.. Licensed to the Apache Software Foundation (ASF) under one or more contributor license agreements. See the NOTICE file distributed with this work for additional information regarding copyright ownership. The ASF licenses this file to you under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. .. include:: ../../common.defs .. _admin-plugins-ts-lua: Lua Plugin ********** This module embeds Lua, via the LuaJIT engine (>2.0.4), into |ATS|. With this module, we can implement ATS plugin by writing Lua script instead of C code. Lua code executed using this module can be 100% non-blocking because the powerful Lua coroutines have been integrated into the ATS event model. Installation ============ This plugin is only built if LuaJIT (>2.0.4) is installed. The configure option :: --with-luajit= can be used to specify a LuaJIT install. Otherwise, configure will use pkg-config to find a viable installation. Example Scripts =============== **test_hdr.lua** :: function send_response() ts.client_response.header['Rhost'] = ts.ctx['rhost'] return 0 end function do_remap() local req_host = ts.client_request.header.Host ts.ctx['rhost'] = string.reverse(req_host) ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) return 0 end **sethost.lua** :: local HOSTNAME = '' function __init__(argtb) if (#argtb) < 1 then ts.debug(argtb[0] .. ' hostname parameter required!!') return -1 end HOSTNAME = argtb[1] end function do_remap() ts.client_request.header['Host'] = HOSTNAME return 0 end **test_global_hdr.lua** :: function send_response() ts.client_response.header['Rhost'] = ts.ctx['rhost'] return 0 end function do_global_read_request() local req_host = ts.client_request.header.Host ts.ctx['rhost'] = string.reverse(req_host) ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) end Usage with Example Scripts ========================== This module acts as remap plugin of Traffic Server, so we should realize 'do_remap' or 'do_os_response' function in each lua script. The path referencing a file with the lua script can be relative to the configuration directory or an absolute path. We can write this in remap.config: :: map http://a.tbcdn.cn/ http://inner.tbcdn.cn/ @plugin=/XXX/tslua.so @pparam=/XXX/test_hdr.lua Sometimes we want to receive parameters and process them in the script, we should realize '__init__' function in the lua script, and we can write this in remap.config: :: map http://a.x.cn/ http://b.x.cn/ @plugin=/X/tslua.so @pparam=/X/sethost.lua @pparam=a.st.cn This module can also act as a global plugin of Traffic Server. In this case we should provide one of these functions in each lua script: - **'do_global_txn_start'** - **'do_global_txn_close'** - **'do_global_os_dns'** - **'do_global_pre_remap'** - **'do_global_post_remap'** - **'do_global_read_request'** - **'do_global_send_request'** - **'do_global_read_response'** - **'do_global_send_response'** - **'do_global_cache_lookup_complete'** - **'do_global_read_cache'** We can write this in plugin.config: :: tslua.so /etc/trafficserver/script/test_global_hdr.lua Configuration for number of Lua states ====================================== We can also define the number of Lua states to be used for the plugin. If it is used as global plugin, we can write the following in plugin.config :: tslua.so --states=64 /etc/trafficserver/script/test_global_hdr.lua If it is used as remap plugin, we can write the following in remap.config to define the number of Lua states :: map http://a.tbcdn.cn/ http://inner.tbcdn.cn/ @plugin=/XXX/tslua.so @pparam=--states=64 @pparam=/XXX/test_hdr.lua The maximum number of allowed states is set to 256 which is also the default states value. The default value can be globally changed by adding a configuration option to records.config. :: CONFIG proxy.config.plugin.lua.max_states INT 64 Any per plugin --states value overrides this default value but must be less than or equal to this value. This setting is not reloadable since it must be applied when all the lua states are first initialized. For remap instances, the LuaJIT garbage collector can be set to be called automatically whenever a remap instance is created or deleted. This happens when the remap.config file has been modified, and the configuration has been reloaded. This does not apply to global plugin instances since these exist for the life-time of the ATS process, i.e., they are not reloadable or reconfigurable by modifying plugin.config while ATS is running. By default, the LuaJIT garbage collector will run on its own according to its own internal criteria. However, in some cases, the garbage collector should be run in a guaranteed fashion. For example, in Linux, total Lua memory may be limited to 2GB depending on the LuaJIT version. It may be required to release memory on demand in order to prevent out of memory errors when running close to the memory limit. Note that the memory usage is doubled during configuration reloads since the ATS must hold both the current and new configurations during the transition. If garbage collection occurs does not occur immediately, memory usage may exceed this double usage. On demand garbage collection can be enabled by adding the following to each remap line. A value of '1' means enabled. The default value of '0' means disabled. :: map http://a.tbcdn.cn/ http://inner.tbcdn.cn/ @plugin=/XXX/tslua.so @pparam=--ljgc=1 Configuration for JIT mode ========================== We can also turn off JIT mode for LuaJIT when it is acting as global plugin for Traffic Server. The default is on (1). We can write this in plugin.config to turn off JIT :: tslua.so --jit=0 /etc/trafficserver/script/test_global_hdr.lua Profiling ========= The lua module collects runtime statistics about the lua states, for remap and global instances. Per state stats are constantly maintained and are made available through a lifecycle hook. These may be accessed through: :: traffic_ctl plugin msg ts_lua stats_print Sample output: :: [Feb 5 19:00:15.072] ts_lua (remap) id: 0 gc_kb: 2508 gc_kb_max: 3491 threads: 417 threads_max: 438 [Feb 5 19:00:15.072] ts_lua (remap) id: 1 gc_kb: 1896 gc_kb_max: 3646 threads: 417 threads_max: 446 [Feb 5 19:00:15.072] ts_lua (remap) id: 2 gc_kb: 3376 gc_kb_max: 3740 threads: 417 threads_max: 442 Max values may be reset at any time by running: :: traffic_ctl plugin msg ts_lua stats_reset Summary statistics are aggregated every 5s and are available as metrics. :: traffic_ctl metric match lua Sample output: :: plugin.lua.global.states 8 plugin.lua.remap.gc_bytes_min 4804608 plugin.lua.remap.gc_bytes_mean 5552537 plugin.lua.remap.gc_bytes_max 5779456 plugin.lua.remap.threads_min 31 plugin.lua.remap.threads_mean 44 plugin.lua.remap.threads_max 146 TS API for Lua ============== Introduction ------------ The API is exposed to Lua in the form of one standard packages ``ts``. This package is in the default global scope and is always available within lua script. This package can be introduced into Lua like this: :: ts.say('Hello World') ts.sleep(10) :ref:`TOP ` ts.process.uuid --------------- **syntax:** *val = ts.process.uuid()* **context:** global **description:** This function returns the global process id. Here is an example: :: local pid = ts.process.uuid() -- a436bae6-082c-4805-86af-78a5916c4a91 :ref:`TOP ` ts.now ------ **syntax:** *val = ts.now()* **context:** global **description:** This function returns the time since the Epoch (00:00:00 UTC, January 1, 1970), measured in seconds. It includes milliseconds as the decimal part. Here is an example: :: local nt = ts.now() -- 1395221053.123 :ref:`TOP ` ts.debug -------- **syntax:** *ts.debug(TAG?, MESSAGE)* **context:** global **description**: Log the MESSAGE to traffic.out if debug TAG is enabled(the default TAG is **ts_lua**). Here is an example: :: ts.debug('I am in do_remap now.') ts.debug("scw", "hello world") We should write this TAG in records.config(If TAG is missing, default TAG will be set): ``CONFIG proxy.config.diags.debug.tags STRING TAG`` :ref:`TOP ` ts.is_debug_tag_set ------------------- **syntax:** *ts.is_debug_tag_set(TAG?)* **context:** global **description**: Returns '1' if debug TAG is enabled(the default TAG is **ts_lua**). Here is an example: :: if ts.is_debug_tag_set() then ts.debug("hello world") end :ref:`TOP ` ts.error -------- **syntax:** *ts.error(MESSAGE)* **context:** global **description**: Log the MESSAGE to error.log Here is an example: :: ts.error('This is an error message') :ref:`TOP ` ts.fatal -------- **syntax:** *ts.fatal(MESSAGE)* **context:** global **description**: Log the MESSAGE to error.log and shutdown Traffic Server Here is an example: :: ts.fatal('This is an fatal message') :ref:`TOP ` ts.emergency ------------ **syntax:** *ts.emergency(MESSAGE)* **context:** global **description**: Log the MESSAGE to error.log and shutdown Traffic Server Here is an example: :: ts.emergency('This is an emergency message') :ref:`TOP ` ts.status --------- **syntax:** *ts.status(MESSAGE)* **context:** global **description**: Log the MESSAGE to error.log as status :ref:`TOP ` ts.note ------- **syntax:** *ts.note(MESSAGE)* **context:** global **description**: Log the MESSAGE to error.log as note :ref:`TOP ` ts.warning ---------- **syntax:** *ts.warning(MESSAGE)* **context:** global **description**: Log the MESSAGE to error.log as warning :ref:`TOP ` ts.alert -------- **syntax:** *ts.alert(MESSAGE)* **context:** global **description**: Log the MESSAGE to error.log as alert :ref:`TOP ` TS Basic Internal Information ----------------------------- **syntax:** *ts.get_install_dir()* **syntax:** *ts.get_runtime_dir()* **syntax:** *ts.get_config_dir()* **syntax:** *ts.get_plugin_dir()* **syntax:** *ts.get_traffic_server_version()* **context:** global **description**: get basic internal information for the TS instance, such as install directory, runtime directory, config directory, plugin directory and version of ATS Here is an example: :: local config_dir = ts.get_config_dir() :ref:`TOP ` Remap status constants ---------------------- **context:** do_remap :: TS_LUA_REMAP_NO_REMAP (0) TS_LUA_REMAP_DID_REMAP (1) TS_LUA_REMAP_NO_REMAP_STOP (2) TS_LUA_REMAP_DID_REMAP_STOP (3) TS_LUA_REMAP_ERROR (-1) These constants are usually used as return value of do_remap function. :ref:`TOP ` ts.remap.get_to_url_host ------------------------ **syntax:** *ts.remap.get_to_url_host()* **context:** do_remap **description**: retrieve the "to" host of the remap rule Here is an example: :: function do_remap() local to_host = ts.remap.get_to_url_host() ts.debug(to_host) return 0 end :ref:`TOP ` ts.remap.get_to_url_port ------------------------ **syntax:** *ts.remap.get_to_url_port()* **context:** do_remap **description**: retrieve the "to" port of the remap rule :ref:`TOP ` ts.remap.get_to_url_scheme -------------------------- **syntax:** *ts.remap.get_to_url_scheme()* **context:** do_remap **description**: retrieve the "to" scheme of the remap rule :ref:`TOP ` ts.remap.get_to_uri ------------------- **syntax:** *ts.remap.get_to_uri()* **context:** do_remap **description**: retrieve the "to" path of the remap rule :ref:`TOP ` ts.remap.get_to_url ------------------- **syntax:** *ts.remap.get_to_url()* **context:** do_remap **description**: retrieve the "to" url of the remap rule :ref:`TOP ` ts.remap.get_from_url_host -------------------------- **syntax:** *ts.remap.get_from_url_host()* **context:** do_remap **description**: retrieve the "from" host of the remap rule :ref:`TOP ` ts.remap.get_from_url_port -------------------------- **syntax:** *ts.remap.get_from_url_port()* **context:** do_remap **description**: retrieve the "from" port of the remap rule :ref:`TOP ` ts.remap.get_from_url_scheme ---------------------------- **syntax:** *ts.remap.get_from_url_scheme()* **context:** do_remap **description**: retrieve the "from" scheme of the remap rule :ref:`TOP ` ts.remap.get_from_uri --------------------- **syntax:** *ts.remap.get_from_uri()* **context:** do_remap **description**: retrieve the "from" path of the remap rule :ref:`TOP ` ts.remap.get_from_url --------------------- **syntax:** *ts.remap.get_from_url()* **context:** do_remap **description**: retrieve the "from" url of the remap rule :ref:`TOP ` ts.hook ------- **syntax:** *ts.hook(HOOK_POINT, FUNCTION)* **context:** global or do_remap/do_os_response or do_global_* or later **description**: Hooks are points in http transaction processing where we can step in and do some work. FUNCTION will be called when the http transaction steps in to HOOK_POINT. Here is an example :: function send_response() s.client_response.header['SHE'] = 'belief' end function do_remap() ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) end Then the client will get the response like this: :: HTTP/1.1 200 OK Content-Type: text/html Server: ATS/3.2.0 SHE: belief Connection: Keep-Alive ... You can create global hook as well :: function do_some_work() ts.debug('do_some_work') return 0 end ts.hook(TS_LUA_HOOK_READ_REQUEST_HDR, do_some_work) Or you can do it this way :: ts.hook(TS_LUA_HOOK_READ_REQUEST_HDR, function() ts.debug('do_some_work') return 0 end ) Also the return value of the function will control how the transaction will be re-enabled. Return value of 0 will cause the transaction to be re-enabled normally (TS_EVENT_HTTP_CONTINUE). Return value of 1 will be using TS_EVENT_HTTP_ERROR instead. :ref:`TOP ` Hook point constants -------------------- :: TS_LUA_HOOK_OS_DNS TS_LUA_HOOK_PRE_REMAP TS_LUA_HOOK_READ_CACHE_HDR TS_LUA_HOOK_TXN_CLOSE TS_LUA_HOOK_POST_REMAP TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE TS_LUA_HOOK_READ_REQUEST_HDR TS_LUA_HOOK_SEND_REQUEST_HDR TS_LUA_HOOK_READ_RESPONSE_HDR TS_LUA_HOOK_SEND_RESPONSE_HDR TS_LUA_REQUEST_TRANSFORM TS_LUA_RESPONSE_TRANSFORM These constants are usually used in ts.hook method call. Additional Information: +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | Hook Point | Lua Hook Point constant | Hook function be | Hook function be | Hook function be | | | | registered within | registered within | registered within | | | | do_remap() via | do_os_response() | global context via | | | | ts.hook()? | via ts.hook()? | ts.hook()? | +=======================+===========================+======================+====================+======================+ | TS_HTTP_TXN | TS_LUA_HOOK | NO | NO | YES | | _START_HOOK | _TXN_START | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_READ | TS_LUA_HOOK | NO | NO | YES | | _REQUEST_HDR_HOOK | _READ_REQUEST_HDR | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_PRE | TS_LUA_HOOK | NO | NO | YES | | _REMAP_HOOK | _PRE_REMAP | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_POST | TS_LUA_HOOK | YES | NO | YES | | _REMAP_HOOK | _POST_REMAP | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_READ | TS_LUA_HOOK | YES | NO | YES | | _CACHE_HDR_HOOK | _READ_CACHE_HDR | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_OS | TS_LUA_HOOK | YES | NO | YES | | _DNS_HOOK | _OS_DNS | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_CACHE | TS_LUA_HOOK | YES | NO | YES | | _LOOKUP_COMPLETE_HOOK | _CACHE_LOOKUP_COMPLETE | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_SEND | TS_LUA_HOOK | YES | NO | YES | | _REQUEST_HDR_HOOK | _SEND_REQUEST_HDR | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_READ | TS_LUA_HOOK | YES | YES | YES | | _RESPONSE_HDR_HOOK | _READ_RESPONSE_HDR | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_SEND | TS_LUA_HOOK | YES | YES | YES | | _RESPONSE_HDR_HOOK | _SEND_RESPONSE_HDR | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_REQUEST | TS_LUA_REQUEST_TRANSFORM | YES | NO | YES | | _TRANSFORM_HOOK | | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_RESPONSE | TS_LUA_RESPONSE_TRANSFORM | YES | YES | YES | | _TRANSFORM_HOOK | | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ | TS_HTTP_TXN | TS_LUA_HOOK_TXN_CLOSE | YES | YES | YES | | _CLOSE_HOOK | | | | | +-----------------------+---------------------------+----------------------+--------------------+----------------------+ :ref:`TOP ` ts.ctx ------ **syntax:** *ts.ctx[KEY] = VALUE* **syntax:** *VALUE = ts.ctx[KEY]* **context:** do_remap/do_os_response or do_global_* or later **description:** This table can be used to store per-request Lua context data and has a life time identical to the current request. Here is an example: :: function send_response() ts.client_response.header['F-Header'] = ts.ctx['hdr'] return 0 end function do_remap() ts.ctx['hdr'] = 'foo' ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) return 0 end Then the client will get the response like this: :: HTTP/1.1 200 OK Content-Type: text/html Server: ATS/3.2.0 F-Header: foo Connection: Keep-Alive ... :ref:`TOP ` ts.client_request.get_method ---------------------------- **syntax:** *ts.client_request.get_method()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to retrieve the current client request's method name. String like "GET" or "POST" is returned. :ref:`TOP ` ts.client_request.set_method ---------------------------- **syntax:** *ts.client_request.set_method()* **context:** do_remap or do_global_* **description:** This function can be used to override the current client request's method with METHOD_NAME. ts.client_request.get_version ----------------------------- **syntax:** *ver = ts.client_request.get_version()* **context:** do_remap/do_os_response or do_global_* or later **description:** Return the http version string of the client request. Current possible values are 1.0, 1.1, and 0.9. :ref:`TOP ` ts.client_request.set_version ----------------------------- **syntax:** *ts.client_request.set_version(VERSION_STR)* **context:** do_remap or do_global_* or later **description:** Set the http version of the client request with the VERSION_STR :: ts.client_request.set_version('1.0') :ref:`TOP ` ts.client_request.get_uri ------------------------- **syntax:** *ts.client_request.get_uri()* **context:** do_remap/do_os_response or later **description:** This function can be used to retrieve the client request's path. Here is an example: :: function do_remap() local uri = ts.client_request.get_uri() ts.debug(uri) end Then ``GET /st?a=1`` will yield the output: ``/st`` :ref:`TOP ` ts.client_request.set_uri ------------------------- **syntax:** *ts.client_request.set_uri(PATH)* **context:** do_remap or do_global_* **description:** This function can be used to override the client request's path. The PATH argument must be a Lua string and starts with ``/`` :ref:`TOP ` ts.client_request.get_uri_args ------------------------------ **syntax:** *ts.client_request.get_uri_args()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to retrieve the client request's query string. Here is an example: :: function do_remap() local query = ts.client_request.get_uri_args() ts.debug(query) end Then ``GET /st?a=1&b=2`` will yield the output: ``a=1&b=2`` :ref:`TOP ` ts.client_request.set_uri_args ------------------------------ **syntax:** *ts.client_request.set_uri_args(QUERY_STRING)* **context:** do_remap or do_global_* **description:** This function can be used to override the client request's query string. :: ts.client_request.set_uri_args('n=6&p=7') :ref:`TOP ` ts.client_request.get_uri_params -------------------------------- **syntax:** *ts.client_request.get_uri_params()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to retrieve the client request's parameter string. Here is an example: :: function do_remap() local query = ts.client_request.get_uri_params() ts.debug(query) end Then ``GET /st;a=1`` will yield the output: ``a=1`` :ref:`TOP ` ts.client_request.set_uri_params -------------------------------- **syntax:** *ts.client_request.set_uri_params(PARAMETER_STRING)* **context:** do_remap or do_global_* **description:** This function can be used to override the client request's parameter string. :: ts.client_request.set_uri_params('n=6') :ref:`TOP ` ts.client_request.get_url ------------------------- **syntax:** *ts.client_request.get_url()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to retrieve the client request url (:c:func:`TSHttpTxnEffectiveUrlStringGet`). Here is an example: :: function do_remap() local url = ts.client_request.get_url() ts.debug(url) end :ref:`TOP ` ts.client_request.get_pristine_url ---------------------------------- **syntax:** *ts.client_request.get_pristine_url()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to retrieve the client request pristine url. Here is an example: :: function do_remap() local url = ts.client_request.get_pristine_url() ts.debug(url) end Then ``GET /st?a=1&b=2 HTTP/1.1\r\nHost: a.tbcdn.cn\r\n...`` will yield the output: ``http://a.tbcdn.cn/st?a=1&b=2`` :ref:`TOP ` ts.client_request.header.HEADER ------------------------------- **syntax:** *ts.client_request.header.HEADER = VALUE* **syntax:** *ts.client_request.header[HEADER] = VALUE* **syntax:** *VALUE = ts.client_request.header.HEADER* **context:** do_remap/do_os_response or do_global_* or later **description:** Set, add to, clear or get the current client request's HEADER. Here is an example: :: function do_remap() local ua = ts.client_request.header['User-Agent'] ts.debug(ua) ts.client_request.header['Host'] = 'a.tbcdn.cn' end Then ``GET /st HTTP/1.1\r\nHost: b.tb.cn\r\nUser-Agent: Mozilla/5.0\r\n...`` will yield the output: ``Mozilla/5.0`` :ref:`TOP ` ts.client_request.header_table ------------------------------ **syntax:** *VALUE = ts.client_request.header_table[HEADER]* **context:** do_remap/do_os_response or do_global_* or later **description:** get the current client request's HEADER as a table. :ref:`TOP ` ts.client_request.get_headers ----------------------------- **syntax:** *ts.client_request.get_headers()* **context:** do_remap/do_os_response or do_global_* or later **description:** Returns a Lua table holding all the headers for the current client request. Here is an example: :: function do_remap() hdrs = ts.client_request.get_headers() for k, v in pairs(hdrs) do ts.debug(k..': '..v) end end Then ``GET /st HTTP/1.1\r\nHost: b.tb.cn\r\nUser-Aget: Mozilla/5.0\r\nAccept: */*`` will yield the output :: Host: b.tb.cn User-Agent: Mozilla/5.0 Accept: */* :ref:`TOP ` ts.client_request.client_addr.get_addr -------------------------------------- **syntax:** *ts.client_request.client_addr.get_addr()* **context:** do_remap/do_os_response or do_global_* or later **description**: This function can be used to get socket address of the client. The ts.client_request.client_addr.get_addr function returns three values, ip is a string, port and family is number. Here is an example: :: function do_remap() ip, port, family = ts.client_request.client_addr.get_addr() ts.debug(ip) -- 192.168.231.17 ts.debug(port) -- 17786 ts.debug(family) -- 2(AF_INET) return 0 end :ref:`TOP ` ts.client_request.client_addr.get_incoming_port ----------------------------------------------- **syntax:** *ts.client_request.client_addr.get_incoming_port()* **context:** do_remap/do_os_response or do_global_* or later **description**: This function can be used to get incoming port of the request. The ts.client_request.client_addr.get_incoming_port function returns incoming port as number. Here is an example: :: function do_global_read_request() port = ts.client_request.client_addr.get_incoming_port() ts.debug(port) -- 80 end :ref:`TOP ` ts.client_request.get_url_host ------------------------------ **syntax:** *host = ts.client_request.get_url_host()* **context:** do_remap/do_os_response or do_global_* or later **description:** Return the ``host`` field of the request url. Here is an example: :: function do_remap() local url_host = ts.client_request.get_url_host() ts.debug(url_host) end Then ``GET /liuyurou.txt HTTP/1.1\r\nHost: 192.168.231.129:8080\r\n...`` will yield the output: ``192.168.231.129`` :ref:`TOP ` ts.client_request.set_url_host ------------------------------ **syntax:** *ts.client_request.set_url_host(str)* **context:** do_remap or do_global_* **description:** Set ``host`` field of the request url with ``str``. This function is used to change the address of the origin server, and we should return TS_LUA_REMAP_DID_REMAP(_STOP) in do_remap. Here is an example: :: function do_remap() ts.client_request.set_url_host('192.168.231.130') ts.client_request.set_url_port(80) ts.client_request.set_url_scheme('http') return TS_LUA_REMAP_DID_REMAP end remap.config like this: :: map http://192.168.231.129:8080/ http://192.168.231.129:9999/ Then server request will connect to ``192.168.231.130:80`` :ref:`TOP ` ts.client_request.get_url_port ------------------------------ **syntax:** *port = ts.client_request.get_url_port()* **context:** do_remap/do_os_response or do_global_* or later **description:** Returns the ``port`` field of the request url as a Lua number. Here is an example: :: function do_remap() local url_port = ts.client_request.get_url_port() ts.debug(url_port) end Then ``GET /liuyurou.txt HTTP/1.1\r\nHost: 192.168.231.129:8080\r\n...`` will yield the output: ``8080`` :ref:`TOP ` ts.client_request.set_url_port ------------------------------ **syntax:** *ts.client_request.set_url_port(NUMBER)* **context:** do_remap or do_global_* **description:** Set ``port`` field of the request url with ``NUMBER``. This function is used to change the address of the origin server, and we should return TS_LUA_REMAP_DID_REMAP(_STOP) in do_remap. :ref:`TOP ` ts.client_request.get_url_scheme -------------------------------- **syntax:** *scheme = ts.client_request.get_url_scheme()* **context:** do_remap/do_os_response or do_global_* or later **description:** Return the ``scheme`` field of the request url. Here is an example: :: function do_remap() local url_scheme = ts.client_request.get_url_scheme() ts.debug(url_scheme) end Then ``GET /liuyurou.txt HTTP/1.1\r\nHost: 192.168.231.129:8080\r\n...`` will yield the output: ``http`` :ref:`TOP ` ts.client_request.set_url_scheme -------------------------------- **syntax:** *ts.client_request.set_url_scheme(str)* **context:** do_remap or do_global_* **description:** Set ``scheme`` field of the request url with ``str``. This function is used to change the scheme of the server request, and we should return TS_LUA_REMAP_DID_REMAP(_STOP) in do_remap. :ref:`TOP ` ts.client_request.get_ssl_reused ----------------------------------------------- **syntax:** *ts.client_request.get_ssl_reused()* **context:** do_remap/do_os_response or do_global_* or later **description**: This function can be used to know if the SSL session has been reused (1) or not (0) Here is an example: :: function do_global_read_request() ssl_reused = ts.client_request.get_ssl_reused() ts.debug(ssl_reused) -- 0 end :ref:`TOP ` ts.client_request.get_ssl_protocol ----------------------------------------------- **syntax:** *ts.client_request.get_ssl_protocol()* **context:** do_remap/do_os_response or do_global_* or later **description**: This function can be used to get the SSL protocol used to communicate with the client Here is an example: :: function do_global_read_request() ssl_protocol = ts.client_request.get_ssl_protocol() ts.debug(ssl_protocol) -- TLSv1.2 end :ref:`TOP ` ts.client_request.get_ssl_cipher ----------------------------------------------- **syntax:** *ts.client_request.get_ssl_cipher()* **context:** do_remap/do_os_response or do_global_* or later **description**: This function can be used to get the SSL cipher used to communicate with the client Here is an example: :: function do_global_read_request() ssl_cipher = ts.client_request.get_ssl_cipher() ts.debug(ssl_cipher) -- ECDHE-ECDSA-AES256-GCM-SHA384 end :ref:`TOP ` ts.client_request.get_ssl_curve ----------------------------------------------- **syntax:** *ts.client_request.get_ssl_curve()* **context:** do_remap/do_os_response or do_global_* or later **description**: This function can be used to get the SSL Elliptic curve used to communicate with the client Here is an example: :: function do_global_read_request() ssl_curve = ts.client_request.get_ssl_curve() ts.debug(ssl_curve) -- X25519 end :ref:`TOP ` ts.http.set_cache_url --------------------- **syntax:** *ts.http.set_cache_url(KEY_URL)* **context:** do_remap or do_global_* **description:** This function can be used to modify the cache key for the client request. Here is an example: :: function do_remap() ts.http.set_cache_url('http://a.tbcdn.cn/foo') return 0 end :ref:`TOP ` ts.http.get_cache_lookup_url ---------------------------- **syntax:** *ts.http.get_cache_lookup_url()* **context:** do_global_cache_lookup_complete **description:** This function can be used to get the cache lookup url for the client request. Here is an example :: function cache_lookup() ts.http.set_cache_lookup_url('http://bad.com/bad.html') local cache = ts.http.get_cache_lookup_url() ts.debug(cache) end function do_remap() ts.hook(TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE, cache_lookup) return 0 end :ref:`TOP ` ts.http.set_cache_lookup_url ---------------------------- **syntax:** *ts.http.set_cache_lookup_url()* **context:** do_global_cache_lookup_complete **description:** This function can be used to set the cache lookup url for the client request. :ref:`TOP ` ts.http.redo_cache_lookup ------------------------- **syntax:** *ts.http.redo_cache_lookup()* **context:** do_global_cache_lookup_complete **description:** This function can be used to redo cache lookup with a different url. :ref:`TOP ` ts.http.get_parent_proxy ------------------------ **syntax:** *ts.http.get_parent_proxy()* **context:** do_global_cache_lookup_complete **description:** This function can be used to get the parent proxy host and port. Here is an example :: function cache_lookup() ts.http.set_parent_proxy('test1.test.com', 1111) host, port = ts.http.get_parent_proxy() ts.debug(host) ts.debug(port) end function do_remap() ts.hook(TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE, cache_lookup) return 0 end :ref:`TOP ` ts.http.set_parent_proxy ------------------------ **syntax:** *ts.http.set_parent_proxy()* **context:** do_global_cache_lookup_complete **description:** This function can be used to set the parent proxy host and name. :ref:`TOP ` ts.http.get_parent_selection_url -------------------------------- **syntax:** *ts.http.get_parent_selection_url()* **context:** do_global_cache_lookup_complete **description:** This function can be used to get the parent selection url for the client request. Here is an example :: function cache_lookup() ts.http.set_parent_selection_url('http://bad.com/bad.html') local cache = ts.http.get_parent_selection_url() ts.debug(cache) end function do_remap() ts.hook(TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE, cache_lookup) return 0 end :ref:`TOP ` ts.http.set_parent_selection_url -------------------------------- **syntax:** *ts.http.set_parent_selection_url()* **context:** do_global_cache_lookup_complete **description:** This function can be used to set the parent selection url for the client request. :ref:`TOP ` ts.http.set_server_resp_no_store -------------------------------- **syntax:** *ts.http.set_server_resp_no_store(status)* **context:** do_global_read_response **description:** This function can be used to signal ATS to not store the response in cache Here is an example: :: function do_global_read_response() ts.http.set_server_resp_no_store(1) return 0 end :ref:`TOP ` ts.http.set_resp ---------------- **syntax:** *ts.http.set_resp(CODE, BODY)* **context:** do_remap or do_global_* **description:** This function can be used to set response for the client with the CODE status and BODY string. Here is an example: :: function do_remap() ts.http.set_resp(403, "Document access failed :)\n") return 0 end We will get the response like this: :: HTTP/1.1 403 Forbidden Date: Thu, 20 Mar 2014 06:12:43 GMT Connection: close Server: ATS/5.0.0 Cache-Control: no-store Content-Type: text/html Content-Language: en Content-Length: 27 Document access failed :) :ref:`TOP ` ts.http.get_cache_lookup_status ------------------------------- **syntax:** *ts.http.get_cache_lookup_status()* **context:** function @ TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE hook point **description:** This function can be used to get cache lookup status. Here is an example: :: function cache_lookup() local cache_status = ts.http.get_cache_lookup_status() if cache_status == TS_LUA_CACHE_LOOKUP_HIT_FRESH then ts.debug('hit') else ts.debug('not hit') end end function do_remap() ts.hook(TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE, cache_lookup) return 0 end :ref:`TOP ` ts.http.set_cache_lookup_status ------------------------------- **syntax:** *ts.http.set_cache_lookup_status()* **context:** function after TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE hook point **description:** This function can be used to set cache lookup status. Here is an example: :: function cache_lookup() local cache_status = ts.http.get_cache_lookup_status() if cache_status == TS_LUA_CACHE_LOOKUP_HIT_FRESH then ts.debug('hit') else ts.debug('not hit') end ts.http.set_cache_lookup_status(TS_LUA_CACHE_LOOKUP_MISS) end function do_remap() ts.hook(TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE, cache_lookup) return 0 end :ref:`TOP ` Http cache lookup status constants ---------------------------------- **context:** global :: TS_LUA_CACHE_LOOKUP_MISS (0) TS_LUA_CACHE_LOOKUP_HIT_STALE (1) TS_LUA_CACHE_LOOKUP_HIT_FRESH (2) TS_LUA_CACHE_LOOKUP_SKIPPED (3) :ref:`TOP ` ts.cached_response.get_status ----------------------------- **syntax:** *status = ts.cached_response.get_status()* **context:** function @ TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE hook point or later **description:** This function can be used to retrieve the status code of the cached response. A Lua number will be returned. Here is an example: :: function cache_lookup() local cache_status = ts.http.get_cache_lookup_status() if cache_status == TS_LUA_CACHE_LOOKUP_HIT_FRESH then code = ts.cached_response.get_status() ts.debug(code) -- 200 end end function do_remap() ts.hook(TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE, cache_lookup) return 0 end :ref:`TOP ` ts.cached_response.get_version ------------------------------ **syntax:** *ver = ts.cached_response.get_version()* **context:** function @ TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE hook point or later **description:** Return the http version string of the cached response. Current possible values are 1.0, 1.1, and 0.9. :ref:`TOP ` ts.cached_response.header.HEADER -------------------------------- **syntax:** *VALUE = ts.cached_response.header.HEADER* **syntax:** *VALUE = ts.cached_response.header[HEADER]* **context:** function @ TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE hook point or later **description:** get the current cached response's HEADER. Here is an example: :: function cache_lookup() local status = ts.http.get_cache_lookup_status() if status == TS_LUA_CACHE_LOOKUP_HIT_FRESH then local ct = ts.cached_response.header['Content-Type'] ts.debug(ct) -- text/plain end end function do_remap() ts.hook(TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE, cache_lookup) return 0 end :ref:`TOP ` ts.cached_response.header_table ------------------------------- **syntax:** *VALUE = ts.cached_response.header_table[HEADER]* **context:** function @ TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE hook point or later **description:** get the current cached response's HEADER as a table. :ref:`TOP ` ts.cached_response.get_headers ------------------------------ **syntax:** *ts.cached_response.get_headers()* **context:** function @ TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE hook point or later **description:** Returns a Lua table holding all the headers for the current cached response. Here is an example: :: function cache_lookup() local status = ts.http.get_cache_lookup_status() if status == TS_LUA_CACHE_LOOKUP_HIT_FRESH then hdrs = ts.cached_response.get_headers() for k, v in pairs(hdrs) do ts.debug(k..': '..v) end end end function do_remap() ts.hook(TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE, cache_lookup) return 0 end We will get the output: :: Connection: keep-alive Content-Type: text/plain Date: Thu, 20 Mar 2014 06:12:20 GMT Cache-Control: max-age=864000 Last-Modified: Sun, 19 May 2013 13:22:01 GMT Accept-Ranges: bytes Content-Length: 15 Server: ATS/5.0.0 :ref:`TOP ` ts.server_request.get_uri ------------------------- **syntax:** *ts.server_request.get_uri()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description:** This function can be used to retrieve the server request's path. Here is an example: :: function send_request() local uri = ts.server_request.get_uri() ts.debug(uri) end function do_remap() ts.hook(TS_LUA_HOOK_SEND_REQUEST_HDR, send_request) return 0 end Then ``GET /am.txt?a=1`` will yield the output: ``/am.txt`` :ref:`TOP ` ts.server_request.set_uri ------------------------- **syntax:** *ts.server_request.set_uri(PATH)* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point **description:** This function can be used to override the server request's path. The PATH argument must be a Lua string and starts with ``/`` :ref:`TOP ` ts.server_request.get_uri_args ------------------------------ **syntax:** *ts.server_request.get_uri_args()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description:** This function can be used to retrieve the server request's query string. Here is an example: :: function send_request() local query = ts.server_request.get_uri_args() ts.debug(query) end function do_remap() ts.hook(TS_LUA_HOOK_SEND_REQUEST_HDR, send_request) return 0 end Then ``GET /st?a=1&b=2`` will yield the output: ``a=1&b=2`` :ref:`TOP ` ts.server_request.set_uri_args ------------------------------ **syntax:** *ts.server_request.set_uri_args(QUERY_STRING)* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point **description:** This function can be used to override the server request's query string. :: ts.server_request.set_uri_args('n=6&p=7') :ref:`TOP ` ts.server_request.get_uri_params -------------------------------- **syntax:** *ts.server_request.get_uri_params()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description:** This function can be used to retrieve the server request's parameter string. Here is an example: :: function send_request() local query = ts.server_request.get_uri_params() ts.debug(query) end function do_remap() ts.hook(TS_LUA_HOOK_SEND_REQUEST_HDR, send_request) return 0 end Then ``GET /st;a=1`` will yield the output: ``a=1`` :ref:`TOP ` ts.server_request.set_uri_params -------------------------------- **syntax:** *ts.server_request.set_uri_params(PARAMETER_STRING)* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point **description:** This function can be used to override the server request's parameter string. :: ts.server_request.set_uri_params('n=6') :ref:`TOP ` ts.server_request.header.HEADER ------------------------------- **syntax:** *ts.server_request.header.HEADER = VALUE* **syntax:** *ts.server_request.header[HEADER] = VALUE* **syntax:** *VALUE = ts.server_request.header.HEADER* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description:** Set, add to, clear or get the current server request's HEADER. Here is an example: :: function send_request() local ua = ts.server_request.header['User-Agent'] ts.debug(ua) ts.server_request.header['Accept-Encoding'] = 'gzip' end function do_remap() ts.hook(TS_LUA_HOOK_SEND_REQUEST_HDR, send_request) return 0 end Then ``GET /st HTTP/1.1\r\nHost: b.tb.cn\r\nUser-Agent: Mozilla/5.0\r\n...`` will yield the output: ``Mozilla/5.0`` :ref:`TOP ` ts.server_request.header_table ------------------------------ **syntax:** *VALUE = ts.server_request.header_table[HEADER]* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description:** get the current server request's HEADER as a table. :ref:`TOP ` ts.server_request.get_headers ----------------------------- **syntax:** *ts.server_request.get_headers()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description:** Returns a Lua table holding all the headers for the current server request. Here is an example: :: function send_request() hdrs = ts.cached_response.get_headers() for k, v in pairs(hdrs) do ts.debug(k..': '..v) end end function do_remap() ts.hook(TS_LUA_HOOK_SEND_REQUEST_HDR, send_request) return 0 end We will get the output: :: Host: b.tb.cn User-Agent: curl/7.19.7 Accept: */* :ref:`TOP ` ts.server_request.server_addr.set_addr -------------------------------------- **syntax:** *ts.server_request.server_addr.set_addr()* **context:** no later than function @ TS_LUA_HOOK_OS_DNS hook point **description**: This function can be used to set socket address of the origin server. The ts.server_request.server_addr.set_addr function requires three inputs, ip is a string, port and family is number. Here is an example: :: function do_global_read_request() ts.server_request.server_addr.set_addr("192.168.231.17", 80, TS_LUA_AF_INET) end :ref:`TOP ` Socket address family --------------------- **context:** global :: TS_LUA_AF_INET (2) TS_LUA_AF_INET6 (10) :ref:`TOP ` ts.server_request.server_addr.get_addr -------------------------------------- **syntax:** *ts.server_request.server_addr.get_addr()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description**: This function can be used to get socket address of the origin server. The ts.server_request.server_addr.get_addr function returns three values, ip is a string, port and family is number. Here is an example: :: function do_global_send_request() ip, port, family = ts.server_request.server_addr.get_addr() ts.debug(ip) -- 192.168.231.17 ts.debug(port) -- 80 ts.debug(family) -- 2(AF_INET) end :ref:`TOP ` ts.server_request.server_addr.get_nexthop_addr ---------------------------------------------- **syntax:** *ts.server_request.server_addr.get_nexthop_addr()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description**: This function can be used to get socket address of the next hop to the origin server. The ts.server_request.server_addr.get_nexthop_addr function returns three values, ip is a string, port and family is number. Here is an example: :: function do_global_send_request() ip, port, family = ts.server_request.server_addr.get_nexthop_addr() ts.debug(ip) -- 192.168.231.17 ts.debug(port) -- 80 ts.debug(family) -- 2(AF_INET) end :ref:`TOP ` ts.server_request.server_addr.get_nexthop_name ---------------------------------------------- **syntax:** *ts.server_request.server_addr.get_nexthop_name()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description**: This function can be used to get the host name of the next hop to the origin server. The ts.server_request.server_addr.get_nexthop_name function returns the name as a string. Here is an example: :: function do_global_send_request() name = ts.server_request.server_addr.get_nexthop_name() print(name) -- test end `TOP <#ts-lua-plugin>`_ ts.sha256 --------- **syntax:** *digest = ts.sha256(str)* **context:** global **description:** Returns the hexadecimal representation of the SHA-256 digest of the ``str`` argument. Here is an example: :: function do_remap() uri = ts.client_request.get_uri() print(uri) print(ts.sha256(uri)) end `TOP <#ts-lua-plugin>`_ ts.sha256_bin ------------- **syntax:** *digest = ts.sha256_bin(str)* **context:** global **description:** Returns the binary form of the SHA-256 digest of the ``str`` argument. Here is an example: :: function do_remap() uri = ts.client_request.get_uri() bin = ts.sha256_bin(uri) end `TOP <#ts-lua-plugin>`_ ts.hmac_md5 ----------- **syntax:** *digest = ts.hmac_md5(key, str)* **context:** global **description:** Returns the hexadecimal representation of the HMAC of the ``str`` argument. The message digest function used is MD5. The key value used is contained in the ``key`` argument. This should be a hexadecimal representation of the key value. Here is an example: :: function do_remap() key = "012345" uri = ts.client_request.get_uri() print(uri) print(ts.hmac_md5(key, uri)) end `TOP <#ts-lua-plugin>`_ ts.hmac_sha1 ------------ **syntax:** *digest = ts.hmac_sha1(key, str)* **context:** global **description:** Returns the hexadecimal representation of the HMAC of the ``str`` argument. The message digest function used is SHA-1. The key value used is contained in the ``key`` argument. This should be a hexadecimal representation of the key value. Here is an example: :: function do_remap() key = "012345" uri = ts.client_request.get_uri() print(uri) print(ts.hmac_sha1(key, uri)) end `TOP <#ts-lua-plugin>`_ ts.hmac_sha256 -------------- **syntax:** *digest = ts.hmac_sha256(key, str)* **context:** global **description:** Returns the hexadecimal representation of the HMAC of the ``str`` argument. The message digest function used is SHA-256. The key value used is contained in the ``key`` argument. This should be a hexadecimal representation of the key value. Here is an example: :: function do_remap() key = "012345" uri = ts.client_request.get_uri() print(uri) print(ts.hmac_sha256(key, uri)) end `TOP <#ts-lua-plugin>`_ ts.server_request.server_addr.get_ip ------------------------------------ **syntax:** *ts.server_request.server_addr.get_ip()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description**: This function can be used to get ip address of the origin server. The ts.server_request.server_addr.get_ip function returns ip as a string. Here is an example: :: function do_global_send_request() ip = ts.server_request.server_addr.get_ip() ts.debug(ip) -- 192.168.231.17 end :ref:`TOP ` ts.server_request.server_addr.get_port -------------------------------------- **syntax:** *ts.server_request.server_addr.get_port()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description**: This function can be used to get port of the origin server. The ts.server_request.server_addr.get_port function returns port as number. Here is an example: :: function do_global_send_request() port = ts.server_request.server_addr.get_port() ts.debug(port) -- 80 end :ref:`TOP ` ts.server_request.server_addr.get_outgoing_port ----------------------------------------------- **syntax:** *ts.server_request.server_addr.get_outgoing_port()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description**: This function can be used to get outgoing port to the origin server. The ts.server_request.server_addr.get_outgoing_port function returns outgoing port as number. Here is an example: :: function do_global_send_request() port = ts.server_request.server_addr.get_outgoing_port() ts.debug(port) -- 50880 end :ref:`TOP ` ts.server_request.server_addr.set_outgoing_addr ----------------------------------------------- **syntax:** *ts.server_request.server_addr.set_outgoing_addr()* **context:** earlier than or inside function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point **description**: This function can be used to set outgoing socket address for the request to origin. The ts.server_request.server_addr.set_outgoing_addr function requires three inputs, ip is a string, port and family is number. Here is an example: :: function do_global_send_request() ts.server_request.server_addr.set_outgoing_addr("192.168.231.17", 80, TS_LUA_AF_INET) end :ref:`TOP ` ts.server_request.get_url_host ------------------------------ **syntax:** *host = ts.server_request.get_url_host()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point **description:** Return the ``host`` field of the request url. Here is an example: :: function send_request() local url_host = ts.server_request.get_url_host() ts.debug(url_host) end function do_remap() ts.hook(TS_LUA_HOOK_SEND_REQUEST_HDR, send_request) return 0 end Then ``GET http://abc.com/p2/a.txt HTTP/1.1`` will yield the output: ``abc.com`` :ref:`TOP ` ts.server_request.set_url_host ------------------------------ **syntax:** *ts.server_request.set_url_host(str)* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point **description:** Set ``host`` field of the request url with ``str``. This function is used to change the host name in the GET request to next tier Here is an example: :: function send_request() ts.server_request.set_url_host("") ts.server_request.set_url_scheme("") end function do_remap() ts.hook(TS_LUA_HOOK_SEND_REQUEST_HDR, send_request) return 0 end The GET request like this: :: +++++++++ Proxy's Request +++++++++ – State Machine Id: 5593 GET http://origin.com/dir1/a.txt HTTP/1.1 User-Agent: curl/7.29.0 Host: abc.com Accept: / Client-ip: 135.xx.xx.xx X-Forwarded-For: 135.xx.xx.xx Will be changed to: :: +++++++++ Proxy's Request +++++++++ – State Machine Id: 5593 GET /dir1/a.txt HTTP/1.1 User-Agent: curl/7.29.0 Host: abc.com Accept: / Client-ip: 135.xx.xx.xx X-Forwarded-For: 135.xx.xx.xx :ref:`TOP ` ts.server_request.get_url_scheme -------------------------------- **syntax:** *scheme = ts.server_request.get_url_scheme()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point **description:** Return the ``scheme`` field of the request url. Here is an example: :: function send_request() local url_scheme = ts.server_request.get_url_scheme() ts.debug(url_host) end function do_remap() ts.hook(TS_LUA_HOOK_SEND_REQUEST_HDR, send_request) return 0 end Then ``GET /liuyurou.txt HTTP/1.1\r\nHost: 192.168.231.129:8080\r\n...`` will yield the output: ``http`` :ref:`TOP ` ts.server_request.set_url_scheme -------------------------------- **syntax:** *ts.server_request.set_url_scheme(str)* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point **description:** Set ``scheme`` field of the request url with ``str``. This function is used to change the scheme of the server request. :ref:`TOP ` ts.server_request.get_method ---------------------------- **syntax:** *ts.server_request.get_method()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description:** This function can be used to retrieve the current server request's method name. String like "GET" or "POST" is returned. Here is an example: :: function send_request() local method = ts.server_request.get_method() ts.debug(method) end function do_remap() ts.hook(TS_LUA_HOOK_SEND_REQUEST_HDR, send_request) return 0 end Then ``HEAD /`` will yield the output: ``HEAD`` :ref:`TOP ` ts.server_request.set_method ---------------------------- **syntax:** *ts.server_request.set_method()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later **description:** This function can be used to override the current server request's method with METHOD_NAME. :: ts.server_request.set_method('HEAD') :ref:`TOP ` ts.server_request_get_version ------------------------------ **syntax:** *ver = ts.server_request.get_version()* **context:** function @ TS_LUA_HOOK_SEND_REQUEST_HDR hook point or later. **description:** Return the http version string of the server request. Current possible values are 1.0, 1.1, and 0.9. :: function send_request() local version = ts.server_request.get_version() ts.debug(version) end function do_remap() ts.hook(TS_LUA_HOOK_SEND_REQUEST_HDR, send_request) return 0 end :ref:`TOP ` ts.server_request.set_version ------------------------------ **syntax:** *ts.server_request.set_version(VERSION_STR)* **context:** function @ TS_LUA_HOOK_READ_RESPONSE_HDR hook point **description:** Set the http version of the server request with the VERSION_STR :: ts.server_request.set_version('1.0') :ref:`TOP ` ts.server_response.get_status ----------------------------- **syntax:** *status = ts.server_response.get_status()* **context:** function @ TS_LUA_HOOK_READ_RESPONSE_HDR hook point or later **description:** This function can be used to retrieve the status code of the origin server's response. A Lua number will be returned. Here is an example: :: function read_response() local code = ts.server_response.get_status() ts.debug(code) -- 200 end function do_remap() ts.hook(TS_LUA_HOOK_READ_RESPONSE_HDR, read_response) return 0 end :ref:`TOP `' ts.server_response.set_status ----------------------------- **syntax:** *ts.server_response.set_status(NUMBER)* **context:** function @ TS_LUA_HOOK_READ_RESPONSE_HDR hook point **description:** This function can be used to set the status code of the origin server's response. Here is an example: :: function read_response() ts.server_response.set_status(404) end function do_remap() ts.hook(TS_LUA_HOOK_READ_RESPONSE_HDR, read_response) return 0 end :ref:`TOP `' ts.server_response.get_version ------------------------------ **syntax:** *ver = ts.server_response.get_version()* **context:** function @ TS_LUA_HOOK_READ_RESPONSE_HDR hook point or later. **description:** Return the http version string of the server response. Current possible values are 1.0, 1.1, and 0.9. :ref:`TOP ` ts.server_response.is_cacheable ------------------------------- **syntax:** *can_cache = ts.server_response.is_cacheable()* **context:** function @ TS_LUA_HOOK_READ_RESPONSE_HDR hook point or later. **description:** Return 1 if the server response can be cached, 0 otherwise. :ref:`TOP ` ts.server_response.get_maxage ------------------------------ **syntax:** *maxage = ts.server_response.get_maxage()* **context:** function @ TS_LUA_HOOK_READ_RESPONSE_HDR hook point or later. **description:** Return the maximum age of the server response in seconds if specified by Cache-Control, -1 otherwise. For example: :: function debug_long_maxage() maxage = ts.server_response.get_maxage() if ts.server_response.is_cacheable() and maxage > 86400 then ts.debug('Cacheable response with maxage=' .. maxage) end end function do_remap() ts.hook(TS_LUA_HOOK_READ_RESPONSE_HDR, debug_long_maxage) return 0 end :ref:`TOP ` ts.server_response.set_version ------------------------------ **syntax:** *ts.server_response.set_version(VERSION_STR)* **context:** function @ TS_LUA_HOOK_READ_RESPONSE_HDR hook point **description:** Set the http version of the server response with the VERSION_STR :: ts.server_response.set_version('1.0') :ref:`TOP ` ts.server_response.header.HEADER -------------------------------- **syntax:** *ts.server_response.header.HEADER = VALUE* **syntax:** *ts.server_response.header[HEADER] = VALUE* **syntax:** *VALUE = ts.server_response.header.HEADER* **context:** function @ TS_LUA_HOOK_READ_RESPONSE_HDR hook point or later. **description:** Set, add to, clear or get the current server response's HEADER. Here is an example: :: function read_response() local ct = ts.server_response.header['Content-Type'] ts.debug(ct) ts.server_response.header['Cache-Control'] = 'max-age=14400' end function do_remap() ts.hook(TS_LUA_HOOK_READ_RESPONSE_HDR, read_response) return 0 end We will get the output: ``text/html`` :ref:`TOP `' ts.server_response.header_table ------------------------------- **syntax:** *VALUE = ts.server_response.header_table[HEADER]* **context:** function @ TS_LUA_HOOK_READ_RESPONSE_HDR hook point or later. **description:** get the current server response's HEADER as a table. :ref:`TOP ` ts.server_response.get_headers ------------------------------ **syntax:** *ts.server_response.get_headers()* **context:** function @ TS_LUA_HOOK_READ_RESPONSE_HDR hook point or later **description:** Returns a Lua table holding all the headers for the current server response. Here is an example: :: function read_response() hdrs = ts.server_response.get_headers() for k, v in pairs(hdrs) do ts.debug(k..': '..v) end end function do_remap() ts.hook(TS_LUA_HOOK_READ_RESPONSE_HDR, read_response) return 0 end We will get the output: :: Server: nginx/1.5.9 Date: Tue, 18 Mar 2014 10:12:25 GMT Content-Type: text/html Content-Length: 555 Last-Modified: Mon, 19 Aug 2013 14:25:55 GMT Connection: keep-alive ETag: "52122af3-22b" Cache-Control: max-age=14400 Accept-Ranges: bytes :ref:`TOP ` ts.client_response.get_status ----------------------------- **syntax:** *status = ts.client_response.get_status()* **context:** function @ TS_LUA_HOOK_SEND_RESPONSE_HDR hook point **description:** This function can be used to retrieve the status code of the response to the client. A Lua number will be returned. Here is an example: :: function send_response() local code = ts.client_response.get_status() ts.debug(code) -- 200 end function do_remap() ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) return 0 end :ref:`TOP ` ts.client_response.set_status ----------------------------- **syntax:** *ts.client_response.set_status(NUMBER)* **context:** function @ TS_LUA_HOOK_SEND_RESPONSE_HDR hook point **description:** This function can be used to set the status code of the response to the client. Here is an example: :: function send_response() ts.client_response.set_status(404) end function do_remap() ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) return 0 end :ref:`TOP ` ts.client_response.get_version ------------------------------ **syntax:** *ver = ts.client_response.get_version()* **context:** function @ TS_LUA_HOOK_SEND_RESPONSE_HDR hook point. **description:** Return the http version string of the response to the client. Current possible values are 1.0, 1.1, and 0.9. :ref:`TOP ` ts.client_response.set_version ------------------------------ **syntax:** *ts.client_response.set_version(VERSION_STR)* **context:** function @ TS_LUA_HOOK_SEND_RESPONSE_HDR hook point **description:** Set the http version of the response to the client with the VERSION_STR :: ts.client_response.set_version('1.0') :ref:`TOP ` ts.client_response.header.HEADER -------------------------------- **syntax:** *ts.client_response.header.HEADER = VALUE* **syntax:** *ts.client_response.header[HEADER] = VALUE* **syntax:** *VALUE = ts.client_response.header.HEADER* **context:** function @ TS_LUA_HOOK_SEND_RESPONSE_HDR hook point. **description:** Set, add to, clear or get the current client response's HEADER. Here is an example: :: function send_response() local ct = ts.client_response.header['Content-Type'] ts.debug(ct) ts.client_response.header['Cache-Control'] = 'max-age=3600' end function do_remap() ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) return 0 end We will get the output: ``text/html`` :ref:`TOP ` ts.client_response.header_table ------------------------------- **syntax:** *VALUE = ts.client_response.header_table[HEADER]* **context:** function @ TS_LUA_HOOK_SEND_RESPONSE_HDR hook point. **description:** get the current client response's HEADER as a table. Here is an example: :: function send_response() local hdrs = ts.client_response.header_table['Set-Cookie'] or {} for k, v in pairs(hdrs) do ts.debug(k..': '..v) end end function do_remap() ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) return 0 end If there are multiple 'Set-Cookie' response header, they will be printed as debug message. :ref:`TOP ` ts.client_response.get_headers ------------------------------ **syntax:** *ts.client_response.get_headers()* **context:** function @ TS_LUA_HOOK_SEND_RESPONSE_HDR hook point. **description:** Returns a Lua table holding all the headers for the current client response. Here is an example: :: function send_response() hdrs = ts.client_response.get_headers() for k, v in pairs(hdrs) do ts.debug(k..': '..v) end end function do_remap() ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) return 0 end We will get the output: :: Server: ATS/5.0.0 Date: Tue, 18 Mar 2014 10:12:25 GMT Content-Type: text/html Transfer-Encoding: chunked Last-Modified: Mon, 19 Aug 2013 14:25:55 GMT Connection: keep-alive Cache-Control: max-age=14400 Age: 2641 Accept-Ranges: bytes :ref:`TOP ` ts.client_response.set_error_resp --------------------------------- **syntax:** *ts.client_response.set_error_resp(CODE, BODY)* **context:** function @ TS_LUA_HOOK_SEND_RESPONSE_HDR hook point. **description:** This function can be used to set the error response to the client. With this function we can jump to send error response to the client if exception exists, meanwhile we should return `-1` from the function where exception raises. Here is an example: :: function send_response() ts.client_response.set_error_resp(404, 'bad luck :(\n') end function cache_lookup() return -1 end function do_remap() ts.hook(TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE, cache_lookup) ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) return 0 end We will get the response like this: :: HTTP/1.1 404 Not Found Date: Tue, 18 Mar 2014 11:16:00 GMT Connection: keep-alive Server: ATS/5.0.0 Content-Length: 12 bad luck :( :ref:`TOP ` Number constants ---------------------- **context:** global :: TS_LUA_INT64_MAX (9223372036854775808) TS_LUA_INT64_MIN (-9223372036854775808L) These constants are usually used in transform handler. :ref:`TOP ` ts.http.resp_cache_transformed ------------------------------ **syntax:** *ts.http.resp_cache_transformed(BOOL)* **context:** do_remap/do_os_response or do_global_* or later **description**: This function can be used to tell trafficserver whether to cache the transformed data. Here is an example: :: function upper_transform(data, eos) return string.upper(data), eos end function do_remap() ts.hook(TS_LUA_RESPONSE_TRANSFORM, upper_transform) ts.http.resp_cache_transformed(0) return 0 end This function is usually called after we hook TS_LUA_RESPONSE_TRANSFORM. :ref:`TOP ` ts.http.resp_cache_untransformed -------------------------------- **syntax:** *ts.http.resp_cache_untransformed(BOOL)* **context:** do_remap/do_os_response or do_global_* or later **description**: This function can be used to tell trafficserver whether to cache the untransformed data. Here is an example: :: function upper_transform(data, eos) return string.upper(data), eos end function do_remap() ts.hook(TS_LUA_RESPONSE_TRANSFORM, upper_transform) ts.http.resp_cache_untransformed(1) return 0 end This function is usually called after we hook TS_LUA_RESPONSE_TRANSFORM. :ref:`TOP ` ts.http.resp_transform.get_upstream_bytes ----------------------------------------- **syntax:** *ts.http.resp_transform.get_upstream_bytes()* **context:** transform handler for response **description**: This function can be used to retrieve the total bytes to be received from the upstream. If we got chunked response body from origin server, TS_LUA_INT64_MAX will be returned. Here is an example: :: local APPEND_DATA = 'TAIL\n' function append_transform(data, eos) if ts.ctx['len_set'] == nil then local sz = ts.http.resp_transform.get_upstream_bytes() if sz ~= TS_LUA_INT64_MAX then ts.http.resp_transform.set_downstream_bytes(sz + string.len(APPEND_DATA)) end ts.ctx['len_set'] = true end if eos == 1 then return data .. APPEND_DATA, eos else return data, eos end end function do_remap() ts.hook(TS_LUA_RESPONSE_TRANSFORM, append_transform) ts.http.resp_cache_transformed(0) ts.http.resp_cache_untransformed(1) return 0 end The above example also shows the use of eos passed as a parameter to transform function. It indicates the end of the data stream to the transform function. :ref:`TOP ` ts.http.resp_transform.get_upstream_watermark_bytes --------------------------------------------------- **syntax:** *ts.http.resp_transform.get_upstream_watermark_bytes()* **context:** transform handler for response **description**: This function can be used to retrieve the current watermark bytes for the upstream transform buffer. :ref:`TOP ` ts.http.resp_transform.set_upstream_watermark_bytes --------------------------------------------------- **syntax:** *ts.http.resp_transform.set_upstream_watermark_bytes(NUMBER)* **context:** transform handler for response **description**: This function can be used to set the watermark bytes of the upstream transform buffer. Setting the watermark bytes above 32kb may improve the performance of the transform handler. :ref:`TOP ` ts.http.resp_transform.set_downstream_bytes ------------------------------------------- **syntax:** *ts.http.resp_transform.set_downstream_bytes(NUMBER)* **context:** transform handler for response **description**: This function can be used to set the total bytes to be sent to the downstream. Sometimes we want to set Content-Length header in client_response, and this function should be called before any real data is returned from the transform handler. :ref:`TOP ` ts.http.req_transform.get_downstream_bytes ------------------------------------------ **syntax:** *ts.http.req_transform.get_downstream_bytes()* **context:** transform handler for request **description**: This function can be used to retrieve the total bytes to be received from downstream. Here is an example: :: function transform_print(data, eos) ts.ctx['reqbody'] = ts.ctx['reqbody'] .. data if ts.ctx['len_set'] == nil then local sz = ts.http.req_transform.get_downstream_bytes() ts.http.req_transform.set_upstream_bytes(sz) ts.ctx['len_set'] = true end if (eos == 1) then ts.debug('End of Stream and the reqbody is ... ') ts.debug(ts.ctx['reqbody']) end return data, eos end function do_remap() if (ts.client_request.get_method() == 'POST') then ts.ctx['reqbody'] = '' ts.hook(TS_LUA_REQUEST_TRANSFORM, transform_print) end return 0 end The above example also shows the use of eos passed as a parameter to transform function. It indicates the end of the data stream to the transform function. :ref:`TOP ` ts.http.req_transform.get_downstream_watermark_bytes ---------------------------------------------------- **syntax:** *ts.http.req_transform.get_downstream_watermark_bytes()* **context:** transform handler for request **description**: This function can be used to retrieve the current watermark bytes for the downstream transform buffer. :ref:`TOP ` ts.http.req_transform.set_downstream_watermark_bytes ---------------------------------------------------- **syntax:** *ts.http.req_transform.set_downstream_watermark_bytes(NUMBER)* **context:** transform handler for request **description**: This function can be used to set the watermark bytes of the downstream transform buffer. Setting the watermark bytes above 32kb may improve the performance of the transform handler. :ref:`TOP ` ts.http.req_transform.set_upstream_bytes ---------------------------------------- **syntax:** *ts.http.req_transform.set_upstream_bytes(NUMBER)* **context:** transform handler for request **description**: This function can be used to set the total bytes to be sent to the upstream. This function should be called before any real data is returned from the transform handler. :ref:`TOP ` ts.http.skip_remapping_set -------------------------- **syntax:** *ts.http.skip_remapping_set(BOOL)* **context:** do_global_read_request **description**: This function can be used to tell trafficserver to skip doing remapping Here is an example: :: function do_global_read_request() ts.http.skip_remapping_set(1); ts.client_request.header['Host'] = 'www.yahoo.com' return 0 end This function is usually called in do_global_read_request function :ref:`TOP ` ts.http.get_client_protocol_stack --------------------------------- **syntax:** *ts.http.get_client_protocol_stack()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to get client protocol stack information Here is an example: :: function do_global_read_request() local stack = {ts.http.get_client_protocol_stack()} for k,v in pairs(stack) do ts.debug(v) end return 0 end :ref:`TOP ` ts.http.get_server_protocol_stack --------------------------------- **syntax:** *ts.http.get_server_protocol_stack()* **context:** do_global_read_response or later **description:** This function can be used to get server protocol stack information Here is an example: :: function do_global_read_response() local stack = {ts.http.get_server_protocol_stack()} for k,v in pairs(stack) do ts.debug(v) end return 0 end :ref:`TOP ` ts.http.server_push ------------------- **syntax:** *ts.http.server_push()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can do http/2 server push for the input url Here is an example: :: function do_global_read_request() ts.http.server_push("https://test.com/test.js") return 0 end :ref:`TOP ` ts.http.is_websocket -------------------- **syntax:** *ts.http.is_websocket()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to tell if the transaction is websocket Here is an example: :: function do_global_read_request() local flag = ts.http.is_websocket() ts.debug(flag) return 0 end :ref:`TOP ` ts.http.get_plugin_tag ---------------------- **syntax:** *ts.http.get_plugin_tag()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to get plugin tag of a transaction Here is an example: :: function do_global_read_request() local tag = ts.http.get_plugin_tag() or '' ts.debug(tag) return 0 end :ref:`TOP ` ts.http.id ---------- **syntax:** *ts.http.id()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to tell id of a transaction Here is an example: :: function do_global_read_request() local id = ts.http.id() ts.debug(id) return 0 end :ref:`TOP ` ts.http.ssn_id -------------- **syntax:** *ts.http.ssn_id()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to tell id of a client session Here is an example: :: function do_global_read_request() local id = ts.http.ssn_id() ts.debug(id) return 0 end :ref:`TOP ` ts.http.is_internal_request --------------------------- **syntax:** *ts.http.is_internal_request()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to tell if a request is internal or not Here is an example: :: function do_global_read_request() local internal = ts.http.is_internal_request() ts.debug(internal) return 0 end :ref:`TOP ` ts.http.is_aborted ------------------ **syntax:** *ts.http.is_aborted()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to tell if a request is aborted or not Here is an example: :: function do_global_read_request() local aborted = ts.http.is_aborted() ts.debug(aborted) return 0 end :ref:`TOP ` ts.http.transaction_count ------------------------- **syntax:** *ts.http.transaction_count()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function returns the number of transaction in this client connection Here is an example :: function do_remap() local count = ts.http.transaction_count() ts.debug(tostring(count)) return 0 end :ref:`TOP ` ts.http.server_transaction_count -------------------------------- **syntax:** *ts.http.server_transaction_count()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function returns the number of transaction in this server connection :ref:`TOP ` ts.http.redirect_url_set ------------------------ **syntax:** *ts.http.redirect_url_set()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function sets the redirect url and instructs the transaction to follow the redirection as response Here is an example :: function do_global_read_response() ts.http.redirect_url_set('http://foo.com') return 0 end :ref:`TOP ` ts.http.get_server_state ------------------------ **syntax:** *ts.http.get_server_state()* **context:** do_remap/do_os_response or do_global_* or later **description:** This function returns the current server state Here is an example :: function do_os_response() local result = ts.http.get_server_state() if result == TS_LUA_SRVSTATE_CONNECTION_ALIVE then ts.debug('Alive') end end :ref:`TOP ` Server state constants ---------------------- **context:** global :: TS_LUA_SRVSTATE_STATE_UNDEFINED (0) TS_LUA_SRVSTATE_ACTIVE_TIMEOUT (1) TS_LUA_SRVSTATE_BAD_INCOMING_RESPONSE (2) TS_LUA_SRVSTATE_CONNECTION_ALIVE (3) TS_LUA_SRVSTATE_CONNECTION_CLOSED (4) TS_LUA_SRVSTATE_CONNECTION_ERROR (5) TS_LUA_SRVSTATE_INACTIVE_TIMEOUT(6) TS_LUA_SRVSTATE_OPEN_RAW_ERROR (7) TS_LUA_SRVSTATE_PARSE_ERROR (8) TS_LUA_SRVSTATE_TRANSACTION_COMPLETE (9) TS_LUA_SRVSTATE_PARENT_RETRY (10) :ref:`TOP ` ts.http.get_remap_from_url -------------------------- **syntax:** *ts.http.get_remap_from_url()* **context:** do_global_post_remap **description:** This function can be used to get the *from* URL in the matching line in :file:`remap.config`. Here is an example :: function do_global_post_remap() local from_url = ts.http.get_remap_from_url() ts.debug(from_url) end :ref:`TOP ` ts.http.get_remap_to_url ------------------------ **syntax:** *ts.http.get_remap_to_url()* **context:** do_global_post_remap **description:** This function can be used to get the *to* URL in the matching line in :file:`remap.config`. Here is an example :: function do_global_post_remap() local to_url = ts.http.get_remap_to_url() ts.debug(to_url) end :ref:`TOP ` ts.http.get_client_fd --------------------- **syntax:** *ts.http.get_client_fd()* **context:** after do_global_read_request **description:** This function can be used to get the client FD for the transaction. Here is an example :: function do_global_read_request() local fd = ts.http.get_client_fd() ts.debug(fd) end :ref:`TOP ` ts.http.get_server_fd --------------------- **syntax:** *ts.http.get_server_fd()* **context:** after do_global_send_request **description:** This function can be used to get the server (origin) FD for the transaction. Here is an example :: function do_global_send_request() local fd = ts.http.get_server_fd() ts.debug(fd) end :ref:`TOP ` ts.add_package_path ------------------- **syntax:** *ts.add_package_path(lua-style-path-str)* **context:** init stage of the lua script **description:** Adds the Lua module search path used by scripts. The path string is in standard Lua path form. Here is an example: :: ts.add_package_path('/home/a/test/lua/pac/?.lua') local nt = require("nt") function do_remap() ts.debug(nt.t9(7979)) return 0 end :ref:`TOP ` ts.add_package_cpath -------------------- **syntax:** *ts.add_package_cpath(lua-style-cpath-str)* **context:** init stage of the lua script **description:** Adds the Lua C-module search path used by scripts. The cpath string is in standard Lua cpath form. Here is an example: :: ts.add_package_cpath('/home/a/test/c/module/?.so') local ma = require("ma") function do_remap() ts.debug(ma.ft()) return 0 end :ref:`TOP ` ts.md5 ------ **syntax:** *digest = ts.md5(str)* **context:** global **description:** Returns the hexadecimal representation of the MD5 digest of the ``str`` argument. Here is an example: :: function do_remap() uri = ts.client_request.get_uri() ts.debug(uri) -- /foo ts.debug(ts.md5(uri)) -- 1effb2475fcfba4f9e8b8a1dbc8f3caf end :ref:`TOP ` ts.md5_bin ---------- **syntax:** *digest = ts.md5_bin(str)* **context:** global **description:** Returns the binary form of the MD5 digest of the ``str`` argument. Here is an example: :: function do_remap() uri = ts.client_request.get_uri() bin = ts.md5_bin(uri) end :ref:`TOP ` ts.sha1 ------- **syntax:** *digest = ts.sha1(str)* **context:** global **description:** Returns the hexadecimal representation of the SHA-1 digest of the ``str`` argument. Here is an example: :: function do_remap() uri = ts.client_request.get_uri() ts.debug(uri) -- /foo ts.debug(ts.sha1(uri)) -- 6dbd548cc03e44b8b44b6e68e56255ce4273ae49 end :ref:`TOP ` ts.sha1_bin ----------- **syntax:** *digest = ts.sha1_bin(str)* **context:** global **description:** Returns the binary form of the SHA-1 digest of the ``str`` argument. Here is an example: :: function do_remap() uri = ts.client_request.get_uri() bin = ts.sha1_bin(uri) end :ref:`TOP ` ts.base64_encode ---------------- **syntax:** *value = ts.base64_encode(str)* **context:** global **description:** Returns the base64 encoding of the ``str`` argument. Here is an example: :: function do_remap() uri = ts.client_request.get_uri() value = ts.base64_encode(uri) end :ref:`TOP ` ts.base64_decode ---------------- **syntax:** *value = ts.base64_decode(str)* **context:** global **description:** Returns the base64 decoding of the ``str`` argument. Here is an example: :: function do_remap() uri = ts.client_request.get_uri() encoded_value = ts.base64_encode(uri) decoded_value = ts.base64_decode(encoded_value) end :ref:`TOP ` ts.escape_uri ------------- **syntax:** *value = ts.escape_uri(str)* **context:** global **description:** Returns the uri-escaped value of the ``str`` argument. Here is an example: :: function do_remap() test = '/some value/' value = ts.escape_uri(test) end :ref:`TOP ` ts.unescape_uri --------------- **syntax:** *value = ts.unescape_uri(str)* **context:** global **description:** Returns the uri-unescaped value of the ``str`` argument. Here is an example: :: function do_remap() test = '/some value/' escaped_value = ts.escape_uri(test) unescaped_value = ts.unescape_uri(escaped_value) end :ref:`TOP ` ts.fetch ----------- **syntax:** *res = ts.fetch(url, table?)* **context:** hook point functions added after do_remap **description:** Issues a synchronous but still non-block http request with the ``url`` and the optional ``table``. Returns a Lua table with several slots (res.status, res.header, res.body, and res.truncated). ``res.status`` holds the response status code. ``res.header`` holds the response header table. ``res.body`` holds the response body which may be truncated, you need to check res.truncated to see if the data is truncated. Here is a basic example: :: function post_remap() local url = string.format('http://%s/foo.txt', ts.ctx['host']) local res = ts.fetch(url) if res.status == 200 then ts.debug(res.body) end end function do_remap() local inner = ts.http.is_internal_request() if inner ~= 0 then return 0 end local host = ts.client_request.header['Host'] ts.ctx['host'] = host ts.hook(TS_LUA_HOOK_POST_REMAP, post_remap) end We can set the optional table with several members: ``header`` holds the request header table. ``method`` holds the request method. The default method is 'GET'. ``cliaddr`` holds the request client address in ip:port form. The default cliaddr is '127.0.0.1:33333' Issuing a post request: :: res = ts.fetch('http://xx.com/foo', {method = 'POST', body = 'hello world'}) :ref:`TOP ` ts.fetch_multi -------------- **syntax:** *vec = ts.fetch_multi({{url, table?}, {url, table?}, ...})* **context:** hook point functions added after do_remap Just like `ts.fetch`, but supports multiple http requests running in parallel. This function will fetch all the urls specified by the input table and return a table which contain all the results in the same order. Here is an example: :: local vec = ts.fetch_multi({ {'http://xx.com/slayer'}, {'http://xx.com/am', {cliaddr = '192.168.1.19:35423'}}, {'http://xx.com/naga', {method = 'POST', body = 'hello world'}}, }) for i = 1, #(vec) do ts.debug(vec[i].status) end :ref:`TOP ` ts.http.intercept ----------------- **syntax:** *ts.http.intercept(FUNCTION, param1?, param2?, ...)* **context:** do_remap or do_global_* **description:** Intercepts the client request and processes it in FUNCTION with optional params. We should construct the response for the client request, and the request will not be processed by other modules, like hostdb, cache, origin server... Intercept FUNCTION will be executed in a new lua_thread, so we can delivery optional params from old lua_thread to new lua_thread if needed. Here is an example: :: require 'os' function send_data(dstr) local nt = os.time()..' Zheng.\n' local resp = 'HTTP/1.0 200 OK\r\n' .. 'Server: ATS/3.2.0\r\n' .. 'Content-Type: text/plain\r\n' .. 'Content-Length: ' .. string.format('%d', string.len(nt)) .. '\r\n' .. 'Last-Modified: ' .. os.date("%a, %d %b %Y %H:%M:%S GMT", os.time()) .. '\r\n' .. 'Connection: keep-alive\r\n' .. 'Cache-Control: max-age=7200\r\n' .. 'Accept-Ranges: bytes\r\n\r\n' .. nt ts.debug(dstr) ts.say(resp) end function do_remap() ts.http.intercept(send_data, 'hello world') return 0 end Then we will get the response like this: :: HTTP/1.1 200 OK Server: ATS/5.0.0 Content-Type: text/plain Content-Length: 18 Last-Modified: Tue, 18 Mar 2014 08:23:12 GMT Cache-Control: max-age=7200 Accept-Ranges: bytes Date: Tue, 18 Mar 2014 12:23:12 GMT Age: 0 Connection: keep-alive 1395145392 Zheng. :ref:`TOP ` ts.http.server_intercept ------------------------ **syntax:** *ts.http.server_intercept(FUNCTION, param1?, param2?, ...)* **context:** do_remap or do_global_* **description:** Intercepts the server request and acts as the origin server. Just like ts.http.intercept, but this function will intercept the server request, and we can acts as the origin server in `FUNCTION`. Here is an example: :: require 'os' function process_combo(host) local url1 = string.format('http://%s/css/1.css', host) local url2 = string.format('http://%s/css/2.css', host) local url3 = string.format('http://%s/css/3.css', host) local hdr = { ['Host'] = host, ['User-Agent'] = 'blur blur', } local ct = { header = hdr, method = 'GET' } local arr = ts.fetch_multi( { {url1, ct}, {url2, ct}, {url3, ct}, }) local ctype = arr[1].header['Content-Type'] local body = arr[1].body .. arr[2].body .. arr[3].body local resp = 'HTTP/1.1 200 OK\r\n' .. 'Server: ATS/5.2.0\r\n' .. 'Last-Modified: ' .. os.date("%a, %d %b %Y %H:%M:%S GMT", os.time()) .. '\r\n' .. 'Cache-Control: max-age=7200\r\n' .. 'Accept-Ranges: bytes\r\n' .. 'Content-Type: ' .. ctype .. '\r\n' .. 'Content-Length: ' .. string.format('%d', string.len(body)) .. '\r\n\r\n' .. body ts.say(resp) end function do_remap() local inner = ts.http.is_internal_request() if inner ~= 0 then return 0 end local h = ts.client_request.header['Host'] ts.http.server_intercept(process_combo, h) end :ref:`TOP ` ts.say ------ **syntax:** *ts.say(data)* **context:** *intercept or server_intercept* **description:** Write response to ATS within intercept or server_intercept. :ref:`TOP ` ts.flush -------- **syntax:** *ts.flush()* **context:** *intercept or server_intercept* **description:** Flushes the output to ATS within intercept or server_intercept. In synchronous mode, the function will not return until all output data has been written into the system send buffer. Note that using the Lua coroutine mechanism means that this function does not block the ATS event loop even in the synchronous mode. Here is an example: :: require 'os' function send_data() ss = 'wo ai yu ye hua\n' local resp = 'HTTP/1.0 200 OK\r\n' .. 'Server: ATS/3.2.0\r\n' .. 'Content-Type: text/plain\r\n' .. 'Content-Length: ' .. string.format('%d', 5*string.len(ss)) .. '\r\n' .. 'Last-Modified: ' .. os.date("%a, %d %b %Y %H:%M:%S GMT", os.time()) .. '\r\n' .. 'Connection: keep-alive\r\n' .. 'Cache-Control: max-age=7200\r\n' .. 'Accept-Ranges: bytes\r\n\r\n' ts.say(resp) for i=1, 5 do ts.say(ss) ts.flush() end end function do_remap() ts.http.intercept(send_data) return 0 end We will get the response like this: :: HTTP/1.1 200 OK Server: ATS/5.0.0 Content-Type: text/plain Content-Length: 80 Last-Modified: Tue, 18 Mar 2014 08:38:29 GMT Cache-Control: max-age=7200 Accept-Ranges: bytes Date: Tue, 18 Mar 2014 12:38:29 GMT Age: 0 Connection: keep-alive wo ai yu ye hua wo ai yu ye hua wo ai yu ye hua wo ai yu ye hua wo ai yu ye hua :ref:`TOP ` ts.sleep -------- **syntax:** *ts.sleep(sec)* **context:** *hook point functions added after do_remap* **description:** Sleeps for the specified seconds without blocking. Behind the scene, this method makes use of the ATS event model. Here is an example: :: function send_response() ts.sleep(3) end function read_response() ts.sleep(3) end function do_remap() ts.hook(TS_LUA_HOOK_READ_RESPONSE_HDR, read_response) ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) end :ref:`TOP ` ts.host_lookup -------------- **syntax:** *ts.host_lookup(hostname)* **context:** *hook point functions added after do_remap* **description:** Look for ip address of the host name without blocking. Nil if address cannot be found. Behind the scene, this method makes use of the ATS event model. Here is an example: :: function send_response() local result = ts.host_lookup("www.xyz.com") -- ip address of www.xyz.com end function do_remap() ts.hook(TS_LUA_HOOK_SEND_RESPONSE_HDR, send_response) end :ref:`TOP ` ts.schedule ----------- **syntax:** *ts.schedule(THREAD_TYPE, sec, FUNCTION, param1?, param2?, ...)* **context:** *hook point functions added after do_remap* **description:** Schedule function to be run after specified seconds without blocking. Behind the scene, this method makes use of the ATS event model. Here is an example: :: function schedule() ts.debug('test schedule starts') end function cache_lookup() ts.debug('cache-lookup') ts.schedule(TS_LUA_THREAD_POOL_NET, 0, schedule) return 0 end function do_remap() ts.hook(TS_LUA_HOOK_CACHE_LOOKUP_COMPLETE, cache_lookup) end :ref:`TOP ` ts.http.config_int_get ---------------------- **syntax:** *val = ts.http.config_int_get(CONFIG)* **context:** do_remap/do_os_response or do_global_* or later **description:** Configuration option which has a int value can be retrieved with this function. :: val = ts.http.config_int_get(TS_LUA_CONFIG_HTTP_CACHE_HTTP) :ref:`TOP ` ts.http.config_int_set ---------------------- **syntax:** *ts.http.config_int_set(CONFIG, NUMBER)* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to overwrite the configuration options. Here is an example: :: function do_remap() ts.http.config_int_set(TS_LUA_CONFIG_HTTP_CACHE_HTTP, 0) -- bypass the cache processor return 0 end :ref:`TOP ` ts.http.config_float_get ------------------------ **syntax:** *val = ts.http.config_float_get(CONFIG)* **context:** do_remap/do_os_response or do_global_* or later **description:** Configuration option which has a float value can be retrieved with this function. :ref:`TOP ` ts.http.config_float_set ------------------------ **syntax:** *ts.http.config_float_set(CONFIG, NUMBER)* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to overwrite the configuration options. :ref:`TOP ` ts.http.config_string_get ------------------------- **syntax:** *val = ts.http.config_string_get(CONFIG)* **context:** do_remap/do_os_response or do_global_* or later **description:** Configuration option which has a string value can be retrieved with this function. :ref:`TOP ` ts.http.config_string_set ------------------------- **syntax:** *ts.http.config_string_set(CONFIG, NUMBER)* **context:** do_remap/do_os_response or do_global_* or later **description:** This function can be used to overwrite the configuration options. :ref:`TOP ` Http config constants --------------------- **context:** do_remap/do_os_response or do_global_* or later :: TS_LUA_CONFIG_URL_REMAP_PRISTINE_HOST_HDR TS_LUA_CONFIG_HTTP_CHUNKING_ENABLED TS_LUA_CONFIG_HTTP_NEGATIVE_CACHING_ENABLED TS_LUA_CONFIG_HTTP_NEGATIVE_CACHING_LIFETIME TS_LUA_CONFIG_HTTP_CACHE_WHEN_TO_REVALIDATE TS_LUA_CONFIG_HTTP_KEEP_ALIVE_ENABLED_IN TS_LUA_CONFIG_HTTP_KEEP_ALIVE_ENABLED_OUT TS_LUA_CONFIG_HTTP_KEEP_ALIVE_POST_OUT TS_LUA_CONFIG_HTTP_SERVER_SESSION_SHARING_MATCH TS_LUA_CONFIG_NET_SOCK_RECV_BUFFER_SIZE_OUT TS_LUA_CONFIG_NET_SOCK_SEND_BUFFER_SIZE_OUT TS_LUA_CONFIG_NET_SOCK_OPTION_FLAG_OUT TS_LUA_CONFIG_HTTP_FORWARD_PROXY_AUTH_TO_PARENT TS_LUA_CONFIG_HTTP_ANONYMIZE_REMOVE_FROM TS_LUA_CONFIG_HTTP_ANONYMIZE_REMOVE_REFERER TS_LUA_CONFIG_HTTP_ANONYMIZE_REMOVE_USER_AGENT TS_LUA_CONFIG_HTTP_ANONYMIZE_REMOVE_COOKIE TS_LUA_CONFIG_HTTP_ANONYMIZE_REMOVE_CLIENT_IP TS_LUA_CONFIG_HTTP_ANONYMIZE_INSERT_CLIENT_IP TS_LUA_CONFIG_HTTP_RESPONSE_SERVER_ENABLED TS_LUA_CONFIG_HTTP_INSERT_SQUID_X_FORWARDED_FOR TS_LUA_CONFIG_HTTP_INSERT_FORWARDED TS_LUA_CONFIG_HTTP_PROXY_PROTOCOL_OUT TS_LUA_CONFIG_HTTP_SEND_HTTP11_REQUESTS TS_LUA_CONFIG_HTTP_CACHE_HTTP TS_LUA_CONFIG_HTTP_CACHE_IGNORE_CLIENT_NO_CACHE TS_LUA_CONFIG_HTTP_CACHE_IGNORE_CLIENT_CC_MAX_AGE TS_LUA_CONFIG_HTTP_CACHE_IMS_ON_CLIENT_NO_CACHE TS_LUA_CONFIG_HTTP_CACHE_IGNORE_SERVER_NO_CACHE TS_LUA_CONFIG_HTTP_CACHE_CACHE_RESPONSES_TO_COOKIES TS_LUA_CONFIG_HTTP_CACHE_IGNORE_AUTHENTICATION TS_LUA_CONFIG_HTTP_CACHE_CACHE_URLS_THAT_LOOK_DYNAMIC TS_LUA_CONFIG_HTTP_CACHE_REQUIRED_HEADERS TS_LUA_CONFIG_HTTP_INSERT_REQUEST_VIA_STR TS_LUA_CONFIG_HTTP_INSERT_RESPONSE_VIA_STR TS_LUA_CONFIG_HTTP_CACHE_HEURISTIC_MIN_LIFETIME TS_LUA_CONFIG_HTTP_CACHE_HEURISTIC_MAX_LIFETIME TS_LUA_CONFIG_HTTP_CACHE_GUARANTEED_MIN_LIFETIME TS_LUA_CONFIG_HTTP_CACHE_GUARANTEED_MAX_LIFETIME TS_LUA_CONFIG_HTTP_CACHE_MAX_STALE_AGE TS_LUA_CONFIG_HTTP_KEEP_ALIVE_NO_ACTIVITY_TIMEOUT_IN TS_LUA_CONFIG_HTTP_KEEP_ALIVE_NO_ACTIVITY_TIMEOUT_OUT TS_LUA_CONFIG_HTTP_TRANSACTION_NO_ACTIVITY_TIMEOUT_IN TS_LUA_CONFIG_HTTP_TRANSACTION_NO_ACTIVITY_TIMEOUT_OUT TS_LUA_CONFIG_HTTP_TRANSACTION_ACTIVE_TIMEOUT_OUT TS_LUA_CONFIG_HTTP_SERVER_MIN_KEEP_ALIVE_CONNS TS_LUA_CONFIG_HTTP_PER_SERVER_CONNECTION_MAX TS_LUA_CONFIG_HTTP_PER_SERVER_CONNECTION_MATCH TS_LUA_CONFIG_HTTP_CONNECT_ATTEMPTS_MAX_RETRIES TS_LUA_CONFIG_HTTP_CONNECT_ATTEMPTS_MAX_RETRIES_DEAD_SERVER TS_LUA_CONFIG_HTTP_CONNECT_DEAD_POLICY TS_LUA_CONFIG_HTTP_CONNECT_ATTEMPTS_RR_RETRIES TS_LUA_CONFIG_HTTP_CONNECT_ATTEMPTS_TIMEOUT TS_LUA_CONFIG_HTTP_DOWN_SERVER_CACHE_TIME TS_LUA_CONFIG_HTTP_DOC_IN_CACHE_SKIP_DNS TS_LUA_CONFIG_HTTP_BACKGROUND_FILL_ACTIVE_TIMEOUT TS_LUA_CONFIG_HTTP_RESPONSE_SERVER_STR TS_LUA_CONFIG_HTTP_CACHE_HEURISTIC_LM_FACTOR TS_LUA_CONFIG_HTTP_BACKGROUND_FILL_COMPLETED_THRESHOLD TS_LUA_CONFIG_NET_SOCK_PACKET_MARK_OUT TS_LUA_CONFIG_NET_SOCK_PACKET_TOS_OUT TS_LUA_CONFIG_HTTP_INSERT_AGE_IN_RESPONSE TS_LUA_CONFIG_HTTP_CHUNKING_SIZE TS_LUA_CONFIG_HTTP_FLOW_CONTROL_ENABLED TS_LUA_CONFIG_HTTP_FLOW_CONTROL_LOW_WATER_MARK TS_LUA_CONFIG_HTTP_FLOW_CONTROL_HIGH_WATER_MARK TS_LUA_CONFIG_HTTP_CACHE_RANGE_LOOKUP TS_LUA_CONFIG_HTTP_NORMALIZE_AE TS_LUA_CONFIG_HTTP_DEFAULT_BUFFER_SIZE TS_LUA_CONFIG_HTTP_DEFAULT_BUFFER_WATER_MARK TS_LUA_CONFIG_HTTP_REQUEST_HEADER_MAX_SIZE TS_LUA_CONFIG_HTTP_RESPONSE_HEADER_MAX_SIZE TS_LUA_CONFIG_HTTP_NEGATIVE_REVALIDATING_ENABLED TS_LUA_CONFIG_HTTP_NEGATIVE_REVALIDATING_LIFETIME TS_LUA_CONFIG_SSL_HSTS_MAX_AGE TS_LUA_CONFIG_SSL_HSTS_INCLUDE_SUBDOMAINS TS_LUA_CONFIG_HTTP_CACHE_OPEN_READ_RETRY_TIME TS_LUA_CONFIG_HTTP_CACHE_MAX_OPEN_READ_RETRIES TS_LUA_CONFIG_HTTP_CACHE_RANGE_WRITE TS_LUA_CONFIG_HTTP_POST_CHECK_CONTENT_LENGTH_ENABLED TS_LUA_CONFIG_HTTP_GLOBAL_USER_AGENT_HEADER TS_LUA_CONFIG_HTTP_AUTH_SERVER_SESSION_PRIVATE TS_LUA_CONFIG_HTTP_SLOW_LOG_THRESHOLD TS_LUA_CONFIG_HTTP_CACHE_GENERATION TS_LUA_CONFIG_BODY_FACTORY_TEMPLATE_BASE TS_LUA_CONFIG_HTTP_CACHE_OPEN_WRITE_FAIL_ACTION TS_LUA_CONFIG_HTTP_NUMBER_OF_REDIRECTIONS TS_LUA_CONFIG_HTTP_CACHE_MAX_OPEN_WRITE_RETRIES TS_LUA_CONFIG_HTTP_REDIRECT_USE_ORIG_CACHE_KEY TS_LUA_CONFIG_HTTP_ATTACH_SERVER_SESSION_TO_CLIENT TS_LUA_CONFIG_HTTP_MAX_PROXY_CYCLES TS_LUA_CONFIG_WEBSOCKET_NO_ACTIVITY_TIMEOUT TS_LUA_CONFIG_WEBSOCKET_ACTIVE_TIMEOUT TS_LUA_CONFIG_HTTP_UNCACHEABLE_REQUESTS_BYPASS_PARENT TS_LUA_CONFIG_HTTP_PARENT_PROXY_TOTAL_CONNECT_ATTEMPTS TS_LUA_CONFIG_HTTP_TRANSACTION_ACTIVE_TIMEOUT_IN TS_LUA_CONFIG_SRV_ENABLED TS_LUA_CONFIG_HTTP_FORWARD_CONNECT_METHOD TS_LUA_CONFIG_SSL_CERT_FILENAME TS_LUA_CONFIG_SSL_CERT_FILEPATH TS_LUA_CONFIG_PARENT_FAILURES_UPDATE_HOSTDB TS_LUA_CONFIG_HTTP_CACHE_IGNORE_ACCEPT_MISMATCH TS_LUA_CONFIG_HTTP_CACHE_IGNORE_ACCEPT_LANGUAGE_MISMATCH TS_LUA_CONFIG_HTTP_CACHE_IGNORE_ACCEPT_ENCODING_MISMATCH TS_LUA_CONFIG_HTTP_CACHE_IGNORE_ACCEPT_CHARSET_MISMATCH TS_LUA_CONFIG_HTTP_PARENT_PROXY_FAIL_THRESHOLD TS_LUA_CONFIG_HTTP_PARENT_PROXY_RETRY_TIME TS_LUA_CONFIG_HTTP_PER_PARENT_CONNECT_ATTEMPTS TS_LUA_CONFIG_HTTP_ALLOW_MULTI_RANGE TS_LUA_CONFIG_HTTP_REQUEST_BUFFER_ENABLED TS_LUA_CONFIG_HTTP_ALLOW_HALF_OPEN TS_LUA_CONFIG_SSL_CLIENT_VERIFY_SERVER_POLICY TS_LUA_CONFIG_SSL_CLIENT_VERIFY_SERVER_PROPERTIES TS_LUA_CONFIG_SSL_CLIENT_SNI_POLICY TS_LUA_CONFIG_SSL_CLIENT_PRIVATE_KEY_FILENAME TS_LUA_CONFIG_SSL_CLIENT_CA_CERT_FILENAME TS_LUA_CONFIG_HTTP_HOST_RESOLUTION_PREFERENCE TS_LUA_CONFIG_PLUGIN_VC_DEFAULT_BUFFER_INDEX TS_LUA_CONFIG_PLUGIN_VC_DEFAULT_BUFFER_WATER_MARK TS_LUA_CONFIG_NET_SOCK_NOTSENT_LOWAT TS_LUA_CONFIG_BODY_FACTORY_RESPONSE_SUPPRESSION_MODE TS_LUA_CONFIG_LAST_ENTRY :ref:`TOP ` ts.http.timeout_set ------------------- **syntax:** *ts.http.timeout_set(CONFIG, NUMBER)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to overwrite the timeout settings. Here is an example: :: function do_remap() ts.http.timeout_set(TS_LUA_TIMEOUT_DNS, 30) -- 30 ms return 0 end :ref:`TOP ` Timeout constants ----------------- **context:** do_remap/do_os_response or do_global_* or later :: TS_LUA_TIMEOUT_ACTIVE TS_LUA_TIMEOUT_DNS TS_LUA_TIMEOUT_CONNECT TS_LUA_TIMEOUT_NO_ACTIVITY :ref:`TOP ` ts.http.client_packet_mark_set ------------------------------ **syntax:** *ts.http.client_packet_mark_set(NUMBER)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to set packet mark for client connection. Here is an example: :: function do_remap() ts.http.client_packet_mark_set(0) return 0 end :ref:`TOP ` ts.http.server_packet_mark_set ------------------------------ **syntax:** *ts.http.server_packet_mark_set(NUMBER)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to set packet mark for server connection. :ref:`TOP ` ts.http.client_packet_tos_set ----------------------------- **syntax:** *ts.http.client_packet_tos_set(NUMBER)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to set packet tos for client connection. :ref:`TOP ` ts.http.server_packet_tos_set ----------------------------- **syntax:** *ts.http.server_packet_tos_set(NUMBER)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to set packet tos for server connection. :ref:`TOP ` ts.http.client_packet_dscp_set ------------------------------ **syntax:** *ts.http.client_packet_dscp_set(NUMBER)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to set packet dscp for client connection. :ref:`TOP ` ts.http.server_packet_dscp_set ------------------------------ **syntax:** *ts.http.server_packet_dscp_set(NUMBER)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to set packet dscp for server connection. :ref:`TOP ` ts.http.enable_redirect ----------------------- **syntax:** *ts.http.enable_redirect(NUMBER)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to make transaction follow redirect Here is an example: :: function do_remap() ts.http.enable_redirect(1) return 0 end :ref:`TOP ` ts.http.set_debug ----------------- **syntax:** *ts.http.set_debug(NUMBER)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to enable debug log for the transaction Here is an example: :: function do_remap() ts.http.set_debug(1) return 0 end :ref:`TOP ` ts.http.cntl_get ---------------- **syntax:** *val = ts.http.cntl_get(CNTL_TYPE)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to retrieve the value of various control mechanisms in HTTP transaction. :: val = ts.http.cntl_get(TS_LUA_HTTP_CNTL_LOGGING_MODE) :ref:`TOP ` ts.http.cntl_set ---------------- **syntax:** *ts.http.cntl_set(CNTL_TYPE, BOOL)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to set the value of various control mechanisms in HTTP transaction. Here is an example: :: function do_remap() ts.http.cntl_set(TS_LUA_HTTP_CNTL_LOGGING_MODE, 0) -- do not log the request return 0 end :ref:`TOP ` Http control mechanism constants -------------------------------- **context:** do_remap/do_os_response or do_global_* or later :: TS_LUA_HTTP_CNTL_LOGGING_MODE TS_LUA_HTTP_CNTL_INTERCEPT_RETRY_MODE TS_LUA_HTTP_CNTL_RESPONSE_CACHEABLE TS_LUA_HTTP_CNTL_REQUEST_CACHEABLE TS_LUA_HTTP_CNTL_SERVER_NO_STORE TS_LUA_HTTP_CNTL_TXN_DEBUG TS_LUA_HTTP_CNTL_SKIP_REMAPPING :ref:`TOP ` ts.http.milestone_get --------------------- **syntax:** *val = ts.http.milestone_get(MILESTONE_TYPE)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to retrieve the various milestone times. They are how long the transaction took to traverse portions of the HTTP state machine. Each milestone value is a fractional number of seconds since the beginning of the transaction. :: val = ts.http.milestone_get(TS_LUA_MILESTONE_SM_START) :ref:`TOP ` Milestone constants ------------------- **context:** do_remap/do_os_response or do_global_* or later :: TS_LUA_MILESTONE_UA_BEGIN TS_LUA_MILESTONE_UA_FIRST_READ TS_LUA_MILESTONE_UA_READ_HEADER_DONE TS_LUA_MILESTONE_UA_BEGIN_WRITE TS_LUA_MILESTONE_UA_CLOSE TS_LUA_MILESTONE_SERVER_FIRST_CONNECT TS_LUA_MILESTONE_SERVER_CONNECT TS_LUA_MILESTONE_SERVER_CONNECT_END TS_LUA_MILESTONE_SERVER_BEGIN_WRITE TS_LUA_MILESTONE_SERVER_FIRST_READ TS_LUA_MILESTONE_SERVER_READ_HEADER_DONE TS_LUA_MILESTONE_SERVER_CLOSE TS_LUA_MILESTONE_CACHE_OPEN_READ_BEGIN TS_LUA_MILESTONE_CACHE_OPEN_READ_END TS_LUA_MILESTONE_CACHE_OPEN_WRITE_BEGIN TS_LUA_MILESTONE_CACHE_OPEN_WRITE_END TS_LUA_MILESTONE_DNS_LOOKUP_BEGIN TS_LUA_MILESTONE_DNS_LOOKUP_END TS_LUA_MILESTONE_SM_START TS_LUA_MILESTONE_SM_FINISH TS_LUA_MILESTONE_PLUGIN_ACTIVE TS_LUA_MILESTONE_PLUGIN_TOTAL TS_LUA_MILESTONE_TLS_HANDSHAKE_START TS_LUA_MILESTONE_TLS_HANDSHAKE_END :ref:`TOP ` ts.http.txn_info_get -------------------- **syntax:** *val = ts.http.txn_info_get(TXN_INFO_TYPE)* **context:** do_global_cache_lookup_complete **description:** This function can be used to retrieve the various cache related info about a transaction. :: val = ts.http.txn_info_get(TS_LUA_TXN_INFO_CACHE_HIT_RAM) :ref:`TOP ` Txn Info constants ------------------ **context:** do_global_cache_lookup_complete :: TS_LUA_TXN_INFO_CACHE_HIT_RAM TS_LUA_TXN_INFO_CACHE_COMPRESSED_IN_RAM TS_LUA_TXN_INFO_CACHE_HIT_RWW TS_LUA_TXN_INFO_CACHE_OPEN_READ_TRIES TS_LUA_TXN_INFO_CACHE_OPEN_WRITE_TRIES TS_LUA_TXN_INFo_CACHE_VOLUME :ref:`TOP ` ts.mgmt.get_counter ------------------- **syntax:** *val = ts.mgmt.get_counter(RECORD_NAME)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to retrieve the record value which has a counter type. :: n = ts.mgmt.get_counter('proxy.process.http.incoming_requests') :ref:`TOP ` ts.mgmt.get_int --------------- **syntax:** *val = ts.mgmt.get_int(RECORD_NAME)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to retrieve the record value which has a int type. :ref:`TOP ` ts.mgmt.get_float ----------------- **syntax:** *val = ts.mgmt.get_float(RECORD_NAME)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to retrieve the record value which has a float type. :ref:`TOP ` ts.mgmt.get_string ------------------ **syntax:** *val = ts.mgmt.get_string(RECORD_NAME)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function can be used to retrieve the record value which has a string type. :: name = ts.mgmt.get_string('proxy.config.product_name') :ref:`TOP ` ts.mgmt.add_config_file ----------------------- **syntax:** *ts.mgmt.add_config_file(parent, filename)* **context:** do_remap/do_os_response or do_global_* or later. **description:** This function invokes ``TSMgmtConfigFileAdd`` API. :: remap = ts.mgmt.get_string('proxy.config.url_remap.filename') ts.mgmt.add_config_file(remap, '/etc/my.config') :ref:`TOP ` ts.stat_create -------------- **syntax:** *val = ts.stat_create(STAT_NAME, RECORDDATA_TYPE, PERSISTENT, SYNC)* **context:** global **description:** This function can be used to create a statistics record given the name, data type, persistent requirement, and sync requirement. A statistics record table will be created with 4 functions to increment, decrement, get and set the value. :: stat:increment(value) stat:decrement(value) v = stat:get_value() stat:set_value(value) Here is an example. :: local test_stat; function __init__(args) test_stat = ts.stat_create("test_stat", TS_LUA_RECORDDATATYPE_INT, TS_LUA_STAT_PERSISTENT, TS_LUA_STAT_SYNC_COUNT) end function do_global_read_request() local value = test_stat:get_value() ts.debug(value) test_stat:increment(1) return 0 end :ref:`TOP ` ts.stat_find ------------ **syntax:** *val = ts.stat_find(STAT_NAME)* **context:** global **description:** This function can be used to find a statistics record given the name. A statistics record table will be returned with 4 functions to increment, decrement, get and set the value. That is similar to ts.stat_create() :ref:`TOP ` Todo ==== * ts.cache_xxx * protocol Currently when we use this as a global plugin, each global hook is using a separate lua state for the same transaction. This can be wasteful. Also the state cannot be reused for the same transaction across the global hooks. The alternative will be to use a TXN_START hook to create a lua state first and then add each global hook in the lua script as transaction hook instead. But this will have problem down the road when we need to have multiple plugins to work together in some proper orderings. In the future, we should consider different approach, such as creating and maintaining the lua state in the ATS core. :ref:`TOP ` Notes on Unit Testing Lua scripts for ATS Lua Plugin ==================================================== Follow the steps below to use busted framework to run some unit tests on sample scripts and modules * Build and install lua 5.1.5 using the source code from here - http://www.lua.org/ftp/lua-5.1.tar.gz * Build and install luarocks 2.2.2 from here - https://github.com/keplerproject/luarocks/wiki/Download * Run "sudo luarocks install busted" * Run "sudo luarocks install luacov" * "cd trafficserver/plugins/lua/ci" * Run "busted -c module_test.lua; luacov". It will produce "luacov.report.out" containing the code coverage for "module.lua" * Run "busted -c script_test.lua; luacov". It will produce "luacov.report.out" containing the code coverage for "script.lua" Reference for further information * Busted - http://olivinelabs.com/busted/ * Specifications for asserts/mocks/stubs/etc inside busted framework: https://github.com/Olivine-Labs/luassert/tree/master/spec * luacov - https://luarocks.org/modules/hisham/luacov :ref:`TOP ` More docs ========= * https://github.com/portl4t/ts-lua :ref:`TOP `