/* Please avoid adding hacks here - instead add it to mac80211/backports.git */ #undef CONFIG_MODULE_STRIPPED #include /* LINUX_VERSION_CODE */ #include #if LINUX_VERSION_IS_LESS(6, 0, 0) #define __vstring(item, fmt, ap) __dynamic_array(char, item, 256) #define __assign_vstr(dst, fmt, va) \ WARN_ON_ONCE(vsnprintf(__get_dynamic_array(dst), 256, fmt, *va) >= 256) #endif /* LINUX_VERSION_IS_LESS(6, 0, 0) */ #if LINUX_VERSION_IS_LESS(6, 2, 0) #include #define genl_split_ops genl_ops static inline u32 batadv_get_random_u32_below(u32 ep_ro) { return prandom_u32_max(ep_ro); } #define get_random_u32_below batadv_get_random_u32_below #endif /* LINUX_VERSION_IS_LESS(6, 2, 0) */ #if LINUX_VERSION_IS_LESS(6, 4, 0) #include /* Prefer this version in TX path, instead of * skb_reset_mac_header() + vlan_eth_hdr() */ static inline struct vlan_ethhdr *skb_vlan_eth_hdr(const struct sk_buff *skb) { return (struct vlan_ethhdr *)skb->data; } #endif /* LINUX_VERSION_IS_LESS(6, 4, 0) */ /* */ #include #include_next #include #ifdef DECLARE_EWMA #undef DECLARE_EWMA #endif /* DECLARE_EWMA */ /* * Exponentially weighted moving average (EWMA) * * This implements a fixed-precision EWMA algorithm, with both the * precision and fall-off coefficient determined at compile-time * and built into the generated helper funtions. * * The first argument to the macro is the name that will be used * for the struct and helper functions. * * The second argument, the precision, expresses how many bits are * used for the fractional part of the fixed-precision values. * * The third argument, the weight reciprocal, determines how the * new values will be weighed vs. the old state, new values will * get weight 1/weight_rcp and old values 1-1/weight_rcp. Note * that this parameter must be a power of two for efficiency. */ #define DECLARE_EWMA(name, _precision, _weight_rcp) \ struct ewma_##name { \ unsigned long internal; \ }; \ static inline void ewma_##name##_init(struct ewma_##name *e) \ { \ BUILD_BUG_ON(!__builtin_constant_p(_precision)); \ BUILD_BUG_ON(!__builtin_constant_p(_weight_rcp)); \ /* \ * Even if you want to feed it just 0/1 you should have \ * some bits for the non-fractional part... \ */ \ BUILD_BUG_ON((_precision) > 30); \ BUILD_BUG_ON_NOT_POWER_OF_2(_weight_rcp); \ e->internal = 0; \ } \ static inline unsigned long \ ewma_##name##_read(struct ewma_##name *e) \ { \ BUILD_BUG_ON(!__builtin_constant_p(_precision)); \ BUILD_BUG_ON(!__builtin_constant_p(_weight_rcp)); \ BUILD_BUG_ON((_precision) > 30); \ BUILD_BUG_ON_NOT_POWER_OF_2(_weight_rcp); \ return e->internal >> (_precision); \ } \ static inline void ewma_##name##_add(struct ewma_##name *e, \ unsigned long val) \ { \ unsigned long internal = READ_ONCE(e->internal); \ unsigned long weight_rcp = ilog2(_weight_rcp); \ unsigned long precision = _precision; \ \ BUILD_BUG_ON(!__builtin_constant_p(_precision)); \ BUILD_BUG_ON(!__builtin_constant_p(_weight_rcp)); \ BUILD_BUG_ON((_precision) > 30); \ BUILD_BUG_ON_NOT_POWER_OF_2(_weight_rcp); \ \ WRITE_ONCE(e->internal, internal ? \ (((internal << weight_rcp) - internal) + \ (val << precision)) >> weight_rcp : \ (val << precision)); \ } /* */