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|
/*
* Copyright (c) 2015-2019, 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.
*/
/** \file
* \brief Rose data structures.
*/
#ifndef ROSE_INTERNAL_H
#define ROSE_INTERNAL_H
#include "ue2common.h"
#include "rose_common.h"
#include "util/scatter.h"
#define ROSE_OFFSET_INVALID 0xffffffff
// Group constants
typedef u64a rose_group;
// Delayed literal stuff
#define DELAY_BITS 5
#define DELAY_SLOT_COUNT (1U << DELAY_BITS)
#define MAX_DELAY (DELAY_SLOT_COUNT - 1)
#define DELAY_MASK (DELAY_SLOT_COUNT - 1)
/* Allocation of Rose literal ids
*
* The rose literal id space is segmented:
*
* ---- 0
* | | 'Normal' undelayed literals in either e or f tables
* | |
* | |
* | |
* ---- anchored_base_id
* | | literals from the a table
* | |
* ---- delay_base_id
* | | Delayed version of normal literals
* | |
* ---- literalCount
*/
/* Rose Literal Sources
*
* Rose currently gets events (mainly roseProcessMatch calls) from a number of
* sources:
* 1) The floating table
* 2) The anchored table
* 3) Delayed literals
* 4) Suffix NFAs
* 5) Literal masks
* 5) End anchored table
* 6) Prefix / Infix nfas
*
* Care is required to ensure that events appear to come into Rose in order
* (or sufficiently ordered for Rose to cope). Generally the progress of the
* floating table is considered the canonical position in the buffer.
*
* Anchored table:
* The anchored table is run before the floating table as nothing in it can
* depend on a floating literal. Order is achieved by two measures:
* a) user matches^1 are logged and held until the floating matcher passes that
* point;
* b) any floating role with an anchored predecessor has a history relationship
* to enforce the ordering.
*
* Delayed literals:
* Delayed literal ordering is handled by delivering any pending delayed
* literals before processing any floating match.
*
* Suffix:
* Suffixes are always pure terminal roles. Prior to raising a match^2, pending
* NFA queues are run to the current point (floating or delayed literal) as
* appropriate.
*
* Literal Masks:
* These are triggered from either floating literals or delayed literals and
* inspect the data behind them. Matches are raised at the same location as the
* trigger literal so there are no ordering issues. Masks are always pure
* terminal roles.
*
* Lookaround:
* These are tests run on receipt of a role that "look around" the match,
* checking characters at nearby offsets against reachability masks. Each role
* can have a list of these lookaround offset/reach pairs, ordered in offset
* order, and any failure will prevent the role from being switched on. Offsets
* are relative to the byte after a literal match, and can be negative.
*
* Prefix / Infix:
* TODO: remember / discuss
*
* End anchored table:
* All user matches occur at the last byte. We do this last, so no problems
* (yippee)
*
* ^1 User matches which occur before any possible match from the other tables
* are not delayed.
* ^2 Queues may also be run to the current location if a queue is full and
* needs to be emptied.
* ^3 There is no need to catch up at the end of a block scan as it contains no
* terminals.
*/
struct RoseCountingMiracle {
char shufti; /** 1: count shufti class; 0: count a single character */
u8 count; /** minimum number of occurrences for the counting
* miracle char to kill the leftfix. */
u8 c; /** character to look for if not shufti */
u8 poison; /** character not in the shufti mask */
m128 lo; /** shufti lo mask */
m128 hi; /** shufti hi mask */
};
struct LeftNfaInfo {
u32 maxQueueLen;
u32 maxLag; // maximum of successor roles' lag
u32 lagIndex; // iff lag != 0, index into leftfixLagTable
u32 stopTable; // stop table index, or ROSE_OFFSET_INVALID
u8 transient; /**< 0 if not transient, else max width of transient prefix */
char infix; /* TODO: make flags */
char eager; /**< nfa should be run eagerly to first match or death */
char eod_check; /**< nfa is used by the event eod literal */
u32 countingMiracleOffset; /** if not 0, offset to RoseCountingMiracle. */
rose_group squash_mask; /* & mask applied when rose nfa dies */
};
struct NfaInfo {
u32 nfaOffset;
u32 stateOffset;
u32 fullStateOffset; /* offset in scratch, relative to ??? */
u32 ekeyListOffset; /* suffix, relative to base of rose, 0 if no ekeys */
u8 no_retrigger; /* TODO */
u8 in_sbmatcher; /**< this outfix should not be run in small-block
* execution, as it will be handled by the sbmatcher
* HWLM table. */
u8 eod; /* suffix is triggered by the etable --> can only produce eod
* matches */
};
#define MAX_STORED_LEFTFIX_LAG 127 /* max leftfix lag that we can store in one
* whole byte (OWB) (streaming only). Other
* values in OWB are reserved for zombie
* status */
#define OWB_ZOMBIE_ALWAYS_YES 128 /* nfa will always answer yes to any rose
* prefix checks */
/* offset of the status flags in the stream state. */
#define ROSE_STATE_OFFSET_STATUS_FLAGS 0
/* offset of role mmbit in stream state (just after the status flag byte). */
#define ROSE_STATE_OFFSET_ROLE_MMBIT sizeof(u8)
/**
* \brief Rose state offsets.
*
* Stores pre-calculated offsets (in bytes) to MOST of the state structures
* used by Rose, relative to the start of stream state.
*
* State not covered by this structure includes:
*
* -# the first byte, containing the status bitmask
* -# the role state multibit
*/
struct RoseStateOffsets {
/** History buffer.
*
* Max size of history is RoseEngine::historyRequired. */
u32 history;
/** Exhausted multibit.
*
* entry per exhaustible key (used by Highlander mode). If a bit is set,
* reports with that ekey should not be delivered to the user. */
u32 exhausted;
/** size in bytes of exhausted multibit */
u32 exhausted_size;
/** Logical multibit.
*
* entry per logical key(operand/operator) (used by Logical Combination). */
u32 logicalVec;
/** size in bytes of logical multibit */
u32 logicalVec_size;
/** Combination multibit.
*
* entry per combination key (used by Logical Combination). */
u32 combVec;
/** size in bytes of combination multibit */
u32 combVec_size;
/** Multibit for active suffix/outfix engines. */
u32 activeLeafArray;
/** Size of multibit for active suffix/outfix engines in bytes. */
u32 activeLeafArray_size;
/** Multibit for active leftfix (prefix/infix) engines. */
u32 activeLeftArray;
/** Size of multibit for active leftfix (prefix/infix) engines in bytes. */
u32 activeLeftArray_size;
/** Table of lag information (stored as one byte per engine) for active
* Rose leftfix engines. */
u32 leftfixLagTable;
/** State for anchored matchers (McClellan DFAs). */
u32 anchorState;
/** Packed Rose groups value. */
u32 groups;
/** Size of packed Rose groups value, in bytes. */
u32 groups_size;
/** State for long literal support. */
u32 longLitState;
/** Size of the long literal state. */
u32 longLitState_size;
/** Packed SOM location slots. */
u32 somLocation;
/** Multibit guarding SOM location slots. */
u32 somValid;
/** Multibit guarding SOM location slots. */
u32 somWritable;
/** Size of each of the somValid and somWritable multibits, in bytes. */
u32 somMultibit_size;
/** Begin of the region where NFA engine state is stored.
* The NFA state region extends to end. */
u32 nfaStateBegin;
/** Total size of Rose state, in bytes. */
u32 end;
};
struct RoseBoundaryReports {
/** \brief 0 if no reports list, otherwise offset of program to run to
* deliver reports at EOD. */
u32 reportEodOffset;
/** \brief 0 if no reports list, otherwise offset of program to run to
* deliver reports at offset 0. */
u32 reportZeroOffset;
/** \brief 0 if no reports list, otherwise offset of program to run to
* deliver reports if EOD is at offset 0. Superset of other programs. */
u32 reportZeroEodOffset;
};
/* NFA Queue Assignment
*
* --- 0
* (|) chained mpv (if present)
* #
* --- outfixBeginQueue -
* | outfixes. enabled at offset 0.
* |
* #
* --- outfixEndQueue -
* | suffixes. enabled by rose roles.
* |
* #
* --- leftfixBeginQueue -
* | prefixes
* |
* #
* --- ?
* | infixes
* |
* #
*/
#define ROSE_RUNTIME_FULL_ROSE 0
#define ROSE_RUNTIME_PURE_LITERAL 1
#define ROSE_RUNTIME_SINGLE_OUTFIX 2
/**
* \brief Runtime structure header for Rose.
*
* Runtime structure header for Rose.
* In memory, we follow this with:
* -# the "engine blob"
* -# anchored 'literal' matcher table
* -# floating literal matcher table
* -# eod-anchored literal matcher table
* -# small block table
* -# array of NFA offsets, one per queue
* -# array of state offsets, one per queue (+)
*
* (+) stateOffset array note: Offsets in the array are either into the stream
* state (normal case) or into the tstate region of scratch (for transient rose
* nfas). Rose nfa info table can distinguish the cases.
*/
struct RoseEngine {
u8 pureLiteral; /* Indicator of pure literal API */
u8 noFloatingRoots; /* only need to run the anchored table if something
* matched in the anchored table */
u8 requiresEodCheck; /* stuff happens at eod time */
u8 hasOutfixesInSmallBlock; /**< has at least one outfix that must run even
in small block scans. */
u8 runtimeImpl; /**< can we just run the floating table or a single outfix?
* or do we need a full rose? */
u8 mpvTriggeredByLeaf; /**< need to check (suf|out)fixes for mpv trigger */
u8 canExhaust; /**< every pattern has an exhaustion key */
u8 hasSom; /**< has at least one pattern which tracks SOM. */
u8 somHorizon; /**< width in bytes of SOM offset storage (governed by
SOM precision) */
u32 mode; /**< scanning mode, one of HS_MODE_{BLOCK,STREAM,VECTORED} */
u32 historyRequired; /**< max amount of history required for streaming */
u32 ekeyCount; /**< number of exhaustion keys */
u32 lkeyCount; /**< number of logical keys */
u32 lopCount; /**< number of logical ops */
u32 ckeyCount; /**< number of combination keys */
u32 logicalTreeOffset; /**< offset to mapping from lkey to LogicalOp */
u32 combInfoMapOffset; /**< offset to mapping from ckey to combInfo */
u32 dkeyCount; /**< number of dedupe keys */
u32 dkeyLogSize; /**< size of fatbit for storing dkey log (bytes) */
u32 invDkeyOffset; /**< offset to table mapping from dkeys to the external
* report ids */
u32 somLocationCount; /**< number of som locations required */
u32 somLocationFatbitSize; /**< size of SOM location fatbit (bytes) */
u32 rolesWithStateCount; // number of roles with entries in state bitset
u32 stateSize; /* size of the state bitset
* WARNING: not the size of the rose state */
u32 anchorStateSize; /* size of the state for the anchor dfas */
u32 tStateSize; /* total size of the state for transient rose nfas */
u32 scratchStateSize; /**< uncompressed state req'd for NFAs in scratch;
* used for sizing scratch only. */
u32 smallWriteOffset; /**< offset of small-write matcher */
u32 amatcherOffset; // offset of the anchored literal matcher (bytes)
u32 ematcherOffset; // offset of the eod-anchored literal matcher (bytes)
u32 fmatcherOffset; // offset of the floating literal matcher (bytes)
u32 drmatcherOffset; // offset of the delayed rebuild table (bytes)
u32 sbmatcherOffset; // offset of the small-block literal matcher (bytes)
u32 longLitTableOffset; // offset of the long literal table
u32 amatcherMinWidth; /**< minimum number of bytes required for a pattern
* involved with the anchored table to produce a full
* match. */
u32 fmatcherMinWidth; /**< minimum number of bytes required for a pattern
* involved with the floating table to produce a full
* match. */
u32 eodmatcherMinWidth; /**< minimum number of bytes required for a pattern
* involved with the eod table to produce a full
* match. */
u32 amatcherMaxBiAnchoredWidth; /**< maximum number of bytes that can still
* produce a match for a pattern involved
* with the anchored table. */
u32 fmatcherMaxBiAnchoredWidth; /**< maximum number of bytes that can still
* produce a match for a pattern involved
* with the anchored table. */
/**
* \brief Offset of u32 array of program offsets for reports used by
* output-exposed engines.
*/
u32 reportProgramOffset;
/**
* \brief Number of programs for reports used by output-exposed engines.
*/
u32 reportProgramCount;
/**
* \brief Offset of u32 array of program offsets for delayed replay of
* literals.
*/
u32 delayProgramOffset;
/**
* \brief Offset of u32 array of program offsets for anchored literals.
*/
u32 anchoredProgramOffset;
u32 activeArrayCount; //number of nfas tracked in the active array
u32 activeLeftCount; //number of nfas tracked in the active rose array
u32 queueCount; /**< number of nfa queues */
u32 activeQueueArraySize; //!< size of fatbit for active queues (bytes)
u32 eagerIterOffset; /**< offset to sparse iter for eager prefixes or 0 if
* none */
/** \brief Number of keys used by CHECK_SET_HANDLED instructions in role
* programs. */
u32 handledKeyCount;
/** \brief Size of the handled keys fatbit in scratch (bytes). */
u32 handledKeyFatbitSize;
u32 leftOffset;
u32 roseCount;
u32 eodProgramOffset; //!< EOD program, otherwise 0.
u32 flushCombProgramOffset; /**< FlushCombination program, otherwise 0 */
u32 lastFlushCombProgramOffset; /**< LastFlushCombination program,
* otherwise 0 */
u32 lastByteHistoryIterOffset; // if non-zero
/** \brief Minimum number of bytes required to match. */
u32 minWidth;
/** \brief Minimum number of bytes required to match, excluding boundary
* reports. */
u32 minWidthExcludingBoundaries;
u32 maxBiAnchoredWidth; /* ROSE_BOUND_INF if any non bianchored patterns
* present */
u32 anchoredDistance; // region to run the anchored table over
u32 anchoredMinDistance; /* start of region to run anchored table over */
u32 floatingDistance; /* end of region to run the floating table over
ROSE_BOUND_INF if not bounded */
u32 floatingMinDistance; /* start of region to run floating table over */
u32 smallBlockDistance; /* end of region to run the floating table over
ROSE_BOUND_INF if not bounded */
u32 floatingMinLiteralMatchOffset; /* the minimum offset that we can get a
* 'valid' match from the floating
* table */
u32 nfaInfoOffset; /* offset to the nfa info offset array */
rose_group initialGroups;
rose_group floating_group_mask; /* groups that are used by the ftable */
u32 size; // (bytes)
u32 delay_count; /* number of delayed literal ids. */
u32 delay_fatbit_size; //!< size of each delay fatbit in scratch (bytes)
u32 anchored_count; /* number of anchored literal ids */
u32 anchored_fatbit_size; //!< size of each anch fatbit in scratch (bytes)
u32 maxFloatingDelayedMatch; /* max offset that a delayed literal can
* usefully be reported */
u32 delayRebuildLength; /* length of the history region which needs to be
* rescanned when we are doing a delayed literal
* rebuild scan. */
struct RoseStateOffsets stateOffsets;
struct RoseBoundaryReports boundary;
u32 totalNumLiterals; /* total number of literals including dr */
u32 asize; /* size of the atable */
u32 outfixBeginQueue; /* first outfix queue */
u32 outfixEndQueue; /* one past the last outfix queue */
u32 leftfixBeginQueue; /* first prefix/infix queue */
u32 initMpvNfa; /* (allegedly chained) mpv to force on at init */
u32 rosePrefixCount; /* number of rose prefixes */
u32 activeLeftIterOffset; /* mmbit_sparse_iter over non-transient roses */
u32 ematcherRegionSize; /* max region size to pass to ematcher */
u32 somRevCount; /**< number of som reverse nfas */
u32 somRevOffsetOffset; /**< offset to array of offsets to som rev nfas */
u32 longLitStreamState; // size in bytes
struct scatter_full_plan state_init;
};
struct ALIGN_CL_DIRECTIVE anchored_matcher_info {
u32 next_offset; /* relative to this, 0 for end */
u32 state_offset; /* relative to anchorState */
u32 anchoredMinDistance; /* start of region to run anchored table over */
};
/**
* \brief Long literal subtable for a particular mode (caseful or nocase).
*/
struct RoseLongLitSubtable {
/**
* \brief Offset of the hash table (relative to RoseLongLitTable base).
*
* Offset is zero if no such table exists.
*/
u32 hashOffset;
/**
* \brief Offset of the bloom filter (relative to RoseLongLitTable base).
*
* Offset is zero if no such table exists.
*/
u32 bloomOffset;
/** \brief lg2 of the size of the hash table. */
u8 hashBits;
/** \brief Size of the bloom filter in bits. */
u8 bloomBits;
/** \brief Number of bits of packed stream state used. */
u8 streamStateBits;
};
/**
* \brief Long literal table header.
*/
struct RoseLongLitTable {
/**
* \brief Total size of the whole table (including strings, bloom filters,
* hash tables).
*/
u32 size;
/** \brief Caseful sub-table (hash table and bloom filter). */
struct RoseLongLitSubtable caseful;
/** \brief Caseless sub-table (hash table and bloom filter). */
struct RoseLongLitSubtable nocase;
/** \brief Total size of packed stream state in bytes. */
u8 streamStateBytes;
/** \brief Max length of literal prefixes. */
u8 maxLen;
};
/**
* \brief One of these structures per hash table entry in our long literal
* table.
*/
struct RoseLongLitHashEntry {
/**
* \brief Offset of the literal string itself, relative to
* RoseLongLitTable base. Zero if this bucket is empty.
*/
u32 str_offset;
/** \brief Length of the literal string. */
u32 str_len;
};
static really_inline
const struct anchored_matcher_info *getALiteralMatcher(
const struct RoseEngine *t) {
if (!t->amatcherOffset) {
return NULL;
}
const char *lt = (const char *)t + t->amatcherOffset;
assert(ISALIGNED_CL(lt));
return (const struct anchored_matcher_info *)lt;
}
struct HWLM;
static really_inline
const struct HWLM *getFLiteralMatcher(const struct RoseEngine *t) {
if (!t->fmatcherOffset) {
return NULL;
}
const char *lt = (const char *)t + t->fmatcherOffset;
assert(ISALIGNED_CL(lt));
return (const struct HWLM *)lt;
}
static really_inline
const void *getSBLiteralMatcher(const struct RoseEngine *t) {
if (!t->sbmatcherOffset) {
return NULL;
}
const char *matcher = (const char *)t + t->sbmatcherOffset;
assert(ISALIGNED_N(matcher, 8));
return matcher;
}
static really_inline
const struct LeftNfaInfo *getLeftTable(const struct RoseEngine *t) {
const struct LeftNfaInfo *r
= (const struct LeftNfaInfo *)((const char *)t + t->leftOffset);
assert(ISALIGNED_N(r, 4));
return r;
}
struct mmbit_sparse_iter; // forward decl
static really_inline
const struct mmbit_sparse_iter *getActiveLeftIter(const struct RoseEngine *t) {
assert(t->activeLeftIterOffset);
const struct mmbit_sparse_iter *it = (const struct mmbit_sparse_iter *)
((const char *)t + t->activeLeftIterOffset);
assert(ISALIGNED_N(it, 4));
return it;
}
static really_inline
const struct NfaInfo *getNfaInfoByQueue(const struct RoseEngine *t, u32 qi) {
const struct NfaInfo *infos
= (const struct NfaInfo *)((const char *)t + t->nfaInfoOffset);
assert(ISALIGNED_N(infos, sizeof(u32)));
return &infos[qi];
}
static really_inline
const struct NFA *getNfaByInfo(const struct RoseEngine *t,
const struct NfaInfo *info) {
return (const struct NFA *)((const char *)t + info->nfaOffset);
}
static really_inline
const struct NFA *getNfaByQueue(const struct RoseEngine *t, u32 qi) {
const struct NfaInfo *info = getNfaInfoByQueue(t, qi);
return getNfaByInfo(t, info);
}
static really_inline
u32 queueToLeftIndex(const struct RoseEngine *t, u32 qi) {
assert(qi >= t->leftfixBeginQueue);
return qi - t->leftfixBeginQueue;
}
static really_inline
const struct LeftNfaInfo *getLeftInfoByQueue(const struct RoseEngine *t,
u32 qi) {
const struct LeftNfaInfo *infos = getLeftTable(t);
return &infos[queueToLeftIndex(t, qi)];
}
struct SmallWriteEngine;
static really_inline
const struct SmallWriteEngine *getSmallWrite(const struct RoseEngine *t) {
if (!t->smallWriteOffset) {
return NULL;
}
const struct SmallWriteEngine *smwr =
(const struct SmallWriteEngine *)((const char *)t + t->smallWriteOffset);
return smwr;
}
#endif // ROSE_INTERNAL_H
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