/* SPDX-License-Identifier: BSD-3-Clause * Copyright(C) 2019 Marvell International Ltd. * Copyright 2020 Mellanox Technologies, Ltd * Copyright(c) 2020 Intel Corporation */ #ifndef _RTE_REGEXDEV_H_ #define _RTE_REGEXDEV_H_ /** * @file * * RTE RegEx Device API * * Defines RTE RegEx Device APIs for RegEx operations and its provisioning. * * The RegEx Device API is composed of two parts: * * - The application-oriented RegEx API that includes functions to setup * a RegEx device (configure it, setup its queue pairs and start it), * update the rule database and so on. * * - The driver-oriented RegEx API that exports a function allowing * a RegEx poll Mode Driver (PMD) to simultaneously register itself as * a RegEx device driver. * * RegEx device components and definitions: * * +-----------------+ * | | * | o---------+ rte_regexdev_[en|de]queue_burst() * | PCRE based o------+ | | * | RegEx pattern | | | +--------+ | * | matching engine o------+--+--o | | +------+ * | | | | | queue |<==o===>|Core 0| * | o----+ | | | pair 0 | | | * | | | | | +--------+ +------+ * +-----------------+ | | | * ^ | | | +--------+ * | | | | | | +------+ * | | +--+--o queue |<======>|Core 1| * Rule|Database | | | pair 1 | | | * +------+----------+ | | +--------+ +------+ * | Group 0 | | | * | +-------------+ | | | +--------+ +------+ * | | Rules 0..n | | | | | | |Core 2| * | +-------------+ | | +--o queue |<======>| | * | Group 1 | | | pair 2 | +------+ * | +-------------+ | | +--------+ * | | Rules 0..n | | | * | +-------------+ | | +--------+ * | Group 2 | | | | +------+ * | +-------------+ | | | queue |<======>|Core n| * | | Rules 0..n | | +-------o pair n | | | * | +-------------+ | +--------+ +------+ * | Group n | * | +-------------+ |<-------rte_regexdev_rule_db_update() * | | | |<-------rte_regexdev_rule_db_compile_activate() * | | Rules 0..n | |<-------rte_regexdev_rule_db_import() * | +-------------+ |------->rte_regexdev_rule_db_export() * +-----------------+ * * RegEx: A regular expression is a concise and flexible means for matching * strings of text, such as particular characters, words, or patterns of * characters. A common abbreviation for this is “RegEx”. * * RegEx device: A hardware or software-based implementation of RegEx * device API for PCRE based pattern matching syntax and semantics. * * PCRE RegEx syntax and semantics specification: * http://regexkit.sourceforge.net/Documentation/pcre/pcrepattern.html * * RegEx queue pair: Each RegEx device should have one or more queue pair to * transmit a burst of pattern matching request and receive a burst of * receive the pattern matching response. The pattern matching request/response * embedded in *rte_regex_ops* structure. * * Rule: A pattern matching rule expressed in PCRE RegEx syntax along with * Match ID and Group ID to identify the rule upon the match. * * Rule database: The RegEx device accepts regular expressions and converts them * into a compiled rule database that can then be used to scan data. * Compilation allows the device to analyze the given pattern(s) and * pre-determine how to scan for these patterns in an optimized fashion that * would be far too expensive to compute at run-time. A rule database contains * a set of rules that compiled in device specific binary form. * * Match ID or Rule ID: A unique identifier provided at the time of rule * creation for the application to identify the rule upon match. * * Group ID: Group of rules can be grouped under one group ID to enable * rule isolation and effective pattern matching. A unique group identifier * provided at the time of rule creation for the application to identify the * rule upon match. * * Scan: A pattern matching request through *enqueue* API. * * It may possible that a given RegEx device may not support all the features * of PCRE. The application may probe unsupported features through * struct rte_regexdev_info::pcre_unsup_flags * * By default, all the functions of the RegEx Device API exported by a PMD * are lock-free functions which assume to not be invoked in parallel on * different logical cores to work on the same target object. For instance, * the dequeue function of a PMD cannot be invoked in parallel on two logical * cores to operates on same RegEx queue pair. Of course, this function * can be invoked in parallel by different logical core on different queue pair. * It is the responsibility of the upper level application to enforce this rule. * * In all functions of the RegEx API, the RegEx device is * designated by an integer >= 0 named the device identifier *dev_id* * * At the RegEx driver level, RegEx devices are represented by a generic * data structure of type *rte_regexdev*. * * RegEx devices are dynamically registered during the PCI/SoC device probing * phase performed at EAL initialization time. * When a RegEx device is being probed, a *rte_regexdev* structure and * a new device identifier are allocated for that device. Then, the * regexdev_init() function supplied by the RegEx driver matching the probed * device is invoked to properly initialize the device. * * The role of the device init function consists of resetting the hardware or * software RegEx driver implementations. * * If the device init operation is successful, the correspondence between * the device identifier assigned to the new device and its associated * *rte_regexdev* structure is effectively registered. * Otherwise, both the *rte_regexdev* structure and the device identifier are * freed. * * The functions exported by the application RegEx API to setup a device * designated by its device identifier must be invoked in the following order: * - rte_regexdev_configure() * - rte_regexdev_queue_pair_setup() * - rte_regexdev_start() * * Then, the application can invoke, in any order, the functions * exported by the RegEx API to enqueue pattern matching job, dequeue pattern * matching response, get the stats, update the rule database, * get/set device attributes and so on * * If the application wants to change the configuration (i.e. call * rte_regexdev_configure() or rte_regexdev_queue_pair_setup()), it must call * rte_regexdev_stop() first to stop the device and then do the reconfiguration * before calling rte_regexdev_start() again. The enqueue and dequeue * functions should not be invoked when the device is stopped. * * Finally, an application can close a RegEx device by invoking the * rte_regexdev_close() function. * * Each function of the application RegEx API invokes a specific function * of the PMD that controls the target device designated by its device * identifier. * * For this purpose, all device-specific functions of a RegEx driver are * supplied through a set of pointers contained in a generic structure of type * *regexdev_ops*. * The address of the *regexdev_ops* structure is stored in the *rte_regexdev* * structure by the device init function of the RegEx driver, which is * invoked during the PCI/SoC device probing phase, as explained earlier. * * In other words, each function of the RegEx API simply retrieves the * *rte_regexdev* structure associated with the device identifier and * performs an indirect invocation of the corresponding driver function * supplied in the *regexdev_ops* structure of the *rte_regexdev* structure. * * For performance reasons, the address of the fast-path functions of the * RegEx driver is not contained in the *regexdev_ops* structure. * Instead, they are directly stored at the beginning of the *rte_regexdev* * structure to avoid an extra indirect memory access during their invocation. * * RTE RegEx device drivers do not use interrupts for enqueue or dequeue * operation. Instead, RegEx drivers export Poll-Mode enqueue and dequeue * functions to applications. * * The *enqueue* operation submits a burst of RegEx pattern matching request * to the RegEx device and the *dequeue* operation gets a burst of pattern * matching response for the ones submitted through *enqueue* operation. * * Typical application utilisation of the RegEx device API will follow the * following programming flow. * * - rte_regexdev_configure() * - rte_regexdev_queue_pair_setup() * - rte_regexdev_rule_db_update() Needs to invoke if precompiled rule database * not provided in rte_regexdev_config::rule_db for rte_regexdev_configure() * and/or application needs to update rule database. * - rte_regexdev_rule_db_compile_activate() Needs to invoke if * rte_regexdev_rule_db_update function was used. * - Create or reuse exiting mempool for *rte_regex_ops* objects. * - rte_regexdev_start() * - rte_regexdev_enqueue_burst() * - rte_regexdev_dequeue_burst() */ #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include #include #define RTE_REGEXDEV_NAME_MAX_LEN RTE_DEV_NAME_MAX_LEN extern int rte_regexdev_logtype; #define RTE_REGEXDEV_LOG(level, ...) \ rte_log(RTE_LOG_ ## level, rte_regexdev_logtype, "" __VA_ARGS__) /* Macros to check for valid port */ #define RTE_REGEXDEV_VALID_DEV_ID_OR_ERR_RET(dev_id, retval) do { \ if (!rte_regexdev_is_valid_dev(dev_id)) { \ RTE_REGEXDEV_LOG(ERR, "Invalid dev_id=%u\n", dev_id); \ return retval; \ } \ } while (0) #define RTE_REGEXDEV_VALID_DEV_ID_OR_RET(dev_id) do { \ if (!rte_regexdev_is_valid_dev(dev_id)) { \ RTE_REGEXDEV_LOG(ERR, "Invalid dev_id=%u\n", dev_id); \ return; \ } \ } while (0) /** * Check if dev_id is ready. * * @param dev_id * The dev identifier of the RegEx device. * * @return * - 0 if device state is not in ready state. * - 1 if device state is ready state. */ int rte_regexdev_is_valid_dev(uint16_t dev_id); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Get the total number of RegEx devices that have been successfully * initialised. * * @return * The total number of usable RegEx devices. */ __rte_experimental uint8_t rte_regexdev_count(void); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Get the device identifier for the named RegEx device. * * @param name * RegEx device name to select the RegEx device identifier. * * @return * Returns RegEx device identifier on success. * - <0: Failure to find named RegEx device. */ __rte_experimental int rte_regexdev_get_dev_id(const char *name); /* Enumerates RegEx device capabilities */ #define RTE_REGEXDEV_CAPA_RUNTIME_COMPILATION_F (1ULL << 0) /**< RegEx device does support compiling the rules at runtime unlike * loading only the pre-built rule database using * struct rte_regexdev_config::rule_db in rte_regexdev_configure() * * @see struct rte_regexdev_config::rule_db, rte_regexdev_configure() * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_CAPA_SUPP_PCRE_START_ANCHOR_F (1ULL << 1) /**< RegEx device support PCRE Anchor to start of match flag. * Example RegEx is `/\Gfoo\d/`. Here `\G` asserts position at the end of the * previous match or the start of the string for the first match. * This position will change each time the RegEx is applied to the subject * string. If the RegEx is applied to `foo1foo2Zfoo3` the first two matches will * be successful for `foo1foo2` and fail for `Zfoo3`. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_CAPA_SUPP_PCRE_ATOMIC_GROUPING_F (1ULL << 2) /**< RegEx device support PCRE Atomic grouping. * Atomic groups are represented by `(?>)`. An atomic group is a group that, * when the RegEx engine exits from it, automatically throws away all * backtracking positions remembered by any tokens inside the group. * Example RegEx is `a(?>bc|b)c` if the given patterns are `abc` and `abcc` then * `a(bc|b)c` matches both where as `a(?>bc|b)c` matches only abcc because * atomic groups don't allow backtracing back to `b`. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_BACKTRACKING_CTRL_F (1ULL << 3) /**< RegEx device support PCRE backtracking control verbs. * Some examples of backtracing verbs are (*COMMIT), (*ACCEPT), (*FAIL), * (*SKIP), (*PRUNE). * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_CALLOUTS_F (1ULL << 4) /**< RegEx device support PCRE callouts. * PCRE supports calling external function in between matches by using `(?C)`. * Example RegEx `ABC(?C)D` if a given patter is `ABCD` then the RegEx engine * will parse ABC perform a userdefined callout and return a successful match at * D. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_BACKREFERENCE_F (1ULL << 5) /**< RegEx device support PCRE backreference. * Example RegEx is `(\2ABC|(GHI))+` `\2` matches the same text as most recently * matched by the 2nd capturing group i.e. `GHI`. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_GREEDY_F (1ULL << 6) /**< RegEx device support PCRE Greedy mode. * For example if the RegEx is `AB\d*?` then `*?` represents zero or unlimited * matches. In greedy mode the pattern `AB12345` will be matched completely * where as the ungreedy mode `AB` will be returned as the match. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_MATCH_ALL_F (1ULL << 7) /**< RegEx device support match all mode. * For example if the RegEx is `AB\d*?` then `*?` represents zero or unlimited * matches. In match all mode the pattern `AB12345` will return 6 matches. * AB, AB1, AB12, AB123, AB1234, AB12345. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_LOOKAROUND_ASRT_F (1ULL << 8) /**< RegEx device support PCRE Lookaround assertions * (Zero-width assertions). Example RegEx is `[a-z]+\d+(?=!{3,})` if * the given pattern is `dwad1234!` the RegEx engine doesn't report any matches * because the assert `(?=!{3,})` fails. The pattern `dwad123!!!` would return a * successful match. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_MATCH_POINT_RST_F (1ULL << 9) /**< RegEx device doesn't support PCRE match point reset directive. * Example RegEx is `[a-z]+\K\d+` if the pattern is `dwad123` * then even though the entire pattern matches only `123` * is reported as a match. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_NEWLINE_CONVENTIONS_F (1ULL << 10) /**< RegEx support PCRE newline convention. * Newline conventions are represented as follows: * (*CR) carriage return * (*LF) linefeed * (*CRLF) carriage return, followed by linefeed * (*ANYCRLF) any of the three above * (*ANY) all Unicode newline sequences * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_NEWLINE_SEQ_F (1ULL << 11) /**< RegEx device support PCRE newline sequence. * The escape sequence `\R` will match any newline sequence. * It is equivalent to: `(?>\r\n|\n|\x0b|\f|\r|\x85)`. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_POSSESSIVE_QUALIFIERS_F (1ULL << 12) /**< RegEx device support PCRE possessive qualifiers. * Example RegEx possessive qualifiers `*+`, `++`, `?+`, `{m,n}+`. * Possessive quantifier repeats the token as many times as possible and it does * not give up matches as the engine backtracks. With a possessive quantifier, * the deal is all or nothing. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_SUBROUTINE_REFERENCES_F (1ULL << 13) /**< RegEx device support PCRE Subroutine references. * PCRE Subroutine references allow for sub patterns to be assessed * as part of the RegEx. Example RegEx is `(foo|fuzz)\g<1>+bar` matches the * pattern `foofoofuzzfoofuzzbar`. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_UTF_8_F (1ULL << 14) /**< RegEx device support UTF-8 character encoding. * * @see struct rte_regexdev_info::pcre_unsup_flags */ #define RTE_REGEXDEV_SUPP_PCRE_UTF_16_F (1ULL << 15) /**< RegEx device support UTF-16 character encoding. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_UTF_32_F (1ULL << 16) /**< RegEx device support UTF-32 character encoding. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_WORD_BOUNDARY_F (1ULL << 17) /**< RegEx device support word boundaries. * The meta character `\b` represents word boundary anchor. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_PCRE_FORWARD_REFERENCES_F (1ULL << 18) /**< RegEx device support Forward references. * Forward references allow you to use a back reference to a group that appears * later in the RegEx. Example RegEx is `(\3ABC|(DEF|(GHI)))+` matches the * following string `GHIGHIABCDEF`. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_MATCH_AS_END_F (1ULL << 19) /**< RegEx device support match as end. * Match as end means that the match result holds the end offset of the * detected match. No len value is set. * If the device doesn't support this feature it means the match * result holds the starting position of match and the length of the match. * * @see struct rte_regexdev_info::regexdev_capa */ #define RTE_REGEXDEV_SUPP_CROSS_BUFFER_F (1ULL << 20) /**< RegEx device support cross buffer match. * Cross buffer matching means that the match can be detected even if the * string was started in previous buffer. * In case the device is configured as RTE_REGEXDEV_CFG_MATCH_AS_END * the end offset will be relative for the first packet. * For example RegEx is ABC the first buffer is xxxx second buffer yyyA and * the last buffer BCzz. * In case the match as end is configured the end offset will be 10. * * @see RTE_REGEXDEV_CFG_MATCH_AS_END_F * @see RTE_REGEXDEV_CFG_CROSS_BUFFER_SCAN_F * @see RTE_REGEX_OPS_RSP_PMI_SOJ_F * @see RTE_REGEX_OPS_RSP_PMI_EOJ_F */ #define RTE_REGEXDEV_SUPP_MATCH_ALL_F (1ULL << 21) /**< RegEx device support match all. * Match all means that the RegEx engine will return all possible matches. * For example, assume the RegEx is `A+b`, given the input AAAb the * returned matches will be: Ab, AAb and AAAb. * * @see RTE_REGEXDEV_CFG_MATCH_ALL_F */ #define RTE_REGEXDEV_CAPA_QUEUE_PAIR_OOS_F (1ULL << 22) /**< RegEx device supports out of order scan. * Out of order scan means the response of a specific job can be returned as * soon as it is ready even if previous jobs on the same queue didn't complete. * * @see RTE_REGEX_QUEUE_PAIR_CFG_OOS_F * @see struct rte_regexdev_info::regexdev_capa */ /* Enumerates PCRE rule flags */ #define RTE_REGEX_PCRE_RULE_ALLOW_EMPTY_F (1ULL << 0) /**< When this flag is set, the pattern that can match against an empty string, * such as `.*` are allowed. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_ANCHORED_F (1ULL << 1) /**< When this flag is set, the pattern is forced to be "anchored", that is, it * is constrained to match only at the first matching point in the string that * is being searched. Similar to `^` and represented by `\A`. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_CASELESS_F (1ULL << 2) /**< When this flag is set, letters in the pattern match both upper and lower * case letters in the subject. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_DOTALL_F (1ULL << 3) /**< When this flag is set, a dot metacharacter in the pattern matches any * character, including one that indicates a newline. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_DUPNAMES_F (1ULL << 4) /**< When this flag is set, names used to identify capture groups need not be * unique. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_EXTENDED_F (1ULL << 5) /**< When this flag is set, most white space characters in the pattern are * totally ignored except when escaped or inside a character class. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_MATCH_UNSET_BACKREF_F (1ULL << 6) /**< When this flag is set, a backreference to an unset capture group matches an * empty string. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_MULTILINE_F (1ULL << 7) /**< When this flag is set, the `^` and `$` constructs match immediately * following or immediately before internal newlines in the subject string, * respectively, as well as at the very start and end. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_NO_AUTO_CAPTURE_F (1ULL << 8) /**< When this Flag is set, it disables the use of numbered capturing * parentheses in the pattern. References to capture groups (backreferences or * recursion/subroutine calls) may only refer to named groups, though the * reference can be by name or by number. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_UCP_F (1ULL << 9) /**< By default, only ASCII characters are recognized, When this flag is set, * Unicode properties are used instead to classify characters. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_UNGREEDY_F (1ULL << 10) /**< When this flag is set, the "greediness" of the quantifiers is inverted * so that they are not greedy by default, but become greedy if followed by * `?`. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_UTF_F (1ULL << 11) /**< When this flag is set, RegEx engine has to regard both the pattern and the * subject strings that are subsequently processed as strings of UTF characters * instead of single-code-unit strings. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ #define RTE_REGEX_PCRE_RULE_NEVER_BACKSLASH_C_F (1ULL << 12) /**< This flag locks out the use of `\C` in the pattern that is being compiled. * This escape matches one data unit, even in UTF mode which can cause * unpredictable behavior in UTF-8 or UTF-16 modes, because it may leave the * current matching point in the mi:set hlsearchddle of a multi-code-unit * character. * * @see struct rte_regexdev_info::rule_flags * @see struct rte_regexdev_rule::rule_flags */ /** * RegEx device information */ struct rte_regexdev_info { const char *driver_name; /**< RegEx driver name. */ struct rte_device *dev; /**< Device information. */ uint16_t max_matches; /**< Maximum matches per scan supported by this device. */ uint16_t max_queue_pairs; /**< Maximum queue pairs supported by this device. */ uint16_t max_payload_size; /**< Maximum payload size for a pattern match request or scan. * @see RTE_REGEXDEV_CFG_CROSS_BUFFER_SCAN_F */ uint32_t max_rules_per_group; /**< Maximum rules supported per group by this device. */ uint16_t max_groups; /**< Maximum groups supported by this device. */ uint32_t regexdev_capa; /**< RegEx device capabilities. @see RTE_REGEXDEV_CAPA_* */ uint64_t rule_flags; /**< Supported compiler rule flags. * @see RTE_REGEX_PCRE_RULE_*, struct rte_regexdev_rule::rule_flags */ }; /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Retrieve the contextual information of a RegEx device. * * @param dev_id * The identifier of the device. * * @param[out] dev_info * A pointer to a structure of type *rte_regexdev_info* to be filled with the * contextual information of the device. * * @return * - 0: Success, driver updates the contextual information of the RegEx device * - <0: Error code returned by the driver info get function. */ __rte_experimental int rte_regexdev_info_get(uint8_t dev_id, struct rte_regexdev_info *dev_info); /* Enumerates RegEx device configuration flags */ #define RTE_REGEXDEV_CFG_CROSS_BUFFER_SCAN_F (1ULL << 0) /**< Cross buffer scan refers to the ability to be able to detect * matches that occur across buffer boundaries, where the buffers are related * to each other in some way. Enable this flag when to scan payload size * greater than struct rte_regexdev_info::max_payload_size and/or * matches can present across scan buffer boundaries. * * @see struct rte_regexdev_info::max_payload_size * @see struct rte_regexdev_config::dev_cfg_flags, rte_regexdev_configure() * @see RTE_REGEX_OPS_RSP_PMI_SOJ_F * @see RTE_REGEX_OPS_RSP_PMI_EOJ_F */ #define RTE_REGEXDEV_CFG_MATCH_AS_END_F (1ULL << 1) /**< Match as end is the ability to return the result as ending offset. * When this flag is set, the result for each match will hold the ending * offset of the match in end_offset. * If this flag is not set, then the match result will hold the starting offset * in start_offset, and the length of the match in len. * * @see RTE_REGEXDEV_SUPP_MATCH_AS_END_F */ #define RTE_REGEXDEV_CFG_MATCH_ALL_F (1ULL << 2) /**< Match all is the ability to return all possible results. * * @see RTE_REGEXDEV_SUPP_MATCH_ALL_F */ /** RegEx device configuration structure */ struct rte_regexdev_config { uint16_t nb_max_matches; /**< Maximum matches per scan configured on this device. * This value cannot exceed the *max_matches* * which previously provided in rte_regexdev_info_get(). * The value 0 is allowed, in which case, value 1 used. * @see struct rte_regexdev_info::max_matches */ uint16_t nb_queue_pairs; /**< Number of RegEx queue pairs to configure on this device. * This value cannot exceed the *max_queue_pairs* which previously * provided in rte_regexdev_info_get(). * @see struct rte_regexdev_info::max_queue_pairs */ uint32_t nb_rules_per_group; /**< Number of rules per group to configure on this device. * This value cannot exceed the *max_rules_per_group* * which previously provided in rte_regexdev_info_get(). * The value 0 is allowed, in which case, * struct rte_regexdev_info::max_rules_per_group used. * @see struct rte_regexdev_info::max_rules_per_group */ uint16_t nb_groups; /**< Number of groups to configure on this device. * This value cannot exceed the *max_groups* * which previously provided in rte_regexdev_info_get(). * @see struct rte_regexdev_info::max_groups */ const char *rule_db; /**< Import initial set of prebuilt rule database on this device. * The value NULL is allowed, in which case, the device will not * be configured prebuilt rule database. Application may use * rte_regexdev_rule_db_update() or rte_regexdev_rule_db_import() API * to update or import rule database after the * rte_regexdev_configure(). * @see rte_regexdev_rule_db_update(), rte_regexdev_rule_db_import() */ uint32_t rule_db_len; /**< Length of *rule_db* buffer. */ uint32_t dev_cfg_flags; /**< RegEx device configuration flags, See RTE_REGEXDEV_CFG_* */ }; /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Configure a RegEx device. * * This function must be invoked first before any other function in the * API. This function can also be re-invoked when a device is in the * stopped state. * * The caller may use rte_regexdev_info_get() to get the capability of each * resources available for this regex device. * * @param dev_id * The identifier of the device to configure. * @param cfg * The RegEx device configuration structure. * * @return * - 0: Success, device configured. Otherwise negative errno is returned. */ __rte_experimental int rte_regexdev_configure(uint8_t dev_id, const struct rte_regexdev_config *cfg); /* Enumerates RegEx queue pair configuration flags */ #define RTE_REGEX_QUEUE_PAIR_CFG_OOS_F (1ULL << 0) /**< Out of order scan, If not set, a scan must retire after previously issued * in-order scans to this queue pair. If set, this scan can be retired as soon * as device returns completion. Application should not set out of order scan * flag if it needs to maintain the ingress order of scan request. * * @see struct rte_regexdev_qp_conf::qp_conf_flags * @see rte_regexdev_queue_pair_setup() */ struct rte_regex_ops; typedef void (*regexdev_stop_flush_t)(uint8_t dev_id, uint16_t qp_id, struct rte_regex_ops *op); /**< Callback function called during rte_regexdev_stop(), invoked once per * flushed RegEx op. */ /** RegEx queue pair configuration structure */ struct rte_regexdev_qp_conf { uint32_t qp_conf_flags; /**< Queue pair config flags, See RTE_REGEX_QUEUE_PAIR_CFG_* */ uint16_t nb_desc; /**< The number of descriptors to allocate for this queue pair. */ regexdev_stop_flush_t cb; /**< Callback function called during rte_regexdev_stop(), invoked * once per flushed regex op. Value NULL is allowed, in which case * callback will not be invoked. This function can be used to properly * dispose of outstanding regex ops from response queue, * for example ops containing memory pointers. * @see rte_regexdev_stop() */ }; /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Allocate and set up a RegEx queue pair for a RegEx device. * * @param dev_id * The identifier of the device. * @param queue_pair_id * The index of the RegEx queue pair to setup. The value must be in the range * [0, nb_queue_pairs - 1] previously supplied to rte_regexdev_configure(). * @param qp_conf * The pointer to the configuration data to be used for the RegEx queue pair. * NULL value is allowed, in which case default configuration used. * * @return * 0 on success. Otherwise negative errno is returned. */ __rte_experimental int rte_regexdev_queue_pair_setup(uint8_t dev_id, uint16_t queue_pair_id, const struct rte_regexdev_qp_conf *qp_conf); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Start a RegEx device. * * The device start step is the last one and consists of setting the RegEx * queues to start accepting the pattern matching scan requests. * * On success, all basic functions exported by the API (RegEx enqueue, * RegEx dequeue and so on) can be invoked. * * @param dev_id * RegEx device identifier. * * @return * 0 on success. Otherwise negative errno is returned. */ __rte_experimental int rte_regexdev_start(uint8_t dev_id); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Stop a RegEx device. * * Stop a RegEx device. The device can be restarted with a call to * rte_regexdev_start(). * * This function causes all queued response regex ops to be drained in the * response queue. While draining ops out of the device, * struct rte_regexdev_qp_conf::cb will be invoked for each ops. * * @param dev_id * RegEx device identifier. * * @return * 0 on success. Otherwise negative errno is returned. */ __rte_experimental int rte_regexdev_stop(uint8_t dev_id); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Close a RegEx device. The device cannot be restarted! * * @param dev_id * RegEx device identifier * * @return * 0 on success. Otherwise negative errno is returned. */ __rte_experimental int rte_regexdev_close(uint8_t dev_id); /* Device get/set attributes */ /** Enumerates RegEx device attribute identifier */ enum rte_regexdev_attr_id { RTE_REGEXDEV_ATTR_SOCKET_ID, /**< The NUMA socket id to which the device is connected or * a default of zero if the socket could not be determined. * datatype: *int* * operation: *get* */ RTE_REGEXDEV_ATTR_MAX_MATCHES, /**< Maximum number of matches per scan. * datatype: *uint8_t* * operation: *get* and *set* * @see RTE_REGEX_OPS_RSP_MAX_MATCH_F */ RTE_REGEXDEV_ATTR_MAX_SCAN_TIMEOUT, /**< Upper bound scan time in ns. * datatype: *uint16_t* * operation: *get* and *set* * @see RTE_REGEX_OPS_RSP_MAX_SCAN_TIMEOUT_F */ RTE_REGEXDEV_ATTR_MAX_PREFIX, /**< Maximum number of prefix detected per scan. * This would be useful for denial of service detection. * datatype: *uint16_t* * operation: *get* and *set* * @see RTE_REGEX_OPS_RSP_MAX_PREFIX_F */ }; /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Get an attribute from a RegEx device. * * @param dev_id * RegEx device identifier. * @param attr_id * The attribute ID to retrieve. * @param attr_value * A pointer that will be filled in with the attribute * value if successful. * * @return * - 0: Successfully retrieved attribute value. * - -EINVAL: Invalid device or *attr_id* provided, or *attr_value* is NULL. * - -ENOTSUP: if the device doesn't support specific *attr_id*. */ __rte_experimental int rte_regexdev_attr_get(uint8_t dev_id, enum rte_regexdev_attr_id attr_id, void *attr_value); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Set an attribute to a RegEx device. * * @param dev_id * RegEx device identifier. * @param attr_id * The attribute ID to retrieve. * @param attr_value * Pointer that will be filled in with the attribute value * by the application. * * @return * - 0: Successfully applied the attribute value. * - -EINVAL: Invalid device or *attr_id* provided, or *attr_value* is NULL. * - -ENOTSUP: if the device doesn't support specific *attr_id*. */ __rte_experimental int rte_regexdev_attr_set(uint8_t dev_id, enum rte_regexdev_attr_id attr_id, const void *attr_value); /* Rule related APIs */ /** Enumerates RegEx rule operation. */ enum rte_regexdev_rule_op { RTE_REGEX_RULE_OP_ADD, /**< Add RegEx rule to rule database. */ RTE_REGEX_RULE_OP_REMOVE /**< Remove RegEx rule from rule database. */ }; /** Structure to hold a RegEx rule attributes. */ struct rte_regexdev_rule { enum rte_regexdev_rule_op op; /**< OP type of the rule either a OP_ADD or OP_DELETE. */ uint16_t group_id; /**< Group identifier to which the rule belongs to. */ uint32_t rule_id; /**< Rule identifier which is returned on successful match. */ const char *pcre_rule; /**< Buffer to hold the PCRE rule. */ uint16_t pcre_rule_len; /**< Length of the PCRE rule. */ uint64_t rule_flags; /* PCRE rule flags. Supported device specific PCRE rules enumerated * in struct rte_regexdev_info::rule_flags. For successful rule * database update, application needs to provide only supported * rule flags. * @See RTE_REGEX_PCRE_RULE_*, struct rte_regexdev_info::rule_flags */ }; /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Update the local rule set. * This functions only modify the rule set in memory. * In order for the changes to take effect, the function * rte_regexdev_rule_db_compile_active must be called. * * @param dev_id * RegEx device identifier. * @param rules * Points to an array of *nb_rules* objects of type *rte_regexdev_rule* * structure which contain the regex rules attributes to be updated * in rule database. * @param nb_rules * The number of PCRE rules to update the rule database. * * @return * The number of regex rules actually updated on the regex device's rule * database. The return value can be less than the value of the *nb_rules* * parameter when the regex devices fails to update the rule database or * if invalid parameters are specified in a *rte_regexdev_rule*. * If the return value is less than *nb_rules*, the remaining PCRE rules * at the end of *rules* are not consumed and the caller has to take * care of them and rte_errno is set accordingly. * Possible errno values include: * - -EINVAL: Invalid device ID or rules is NULL * - -ENOTSUP: The last processed rule is not supported on this device. * - -ENOSPC: No space available in rule database. * * @see rte_regexdev_rule_db_import(), rte_regexdev_rule_db_export(), * rte_regexdev_rule_db_compile_activate() */ __rte_experimental int rte_regexdev_rule_db_update(uint8_t dev_id, const struct rte_regexdev_rule *rules, uint32_t nb_rules); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Compile local rule set and burn the complied result to the * RegEx deive. * * @param dev_id * RegEx device identifier. * * @return * 0 on success, otherwise negative errno. * * @see rte_regexdev_rule_db_import(), rte_regexdev_rule_db_export(), * rte_regexdev_rule_db_update() */ __rte_experimental int rte_regexdev_rule_db_compile_activate(uint8_t dev_id); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Import a prebuilt rule database from a buffer to a RegEx device. * * @param dev_id * RegEx device identifier. * @param rule_db * Points to prebuilt rule database. * @param rule_db_len * Length of the rule database. * * @return * - 0: Successfully updated the prebuilt rule database. * - -EINVAL: Invalid device ID or rule_db is NULL * - -ENOTSUP: Rule database import is not supported on this device. * - -ENOSPC: No space available in rule database. * * @see rte_regexdev_rule_db_update(), rte_regexdev_rule_db_export() */ __rte_experimental int rte_regexdev_rule_db_import(uint8_t dev_id, const char *rule_db, uint32_t rule_db_len); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Export the prebuilt rule database from a RegEx device to the buffer. * * @param dev_id * RegEx device identifier. * @param[out] rule_db * Block of memory to insert the rule database. Must be at least size in * capacity. If set to NULL, function returns required capacity. * * @return * - 0: Successfully exported the prebuilt rule database. * - size: If rule_db set to NULL then required capacity for *rule_db* * - -EINVAL: Invalid device ID * - -ENOTSUP: Rule database export is not supported on this device. * * @see rte_regexdev_rule_db_update(), rte_regexdev_rule_db_import() */ __rte_experimental int rte_regexdev_rule_db_export(uint8_t dev_id, char *rule_db); /* Extended statistics */ /** Maximum name length for extended statistics counters */ #define RTE_REGEXDEV_XSTATS_NAME_SIZE 64 /** * A name-key lookup element for extended statistics. * * This structure is used to map between names and ID numbers * for extended RegEx device statistics. */ struct rte_regexdev_xstats_map { uint16_t id; /**< xstat identifier */ char name[RTE_REGEXDEV_XSTATS_NAME_SIZE]; /**< xstat name */ }; /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Retrieve names of extended statistics of a regex device. * * @param dev_id * The identifier of the regex device. * @param[out] xstats_map * Block of memory to insert id and names into. Must be at least size in * capacity. If set to NULL, function returns required capacity. * @return * - Positive value on success: * -The return value is the number of entries filled in the stats map. * -If xstats_map set to NULL then required capacity for xstats_map. * - Negative value on error: * -ENODEV for invalid *dev_id* * -ENOTSUP if the device doesn't support this function. */ __rte_experimental int rte_regexdev_xstats_names_get(uint8_t dev_id, struct rte_regexdev_xstats_map *xstats_map); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Retrieve extended statistics of an regex device. * * @param dev_id * The identifier of the device. * @param ids * The id numbers of the stats to get. The ids can be got from the stat * position in the stat list from rte_regexdev_xstats_names_get(), or * by using rte_regexdev_xstats_by_name_get(). * @param values * The values for each stats request by ID. * @param nb_values * The number of stats requested. * @return * - Positive value: number of stat entries filled into the values array * - Negative value on error: * -ENODEV for invalid *dev_id* * -ENOTSUP if the device doesn't support this function. */ __rte_experimental int rte_regexdev_xstats_get(uint8_t dev_id, const uint16_t *ids, uint64_t *values, uint16_t nb_values); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Retrieve the value of a single stat by requesting it by name. * * @param dev_id * The identifier of the device. * @param name * The stat name to retrieve. * @param id * If non-NULL, the numerical id of the stat will be returned, so that further * requests for the stat can be got using rte_regexdev_xstats_get, which will * be faster as it doesn't need to scan a list of names for the stat. * @param[out] value * Must be non-NULL, retrieved xstat value will be stored in this address. * * @return * - 0: Successfully retrieved xstat value. * - -EINVAL: invalid parameters * - -ENOTSUP: if not supported. */ __rte_experimental int rte_regexdev_xstats_by_name_get(uint8_t dev_id, const char *name, uint16_t *id, uint64_t *value); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Reset the values of the xstats of the selected component in the device. * * @param dev_id * The identifier of the device. * @param ids * Selects specific statistics to be reset. When NULL, all statistics will be * reset. If non-NULL, must point to array of at least *nb_ids* size. * @param nb_ids * The number of ids available from the *ids* array. Ignored when ids is NULL. * * @return * - 0: Successfully reset the statistics to zero. * - -EINVAL: invalid parameters. * - -ENOTSUP: if not supported. */ __rte_experimental int rte_regexdev_xstats_reset(uint8_t dev_id, const uint16_t *ids, uint16_t nb_ids); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Trigger the RegEx device self test. * * @param dev_id * The identifier of the device. * @return * - 0: Selftest successful. * - -ENOTSUP if the device doesn't support selftest. * - other values < 0 on failure. */ __rte_experimental int rte_regexdev_selftest(uint8_t dev_id); /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Dump internal information about *dev_id* to the FILE* provided in *f*. * * @param dev_id * The identifier of the device. * @param f * A pointer to a file for output. * * @return * 0 on success, negative errno on failure. */ __rte_experimental int rte_regexdev_dump(uint8_t dev_id, FILE *f); /* Fast path APIs */ /** * The generic *rte_regexdev_match* structure to hold the RegEx match * attributes. * @see struct rte_regex_ops::matches */ struct rte_regexdev_match { RTE_STD_C11 union { uint64_t u64; struct { uint32_t rule_id:20; /**< Rule identifier to which the pattern matched. * @see struct rte_regexdev_rule::rule_id */ uint32_t group_id:12; /**< Group identifier of the rule which the pattern * matched. @see struct rte_regexdev_rule::group_id */ uint16_t start_offset; /**< Starting Byte Position for matched rule. */ RTE_STD_C11 union { uint16_t len; /**< Length of match in bytes */ uint16_t end_offset; /**< The end offset of the match. In case * MATCH_AS_END configuration is enabled. * @see RTE_REGEXDEV_CFG_MATCH_AS_END */ }; }; }; }; /* Enumerates RegEx request flags. */ #define RTE_REGEX_OPS_REQ_GROUP_ID0_VALID_F (1 << 0) /**< Set when struct rte_regexdev_rule::group_id0 is valid. */ #define RTE_REGEX_OPS_REQ_GROUP_ID1_VALID_F (1 << 1) /**< Set when struct rte_regexdev_rule::group_id1 is valid. */ #define RTE_REGEX_OPS_REQ_GROUP_ID2_VALID_F (1 << 2) /**< Set when struct rte_regexdev_rule::group_id2 is valid. */ #define RTE_REGEX_OPS_REQ_GROUP_ID3_VALID_F (1 << 3) /**< Set when struct rte_regexdev_rule::group_id3 is valid. */ #define RTE_REGEX_OPS_REQ_STOP_ON_MATCH_F (1 << 4) /**< The RegEx engine will stop scanning and return the first match. */ #define RTE_REGEX_OPS_REQ_MATCH_HIGH_PRIORITY_F (1 << 5) /**< In High Priority mode a maximum of one match will be returned per scan to * reduce the post-processing required by the application. The match with the * lowest Rule id, lowest start pointer and lowest match length will be * returned. * * @see struct rte_regex_ops::nb_actual_matches * @see struct rte_regex_ops::nb_matches */ /* Enumerates RegEx response flags. */ #define RTE_REGEX_OPS_RSP_PMI_SOJ_F (1 << 0) /**< Indicates that the RegEx device has encountered a partial match at the * start of scan in the given buffer. * * @see RTE_REGEXDEV_CFG_CROSS_BUFFER_SCAN_F */ #define RTE_REGEX_OPS_RSP_PMI_EOJ_F (1 << 1) /**< Indicates that the RegEx device has encountered a partial match at the * end of scan in the given buffer. * * @see RTE_REGEXDEV_CFG_CROSS_BUFFER_SCAN_F */ #define RTE_REGEX_OPS_RSP_MAX_SCAN_TIMEOUT_F (1 << 2) /**< Indicates that the RegEx device has exceeded the max timeout while * scanning the given buffer. * * @see RTE_REGEXDEV_ATTR_MAX_SCAN_TIMEOUT */ #define RTE_REGEX_OPS_RSP_MAX_MATCH_F (1 << 3) /**< Indicates that the RegEx device has exceeded the max matches while * scanning the given buffer. * * @see RTE_REGEXDEV_ATTR_MAX_MATCHES */ #define RTE_REGEX_OPS_RSP_MAX_PREFIX_F (1 << 4) /**< Indicates that the RegEx device has reached the max allowed prefix length * while scanning the given buffer. * * @see RTE_REGEXDEV_ATTR_MAX_PREFIX */ #define RTE_REGEX_OPS_RSP_RESOURCE_LIMIT_REACHED_F (1 << 4) /**< Indicates that the RegEx device has reached the max allowed resource * allowed while scanning the given buffer. */ /** * The generic *rte_regex_ops* structure to hold the RegEx attributes * for enqueue and dequeue operation. */ struct rte_regex_ops { /* W0 */ uint16_t req_flags; /**< Request flags for the RegEx ops. * @see RTE_REGEX_OPS_REQ_* */ uint16_t rsp_flags; /**< Response flags for the RegEx ops. * @see RTE_REGEX_OPS_RSP_* */ uint16_t nb_actual_matches; /**< The total number of actual matches detected by the Regex device.*/ uint16_t nb_matches; /**< The total number of matches returned by the RegEx device for this * scan. The size of *rte_regex_ops::matches* zero length array will be * this value. * * @see struct rte_regex_ops::matches, struct rte_regexdev_match */ /* W1 */ struct rte_mbuf *mbuf; /**< source mbuf, to search in. */ /* W2 */ uint16_t group_id0; /**< First group_id to match the rule against. At minimum one group * should be valid. Behaviour is undefined non of the groups are valid. * * @see RTE_REGEX_OPS_REQ_GROUP_ID0_VALID_F */ uint16_t group_id1; /**< Second group_id to match the rule against. * * @see RTE_REGEX_OPS_REQ_GROUP_ID1_VALID_F */ uint16_t group_id2; /**< Third group_id to match the rule against. * * @see RTE_REGEX_OPS_REQ_GROUP_ID2_VALID_F */ uint16_t group_id3; /**< Forth group_id to match the rule against. * * @see RTE_REGEX_OPS_REQ_GROUP_ID3_VALID_F */ /* W3 */ RTE_STD_C11 union { uint64_t user_id; /**< Application specific opaque value. An application may use * this field to hold application specific value to share * between dequeue and enqueue operation. * Implementation should not modify this field. */ void *user_ptr; /**< Pointer representation of *user_id* */ }; /* W4 */ RTE_STD_C11 union { uint64_t cross_buf_id; /**< ID used by the RegEx device in order to support cross * packet detection. * This ID is returned from the RegEx device on the dequeue * function. The application must send it back when calling * enqueue with the following packet. */ void *cross_buf_ptr; /**< Pointer representation of *corss_buf_id* */ }; /* W5 */ struct rte_regexdev_match matches[]; /**< Zero length array to hold the match tuples. * The struct rte_regex_ops::nb_matches value holds the number of * elements in this array. * * @see struct rte_regex_ops::nb_matches */ }; #include "rte_regexdev_core.h" /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Enqueue a burst of scan request on a RegEx device. * * The rte_regexdev_enqueue_burst() function is invoked to place * regex operations on the queue *qp_id* of the device designated by * its *dev_id*. * * The *nb_ops* parameter is the number of operations to process which are * supplied in the *ops* array of *rte_regexdev_op* structures. * * The rte_regexdev_enqueue_burst() function returns the number of * operations it actually enqueued for processing. A return value equal to * *nb_ops* means that all packets have been enqueued. * * @param dev_id * The identifier of the device. * @param qp_id * The index of the queue pair which packets are to be enqueued for * processing. The value must be in the range [0, nb_queue_pairs - 1] * previously supplied to rte_regexdev_configure(). * @param ops * The address of an array of *nb_ops* pointers to *rte_regexdev_op* * structures which contain the regex operations to be processed. * @param nb_ops * The number of operations to process. * * @return * The number of operations actually enqueued on the regex device. The return * value can be less than the value of the *nb_ops* parameter when the * regex devices queue is full or if invalid parameters are specified in * a *rte_regexdev_op*. If the return value is less than *nb_ops*, the * remaining ops at the end of *ops* are not consumed and the caller has * to take care of them. */ __rte_experimental static inline uint16_t rte_regexdev_enqueue_burst(uint8_t dev_id, uint16_t qp_id, struct rte_regex_ops **ops, uint16_t nb_ops) { struct rte_regexdev *dev = &rte_regex_devices[dev_id]; #ifdef RTE_LIBRTE_REGEXDEV_DEBUG RTE_REGEXDEV_VALID_DEV_ID_OR_ERR_RET(dev_id, -EINVAL); RTE_FUNC_PTR_OR_ERR_RET(*dev->enqueue, -ENOTSUP); if (qp_id >= dev->data->dev_conf.nb_queue_pairs) { RTE_REGEXDEV_LOG(ERR, "Invalid queue %d\n", qp_id); return -EINVAL; } #endif return (*dev->enqueue)(dev, qp_id, ops, nb_ops); } /** * @warning * @b EXPERIMENTAL: this API may change without prior notice. * * Dequeue a burst of scan response from a queue on the RegEx device. * The dequeued operation are stored in *rte_regexdev_op* structures * whose pointers are supplied in the *ops* array. * * The rte_regexdev_dequeue_burst() function returns the number of ops * actually dequeued, which is the number of *rte_regexdev_op* data structures * effectively supplied into the *ops* array. * * A return value equal to *nb_ops* indicates that the queue contained * at least *nb_ops* operations, and this is likely to signify that other * processed operations remain in the devices output queue. Applications * implementing a "retrieve as many processed operations as possible" policy * can check this specific case and keep invoking the * rte_regexdev_dequeue_burst() function until a value less than * *nb_ops* is returned. * * The rte_regexdev_dequeue_burst() function does not provide any error * notification to avoid the corresponding overhead. * * @param dev_id * The RegEx device identifier * @param qp_id * The index of the queue pair from which to retrieve processed packets. * The value must be in the range [0, nb_queue_pairs - 1] previously * supplied to rte_regexdev_configure(). * @param ops * The address of an array of pointers to *rte_regexdev_op* structures * that must be large enough to store *nb_ops* pointers in it. * @param nb_ops * The maximum number of operations to dequeue. * * @return * The number of operations actually dequeued, which is the number * of pointers to *rte_regexdev_op* structures effectively supplied to the * *ops* array. If the return value is less than *nb_ops*, the remaining * ops at the end of *ops* are not consumed and the caller has to take care * of them. */ __rte_experimental static inline uint16_t rte_regexdev_dequeue_burst(uint8_t dev_id, uint16_t qp_id, struct rte_regex_ops **ops, uint16_t nb_ops) { struct rte_regexdev *dev = &rte_regex_devices[dev_id]; #ifdef RTE_LIBRTE_REGEXDEV_DEBUG RTE_REGEXDEV_VALID_DEV_ID_OR_ERR_RET(dev_id, -EINVAL); RTE_FUNC_PTR_OR_ERR_RET(*dev->dequeue, -ENOTSUP); if (qp_id >= dev->data->dev_conf.nb_queue_pairs) { RTE_REGEXDEV_LOG(ERR, "Invalid queue %d\n", qp_id); return -EINVAL; } #endif return (*dev->dequeue)(dev, qp_id, ops, nb_ops); } #ifdef __cplusplus } #endif #endif /* _RTE_REGEXDEV_H_ */