MINOR: h1: add H1_MF_TOLOWER to decide when to turn header names to lower case
The h1 parser used to systematically turn header field names to lower
case because it was designed for H2. Let's add a flag which is off by
default to condition this behaviour so that when using it from an H1
parser it will not affect the message.
The original H1 request parsing code was reintroduced into the generic
H1 parser so that it can be used regardless of the direction. If the
parser is interrupted and restarts, it makes use of the H1_MF_RESP
flag to decide whether to re-parse a request or a response. While
parsing the request, the method is decoded and set into the start line
structure.
MINOR: h2: store the HTTP status into the H2S, not the H1M
The HTTP status is not relevant to the H1 message but to the H2 stream
itself. It used to be placed there by pure convenience but better move
it before it's too hard to remove.
This state was only a delimiter between headers and body but it now
causes more harm than good because it requires someone to change it.
Since the H1 parser knows if we're in DATA or CHUNK_SIZE, simply let
it set the right next state so that h1m->state constantly matches
what is expected afterwards.
While it was not needed in the H2 mux which was reading full H1 messages
from the channel, it is mandatory for the H1 mux reading contents from
outside to be able to restart on a message. The problem is that the
headers are indexed on the fly, and it's not fun to have to store
everything between calls.
The solution here is to complete the first pass doing a partial restart,
and only once the end of message was found, to start over it again at
once, filling entries. This way there is a bounded number of passes on
the contents and no need to store an intermediary result anymore. Later
this principle could even be used to decide to completely drop an output
buffer to save memory.
MEDIUM: h1: make the parser support a pointer to a start line
This will allow the parser to fill some extra fields like the method or
status without having to store them permanently in the HTTP message. At
this point however the parser cannot restart from an interrupted read.
MEDIUM: h1: consider err_pos before deciding to accept a header name or not
Till now the H1 parser made for H2 used to be lenient on invalid header
field names because they were supposed to be produced by haproxy. Now
instead we'll rely on err_pos to know how to act (ie: -2 == must block).
MINOR: mux_h2: replace the req,res h1 messages with a single h1 message
There's no reason to have the two sides in H1 format since we only use
one at a time (the response at the moment). While completely removing
the request declaration, let's rename the response to "h1m" to clarify
that it's the unique h1 message there.
This way we maintain the old mechanism stating that -2 means we block
on errors, -1 means we only capture them, and a positive value indicates
the position of the first error.
MINOR: h1: add the restart offsets into struct h1m
Currently the only user of struct h1m is the h2 mux when it has to parse
an H1 message coming from the channel. Unfortunately this is not enough
to efficiently parse HTTP/1 messages like those coming from the network
as we don't want to restart from scratch at every byte received.
This patch reintroduces the "next" offset into the H1 message so that any
H1 parser can use it to restart when called with a state that is not the
initial state.
This is the *parsing* state of an HTTP/1 message. Currently the h1_state
is composite as it's made both of parsing and control (100SENT, BODY,
DONE, TUNNEL, ENDING etc). The purpose here is to have a purely H1 state
that can be used by H1 parsers. For now it's equivalent to h1_state.
MEDIUM: stream_interfaces: Starts receiving from the upper layers.
Instead of waiting for the connection layer to let us know we can read,
attempt to receive as soon as process_stream() is called, and subscribe
to receive events if we can't receive yet.
Now, except for idle connections, the recv(), send() and wake() methods are
no more, all the lower layers do is waking tasklet for anybody waiting
for I/O events.
MEDIUM: mux_h2: Revamp the send path when blocking.
Change fctl_list and send_list to be lists of struct wait_list, and nuke
send_wait_list, as it's now redundant.
Make the code responsible for shutr/shutw subscribe to those lists.
Olivier Houchard [Tue, 21 Aug 2018 16:10:44 +0000 (18:10 +0200)]
MEDIUM: h2: Don't use a wake() method anymore.
Instead of having our wake() method called each time a fd event happens,
just subscribe to recv/send events, and get our tasklet called when that
happens. If any recv/send was possible, the equivalent of what h2_wake_cb()
will be done.
Olivier Houchard [Fri, 17 Aug 2018 16:42:48 +0000 (18:42 +0200)]
MEDIUM: h2: always subscribe to receive if allowed.
Let the connection layer know we're always interested in getting more data,
so that we get scheduled as soon as data is available, instead of relying
on the wake() method.
Olivier Houchard [Fri, 17 Aug 2018 16:39:46 +0000 (18:39 +0200)]
MINOR: h2: Let user of h2_recv() and h2_send() know xfer has been done.
Make h2_recv() and h2_send() return 1 if data has been sent/received, or 0
if it did not. That way the caller will be able to know if more work may
have to be done.
MEDIUM: connections: Get rid of the recv() method.
Remove the recv() method from mux and conn_stream.
The goal is to always receive from the upper layers, instead of waiting
for the connection later. For now, recv() is still called from the wake()
method, but that should change soon.
MEDIUM: connections/mux: Add a recv and a send+recv wait list.
For struct connection, struct conn_stream, and for the h2 mux, add 2 new
lists, one that handles waiters for recv, and one that handles waiters for
recv and send. That way we can ask to subscribe for either recv or send.
MEDIUM: connections: Don't reset the polling flags in conn_fd_handler().
Resetting the polling flags at the end of conn_fd_handler() shouldn't be
needed anymore, and it will create problem when we won't handle send/recv
from conn_fd_handler() anymore.
BUG/MEDIUM: tasks: Don't forget to decrement task_list_size in tasklet_free().
In tasklet_free(), if we're currently in the runnable task list, don't
forget to decrement taks_list_size, or it'll end up being to big, and we may
not process tasks in the global runqueue.
BUG/MINOR: h2: report asynchronous end of stream on closed connections
Christopher noticed that the CS_FL_EOS to CS_FL_REOS conversion was
incomplete : when the connectionis closed, we mark the streams with EOS
instead of REOS, causing the loss of any possibly pending data. At the
moment it's not an issue since H2 is used only with a client, but with
servers it could be a real problem if servers close the connection right
after sending their response.
This protocol is based on the uxst one, but it uses socketpair and FD
passing insteads of a connect()/accept().
The "sockpair@" prefix has been implemented for both bind and server
keywords.
When HAProxy wants to connect through a sockpair@, it creates 2 new
sockets using the socketpair() syscall and pass one of the socket
through the FD specified on the server line.
On the bind side, haproxy will receive the FD, and will use it like it
was the FD of an accept() syscall.
This protocol was designed for internal communication within HAProxy
between the master and the workers, but it's possible to use it
externaly with a wrapper and pass the FD through environment variabls.
MEDIUM: protocol: use a custom AF_MAX to help protocol parser
It's possible to have several protocols per family which is a problem
with the current way the protocols are stored.
This allows to register a new protocol in HAProxy which is not a
protocol in the strict socket definition. It will be used to register a
SOCK_STREAM protocol using socketpair().
BUG/MAJOR: kqueue: Don't reset the changes number by accident.
In _update_fd(), if the fd wasn't polled, and we don't want it to be polled,
we just returned 0, however, we should return changes instead, or all previous
changes will be lost.
REORG: http: move the log encoding tables to log.c
There are 3 tables in proto_http which are used exclusively by logs :
hdr_encode_map[], url_encode_map[] and http_encode_map[]. They indicate
what characters are safe to be emitted in logs depending on the part of
the message where they are placed. Let's move this to log.c, as well as
its initialization. It's worth noting that the rfc5424 map was already
initialized there.
REORG: http: move error codes production and processing to http.c
These error codes and messages are agnostic to the version, even if
they are represented as HTTP/1.0 messages. Ultimately they will have
to be transformed into internal HTTP messages to be used everywhere.
The HTTP/1.1 100 Continue message was turned to an IST and the local
copy in the Lua code was removed.
This function is purely HTTP once http_txn is put aside. So the original
one was renamed to http_txn_get_path() and it extracts the relevant offsets
from the txn to pass them to http_get_path(). One benefit of the new version
is that it returns the length at the same time so that allowed to slightly
simplify http_get_path_from_string() which had to look up the end pointer
previously and which is not needed anymore.
REORG: http: move the HTTP semantics definitions to http.h/http.c
It's a bit painful to have to deal with HTTP semantics for each protocol
version (H1 and H2), and working on the version-agnostic code further
emphasizes the problem.
This patch creates http.h and http.c which are agnostic to the version
in use, and which borrow a few parts from proto_http and from h1. For
example the once thought h1-specific h1_char_classes array is in fact
dictated by RFC7231 and is used to parse HTTP headers. A few changes
were made to a few files which were including proto_http.h while they
only needed http.h.
Certain string definitions pre-dated the introduction of indirect
strings (ist) so some were used to simplify the definition of the known
HTTP methods. The current lookup code saves 2 kB of a heavily used table
and is faster than the previous table based lookup (typ. 14 ns vs 16
before).
MEDIUM: mworker: replace the master pipe by socketpairs
In order to communicate with the workers, the master pipe has been
replaced by a socketpair() per worker.
The goal is to use these sockets as stats sockets and be able to access
them from the master.
When reloading, the master serialize the information of the workers and
put them in a environment variable. Once the master has been reexecuted
it unserialize that information and it is capable of closing the FDs of
the leaving children.
MEDIUM: mworker: master wait mode use its own initialization
The master now use a poll loop, which should be initialized even in wait
mode. We need to init some variables if we didn't success to load the
configuration file.
MINOR: mworker: don't deinit the poller fd when in wait mode
If haproxy failed to load its configuration, the process is reexecuted
and it did not init the poller. So we must not try to deinit the poller
before the exec().
MEDIUM: mworker: block SIGCHLD until the master is ready
With the new way of handling the signals in the master worker, we are
are not staying in a waitpid() loop. Which means that we need to catch the
SIGCHLD signals to call waitpid().
The problem is when the master is reloading, this signal is neither
registered nor blocked so we lost all signals between the restart and
the call to mworker_loop().
This patch blocks the SIGCHLD signals before the reloading and ensure
it's not unblocked before the master registered the SIGCHLD handler.
In order to reorganize the code of the master worker, the mworker_wait()
function which was the main function was split. This function was
handling a wait() loop, but it does not need it anymore since the code
will use the poll loop of haproxy instead.
The function was split in several functions:
- mworker_catch_sigterm() which is a signal handler for SIGTERM ans
SIGUSR1 that sends the signals to the workers
- mworker_catch_sigchld() which is the code handling the leaving of a
child
- mworker_catch_sighup which basically call the mworker_restart()
function
- mworker_loop() which is the function calling the main poll loop in the
master
MEDIUM: snapshot: merge the captured data after the descriptor
Instead of having a separate area for the captured data, we now have a
contigous block made of the descriptor and the data. At the moment, since
the area is dynamically allocated, we can adjust its size to what is
needed, but the idea is to quickly switch to a pool and an LRU list.
MEDIUM: snapshots: dynamically allocate the snapshots
Now upon error we dynamically allocate the snapshot instead of overwriting
it. This way there is no more memory wasted in the proxy to hold the two
error snapshot descriptors. Also an appreciable side effect of this is that
the proxy's lock is only taken during the pointer swap, no more while copying
the buffer's contents. This saves 480 bytes of memory per proxy.
BUG/MEDIUM: snapshot: take the proxy's lock while dumping errors
The proxy's lock it held while filling the error but not while dumping
it, so it's possible to dereference pointers being replaced, typically
server pointers. The risk is very low and unlikely but not inexistent.
Since "show errors" is rarely used in parallel, let's simply grab the
proxy's lock while dumping. Ideally we should use an R/W lock here but
it will not make any difference.
This patch must be backported to 1.8, but the code is in proto_http.c
there, though mostly similar.
MINOR: http: make the HTTP error capture rely on the generic proxy code
Now that we have a generic error capture function, let's simplify
http_capture_bad_message() to make use of it. At this point the API
is not changed at all, but it could be further simplified.
MINOR: proxy: add a new generic proxy_capture_error()
This function now captures an error regardless of its side and protocol.
The caller must pass a number of elements and may pass a protocol-specific
structure and a callback to display it. Later this function may deal with
more advanced allocation techniques to avoid allocating as many buffers
as proxies.
MEDIUM: snapshot: implement a show() callback and use it for HTTP
The HTTP dumps are now configurable in the code : "show errors" now
calls a protocol-specific function to emit the decoded output. For
now only HTTP is implemented.
MEDIUM: snapshot: start to reorder the HTTP snapshot output a little bit
The output of "show errors" was slightly reordered to split the HTTP part
in a single chunk_appendf() call. The useless buffer total input was
replaced to report the buffer's start offset, which is the offset in the
stream of the first input byte (thus not counting output). Also it was
the opportunity to stop calling the stream "session".
MINOR: snapshot: split the error snapshots into common and proto-specific parts
The idea will be to make the error snapshot feature accessible to other
protocols than just HTTP. This patch only introduces an "http_snapshot"
structure and renames a few fields to make things more explicit. The
HTTP part was installed inside a union so that we can easily add more
protocols in the future.
MINOR: snapshot: restart on the event ID and not the stream ID
The snapshots have the ability to restart a partial dump and they use
the stream ID as the restart point. Since it's purely HTTP, let's use
the event ID instead.
BUG/MINOR: http/threads: atomically increment the error snapshot ID
Let's use an atomic increment for the error snapshot, as we'd rather
not assign the same ID to two errors happening in parallel. It's very
unlikely that it will ever happen though.
This patch must be backported to 1.8 with the other one it relies on
("MINOR: thread: implement HA_ATOMIC_XADD()").
Baptiste Assmann [Fri, 10 Aug 2018 08:56:38 +0000 (10:56 +0200)]
BUG/MINOR: dns: check and link servers' resolvers right after config parsing
On the Mailing list, Marcos Moreno reported that haproxy configuration
validation (through "haproxy -c cfgfile") does not detect when a
resolvers section does not exist for a server.
That said, this checking is done after HAProxy has started up.
The problem is that this can create production issue, since init
script can't detect the problem before starting / reloading HAProxy.
To fix this issue, this patch registers the function which validates DNS
configuration validity and run it right after configuration parsing is
finished (through cfg_register_postparser()).
Thanks to it, now "haproxy -c cfgfile" will fail when a server
points to a non-existing resolvers section (or any other validation made
by the function above).
MINOR: connection: add new function conn_get_proxy()
This function returns the proxy associated to a connection. For front
connections it returns the frontend, and for back connections it
returns the backend. This will be used to retrieve some configuration
parameters from within a mux.
MINOR: connection: make the initialization more consistent
Sometimes a connection is prepared before the target is set, sometimes
after. There's no real rule since the few functions involved operate on
different and independent fields. Soon we'll benefit from knowing the
target at the connection layer, in order to figure the associated proxy
and retrieve the various parameters (timeouts etc). This patch slightly
reorders a few calls to conn_prepare() so that we can make sure that the
target is always known to the mux.
Commit 5e74b0b ("MEDIUM: h1: port to new buffer API.") introduced a
minor bug by which a buffer's head could stay shifted by the amount
of removed CRLF if it started with empty lines. This would cause the
second request (or response) not to work until it would receive a few
extra characters. This most only impacts requests sent by hand though.
MEDIUM: h2: produce some logs on early errors that prevent streams from being created
The h2 mux currently lacks some basic transparency. Some errors cause the
connection to be aborted but they couldn't be reported. With this patch,
almost all situations where an error will cause a stream or connection to
be aborted without the ability for an existing stream to report it will be
reported in the logs. This at least provides a solution to monitor the
activity and abnormal traffic.
MINOR: log: provide a function to emit a log for a session
The new function sess_log() only needs a session to emit a log. It will
ignore the parts that depend on the stream. It is usable to emit a log
to report early errors in muxes. These ones will typically mention
"<BADREQ>" for the request and 0 for the HTTP status code.
MEDIUM: log: make sess_build_logline() support being called with no stream
Till now it was impossible to emit logs from the lower layers only because
a stream was mandatory. From now on it will at least be possible to emit a
log to report a bad request or some timings for example. When the stream
is null, sess_build_logline() will use default values and will extract the
timing information from the session just like stream_new() does, so the
resulting log line is perfectly valid.
The termination state will indicate a proxy error during the request phase
since it is the only realistic use for such a call with no stream.
MINOR: log: use zero as the request counter if there is no stream
When s==NULL we don't have any assigned request counter. Ideally we
should proceed exactly like when a stream is initialized and assign
a unique value. For now we only place it into a local variable.
MINOR: log: don't unconditionally pick log info from s->logs
We'll soon support s==NULL so let's use an intermediary variable for the
logs structure. For now it only points to s->logs but will support a local
variable as an alternative later.
MINOR: log: move the log code to sess_build_logline() to add extra arguments
The current build_logline() can only be used with valid streams, which
means it is not suitable for use from muxes. We start by moving it into
another more generic function which takes the session as an argument,
to avoid complexifying all the internal API for jsut a few use cases.
This new function is not supposed to be called directly from outside so
we'll be able to instrument it to support several calling conventions.
For now the behaviour and conditions remain unchanged.
BUG/MAJOR: buffer: fix incorrect check in __b_putblk()
This function was split in two at commit f7d0447 ("MINOR: buffers:
split b_putblk() into __b_putblk()") but it's wrong, the first half's
length is not adjusted to the requested size so it copies more than
desired.
This is purely 1.9-specific, no backport is needed.
BUG/MEDIUM: h2: fix risk of memory leak on malformated wrapped frames
While parsing a headers frame, if the frame is wrapped in the buffer
and needs to be unwrapped, it will be duplicated before being processed.
But if it contains certain combinations of invalid flags, the parser
returns without releasing the temporary buffer leading to a memory
leak.
BUG/MEDIUM: session: fix reporting of handshake processing time in the logs
The handshake processing time used to be stored per stream, which was
valid when there was exactly one stream per session. With H2 and
multiplexing it's not the case anymore and the reported handshake times
are wrong in the logs as it's computed between the TCP accept() and the
stream creation. Let's first move the handshake where it belongs, which
is the session.
However, this is not enough because we don't want to report an excessive
idle time either for H2 (since many requests use the connection).
So the solution used here is to have the stream retrieve sess->tv_accept
and the handshake duration when the stream is created, and let the mux
immediately reset them. This way, the handshake time becomes zero for the
second and subsequent requests in H2 (which was already the case in H1),
and the idle time exactly counts how long the connection remained unused
while it could be used, so in H1 it runs from the end of the previous
response and in H2 it runs from the end of the previous request since the
channel is already available.
BUG/MINOR: stream: use atomic increments for the request counter
The request counter is incremented when creating a new stream and when
resetting a stream, preparing for a new request. Unfortunately during
the thread migration this was missed, leading to non-atomic increments
in case threads are in use. The most visible side effect is that two
requests may have the same ID from time to time in the logs. However
the SPOE also uses this ID to route responses back to the stream so it
may also lead to occasional spurious SPOE timeouts.
Note that it still doesn't guarantee temporal unicity in the stream
identifiers since a long and a short connection could technically use
the same ID. The likeliness that this happens at the same time is almost
null (roughly threads*runqueue_depth/2^32 that it happens in the same
poll loop), but it will have to be addressed later anyway.
This patch must be backported to 1.8 with the other one it relies on
("MINOR: thread: implement HA_ATOMIC_XADD()").
BUG/MEDIUM: ECC cert should work with TLS < v1.2 and openssl >= 1.1.1
With openssl >= 1.1.1 and boringssl multi-cert is natively supported.
ECDSA/RSA selection is done and work correctly with TLS >= v1.2.
TLS < v1.2 have no TLSEXT_TYPE_signature_algorithms extension: ECC
certificate can't be selected, and handshake fail if no RSA cert
is present. Safe ECC certificate selection without client announcement
can be very tricky (browser compatibilty). The safer approach is to
select ECDSA certificate if no other certificate matches, like it is
with openssl < 1.1.1: certificate selection is only done via the SNI.
Thanks to Lukas Tribus for reporting this and analysing the problem.
BUG/MEDIUM: dns/server: fix incomatibility between SRV resolution and server state file
Server state file has no indication that a server is currently managed
by a DNS SRV resolution.
And thus, both feature (DNS SRV resolution and server state), when used
together, does not provide the expected behavior: a smooth experience...
This patch introduce the "SRV record name" in the server state file and
loads and applies it if found and wherever required.
This patch applies to haproxy-dev branch only. For backport, a specific patch
is provided for 1.8.
Olivier Houchard [Mon, 27 Aug 2018 10:59:14 +0000 (12:59 +0200)]
BUG/MEDIUM: hlua: Don't call RESET_SAFE_LJMP if SET_SAFE_LJMP returns 0.
If SET_SAFE_LJMP returns 0, the spinlock is already unlocked, and lua_atpanic
is already set back to hlua_panic_safe, so there's no need to call
RESET_SAFE_LJMP.
projects / thirdparty / haproxy.git / log
