/* * libwebsockets - small server side websockets and web server implementation * * Copyright (C) 2010 - 2019 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. */ #include "private-lib-core.h" struct lws_ring * lws_ring_create(size_t element_len, size_t count, void (*destroy_element)(void *)) { struct lws_ring *ring = lws_malloc(sizeof(*ring), "ring create"); if (!ring) return NULL; ring->buflen = (uint32_t)(count * element_len); ring->element_len = (uint32_t)element_len; ring->head = 0; ring->oldest_tail = 0; ring->destroy_element = destroy_element; ring->buf = lws_malloc(ring->buflen, "ring buf"); if (!ring->buf) { lws_free(ring); return NULL; } return ring; } void lws_ring_destroy(struct lws_ring *ring) { if (ring->destroy_element) while (ring->oldest_tail != ring->head) { ring->destroy_element((uint8_t *)ring->buf + ring->oldest_tail); ring->oldest_tail = (ring->oldest_tail + ring->element_len) % ring->buflen; } if (ring->buf) lws_free_set_NULL(ring->buf); lws_free(ring); } size_t lws_ring_get_count_free_elements(struct lws_ring *ring) { int f; /* * possible ringbuf patterns * * h == t * |--------t***h---| * |**h-----------t*| * |t**************h| * |*****ht*********| */ if (ring->head == ring->oldest_tail) f = (int)(ring->buflen - ring->element_len); else if (ring->head < ring->oldest_tail) f = (int)((ring->oldest_tail - ring->head) - ring->element_len); else f = (int)((ring->buflen - ring->head) + ring->oldest_tail - ring->element_len); if (f < 2) return 0; return (unsigned int)f / ring->element_len; } size_t lws_ring_get_count_waiting_elements(struct lws_ring *ring, uint32_t *tail) { int f; if (!tail) tail = &ring->oldest_tail; /* * possible ringbuf patterns * * h == t * |--------t***h---| * |**h-----------t*| * |t**************h| * |*****ht*********| */ if (ring->head == *tail) f = 0; else if (ring->head > *tail) f = (int)(ring->head - *tail); else f = (int)((ring->buflen - *tail) + ring->head); return (unsigned int)f / ring->element_len; } int lws_ring_next_linear_insert_range(struct lws_ring *ring, void **start, size_t *bytes) { int n; /* n is how many bytes the whole fifo can take */ n = (int)(lws_ring_get_count_free_elements(ring) * ring->element_len); if (!n) return 1; if (ring->head + (unsigned int)n > ring->buflen) { *start = (void *)(((uint8_t *)ring->buf) + ring->head); *bytes = ring->buflen - ring->head; return 0; } *start = (void *)(((uint8_t *)ring->buf) + ring->head); *bytes = (unsigned int)n; return 0; } void lws_ring_bump_head(struct lws_ring *ring, size_t bytes) { ring->head = (ring->head + (uint32_t)bytes) % ring->buflen; } size_t lws_ring_insert(struct lws_ring *ring, const void *src, size_t max_count) { const uint8_t *osrc = src; size_t m; int n; /* n is how many bytes the whole fifo can take */ n = (int)(lws_ring_get_count_free_elements(ring) * ring->element_len); /* restrict n to how much we want to insert */ if ((uint32_t)n > max_count * ring->element_len) n = (int)(max_count * ring->element_len); /* * n is legal to insert, but as an optimization we can cut the * insert into one or two memcpys, depending on if it wraps */ if (ring->head + (unsigned int)n > ring->buflen) { /* * He does wrap. The first memcpy should take us up to * the end of the buffer */ m = ring->buflen - ring->head; memcpy(((uint8_t *)ring->buf) + ring->head, src, m); /* we know it will wrap exactly back to zero */ ring->head = 0; /* adapt the second memcpy for what we already did */ src = ((uint8_t *)src) + m; n = n - (int)m; } memcpy(((uint8_t *)ring->buf) + ring->head, src, (size_t)n); ring->head = (ring->head + (unsigned int)n) % ring->buflen; return (unsigned long)(((uint8_t *)src + (unsigned int)n) - osrc) / ring->element_len; } size_t lws_ring_consume(struct lws_ring *ring, uint32_t *tail, void *dest, size_t max_count) { uint8_t *odest = dest; void *orig_tail = tail; uint32_t fake_tail; int m, n; if (!tail) { fake_tail = ring->oldest_tail; tail = &fake_tail; } /* n is how many bytes the whole fifo has for us */ n = (int)(lws_ring_get_count_waiting_elements(ring, tail) * ring->element_len); /* restrict n to how much we want to insert */ if ((size_t)n > max_count * ring->element_len) n = (int)(max_count * ring->element_len); if (!dest) { *tail = ((*tail) + (unsigned int)n) % ring->buflen; if (!orig_tail) /* single tail */ lws_ring_update_oldest_tail(ring, *tail); return (unsigned int)n / ring->element_len; } if (*tail + (unsigned int)n > ring->buflen) { /* * He does wrap. The first memcpy should take us up to * the end of the buffer */ m = (int32_t)(ring->buflen - *tail); memcpy(dest, ((uint8_t *)ring->buf) + *tail, (size_t)m); /* we know it will wrap exactly back to zero */ *tail = 0; /* adapt the second memcpy for what we already did */ dest = ((uint8_t *)dest) + m; n -= m; } memcpy(dest, ((uint8_t *)ring->buf) + *tail, (size_t)n); *tail = ((*tail) + (unsigned int)n) % ring->buflen; if (!orig_tail) /* single tail */ lws_ring_update_oldest_tail(ring, *tail); return (unsigned int)(((uint8_t *)dest + n) - odest) / (unsigned int)ring->element_len; } const void * lws_ring_get_element(struct lws_ring *ring, uint32_t *tail) { if (!tail) tail = &ring->oldest_tail; if (*tail == ring->head) return NULL; return ((uint8_t *)ring->buf) + *tail; } void lws_ring_update_oldest_tail(struct lws_ring *ring, uint32_t tail) { if (!ring->destroy_element) { ring->oldest_tail = tail; return; } while (ring->oldest_tail != tail) { ring->destroy_element((uint8_t *)ring->buf + ring->oldest_tail); ring->oldest_tail = (ring->oldest_tail + ring->element_len) % ring->buflen; } } uint32_t lws_ring_get_oldest_tail(struct lws_ring *ring) { return ring->oldest_tail; } void lws_ring_dump(struct lws_ring *ring, uint32_t *tail) { if (tail == NULL) tail = &ring->oldest_tail; lwsl_notice("ring %p: buflen %u, elem_len %u, head %u, oldest_tail %u\n" " free_elems: %u; for tail %u, waiting elements: %u\n", ring, (int)ring->buflen, (int)ring->element_len, (int)ring->head, (int)ring->oldest_tail, (int)lws_ring_get_count_free_elements(ring), (int)*tail, (int)lws_ring_get_count_waiting_elements(ring, tail)); }