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lua-resty-http

Lua HTTP client cosocket driver for OpenResty / ngx_lua.

Status

Production ready.

Test

Features

API

Deprecated

These methods may be removed in future versions.

Usage

There are two basic modes of operation:

  1. Simple single-shot requests which require no manual connection management but which buffer the entire response and leave the connection either closed or back in the connection pool.

  2. Streamed requests where the connection is established separately, then the request is sent, the body stream read in chunks, and finally the connection is manually closed or kept alive. This technique requires a little more code but provides the ability to discard potentially large response bodies on the Lua side, as well as pipelining multiple requests over a single connection.

Single-shot request

local httpc = require("resty.http").new()

-- Single-shot requests use the `request_uri` interface.
local res, err = httpc:request_uri("http://example.com/helloworld", {
    method = "POST",
    body = "a=1&b=2",
    headers = {
        ["Content-Type"] = "application/x-www-form-urlencoded",
    },
})
if not res then
    ngx.log(ngx.ERR, "request failed: ", err)
    return
end

-- At this point, the entire request / response is complete and the connection
-- will be closed or back on the connection pool.

-- The `res` table contains the expeected `status`, `headers` and `body` fields.
local status = res.status
local length = res.headers["Content-Length"]
local body   = res.body

Streamed request

local httpc = require("resty.http").new()

-- First establish a connection
local ok, err = httpc:connect({
    scheme = "https",
    host = "127.0.0.1",
    port = 8080,
})
if not ok then
    ngx.log(ngx.ERR, "connection failed: ", err)
    return
end

-- Then send using `request`, supplying a path and `Host` header instead of a
-- full URI.
local res, err = httpc:request({
    path = "/helloworld",
    headers = {
        ["Host"] = "example.com",
    },
})
if not res then
    ngx.log(ngx.ERR, "request failed: ", err)
    return
end

-- At this point, the status and headers will be available to use in the `res`
-- table, but the body and any trailers will still be on the wire.

-- We can use the `body_reader` iterator, to stream the body according to our
-- desired buffer size.
local reader = res.body_reader
local buffer_size = 8192

repeat
    local buffer, err = reader(buffer_size)
    if err then
        ngx.log(ngx.ERR, err)
        break
    end

    if buffer then
        -- process
    end
until not buffer

local ok, err = httpc:set_keepalive()
if not ok then
    ngx.say("failed to set keepalive: ", err)
    return
end

-- At this point, the connection will either be safely back in the pool, or closed.

Connection

new

syntax: httpc, err = http.new()

Creates the HTTP connection object. In case of failures, returns nil and a string describing the error.

connect

syntax: ok, err = httpc:connect(options)

Attempts to connect to the web server while incorporating the following activities:

In doing so it will create a distinct connection pool name that is safe to use with SSL and / or proxy based connections, and as such this syntax is strongly recommended over the original (now deprecated) TCP only connection syntax.

The options table has the following fields:

set_timeout

syntax: httpc:set_timeout(time)

Sets the socket timeout (in ms) for subsequent operations. See set_timeouts below for a more declarative approach.

set_timeouts

syntax: httpc:set_timeouts(connect_timeout, send_timeout, read_timeout)

Sets the connect timeout threshold, send timeout threshold, and read timeout threshold, respectively, in milliseconds, for subsequent socket operations (connect, send, receive, and iterators returned from receiveuntil).

set_keepalive

syntax: ok, err = httpc:set_keepalive(max_idle_timeout, pool_size)

Either places the current connection into the pool for future reuse, or closes the connection. Calling this instead of close is "safe" in that it will conditionally close depending on the type of request. Specifically, a 1.0 request without Connection: Keep-Alive will be closed, as will a 1.1 request with Connection: Close.

In case of success, returns 1. In case of errors, returns nil, err. In the case where the connection is conditionally closed as described above, returns 2 and the error string connection must be closed, so as to distinguish from unexpected errors.

See OpenResty docs for parameter documentation.

set_proxy_options

syntax: httpc:set_proxy_options(opts)

Configure an HTTP proxy to be used with this client instance. The opts table expects the following fields:

Note that this method has no effect when using the deprecated TCP only connect connection syntax.

get_reused_times

syntax: times, err = httpc:get_reused_times()

See OpenResty docs.

close

syntax: ok, err = httpc:close()

See OpenResty docs.

Requesting

request

syntax: res, err = httpc:request(params)

Sends an HTTP request over an already established connection. Returns a res table or nil and an error message.

The params table expects the following fields:

When the request is successful, res will contain the following fields:

request_uri

syntax: res, err = httpc:request_uri(uri, params)

The single-shot interface (see usage). Since this method performs an entire end-to-end request, options specified in the params can include anything found in both connect and request documented above. Note also that fields path, and query, in params will override relevant components of the uri if specified (scheme, host, and port will always be taken from the uri).

There are 3 additional parameters for controlling keepalives:

If the request is successful, res will contain the following fields:

request_pipeline

syntax: responses, err = httpc:request_pipeline(params)

This method works as per the request method above, but params is instead a nested table of parameter tables. Each request is sent in order, and responses is returned as a table of response handles. For example:

local responses = httpc:request_pipeline({
    { path = "/b" },
    { path = "/c" },
    { path = "/d" },
})

for _, r in ipairs(responses) do
    if not r.status then
        ngx.log(ngx.ERR, "socket read error")
        break
    end

    ngx.say(r.status)
    ngx.say(r:read_body())
end

Due to the nature of pipelining, no responses are actually read until you attempt to use the response fields (status / headers etc). And since the responses are read off in order, you must read the entire body (and any trailers if you have them), before attempting to read the next response.

Note this doesn't preclude the use of the streaming response body reader. Responses can still be streamed, so long as the entire body is streamed before attempting to access the next response.

Be sure to test at least one field (such as status) before trying to use the others, in case a socket read error has occurred.

Response

res.body_reader

The body_reader iterator can be used to stream the response body in chunk sizes of your choosing, as follows:

local reader = res.body_reader
local buffer_size = 8192

repeat
    local buffer, err = reader(buffer_size)
    if err then
        ngx.log(ngx.ERR, err)
        break
    end

    if buffer then
        -- process
    end
until not buffer

If the reader is called with no arguments, the behaviour depends on the type of connection. If the response is encoded as chunked, then the iterator will return the chunks as they arrive. If not, it will simply return the entire body.

Note that the size provided is actually a maximum size. So in the chunked transfer case, you may get buffers smaller than the size you ask, as a remainder of the actual encoded chunks.

res:read_body

syntax: body, err = res:read_body()

Reads the entire body into a local string.

res:read_trailers

syntax: res:read_trailers()

This merges any trailers underneath the res.headers table itself. Must be called after reading the body.

Utility

parse_uri

syntax: local scheme, host, port, path, query? = unpack(httpc:parse_uri(uri, query_in_path?))

This is a convenience function allowing one to more easily use the generic interface, when the input data is a URI.

As of version 0.10, the optional query_in_path parameter was added, which specifies whether the querystring is to be included in the path return value, or separately as its own return value. This defaults to true in order to maintain backwards compatibility. When set to false, path will only include the path, and query will contain the URI args, not including the ? delimiter.

get_client_body_reader

syntax: reader, err = httpc:get_client_body_reader(chunksize?, sock?)

Returns an iterator function which can be used to read the downstream client request body in a streaming fashion. You may also specify an optional default chunksize (default is 65536), or an already established socket in place of the client request.

Example:

local req_reader = httpc:get_client_body_reader()
local buffer_size = 8192

repeat
    local buffer, err = req_reader(buffer_size)
    if err then
        ngx.log(ngx.ERR, err)
        break
    end

    if buffer then
        -- process
    end
until not buffer

This iterator can also be used as the value for the body field in request params, allowing one to stream the request body into a proxied upstream request.

local client_body_reader, err = httpc:get_client_body_reader()

local res, err = httpc:request({
    path = "/helloworld",
    body = client_body_reader,
})

Deprecated

These features remain for backwards compatability, but may be removed in future releases.

TCP only connect

The following versions of the connect method signature are deprecated in favour of the single table argument documented above.

syntax: ok, err = httpc:connect(host, port, options_table?)

syntax: ok, err = httpc:connect("unix:/path/to/unix.sock", options_table?)

NOTE: the default pool name will only incorporate IP and port information so is unsafe to use in case of SSL and/or Proxy connections. Specify your own pool or, better still, do not use these signatures.

connect_proxy

syntax: ok, err = httpc:connect_proxy(proxy_uri, scheme, host, port, proxy_authorization)

Calling this method manually is no longer necessary since it is incorporated within connect. It is retained for now for compatibility with users of the older TCP only connect syntax.

Attempts to connect to the web server through the given proxy server. The method accepts the following arguments:

If an error occurs during the connection attempt, this method returns nil with a string describing the error. If the connection was successfully established, the method returns 1.

There's a few key points to keep in mind when using this api:

ssl_handshake

syntax: session, err = httpc:ssl_handshake(session, host, verify)

Calling this method manually is no longer necessary since it is incorporated within connect. It is retained for now for compatibility with users of the older TCP only connect syntax.

See OpenResty docs.

proxy_request / proxy_response

These two convenience methods were intended simply to demonstrate a common use case of implementing reverse proxying, and the author regrets their inclusion in the module. Users are encouraged to roll their own rather than depend on these functions, which may be removed in a subsequent release.

proxy_request

syntax: local res, err = httpc:proxy_request(request_body_chunk_size?)

Performs a request using the current client request arguments, effectively proxying to the connected upstream. The request body will be read in a streaming fashion, according to request_body_chunk_size (see documentation on the client body reader below).

proxy_response

syntax: httpc:proxy_response(res, chunksize?)

Sets the current response based on the given res. Ensures that hop-by-hop headers are not sent downstream, and will read the response according to chunksize (see documentation on the body reader above).

Author

James Hurst james@pintsized.co.uk, with contributions from @hamishforbes, @Tieske, @bungle et al.

Licence

This module is licensed under the 2-clause BSD license.

Copyright (c) James Hurst james@pintsized.co.uk

All rights reserved.

Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.