#include #include #include #include #include #include "memblockq.h" struct memblock_list { struct memblock_list *next; struct memchunk chunk; struct timeval stamp; }; struct memblockq { struct memblock_list *blocks, *blocks_tail; unsigned n_blocks; size_t total_length, maxlength, base, prebuf; int measure_delay; uint32_t delay; }; struct memblockq* memblockq_new(size_t maxlength, size_t base, size_t prebuf) { struct memblockq* bq; assert(maxlength && base); bq = malloc(sizeof(struct memblockq)); assert(bq); bq->blocks = bq->blocks_tail = 0; bq->n_blocks = 0; bq->total_length = 0; bq->base = base; bq->maxlength = ((maxlength+base-1)/base)*base; bq->prebuf = prebuf == (size_t) -1 ? bq->maxlength/2 : prebuf; if (bq->prebuf > bq->maxlength) bq->prebuf = bq->maxlength; assert(bq->maxlength >= base); bq->measure_delay = 0; bq->delay = 0; return bq; } void memblockq_free(struct memblockq* bq) { struct memblock_list *l; assert(bq); while ((l = bq->blocks)) { bq->blocks = l->next; memblock_unref(l->chunk.memblock); free(l); } free(bq); } void memblockq_push(struct memblockq* bq, struct memchunk *chunk, size_t delta) { struct memblock_list *q; assert(bq && chunk && chunk->memblock && chunk->length); q = malloc(sizeof(struct memblock_list)); assert(q); if (bq->measure_delay) gettimeofday(&q->stamp, NULL); else timerclear(&q->stamp); q->chunk = *chunk; memblock_ref(q->chunk.memblock); assert(q->chunk.index+q->chunk.length <= q->chunk.memblock->length); q->next = NULL; if (bq->blocks_tail) bq->blocks_tail->next = q; else bq->blocks = q; bq->blocks_tail = q; bq->n_blocks++; bq->total_length += chunk->length; memblockq_shorten(bq, bq->maxlength); } int memblockq_peek(struct memblockq* bq, struct memchunk *chunk) { assert(bq && chunk); if (!bq->blocks || bq->total_length < bq->prebuf) return -1; bq->prebuf = 0; *chunk = bq->blocks->chunk; memblock_ref(chunk->memblock); return 0; } int memblockq_pop(struct memblockq* bq, struct memchunk *chunk) { struct memblock_list *q; assert(bq && chunk); if (!bq->blocks || bq->total_length < bq->prebuf) return -1; bq->prebuf = 0; q = bq->blocks; bq->blocks = bq->blocks->next; *chunk = q->chunk; bq->n_blocks--; bq->total_length -= chunk->length; free(q); return 0; } static uint32_t age(struct timeval *tv) { assert(tv); struct timeval now; uint32_t r; if (tv->tv_sec == 0) return 0; gettimeofday(&now, NULL); r = (now.tv_sec-tv->tv_sec) * 1000000; if (now.tv_usec >= tv->tv_usec) r += now.tv_usec - tv->tv_usec; else r -= tv->tv_usec - now.tv_usec; return r; } void memblockq_drop(struct memblockq *bq, size_t length) { assert(bq); while (length > 0) { size_t l = length; assert(bq->blocks && bq->total_length >= length); if (l > bq->blocks->chunk.length) l = bq->blocks->chunk.length; if (bq->measure_delay) bq->delay = age(&bq->blocks->stamp); bq->blocks->chunk.index += l; bq->blocks->chunk.length -= l; bq->total_length -= l; if (bq->blocks->chunk.length == 0) { struct memblock_list *q; q = bq->blocks; bq->blocks = bq->blocks->next; if (bq->blocks == NULL) bq->blocks_tail = NULL; memblock_unref(q->chunk.memblock); free(q); bq->n_blocks--; } length -= l; } } void memblockq_shorten(struct memblockq *bq, size_t length) { size_t l; assert(bq); if (bq->total_length <= length) return; fprintf(stderr, "Warning! memblockq_shorten()\n"); l = bq->total_length - length; l /= bq->base; l *= bq->base; memblockq_drop(bq, l); } void memblockq_empty(struct memblockq *bq) { assert(bq); memblockq_shorten(bq, 0); } int memblockq_is_readable(struct memblockq *bq) { assert(bq); return bq->total_length >= bq->prebuf; } int memblockq_is_writable(struct memblockq *bq, size_t length) { assert(bq); assert(length <= bq->maxlength); return bq->total_length + length <= bq->maxlength; } uint32_t memblockq_get_delay(struct memblockq *bq) { assert(bq); return bq->delay; } uint32_t memblockq_get_length(struct memblockq *bq) { assert(bq); return bq->total_length; } uint32_t memblockq_missing_to(struct memblockq *bq, size_t qlen) { assert(bq && qlen); if (bq->total_length >= qlen) return 0; return qlen - bq->total_length; }