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Tue, Nov 26, 09:29
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text/x-php
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rPH Phabricator
PhabricatorStartup.php
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<?php
/**
* Handle request startup, before loading the environment or libraries. This
* class bootstraps the request state up to the point where we can enter
* Phabricator code.
*
* NOTE: This class MUST NOT have any dependencies. It runs before libraries
* load.
*
* Rate Limiting
* =============
*
* Phabricator limits the rate at which clients can request pages, and issues
* HTTP 429 "Too Many Requests" responses if clients request too many pages too
* quickly. Although this is not a complete defense against high-volume attacks,
* it can protect an install against aggressive crawlers, security scanners,
* and some types of malicious activity.
*
* To perform rate limiting, each page increments a score counter for the
* requesting user's IP. The page can give the IP more points for an expensive
* request, or fewer for an authetnicated request.
*
* Score counters are kept in buckets, and writes move to a new bucket every
* minute. After a few minutes (defined by @{method:getRateLimitBucketCount}),
* the oldest bucket is discarded. This provides a simple mechanism for keeping
* track of scores without needing to store, access, or read very much data.
*
* Users are allowed to accumulate up to 1000 points per minute, averaged across
* all of the tracked buckets.
*
* @task info Accessing Request Information
* @task hook Startup Hooks
* @task apocalypse In Case Of Apocalypse
* @task validation Validation
* @task ratelimit Rate Limiting
* @task phases Startup Phase Timers
*/
final
class
PhabricatorStartup
{
private
static
$startTime
;
private
static
$debugTimeLimit
;
private
static
$accessLog
;
private
static
$capturingOutput
;
private
static
$rawInput
;
private
static
$oldMemoryLimit
;
private
static
$phases
;
// TODO: For now, disable rate limiting entirely by default. We need to
// iterate on it a bit for Conduit, some of the specific score levels, and
// to deal with NAT'd offices.
private
static
$maximumRate
=
0
;
/* -( Accessing Request Information )-------------------------------------- */
/**
* @task info
*/
public
static
function
getStartTime
()
{
return
self
::
$startTime
;
}
/**
* @task info
*/
public
static
function
getMicrosecondsSinceStart
()
{
return
(
int
)(
1000000
*
(
microtime
(
true
)
-
self
::
getStartTime
()));
}
/**
* @task info
*/
public
static
function
setAccessLog
(
$access_log
)
{
self
::
$accessLog
=
$access_log
;
}
/**
* @task info
*/
public
static
function
getRawInput
()
{
if
(
self
::
$rawInput
===
null
)
{
$stream
=
new
AphrontRequestStream
();
if
(
isset
(
$_SERVER
[
'HTTP_CONTENT_ENCODING'
]))
{
$encoding
=
trim
(
$_SERVER
[
'HTTP_CONTENT_ENCODING'
]);
$stream
->
setEncoding
(
$encoding
);
}
$input
=
''
;
do
{
$bytes
=
$stream
->
readData
();
if
(
$bytes
===
null
)
{
break
;
}
$input
.=
$bytes
;
}
while
(
true
);
self
::
$rawInput
=
$input
;
}
return
self
::
$rawInput
;
}
/* -( Startup Hooks )------------------------------------------------------ */
/**
* @param float Request start time, from `microtime(true)`.
* @task hook
*/
public
static
function
didStartup
(
$start_time
)
{
self
::
$startTime
=
$start_time
;
self
::
$phases
=
array
();
self
::
$accessLog
=
null
;
static
$registered
;
if
(!
$registered
)
{
// NOTE: This protects us against multiple calls to didStartup() in the
// same request, but also against repeated requests to the same
// interpreter state, which we may implement in the future.
register_shutdown_function
(
array
(
__CLASS__
,
'didShutdown'
));
$registered
=
true
;
}
self
::
setupPHP
();
self
::
verifyPHP
();
// If we've made it this far, the environment isn't completely broken so
// we can switch over to relying on our own exception recovery mechanisms.
ini_set
(
'display_errors'
,
0
);
if
(
isset
(
$_SERVER
[
'REMOTE_ADDR'
]))
{
self
::
rateLimitRequest
(
$_SERVER
[
'REMOTE_ADDR'
]);
}
self
::
normalizeInput
();
self
::
verifyRewriteRules
();
self
::
detectPostMaxSizeTriggered
();
self
::
beginOutputCapture
();
}
/**
* @task hook
*/
public
static
function
didShutdown
()
{
$event
=
error_get_last
();
if
(!
$event
)
{
return
;
}
switch
(
$event
[
'type'
])
{
case
E_ERROR
:
case
E_PARSE
:
case
E_COMPILE_ERROR
:
break
;
default
:
return
;
}
$msg
=
">>> UNRECOVERABLE FATAL ERROR <<<
\n\n
"
;
if
(
$event
)
{
// Even though we should be emitting this as text-plain, escape things
// just to be sure since we can't really be sure what the program state
// is when we get here.
$msg
.=
htmlspecialchars
(
$event
[
'message'
].
"
\n\n
"
.
$event
[
'file'
].
':'
.
$event
[
'line'
],
ENT_QUOTES
,
'UTF-8'
);
}
// flip dem tables
$msg
.=
"
\n\n\n
"
;
$msg
.=
"
\x
e2
\x
94
\x
bb
\x
e2
\x
94
\x
81
\x
e2
\x
94
\x
bb
\x
20
\x
ef
\x
b8
\x
b5
\x
20
\x
c2
\x
af"
.
"
\x
5c
\x
5f
\x
28
\x
e3
\x
83
\x
84
\x
29
\x
5f
\x
2f
\x
c2
\x
af
\x
20
\x
ef
\x
b8
\x
b5
\x
20"
.
"
\x
e2
\x
94
\x
bb
\x
e2
\x
94
\x
81
\x
e2
\x
94
\x
bb"
;
self
::
didFatal
(
$msg
);
}
public
static
function
loadCoreLibraries
()
{
$phabricator_root
=
dirname
(
dirname
(
__FILE__
));
$libraries_root
=
dirname
(
$phabricator_root
);
$root
=
null
;
if
(!
empty
(
$_SERVER
[
'PHUTIL_LIBRARY_ROOT'
]))
{
$root
=
$_SERVER
[
'PHUTIL_LIBRARY_ROOT'
];
}
ini_set
(
'include_path'
,
$libraries_root
.
PATH_SEPARATOR
.
ini_get
(
'include_path'
));
@
include_once
$root
.
'libphutil/src/__phutil_library_init__.php'
;
if
(!@
constant
(
'__LIBPHUTIL__'
))
{
self
::
didFatal
(
"Unable to load libphutil. Put libphutil/ next to phabricator/, or "
.
"update your PHP 'include_path' to include the parent directory of "
.
"libphutil/."
);
}
phutil_load_library
(
'arcanist/src'
);
// Load Phabricator itself using the absolute path, so we never end up doing
// anything surprising (loading index.php and libraries from different
// directories).
phutil_load_library
(
$phabricator_root
.
'/src'
);
}
/* -( Output Capture )----------------------------------------------------- */
public
static
function
beginOutputCapture
()
{
if
(
self
::
$capturingOutput
)
{
self
::
didFatal
(
'Already capturing output!'
);
}
self
::
$capturingOutput
=
true
;
ob_start
();
}
public
static
function
endOutputCapture
()
{
if
(!
self
::
$capturingOutput
)
{
return
null
;
}
self
::
$capturingOutput
=
false
;
return
ob_get_clean
();
}
/* -( Debug Time Limit )--------------------------------------------------- */
/**
* Set a time limit (in seconds) for the current script. After time expires,
* the script fatals.
*
* This works like `max_execution_time`, but prints out a useful stack trace
* when the time limit expires. This is primarily intended to make it easier
* to debug pages which hang by allowing extraction of a stack trace: set a
* short debug limit, then use the trace to figure out what's happening.
*
* The limit is implemented with a tick function, so enabling it implies
* some accounting overhead.
*
* @param int Time limit in seconds.
* @return void
*/
public
static
function
setDebugTimeLimit
(
$limit
)
{
self
::
$debugTimeLimit
=
$limit
;
static
$initialized
;
if
(!
$initialized
)
{
declare
(
ticks
=
1
);
register_tick_function
(
array
(
__CLASS__
,
'onDebugTick'
));
}
}
/**
* Callback tick function used by @{method:setDebugTimeLimit}.
*
* Fatals with a useful stack trace after the time limit expires.
*
* @return void
*/
public
static
function
onDebugTick
()
{
$limit
=
self
::
$debugTimeLimit
;
if
(!
$limit
)
{
return
;
}
$elapsed
=
(
microtime
(
true
)
-
self
::
getStartTime
());
if
(
$elapsed
>
$limit
)
{
$frames
=
array
();
foreach
(
debug_backtrace
()
as
$frame
)
{
$file
=
isset
(
$frame
[
'file'
])
?
$frame
[
'file'
]
:
'-'
;
$file
=
basename
(
$file
);
$line
=
isset
(
$frame
[
'line'
])
?
$frame
[
'line'
]
:
'-'
;
$class
=
isset
(
$frame
[
'class'
])
?
$frame
[
'class'
].
'->'
:
null
;
$func
=
isset
(
$frame
[
'function'
])
?
$frame
[
'function'
].
'()'
:
'?'
;
$frames
[]
=
"{$file}:{$line} {$class}{$func}"
;
}
self
::
didFatal
(
"Request aborted by debug time limit after {$limit} seconds.
\n\n
"
.
"STACK TRACE
\n
"
.
implode
(
"
\n
"
,
$frames
));
}
}
/* -( In Case of Apocalypse )---------------------------------------------- */
/**
* Fatal the request completely in response to an exception, sending a plain
* text message to the client. Calls @{method:didFatal} internally.
*
* @param string Brief description of the exception context, like
* `"Rendering Exception"`.
* @param Exception The exception itself.
* @param bool True if it's okay to show the exception's stack trace
* to the user. The trace will always be logged.
* @return exit This method **does not return**.
*
* @task apocalypse
*/
public
static
function
didEncounterFatalException
(
$note
,
Exception
$ex
,
$show_trace
)
{
$message
=
'['
.
$note
.
'/'
.
get_class
(
$ex
).
'] '
.
$ex
->
getMessage
();
$full_message
=
$message
;
$full_message
.=
"
\n\n
"
;
$full_message
.=
$ex
->
getTraceAsString
();
if
(
$show_trace
)
{
$message
=
$full_message
;
}
self
::
didFatal
(
$message
,
$full_message
);
}
/**
* Fatal the request completely, sending a plain text message to the client.
*
* @param string Plain text message to send to the client.
* @param string Plain text message to send to the error log. If not
* provided, the client message is used. You can pass a more
* detailed message here (e.g., with stack traces) to avoid
* showing it to users.
* @return exit This method **does not return**.
*
* @task apocalypse
*/
public
static
function
didFatal
(
$message
,
$log_message
=
null
)
{
if
(
$log_message
===
null
)
{
$log_message
=
$message
;
}
self
::
endOutputCapture
();
$access_log
=
self
::
$accessLog
;
if
(
$access_log
)
{
// We may end up here before the access log is initialized, e.g. from
// verifyPHP().
$access_log
->
setData
(
array
(
'c'
=>
500
,
));
$access_log
->
write
();
}
header
(
'Content-Type: text/plain; charset=utf-8'
,
$replace
=
true
,
$http_error
=
500
);
error_log
(
$log_message
);
echo
$message
.
"
\n
"
;
exit
(
1
);
}
/* -( Validation )--------------------------------------------------------- */
/**
* @task validation
*/
private
static
function
setupPHP
()
{
error_reporting
(
E_ALL
|
E_STRICT
);
self
::
$oldMemoryLimit
=
ini_get
(
'memory_limit'
);
ini_set
(
'memory_limit'
,
-
1
);
// If we have libxml, disable the incredibly dangerous entity loader.
if
(
function_exists
(
'libxml_disable_entity_loader'
))
{
libxml_disable_entity_loader
(
true
);
}
}
/**
* @task validation
*/
public
static
function
getOldMemoryLimit
()
{
return
self
::
$oldMemoryLimit
;
}
/**
* @task validation
*/
private
static
function
normalizeInput
()
{
// Replace superglobals with unfiltered versions, disrespect php.ini (we
// filter ourselves).
// NOTE: We don't filter INPUT_SERVER because we don't want to overwrite
// changes made in "preamble.php".
$filter
=
array
(
INPUT_GET
,
INPUT_POST
,
INPUT_ENV
,
INPUT_COOKIE
,
);
foreach
(
$filter
as
$type
)
{
$filtered
=
filter_input_array
(
$type
,
FILTER_UNSAFE_RAW
);
if
(!
is_array
(
$filtered
))
{
continue
;
}
switch
(
$type
)
{
case
INPUT_GET
:
$_GET
=
array_merge
(
$_GET
,
$filtered
);
break
;
case
INPUT_COOKIE
:
$_COOKIE
=
array_merge
(
$_COOKIE
,
$filtered
);
break
;
case
INPUT_POST
:
$_POST
=
array_merge
(
$_POST
,
$filtered
);
break
;
case
INPUT_ENV
;
$env
=
array_merge
(
$_ENV
,
$filtered
);
$_ENV
=
self
::
filterEnvSuperglobal
(
$env
);
break
;
}
}
// rebuild $_REQUEST, respecting order declared in ini files
$order
=
ini_get
(
'request_order'
);
if
(!
$order
)
{
$order
=
ini_get
(
'variables_order'
);
}
if
(!
$order
)
{
// $_REQUEST will be empty, leave it alone
return
;
}
$_REQUEST
=
array
();
for
(
$i
=
0
;
$i
<
strlen
(
$order
);
$i
++)
{
switch
(
$order
[
$i
])
{
case
'G'
:
$_REQUEST
=
array_merge
(
$_REQUEST
,
$_GET
);
break
;
case
'P'
:
$_REQUEST
=
array_merge
(
$_REQUEST
,
$_POST
);
break
;
case
'C'
:
$_REQUEST
=
array_merge
(
$_REQUEST
,
$_COOKIE
);
break
;
default
:
// $_ENV and $_SERVER never go into $_REQUEST
break
;
}
}
}
/**
* Adjust `$_ENV` before execution.
*
* Adjustments here primarily impact the environment as seen by subprocesses.
* The environment is forwarded explicitly by @{class:ExecFuture}.
*
* @param map<string, wild> Input `$_ENV`.
* @return map<string, string> Suitable `$_ENV`.
* @task validation
*/
private
static
function
filterEnvSuperglobal
(
array
$env
)
{
// In some configurations, we may get "argc" and "argv" set in $_ENV.
// These are not real environmental variables, and "argv" may have an array
// value which can not be forwarded to subprocesses. Remove these from the
// environment if they are present.
unset
(
$env
[
'argc'
]);
unset
(
$env
[
'argv'
]);
return
$env
;
}
/**
* @task validation
*/
private
static
function
verifyPHP
()
{
$required_version
=
'5.2.3'
;
if
(
version_compare
(
PHP_VERSION
,
$required_version
)
<
0
)
{
self
::
didFatal
(
"You are running PHP version '"
.
PHP_VERSION
.
"', which is older than "
.
"the minimum version, '{$required_version}'. Update to at least "
.
"'{$required_version}'."
);
}
if
(
get_magic_quotes_gpc
())
{
self
::
didFatal
(
"Your server is configured with PHP 'magic_quotes_gpc' enabled. This "
.
"feature is 'highly discouraged' by PHP's developers and you must "
.
"disable it to run Phabricator. Consult the PHP manual for "
.
"instructions."
);
}
if
(
extension_loaded
(
'apc'
))
{
$apc_version
=
phpversion
(
'apc'
);
$known_bad
=
array
(
'3.1.14'
=>
true
,
'3.1.15'
=>
true
,
'3.1.15-dev'
=>
true
,
);
if
(
isset
(
$known_bad
[
$apc_version
]))
{
self
::
didFatal
(
"You have APC {$apc_version} installed. This version of APC is "
.
"known to be bad, and does not work with Phabricator (it will "
.
"cause Phabricator to fatal unrecoverably with nonsense errors). "
.
"Downgrade to version 3.1.13."
);
}
}
if
(
isset
(
$_SERVER
[
'HTTP_PROXY'
]))
{
self
::
didFatal
(
'This HTTP request included a "Proxy:" header, poisoning the '
.
'environment (CVE-2016-5385 / httpoxy). Declining to process this '
.
'request. For details, see: https://phurl.io/u/httpoxy'
);
}
}
/**
* @task validation
*/
private
static
function
verifyRewriteRules
()
{
if
(
isset
(
$_REQUEST
[
'__path__'
])
&&
strlen
(
$_REQUEST
[
'__path__'
]))
{
return
;
}
if
(
php_sapi_name
()
==
'cli-server'
)
{
// Compatibility with PHP 5.4+ built-in web server.
$url
=
parse_url
(
$_SERVER
[
'REQUEST_URI'
]);
$_REQUEST
[
'__path__'
]
=
$url
[
'path'
];
return
;
}
if
(!
isset
(
$_REQUEST
[
'__path__'
]))
{
self
::
didFatal
(
"Request parameter '__path__' is not set. Your rewrite rules "
.
"are not configured correctly."
);
}
if
(!
strlen
(
$_REQUEST
[
'__path__'
]))
{
self
::
didFatal
(
"Request parameter '__path__' is set, but empty. Your rewrite rules "
.
"are not configured correctly. The '__path__' should always "
.
"begin with a '/'."
);
}
}
/**
* Detect if this request has had its POST data stripped by exceeding the
* 'post_max_size' PHP configuration limit.
*
* PHP has a setting called 'post_max_size'. If a POST request arrives with
* a body larger than the limit, PHP doesn't generate $_POST but processes
* the request anyway, and provides no formal way to detect that this
* happened.
*
* We can still read the entire body out of `php://input`. However according
* to the documentation the stream isn't available for "multipart/form-data"
* (on nginx + php-fpm it appears that it is available, though, at least) so
* any attempt to generate $_POST would be fragile.
*
* @task validation
*/
private
static
function
detectPostMaxSizeTriggered
()
{
// If this wasn't a POST, we're fine.
if
(
$_SERVER
[
'REQUEST_METHOD'
]
!=
'POST'
)
{
return
;
}
// If there's POST data, clearly we're in good shape.
if
(
$_POST
)
{
return
;
}
// For HTML5 drag-and-drop file uploads, Safari submits the data as
// "application/x-www-form-urlencoded". For most files this generates
// something in POST because most files decode to some nonempty (albeit
// meaningless) value. However, some files (particularly small images)
// don't decode to anything. If we know this is a drag-and-drop upload,
// we can skip this check.
if
(
isset
(
$_REQUEST
[
'__upload__'
]))
{
return
;
}
// PHP generates $_POST only for two content types. This routing happens
// in `main/php_content_types.c` in PHP. Normally, all forms use one of
// these content types, but some requests may not -- for example, Firefox
// submits files sent over HTML5 XMLHTTPRequest APIs with the Content-Type
// of the file itself. If we don't have a recognized content type, we
// don't need $_POST.
//
// NOTE: We use strncmp() because the actual content type may be something
// like "multipart/form-data; boundary=...".
//
// NOTE: Chrome sometimes omits this header, see some discussion in T1762
// and http://code.google.com/p/chromium/issues/detail?id=6800
$content_type
=
isset
(
$_SERVER
[
'CONTENT_TYPE'
])
?
$_SERVER
[
'CONTENT_TYPE'
]
:
''
;
$parsed_types
=
array
(
'application/x-www-form-urlencoded'
,
'multipart/form-data'
,
);
$is_parsed_type
=
false
;
foreach
(
$parsed_types
as
$parsed_type
)
{
if
(
strncmp
(
$content_type
,
$parsed_type
,
strlen
(
$parsed_type
))
===
0
)
{
$is_parsed_type
=
true
;
break
;
}
}
if
(!
$is_parsed_type
)
{
return
;
}
// Check for 'Content-Length'. If there's no data, we don't expect $_POST
// to exist.
$length
=
(
int
)
$_SERVER
[
'CONTENT_LENGTH'
];
if
(!
$length
)
{
return
;
}
// Time to fatal: we know this was a POST with data that should have been
// populated into $_POST, but it wasn't.
$config
=
ini_get
(
'post_max_size'
);
self
::
didFatal
(
"As received by the server, this request had a nonzero content length "
.
"but no POST data.
\n\n
"
.
"Normally, this indicates that it exceeds the 'post_max_size' setting "
.
"in the PHP configuration on the server. Increase the 'post_max_size' "
.
"setting or reduce the size of the request.
\n\n
"
.
"Request size according to 'Content-Length' was '{$length}', "
.
"'post_max_size' is set to '{$config}'."
);
}
/* -( Rate Limiting )------------------------------------------------------ */
/**
* Adjust the permissible rate limit score.
*
* By default, the limit is `1000`. You can use this method to set it to
* a larger or smaller value. If you set it to `2000`, users may make twice
* as many requests before rate limiting.
*
* @param int Maximum score before rate limiting.
* @return void
* @task ratelimit
*/
public
static
function
setMaximumRate
(
$rate
)
{
self
::
$maximumRate
=
$rate
;
}
/**
* Check if the user (identified by `$user_identity`) has issued too many
* requests recently. If they have, end the request with a 429 error code.
*
* The key just needs to identify the user. Phabricator uses both user PHIDs
* and user IPs as keys, tracking logged-in and logged-out users separately
* and enforcing different limits.
*
* @param string Some key which identifies the user making the request.
* @return void If the user has exceeded the rate limit, this method
* does not return.
* @task ratelimit
*/
public
static
function
rateLimitRequest
(
$user_identity
)
{
if
(!
self
::
canRateLimit
())
{
return
;
}
$score
=
self
::
getRateLimitScore
(
$user_identity
);
if
(
$score
>
(
self
::
$maximumRate
*
self
::
getRateLimitBucketCount
()))
{
// Give the user some bonus points for getting rate limited. This keeps
// bad actors who keep slamming the 429 page locked out completely,
// instead of letting them get a burst of requests through every minute
// after a bucket expires.
self
::
addRateLimitScore
(
$user_identity
,
50
);
self
::
didRateLimit
(
$user_identity
);
}
}
/**
* Add points to the rate limit score for some user.
*
* If users have earned more than 1000 points per minute across all the
* buckets they'll be locked out of the application, so awarding 1 point per
* request roughly corresponds to allowing 1000 requests per second, while
* awarding 50 points roughly corresponds to allowing 20 requests per second.
*
* @param string Some key which identifies the user making the request.
* @param float The cost for this request; more points pushes them toward
* the limit faster.
* @return void
* @task ratelimit
*/
public
static
function
addRateLimitScore
(
$user_identity
,
$score
)
{
if
(!
self
::
canRateLimit
())
{
return
;
}
$current
=
self
::
getRateLimitBucket
();
// There's a bit of a race here, if a second process reads the bucket before
// this one writes it, but it's fine if we occasionally fail to record a
// user's score. If they're making requests fast enough to hit rate
// limiting, we'll get them soon.
$bucket_key
=
self
::
getRateLimitBucketKey
(
$current
);
$bucket
=
apc_fetch
(
$bucket_key
);
if
(!
is_array
(
$bucket
))
{
$bucket
=
array
();
}
if
(
empty
(
$bucket
[
$user_identity
]))
{
$bucket
[
$user_identity
]
=
0
;
}
$bucket
[
$user_identity
]
+=
$score
;
apc_store
(
$bucket_key
,
$bucket
);
}
/**
* Determine if rate limiting is available.
*
* Rate limiting depends on APC, and isn't available unless the APC user
* cache is available.
*
* @return bool True if rate limiting is available.
* @task ratelimit
*/
private
static
function
canRateLimit
()
{
if
(!
self
::
$maximumRate
)
{
return
false
;
}
if
(!
function_exists
(
'apc_fetch'
))
{
return
false
;
}
return
true
;
}
/**
* Get the current bucket for storing rate limit scores.
*
* @return int The current bucket.
* @task ratelimit
*/
private
static
function
getRateLimitBucket
()
{
return
(
int
)(
time
()
/
60
);
}
/**
* Get the total number of rate limit buckets to retain.
*
* @return int Total number of rate limit buckets to retain.
* @task ratelimit
*/
private
static
function
getRateLimitBucketCount
()
{
return
5
;
}
/**
* Get the APC key for a given bucket.
*
* @param int Bucket to get the key for.
* @return string APC key for the bucket.
* @task ratelimit
*/
private
static
function
getRateLimitBucketKey
(
$bucket
)
{
return
'rate:bucket:'
.
$bucket
;
}
/**
* Get the APC key for the smallest stored bucket.
*
* @return string APC key for the smallest stored bucket.
* @task ratelimit
*/
private
static
function
getRateLimitMinKey
()
{
return
'rate:min'
;
}
/**
* Get the current rate limit score for a given user.
*
* @param string Unique key identifying the user.
* @return float The user's current score.
* @task ratelimit
*/
private
static
function
getRateLimitScore
(
$user_identity
)
{
$min_key
=
self
::
getRateLimitMinKey
();
// Identify the oldest bucket stored in APC.
$cur
=
self
::
getRateLimitBucket
();
$min
=
apc_fetch
(
$min_key
);
// If we don't have any buckets stored yet, store the current bucket as
// the oldest bucket.
if
(!
$min
)
{
apc_store
(
$min_key
,
$cur
);
$min
=
$cur
;
}
// Destroy any buckets that are older than the minimum bucket we're keeping
// track of. Under load this normally shouldn't do anything, but will clean
// up an old bucket once per minute.
$count
=
self
::
getRateLimitBucketCount
();
for
(
$cursor
=
$min
;
$cursor
<
(
$cur
-
$count
);
$cursor
++)
{
apc_delete
(
self
::
getRateLimitBucketKey
(
$cursor
));
apc_store
(
$min_key
,
$cursor
+
1
);
}
// Now, sum up the user's scores in all of the active buckets.
$score
=
0
;
for
(;
$cursor
<=
$cur
;
$cursor
++)
{
$bucket
=
apc_fetch
(
self
::
getRateLimitBucketKey
(
$cursor
));
if
(
isset
(
$bucket
[
$user_identity
]))
{
$score
+=
$bucket
[
$user_identity
];
}
}
return
$score
;
}
/**
* Emit an HTTP 429 "Too Many Requests" response (indicating that the user
* has exceeded application rate limits) and exit.
*
* @return exit This method **does not return**.
* @task ratelimit
*/
private
static
function
didRateLimit
()
{
$message
=
"TOO MANY REQUESTS
\n
"
.
"You are issuing too many requests too quickly.
\n
"
.
"To adjust limits, see
\"
Configuring a Preamble Script
\"
in the "
.
"documentation."
;
header
(
'Content-Type: text/plain; charset=utf-8'
,
$replace
=
true
,
$http_error
=
429
);
echo
$message
;
exit
(
1
);
}
/* -( Startup Timers )----------------------------------------------------- */
/**
* Record the beginning of a new startup phase.
*
* For phases which occur before @{class:PhabricatorStartup} loads, save the
* time and record it with @{method:recordStartupPhase} after the class is
* available.
*
* @param string Phase name.
* @task phases
*/
public
static
function
beginStartupPhase
(
$phase
)
{
self
::
recordStartupPhase
(
$phase
,
microtime
(
true
));
}
/**
* Record the start time of a previously executed startup phase.
*
* For startup phases which occur after @{class:PhabricatorStartup} loads,
* use @{method:beginStartupPhase} instead. This method can be used to
* record a time before the class loads, then hand it over once the class
* becomes available.
*
* @param string Phase name.
* @param float Phase start time, from `microtime(true)`.
* @task phases
*/
public
static
function
recordStartupPhase
(
$phase
,
$time
)
{
self
::
$phases
[
$phase
]
=
$time
;
}
/**
* Get information about startup phase timings.
*
* Sometimes, performance problems can occur before we start the profiler.
* Since the profiler can't examine these phases, it isn't useful in
* understanding their performance costs.
*
* Instead, the startup process marks when it enters various phases using
* @{method:beginStartupPhase}. A later call to this method can retrieve this
* information, which can be examined to gain greater insight into where
* time was spent. The output is still crude, but better than nothing.
*
* @task phases
*/
public
static
function
getPhases
()
{
return
self
::
$phases
;
}
}
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