The approach used for skipping conn_cur in commit db2ab8218 ("MEDIUM:
stick-table: never learn the "conn_cur" value from peers") was wrong,
it only works with simple tables but as soon as frequency counters or
arrays are exchanged after conn_cur, the stream is desynchronized and
incorrect values are read. This is because the fields have a variable
length depending on their types and cannot simply be skipped by a
"continue" statement.
Let's change the approach to make sure we continue to completely parse
these local-only fields, and only drop the value at the moment we're
about to store them, since this is exactly the intent.
A simpler approach could consist in having two sets of stktable_data_ptr()
functions, one for retrieval and one for storage, and to make the store
function return a NULL pointer for local types. For now this doesn't
seem worth the trouble.
This fixes github issue #1497. Thanks to @brenc for the reproducer.
This must be backported to 2.5.
A subtle change of target address allocation was introduced with commit
68cf3959b ("MINOR: backend: rewrite alloc of stream target address") in
2.4. Prior to this patch, a target address was allocated by function
assign_server_address() only if none was previously allocated. After
the change, the allocation became unconditional. Most of the time it
makes no difference, except when we pass multiple times through
connect_server() with SF_ADDR_SET cleared.
The most obvious fix would be to avoid allocating that address there
when already set, but the root cause is that since introduction of
dynamically allocated addresses, the SF_ADDR_SET flag lies. It can
be cleared during redispatch or during a queue redistribution without
the address being released.
This patch instead gives back all its correct meaning to SF_ADDR_SET
and guarantees that when not set no address is allocated, by freeing
that address at the few places the flag is cleared. The flag could
even be removed so that only the address is checked but that would
require to touch many areas for no benefit.
The easiest way to test it is to send requests to a proxy with l7
retries enabled, which forwards to a server returning 500:
defaults
mode http
timeout client 1s
timeout server 1s
timeout connect 1s
retry-on all-retryable-errors
retries 1
option redispatch
listen proxy
bind *:5000
server app 0.0.0.0:5001
frontend dummy-app
bind :5001
http-request return status 500
Issuing "show pools" on the CLI will show that pool "sockaddr" grows
as requests are redispatched, and remains stable with the fix. Even
"ps" will show that the process' RSS grows by ~160B per request.
This fix will need to be backported to 2.4. Note that before 2.5,
there's no strm->si[1].dst, strm->target_addr must be used instead.
This addresses github issue #1499. Special thanks to Daniil Leontiev
for providing a well-documented reproducer.
Properly initialized the ssl_sock_ctx pointer in qc_conn_init. This is
required to avoid to set an undefined pointer in qc.xprt_ctx if argument
*xprt_ctx is NULL.
Implement a refcount on quic_conn instance. By default, the refcount is
0. Two functions are implemented to manipulate it.
* qc_conn_take() which increments the refcount
* qc_conn_drop() which decrements it. If the refcount is 0 *BEFORE*
the substraction, the instance is freed.
The refcount is incremented on retrieve_qc_conn_from_cid() or when
allocating a new quic_conn in qc_lstnr_pkt_rcv(). It is substracted most
notably by the xprt.close operation and at the end of
qc_lstnr_pkt_rcv(). The increments/decrements should be conducted under
the CID lock to guarantee thread-safety.
The timer task is attached to the connection-pinned thread. Only this
thread can delete it. With the future refcount implementation of
quic_conn, every thread can be responsible to remove the quic_conn via
quic_conn_free(). Thus, the timer task deletion is moved from the
calling function quic_close().
Big refactoring on xprt-quic. A lot of functions were using the
ssl_sock_ctx as argument to only access the related quic_conn. All these
arguments are replaced by a quic_conn parameter.
As a convention, the quic_conn instance is always the first parameter of
these functions.
This commit is part of the rearchitecture of xprt-quic layers and the
separation between xprt and connection instances.
Remove the shortcut to use the INITIAL encryption level when removing
header protection on first connection packet.
This change is useful for the following change which removes
ssl_sock_ctx in argument lists in favor of the quic_conn instance.
Add a pointer in quic_conn to its related ssl_sock_ctx. This change is
required to avoid to use the connection instance to access it.
This commit is part of the rearchitecture of xprt-quic layers and the
separation between xprt and connection instances. It will be notably
useful when the connection allocation will be delayed.
free_quic_conn_cids() was called in quic_build_post_handshake_frames()
if an error occured. However, the only error is an allocation failure of
the CID which does not required to call it.
This change is required for future refcount implementation. The CID lock
will be removed from the free_quic_conn_cids() and to the caller.
When a quic_conn is found in the DCID tree, it can be removed from the
first ODCID tree. However, this operation must absolutely be run under a
write-lock to avoid race condition. To avoid to use the lock too
frequently, node.leaf_p is checked. This value is set to NULL after
ebmb_delete.
Some applications may send some information about the reason why they decided
to close a connection. Add them to CONNECTION_CLOSE frame traces.
Take the opportunity of this patch to shorten some too long variable names
without any impact.
Add traces about important frame types to chunk_tx_frm_appendf()
and call this function for any type of frame when parsing a packet.
Move it to quic_frame.c
Since this case was already met previously with commit 655dec81b
("BUG/MINOR: backend: do not set sni on connection reuse"), let's make
sure that we don't change reused connection settings. This could be
generalized to most settings that are only in effect before the handshake
in fact (like set_alpn and a few other ones).
During 2.4-dev, support for malloc_trim() was implemented to ease
release of memory in a stopping process. This was found to be quite
effective and later backported to 2.3.7.
Then it was found that sometimes malloc_trim() could take a huge time
to complete it if was competing with other threads still allocating and
releasing memory, reason why it was decided in 2.5-dev to move
malloc_trim() under the thread isolation that was already in place in
the shared pool version of pool_gc() (this was commit 26ed1835).
However, other instances of pool_gc() that used to call malloc_trim()
were not updated since they were not using thread isolation. Currently
we have two other such instances, one for when there is absolutely no
pool and one for when there are only thread-local pools.
Christian Ruppert reported in GH issue #1490 that he's sometimes seeing
and old process die upon reload when upgrading from 2.3 to 2.4, and
that this happens inside malloc_trim(). The problem is that since
2.4-dev11 with commit 0bae07592 we detect modern libc that provide a
faster thread-aware allocator and do not maintain shared pools anymore.
As such we're using again the simpler pool_gc() implementations that do
not use thread isolation around the malloc_trim() call.
All this code was cleaned up recently and the call moved to a new
function trim_all_pools(). This patch implements explicit thread isolation
inside that function so that callers do not have to care about this
anymore. The thread isolation is conditional so that this doesn't affect
the one already in place in the larger version of pool_gc(). This way it
will solve the problem for all callers.
This patch must be backported as far as 2.3. It may possibly require
some adaptations. If trim_all_pools() is not present, copy-pasting the
tests in each version of pool_gc() will have the same effect.
Thanks to Christian for his detailed report and his testing.
This is the same treatment for bidi and uni STREAM frames. This is a duplication
code which should me remove building a function for both these types of streams.
The connection instance has been replaced by a quic_conn as first
argument to QUIC traces. It is possible to report the quic_conn instance
in the qc_new_conn(), contrary to the connection which is not
initialized at this stage.
Replace the connection instance for first argument of trace callback by
a quic_conn instance. The QUIC trace module is properly initialized with
the first argument refering to a quic_conn.
Replace every connection instances in TRACE_* macros invocation in
xprt-quic by its related quic_conn. In some case, the connection is
still used to access the quic_conn. It may cause some problem on the
future when the connection will be completly separated from the xprt
layer.
This commit is part of the rearchitecture of xprt-quic layers and the
separation between xprt and connection instances.
Prepare trace support for quic_conn instances as argument. This will be
used by the xprt-quic layer in replacement of the connection.
This commit is part of the rearchitecture of xprt-quic layers and the
separation between xprt and connection instances.
Add const qualifier on arguments of several dump functions used in the
trace callback. This is required to be able to replace the first trace
argument by a quic_conn instance. The first argument is a const pointer
and so the members accessed through it must also be const.
Add a new member in ssl_sock_ctx structure to reference the quic_conn
instance if used in the QUIC stack. This member is initialized during
qc_conn_init().
This is needed to be able to access to the quic_conn without relying on
the connection instance. This commit is part of the rearchitecture of
xprt-quic layers and the separation between xprt and connection
instances.
Move qcc_get_qcs() function from xprt_quic.c to mux_quic.c. This
function is used to retrieve the qcs instance from a qcc with a stream
id. This clearly belongs to the mux-quic layer.
Use the convention of naming quic_conn instance as qc to not confuse it
with a connection instance. The changes occured for qc_parse_pkt_frms(),
qc_build_frms() and qc_do_build_pkt().
The QUIC connection I/O handler qc_conn_io_cb() could be called just after
qc_pkt_insert() have inserted a packet in a its tree, and before qc_pkt_insert()
have incremented the reference counter to this packet. As qc_conn_io_cb()
decrement this counter, the packet could be released before qc_pkt_insert()
might increment the counter, leading to possible crashes when trying to do so.
So, let's make qc_pkt_insert() increment this counter before inserting the packet
it is tree. No need to lock anything for that.
Add a function to process all STREAM frames received and ordered
by their offset (qc_treat_rx_strm_frms()) and modify
qc_handle_bidi_strm_frm() consequently.
When a packet is present in the RX buffer at the first place
but without a null reference counter, there is no need to continue
to try to empty the buffer, it is sure the next packet will not
be at the first place!
There were empty lines in the output of the CLI's "show ssl
ocsp-response" command (after the certificate ID and between two
certificates). This patch removes them since an empty line should mark
the end of the output.
Must be backported in 2.5.
With the DCID refactoring, the locking is more centralized. It is
possible to simplify the code for removal of a quic_conn from the ODCID
tree.
This operation can be conducted as soon as the connection has been
retrieved from the DCID tree, meaning that the peer now uses the final
DCID. Remove the bit to flag a connection for removal and just uses
ebmb_delete() on each sucessful lookup on the DCID tree. If the
quic_conn has already been removed, it is just a noop thanks to
eb_delete() implementation.
A new function named qc_retrieve_conn_from_cid() now contains all the
code to retrieve a connection from a DCID. It handle all type of packets
and centralize the locking on the ODCID/DCID trees.
This simplify the qc_lstnr_pkt_rcv() function.
If an UDP datagram contains multiple QUIC packets, they must all use the
same DCID. The datagram context is used partly for this.
To ensure this, a comparison was made on the dcid_node of DCID tree. As
this is a comparison based on pointer address, it can be faulty when
nodes are removed/readded on the same pointer address.
Replace this comparison by a proper comparison on the DCID data itself.
To this end, the dgram_ctx structure contains now a quic_cid member.
For first Initial packets, the socket source dest address is
concatenated to the DCID. This is used to be able to differentiate
possible collision between several clients which used the same ODCID.
Refactor the code to manage DCID and the concatenation with the address.
Before this, the concatenation was done on the quic_cid struct and its
<len> field incremented. In the code it is difficult to differentiate a
normal DCID with a DCID + address concatenated.
A new field <addrlen> has been added in the quic_cid struct. The <len>
field now only contains the size of the QUIC DCID. the <addrlen> is
first initialized to 0. If the address is concatenated, it will be
updated with the size of the concatenated address. This now means we
have to explicitely used either cid.len or cid.len + cid.addrlen to
access the DCID or the DCID + the address. The code should be clearer
thanks to this.
The field <odcid_len> in quic_rx_packet struct is now useless and has
been removed. However, a new parameter must be added to the
qc_new_conn() function to specify the size of the ODCID addrlen.
On haproxy implementation, generated DCID are on 8 bytes, the minimal
value allowed by the specification. Rename the constant representing
this size to inform that this is haproxy specific.
All operation on the ODCID/DCID trees must be conducted under a
read-write lock. Add a missing read-lock on the lookup operation inside
listener handler.
The packet number space flags were mixed with the connection level flags.
This leaded to ACK to be sent at the connection level without regard to
the underlying packet number space. But we want to be able to acknowleged
packets for a specific packet number space.
This is required if we do not want to make haproxy crash during zerortt
interop runner test which makes a client open multiple streams with
long request paths.
Willy Tarreau
Amaury Denoyelle
Frédéric Lécaille
Thierry Fournier
Remi Tricot-Le Breton