pcre2/doc/pcre2jit.3

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.TH PCRE2JIT 3 "06 March 2019" "PCRE2 10.33"
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.SH NAME
PCRE2 - Perl-compatible regular expressions (revised API)
.SH "PCRE2 JUST-IN-TIME COMPILER SUPPORT"
.rs
.sp
Just-in-time compiling is a heavyweight optimization that can greatly speed up
pattern matching. However, it comes at the cost of extra processing before the
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match is performed, so it is of most benefit when the same pattern is going to
be matched many times. This does not necessarily mean many calls of a matching
function; if the pattern is not anchored, matching attempts may take place many
times at various positions in the subject, even for a single call. Therefore,
if the subject string is very long, it may still pay to use JIT even for
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one-off matches. JIT support is available for all of the 8-bit, 16-bit and
32-bit PCRE2 libraries.
.P
JIT support applies only to the traditional Perl-compatible matching function.
It does not apply when the DFA matching function is being used. The code for
this support was written by Zoltan Herczeg.
.
.
.SH "AVAILABILITY OF JIT SUPPORT"
.rs
.sp
JIT support is an optional feature of PCRE2. The "configure" option
--enable-jit (or equivalent CMake option) must be set when PCRE2 is built if
you want to use JIT. The support is limited to the following hardware
platforms:
.sp
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ARM 32-bit (v5, v7, and Thumb2)
ARM 64-bit
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Intel x86 32-bit and 64-bit
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MIPS 32-bit and 64-bit
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Power PC 32-bit and 64-bit
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SPARC 32-bit
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.sp
If --enable-jit is set on an unsupported platform, compilation fails.
.P
A program can tell if JIT support is available by calling \fBpcre2_config()\fP
with the PCRE2_CONFIG_JIT option. The result is 1 when JIT is available, and 0
otherwise. However, a simple program does not need to check this in order to
use JIT. The API is implemented in a way that falls back to the interpretive
code if JIT is not available. For programs that need the best possible
performance, there is also a "fast path" API that is JIT-specific.
.
.
.SH "SIMPLE USE OF JIT"
.rs
.sp
To make use of the JIT support in the simplest way, all you have to do is to
call \fBpcre2_jit_compile()\fP after successfully compiling a pattern with
\fBpcre2_compile()\fP. This function has two arguments: the first is the
compiled pattern pointer that was returned by \fBpcre2_compile()\fP, and the
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second is zero or more of the following option bits: PCRE2_JIT_COMPLETE,
PCRE2_JIT_PARTIAL_HARD, or PCRE2_JIT_PARTIAL_SOFT.
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.P
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If JIT support is not available, a call to \fBpcre2_jit_compile()\fP does
nothing and returns PCRE2_ERROR_JIT_BADOPTION. Otherwise, the compiled pattern
is passed to the JIT compiler, which turns it into machine code that executes
much faster than the normal interpretive code, but yields exactly the same
results. The returned value from \fBpcre2_jit_compile()\fP is zero on success,
or a negative error code.
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.P
There is a limit to the size of pattern that JIT supports, imposed by the size
of machine stack that it uses. The exact rules are not documented because they
may change at any time, in particular, when new optimizations are introduced.
If a pattern is too big, a call to \fBpcre2_jit_compile()\fB returns
PCRE2_ERROR_NOMEMORY.
.P
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PCRE2_JIT_COMPLETE requests the JIT compiler to generate code for complete
matches. If you want to run partial matches using the PCRE2_PARTIAL_HARD or
PCRE2_PARTIAL_SOFT options of \fBpcre2_match()\fP, you should set one or both
of the other options as well as, or instead of PCRE2_JIT_COMPLETE. The JIT
compiler generates different optimized code for each of the three modes
(normal, soft partial, hard partial). When \fBpcre2_match()\fP is called, the
appropriate code is run if it is available. Otherwise, the pattern is matched
using interpretive code.
.P
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You can call \fBpcre2_jit_compile()\fP multiple times for the same compiled
pattern. It does nothing if it has previously compiled code for any of the
option bits. For example, you can call it once with PCRE2_JIT_COMPLETE and
(perhaps later, when you find you need partial matching) again with
PCRE2_JIT_COMPLETE and PCRE2_JIT_PARTIAL_HARD. This time it will ignore
PCRE2_JIT_COMPLETE and just compile code for partial matching. If
\fBpcre2_jit_compile()\fP is called with no option bits set, it immediately
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returns zero. This is an alternative way of testing whether JIT is available.
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.P
At present, it is not possible to free JIT compiled code except when the entire
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compiled pattern is freed by calling \fBpcre2_code_free()\fP.
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.P
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In some circumstances you may need to call additional functions. These are
described in the section entitled
.\" HTML <a href="#stackcontrol">
.\" </a>
"Controlling the JIT stack"
.\"
below.
.P
There are some \fBpcre2_match()\fP options that are not supported by JIT, and
there are also some pattern items that JIT cannot handle. Details are given
below. In both cases, matching automatically falls back to the interpretive
code. If you want to know whether JIT was actually used for a particular match,
you should arrange for a JIT callback function to be set up as described in the
section entitled
.\" HTML <a href="#stackcontrol">
.\" </a>
"Controlling the JIT stack"
.\"
below, even if you do not need to supply a non-default JIT stack. Such a
callback function is called whenever JIT code is about to be obeyed. If the
match-time options are not right for JIT execution, the callback function is
not obeyed.
.P
If the JIT compiler finds an unsupported item, no JIT data is generated. You
can find out if JIT matching is available after compiling a pattern by calling
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\fBpcre2_pattern_info()\fP with the PCRE2_INFO_JITSIZE option. A non-zero
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result means that JIT compilation was successful. A result of 0 means that JIT
support is not available, or the pattern was not processed by
\fBpcre2_jit_compile()\fP, or the JIT compiler was not able to handle the
pattern.
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.
.
.SH "MATCHING SUBJECTS CONTAINING INVALID UTF"
.rs
.sp
When a pattern is compiled with the PCRE2_UTF option, the interpretive matching
function expects its subject string to be a valid sequence of UTF code units.
If it is not, the result is undefined. This is also true by default of matching
via JIT. However, if the option PCRE2_JIT_INVALID_UTF is passed to
\fBpcre2_jit_compile()\fP, code that can process a subject containing invalid
UTF is compiled.
.P
In this mode, an invalid code unit sequence never matches any pattern item. It
does not match dot, it does not match \ep{Any}, it does not even match negative
items such as [^X]. A lookbehind assertion fails if it encounters an invalid
sequence while moving the current point backwards. In other words, an invalid
UTF code unit sequence acts as a barrier which no match can cross. Reaching an
invalid sequence causes an immediate backtrack.
.P
Using this option, an application can run matches in arbitrary data, knowing
that any matched strings that are returned will be valid UTF. This can be
useful when searching for text in executable or other binary files.
.
.
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.SH "UNSUPPORTED OPTIONS AND PATTERN ITEMS"
.rs
.sp
The \fBpcre2_match()\fP options that are supported for JIT matching are
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PCRE2_COPY_MATCHED_SUBJECT, PCRE2_NOTBOL, PCRE2_NOTEOL, PCRE2_NOTEMPTY,
PCRE2_NOTEMPTY_ATSTART, PCRE2_NO_UTF_CHECK, PCRE2_PARTIAL_HARD, and
PCRE2_PARTIAL_SOFT. The PCRE2_ANCHORED and PCRE2_ENDANCHORED options are not
supported at match time.
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.P
If the PCRE2_NO_JIT option is passed to \fBpcre2_match()\fP it disables the
use of JIT, forcing matching by the interpreter code.
.P
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The only unsupported pattern items are \eC (match a single data unit) when
running in a UTF mode, and a callout immediately before an assertion condition
in a conditional group.
.
.
.SH "RETURN VALUES FROM JIT MATCHING"
.rs
.sp
When a pattern is matched using JIT matching, the return values are the same
as those given by the interpretive \fBpcre2_match()\fP code, with the addition
of one new error code: PCRE2_ERROR_JIT_STACKLIMIT. This means that the memory
used for the JIT stack was insufficient. See
.\" HTML <a href="#stackcontrol">
.\" </a>
"Controlling the JIT stack"
.\"
below for a discussion of JIT stack usage.
.P
The error code PCRE2_ERROR_MATCHLIMIT is returned by the JIT code if searching
a very large pattern tree goes on for too long, as it is in the same
circumstance when JIT is not used, but the details of exactly what is counted
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are not the same. The PCRE2_ERROR_DEPTHLIMIT error code is never returned
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when JIT matching is used.
.
.
.\" HTML <a name="stackcontrol"></a>
.SH "CONTROLLING THE JIT STACK"
.rs
.sp
When the compiled JIT code runs, it needs a block of memory to use as a stack.
By default, it uses 32KiB on the machine stack. However, some large or
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complicated patterns need more than this. The error PCRE2_ERROR_JIT_STACKLIMIT
is given when there is not enough stack. Three functions are provided for
managing blocks of memory for use as JIT stacks. There is further discussion
about the use of JIT stacks in the section entitled
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.\" HTML <a href="#stackfaq">
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.\" </a>
"JIT stack FAQ"
.\"
below.
.P
The \fBpcre2_jit_stack_create()\fP function creates a JIT stack. Its arguments
are a starting size, a maximum size, and a general context (for memory
allocation functions, or NULL for standard memory allocation). It returns a
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pointer to an opaque structure of type \fBpcre2_jit_stack\fP, or NULL if there
is an error. The \fBpcre2_jit_stack_free()\fP function is used to free a stack
that is no longer needed. If its argument is NULL, this function returns
immediately, without doing anything. (For the technically minded: the address
space is allocated by mmap or VirtualAlloc.) A maximum stack size of 512KiB to
1MiB should be more than enough for any pattern.
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.P
The \fBpcre2_jit_stack_assign()\fP function specifies which stack JIT code
should use. Its arguments are as follows:
.sp
pcre2_match_context *mcontext
pcre2_jit_callback callback
void *data
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.sp
The first argument is a pointer to a match context. When this is subsequently
passed to a matching function, its information determines which JIT stack is
used. If this argument is NULL, the function returns immediately, without doing
anything. There are three cases for the values of the other two options:
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.sp
(1) If \fIcallback\fP is NULL and \fIdata\fP is NULL, an internal 32KiB block
on the machine stack is used. This is the default when a match
context is created.
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.sp
(2) If \fIcallback\fP is NULL and \fIdata\fP is not NULL, \fIdata\fP must be
a pointer to a valid JIT stack, the result of calling
\fBpcre2_jit_stack_create()\fP.
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.sp
(3) If \fIcallback\fP is not NULL, it must point to a function that is
called with \fIdata\fP as an argument at the start of matching, in
order to set up a JIT stack. If the return from the callback
function is NULL, the internal 32KiB stack is used; otherwise the
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return value must be a valid JIT stack, the result of calling
\fBpcre2_jit_stack_create()\fP.
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.sp
A callback function is obeyed whenever JIT code is about to be run; it is not
obeyed when \fBpcre2_match()\fP is called with options that are incompatible
for JIT matching. A callback function can therefore be used to determine
whether a match operation was executed by JIT or by the interpreter.
.P
You may safely use the same JIT stack for more than one pattern (either by
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assigning directly or by callback), as long as the patterns are matched
sequentially in the same thread. Currently, the only way to set up
non-sequential matches in one thread is to use callouts: if a callout function
starts another match, that match must use a different JIT stack to the one used
for currently suspended match(es).
.P
In a multithread application, if you do not
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specify a JIT stack, or if you assign or pass back NULL from a callback, that
is thread-safe, because each thread has its own machine stack. However, if you
assign or pass back a non-NULL JIT stack, this must be a different stack for
each thread so that the application is thread-safe.
.P
Strictly speaking, even more is allowed. You can assign the same non-NULL stack
to a match context that is used by any number of patterns, as long as they are
not used for matching by multiple threads at the same time. For example, you
could use the same stack in all compiled patterns, with a global mutex in the
callback to wait until the stack is available for use. However, this is an
inefficient solution, and not recommended.
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.P
This is a suggestion for how a multithreaded program that needs to set up
non-default JIT stacks might operate:
.sp
During thread initalization
thread_local_var = pcre2_jit_stack_create(...)
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.sp
During thread exit
pcre2_jit_stack_free(thread_local_var)
.sp
Use a one-line callback function
return thread_local_var
.sp
All the functions described in this section do nothing if JIT is not available.
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.
.
.\" HTML <a name="stackfaq"></a>
.SH "JIT STACK FAQ"
.rs
.sp
(1) Why do we need JIT stacks?
.sp
PCRE2 (and JIT) is a recursive, depth-first engine, so it needs a stack where
the local data of the current node is pushed before checking its child nodes.
Allocating real machine stack on some platforms is difficult. For example, the
stack chain needs to be updated every time if we extend the stack on PowerPC.
Although it is possible, its updating time overhead decreases performance. So
we do the recursion in memory.
.P
(2) Why don't we simply allocate blocks of memory with \fBmalloc()\fP?
.sp
Modern operating systems have a nice feature: they can reserve an address space
instead of allocating memory. We can safely allocate memory pages inside this
address space, so the stack could grow without moving memory data (this is
important because of pointers). Thus we can allocate 1MiB address space, and
use only a single memory page (usually 4KiB) if that is enough. However, we can
still grow up to 1MiB anytime if needed.
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.P
(3) Who "owns" a JIT stack?
.sp
The owner of the stack is the user program, not the JIT studied pattern or
anything else. The user program must ensure that if a stack is being used by
\fBpcre2_match()\fP, (that is, it is assigned to a match context that is passed
to the pattern currently running), that stack must not be used by any other
threads (to avoid overwriting the same memory area). The best practice for
multithreaded programs is to allocate a stack for each thread, and return this
stack through the JIT callback function.
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.P
(4) When should a JIT stack be freed?
.sp
You can free a JIT stack at any time, as long as it will not be used by
\fBpcre2_match()\fP again. When you assign the stack to a match context, only a
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pointer is set. There is no reference counting or any other magic. You can free
compiled patterns, contexts, and stacks in any order, anytime. Just \fIdo
not\fP call \fBpcre2_match()\fP with a match context pointing to an already
freed stack, as that will cause SEGFAULT. (Also, do not free a stack currently
used by \fBpcre2_match()\fP in another thread). You can also replace the stack
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in a context at any time when it is not in use. You should free the previous
stack before assigning a replacement.
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.P
(5) Should I allocate/free a stack every time before/after calling
\fBpcre2_match()\fP?
.sp
No, because this is too costly in terms of resources. However, you could
implement some clever idea which release the stack if it is not used in let's
say two minutes. The JIT callback can help to achieve this without keeping a
list of patterns.
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.P
(6) OK, the stack is for long term memory allocation. But what happens if a
pattern causes stack overflow with a stack of 1MiB? Is that 1MiB kept until the
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stack is freed?
.sp
Especially on embedded sytems, it might be a good idea to release memory
sometimes without freeing the stack. There is no API for this at the moment.
Probably a function call which returns with the currently allocated memory for
any stack and another which allows releasing memory (shrinking the stack) would
be a good idea if someone needs this.
.P
(7) This is too much of a headache. Isn't there any better solution for JIT
stack handling?
.sp
No, thanks to Windows. If POSIX threads were used everywhere, we could throw
out this complicated API.
.
.
.SH "FREEING JIT SPECULATIVE MEMORY"
.rs
.sp
.nf
.B void pcre2_jit_free_unused_memory(pcre2_general_context *\fIgcontext\fP);
.fi
.P
The JIT executable allocator does not free all memory when it is possible.
It expects new allocations, and keeps some free memory around to improve
allocation speed. However, in low memory conditions, it might be better to free
all possible memory. You can cause this to happen by calling
pcre2_jit_free_unused_memory(). Its argument is a general context, for custom
memory management, or NULL for standard memory management.
.
.
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.SH "EXAMPLE CODE"
.rs
.sp
This is a single-threaded example that specifies a JIT stack without using a
callback. A real program should include error checking after all the function
calls.
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.sp
int rc;
pcre2_code *re;
pcre2_match_data *match_data;
pcre2_match_context *mcontext;
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pcre2_jit_stack *jit_stack;
.sp
re = pcre2_compile(pattern, PCRE2_ZERO_TERMINATED, 0,
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&errornumber, &erroffset, NULL);
rc = pcre2_jit_compile(re, PCRE2_JIT_COMPLETE);
mcontext = pcre2_match_context_create(NULL);
jit_stack = pcre2_jit_stack_create(32*1024, 512*1024, NULL);
pcre2_jit_stack_assign(mcontext, NULL, jit_stack);
match_data = pcre2_match_data_create(re, 10);
rc = pcre2_match(re, subject, length, 0, 0, match_data, mcontext);
/* Process result */
.sp
pcre2_code_free(re);
pcre2_match_data_free(match_data);
pcre2_match_context_free(mcontext);
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pcre2_jit_stack_free(jit_stack);
.sp
.
.
.SH "JIT FAST PATH API"
.rs
.sp
Because the API described above falls back to interpreted matching when JIT is
not available, it is convenient for programs that are written for general use
in many environments. However, calling JIT via \fBpcre2_match()\fP does have a
performance impact. Programs that are written for use where JIT is known to be
available, and which need the best possible performance, can instead use a
"fast path" API to call JIT matching directly instead of calling
\fBpcre2_match()\fP (obviously only for patterns that have been successfully
processed by \fBpcre2_jit_compile()\fP).
.P
The fast path function is called \fBpcre2_jit_match()\fP, and it takes exactly
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the same arguments as \fBpcre2_match()\fP. However, the subject string must be
specified with a length; PCRE2_ZERO_TERMINATED is not supported. Unsupported
option bits (for example, PCRE2_ANCHORED, PCRE2_ENDANCHORED and
PCRE2_COPY_MATCHED_SUBJECT) are ignored, as is the PCRE2_NO_JIT option. The
return values are also the same as for \fBpcre2_match()\fP, plus
PCRE2_ERROR_JIT_BADOPTION if a matching mode (partial or complete) is requested
that was not compiled.
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.P
When you call \fBpcre2_match()\fP, as well as testing for invalid options, a
number of other sanity checks are performed on the arguments. For example, if
the subject pointer is NULL, an immediate error is given. Also, unless
PCRE2_NO_UTF_CHECK is set, a UTF subject string is tested for validity. In the
interests of speed, these checks do not happen on the JIT fast path, and if
invalid data is passed, the result is undefined.
.P
Bypassing the sanity checks and the \fBpcre2_match()\fP wrapping can give
speedups of more than 10%.
.
.
.SH "SEE ALSO"
.rs
.sp
\fBpcre2api\fP(3)
.
.
.SH AUTHOR
.rs
.sp
.nf
Philip Hazel (FAQ by Zoltan Herczeg)
University Computing Service
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Cambridge, England.
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.fi
.
.
.SH REVISION
.rs
.sp
.nf
Last updated: 06 March 2019
Copyright (c) 1997-2019 University of Cambridge.
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.fi