/usr/include/hs/hs_runtime.h is in libhyperscan-dev 4.4.1-1.
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* Copyright (c) 2015, Intel Corporation
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Intel Corporation nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef HS_RUNTIME_H_
#define HS_RUNTIME_H_
#include <stdlib.h>
/**
* @file
* @brief The Hyperscan runtime API definition.
*
* Hyperscan is a high speed regular expression engine.
*
* This header contains functions for using compiled Hyperscan databases for
* scanning data at runtime.
*/
#include "hs_common.h"
#ifdef __cplusplus
extern "C"
{
#endif
/**
* Definition of the stream identifier type.
*/
struct hs_stream;
/**
* The stream identifier returned by @ref hs_open_stream().
*/
typedef struct hs_stream hs_stream_t;
struct hs_scratch;
/**
* A Hyperscan scratch space.
*/
typedef struct hs_scratch hs_scratch_t;
/**
* Definition of the match event callback function type.
*
* A callback function matching the defined type must be provided by the
* application calling the @ref hs_scan(), @ref hs_scan_vector() or @ref
* hs_scan_stream() functions (or other streaming calls which can produce
* matches).
*
* This callback function will be invoked whenever a match is located in the
* target data during the execution of a scan. The details of the match are
* passed in as parameters to the callback function, and the callback function
* should return a value indicating whether or not matching should continue on
* the target data. If no callbacks are desired from a scan call, NULL may be
* provided in order to suppress match production.
*
* This callback function should not attempt to call Hyperscan API functions on
* the same stream nor should it attempt to reuse the scratch space allocated
* for the API calls that caused it to be triggered. Making another call to the
* Hyperscan library with completely independent parameters should work (for
* example, scanning a different database in a new stream and with new scratch
* space), but reusing data structures like stream state and/or scratch space
* will produce undefined behavior.
*
* @param id
* The ID number of the expression that matched. If the expression was a
* single expression compiled with @ref hs_compile(), this value will be
* zero.
*
* @param from
* - If a start of match flag is enabled for the current pattern, this
* argument will be set to the start of match for the pattern assuming
* that that start of match value lies within the current 'start of match
* horizon' chosen by one of the SOM_HORIZON mode flags.
* - If the start of match value lies outside this horizon (possible only
* when the SOM_HORIZON value is not @ref HS_MODE_SOM_HORIZON_LARGE),
* the @a from value will be set to @ref HS_OFFSET_PAST_HORIZON.
* - This argument will be set to zero if the Start of Match flag is not
* enabled for the given pattern.
*
* @param to
* The offset after the last byte that matches the expression.
*
* @param flags
* This is provided for future use and is unused at present.
*
* @param context
* The pointer supplied by the user to the @ref hs_scan(), @ref
* hs_scan_vector() or @ref hs_scan_stream() function.
*
* @return
* Non-zero if the matching should cease, else zero. If scanning is
* performed in streaming mode and a non-zero value is returned, any
* subsequent calls to @ref hs_scan_stream() for that stream will
* immediately return with @ref HS_SCAN_TERMINATED.
*/
typedef int (*match_event_handler)(unsigned int id,
unsigned long long from,
unsigned long long to,
unsigned int flags,
void *context);
/**
* Open and initialise a stream.
*
* @param db
* A compiled pattern database.
*
* @param flags
* Flags modifying the behaviour of the stream. This parameter is provided
* for future use and is unused at present.
*
* @param stream
* On success, a pointer to the generated @ref hs_stream_t will be
* returned; NULL on failure.
*
* @return
* @ref HS_SUCCESS on success, other values on failure.
*/
hs_error_t hs_open_stream(const hs_database_t *db, unsigned int flags,
hs_stream_t **stream);
/**
* Write data to be scanned to the opened stream.
*
* This is the function call in which the actual pattern matching takes place
* as data is written to the stream. Matches will be returned via the @ref
* match_event_handler callback supplied.
*
* @param id
* The stream ID (returned by @ref hs_open_stream()) to which the data
* will be written.
*
* @param data
* Pointer to the data to be scanned.
*
* @param length
* The number of bytes to scan.
*
* @param flags
* Flags modifying the behaviour of the stream. This parameter is provided
* for future use and is unused at present.
*
* @param scratch
* A per-thread scratch space allocated by @ref hs_alloc_scratch().
*
* @param onEvent
* Pointer to a match event callback function. If a NULL pointer is given,
* no matches will be returned.
*
* @param ctxt
* The user defined pointer which will be passed to the callback function
* when a match occurs.
*
* @return
* Returns @ref HS_SUCCESS on success; @ref HS_SCAN_TERMINATED if the
* match callback indicated that scanning should stop; other values on
* error.
*/
hs_error_t hs_scan_stream(hs_stream_t *id, const char *data,
unsigned int length, unsigned int flags,
hs_scratch_t *scratch, match_event_handler onEvent,
void *ctxt);
/**
* Close a stream.
*
* This function must be called for any stream created with @ref
* hs_open_stream(), even if scanning has been terminated by a non-zero return
* from the match callback function.
*
* Note: This operation may result in matches being returned (via calls to the
* match event callback) for expressions anchored to the end of the data stream
* (for example, via the use of the `$` meta-character). If these matches are
* not desired, NULL may be provided as the @ref match_event_handler callback.
*
* If NULL is provided as the @ref match_event_handler callback, it is
* permissible to provide a NULL scratch.
*
* @param id
* The stream ID returned by @ref hs_open_stream().
*
* @param scratch
* A per-thread scratch space allocated by @ref hs_alloc_scratch(). This is
* allowed to be NULL only if the @a onEvent callback is also NULL.
*
* @param onEvent
* Pointer to a match event callback function. If a NULL pointer is given,
* no matches will be returned.
*
* @param ctxt
* The user defined pointer which will be passed to the callback function
* when a match occurs.
*
* @return
* Returns @ref HS_SUCCESS on success, other values on failure.
*/
hs_error_t hs_close_stream(hs_stream_t *id, hs_scratch_t *scratch,
match_event_handler onEvent, void *ctxt);
/**
* Reset a stream to an initial state.
*
* Conceptually, this is equivalent to performing @ref hs_close_stream() on the
* given stream, followed by a @ref hs_open_stream(). This new stream replaces
* the original stream in memory, avoiding the overhead of freeing the old
* stream and allocating the new one.
*
* Note: This operation may result in matches being returned (via calls to the
* match event callback) for expressions anchored to the end of the original
* data stream (for example, via the use of the `$` meta-character). If these
* matches are not desired, NULL may be provided as the @ref match_event_handler
* callback.
*
* Note: the stream will also be tied to the same database.
*
* @param id
* The stream (as created by @ref hs_open_stream()) to be replaced.
*
* @param flags
* Flags modifying the behaviour of the stream. This parameter is provided
* for future use and is unused at present.
*
* @param scratch
* A per-thread scratch space allocated by @ref hs_alloc_scratch(). This is
* allowed to be NULL only if the @a onEvent callback is also NULL.
*
* @param onEvent
* Pointer to a match event callback function. If a NULL pointer is given,
* no matches will be returned.
*
* @param context
* The user defined pointer which will be passed to the callback function
* when a match occurs.
*
* @return
* @ref HS_SUCCESS on success, other values on failure.
*/
hs_error_t hs_reset_stream(hs_stream_t *id, unsigned int flags,
hs_scratch_t *scratch, match_event_handler onEvent,
void *context);
/**
* Duplicate the given stream. The new stream will have the same state as the
* original including the current stream offset.
*
* @param to_id
* On success, a pointer to the new, copied @ref hs_stream_t will be
* returned; NULL on failure.
*
* @param from_id
* The stream (as created by @ref hs_open_stream()) to be copied.
*
* @return
* @ref HS_SUCCESS on success, other values on failure.
*/
hs_error_t hs_copy_stream(hs_stream_t **to_id, const hs_stream_t *from_id);
/**
* Duplicate the given 'from' stream state onto the 'to' stream. The 'to' stream
* will first be reset (reporting any EOD matches if a non-NULL @a onEvent
* callback handler is provided).
*
* Note: the 'to' stream and the 'from' stream must be open against the same
* database.
*
* @param to_id
* On success, a pointer to the new, copied @ref hs_stream_t will be
* returned; NULL on failure.
*
* @param from_id
* The stream (as created by @ref hs_open_stream()) to be copied.
*
* @param scratch
* A per-thread scratch space allocated by @ref hs_alloc_scratch(). This is
* allowed to be NULL only if the @a onEvent callback is also NULL.
*
* @param onEvent
* Pointer to a match event callback function. If a NULL pointer is given,
* no matches will be returned.
*
* @param context
* The user defined pointer which will be passed to the callback function
* when a match occurs.
*
* @return
* @ref HS_SUCCESS on success, other values on failure.
*/
hs_error_t hs_reset_and_copy_stream(hs_stream_t *to_id,
const hs_stream_t *from_id,
hs_scratch_t *scratch,
match_event_handler onEvent,
void *context);
/**
* The block (non-streaming) regular expression scanner.
*
* This is the function call in which the actual pattern matching takes place
* for block-mode pattern databases.
*
* @param db
* A compiled pattern database.
*
* @param data
* Pointer to the data to be scanned.
*
* @param length
* The number of bytes to scan.
*
* @param flags
* Flags modifying the behaviour of this function. This parameter is
* provided for future use and is unused at present.
*
* @param scratch
* A per-thread scratch space allocated by @ref hs_alloc_scratch() for this
* database.
*
* @param onEvent
* Pointer to a match event callback function. If a NULL pointer is given,
* no matches will be returned.
*
* @param context
* The user defined pointer which will be passed to the callback function.
*
* @return
* Returns @ref HS_SUCCESS on success; @ref HS_SCAN_TERMINATED if the
* match callback indicated that scanning should stop; other values on
* error.
*/
hs_error_t hs_scan(const hs_database_t *db, const char *data,
unsigned int length, unsigned int flags,
hs_scratch_t *scratch, match_event_handler onEvent,
void *context);
/**
* The vectored regular expression scanner.
*
* This is the function call in which the actual pattern matching takes place
* for vectoring-mode pattern databases.
*
* @param db
* A compiled pattern database.
*
* @param data
* An array of pointers to the data blocks to be scanned.
*
* @param length
* An array of lengths (in bytes) of each data block to scan.
*
* @param count
* Number of data blocks to scan. This should correspond to the size of
* of the @a data and @a length arrays.
*
* @param flags
* Flags modifying the behaviour of this function. This parameter is
* provided for future use and is unused at present.
*
* @param scratch
* A per-thread scratch space allocated by @ref hs_alloc_scratch() for
* this database.
*
* @param onEvent
* Pointer to a match event callback function. If a NULL pointer is given,
* no matches will be returned.
*
* @param context
* The user defined pointer which will be passed to the callback function.
*
* @return
* Returns @ref HS_SUCCESS on success; @ref HS_SCAN_TERMINATED if the match
* callback indicated that scanning should stop; other values on error.
*/
hs_error_t hs_scan_vector(const hs_database_t *db, const char *const *data,
const unsigned int *length, unsigned int count,
unsigned int flags, hs_scratch_t *scratch,
match_event_handler onEvent, void *context);
/**
* Allocate a "scratch" space for use by Hyperscan.
*
* This is required for runtime use, and one scratch space per thread, or
* concurrent caller, is required. Any allocator callback set by @ref
* hs_set_scratch_allocator() or @ref hs_set_allocator() will be used by this
* function.
*
* @param db
* The database, as produced by @ref hs_compile().
*
* @param scratch
* On first allocation, a pointer to NULL should be provided so a new
* scratch can be allocated. If a scratch block has been previously
* allocated, then a pointer to it should be passed back in to see if it
* is valid for this database block. If a new scratch block is required,
* the original will be freed and the new one returned, otherwise the
* previous scratch block will be returned. On success, the scratch block
* will be suitable for use with the provided database in addition to any
* databases that original scratch space was suitable for.
*
* @return
* @ref HS_SUCCESS on successful allocation; @ref HS_NOMEM if the
* allocation fails. Other errors may be returned if invalid parameters
* are specified.
*/
hs_error_t hs_alloc_scratch(const hs_database_t *db, hs_scratch_t **scratch);
/**
* Allocate a scratch space that is a clone of an existing scratch space.
*
* This is useful when multiple concurrent threads will be using the same set
* of compiled databases, and another scratch space is required. Any allocator
* callback set by @ref hs_set_scratch_allocator() or @ref hs_set_allocator()
* will be used by this function.
*
* @param src
* The existing @ref hs_scratch_t to be cloned.
*
* @param dest
* A pointer to the new scratch space will be returned here.
*
* @return
* @ref HS_SUCCESS on success; @ref HS_NOMEM if the allocation fails.
* Other errors may be returned if invalid parameters are specified.
*/
hs_error_t hs_clone_scratch(const hs_scratch_t *src, hs_scratch_t **dest);
/**
* Provides the size of the given scratch space.
*
* @param scratch
* A per-thread scratch space allocated by @ref hs_alloc_scratch() or @ref
* hs_clone_scratch().
*
* @param scratch_size
* On success, the size of the scratch space in bytes is placed in this
* parameter.
*
* @return
* @ref HS_SUCCESS on success, other values on failure.
*/
hs_error_t hs_scratch_size(const hs_scratch_t *scratch, size_t *scratch_size);
/**
* Free a scratch block previously allocated by @ref hs_alloc_scratch() or @ref
* hs_clone_scratch().
*
* The free callback set by @ref hs_set_scratch_allocator() or @ref
* hs_set_allocator() will be used by this function.
*
* @param scratch
* The scratch block to be freed. NULL may also be safely provided.
*
* @return
* @ref HS_SUCCESS on success, other values on failure.
*/
hs_error_t hs_free_scratch(hs_scratch_t *scratch);
/**
* Callback 'from' return value, indicating that the start of this match was
* too early to be tracked with the requested SOM_HORIZON precision.
*/
#define HS_OFFSET_PAST_HORIZON (~0ULL)
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* HS_RUNTIME_H_ */
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