData }
}
}
impl<A, C> Clone for UnitConfig<A, C>
where
A: Clone,
{
fn clone(&self) -> Self {
pub(crate) fn new(factory: SF) -> Self {
Self {
a: self.a.clone(),
e: PhantomData,
factory,
_phantom: PhantomData,
}
}
}
impl<A, C> ServiceFactory for UnitConfig<A, C>
impl<SF, Cfg, Req> Clone for UnitConfig<SF, Cfg, Req>
where
A: ServiceFactory<Config = ()>,
SF: Clone,
{
type Request = A::Request;
type Response = A::Response;
type Error = A::Error;
type Config = C;
type Service = A::Service;
type InitError = A::InitError;
type Future = A::Future;
fn new_service(&self, _: C) -> Self::Future {
self.a.new_service(())
fn clone(&self) -> Self {
Self {
factory: self.factory.clone(),
_phantom: PhantomData,
}
}
}
impl<SF, Cfg, Req> ServiceFactory<Req> for UnitConfig<SF, Cfg, Req>
where
SF: ServiceFactory<Req, Config = ()>,
{
type Response = SF::Response;
type Error = SF::Error;
type Config = Cfg;
type Service = SF::Service;
type InitError = SF::InitError;
type Future = SF::Future;
fn new_service(&self, _: Cfg) -> Self::Future {
self.factory.new_service(())
}
}

128
actix-service/src/map_err.rs
View File

@@ -1,7 +1,11 @@
use std::future::Future;
use std::marker::PhantomData;
use std::pin::Pin;
use std::task::{Context, Poll};
use core::{
future::Future,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use pin_project_lite::pin_project;
use super::{Service, ServiceFactory};
@@ -9,18 +13,18 @@ use super::{Service, ServiceFactory};
/// error.
///
/// This is created by the `ServiceExt::map_err` method.
pub struct MapErr<A, F, E> {
service: A,
pub struct MapErr<S, Req, F, E> {
service: S,
f: F,
_t: PhantomData<E>,
_t: PhantomData<(E, Req)>,
}
impl<A, F, E> MapErr<A, F, E> {
impl<S, Req, F, E> MapErr<S, Req, F, E> {
/// Create new `MapErr` combinator
pub(crate) fn new(service: A, f: F) -> Self
pub(crate) fn new(service: S, f: F) -> Self
where
A: Service,
F: Fn(A::Error) -> E,
S: Service<Req>,
F: Fn(S::Error) -> E,
{
Self {
service,
@@ -30,9 +34,9 @@ impl<A, F, E> MapErr<A, F, E> {
}
}
impl<A, F, E> Clone for MapErr<A, F, E>
impl<S, Req, F, E> Clone for MapErr<S, Req, F, E>
where
A: Clone,
S: Clone,
F: Clone,
{
fn clone(&self) -> Self {
@@ -44,39 +48,39 @@ where
}
}
impl<A, F, E> Service for MapErr<A, F, E>
impl<A, Req, F, E> Service<Req> for MapErr<A, Req, F, E>
where
A: Service,
A: Service<Req>,
F: Fn(A::Error) -> E + Clone,
{
type Request = A::Request;
type Response = A::Response;
type Error = E;
type Future = MapErrFuture<A, F, E>;
type Future = MapErrFuture<A, Req, F, E>;
fn poll_ready(&mut self, ctx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
self.service.poll_ready(ctx).map_err(&self.f)
}
fn call(&mut self, req: A::Request) -> Self::Future {
fn call(&mut self, req: Req) -> Self::Future {
MapErrFuture::new(self.service.call(req), self.f.clone())
}
}
#[pin_project::pin_project]
pub struct MapErrFuture<A, F, E>
where
A: Service,
F: Fn(A::Error) -> E,
{
f: F,
#[pin]
fut: A::Future,
pin_project! {
pub struct MapErrFuture<A, Req, F, E>
where
A: Service<Req>,
F: Fn(A::Error) -> E,
{
f: F,
#[pin]
fut: A::Future,
}
}
impl<A, F, E> MapErrFuture<A, F, E>
impl<A, Req, F, E> MapErrFuture<A, Req, F, E>
where
A: Service,
A: Service<Req>,
F: Fn(A::Error) -> E,
{
fn new(fut: A::Future, f: F) -> Self {
@@ -84,9 +88,9 @@ where
}
}
impl<A, F, E> Future for MapErrFuture<A, F, E>
impl<A, Req, F, E> Future for MapErrFuture<A, Req, F, E>
where
A: Service,
A: Service<Req>,
F: Fn(A::Error) -> E,
{
type Output = Result<A::Response, E>;
@@ -101,19 +105,19 @@ where
/// service's error.
///
/// This is created by the `NewServiceExt::map_err` method.
pub struct MapErrServiceFactory<A, F, E>
pub struct MapErrServiceFactory<A, Req, F, E>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: Fn(A::Error) -> E + Clone,
{
a: A,
f: F,
e: PhantomData<E>,
e: PhantomData<(E, Req)>,
}
impl<A, F, E> MapErrServiceFactory<A, F, E>
impl<A, Req, F, E> MapErrServiceFactory<A, Req, F, E>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: Fn(A::Error) -> E + Clone,
{
/// Create new `MapErr` new service instance
@@ -126,9 +130,9 @@ where
}
}
impl<A, F, E> Clone for MapErrServiceFactory<A, F, E>
impl<A, Req, F, E> Clone for MapErrServiceFactory<A, Req, F, E>
where
A: ServiceFactory + Clone,
A: ServiceFactory<Req> + Clone,
F: Fn(A::Error) -> E + Clone,
{
fn clone(&self) -> Self {
@@ -140,39 +144,39 @@ where
}
}
impl<A, F, E> ServiceFactory for MapErrServiceFactory<A, F, E>
impl<A, Req, F, E> ServiceFactory<Req> for MapErrServiceFactory<A, Req, F, E>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: Fn(A::Error) -> E + Clone,
{
type Request = A::Request;
type Response = A::Response;
type Error = E;
type Config = A::Config;
type Service = MapErr<A::Service, F, E>;
type Service = MapErr<A::Service, Req, F, E>;
type InitError = A::InitError;
type Future = MapErrServiceFuture<A, F, E>;
type Future = MapErrServiceFuture<A, Req, F, E>;
fn new_service(&self, cfg: A::Config) -> Self::Future {
MapErrServiceFuture::new(self.a.new_service(cfg), self.f.clone())
}
}
#[pin_project::pin_project]
pub struct MapErrServiceFuture<A, F, E>
where
A: ServiceFactory,
F: Fn(A::Error) -> E,
{
#[pin]
fut: A::Future,
f: F,
pin_project! {
pub struct MapErrServiceFuture<A, Req, F, E>
where
A: ServiceFactory<Req>,
F: Fn(A::Error) -> E,
{
#[pin]
fut: A::Future,
f: F,
}
}
impl<A, F, E> MapErrServiceFuture<A, F, E>
impl<A, Req, F, E> MapErrServiceFuture<A, Req, F, E>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: Fn(A::Error) -> E,
{
fn new(fut: A::Future, f: F) -> Self {
@@ -180,12 +184,12 @@ where
}
}
impl<A, F, E> Future for MapErrServiceFuture<A, F, E>
impl<A, Req, F, E> Future for MapErrServiceFuture<A, Req, F, E>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: Fn(A::Error) -> E + Clone,
{
type Output = Result<MapErr<A::Service, F, E>, A::InitError>;
type Output = Result<MapErr<A::Service, Req, F, E>, A::InitError>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.project();
@@ -199,15 +203,17 @@ where
#[cfg(test)]
mod tests {
use futures_util::future::{err, lazy, ok, Ready};
use futures_util::future::lazy;
use super::*;
use crate::{IntoServiceFactory, Service, ServiceFactory};
use crate::{
err, ok, IntoServiceFactory, Ready, Service, ServiceExt, ServiceFactory,
ServiceFactoryExt,
};
struct Srv;
impl Service for Srv {
type Request = ();
impl Service<()> for Srv {
type Response = ();
type Error = ();
type Future = Ready<Result<(), ()>>;

58
actix-service/src/map_init_err.rs
View File

@@ -1,21 +1,25 @@
use std::future::Future;
use std::marker::PhantomData;
use std::pin::Pin;
use std::task::{Context, Poll};
use core::{
future::Future,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use pin_project_lite::pin_project;
use super::ServiceFactory;
/// `MapInitErr` service combinator
pub struct MapInitErr<A, F, E> {
pub struct MapInitErr<A, F, Req, Err> {
a: A,
f: F,
e: PhantomData<E>,
e: PhantomData<(Req, Err)>,
}
impl<A, F, E> MapInitErr<A, F, E>
impl<A, F, Req, Err> MapInitErr<A, F, Req, Err>
where
A: ServiceFactory,
F: Fn(A::InitError) -> E,
A: ServiceFactory<Req>,
F: Fn(A::InitError) -> Err,
{
/// Create new `MapInitErr` combinator
pub(crate) fn new(a: A, f: F) -> Self {
@@ -27,7 +31,7 @@ where
}
}
impl<A, F, E> Clone for MapInitErr<A, F, E>
impl<A, F, Req, E> Clone for MapInitErr<A, F, Req, E>
where
A: Clone,
F: Clone,
@@ -41,39 +45,39 @@ where
}
}
impl<A, F, E> ServiceFactory for MapInitErr<A, F, E>
impl<A, F, Req, E> ServiceFactory<Req> for MapInitErr<A, F, Req, E>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: Fn(A::InitError) -> E + Clone,
{
type Request = A::Request;
type Response = A::Response;
type Error = A::Error;
type Config = A::Config;
type Service = A::Service;
type InitError = E;
type Future = MapInitErrFuture<A, F, E>;
type Future = MapInitErrFuture<A, F, Req, E>;
fn new_service(&self, cfg: A::Config) -> Self::Future {
MapInitErrFuture::new(self.a.new_service(cfg), self.f.clone())
}
}
#[pin_project::pin_project]
pub struct MapInitErrFuture<A, F, E>
where
A: ServiceFactory,
F: Fn(A::InitError) -> E,
{
f: F,
#[pin]
fut: A::Future,
pin_project! {
pub struct MapInitErrFuture<A, F, Req, E>
where
A: ServiceFactory<Req>,
F: Fn(A::InitError) -> E,
{
f: F,
#[pin]
fut: A::Future,
}
}
impl<A, F, E> MapInitErrFuture<A, F, E>
impl<A, F, Req, E> MapInitErrFuture<A, F, Req, E>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: Fn(A::InitError) -> E,
{
fn new(fut: A::Future, f: F) -> Self {
@@ -81,9 +85,9 @@ where
}
}
impl<A, F, E> Future for MapInitErrFuture<A, F, E>
impl<A, F, Req, E> Future for MapInitErrFuture<A, F, Req, E>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
F: Fn(A::InitError) -> E,
{
type Output = Result<A::Service, E>;

262
actix-service/src/pipeline.rs
View File

@@ -1,42 +1,49 @@
use std::future::Future;
use std::task::{Context, Poll};
use core::{
marker::PhantomData,
task::{Context, Poll},
};
use crate::and_then::{AndThenService, AndThenServiceFactory};
use crate::and_then_apply_fn::{AndThenApplyFn, AndThenApplyFnFactory};
use crate::map::{Map, MapServiceFactory};
use crate::map_err::{MapErr, MapErrServiceFactory};
use crate::map_init_err::MapInitErr;
use crate::then::{ThenService, ThenServiceFactory};
use crate::{IntoService, IntoServiceFactory, Service, ServiceFactory};
/// Contruct new pipeline with one service in pipeline chain.
pub fn pipeline<F, T>(service: F) -> Pipeline<T>
/// Construct new pipeline with one service in pipeline chain.
pub fn pipeline<I, S, Req>(service: I) -> Pipeline<S, Req>
where
F: IntoService<T>,
T: Service,
I: IntoService<S, Req>,
S: Service<Req>,
{
Pipeline {
service: service.into_service(),
_phantom: PhantomData,
}
}
/// Contruct new pipeline factory with one service factory.
pub fn pipeline_factory<T, F>(factory: F) -> PipelineFactory<T>
/// Construct new pipeline factory with one service factory.
pub fn pipeline_factory<I, SF, Req>(factory: I) -> PipelineFactory<SF, Req>
where
T: ServiceFactory,
F: IntoServiceFactory<T>,
I: IntoServiceFactory<SF, Req>,
SF: ServiceFactory<Req>,
{
PipelineFactory {
factory: factory.into_factory(),
_phantom: PhantomData,
}
}
/// Pipeline service - pipeline allows to compose multiple service into one service.
pub struct Pipeline<T> {
service: T,
pub struct Pipeline<S, Req> {
service: S,
_phantom: PhantomData<Req>,
}
impl<T: Service> Pipeline<T> {
impl<S, Req> Pipeline<S, Req>
where
S: Service<Req>,
{
/// Call another service after call to this one has resolved successfully.
///
/// This function can be used to chain two services together and ensure that
@@ -46,41 +53,18 @@ impl<T: Service> Pipeline<T> {
///
/// Note that this function consumes the receiving service and returns a
/// wrapped version of it.
pub fn and_then<F, U>(
pub fn and_then<I, S1>(
self,
service: F,
) -> Pipeline<
impl Service<Request = T::Request, Response = U::Response, Error = T::Error> + Clone,
>
service: I,
) -> Pipeline<impl Service<Req, Response = S1::Response, Error = S::Error> + Clone, Req>
where
Self: Sized,
F: IntoService<U>,
U: Service<Request = T::Response, Error = T::Error>,
I: IntoService<S1, S::Response>,
S1: Service<S::Response, Error = S::Error>,
{
Pipeline {
service: AndThenService::new(self.service, service.into_service()),
}
}
/// Apply function to specified service and use it as a next service in
/// chain.
///
/// Short version of `pipeline_factory(...).and_then(apply_fn_factory(...))`
pub fn and_then_apply_fn<U, I, F, Fut, Res, Err>(
self,
service: I,
f: F,
) -> Pipeline<impl Service<Request = T::Request, Response = Res, Error = Err> + Clone>
where
Self: Sized,
I: IntoService<U>,
U: Service,
F: FnMut(T::Response, &mut U) -> Fut,
Fut: Future<Output = Result<Res, Err>>,
Err: From<T::Error> + From<U::Error>,
{
Pipeline {
service: AndThenApplyFn::new(self.service, service.into_service(), f),
_phantom: PhantomData,
}
}
@@ -89,19 +73,18 @@ impl<T: Service> Pipeline<T> {
///
/// Note that this function consumes the receiving pipeline and returns a
/// wrapped version of it.
pub fn then<F, U>(
pub fn then<F, S1>(
self,
service: F,
) -> Pipeline<
impl Service<Request = T::Request, Response = U::Response, Error = T::Error> + Clone,
>
) -> Pipeline<impl Service<Req, Response = S1::Response, Error = S::Error> + Clone, Req>
where
Self: Sized,
F: IntoService<U>,
U: Service<Request = Result<T::Response, T::Error>, Error = T::Error>,
F: IntoService<S1, Result<S::Response, S::Error>>,
S1: Service<Result<S::Response, S::Error>, Error = S::Error>,
{
Pipeline {
service: ThenService::new(self.service, service.into_service()),
_phantom: PhantomData,
}
}
@@ -114,13 +97,14 @@ impl<T: Service> Pipeline<T> {
/// Note that this function consumes the receiving service and returns a
/// wrapped version of it, similar to the existing `map` methods in the
/// standard library.
pub fn map<F, R>(self, f: F) -> Pipeline<Map<T, F, R>>
pub fn map<F, R>(self, f: F) -> Pipeline<Map<S, F, Req, R>, Req>
where
Self: Sized,
F: FnMut(T::Response) -> R,
F: FnMut(S::Response) -> R,
{
Pipeline {
service: Map::new(self.service, f),
_phantom: PhantomData,
}
}
@@ -132,114 +116,85 @@ impl<T: Service> Pipeline<T> {
///
/// Note that this function consumes the receiving service and returns a
/// wrapped version of it.
pub fn map_err<F, E>(self, f: F) -> Pipeline<MapErr<T, F, E>>
pub fn map_err<F, E>(self, f: F) -> Pipeline<MapErr<S, Req, F, E>, Req>
where
Self: Sized,
F: Fn(T::Error) -> E,
F: Fn(S::Error) -> E,
{
Pipeline {
service: MapErr::new(self.service, f),
_phantom: PhantomData,
}
}
}
impl<T> Clone for Pipeline<T>
impl<T, Req> Clone for Pipeline<T, Req>
where
T: Clone,
{
fn clone(&self) -> Self {
Pipeline {
service: self.service.clone(),
_phantom: PhantomData,
}
}
}
impl<T: Service> Service for Pipeline<T> {
type Request = T::Request;
type Response = T::Response;
type Error = T::Error;
type Future = T::Future;
impl<S: Service<Req>, Req> Service<Req> for Pipeline<S, Req> {
type Response = S::Response;
type Error = S::Error;
type Future = S::Future;
#[inline]
fn poll_ready(&mut self, ctx: &mut Context<'_>) -> Poll<Result<(), T::Error>> {
fn poll_ready(&mut self, ctx: &mut Context<'_>) -> Poll<Result<(), S::Error>> {
self.service.poll_ready(ctx)
}
#[inline]
fn call(&mut self, req: T::Request) -> Self::Future {
fn call(&mut self, req: Req) -> Self::Future {
self.service.call(req)
}
}
/// Pipeline factory
pub struct PipelineFactory<T> {
factory: T,
pub struct PipelineFactory<SF, Req> {
factory: SF,
_phantom: PhantomData<Req>,
}
impl<T: ServiceFactory> PipelineFactory<T> {
impl<SF, Req> PipelineFactory<SF, Req>
where
SF: ServiceFactory<Req>,
{
/// Call another service after call to this one has resolved successfully.
pub fn and_then<F, U>(
pub fn and_then<I, SF1>(
self,
factory: F,
factory: I,
) -> PipelineFactory<
impl ServiceFactory<
Request = T::Request,
Response = U::Response,
Error = T::Error,
Config = T::Config,
InitError = T::InitError,
Service = impl Service<
Request = T::Request,
Response = U::Response,
Error = T::Error,
> + Clone,
Req,
Response = SF1::Response,
Error = SF::Error,
Config = SF::Config,
InitError = SF::InitError,
Service = impl Service<Req, Response = SF1::Response, Error = SF::Error> + Clone,
> + Clone,
Req,
>
where
Self: Sized,
T::Config: Clone,
F: IntoServiceFactory<U>,
U: ServiceFactory<
Config = T::Config,
Request = T::Response,
Error = T::Error,
InitError = T::InitError,
SF::Config: Clone,
I: IntoServiceFactory<SF1, SF::Response>,
SF1: ServiceFactory<
SF::Response,
Config = SF::Config,
Error = SF::Error,
InitError = SF::InitError,
>,
{
PipelineFactory {
factory: AndThenServiceFactory::new(self.factory, factory.into_factory()),
}
}
/// Apply function to specified service and use it as a next service in
/// chain.
///
/// Short version of `pipeline_factory(...).and_then(apply_fn_factory(...))`
pub fn and_then_apply_fn<U, I, F, Fut, Res, Err>(
self,
factory: I,
f: F,
) -> PipelineFactory<
impl ServiceFactory<
Request = T::Request,
Response = Res,
Error = Err,
Config = T::Config,
InitError = T::InitError,
Service = impl Service<Request = T::Request, Response = Res, Error = Err> + Clone,
> + Clone,
>
where
Self: Sized,
T::Config: Clone,
I: IntoServiceFactory<U>,
U: ServiceFactory<Config = T::Config, InitError = T::InitError>,
F: FnMut(T::Response, &mut U::Service) -> Fut + Clone,
Fut: Future<Output = Result<Res, Err>>,
Err: From<T::Error> + From<U::Error>,
{
PipelineFactory {
factory: AndThenApplyFnFactory::new(self.factory, factory.into_factory(), f),
_phantom: PhantomData,
}
}
@@ -249,96 +204,103 @@ impl<T: ServiceFactory> PipelineFactory<T> {
///
/// Note that this function consumes the receiving pipeline and returns a
/// wrapped version of it.
pub fn then<F, U>(
pub fn then<I, SF1>(
self,
factory: F,
factory: I,
) -> PipelineFactory<
impl ServiceFactory<
Request = T::Request,
Response = U::Response,
Error = T::Error,
Config = T::Config,
InitError = T::InitError,
Service = impl Service<
Request = T::Request,
Response = U::Response,
Error = T::Error,
> + Clone,
Req,
Response = SF1::Response,
Error = SF::Error,
Config = SF::Config,
InitError = SF::InitError,
Service = impl Service<Req, Response = SF1::Response, Error = SF::Error> + Clone,
> + Clone,
Req,
>
where
Self: Sized,
T::Config: Clone,
F: IntoServiceFactory<U>,
U: ServiceFactory<
Config = T::Config,
Request = Result<T::Response, T::Error>,
Error = T::Error,
InitError = T::InitError,
SF::Config: Clone,
I: IntoServiceFactory<SF1, Result<SF::Response, SF::Error>>,
SF1: ServiceFactory<
Result<SF::Response, SF::Error>,
Config = SF::Config,
Error = SF::Error,
InitError = SF::InitError,
>,
{
PipelineFactory {
factory: ThenServiceFactory::new(self.factory, factory.into_factory()),
_phantom: PhantomData,
}
}
/// Map this service's output to a different type, returning a new service
/// of the resulting type.
pub fn map<F, R>(self, f: F) -> PipelineFactory<MapServiceFactory<T, F, R>>
pub fn map<F, R>(self, f: F) -> PipelineFactory<MapServiceFactory<SF, F, Req, R>, Req>
where
Self: Sized,
F: FnMut(T::Response) -> R + Clone,
F: FnMut(SF::Response) -> R + Clone,
{
PipelineFactory {
factory: MapServiceFactory::new(self.factory, f),
_phantom: PhantomData,
}
}
/// Map this service's error to a different error, returning a new service.
pub fn map_err<F, E>(self, f: F) -> PipelineFactory<MapErrServiceFactory<T, F, E>>
pub fn map_err<F, E>(
self,
f: F,
) -> PipelineFactory<MapErrServiceFactory<SF, Req, F, E>, Req>
where
Self: Sized,
F: Fn(T::Error) -> E + Clone,
F: Fn(SF::Error) -> E + Clone,
{
PipelineFactory {
factory: MapErrServiceFactory::new(self.factory, f),
_phantom: PhantomData,
}
}
/// Map this factory's init error to a different error, returning a new service.
pub fn map_init_err<F, E>(self, f: F) -> PipelineFactory<MapInitErr<T, F, E>>
pub fn map_init_err<F, E>(self, f: F) -> PipelineFactory<MapInitErr<SF, F, Req, E>, Req>
where
Self: Sized,
F: Fn(T::InitError) -> E + Clone,
F: Fn(SF::InitError) -> E + Clone,
{
PipelineFactory {
factory: MapInitErr::new(self.factory, f),
_phantom: PhantomData,
}
}
}
impl<T> Clone for PipelineFactory<T>
impl<T, Req> Clone for PipelineFactory<T, Req>
where
T: Clone,
{
fn clone(&self) -> Self {
PipelineFactory {
factory: self.factory.clone(),
_phantom: PhantomData,
}
}
}
impl<T: ServiceFactory> ServiceFactory for PipelineFactory<T> {
type Config = T::Config;
type Request = T::Request;
type Response = T::Response;
type Error = T::Error;
type Service = T::Service;
type InitError = T::InitError;
type Future = T::Future;
impl<SF, Req> ServiceFactory<Req> for PipelineFactory<SF, Req>
where
SF: ServiceFactory<Req>,
{
type Config = SF::Config;
type Response = SF::Response;
type Error = SF::Error;
type Service = SF::Service;
type InitError = SF::InitError;
type Future = SF::Future;
#[inline]
fn new_service(&self, cfg: T::Config) -> Self::Future {
fn new_service(&self, cfg: SF::Config) -> Self::Future {
self.factory.new_service(cfg)
}
}

54
actix-service/src/ready.rs Normal file
View File

@@ -0,0 +1,54 @@
//! When MSRV is 1.48, replace with `core::future::Ready` and `core::future::ready()`.
use core::{
future::Future,
pin::Pin,
task::{Context, Poll},
};
/// Future for the [`ready`](ready()) function.
#[derive(Debug, Clone)]
#[must_use = "futures do nothing unless you `.await` or poll them"]
pub struct Ready<T> {
val: Option<T>,
}
impl<T> Ready<T> {
/// Unwraps the value from this immediately ready future.
#[inline]
pub fn into_inner(mut self) -> T {
self.val.take().unwrap()
}
}
impl<T> Unpin for Ready<T> {}
impl<T> Future for Ready<T> {
type Output = T;
#[inline]
fn poll(mut self: Pin<&mut Self>, _cx: &mut Context<'_>) -> Poll<T> {
let val = self.val.take().expect("Ready can not be polled twice.");
Poll::Ready(val)
}
}
/// Creates a future that is immediately ready with a value.
#[allow(dead_code)]
pub(crate) fn ready<T>(val: T) -> Ready<T> {
Ready { val: Some(val) }
}
/// Create a future that is immediately ready with a success value.
#[allow(dead_code)]
pub(crate) fn ok<T, E>(val: T) -> Ready<Result<T, E>> {
Ready { val: Some(Ok(val)) }
}
/// Create a future that is immediately ready with an error value.
#[allow(dead_code)]
pub(crate) fn err<T, E>(err: E) -> Ready<Result<T, E>> {
Ready {
val: Some(Err(err)),
}
}

188
actix-service/src/then.rs
View File

@@ -1,8 +1,13 @@
use std::cell::RefCell;
use std::future::Future;
use std::pin::Pin;
use std::rc::Rc;
use std::task::{Context, Poll};
use alloc::rc::Rc;
use core::{
cell::RefCell,
future::Future,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use pin_project_lite::pin_project;
use super::{Service, ServiceFactory};
@@ -10,34 +15,33 @@ use super::{Service, ServiceFactory};
/// another service.
///
/// This is created by the `Pipeline::then` method.
pub(crate) struct ThenService<A, B>(Rc<RefCell<(A, B)>>);
pub(crate) struct ThenService<A, B, Req>(Rc<RefCell<(A, B)>>, PhantomData<Req>);
impl<A, B> ThenService<A, B> {
impl<A, B, Req> ThenService<A, B, Req> {
/// Create new `.then()` combinator
pub(crate) fn new(a: A, b: B) -> ThenService<A, B>
pub(crate) fn new(a: A, b: B) -> ThenService<A, B, Req>
where
A: Service,
B: Service<Request = Result<A::Response, A::Error>, Error = A::Error>,
A: Service<Req>,
B: Service<Result<A::Response, A::Error>, Error = A::Error>,
{
Self(Rc::new(RefCell::new((a, b))))
Self(Rc::new(RefCell::new((a, b))), PhantomData)
}
}
impl<A, B> Clone for ThenService<A, B> {
impl<A, B, Req> Clone for ThenService<A, B, Req> {
fn clone(&self) -> Self {
ThenService(self.0.clone())
ThenService(self.0.clone(), PhantomData)
}
}
impl<A, B> Service for ThenService<A, B>
impl<A, B, Req> Service<Req> for ThenService<A, B, Req>
where
A: Service,
B: Service<Request = Result<A::Response, A::Error>, Error = A::Error>,
A: Service<Req>,
B: Service<Result<A::Response, A::Error>, Error = A::Error>,
{
type Request = A::Request;
type Response = B::Response;
type Error = B::Error;
type Future = ThenServiceResponse<A, B>;
type Future = ThenServiceResponse<A, B, Req>;
fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
let mut srv = self.0.borrow_mut();
@@ -49,38 +53,44 @@ where
}
}
fn call(&mut self, req: A::Request) -> Self::Future {
fn call(&mut self, req: Req) -> Self::Future {
ThenServiceResponse {
state: State::A(self.0.borrow_mut().0.call(req), Some(self.0.clone())),
state: State::A {
fut: self.0.borrow_mut().0.call(req),
b: Some(self.0.clone()),
},
}
}
}
#[pin_project::pin_project]
pub(crate) struct ThenServiceResponse<A, B>
where
A: Service,
B: Service<Request = Result<A::Response, A::Error>>,
{
#[pin]
state: State<A, B>,
pin_project! {
pub(crate) struct ThenServiceResponse<A, B, Req>
where
A: Service<Req>,
B: Service<Result<A::Response, A::Error>>,
{
#[pin]
state: State<A, B, Req>,
}
}
#[pin_project::pin_project(project = StateProj)]
enum State<A, B>
where
A: Service,
B: Service<Request = Result<A::Response, A::Error>>,
{
A(#[pin] A::Future, Option<Rc<RefCell<(A, B)>>>),
B(#[pin] B::Future),
Empty,
pin_project! {
#[project = StateProj]
enum State<A, B, Req>
where
A: Service<Req>,
B: Service<Result<A::Response, A::Error>>,
{
A { #[pin] fut: A::Future, b: Option<Rc<RefCell<(A, B)>>> },
B { #[pin] fut: B::Future },
Empty,
}
}
impl<A, B> Future for ThenServiceResponse<A, B>
impl<A, B, Req> Future for ThenServiceResponse<A, B, Req>
where
A: Service,
B: Service<Request = Result<A::Response, A::Error>>,
A: Service<Req>,
B: Service<Result<A::Response, A::Error>>,
{
type Output = Result<B::Response, B::Error>;
@@ -88,17 +98,17 @@ where
let mut this = self.as_mut().project();
match this.state.as_mut().project() {
StateProj::A(fut, b) => match fut.poll(cx) {
StateProj::A { fut, b } => match fut.poll(cx) {
Poll::Ready(res) => {
let b = b.take().unwrap();
this.state.set(State::Empty); // drop fut A
let fut = b.borrow_mut().1.call(res);
this.state.set(State::B(fut));
this.state.set(State::B { fut });
self.poll(cx)
}
Poll::Pending => Poll::Pending,
},
StateProj::B(fut) => fut.poll(cx).map(|r| {
StateProj::B { fut } => fut.poll(cx).map(|r| {
this.state.set(State::Empty);
r
}),
@@ -110,44 +120,43 @@ where
}
/// `.then()` service factory combinator
pub(crate) struct ThenServiceFactory<A, B>(Rc<(A, B)>);
pub(crate) struct ThenServiceFactory<A, B, Req>(Rc<(A, B)>, PhantomData<Req>);
impl<A, B> ThenServiceFactory<A, B>
impl<A, B, Req> ThenServiceFactory<A, B, Req>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
A::Config: Clone,
B: ServiceFactory<
Result<A::Response, A::Error>,
Config = A::Config,
Request = Result<A::Response, A::Error>,
Error = A::Error,
InitError = A::InitError,
>,
{
/// Create new `AndThen` combinator
pub(crate) fn new(a: A, b: B) -> Self {
Self(Rc::new((a, b)))
Self(Rc::new((a, b)), PhantomData)
}
}
impl<A, B> ServiceFactory for ThenServiceFactory<A, B>
impl<A, B, Req> ServiceFactory<Req> for ThenServiceFactory<A, B, Req>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
A::Config: Clone,
B: ServiceFactory<
Result<A::Response, A::Error>,
Config = A::Config,
Request = Result<A::Response, A::Error>,
Error = A::Error,
InitError = A::InitError,
>,
{
type Request = A::Request;
type Response = B::Response;
type Error = A::Error;
type Config = A::Config;
type Service = ThenService<A::Service, B::Service>;
type Service = ThenService<A::Service, B::Service, Req>;
type InitError = A::InitError;
type Future = ThenServiceFactoryResponse<A, B>;
type Future = ThenServiceFactoryResponse<A, B, Req>;
fn new_service(&self, cfg: A::Config) -> Self::Future {
let srv = &*self.0;
@@ -155,37 +164,38 @@ where
}
}
impl<A, B> Clone for ThenServiceFactory<A, B> {
impl<A, B, Req> Clone for ThenServiceFactory<A, B, Req> {
fn clone(&self) -> Self {
Self(self.0.clone())
Self(self.0.clone(), PhantomData)
}
}
#[pin_project::pin_project]
pub(crate) struct ThenServiceFactoryResponse<A, B>
where
A: ServiceFactory,
B: ServiceFactory<
Config = A::Config,
Request = Result<A::Response, A::Error>,
Error = A::Error,
InitError = A::InitError,
>,
{
#[pin]
fut_b: B::Future,
#[pin]
fut_a: A::Future,
a: Option<A::Service>,
b: Option<B::Service>,
pin_project! {
pub(crate) struct ThenServiceFactoryResponse<A, B, Req>
where
A: ServiceFactory<Req>,
B: ServiceFactory<
Result<A::Response, A::Error>,
Config = A::Config,
Error = A::Error,
InitError = A::InitError,
>,
{
#[pin]
fut_b: B::Future,
#[pin]
fut_a: A::Future,
a: Option<A::Service>,
b: Option<B::Service>,
}
}
impl<A, B> ThenServiceFactoryResponse<A, B>
impl<A, B, Req> ThenServiceFactoryResponse<A, B, Req>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
B: ServiceFactory<
Result<A::Response, A::Error>,
Config = A::Config,
Request = Result<A::Response, A::Error>,
Error = A::Error,
InitError = A::InitError,
>,
@@ -200,17 +210,17 @@ where
}
}
impl<A, B> Future for ThenServiceFactoryResponse<A, B>
impl<A, B, Req> Future for ThenServiceFactoryResponse<A, B, Req>
where
A: ServiceFactory,
A: ServiceFactory<Req>,
B: ServiceFactory<
Result<A::Response, A::Error>,
Config = A::Config,
Request = Result<A::Response, A::Error>,
Error = A::Error,
InitError = A::InitError,
>,
{
type Output = Result<ThenService<A::Service, B::Service>, A::InitError>;
type Output = Result<ThenService<A::Service, B::Service, Req>, A::InitError>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.project();
@@ -238,19 +248,20 @@ where
#[cfg(test)]
mod tests {
use std::cell::Cell;
use std::rc::Rc;
use std::task::{Context, Poll};
use alloc::rc::Rc;
use core::{
cell::Cell,
task::{Context, Poll},
};
use futures_util::future::{err, lazy, ok, ready, Ready};
use futures_util::future::lazy;
use crate::{pipeline, pipeline_factory, Service, ServiceFactory};
use crate::{err, ok, pipeline, pipeline_factory, ready, Ready, Service, ServiceFactory};
#[derive(Clone)]
struct Srv1(Rc<Cell<usize>>);
impl Service for Srv1 {
type Request = Result<&'static str, &'static str>;
impl Service<Result<&'static str, &'static str>> for Srv1 {
type Response = &'static str;
type Error = ();
type Future = Ready<Result<Self::Response, Self::Error>>;
@@ -270,8 +281,7 @@ mod tests {
struct Srv2(Rc<Cell<usize>>);
impl Service for Srv2 {
type Request = Result<&'static str, ()>;
impl Service<Result<&'static str, ()>> for Srv2 {
type Response = (&'static str, &'static str);
type Error = ();
type Future = Ready<Result<Self::Response, ()>>;

125
actix-service/src/transform.rs
View File

@@ -1,18 +1,22 @@
use std::future::Future;
use std::pin::Pin;
use std::rc::Rc;
use std::sync::Arc;
use std::task::{Context, Poll};
use alloc::{rc::Rc, sync::Arc};
use core::{
future::Future,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use pin_project_lite::pin_project;
use crate::transform_err::TransformMapInitErr;
use crate::{IntoServiceFactory, Service, ServiceFactory};
/// Apply transform to a service.
pub fn apply<T, S, U>(t: T, factory: U) -> ApplyTransform<T, S>
pub fn apply<T, S, I, Req>(t: T, factory: I) -> ApplyTransform<T, S, Req>
where
S: ServiceFactory,
T: Transform<S::Service, InitError = S::InitError>,
U: IntoServiceFactory<S>,
I: IntoServiceFactory<S, Req>,
S: ServiceFactory<Req>,
T: Transform<S::Service, Req, InitError = S::InitError>,
{
ApplyTransform::new(t, factory.into_factory())
}
@@ -70,7 +74,7 @@ where
/// timeout: Duration,
/// }
///
/// impl<S> Transform<S> for TimeoutTransform<E>
/// impl<S> Transform<S> for TimeoutTransform
/// where
/// S: Service,
/// {
@@ -89,10 +93,7 @@ where
/// }
/// }
/// ```
pub trait Transform<S> {
/// Requests handled by the service.
type Request;
pub trait Transform<S, Req> {
/// Responses given by the service.
type Response;
@@ -100,11 +101,7 @@ pub trait Transform<S> {
type Error;
/// The `TransformService` value created by this factory
type Transform: Service<
Request = Self::Request,
Response = Self::Response,
Error = Self::Error,
>;
type Transform: Service<Req, Response = Self::Response, Error = Self::Error>;
/// Errors produced while building a transform service.
type InitError;
@@ -115,9 +112,9 @@ pub trait Transform<S> {
/// Creates and returns a new Transform component, asynchronously
fn new_transform(&self, service: S) -> Self::Future;
/// Map this transforms's factory error to a different error,
/// Map this transform's factory error to a different error,
/// returning a new transform service factory.
fn map_init_err<F, E>(self, f: F) -> TransformMapInitErr<Self, S, F, E>
fn map_init_err<F, E>(self, f: F) -> TransformMapInitErr<Self, S, Req, F, E>
where
Self: Sized,
F: Fn(Self::InitError) -> E + Clone,
@@ -126,11 +123,10 @@ pub trait Transform<S> {
}
}
impl<T, S> Transform<S> for Rc<T>
impl<T, S, Req> Transform<S, Req> for Rc<T>
where
T: Transform<S>,
T: Transform<S, Req>,
{
type Request = T::Request;
type Response = T::Response;
type Error = T::Error;
type InitError = T::InitError;
@@ -142,11 +138,10 @@ where
}
}
impl<T, S> Transform<S> for Arc<T>
impl<T, S, Req> Transform<S, Req> for Arc<T>
where
T: Transform<S>,
T: Transform<S, Req>,
{
type Request = T::Request;
type Response = T::Response;
type Error = T::Error;
type InitError = T::InitError;
@@ -159,72 +154,76 @@ where
}
/// `Apply` transform to new service
pub struct ApplyTransform<T, S>(Rc<(T, S)>);
pub struct ApplyTransform<T, S, Req>(Rc<(T, S)>, PhantomData<Req>);
impl<T, S> ApplyTransform<T, S>
impl<T, S, Req> ApplyTransform<T, S, Req>
where
S: ServiceFactory,
T: Transform<S::Service, InitError = S::InitError>,
S: ServiceFactory<Req>,
T: Transform<S::Service, Req, InitError = S::InitError>,
{
/// Create new `ApplyTransform` new service instance
fn new(t: T, service: S) -> Self {
Self(Rc::new((t, service)))
Self(Rc::new((t, service)), PhantomData)
}
}
impl<T, S> Clone for ApplyTransform<T, S> {
impl<T, S, Req> Clone for ApplyTransform<T, S, Req> {
fn clone(&self) -> Self {
ApplyTransform(self.0.clone())
ApplyTransform(self.0.clone(), PhantomData)
}
}
impl<T, S> ServiceFactory for ApplyTransform<T, S>
impl<T, S, Req> ServiceFactory<Req> for ApplyTransform<T, S, Req>
where
S: ServiceFactory,
T: Transform<S::Service, InitError = S::InitError>,
S: ServiceFactory<Req>,
T: Transform<S::Service, Req, InitError = S::InitError>,
{
type Request = T::Request;
type Response = T::Response;
type Error = T::Error;
type Config = S::Config;
type Service = T::Transform;
type InitError = T::InitError;
type Future = ApplyTransformFuture<T, S>;
type Future = ApplyTransformFuture<T, S, Req>;
fn new_service(&self, cfg: S::Config) -> Self::Future {
ApplyTransformFuture {
store: self.0.clone(),
state: ApplyTransformFutureState::A(self.0.as_ref().1.new_service(cfg)),
state: ApplyTransformFutureState::A {
fut: self.0.as_ref().1.new_service(cfg),
},
}
}
}
#[pin_project::pin_project]
pub struct ApplyTransformFuture<T, S>
where
S: ServiceFactory,
T: Transform<S::Service, InitError = S::InitError>,
{
store: Rc<(T, S)>,
#[pin]
state: ApplyTransformFutureState<T, S>,
pin_project! {
pub struct ApplyTransformFuture<T, S, Req>
where
S: ServiceFactory<Req>,
T: Transform<S::Service, Req, InitError = S::InitError>,
{
store: Rc<(T, S)>,
#[pin]
state: ApplyTransformFutureState<T, S, Req>,
}
}
#[pin_project::pin_project(project = ApplyTransformFutureStateProj)]
pub enum ApplyTransformFutureState<T, S>
where
S: ServiceFactory,
T: Transform<S::Service, InitError = S::InitError>,
{
A(#[pin] S::Future),
B(#[pin] T::Future),
pin_project! {
#[project = ApplyTransformFutureStateProj]
pub enum ApplyTransformFutureState<T, S, Req>
where
S: ServiceFactory<Req>,
T: Transform<S::Service, Req, InitError = S::InitError>,
{
A { #[pin] fut: S::Future },
B { #[pin] fut: T::Future },
}
}
impl<T, S> Future for ApplyTransformFuture<T, S>
impl<T, S, Req> Future for ApplyTransformFuture<T, S, Req>
where
S: ServiceFactory,
T: Transform<S::Service, InitError = S::InitError>,
S: ServiceFactory<Req>,
T: Transform<S::Service, Req, InitError = S::InitError>,
{
type Output = Result<T::Transform, T::InitError>;
@@ -232,15 +231,15 @@ where
let mut this = self.as_mut().project();
match this.state.as_mut().project() {
ApplyTransformFutureStateProj::A(fut) => match fut.poll(cx)? {
ApplyTransformFutureStateProj::A { fut } => match fut.poll(cx)? {
Poll::Ready(srv) => {
let fut = this.store.0.new_transform(srv);
this.state.set(ApplyTransformFutureState::B(fut));
this.state.set(ApplyTransformFutureState::B { fut });
self.poll(cx)
}
Poll::Pending => Poll::Pending,
},
ApplyTransformFutureStateProj::B(fut) => fut.poll(cx),
ApplyTransformFutureStateProj::B { fut } => fut.poll(cx),
}
}
}

70
actix-service/src/transform_err.rs
View File

@@ -1,7 +1,11 @@
use std::future::Future;
use std::marker::PhantomData;
use std::pin::Pin;
use std::task::{Context, Poll};
use core::{
future::Future,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use pin_project_lite::pin_project;
use super::Transform;
@@ -9,75 +13,75 @@ use super::Transform;
/// transform's init error.
///
/// This is created by the `Transform::map_init_err` method.
pub struct TransformMapInitErr<T, S, F, E> {
t: T,
f: F,
e: PhantomData<(S, E)>,
pub struct TransformMapInitErr<T, S, Req, F, E> {
transform: T,
mapper: F,
_phantom: PhantomData<(S, Req, E)>,
}
impl<T, S, F, E> TransformMapInitErr<T, S, F, E> {
impl<T, S, F, E, Req> TransformMapInitErr<T, S, Req, F, E> {
pub(crate) fn new(t: T, f: F) -> Self
where
T: Transform<S>,
T: Transform<S, Req>,
F: Fn(T::InitError) -> E,
{
Self {
t,
f,
e: PhantomData,
transform: t,
mapper: f,
_phantom: PhantomData,
}
}
}
impl<T, S, F, E> Clone for TransformMapInitErr<T, S, F, E>
impl<T, S, Req, F, E> Clone for TransformMapInitErr<T, S, Req, F, E>
where
T: Clone,
F: Clone,
{
fn clone(&self) -> Self {
Self {
t: self.t.clone(),
f: self.f.clone(),
e: PhantomData,
transform: self.transform.clone(),
mapper: self.mapper.clone(),
_phantom: PhantomData,
}
}
}
impl<T, S, F, E> Transform<S> for TransformMapInitErr<T, S, F, E>
impl<T, S, F, E, Req> Transform<S, Req> for TransformMapInitErr<T, S, Req, F, E>
where
T: Transform<S>,
T: Transform<S, Req>,
F: Fn(T::InitError) -> E + Clone,
{
type Request = T::Request;
type Response = T::Response;
type Error = T::Error;
type Transform = T::Transform;
type InitError = E;
type Future = TransformMapInitErrFuture<T, S, F, E>;
type Future = TransformMapInitErrFuture<T, S, F, E, Req>;
fn new_transform(&self, service: S) -> Self::Future {
TransformMapInitErrFuture {
fut: self.t.new_transform(service),
f: self.f.clone(),
fut: self.transform.new_transform(service),
f: self.mapper.clone(),
}
}
}
#[pin_project::pin_project]
pub struct TransformMapInitErrFuture<T, S, F, E>
where
T: Transform<S>,
pin_project! {
pub struct TransformMapInitErrFuture<T, S, F, E, Req>
where
T: Transform<S, Req>,
F: Fn(T::InitError) -> E,
{
#[pin]
fut: T::Future,
f: F,
{
#[pin]
fut: T::Future,
f: F,
}
}
impl<T, S, F, E> Future for TransformMapInitErrFuture<T, S, F, E>
impl<T, S, F, E, Req> Future for TransformMapInitErrFuture<T, S, F, E, Req>
where
T: Transform<S>,
T: Transform<S, Req>,
F: Fn(T::InitError) -> E + Clone,
{
type Output = Result<T::Transform, E>;

24
actix-testing/src/lib.rs
View File

@@ -1,6 +1,9 @@
//! Various helpers for Actix applications to use during testing.
#![deny(rust_2018_idioms, warnings)]
#![deny(rust_2018_idioms, nonstandard_style)]
#![allow(clippy::type_complexity, clippy::needless_doctest_main)]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
use std::sync::mpsc;
use std::{net, thread};
@@ -37,7 +40,7 @@ pub use actix_macros::test;
/// ```
pub struct TestServer;
/// Test server runstime
/// Test server runtime
pub struct TestServerRuntime {
addr: net::SocketAddr,
host: String,
@@ -80,15 +83,18 @@ impl TestServer {
// run server in separate thread
thread::spawn(move || {
let sys = System::new("actix-test-server");
let mut sys = System::new("actix-test-server");
let tcp = net::TcpListener::bind("127.0.0.1:0").unwrap();
let local_addr = tcp.local_addr().unwrap();
Server::build()
.listen("test", tcp, factory)?
.workers(1)
.disable_signals()
.start();
sys.block_on(async {
Server::build()
.listen("test", tcp, factory)
.unwrap()
.workers(1)
.disable_signals()
.start();
});
tx.send((System::current(), local_addr)).unwrap();
sys.run()
@@ -107,7 +113,7 @@ impl TestServer {
}
}
/// Get firat available unused local address
/// Get first available unused local address
pub fn unused_addr() -> net::SocketAddr {
let addr: net::SocketAddr = "127.0.0.1:0".parse().unwrap();
let socket =

4
actix-threadpool/src/lib.rs
View File

@@ -1,5 +1,9 @@
//! Thread pool for blocking operations
#![deny(rust_2018_idioms, nonstandard_style)]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
use std::fmt;
use std::future::Future;
use std::pin::Pin;

28
actix-tls/CHANGES.md
View File

@@ -1,39 +1,37 @@
# Changes
## Unreleased
## Unreleased - 2020-xx-xx
## 2.0.0 - 2020-09-03
* `nativetls::NativeTlsAcceptor` is renamed to `nativetls::Acceptor`.
* Where possible, "SSL" terminology is replaced with "TLS".
* `SslError` is renamed to `TlsError`.
* `TlsError::Ssl` enum variant is renamed to `TlsError::Tls`.
* `max_concurrent_ssl_connect` is renamed to `max_concurrent_tls_connect`.
## 2.0.0-alpha.2 - 2020-08-17
### Changed
* Update `rustls` dependency to 0.18
* Update `tokio-rustls` dependency to 0.14
* Update `webpki-roots` dependency to 0.20
## [2.0.0-alpha.1] - 2020-03-03
### Changed
* Update `rustls` dependency to 0.17
* Update `tokio-rustls` dependency to 0.13
* Update `webpki-roots` dependency to 0.19
## [1.0.0] - 2019-12-11
## [1.0.0] - 2019-12-11
* 1.0.0 release
## [1.0.0-alpha.3] - 2019-12-07
### Changed
* Migrate to tokio 0.2
* Enable rustls acceptor service
* Enable native-tls acceptor service
## [1.0.0-alpha.1] - 2019-12-02
* Split openssl accetor from actix-server package
## [1.0.0-alpha.1] - 2019-12-02
* Split openssl acceptor from actix-server package

34
actix-tls/Cargo.toml
View File

@@ -1,16 +1,15 @@
[package]
name = "actix-tls"
version = "2.0.0-alpha.2"
version = "2.0.0"
authors = ["Nikolay Kim <fafhrd91@gmail.com>"]
description = "Actix tls services"
keywords = ["network", "framework", "async", "futures"]
description = "TLS acceptor services for Actix ecosystem."
keywords = ["network", "framework", "async", "tls", "ssl"]
homepage = "https://actix.rs"
repository = "https://github.com/actix/actix-net.git"
documentation = "https://docs.rs/actix-tls/"
categories = ["network-programming", "asynchronous"]
license = "MIT OR Apache-2.0"
edition = "2018"
workspace = ".."
[package.metadata.docs.rs]
features = ["openssl", "rustls", "nativetls"]
@@ -19,6 +18,10 @@ features = ["openssl", "rustls", "nativetls"]
name = "actix_tls"
path = "src/lib.rs"
[[example]]
name = "basic"
required-features = ["rustls"]
[features]
default = []
@@ -33,28 +36,29 @@ nativetls = ["native-tls", "tokio-tls"]
[dependencies]
actix-service = "1.0.0"
actix-codec = "0.2.0"
actix-utils = "1.0.0"
actix-rt = "1.0.0"
derive_more = "0.99.2"
either = "1.5.2"
actix-codec = "0.3.0"
actix-utils = "2.0.0"
futures-util = { version = "0.3.4", default-features = false }
log = "0.4"
# openssl
open-ssl = { version="0.10", package = "openssl", optional = true }
open-ssl = { package = "openssl", version = "0.10", optional = true }
tokio-openssl = { version = "0.4.0", optional = true }
# rustls
rust-tls = { version = "0.18.0", package = "rustls", optional = true }
rust-tls = { package = "rustls", version = "0.18.0", optional = true }
webpki = { version = "0.21", optional = true }
webpki-roots = { version = "0.20", optional = true }
tokio-rustls = { version = "0.14.0", optional = true }
# native-tls
native-tls = { version="0.2", optional = true }
tokio-tls = { version="0.3", optional = true }
native-tls = { version = "0.2", optional = true }
tokio-tls = { version = "0.3", optional = true }
[dev-dependencies]
bytes = "0.5"
actix-testing = { version="1.0.0" }
log = "0.4"
env_logger = "0.7"
actix-testing = "1.0.0"
actix-server = "1"
actix-rt = "1"

82
actix-tls/examples/basic.rs Normal file
View File

@@ -0,0 +1,82 @@
//! TLS Acceptor Server
//!
//! Using either HTTPie (`http`) or cURL:
//!
//! This commands will produce errors in the server log:
//! ```sh
//! curl 127.0.0.1:8443
//! http 127.0.0.1:8443
//! ```
//!
//! These commands will show "empty reply" on the client but will debug print the TLS stream info
//! in the server log, indicating a successful TLS handshake:
//! ```sh
//! curl -k https://127.0.0.1:8443
//! http --verify=false https://127.0.0.1:8443
//! ```
use std::{
env,
fs::File,
io::{self, BufReader},
sync::{
atomic::{AtomicUsize, Ordering},
Arc,
},
};
use actix_server::Server;
use actix_service::pipeline_factory;
use actix_tls::rustls::Acceptor as RustlsAcceptor;
use futures_util::future::ok;
use log::info;
use rust_tls::{
internal::pemfile::certs, internal::pemfile::rsa_private_keys, NoClientAuth, ServerConfig,
};
#[derive(Debug)]
struct ServiceState {
num: Arc<AtomicUsize>,
}
#[actix_rt::main]
async fn main() -> io::Result<()> {
env::set_var("RUST_LOG", "actix=trace,basic=trace");
env_logger::init();
let mut tls_config = ServerConfig::new(NoClientAuth::new());
// Load TLS key and cert files
let cert_file = &mut BufReader::new(File::open("./examples/cert.pem").unwrap());
let key_file = &mut BufReader::new(File::open("./examples/key.pem").unwrap());
let cert_chain = certs(cert_file).unwrap();
let mut keys = rsa_private_keys(key_file).unwrap();
tls_config
.set_single_cert(cert_chain, keys.remove(0))
.unwrap();
let tls_acceptor = RustlsAcceptor::new(tls_config);
let count = Arc::new(AtomicUsize::new(0));
let addr = ("127.0.0.1", 8443);
info!("starting server on port: {}", &addr.0);
Server::build()
.bind("tls-example", addr, move || {
let count = Arc::clone(&count);
// Set up TLS service factory
pipeline_factory(tls_acceptor.clone())
.map_err(|err| println!("Rustls error: {:?}", err))
.and_then(move |stream| {
let num = count.fetch_add(1, Ordering::Relaxed);
info!("[{}] Got TLS connection: {:?}", num, stream);
ok(())
})
})?
.workers(1)
.run()
.await
}

25
actix-tls/examples/cert.pem Normal file
View File

@@ -0,0 +1,25 @@
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----

27
actix-tls/examples/key.pem Normal file
View File

@@ -0,0 +1,27 @@
-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----

39
actix-tls/src/lib.rs
View File

@@ -1,6 +1,13 @@
//! SSL Services
#![deny(rust_2018_idioms, warnings)]
#![allow(clippy::type_complexity)]
//! TLS acceptor services for Actix ecosystem.
//!
//! ## Crate Features
//! * `openssl` - TLS acceptor using the `openssl` crate.
//! * `rustls` - TLS acceptor using the `rustls` crate.
//! * `nativetls` - TLS acceptor using the `native-tls` crate.
#![deny(rust_2018_idioms, nonstandard_style)]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
use std::sync::atomic::{AtomicUsize, Ordering};
@@ -15,25 +22,25 @@ pub mod rustls;
#[cfg(feature = "nativetls")]
pub mod nativetls;
/// Sets the maximum per-worker concurrent ssl connection establish process.
///
/// All listeners will stop accepting connections when this limit is
/// reached. It can be used to limit the global SSL CPU usage.
///
/// By default max connections is set to a 256.
pub fn max_concurrent_ssl_connect(num: usize) {
MAX_CONN.store(num, Ordering::Relaxed);
}
pub(crate) static MAX_CONN: AtomicUsize = AtomicUsize::new(256);
thread_local! {
static MAX_CONN_COUNTER: Counter = Counter::new(MAX_CONN.load(Ordering::Relaxed));
}
/// Ssl error combinded with service error.
/// Sets the maximum per-worker concurrent TLS connection limit.
///
/// All listeners will stop accepting connections when this limit is reached.
/// It can be used to regulate the global TLS CPU usage.
///
/// By default, the connection limit is 256.
pub fn max_concurrent_tls_connect(num: usize) {
MAX_CONN.store(num, Ordering::Relaxed);
}
/// TLS error combined with service error.
#[derive(Debug)]
pub enum SslError<E1, E2> {
Ssl(E1),
pub enum TlsError<E1, E2> {
Tls(E1),
Service(E2),
}

20
actix-tls/src/nativetls.rs
View File

@@ -5,34 +5,35 @@ use actix_codec::{AsyncRead, AsyncWrite};
use actix_service::{Service, ServiceFactory};
use actix_utils::counter::Counter;
use futures_util::future::{self, FutureExt, LocalBoxFuture, TryFutureExt};
pub use native_tls::Error;
pub use tokio_tls::{TlsAcceptor, TlsStream};
use crate::MAX_CONN_COUNTER;
/// Support `SSL` connections via native-tls package
/// Accept TLS connections via `native-tls` package.
///
/// `tls` feature enables `NativeTlsAcceptor` type
pub struct NativeTlsAcceptor<T> {
/// `nativetls` feature enables this `Acceptor` type.
pub struct Acceptor<T> {
acceptor: TlsAcceptor,
io: PhantomData<T>,
}
impl<T> NativeTlsAcceptor<T>
impl<T> Acceptor<T>
where
T: AsyncRead + AsyncWrite + Unpin,
{
/// Create `NativeTlsAcceptor` instance
/// Create `native-tls` based `Acceptor` service factory.
#[inline]
pub fn new(acceptor: TlsAcceptor) -> Self {
NativeTlsAcceptor {
Acceptor {
acceptor,
io: PhantomData,
}
}
}
impl<T> Clone for NativeTlsAcceptor<T> {
impl<T> Clone for Acceptor<T> {
#[inline]
fn clone(&self) -> Self {
Self {
@@ -42,7 +43,7 @@ impl<T> Clone for NativeTlsAcceptor<T> {
}
}
impl<T> ServiceFactory for NativeTlsAcceptor<T>
impl<T> ServiceFactory for Acceptor<T>
where
T: AsyncRead + AsyncWrite + Unpin + 'static,
{
@@ -104,8 +105,7 @@ where
let this = self.clone();
async move { this.acceptor.accept(req).await }
.map_ok(move |io| {
// Required to preserve `CounterGuard` until `Self::Future`
// is completely resolved.
// Required to preserve `CounterGuard` until `Self::Future` is completely resolved.
let _ = guard;
io
})

14
actix-tls/src/openssl.rs
View File

@@ -3,26 +3,27 @@ use std::marker::PhantomData;
use std::pin::Pin;
use std::task::{Context, Poll};
pub use open_ssl::ssl::{AlpnError, SslAcceptor, SslAcceptorBuilder};
pub use tokio_openssl::{HandshakeError, SslStream};
use actix_codec::{AsyncRead, AsyncWrite};
use actix_service::{Service, ServiceFactory};
use actix_utils::counter::{Counter, CounterGuard};
use futures_util::future::{ok, FutureExt, LocalBoxFuture, Ready};
pub use open_ssl::ssl::{AlpnError, SslAcceptor, SslAcceptorBuilder};
pub use tokio_openssl::{HandshakeError, SslStream};
use crate::MAX_CONN_COUNTER;
/// Support `TLS` server connections via openssl package
/// Accept TLS connections via `openssl` package.
///
/// `openssl` feature enables `Acceptor` type
/// `openssl` feature enables this `Acceptor` type.
pub struct Acceptor<T: AsyncRead + AsyncWrite> {
acceptor: SslAcceptor,
io: PhantomData<T>,
}
impl<T: AsyncRead + AsyncWrite> Acceptor<T> {
/// Create default `OpensslAcceptor`
/// Create OpenSSL based `Acceptor` service factory.
#[inline]
pub fn new(acceptor: SslAcceptor) -> Self {
Acceptor {
acceptor,
@@ -32,6 +33,7 @@ impl<T: AsyncRead + AsyncWrite> Acceptor<T> {
}
impl<T: AsyncRead + AsyncWrite> Clone for Acceptor<T> {
#[inline]
fn clone(&self) -> Self {
Self {
acceptor: self.acceptor.clone(),

10
actix-tls/src/rustls.rs
View File

@@ -17,16 +17,17 @@ pub use webpki_roots::TLS_SERVER_ROOTS;
use crate::MAX_CONN_COUNTER;
/// Support `SSL` connections via rustls package
/// Accept TLS connections via `rustls` package.
///
/// `rust-tls` feature enables `RustlsAcceptor` type
/// `rustls` feature enables this `Acceptor` type.
pub struct Acceptor<T> {
config: Arc<ServerConfig>,
io: PhantomData<T>,
}
impl<T: AsyncRead + AsyncWrite> Acceptor<T> {
/// Create rustls based `Acceptor` service factory
/// Create Rustls based `Acceptor` service factory.
#[inline]
pub fn new(config: ServerConfig) -> Self {
Acceptor {
config: Arc::new(config),
@@ -36,6 +37,7 @@ impl<T: AsyncRead + AsyncWrite> Acceptor<T> {
}
impl<T> Clone for Acceptor<T> {
#[inline]
fn clone(&self) -> Self {
Self {
config: self.config.clone(),
@@ -65,7 +67,7 @@ impl<T: AsyncRead + AsyncWrite + Unpin> ServiceFactory for Acceptor<T> {
}
}
/// RusTLS based `Acceptor` service
/// Rustls based `Acceptor` service
pub struct AcceptorService<T> {
acceptor: TlsAcceptor,
io: PhantomData<T>,

49
actix-tracing/src/lib.rs
View File

@@ -1,8 +1,10 @@
//! Actix tracing - support for tokio tracing with Actix services.
#![deny(rust_2018_idioms, warnings)]
use std::marker::PhantomData;
use std::task::{Context, Poll};
#![deny(rust_2018_idioms, nonstandard_style)]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
use core::marker::PhantomData;
use actix_service::{
apply, dev::ApplyTransform, IntoServiceFactory, Service, ServiceFactory, Transform,
@@ -24,21 +26,18 @@ impl<S, F> TracingService<S, F> {
}
}
impl<S, F> Service for TracingService<S, F>
impl<S, Req, F> Service<Req> for TracingService<S, F>
where
S: Service,
F: Fn(&S::Request) -> Option<tracing::Span>,
S: Service<Req>,
F: Fn(&Req) -> Option<tracing::Span>,
{
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type Future = Either<S::Future, Instrumented<S::Future>>;
fn poll_ready(&mut self, ctx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
self.inner.poll_ready(ctx)
}
actix_service::forward_ready!(inner);
fn call(&mut self, req: Self::Request) -> Self::Future {
fn call(&mut self, req: Req) -> Self::Future {
let span = (self.make_span)(&req);
let _enter = span.as_ref().map(|s| s.enter());
@@ -57,8 +56,6 @@ where
}
/// A `Transform` implementation that wraps services with a [`TracingService`].
///
/// [`TracingService`]: struct.TracingService.html
pub struct TracingTransform<S, U, F> {
make_span: F,
_p: PhantomData<fn(S, U)>,
@@ -73,18 +70,12 @@ impl<S, U, F> TracingTransform<S, U, F> {
}
}
impl<S, U, F> Transform<S> for TracingTransform<S, U, F>
impl<S, Req, U, F> Transform<S, Req> for TracingTransform<S, U, F>
where
S: Service,
U: ServiceFactory<
Request = S::Request,
Response = S::Response,
Error = S::Error,
Service = S,
>,
F: Fn(&S::Request) -> Option<tracing::Span> + Clone,
S: Service<Req>,
U: ServiceFactory<Req, Response = S::Response, Error = S::Error, Service = S>,
F: Fn(&Req) -> Option<tracing::Span> + Clone,
{
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type Transform = TracingService<S, F>;
@@ -109,14 +100,14 @@ where
/// |req: &Request| Some(span!(Level::INFO, "request", req.id))
/// );
/// ```
pub fn trace<S, U, F>(
service_factory: U,
pub fn trace<S, Req, I, F>(
service_factory: I,
make_span: F,
) -> ApplyTransform<TracingTransform<S::Service, S, F>, S>
) -> ApplyTransform<TracingTransform<S::Service, S, F>, S, Req>
where
S: ServiceFactory,
F: Fn(&S::Request) -> Option<tracing::Span> + Clone,
U: IntoServiceFactory<S>,
I: IntoServiceFactory<S, Req>,
S: ServiceFactory<Req>,
F: Fn(&Req) -> Option<tracing::Span> + Clone,
{
apply(
TracingTransform::new(make_span),

219
actix-utils/CHANGES.md
View File

@@ -2,218 +2,155 @@
## Unreleased - 2020-xx-xx
## 3.0.0-beta.1 - 2020-12-28
* Update `bytes` dependency to `1`. [#237]
* Use `pin-project-lite` to replace `pin-project`. [#229]
* Remove `condition`,`either`,`inflight`,`keepalive`,`oneshot`,`order`,`stream` and `time` mods. [#229]
[#229]: https://github.com/actix/actix-net/pull/229
[#237]: https://github.com/actix/actix-net/pull/237
## 2.0.0 - 2020-08-23
* No changes from beta 1.
## 2.0.0-beta.1 - 2020-08-19
* Upgrade `tokio-util` to `0.3`.
* Remove unsound custom Cell and use `std::cell::RefCell` instead, as well as `actix-service`.
* Rename method to correctly spelled `LocalWaker::is_registered`.
## [1.0.6] - 2020-01-08
* Add `Clone` impl for `condition::Waiter`
## 1.0.6 - 2020-01-08
* Add `Clone` impl for `condition::Waiter`.
## [1.0.5] - 2020-01-08
## 1.0.5 - 2020-01-08
* Add `Condition` type.
* Add `Pool` of one-shot's.
## [1.0.4] - 2019-12-20
## 1.0.4 - 2019-12-20
* Add methods to check `LocalWaker` registration state.
## [1.0.3] - 2019-12-11
## 1.0.3 - 2019-12-11
* Revert InOrder service changes
## [1.0.2] - 2019-12-11
* Allow to create `framed::Dispatcher` with custom `mpsc::Receiver`
## 1.0.2 - 2019-12-11
* Allow to create `framed::Dispatcher` with custom `mpsc::Receiver`.
* Add `oneshot::Sender::is_canceled()` method.
* Add `oneshot::Sender::is_canceled()` method
## [1.0.1] - 2019-12-11
## 1.0.1 - 2019-12-11
* Optimize InOrder service.
* Optimize InOrder service
## [1.0.0] - 2019-12-11
## 1.0.0 - 2019-12-11
* Simplify oneshot and mpsc implementations.
* Simplify oneshot and mpsc implementations
## [1.0.0-alpha.3] - 2019-12-07
## 1.0.0-alpha.3 - 2019-12-07
* Migrate to tokio 0.2.
* Fix oneshot.
* Migrate to tokio 0.2
* Fix oneshot
## 1.0.0-alpha.2 - 2019-12-02
* Migrate to `std::future`.
## [1.0.0-alpha.2] - 2019-12-02
* Migrate to `std::future`
## [0.4.7] - 2019-10-14
## 0.4.7 - 2019-10-14
* Re-register task on every framed transport poll.
## [0.4.6] - 2019-10-08
## 0.4.6 - 2019-10-08
* Refactor `Counter` type. register current task in available method.
## [0.4.5] - 2019-07-19
### Removed
* Deprecated `CloneableService` as it is not safe
## 0.4.5 - 2019-07-19
* Deprecated `CloneableService` as it is not safe.
## [0.4.4] - 2019-07-17
### Changed
* Undeprecate `FramedTransport` as it is actually useful
## 0.4.4 - 2019-07-17
* Undeprecate `FramedTransport` as it is actually useful.
## [0.4.3] - 2019-07-17
### Deprecated
* Deprecate `CloneableService` as it is not safe and in general not very useful
* Deprecate `FramedTransport` in favor of `actix-ioframe`
## 0.4.3 - 2019-07-17
* Deprecate `CloneableService` as it is not safe and in general not very useful.
* Deprecate `FramedTransport` in favor of `actix-ioframe`.
## [0.4.2] - 2019-06-26
### Fixed
* Do not block on sink drop for FramedTransport
## 0.4.2 - 2019-06-26
* Do not block on sink drop for FramedTransport.
## [0.4.1] - 2019-05-15
### Changed
* Change `Either` constructor
## 0.4.1 - 2019-05-15
* Change `Either` constructor.
## [0.4.0] - 2019-05-11
## 0.4.0 - 2019-05-11
* Change `Either` to handle two nexted services.
* Upgrade actix-service 0.4.
* Removed framed related services.
* Removed stream related services.
### Changed
* Change `Either` to handle two nexted services
* Upgrade actix-service 0.4
### Deleted
* Framed related services
* Stream related services
## [0.3.5] - 2019-04-04
### Added
## 0.3.5 - 2019-04-04
* Allow to send messages to `FramedTransport` via mpsc channel.
### Changed
* Remove 'static constraint from Clonable service
* Remove `'static` constraint from Clonable service.
## [0.3.4] - 2019-03-12
### Changed
## 0.3.4 - 2019-03-12
* `TimeoutService`, `InOrderService`, `InFlightService` accepts generic IntoService services.
### Fixed
* Fix `InFlightService::poll_ready()` nested service readiness check
* Fix `InOrderService::poll_ready()` nested service readiness check
* Fix `InFlightService::poll_ready()` nested service readiness check.
* Fix `InOrderService::poll_ready()` nested service readiness check.
## [0.3.3] - 2019-03-09
### Changed
* Revert IntoFuture change
* Add generic config param for IntoFramed and TakeOne new services
## 0.3.3 - 2019-03-09
* Revert IntoFuture change.
* Add generic config param for IntoFramed and TakeOne new services.
## [0.3.2] - 2019-03-04
## 0.3.2 - 2019-03-04
* Use IntoFuture for new services.
### Changed
* Use IntoFuture for new services
## 0.3.1 - 2019-03-04
* Use new type of transform trait.
## [0.3.1] - 2019-03-04
### Changed
* Use new type of transform trait
## [0.3.0] - 2019-03-02
### Changed
## 0.3.0 - 2019-03-02
* Use new `NewService` trait
* BoxedNewService` and `BoxedService` types moved to actix-service crate.
## [0.2.4] - 2019-02-21
### Changed
## 0.2.4 - 2019-02-21
* Custom `BoxedNewService` implementation.
## [0.2.3] - 2019-02-21
### Added
* Add `BoxedNewService` and `BoxedService`
## 0.2.3 - 2019-02-21
* Add `BoxedNewService` and `BoxedService`.
## [0.2.2] - 2019-02-11
### Added
* Add `Display` impl for `TimeoutError`
* Add `Display` impl for `InOrderError`
## 0.2.2 - 2019-02-11
* Add `Display` impl for `TimeoutError`.
* Add `Display` impl for `InOrderError`.
## [0.2.1] - 2019-02-06
### Added
## 0.2.1 - 2019-02-06
* Add `InOrder` service. the service yields responses as they become available,
in the order that their originating requests were submitted to the service.
### Changed
* Convert `Timeout` and `InFlight` services to a transforms
* Convert `Timeout` and `InFlight` services to a transforms.
## [0.2.0] - 2019-02-01
* Fix framed transport error handling
* Added Clone impl for Either service
* Added Clone impl for Timeout service factory
* Added Service and NewService for Stream dispatcher
* Switch to actix-service 0.2
## 0.2.0 - 2019-02-01
* Fix framed transport error handling.
* Added Clone impl for Either service.
* Added Clone impl for Timeout service factory.
* Added Service and NewService for Stream dispatcher.
* Switch to actix-service 0.2.
## [0.1.0] - 2018-12-09
* Move utils services to separate crate
## 0.1.0 - 2018-12-09
* Move utils services to separate crate.

25
actix-utils/Cargo.toml
View File

@@ -1,8 +1,8 @@
[package]
name = "actix-utils"
version = "2.0.0-beta.1"
version = "3.0.0-beta.1"
authors = ["Nikolay Kim <fafhrd91@gmail.com>"]
description = "Actix utils - various Actix net related services"
description = "Various network related services and utilities for the Actix ecosystem"
keywords = ["network", "framework", "async", "futures"]
homepage = "https://actix.rs"
repository = "https://github.com/actix/actix-net.git"
@@ -16,15 +16,14 @@ name = "actix_utils"
path = "src/lib.rs"
[dependencies]
actix-codec = "0.3.0-beta.1"
actix-rt = "1.1.1"
actix-service = "1.0.6"
bitflags = "1.2.1"
bytes = "0.5.3"
either = "1.5.3"
futures-channel = { version = "0.3.4", default-features = false }
futures-sink = { version = "0.3.4", default-features = false }
futures-util = { version = "0.3.4", default-features = false }
actix-codec = "0.4.0-beta.1"
actix-rt = "2.0.0-beta.1"
actix-service = "2.0.0-beta.1"
futures-core = { version = "0.3.7", default-features = false }
futures-sink = { version = "0.3.7", default-features = false }
log = "0.4"
pin-project = "0.4.17"
slab = "0.4"
pin-project-lite = "0.2.0"
[dev-dependencies]
futures-util = { version = "0.3.7", default-features = false }

129
actix-utils/src/condition.rs
View File

@@ -1,129 +0,0 @@
use std::cell::RefCell;
use std::future::Future;
use std::pin::Pin;
use std::rc::Rc;
use std::task::{Context, Poll};
use slab::Slab;
use crate::task::LocalWaker;
/// Condition allows to notify multiple receivers at the same time
pub struct Condition(Rc<RefCell<Inner>>);
struct Inner {
data: Slab<Option<LocalWaker>>,
}
impl Default for Condition {
fn default() -> Self {
Self::new()
}
}
impl Condition {
pub fn new() -> Condition {
Condition(Rc::new(RefCell::new(Inner { data: Slab::new() })))
}
/// Get condition waiter
pub fn wait(&mut self) -> Waiter {
let token = self.0.borrow_mut().data.insert(None);
Waiter {
token,
inner: self.0.clone(),
}
}
/// Notify all waiters
pub fn notify(&self) {
let inner = self.0.borrow();
for item in inner.data.iter() {
if let Some(waker) = item.1 {
waker.wake();
}
}
}
}
impl Drop for Condition {
fn drop(&mut self) {
self.notify()
}
}
#[must_use = "Waiter do nothing unless polled"]
pub struct Waiter {
token: usize,
inner: Rc<RefCell<Inner>>,
}
impl Clone for Waiter {
fn clone(&self) -> Self {
let token = self.inner.borrow_mut().data.insert(None);
Waiter {
token,
inner: self.inner.clone(),
}
}
}
impl Future for Waiter {
type Output = ();
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.get_mut();
let mut inner = this.inner.borrow_mut();
let inner = unsafe { inner.data.get_unchecked_mut(this.token) };
if inner.is_none() {
let waker = LocalWaker::default();
waker.register(cx.waker());
*inner = Some(waker);
Poll::Pending
} else if inner.as_mut().unwrap().register(cx.waker()) {
Poll::Pending
} else {
Poll::Ready(())
}
}
}
impl Drop for Waiter {
fn drop(&mut self) {
self.inner.borrow_mut().data.remove(self.token);
}
}
#[cfg(test)]
mod tests {
use super::*;
use futures_util::future::lazy;
#[actix_rt::test]
async fn test_condition() {
let mut cond = Condition::new();
let mut waiter = cond.wait();
assert_eq!(
lazy(|cx| Pin::new(&mut waiter).poll(cx)).await,
Poll::Pending
);
cond.notify();
waiter.await;
let mut waiter = cond.wait();
assert_eq!(
lazy(|cx| Pin::new(&mut waiter).poll(cx)).await,
Poll::Pending
);
let mut waiter2 = waiter.clone();
assert_eq!(
lazy(|cx| Pin::new(&mut waiter2).poll(cx)).await,
Poll::Pending
);
drop(cond);
waiter.await;
waiter2.await;
}
}

5
actix-utils/src/counter.rs
View File

@@ -1,6 +1,7 @@
use std::cell::Cell;
use core::cell::Cell;
use core::task;
use std::rc::Rc;
use std::task;
use crate::task::LocalWaker;

109
actix-utils/src/dispatcher.rs
View File

@@ -1,15 +1,17 @@
//! Framed dispatcher service and related utilities
//! Framed dispatcher service and related utilities.
#![allow(type_alias_bounds)]
use std::pin::Pin;
use std::task::{Context, Poll};
use std::{fmt, mem};
use core::future::Future;
use core::pin::Pin;
use core::task::{Context, Poll};
use core::{fmt, mem};
use actix_codec::{AsyncRead, AsyncWrite, Decoder, Encoder, Framed};
use actix_service::{IntoService, Service};
use futures_util::{future::Future, stream::Stream, FutureExt};
use futures_core::stream::Stream;
use log::debug;
use pin_project_lite::pin_project;
use crate::mpsc;
@@ -61,28 +63,35 @@ pub enum Message<T> {
Close,
}
/// Dispatcher is a future that reads frames from Framed object
/// and passes them to the service.
#[pin_project::pin_project]
pub struct Dispatcher<S, T, U, I>
where
S: Service<Request = <U as Decoder>::Item, Response = I>,
S::Error: 'static,
S::Future: 'static,
T: AsyncRead + AsyncWrite,
U: Encoder<I> + Decoder,
I: 'static,
<U as Encoder<I>>::Error: std::fmt::Debug,
{
service: S,
state: State<S, U, I>,
#[pin]
framed: Framed<T, U>,
rx: mpsc::Receiver<Result<Message<I>, S::Error>>,
tx: mpsc::Sender<Result<Message<I>, S::Error>>,
pin_project! {
/// Dispatcher is a future that reads frames from Framed object
/// and passes them to the service.
pub struct Dispatcher<S, T, U, I>
where
S: Service<<U as Decoder>::Item, Response = I>,
S::Error: 'static,
S::Future: 'static,
T: AsyncRead,
T: AsyncWrite,
U: Encoder<I>,
U: Decoder,
I: 'static,
<U as Encoder<I>>::Error: fmt::Debug,
{
service: S,
state: State<S, U, I>,
#[pin]
framed: Framed<T, U>,
rx: mpsc::Receiver<Result<Message<I>, S::Error>>,
tx: mpsc::Sender<Result<Message<I>, S::Error>>,
}
}
enum State<S: Service, U: Encoder<I> + Decoder, I> {
enum State<S, U, I>
where
S: Service<<U as Decoder>::Item>,
U: Encoder<I> + Decoder,
{
Processing,
Error(DispatcherError<S::Error, U, I>),
FramedError(DispatcherError<S::Error, U, I>),
@@ -90,7 +99,11 @@ enum State<S: Service, U: Encoder<I> + Decoder, I> {
Stopping,
}
impl<S: Service, U: Encoder<I> + Decoder, I> State<S, U, I> {
impl<S, U, I> State<S, U, I>
where
S: Service<<U as Decoder>::Item>,
U: Encoder<I> + Decoder,
{
fn take_error(&mut self) -> DispatcherError<S::Error, U, I> {
match mem::replace(self, State::Processing) {
State::Error(err) => err,
@@ -108,16 +121,19 @@ impl<S: Service, U: Encoder<I> + Decoder, I> State<S, U, I> {
impl<S, T, U, I> Dispatcher<S, T, U, I>
where
S: Service<Request = <U as Decoder>::Item, Response = I>,
S: Service<<U as Decoder>::Item, Response = I>,
S::Error: 'static,
S::Future: 'static,
T: AsyncRead + AsyncWrite,
U: Decoder + Encoder<I>,
I: 'static,
<U as Decoder>::Error: std::fmt::Debug,
<U as Encoder<I>>::Error: std::fmt::Debug,
<U as Decoder>::Error: fmt::Debug,
<U as Encoder<I>>::Error: fmt::Debug,
{
pub fn new<F: IntoService<S>>(framed: Framed<T, U>, service: F) -> Self {
pub fn new<F>(framed: Framed<T, U>, service: F) -> Self
where
F: IntoService<S, <U as Decoder>::Item>,
{
let (tx, rx) = mpsc::channel();
Dispatcher {
framed,
@@ -129,11 +145,14 @@ where
}
/// Construct new `Dispatcher` instance with customer `mpsc::Receiver`
pub fn with_rx<F: IntoService<S>>(
pub fn with_rx<F>(
framed: Framed<T, U>,
service: F,
rx: mpsc::Receiver<Result<Message<I>, S::Error>>,
) -> Self {
) -> Self
where
F: IntoService<S, <U as Decoder>::Item>,
{
let tx = rx.sender();
Dispatcher {
framed,
@@ -172,13 +191,13 @@ where
fn poll_read(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> bool
where
S: Service<Request = <U as Decoder>::Item, Response = I>,
S: Service<<U as Decoder>::Item, Response = I>,
S::Error: 'static,
S::Future: 'static,
T: AsyncRead + AsyncWrite,
U: Decoder + Encoder<I>,
I: 'static,
<U as Encoder<I>>::Error: std::fmt::Debug,
<U as Encoder<I>>::Error: fmt::Debug,
{
loop {
let this = self.as_mut().project();
@@ -198,9 +217,11 @@ where
};
let tx = this.tx.clone();
actix_rt::spawn(this.service.call(item).map(move |item| {
let fut = this.service.call(item);
actix_rt::spawn(async move {
let item = fut.await;
let _ = tx.send(item.map(Message::Item));
}));
});
}
Poll::Pending => return false,
Poll::Ready(Err(err)) => {
@@ -214,13 +235,13 @@ where
/// write to framed object
fn poll_write(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> bool
where
S: Service<Request = <U as Decoder>::Item, Response = I>,
S: Service<<U as Decoder>::Item, Response = I>,
S::Error: 'static,
S::Future: 'static,
T: AsyncRead + AsyncWrite,
U: Decoder + Encoder<I>,
I: 'static,
<U as Encoder<I>>::Error: std::fmt::Debug,
<U as Encoder<I>>::Error: fmt::Debug,
{
loop {
let mut this = self.as_mut().project();
@@ -265,14 +286,14 @@ where
impl<S, T, U, I> Future for Dispatcher<S, T, U, I>
where
S: Service<Request = <U as Decoder>::Item, Response = I>,
S: Service<<U as Decoder>::Item, Response = I>,
S::Error: 'static,
S::Future: 'static,
T: AsyncRead + AsyncWrite,
U: Decoder + Encoder<I>,
I: 'static,
<U as Encoder<I>>::Error: std::fmt::Debug,
<U as Decoder>::Error: std::fmt::Debug,
<U as Encoder<I>>::Error: fmt::Debug,
<U as Decoder>::Error: fmt::Debug,
{
type Output = Result<(), DispatcherError<S::Error, U, I>>;
@@ -290,10 +311,8 @@ where
}
State::Error(_) => {
// flush write buffer
if !this.framed.is_write_buf_empty() {
if let Poll::Pending = this.framed.flush(cx) {
return Poll::Pending;
}
if !this.framed.is_write_buf_empty() && this.framed.flush(cx).is_pending() {
return Poll::Pending;
}
Poll::Ready(Err(this.state.take_error()))
}

153
actix-utils/src/either.rs
View File

@@ -1,153 +0,0 @@
//! Contains `Either` service and related types and functions.
use std::pin::Pin;
use std::task::{Context, Poll};
use actix_service::{Service, ServiceFactory};
use futures_util::{future, future::Future, ready};
/// Combine two different service types into a single type.
///
/// Both services must be of the same request, response, and error types.
/// `EitherService` is useful for handling conditional branching in service
/// middleware to different inner service types.
pub struct EitherService<A, B> {
left: A,
right: B,
}
impl<A: Clone, B: Clone> Clone for EitherService<A, B> {
fn clone(&self) -> Self {
EitherService {
left: self.left.clone(),
right: self.right.clone(),
}
}
}
impl<A, B> Service for EitherService<A, B>
where
A: Service,
B: Service<Response = A::Response, Error = A::Error>,
{
type Request = either::Either<A::Request, B::Request>;
type Response = A::Response;
type Error = A::Error;
type Future = future::Either<A::Future, B::Future>;
fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
let left = self.left.poll_ready(cx)?;
let right = self.right.poll_ready(cx)?;
if left.is_ready() && right.is_ready() {
Poll::Ready(Ok(()))
} else {
Poll::Pending
}
}
fn call(&mut self, req: either::Either<A::Request, B::Request>) -> Self::Future {
match req {
either::Either::Left(req) => future::Either::Left(self.left.call(req)),
either::Either::Right(req) => future::Either::Right(self.right.call(req)),
}
}
}
/// Combine two different new service types into a single service.
pub struct Either<A, B> {
left: A,
right: B,
}
impl<A, B> Either<A, B> {
pub fn new(left: A, right: B) -> Either<A, B>
where
A: ServiceFactory,
A::Config: Clone,
B: ServiceFactory<
Config = A::Config,
Response = A::Response,
Error = A::Error,
InitError = A::InitError,
>,
{
Either { left, right }
}
}
impl<A, B> ServiceFactory for Either<A, B>
where
A: ServiceFactory,
A::Config: Clone,
B: ServiceFactory<
Config = A::Config,
Response = A::Response,
Error = A::Error,
InitError = A::InitError,
>,
{
type Request = either::Either<A::Request, B::Request>;
type Response = A::Response;
type Error = A::Error;
type InitError = A::InitError;
type Config = A::Config;
type Service = EitherService<A::Service, B::Service>;
type Future = EitherNewService<A, B>;
fn new_service(&self, cfg: A::Config) -> Self::Future {
EitherNewService {
left: None,
right: None,
left_fut: self.left.new_service(cfg.clone()),
right_fut: self.right.new_service(cfg),
}
}
}
impl<A: Clone, B: Clone> Clone for Either<A, B> {
fn clone(&self) -> Self {
Self {
left: self.left.clone(),
right: self.right.clone(),
}
}
}
#[doc(hidden)]
#[pin_project::pin_project]
pub struct EitherNewService<A: ServiceFactory, B: ServiceFactory> {
left: Option<A::Service>,
right: Option<B::Service>,
#[pin]
left_fut: A::Future,
#[pin]
right_fut: B::Future,
}
impl<A, B> Future for EitherNewService<A, B>
where
A: ServiceFactory,
B: ServiceFactory<Response = A::Response, Error = A::Error, InitError = A::InitError>,
{
type Output = Result<EitherService<A::Service, B::Service>, A::InitError>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.project();
if this.left.is_none() {
*this.left = Some(ready!(this.left_fut.poll(cx))?);
}
if this.right.is_none() {
*this.right = Some(ready!(this.right_fut.poll(cx))?);
}
if this.left.is_some() && this.right.is_some() {
Poll::Ready(Ok(EitherService {
left: this.left.take().unwrap(),
right: this.right.take().unwrap(),
}))
} else {
Poll::Pending
}
}
}

169
actix-utils/src/inflight.rs
View File

@@ -1,169 +0,0 @@
use std::convert::Infallible;
use std::future::Future;
use std::pin::Pin;
use std::task::{Context, Poll};
use actix_service::{IntoService, Service, Transform};
use futures_util::future::{ok, Ready};
use super::counter::{Counter, CounterGuard};
/// InFlight - new service for service that can limit number of in-flight
/// async requests.
///
/// Default number of in-flight requests is 15
pub struct InFlight {
max_inflight: usize,
}
impl InFlight {
pub fn new(max: usize) -> Self {
Self { max_inflight: max }
}
}
impl Default for InFlight {
fn default() -> Self {
Self::new(15)
}
}
impl<S> Transform<S> for InFlight
where
S: Service,
{
type Request = S::Request;
type Response = S::Response;
type Error = S::Error;
type InitError = Infallible;
type Transform = InFlightService<S>;
type Future = Ready<Result<Self::Transform, Self::InitError>>;
fn new_transform(&self, service: S) -> Self::Future {
ok(InFlightService::new(self.max_inflight, service))
}
}
pub struct InFlightService<S> {
count: Counter,
service: S,
}
impl<S> InFlightService<S>
where
S: Service,
{
pub fn new<U>(max: usize, service: U) -> Self
where
U: IntoService<S>,
{
Self {
count: Counter::new(max),
service: service.into_service(),
}
}
}
impl<T> Service for InFlightService<T>
where
T: Service,
{
type Request = T::Request;
type Response = T::Response;
type Error = T::Error;
type Future = InFlightServiceResponse<T>;
fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
if let Poll::Pending = self.service.poll_ready(cx)? {
Poll::Pending
} else if !self.count.available(cx) {
log::trace!("InFlight limit exceeded");
Poll::Pending
} else {
Poll::Ready(Ok(()))
}
}
fn call(&mut self, req: T::Request) -> Self::Future {
InFlightServiceResponse {
fut: self.service.call(req),
_guard: self.count.get(),
}
}
}
#[doc(hidden)]
#[pin_project::pin_project]
pub struct InFlightServiceResponse<T: Service> {
#[pin]
fut: T::Future,
_guard: CounterGuard,
}
impl<T: Service> Future for InFlightServiceResponse<T> {
type Output = Result<T::Response, T::Error>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
self.project().fut.poll(cx)
}
}
#[cfg(test)]
mod tests {
use std::task::{Context, Poll};
use std::time::Duration;
use super::*;
use actix_service::{apply, fn_factory, Service, ServiceFactory};
use futures_util::future::{lazy, ok, FutureExt, LocalBoxFuture};
struct SleepService(Duration);
impl Service for SleepService {
type Request = ();
type Response = ();
type Error = ();
type Future = LocalBoxFuture<'static, Result<(), ()>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
fn call(&mut self, _: ()) -> Self::Future {
actix_rt::time::delay_for(self.0)
.then(|_| ok::<_, ()>(()))
.boxed_local()
}
}
#[actix_rt::test]
async fn test_transform() {
let wait_time = Duration::from_millis(50);
let mut srv = InFlightService::new(1, SleepService(wait_time));
assert_eq!(lazy(|cx| srv.poll_ready(cx)).await, Poll::Ready(Ok(())));
let res = srv.call(());
assert_eq!(lazy(|cx| srv.poll_ready(cx)).await, Poll::Pending);
let _ = res.await;
assert_eq!(lazy(|cx| srv.poll_ready(cx)).await, Poll::Ready(Ok(())));
}
#[actix_rt::test]
async fn test_new_transform() {
let wait_time = Duration::from_millis(50);
let srv = apply(InFlight::new(1), fn_factory(|| ok(SleepService(wait_time))));
let mut srv = srv.new_service(&()).await.unwrap();
assert_eq!(lazy(|cx| srv.poll_ready(cx)).await, Poll::Ready(Ok(())));
let res = srv.call(());
assert_eq!(lazy(|cx| srv.poll_ready(cx)).await, Poll::Pending);
let _ = res.await;
assert_eq!(lazy(|cx| srv.poll_ready(cx)).await, Poll::Ready(Ok(())));
}
}

125
actix-utils/src/keepalive.rs
View File

@@ -1,125 +0,0 @@
use std::convert::Infallible;
use std::future::Future;
use std::marker::PhantomData;
use std::pin::Pin;
use std::task::{Context, Poll};
use std::time::Duration;
use actix_rt::time::{delay_until, Delay, Instant};
use actix_service::{Service, ServiceFactory};
use futures_util::future::{ok, Ready};
use super::time::{LowResTime, LowResTimeService};
pub struct KeepAlive<R, E, F> {
f: F,
ka: Duration,
time: LowResTime,
_t: PhantomData<(R, E)>,
}
impl<R, E, F> KeepAlive<R, E, F>
where
F: Fn() -> E + Clone,
{
pub fn new(ka: Duration, time: LowResTime, f: F) -> Self {
KeepAlive {
f,
ka,
time,
_t: PhantomData,
}
}
}
impl<R, E, F> Clone for KeepAlive<R, E, F>
where
F: Clone,
{
fn clone(&self) -> Self {
KeepAlive {
f: self.f.clone(),
ka: self.ka,
time: self.time.clone(),
_t: PhantomData,
}
}
}
impl<R, E, F> ServiceFactory for KeepAlive<R, E, F>
where
F: Fn() -> E + Clone,
{
type Request = R;
type Response = R;
type Error = E;
type InitError = Infallible;
type Config = ();
type Service = KeepAliveService<R, E, F>;
type Future = Ready<Result<Self::Service, Self::InitError>>;
fn new_service(&self, _: ()) -> Self::Future {
ok(KeepAliveService::new(
self.ka,
self.time.timer(),
self.f.clone(),
))
}
}
pub struct KeepAliveService<R, E, F> {
f: F,
ka: Duration,
time: LowResTimeService,
delay: Delay,
expire: Instant,
_t: PhantomData<(R, E)>,
}
impl<R, E, F> KeepAliveService<R, E, F>
where
F: Fn() -> E,
{
pub fn new(ka: Duration, time: LowResTimeService, f: F) -> Self {
let expire = Instant::from_std(time.now() + ka);
KeepAliveService {
f,
ka,
time,
expire,
delay: delay_until(expire),
_t: PhantomData,
}
}
}
impl<R, E, F> Service for KeepAliveService<R, E, F>
where
F: Fn() -> E,
{
type Request = R;
type Response = R;
type Error = E;
type Future = Ready<Result<R, E>>;
fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
match Pin::new(&mut self.delay).poll(cx) {
Poll::Ready(_) => {
let now = Instant::from_std(self.time.now());
if self.expire <= now {
Poll::Ready(Err((self.f)()))
} else {
self.delay.reset(self.expire);
let _ = Pin::new(&mut self.delay).poll(cx);
Poll::Ready(Ok(()))
}
}
Poll::Pending => Poll::Ready(Ok(())),
}
}
fn call(&mut self, req: R) -> Self::Future {
self.expire = Instant::from_std(self.time.now() + self.ka);
ok(req)
}
}

14
actix-utils/src/lib.rs
View File

@@ -1,18 +1,12 @@
//! Actix utils - various helper services
//! Various network related services and utilities for the Actix ecosystem.
#![deny(rust_2018_idioms)]
#![deny(rust_2018_idioms, nonstandard_style)]
#![allow(clippy::type_complexity)]
#![doc(html_logo_url = "https://actix.rs/img/logo.png")]
#![doc(html_favicon_url = "https://actix.rs/favicon.ico")]
pub mod condition;
pub mod counter;
pub mod dispatcher;
pub mod either;
pub mod inflight;
pub mod keepalive;
pub mod mpsc;
pub mod oneshot;
pub mod order;
pub mod stream;
pub mod task;
pub mod time;
pub mod timeout;

14
actix-utils/src/mpsc.rs
View File

@@ -1,15 +1,17 @@
//! A multi-producer, single-consumer, futures-aware, FIFO queue.
use std::any::Any;
use std::cell::RefCell;
use core::any::Any;
use core::cell::RefCell;
use core::fmt;
use core::pin::Pin;
use core::task::{Context, Poll};
use std::collections::VecDeque;
use std::error::Error;
use std::fmt;
use std::pin::Pin;
use std::rc::Rc;
use std::task::{Context, Poll};
use futures_core::stream::Stream;
use futures_sink::Sink;
use futures_util::stream::Stream;
use crate::task::LocalWaker;

316
actix-utils/src/oneshot.rs
View File

@@ -1,316 +0,0 @@
//! A one-shot, futures-aware channel.
use std::cell::RefCell;
use std::future::Future;
use std::pin::Pin;
use std::rc::Rc;
use std::task::{Context, Poll};
pub use futures_channel::oneshot::Canceled;
use slab::Slab;
use crate::task::LocalWaker;
/// Creates a new futures-aware, one-shot channel.
pub fn channel<T>() -> (Sender<T>, Receiver<T>) {
let inner = Rc::new(RefCell::new(Inner {
value: None,
rx_task: LocalWaker::new(),
}));
let tx = Sender {
inner: inner.clone(),
};
let rx = Receiver { inner };
(tx, rx)
}
/// Creates a new futures-aware, pool of one-shot's.
pub fn pool<T>() -> Pool<T> {
Pool(Rc::new(RefCell::new(Slab::new())))
}
/// Represents the completion half of a oneshot through which the result of a
/// computation is signaled.
#[derive(Debug)]
pub struct Sender<T> {
inner: Rc<RefCell<Inner<T>>>,
}
/// A future representing the completion of a computation happening elsewhere in
/// memory.
#[derive(Debug)]
#[must_use = "futures do nothing unless polled"]
pub struct Receiver<T> {
inner: Rc<RefCell<Inner<T>>>,
}
// The channels do not ever project Pin to the inner T
impl<T> Unpin for Receiver<T> {}
impl<T> Unpin for Sender<T> {}
#[derive(Debug)]
struct Inner<T> {
value: Option<T>,
rx_task: LocalWaker,
}
impl<T> Sender<T> {
/// Completes this oneshot with a successful result.
///
/// This function will consume `self` and indicate to the other end, the
/// `Receiver`, that the error provided is the result of the computation this
/// represents.
///
/// If the value is successfully enqueued for the remote end to receive,
/// then `Ok(())` is returned. If the receiving end was dropped before
/// this function was called, however, then `Err` is returned with the value
/// provided.
pub fn send(self, val: T) -> Result<(), T> {
if Rc::strong_count(&self.inner) == 2 {
let mut inner = self.inner.borrow_mut();
inner.value = Some(val);
inner.rx_task.wake();
Ok(())
} else {
Err(val)
}
}
/// Tests to see whether this `Sender`'s corresponding `Receiver`
/// has gone away.
pub fn is_canceled(&self) -> bool {
Rc::strong_count(&self.inner) == 1
}
}
impl<T> Drop for Sender<T> {
fn drop(&mut self) {
self.inner.borrow().rx_task.wake();
}
}
impl<T> Future for Receiver<T> {
type Output = Result<T, Canceled>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.get_mut();
// If we've got a value, then skip the logic below as we're done.
if let Some(val) = this.inner.borrow_mut().value.take() {
return Poll::Ready(Ok(val));
}
// Check if sender is dropped and return error if it is.
if Rc::strong_count(&this.inner) == 1 {
Poll::Ready(Err(Canceled))
} else {
this.inner.borrow().rx_task.register(cx.waker());
Poll::Pending
}
}
}
/// Futures-aware, pool of one-shot's.
pub struct Pool<T>(Rc<RefCell<Slab<PoolInner<T>>>>);
bitflags::bitflags! {
pub struct Flags: u8 {
const SENDER = 0b0000_0001;
const RECEIVER = 0b0000_0010;
}
}
#[derive(Debug)]
struct PoolInner<T> {
flags: Flags,
value: Option<T>,
waker: LocalWaker,
}
impl<T> Pool<T> {
pub fn channel(&mut self) -> (PSender<T>, PReceiver<T>) {
let token = self.0.borrow_mut().insert(PoolInner {
flags: Flags::all(),
value: None,
waker: LocalWaker::default(),
});
(
PSender {
token,
inner: self.0.clone(),
},
PReceiver {
token,
inner: self.0.clone(),
},
)
}
}
impl<T> Clone for Pool<T> {
fn clone(&self) -> Self {
Pool(self.0.clone())
}
}
/// Represents the completion half of a oneshot through which the result of a
/// computation is signaled.
#[derive(Debug)]
pub struct PSender<T> {
token: usize,
inner: Rc<RefCell<Slab<PoolInner<T>>>>,
}
/// A future representing the completion of a computation happening elsewhere in
/// memory.
#[derive(Debug)]
#[must_use = "futures do nothing unless polled"]
pub struct PReceiver<T> {
token: usize,
inner: Rc<RefCell<Slab<PoolInner<T>>>>,
}
// The one-shots do not ever project Pin to the inner T
impl<T> Unpin for PReceiver<T> {}
impl<T> Unpin for PSender<T> {}
impl<T> PSender<T> {
/// Completes this oneshot with a successful result.
///
/// This function will consume `self` and indicate to the other end, the
/// `Receiver`, that the error provided is the result of the computation this
/// represents.
///
/// If the value is successfully enqueued for the remote end to receive,
/// then `Ok(())` is returned. If the receiving end was dropped before
/// this function was called, however, then `Err` is returned with the value
/// provided.
pub fn send(self, val: T) -> Result<(), T> {
let mut inner = self.inner.borrow_mut();
let inner = unsafe { inner.get_unchecked_mut(self.token) };
if inner.flags.contains(Flags::RECEIVER) {
inner.value = Some(val);
inner.waker.wake();
Ok(())
} else {
Err(val)
}
}
/// Tests to see whether this `Sender`'s corresponding `Receiver`
/// has gone away.
pub fn is_canceled(&self) -> bool {
!unsafe { self.inner.borrow().get_unchecked(self.token) }
.flags
.contains(Flags::RECEIVER)
}
}
impl<T> Drop for PSender<T> {
fn drop(&mut self) {
let mut inner = self.inner.borrow_mut();
let inner_token = unsafe { inner.get_unchecked_mut(self.token) };
if inner_token.flags.contains(Flags::RECEIVER) {
inner_token.waker.wake();
inner_token.flags.remove(Flags::SENDER);
} else {
inner.remove(self.token);
}
}
}
impl<T> Drop for PReceiver<T> {
fn drop(&mut self) {
let mut inner = self.inner.borrow_mut();
let inner_token = unsafe { inner.get_unchecked_mut(self.token) };
if inner_token.flags.contains(Flags::SENDER) {
inner_token.flags.remove(Flags::RECEIVER);
} else {
inner.remove(self.token);
}
}
}
impl<T> Future for PReceiver<T> {
type Output = Result<T, Canceled>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.get_mut();
let mut inner = this.inner.borrow_mut();
let inner = unsafe { inner.get_unchecked_mut(this.token) };
// If we've got a value, then skip the logic below as we're done.
if let Some(val) = inner.value.take() {
return Poll::Ready(Ok(val));
}
// Check if sender is dropped and return error if it is.
if !inner.flags.contains(Flags::SENDER) {
Poll::Ready(Err(Canceled))
} else {
inner.waker.register(cx.waker());
Poll::Pending
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use futures_util::future::lazy;
#[actix_rt::test]
async fn test_oneshot() {
let (tx, rx) = channel();
tx.send("test").unwrap();
assert_eq!(rx.await.unwrap(), "test");
let (tx, rx) = channel();
assert!(!tx.is_canceled());
drop(rx);
assert!(tx.is_canceled());
assert!(tx.send("test").is_err());
let (tx, rx) = channel::<&'static str>();
drop(tx);
assert!(rx.await.is_err());
let (tx, mut rx) = channel::<&'static str>();
assert_eq!(lazy(|cx| Pin::new(&mut rx).poll(cx)).await, Poll::Pending);
tx.send("test").unwrap();
assert_eq!(rx.await.unwrap(), "test");
let (tx, mut rx) = channel::<&'static str>();
assert_eq!(lazy(|cx| Pin::new(&mut rx).poll(cx)).await, Poll::Pending);
drop(tx);
assert!(rx.await.is_err());
}
#[actix_rt::test]
async fn test_pool() {
let (tx, rx) = pool().channel();
tx.send("test").unwrap();
assert_eq!(rx.await.unwrap(), "test");
let (tx, rx) = pool().channel();
assert!(!tx.is_canceled());
drop(rx);
assert!(tx.is_canceled());
assert!(tx.send("test").is_err());
let (tx, rx) = pool::<&'static str>().channel();
drop(tx);
assert!(rx.await.is_err());
let (tx, mut rx) = pool::<&'static str>().channel();
assert_eq!(lazy(|cx| Pin::new(&mut rx).poll(cx)).await, Poll::Pending);
tx.send("test").unwrap();
assert_eq!(rx.await.unwrap(), "test");
let (tx, mut rx) = pool::<&'static str>().channel();
assert_eq!(lazy(|cx| Pin::new(&mut rx).poll(cx)).await, Poll::Pending);
drop(tx);
assert!(rx.await.is_err());
}
}

278
actix-utils/src/order.rs
View File

@@ -1,278 +0,0 @@
use std::collections::VecDeque;
use std::convert::Infallible;
use std::fmt;
use std::future::Future;
use std::marker::PhantomData;
use std::pin::Pin;
use std::rc::Rc;
use std::task::{Context, Poll};
use actix_service::{IntoService, Service, Transform};
use futures_util::future::{ok, Ready};
use crate::oneshot;
use crate::task::LocalWaker;
struct Record<I, E> {
rx: oneshot::Receiver<Result<I, E>>,
tx: oneshot::Sender<Result<I, E>>,
}
/// Timeout error
pub enum InOrderError<E> {
/// Service error
Service(E),
/// Service call dropped
Disconnected,
}
impl<E> From<E> for InOrderError<E> {
fn from(err: E) -> Self {
InOrderError::Service(err)
}
}
impl<E: fmt::Debug> fmt::Debug for InOrderError<E> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
InOrderError::Service(e) => write!(f, "InOrderError::Service({:?})", e),
InOrderError::Disconnected => write!(f, "InOrderError::Disconnected"),
}
}
}
impl<E: fmt::Display> fmt::Display for InOrderError<E> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
InOrderError::Service(e) => e.fmt(f),
InOrderError::Disconnected => write!(f, "InOrder service disconnected"),
}
}
}
/// InOrder - The service will yield responses as they become available,
/// in the order that their originating requests were submitted to the service.
pub struct InOrder<S> {
_t: PhantomData<S>,
}
impl<S> InOrder<S>
where
S: Service,
S::Response: 'static,
S::Future: 'static,
S::Error: 'static,
{
pub fn new() -> Self {
Self { _t: PhantomData }
}
pub fn service(service: S) -> InOrderService<S> {
InOrderService::new(service)
}
}
impl<S> Default for InOrder<S>
where
S: Service,
S::Response: 'static,
S::Future: 'static,
S::Error: 'static,
{
fn default() -> Self {
Self::new()
}
}
impl<S> Transform<S> for InOrder<S>
where
S: Service,
S::Response: 'static,
S::Future: 'static,
S::Error: 'static,
{
type Request = S::Request;
type Response = S::Response;
type Error = InOrderError<S::Error>;
type InitError = Infallible;
type Transform = InOrderService<S>;
type Future = Ready<Result<Self::Transform, Self::InitError>>;
fn new_transform(&self, service: S) -> Self::Future {
ok(InOrderService::new(service))
}
}
pub struct InOrderService<S: Service> {
service: S,
waker: Rc<LocalWaker>,
acks: VecDeque<Record<S::Response, S::Error>>,
}
impl<S> InOrderService<S>
where
S: Service,
S::Response: 'static,
S::Future: 'static,
S::Error: 'static,
{
pub fn new<U>(service: U) -> Self
where
U: IntoService<S>,
{
Self {
service: service.into_service(),
acks: VecDeque::new(),
waker: Rc::new(LocalWaker::new()),
}
}
}
impl<S> Service for InOrderService<S>
where
S: Service,
S::Response: 'static,
S::Future: 'static,
S::Error: 'static,
{
type Request = S::Request;
type Response = S::Response;
type Error = InOrderError<S::Error>;
type Future = InOrderServiceResponse<S>;
fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
// poll_ready could be called from different task
self.waker.register(cx.waker());
// check acks
while !self.acks.is_empty() {
let rec = self.acks.front_mut().unwrap();
match Pin::new(&mut rec.rx).poll(cx) {
Poll::Ready(Ok(res)) => {
let rec = self.acks.pop_front().unwrap();
let _ = rec.tx.send(res);
}
Poll::Pending => break,
Poll::Ready(Err(oneshot::Canceled)) => {
return Poll::Ready(Err(InOrderError::Disconnected))
}
}
}
// check nested service
if let Poll::Pending = self.service.poll_ready(cx).map_err(InOrderError::Service)? {
Poll::Pending
} else {
Poll::Ready(Ok(()))
}
}
fn call(&mut self, request: S::Request) -> Self::Future {
let (tx1, rx1) = oneshot::channel();
let (tx2, rx2) = oneshot::channel();
self.acks.push_back(Record { rx: rx1, tx: tx2 });
let waker = self.waker.clone();
let fut = self.service.call(request);
actix_rt::spawn(async move {
let res = fut.await;
waker.wake();
let _ = tx1.send(res);
});
InOrderServiceResponse { rx: rx2 }
}
}
#[doc(hidden)]
pub struct InOrderServiceResponse<S: Service> {
rx: oneshot::Receiver<Result<S::Response, S::Error>>,
}
impl<S: Service> Future for InOrderServiceResponse<S> {
type Output = Result<S::Response, InOrderError<S::Error>>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
match Pin::new(&mut self.rx).poll(cx) {
Poll::Pending => Poll::Pending,
Poll::Ready(Ok(Ok(res))) => Poll::Ready(Ok(res)),
Poll::Ready(Ok(Err(e))) => Poll::Ready(Err(e.into())),
Poll::Ready(Err(_)) => Poll::Ready(Err(InOrderError::Disconnected)),
}
}
}
#[cfg(test)]
mod tests {
use std::task::{Context, Poll};
use std::time::Duration;
use super::*;
use actix_service::Service;
use futures_channel::oneshot;
use futures_util::future::{lazy, poll_fn, FutureExt, LocalBoxFuture};
struct Srv;
impl Service for Srv {
type Request = oneshot::Receiver<usize>;
type Response = usize;
type Error = ();
type Future = LocalBoxFuture<'static, Result<usize, ()>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
fn call(&mut self, req: oneshot::Receiver<usize>) -> Self::Future {
req.map(|res| res.map_err(|_| ())).boxed_local()
}
}
#[actix_rt::test]
async fn test_in_order() {
let (tx1, rx1) = oneshot::channel();
let (tx2, rx2) = oneshot::channel();
let (tx3, rx3) = oneshot::channel();
let (tx_stop, rx_stop) = oneshot::channel();
let h = std::thread::spawn(move || {
let rx1 = rx1;
let rx2 = rx2;
let rx3 = rx3;
let tx_stop = tx_stop;
actix_rt::System::new("test").block_on(async {
let mut srv = InOrderService::new(Srv);
let _ = lazy(|cx| srv.poll_ready(cx)).await;
let res1 = srv.call(rx1);
let res2 = srv.call(rx2);
let res3 = srv.call(rx3);
actix_rt::spawn(async move {
poll_fn(|cx| {
let _ = srv.poll_ready(cx);
Poll::<()>::Pending
})
.await;
});
assert_eq!(res1.await.unwrap(), 1);
assert_eq!(res2.await.unwrap(), 2);
assert_eq!(res3.await.unwrap(), 3);
let _ = tx_stop.send(());
actix_rt::System::current().stop();
});
});
let _ = tx3.send(3);
std::thread::sleep(Duration::from_millis(50));
let _ = tx2.send(2);
let _ = tx1.send(1);
let _ = rx_stop.await;
let _ = h.join();
}
}

76
actix-utils/src/stream.rs
View File

@@ -1,76 +0,0 @@
use std::future::Future;
use std::pin::Pin;
use std::task::{Context, Poll};
use actix_service::{IntoService, Service};
use futures_util::{stream::Stream, FutureExt};
use crate::mpsc;
#[pin_project::pin_project]
pub struct Dispatcher<S, T>
where
S: Stream,
T: Service<Request = S::Item, Response = ()> + 'static,
{
#[pin]
stream: S,
service: T,
err_rx: mpsc::Receiver<T::Error>,
err_tx: mpsc::Sender<T::Error>,
}
impl<S, T> Dispatcher<S, T>
where
S: Stream,
T: Service<Request = S::Item, Response = ()> + 'static,
{
pub fn new<F>(stream: S, service: F) -> Self
where
F: IntoService<T>,
{
let (err_tx, err_rx) = mpsc::channel();
Dispatcher {
err_rx,
err_tx,
stream,
service: service.into_service(),
}
}
}
impl<S, T> Future for Dispatcher<S, T>
where
S: Stream,
T: Service<Request = S::Item, Response = ()> + 'static,
{
type Output = Result<(), T::Error>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let mut this = self.as_mut().project();
if let Poll::Ready(Some(e)) = Pin::new(&mut this.err_rx).poll_next(cx) {
return Poll::Ready(Err(e));
}
loop {
return match this.service.poll_ready(cx)? {
Poll::Ready(_) => match this.stream.poll_next(cx) {
Poll::Ready(Some(item)) => {
let stop = this.err_tx.clone();
actix_rt::spawn(this.service.call(item).map(move |res| {
if let Err(e) = res {
let _ = stop.send(e);
}
}));
this = self.as_mut().project();
continue;
}
Poll::Pending => Poll::Pending,
Poll::Ready(None) => Poll::Ready(Ok(())),
},
Poll::Pending => Poll::Pending,
};
}
}
}

22
actix-utils/src/task.rs
View File

@@ -1,7 +1,7 @@
use std::cell::UnsafeCell;
use std::marker::PhantomData;
use std::task::Waker;
use std::{fmt, rc};
use core::cell::UnsafeCell;
use core::fmt;
use core::marker::PhantomData;
use core::task::Waker;
/// A synchronization primitive for task wakeup.
///
@@ -19,10 +19,12 @@ use std::{fmt, rc};
///
/// A single `AtomicWaker` may be reused for any number of calls to `register` or
/// `wake`.
// TODO: Refactor to Cell when remove deprecated methods (@botika)
#[derive(Default)]
pub struct LocalWaker {
pub(crate) waker: UnsafeCell<Option<Waker>>,
_t: PhantomData<rc::Rc<()>>,
// mark LocalWaker as a !Send type.
_t: PhantomData<*const ()>,
}
impl LocalWaker {
@@ -34,6 +36,10 @@ impl LocalWaker {
}
}
#[deprecated(
since = "2.1.0",
note = "In favor of `wake`. State of the register doesn't matter at `wake` up"
)]
#[inline]
/// Check if waker has been registered.
pub fn is_registered(&self) -> bool {
@@ -47,9 +53,8 @@ impl LocalWaker {
pub fn register(&self, waker: &Waker) -> bool {
unsafe {
let w = self.waker.get();
let is_registered = (*w).is_some();
*w = Some(waker.clone());
is_registered
let last_waker = w.replace(Some(waker.clone()));
last_waker.is_some()
}
}
@@ -63,6 +68,7 @@ impl LocalWaker {
}
}
#[inline]
/// Returns the last `Waker` passed to `register`, so that the user can wake it.
///
/// If a waker has not been registered, this returns `None`.

225
actix-utils/src/time.rs
View File

@@ -1,225 +0,0 @@
use std::cell::RefCell;
use std::convert::Infallible;
use std::rc::Rc;
use std::task::{Context, Poll};
use std::time::{self, Duration, Instant};
use actix_rt::time::delay_for;
use actix_service::{Service, ServiceFactory};
use futures_util::future::{ok, ready, FutureExt, Ready};
#[derive(Clone, Debug)]
pub struct LowResTime(Rc<RefCell<Inner>>);
#[derive(Debug)]
struct Inner {
resolution: Duration,
current: Option<Instant>,
}
impl Inner {
fn new(resolution: Duration) -> Self {
Inner {
resolution,
current: None,
}
}
}
impl LowResTime {
pub fn with(resolution: Duration) -> LowResTime {
LowResTime(Rc::new(RefCell::new(Inner::new(resolution))))
}
pub fn timer(&self) -> LowResTimeService {
LowResTimeService(self.0.clone())
}
}
impl Default for LowResTime {
fn default() -> Self {
LowResTime(Rc::new(RefCell::new(Inner::new(Duration::from_secs(1)))))
}
}
impl ServiceFactory for LowResTime {
type Request = ();
type Response = Instant;
type Error = Infallible;
type InitError = Infallible;
type Config = ();
type Service = LowResTimeService;
type Future = Ready<Result<Self::Service, Self::InitError>>;
fn new_service(&self, _: ()) -> Self::Future {
ok(self.timer())
}
}
#[derive(Clone, Debug)]
pub struct LowResTimeService(Rc<RefCell<Inner>>);
impl LowResTimeService {
pub fn with(resolution: Duration) -> LowResTimeService {
LowResTimeService(Rc::new(RefCell::new(Inner::new(resolution))))
}
/// Get current time. This function has to be called from
/// future's poll method, otherwise it panics.
pub fn now(&self) -> Instant {
let cur = self.0.borrow().current;
if let Some(cur) = cur {
cur
} else {
let now = Instant::now();
let inner = self.0.clone();
let interval = {
let mut b = inner.borrow_mut();
b.current = Some(now);
b.resolution
};
actix_rt::spawn(delay_for(interval).then(move |_| {
inner.borrow_mut().current.take();
ready(())
}));
now
}
}
}
impl Service for LowResTimeService {
type Request = ();
type Response = Instant;
type Error = Infallible;
type Future = Ready<Result<Self::Response, Self::Error>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
fn call(&mut self, _: ()) -> Self::Future {
ok(self.now())
}
}
#[derive(Clone, Debug)]
pub struct SystemTime(Rc<RefCell<SystemTimeInner>>);
#[derive(Debug)]
struct SystemTimeInner {
resolution: Duration,
current: Option<time::SystemTime>,
}
impl SystemTimeInner {
fn new(resolution: Duration) -> Self {
SystemTimeInner {
resolution,
current: None,
}
}
}
#[derive(Clone, Debug)]
pub struct SystemTimeService(Rc<RefCell<SystemTimeInner>>);
impl SystemTimeService {
pub fn with(resolution: Duration) -> SystemTimeService {
SystemTimeService(Rc::new(RefCell::new(SystemTimeInner::new(resolution))))
}
/// Get current time. This function has to be called from
/// future's poll method, otherwise it panics.
pub fn now(&self) -> time::SystemTime {
let cur = self.0.borrow().current;
if let Some(cur) = cur {
cur
} else {
let now = time::SystemTime::now();
let inner = self.0.clone();
let interval = {
let mut b = inner.borrow_mut();
b.current = Some(now);
b.resolution
};
actix_rt::spawn(delay_for(interval).then(move |_| {
inner.borrow_mut().current.take();
ready(())
}));
now
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::time::{Duration, SystemTime};
/// State Under Test: Two calls of `SystemTimeService::now()` return the same value if they are done within resolution interval of `SystemTimeService`.
///
/// Expected Behavior: Two back-to-back calls of `SystemTimeService::now()` return the same value.
#[actix_rt::test]
async fn system_time_service_time_does_not_immediately_change() {
let resolution = Duration::from_millis(50);
let time_service = SystemTimeService::with(resolution);
assert_eq!(time_service.now(), time_service.now());
}
/// State Under Test: Two calls of `LowResTimeService::now()` return the same value if they are done within resolution interval of `SystemTimeService`.
///
/// Expected Behavior: Two back-to-back calls of `LowResTimeService::now()` return the same value.
#[actix_rt::test]
async fn low_res_time_service_time_does_not_immediately_change() {
let resolution = Duration::from_millis(50);
let time_service = LowResTimeService::with(resolution);
assert_eq!(time_service.now(), time_service.now());
}
/// State Under Test: `SystemTimeService::now()` updates returned value every resolution period.
///
/// Expected Behavior: Two calls of `LowResTimeService::now()` made in subsequent resolution interval return different values
/// and second value is greater than the first one at least by a resolution interval.
#[actix_rt::test]
async fn system_time_service_time_updates_after_resolution_interval() {
let resolution = Duration::from_millis(100);
let wait_time = Duration::from_millis(300);
let time_service = SystemTimeService::with(resolution);
let first_time = time_service
.now()
.duration_since(SystemTime::UNIX_EPOCH)
.unwrap();
delay_for(wait_time).await;
let second_time = time_service
.now()
.duration_since(SystemTime::UNIX_EPOCH)
.unwrap();
assert!(second_time - first_time >= wait_time);
}
/// State Under Test: `LowResTimeService::now()` updates returned value every resolution period.
///
/// Expected Behavior: Two calls of `LowResTimeService::now()` made in subsequent resolution interval return different values
/// and second value is greater than the first one at least by a resolution interval.
#[actix_rt::test]
async fn low_res_time_service_time_updates_after_resolution_interval() {
let resolution = Duration::from_millis(100);
let wait_time = Duration::from_millis(300);
let time_service = LowResTimeService::with(resolution);
let first_time = time_service.now();
delay_for(wait_time).await;
let second_time = time_service.now();
assert!(second_time - first_time >= wait_time);
}
}

137
actix-utils/src/timeout.rs
View File

@@ -1,16 +1,16 @@
//! Service that applies a timeout to requests.
//!
//! If the response does not complete within the specified timeout, the response
//! will be aborted.
use std::future::Future;
use std::marker::PhantomData;
use std::pin::Pin;
use std::task::{Context, Poll};
use std::{fmt, time};
//! If the response does not complete within the specified timeout, the response will be aborted.
use actix_rt::time::{delay_for, Delay};
use core::future::Future;
use core::marker::PhantomData;
use core::pin::Pin;
use core::task::{Context, Poll};
use core::{fmt, time};
use actix_rt::time::{sleep, Sleep};
use actix_service::{IntoService, Service, Transform};
use futures_util::future::{ok, Ready};
use pin_project_lite::pin_project;
/// Applies a timeout to requests.
#[derive(Debug)]
@@ -78,126 +78,149 @@ impl<E> Clone for Timeout<E> {
}
}
impl<S, E> Transform<S> for Timeout<E>
impl<S, E, Req> Transform<S, Req> for Timeout<E>
where
S: Service,
S: Service<Req>,
{
type Request = S::Request;
type Response = S::Response;
type Error = TimeoutError<S::Error>;
type Transform = TimeoutService<S, Req>;
type InitError = E;
type Transform = TimeoutService<S>;
type Future = Ready<Result<Self::Transform, Self::InitError>>;
type Future = TimeoutFuture<Self::Transform, Self::InitError>;
fn new_transform(&self, service: S) -> Self::Future {
ok(TimeoutService {
let service = TimeoutService {
service,
timeout: self.timeout,
})
_phantom: PhantomData,
};
TimeoutFuture {
service: Some(service),
_err: PhantomData,
}
}
}
pub struct TimeoutFuture<T, E> {
service: Option<T>,
_err: PhantomData<E>,
}
impl<T, E> Unpin for TimeoutFuture<T, E> {}
impl<T, E> Future for TimeoutFuture<T, E> {
type Output = Result<T, E>;
fn poll(self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<Self::Output> {
Poll::Ready(Ok(self.get_mut().service.take().unwrap()))
}
}
/// Applies a timeout to requests.
#[derive(Debug, Clone)]
pub struct TimeoutService<S> {
pub struct TimeoutService<S, Req> {
service: S,
timeout: time::Duration,
_phantom: PhantomData<Req>,
}
impl<S> TimeoutService<S>
impl<S, Req> TimeoutService<S, Req>
where
S: Service,
S: Service<Req>,
{
pub fn new<U>(timeout: time::Duration, service: U) -> Self
where
U: IntoService<S>,
U: IntoService<S, Req>,
{
TimeoutService {
timeout,
service: service.into_service(),
_phantom: PhantomData,
}
}
}
impl<S> Service for TimeoutService<S>
impl<S, Req> Service<Req> for TimeoutService<S, Req>
where
S: Service,
S: Service<Req>,
{
type Request = S::Request;
type Response = S::Response;
type Error = TimeoutError<S::Error>;
type Future = TimeoutServiceResponse<S>;
type Future = TimeoutServiceResponse<S, Req>;
fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
self.service.poll_ready(cx).map_err(TimeoutError::Service)
}
fn call(&mut self, request: S::Request) -> Self::Future {
fn call(&mut self, request: Req) -> Self::Future {
TimeoutServiceResponse {
fut: self.service.call(request),
sleep: delay_for(self.timeout),
sleep: sleep(self.timeout),
}
}
}
/// `TimeoutService` response future
#[pin_project::pin_project]
#[derive(Debug)]
pub struct TimeoutServiceResponse<T: Service> {
#[pin]
fut: T::Future,
sleep: Delay,
pin_project! {
/// `TimeoutService` response future
#[derive(Debug)]
pub struct TimeoutServiceResponse<S, Req>
where
S: Service<Req>
{
#[pin]
fut: S::Future,
#[pin]
sleep: Sleep,
}
}
impl<T> Future for TimeoutServiceResponse<T>
impl<S, Req> Future for TimeoutServiceResponse<S, Req>
where
T: Service,
S: Service<Req>,
{
type Output = Result<T::Response, TimeoutError<T::Error>>;
type Output = Result<S::Response, TimeoutError<S::Error>>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let mut this = self.project();
let this = self.project();
// First, try polling the future
match this.fut.poll(cx) {
Poll::Ready(Ok(v)) => return Poll::Ready(Ok(v)),
Poll::Ready(Err(e)) => return Poll::Ready(Err(TimeoutError::Service(e))),
Poll::Pending => {}
if let Poll::Ready(res) = this.fut.poll(cx) {
return match res {
Ok(v) => Poll::Ready(Ok(v)),
Err(e) => Poll::Ready(Err(TimeoutError::Service(e))),
};
}
// Now check the sleep
match Pin::new(&mut this.sleep).poll(cx) {
Poll::Pending => Poll::Pending,
Poll::Ready(_) => Poll::Ready(Err(TimeoutError::Timeout)),
}
this.sleep.poll(cx).map(|_| Err(TimeoutError::Timeout))
}
}
#[cfg(test)]
mod tests {
use std::task::{Context, Poll};
use std::time::Duration;
use core::task::Poll;
use core::time::Duration;
use super::*;
use actix_service::{apply, fn_factory, Service, ServiceFactory};
use futures_util::future::{ok, FutureExt, LocalBoxFuture};
use futures_core::future::LocalBoxFuture;
struct SleepService(Duration);
impl Service for SleepService {
type Request = ();
impl Service<()> for SleepService {
type Response = ();
type Error = ();
type Future = LocalBoxFuture<'static, Result<(), ()>>;
fn poll_ready(&mut self, _: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
actix_service::always_ready!();
fn call(&mut self, _: ()) -> Self::Future {
actix_rt::time::delay_for(self.0)
.then(|_| ok::<_, ()>(()))
.boxed_local()
let sleep = actix_rt::time::sleep(self.0);
Box::pin(async move {
sleep.await;
Ok(())
})
}
}
@@ -226,7 +249,7 @@ mod tests {
let timeout = apply(
Timeout::new(resolution),
fn_factory(|| ok::<_, ()>(SleepService(wait_time))),
fn_factory(|| async { Ok::<_, ()>(SleepService(wait_time)) }),
);
let mut srv = timeout.new_service(&()).await.unwrap();

2
codecov.yml
View File

@@ -1,3 +1,5 @@
comment: false
coverage:
status:
project:

77
examples/basic.rs
View File

@@ -1,77 +0,0 @@
//! simple composite service
//! build: cargo run --example basic --features "ssl"
//! to test: curl https://127.0.0.1:8443/ -k
use std::sync::{
atomic::{AtomicUsize, Ordering},
Arc,
};
use std::{env, fmt, io};
use actix_codec::{AsyncRead, AsyncWrite};
use actix_rt::System;
use actix_server::{Io, Server};
use actix_service::{service_fn, NewService};
use futures_util::{future, Future};
use openssl::ssl::{SslAcceptor, SslFiletype, SslMethod};
use tokio_openssl::SslAcceptorExt;
/// Simple logger service, it just prints fact of the new connections
fn logger<T: AsyncRead + AsyncWrite + fmt::Debug>(
stream: T,
) -> impl Future<Item = T, Error = ()> {
println!("New connection: {:?}", stream);
future::ok(stream)
}
fn main() -> io::Result<()> {
env::set_var("RUST_LOG", "actix_net=trace");
env_logger::init();
let sys = System::new("test");
// load ssl keys
let mut builder = SslAcceptor::mozilla_intermediate(SslMethod::tls()).unwrap();
builder
.set_private_key_file("./examples/key.pem", SslFiletype::PEM)
.unwrap();
builder
.set_certificate_chain_file("./examples/cert.pem")
.unwrap();
let acceptor = builder.build();
let num = Arc::new(AtomicUsize::new(0));
// bind socket address and start workers. By default server uses number of
// available logical cpu as threads count. actix net start separate
// instances of service pipeline in each worker.
Server::build()
.bind(
// configure service pipeline
"basic",
"0.0.0.0:8443",
move || {
let num = num.clone();
let acceptor = acceptor.clone();
// service for converting incoming TcpStream to a SslStream<TcpStream>
service_fn(move |stream: Io<tokio_tcp::TcpStream>| {
SslAcceptorExt::accept_async(&acceptor, stream.into_parts().0)
.map_err(|e| println!("Openssl error: {}", e))
})
// .and_then() combinator uses other service to convert incoming `Request` to a
// `Response` and then uses that response as an input for next
// service. in this case, on success we use `logger` service
.and_then(logger)
// Next service counts number of connections
.and_then(move |_| {
let num = num.fetch_add(1, Ordering::Relaxed);
println!("got ssl connection {:?}", num);
future::ok(())
})
},
)
.unwrap()
.start();
sys.run()
}

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