Before this patch, 'cookie' setting was only supported by 'server' directives.
This patch makes 'default-server' directive also support 'cookie' setting.
Should not break anything.
Before this path, 'observe' setting was only supported by 'server' directives.
This patch makes 'default-server' directives also support 'observe' setting.
Should not break anything.
Before this patch only 'server' directives could support 'redir' setting.
This patch makes also 'default-server' directives support 'redir' setting.
Should not break anything.
Before this patch only 'server' directives could support 'track' setting.
This patch makes 'default-server' directives also support this setting.
Should not break anything.
Before this patch 'check' setting was only supported by 'server' directives.
This patch makes also 'default-server' directives support this setting.
A new 'no-check' keyword parser has been implemented to disable this setting both
in 'default-server' and 'server' directives.
Should not break anything.
This patch makes 'default-server' directive support 'verifyhost' setting.
Note: there was a little memory leak when several 'verifyhost' arguments were
supplied on the same 'server' line.
This patch makes 'default-server' directive support 'send-proxy'
(resp. 'send-proxy-v2') setting.
A new keyword 'no-send-proxy' (resp. 'no-send-proxy-v2') has been added
to disable 'send-proxy' (resp. 'send-proxy-v2') setting both in 'server' and
'default-server' directives.
This patch makes 'default-server' directive support 'non-stick' setting.
A new keyword 'stick' has been added so that to disable
'non-stick' setting both in 'server' and 'default-server' directives.
This patch makes 'default-server' directive support 'check-send-proxy' setting.
A new keyword 'no-check-send-proxy' has been added so that to disable
'check-send-proxy' setting both in 'server' and 'default-server' directives.
At this time, only 'server' supported 'backup' keyword.
This patch makes also 'default-server' directive support this keyword.
A new keyword 'no-backup' has been added so that to disable 'backup' setting
both in 'server' and 'default-server' directives.
For instance, provided the following sequence of directives:
default-server backup
server srv1
server srv2 no-backup
default-server no-backup
server srv3
server srv4 backup
srv1 and srv4 are declared as backup servers,
srv2 and srv3 are declared as non-backup servers.
There is no reason to emit such an error message:
"'default-server' expects <name> and <addr>[:<port>] as arguments."
if less than two arguments are provided on 'default-server' lines.
This is a 'server' specific error message.
This adds a new "dynamic" keyword for the cookie option. If set, a cookie
will be generated for each server (assuming one isn't already provided on
the "server" line), from the IP of the server, the TCP port, and a secret
key provided. To provide the secret key, a new keyword as been added,
"dynamic-cookie-key", for backends.
Example :
backend bk_web
balance roundrobin
dynamic-cookie-key "bla"
cookie WEBSRV insert dynamic
server s1 127.0.0.1:80 check
server s2 192.168.56.1:80 check
This is a first step to be able to dynamically add and remove servers,
without modifying the configuration file, and still have all the load
balancers redirect the traffic to the right server.
Provide a way to generate session cookies, based on the IP address of the
server, the TCP port, and a secret key provided.
This change adds possibility to change agent-addr and agent-send directives
by CLI/socket. Now you can replace server's and their configuration without
reloading/restarting whole haproxy, so it's a step in no-reload/no-restart
direction.
Depends on #e9602af - agent-addr is implemented there.
Can be backported to 1.7.
This directive add possibility to set different address for agent-checks.
With this you can manage server status and weight from central place.
Can be backported to 1.7.
When a server doesn't resolve we don't know the address family so we
can't perform the basic protocol validations. However we know that we'll
ultimately resolve to AF_INET4 or AF_INET6 so the controls are OK. It is
important to proceed like this otherwise it will not be possible to start
with unresolved addresses.
Next patch will cause the port to disappear from the address field when servers
do not resolve so we need to take it from the separate field provided by
str2sa_range().
Keeping the address and the port in the same field causes a lot of problems,
specifically on the DNS part where we're forced to cheat on the family to be
able to keep the port. This causes some issues such as some families not being
resolvable anymore.
This patch first moves the service port to a new field "svc_port" so that the
port field is never used anymore in the "addr" field (struct sockaddr_storage).
All call places were adapted (there aren't that many).
The DNS code is written so as to support AF_UNSPEC to decide on the
server family based on responses, but unfortunately snr_resolution_cb()
considers it as invalid causing a DNS storm to happen when a server
arrives with this family.
This situation is not supposed to happen as long as unresolved addresses
are forced to AF_INET, but this will change with the upcoming fixes and
it's possible that it's not granted already when changing an address on
the CLI.
This fix must be backported to 1.7 and 1.6.
Now we exclusively use xprt_get(XPRT_RAW) instead of &raw_sock or
xprt_get(XPRT_SSL) for &ssl_sock. This removes a bunch of #ifdef and
include spread over a number of location including backend, cfgparse,
checks, cli, hlua, log, server and session.
Having it in the ifdef complicates certain operations which require
additional ifdefs just to access a member which could remain zero in
non-ssl cases. Let's move it out, it will not even increase the
struct size on 64-bit machines due to alignment.
Also mention that "set server" is preferred now. Note that these
were the last enable/disable commands in cli.c. Also remove the
now unused expect_server_admin() function.
Several CLI commands require a server, so let's have a function to
look this one up and prepare the appropriate error message and the
appctx's state in case of failure.
uint16_t instead of u_int16_t
None ISO fields of struct tm are not present, but
by zeroyfing it, on GNU and BSD systems tm_gmtoff
field will be set.
[wt: moved the memset into each of the date functions]
Now that it is possible to decide whether we prefer to use libc or the
state file to resolve the server's IP address and it is possible to change
a server's IP address at run time on the CLI, let's not restrict the reuse
of the address from the state file anymore to the DNS only.
The impact is that by default the state file will be considered first
(which matches its purpose) and only then the libc. This way any address
change performed at run time over the CLI will be preserved regardless
of DNS usage or not.
It is very common when validating a configuration out of production not to
have access to the same resolvers and to fail on server address resolution,
making it difficult to test a configuration. This option simply appends the
"none" method to the list of address resolution methods for all servers,
ensuring that even if the libc fails to resolve an address, the startup
sequence is not interrupted.
This will allow a server to automatically fall back to an explicit numeric
IP address when all other methods fail. The address is simply specified in
the address list.
Now that we have "init-addr none", it becomes possible to recover on
libc resolver's failures. Thus it's preferable not to alert nor fail
at the moment the libc is called, and instead process the failure at
the end of the list. This allows "none" to be set after libc to
provide a smooth fallback in case of resolver issues.
This new setting supports a comma-delimited list of methods used to
resolve the server's FQDN to an IP address. Currently supported methods
are "libc" (use the regular libc's resolver) and "last" (use the last
known valid address found in the state file).
The list is implemented in a 32-bit integer, because each init-addr
method only requires 3 bits. The last one must always be SRV_IADDR_END
(0), allowing to store up to 10 methods in a single 32 bit integer.
Note: the doc is provided at the end of this series.
WARNING: this is a MAJOR (and disruptive) change with previous HAProxy's
behavior: before, HAProxy never ever used to change a server administrative
status when the DNS resolution failed at run time.
This patch gives HAProxy the ability to change the administrative status
of a server to MAINT (RMAINT actually) when an error is encountered for
a period longer than its own allowed by the corresponding 'hold'
parameter.
IE if the configuration sets "hold nx 10s" and a server's hostname
points to a NX for more than 10s, then the server will be set to RMAINT,
hence in MAINTENANCE mode.
It will be important to help debugging some DNS resolution issues to
know why a server was marked down, so let's make the function support
a 3rd argument with an indication of the reason. Passing NULL will keep
the message as-is.
It's important to report in the server state change logs that RMAINT was
cleared, as it's not the regular maintenance mode, it's specific to name
resolution, and it's important to report the new state (which can be DRAIN
or READY).
Server addresses are not resolved anymore upon the first pass so that we
don't fail if an address cannot be resolved by the libc. Instead they are
processed all at once after the configuration is fully loaded, by the new
function srv_init_addr(). This function only acts on the server's address
if this address uses an FQDN, which appears in server->hostname.
For now the function does two things, to followup with HAProxy's historical
default behavior:
1. apply server IP address found in server-state file if runtime DNS
resolution is enabled for this server
2. use the DNS resolver provided by the libc
If none of the 2 options above can find an IP address, then an error is
returned.
All of this will be needed to support the new server parameter "init-addr".
For now, the biggest user-visible change is that all server resolution errors
are dumped at once instead of causing a startup failure one by one.
