/* * libwebsockets - small server side websockets and web server implementation * * Copyright (C) 2010 - 2021 Andy Green * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. * * Fault injection api if built with LWS_WITH_SYS_FAULT_INJECTION */ typedef struct lws_xos { uint64_t s[4]; } lws_xos_t; /** * lws_xos_init() - seed xoshiro256 PRNG * * \param xos: the prng state object to initialize * \param seed: the 64-bit seed * * Initialize PRNG \xos with the starting state represented by \p seed */ LWS_VISIBLE LWS_EXTERN void lws_xos_init(struct lws_xos *xos, uint64_t seed); /** * lws_xos() - get next xoshiro256 PRNG result and update state * * \param xos: the PRNG state to use * * Returns next 64-bit PRNG result. These are cheap to get, * quite a white noise sequence, and completely deterministic * according to the seed it was initialized with. */ LWS_VISIBLE LWS_EXTERN uint64_t LWS_WARN_UNUSED_RESULT lws_xos(struct lws_xos *xos); /** * lws_xos_percent() - return 1 a given percent of the time on average * * \param xos: the PRNG state to use * \param percent: chance in 100 of returning 1 * * Returns 1 if next random % 100 is < \p percent, such that * 100 always returns 1, 0 never returns 1, and the chance linearly scales * inbetween */ LWS_VISIBLE LWS_EXTERN int LWS_WARN_UNUSED_RESULT lws_xos_percent(struct lws_xos *xos, int percent); #if defined(LWS_WITH_SYS_FAULT_INJECTION) enum { LWSFI_ALWAYS, LWSFI_DETERMINISTIC, /* do .count injections after .pre then stop */ LWSFI_PROBABILISTIC, /* .pre % chance of injection */ LWSFI_PATTERN, /* use .count bits in .pattern after .pre */ LWSFI_PATTERN_ALLOC, /* as _PATTERN, but .pattern is malloc'd */ LWSFI_RANGE /* pick a number between pre and count */ }; typedef struct lws_fi { const char *name; const uint8_t *pattern; uint64_t pre; uint64_t count; uint64_t times; /* start at 0, tracks usage */ char type; /* LWSFI_* */ } lws_fi_t; typedef struct lws_fi_ctx { lws_dll2_owner_t fi_owner; struct lws_xos xos; const char *name; } lws_fi_ctx_t; /** * lws_fi() - find out if we should perform the named fault injection this time * * \param fic: fault injection tracking context * \param fi_name: name of fault injection * * This checks if the named fault is configured in the fi tracking context * provided, if it is, then it will make a decision if the named fault should * be applied this time, using the tracking in the named lws_fi_t. * * If the provided context has a parent, that is also checked for the named fi * item recursively, with the first found being used to determine if to inject * or not. * * If LWS_WITH_SYS_FAULT_INJECTION is not defined, then this always return 0. */ LWS_VISIBLE LWS_EXTERN int lws_fi(const lws_fi_ctx_t *fic, const char *fi_name); /** * lws_fi_range() - get a random number from a range * * \param fic: fault injection tracking context * \param fi_name: name of fault injection * \param result: points to uint64_t to be set to the result * * This lets you get a random number from an externally-set range, set using a * fault injection syntax like "myfault(123..456)". That will cause us to * return a number between those two inclusive, from the seeded PRNG. * * This is useful when you used lws_fi() with its own fault name to decide * whether to inject the fault, and then the code to cause the fault needs * additional constrained pseudo-random fuzzing for, eg, delays before issuing * the fault. * * Returns 0 if \p *result is set, else nonzero for failure. */ LWS_VISIBLE LWS_EXTERN int lws_fi_range(const lws_fi_ctx_t *fic, const char *name, uint64_t *result); /** * lws_fi_add() - add an allocated copy of fault injection to a context * * \param fic: fault injection tracking context * \param fi: the fault injection details * * This allocates a copy of \p fi and attaches it to the fault injection context * \p fic. \p fi can go out of scope after this safely. */ LWS_VISIBLE LWS_EXTERN int lws_fi_add(lws_fi_ctx_t *fic, const lws_fi_t *fi); /** * lws_fi_remove() - remove an allocated copy of fault injection from a context * * \param fic: fault injection tracking context * \param name: the fault injection name to remove * * This looks for the named fault injection and removes and destroys it from * the specified fault injection context */ LWS_VISIBLE LWS_EXTERN void lws_fi_remove(lws_fi_ctx_t *fic, const char *name); /** * lws_fi_import() - transfers all the faults from one context to another * * \param fic_dest: the fault context to receive the faults * \param fic_src: the fault context that will be emptied out into \p fic_dest * * This is used to initialize created object fault injection contexts from * the caller. */ LWS_VISIBLE LWS_EXTERN void lws_fi_import(lws_fi_ctx_t *fic_dest, const lws_fi_ctx_t *fic_src); /** * lws_fi_inherit_copy() - attach copies of matching fault injection objects to dest * * \param fic_dest: destination Fault Injection context * \param fic_src: parent fault context that may contain matching rules * \param scope: the name of the path match required, eg, "vh" * \param value: the dynamic name of our match, eg, "myvhost" * * If called with scope "vh" and value "myvhost", then matches faults starting * "vh=myvhost/", strips that part of the name if it matches and makes a copy * of the rule with the modified name attached to the destination Fault Injection * context. */ LWS_VISIBLE LWS_EXTERN void lws_fi_inherit_copy(lws_fi_ctx_t *fic_dest, const lws_fi_ctx_t *fic_src, const char *scope, const char *value); /** * lws_fi_destroy() - removes all allocated fault injection entries * * \param fic: fault injection tracking context * * This walks any allocated fault injection entries in \p fic and detaches and * destroys them. It doesn't try to destroc \p fic itself, since this is * not usually directly allocated. */ LWS_VISIBLE LWS_EXTERN void lws_fi_destroy(const lws_fi_ctx_t *fic); /** * lws_fi_deserialize() - adds fault in string form to Fault Injection Context * * \p fic: the fault injection context * \p sers: the string serializing the desired fault details * * This turns a string like "ss=captive_portal_detect/wsi/dnsfail(10%)" into * a fault injection struct added to the fault injection context \p fic * * You can prepare the context creation info .fic with these before creating * the context, and use namespace paths on those to target other objects. */ LWS_VISIBLE LWS_EXTERN void lws_fi_deserialize(lws_fi_ctx_t *fic, const char *sers); LWS_VISIBLE LWS_EXTERN int _lws_fi_user_wsi_fi(struct lws *wsi, const char *name); LWS_VISIBLE LWS_EXTERN int _lws_fi_user_context_fi(struct lws_context *ctx, const char *name); #if defined(LWS_WITH_SECURE_STREAMS) struct lws_ss_handle; LWS_VISIBLE LWS_EXTERN int _lws_fi_user_ss_fi(struct lws_ss_handle *h, const char *name); #if defined(LWS_WITH_SECURE_STREAMS_PROXY_API) struct lws_sspc_handle; LWS_VISIBLE LWS_EXTERN int _lws_fi_user_sspc_fi(struct lws_sspc_handle *h, const char *name); #endif #endif #define lws_fi_user_wsi_fi(_wsi, _name) _lws_fi_user_wsi_fi(_wsi, _name) #define lws_fi_user_context_fi(_ctx, _name) _lws_fi_user_context_fi(_ctx, _name) #define lws_fi_user_ss_fi(_h, _name) _lws_fi_user_ss_fi(_h, _name) #define lws_fi_user_sspc_fi(_h, _name) _lws_fi_user_sspc_fi(_h, _name) #else /* * Helper so we can leave lws_fi() calls embedded in the code being tested, * if fault injection is not enabled then it just always says "no" at buildtime. */ #define lws_fi(_fi_name, _fic) (0) #define lws_fi_destroy(_x) #define lws_fi_inherit_copy(_a, _b, _c, _d) #define lws_fi_deserialize(_x, _y) #define lws_fi_user_wsi_fi(_wsi, _name) (0) #define lws_fi_user_context_fi(_wsi, _name) (0) #define lws_fi_user_ss_fi(_h, _name) (0) #define lws_fi_user_sspc_fi(_h, _name) (0) #endif