SSL_CTX_add_server_custom_ext is openssl specific function present
since openssl-1.0.2, let us define readable guard for it, not depending
on HA_OPENSSL_VERSION
The cache entries are now added into the tree even when they are not
complete yet. If we realized while trying to add a response's payload
that the shctx was full, the entry was disabled through the
disable_cache_entry function, which cleared the key field of the entry's
node, but without actually removing it from the tree. So the shctx row
could be stolen from the entry and the row's content be rewritten while
a lookup in the tree would still find a reference to the old entry. This
caused a random crash in case of cache saturation and row reuse.
This patch adds the missing removal of the node from the tree next to
the reset of the key in disable_cache_entry.
This bug was introduced by commit 3243447 ("MINOR: cache: Add entry
to the tree as soon as possible")
It does not need to be backported.
In issue #1004, it was reported that it is not possible to remove
correctly a certificate after updating it when it came from a crt-list.
Indeed the "commit ssl cert" command on the CLI does not update the list
of ckch_inst in the crtlist_entry. Because of this, the "del ssl
crt-list" command does not remove neither the instances nor the SNIs
because they were never linked to the crtlist_entry.
This patch fixes the issue by inserting the ckch_inst in the
crtlist_entry once generated.
Must be backported as far as 2.2.
When a frontend H1 connection timed out waiting for the next request, a 408
error message is returned to the client. It is performed into the H1C task
process function, h1_timeout_task(), and under the idle connection takeover
lock. If the 408 error message cannot be sent immediately, we wait for a
next retry. In this case, the lock must be released.
This bug was introduced by the commit c4bfa59f1d ("MAJOR: mux-h1: Create the
client stream as later as possible") and is specific to the 2.4-DEV. No
backport needed.
Depending on the context, the current eweight or the next one must be used
to reposition a server in the tree. When the server state is updated, for
instance its weight, the next eweight must be used because it is not yet
committed. However, when the server is used, on normal conditions, the
current eweight must be used.
In fact, it is only a bug on the 1.8. On newer versions, the changes on a
server are performed synchronously. But it is safer to rely on the right
eweight value to avoid any futur bugs.
On the 1.8, it is important to do so, because the server state is updated
and committed inside the rendez-vous point. Thus, the next server state may
be unsync with the current state for a short time, waiting all threads join
the rendez-vous point. It is especially a problem if the next eweight is set
to 0. Because otherwise, it must not be used to reposition the server in the
tree, leading to a divide by 0.
This patch must be backported as far as 1.8.
This changes the subscribe/unsubscribe functions to rely on the control
layer's check_events/ignore_events. At the moment only the socket version
of these functions is present so the code should basically be the same.
Right now the connection subscribe/unsubscribe code needs to manipulate
FDs, which is not compatible with QUIC. In practice what we need there
is to be able to either subscribe or wake up depending on readiness at
the moment of subscription.
This commit introduces two new functions at the control layer, which are
provided by the socket code, to check for FD readiness or subscribe to it
at the control layer. For now it's not used.
Now we don't touch the fd anymore there, instead we rely on the ->drain()
provided by the control layer. As such the function was renamed to
conn_ctrl_drain().
This is what we need to drain pending incoming data from an connection.
The code was taken from conn_sock_drain() without the connection-specific
stuff. It still takes a connection for now for API simplicity.
conn_fd_handler() is 100% specific to socket code. It's about time
it moves to sock.c which manipulates socket FDs. With it comes
conn_fd_check() which tests for the socket's readiness. The ugly
connection status check at the end of the iocb was moved to an inlined
function in connection.h so that if we need it for other socket layers
it's not too hard to reuse.
The code was really only moved and not changed at all.
The send() loop present in this function and the error handling is already
present in raw_sock_from_buf(). Let's rely on it instead and stop touching
the FD from this place. The send flag was changed to use a more agnostic
CO_SFL_*. The name was changed to "conn_ctrl_send()" to remind that it's
meant to be used to send at the lowest level.
Add cur_server_timeout and cur_tunnel_timeout.
These sample fetches return the current timeout value for a stream. This
is useful to retrieve the value of a timeout which was changed via a
set-timeout rule.
Prepare the possibility to register sample fetches on the stream.
This commit is necessary to implement sample fetches to retrieve the
current timeout values.
Add a new http-request action 'set-timeout [server/tunnel]'. This action
can be used to update the server or tunnel timeout of a stream. It takes
two parameters, the timeout name to update and the new timeout value.
This rule is only valid for a proxy with backend capabilities. The
timeout value cannot be null. A sample expression can also be used
instead of a plain value.
Allow the modification of the tunnel timeout on the stream side.
Use a new field in the stream for the tunnel timeout. It is initialized
by the tunnel timeout from backend unless it has already been set by a
set-timeout tunnel rule.
Allow the modification of the timeout server value on the stream side.
Do not apply the default backend server timeout in back_establish if it
is already defined. This is the case if a set-timeout server rule has
been executed.
parse_size_err() function is now more strict on the size format. The first
character must be a digit. Otherwise an error is returned. Thus "size k" is
now rejected.
This patch must be backported to all stable versions.
First, an error is now reported if the first character is not a digit. Thus,
"timeout client s" triggers an error now. Then 'u' is also rejected
now. 'us' is valid and should be used set the timer in microseconds. However
'u' alone is not a valid unit. It was just ignored before (default to
milliseconds). Now, it is an error. Finally, a warning is reported if the
end of the text is not reached after the timer parsing. This warning will
probably be switched to an error in a futur version.
This patch must be backported to all stable versions.
For HTTP expect rules, if the buffer is not empty, it is guarantee that all
responses headers are received, with the start-line. Thus, except for
payload matching, there is no reason to wait for more data from the moment
the htx message is not empty.
This patch may be backported as far as 2.2.
The check timeout is used to limit a health-check execution. By default
inter timeout is used. But when defined the check timeout is used. In this
case, the inter timeout (or connect timeout) is used for the connection
establishment only. And the check timeout for the health-check
execution. Thus, it must be set after a successfull connect. It means it is
rearm at the end of each connect rule.
This patch with the previous one (BUG/MINOR: http-check: Use right condition
to consider HTX message as full) should solve the issue #991. It must be
backported as far as 2.2. On the 2.3 and 2.2, there are 2 places were the
connection establishement is handled. The check timeout must be set on both.
When an HTTP expect rule is evaluated, we must know if more data is expected
or not to wait if the matching fails. If the whole response is received or
if the HTX message is full, we must not wait. In this context,
htx_free_data_space() must be used instead of htx_free_space(). The fisrt
one count down the block size. Otherwise at the edge, when only the block
size remains free (8 bytes), we may think there is some place for more data
while the mux is unable to add more block.
This bug explains the loop described on the GH issue #991. It should be
backported as far as 2.2.
This last call to conn_cond_update_polling() is now totally misleading as
the function only stops polling in case of unrecoverable connection error.
Let's open-code the test to make it more prominent and explain what we're
trying to do there. It's even almost certain this code is never executed
anymore, as the only remaining case should be a mux's wake function setting
CO_FL_ERROR without disabling the polling, but they need to be audited first
to make sure this is the case.
This was a leftover of the pre-mux v1.8-dev3 era. It makes no sense anymore
to try to disable polling on a connection we don't own, it's the mux's job
and it's properly done upon shutdowns and closes.
As explained in previous commit, the situation is absurd as we try to
cleanly drain pending data before impolitely shutting down, and it could
be counter productive on real muxes. Let's use cs_drain_and_close() instead.
When the shutr() requests CS_SHR_DRAIN and there's no particular shutr
implemented on the underlying transport layer, we must drain pending data.
This is what happens when cs_drain_and_close() is called. It is important
for TCP checks to drain large responses and close cleanly.
Not only it's become totally useless with muxes, in addition it's
dangerous to play with the mux's FD while shutting a stream down for
writes. It's already done *if necessary* by the cs_shutw() code at the
mux layer. Fortunately it doesn't seem to have any impact, most likely
the polling updates used to immediately revert this operation.
conn_stop_polling() in fact only calls fd_stop_both() after checking
that the ctrl layer is ready. It's the case in conn_fd_check() so
let's get rid of this next-to-last user of this function.
The duplicated entries (in case of vary) were not taken into account by
the "show cache" command. They are now dumped too.
A new "vary" column is added to the output. It contains the complete
seocndary key (in hex format).
QUIC will rely on UDP at the receiver level, and will need these functions
to suspend/resume the receivers. In the future, protocol chaining may
simplify this.
Currnetly conn_ctrl_init() does an fd_insert() and conn_ctrl_close() does an
fd_delete(). These are the two only short-term obstacles against using a
non-fd handle to set up a connection. Let's have pur these into the protocol
layer, along with the other connection-level stuff so that the generic
connection code uses them instead. This will allow to define new ones for
other protocols (e.g. QUIC).
Since we only support regular sockets at the moment, the code was placed
into sock.c and shared with proto_tcp, proto_uxst and proto_sockpair.
For the sake of an improved readability, let's group the protocol
field members according to where they're supposed to be defined:
- connection layer (note: for now even UDP needs one)
- binding layer
- address family
- socket layer
Nothing else was changed.
The various protocols were made static since there was no point in
exporting them in the past. Nowadays with QUIC relying on UDP we'll
significantly benefit from UDP being exported and more generally from
being able to declare some functions as being the same as other
protocols'.
In an ideal world it should not be these protocols which should be
exported, but the intermediary levels:
- socket layer (sock.c only right now), already exported as functions
but nothing structured at the moment ;
- family layer (sock_inet, sock_unix, sockpair etc): already structured
and exported
- binding layer (the part that relies on the receiver): currently fused
within the protocol
- connectiong layer (the part that manipulates connections): currently
fused within the protocol
- protocol (connection's control): shouldn't need to be exposed
ultimately once the elements above are in an easily sharable way.
This field used to be needed before commit 2b5e0d8b6 ("MEDIUM: proto_udp:
replace last AF_CUST_UDP* with AF_INET*") as it was used as a protocol
entry selector. Since this commit it's always equal to the socket family's
value so it's entirely redundant. Let's remove it now to simplify the
protocol definition a little bit.
At the end of stream_new(), once the input buffer is transfer to the request
channel, it must not be used anymore. The previous patch (16df178b6 "BUG/MEDIUM:
stream: Xfer the input buffer to a fully created stream") was pushed to quickly.
No backport needed.
The input buffer passed as argument to create a new stream must not be
transferred when the request channel is initialized because the channel
flags are not set at this stage. In addition, the API is a bit confusing
regarding the buffer owner when an error occurred. The caller remains the
owner, but reading the code it is not obvious.
So, first of all, to avoid any ambiguities, comments are added on the
calling chain to make it clear. The buffer owner is the caller if any error
occurred. And the ownership is transferred to the stream on success.
Then, to make things simple, the ownership is transferred at the end of
stream_new(), in case of success. And the input buffer is updated to point
on BUF_NULL. Thus, in all cases, if the caller try to release it calling
b_free() on it, it is not a problem. Of course, it remains the caller
responsibility to release it on error.
The patch fixes a bug introduced by the commit 26256f86e ("MINOR: stream:
Pass an optional input buffer when a stream is created"). No backport is
needed.
Since HAProxy 2.3, OpenSSL 1.1.1 is a requirement for using a
multi-certificate bundle in the configuration. This patch emits a fatal
error when HAProxy tries to load a bundle with an older version of
HAProxy.
This problem was encountered by an user in issue #990.
This must be backported in 2.3.
With the removal of the family-specific port setting, all protocol had
exactly the same implementation of ->add(). A generic one was created
with the name "default_add_listener" so that all other ones can now be
removed. The API was slightly adjusted so that the protocol and the
listener are passed instead of the listener and the port.
Note that all protocols continue to provide this ->add() method instead
of routinely calling default_add_listener() from create_listeners(). This
makes sure that any non-standard protocol will still be able to intercept
the listener addition if needed.
This could be backported to 2.3 along with the few previous patches on
listners as a pure code cleanup.
In create_listeners() we iterate over a port range and call the
protocol's ->add() function to add a new listener on the specified
port. Only tcp4/tcp6/udp4/udp6 support a port, the other ones ignore
it. Now that we can rely on the address family to properly set the
port, better do it this way directly from create_listeners() and
remove the family-specific case from the protocol layer.
At various places we need to set a port on an IPv4 or IPv6 address, and
it requires casts that are easy to get wrong. Let's add a new set_port()
helper to the address family to assist in this. It will be directly
accessible from the protocol and will make the operation seamless.
Right now this is only implemented for sock_inet as other families do
not need a port.
When a H1 message is parsed, if the parser state is switched to TUNNEL mode
just after the header parsing, the BODYLESS flag is set on the HTX
start-line. By transitivity, the corresponding flag is set on the message in
HTTP analysers. Thus it is possible to rely on it to not wait for the
request body.
CNT_LEN and TE_CHNK flags must be set on the message only when the
corresponding flag is set on the HTX start-line. Before, when the transfer
length was known XFER_LEN set), the HTTP_MSGF_TE_CHNK was the default. But
it is not appropriate. Now, it is only set if the message is chunked. Thus,
it is now possible to have a known transfer length without CNT_LEN or
TE_CHNK.
In addition, the BODYLESS flags may be set, independently on XFER_LEN one.
This flags is now unused. It was used in REQ_WAIT_HTTP analyser, when a
stream was waiting for a request, to set the keep-alive timeout or to avoid
to send HTTP errors to client.
It is now impossible to start the HTTP request processing in the stream
analysers with a partial or empty request message. The mux-h2 was already
waiting of the request headers before creating the stream. Now the mux-h1
does the same. All errors (aborts, timeout or invalid requests) waiting for
the request headers are now handled by the multiplexers. So there is no
reason to still handle them in the REQ_WAIT_HTTP (http_wait_for_request)
analyser.
To ensure there is no ambiguity, a BUG_ON() was added to exit if a partial
request is received in this analyser.
H1C_F_CS_* flags are renamed into H1C_F_ST_*. They reflect the connection
state. So "ST" is well suited. "CS" is confusing because it is also the
abbreviation for conn-stream.
In addition, H1C flags are reordered.
