/* * shctx.c - shared context management functions for SSL * * Copyright (C) 2011-2012 EXCELIANCE * * Author: Emeric Brun - emeric@exceliance.fr * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version * 2 of the License, or (at your option) any later version. */ #include #include #include #include #include #include "proto/shctx.h" #if !defined (USE_PRIVATE_CACHE) int use_shared_mem = 0; #endif /* * Reserve a row, put it in the hotlist, set the refcount to 1 * * Reserve blocks in the avail list and put them in the hot list * Return the first block put in the hot list or NULL if not enough blocks available */ struct shared_block *shctx_row_reserve_hot(struct shared_context *shctx, int data_len) { struct shared_block *block, *sblock, *ret = NULL, *first; int enough = 0; int freed = 0; /* not enough usable blocks */ if (data_len > shctx->nbav * shctx->block_size) goto out; while (!enough && !LIST_ISEMPTY(&shctx->avail)) { int count = 0; int first_count = 0, first_len = 0; first = block = LIST_NEXT(&shctx->avail, struct shared_block *, list); if (ret == NULL) ret = first; first_count = first->block_count; first_len = first->len; /* Should never been set to 0. if (first->block_count == 0) first->block_count = 1; */ list_for_each_entry_safe_from(block, sblock, &shctx->avail, list) { /* release callback */ if (first_len && shctx->free_block) shctx->free_block(first, block); block->block_count = 1; block->len = 0; freed++; data_len -= shctx->block_size; if (data_len > 0) shctx_block_set_hot(shctx, block); if (data_len <= 0 && !enough) { shctx_block_set_hot(shctx, block); ret->block_count = freed; ret->refcount = 1; enough = 1; } count++; if (count >= first_count) break; } } out: return ret; } /* * if the refcount is 0 move the row to the hot list. Increment the refcount */ void shctx_row_inc_hot(struct shared_context *shctx, struct shared_block *first) { struct shared_block *block, *sblock; int count = 0; if (first->refcount <= 0) { block = first; list_for_each_entry_safe_from(block, sblock, &shctx->avail, list) { shctx_block_set_hot(shctx, block); count++; if (count >= first->block_count) break; } } first->refcount++; } /* * decrement the refcount and move the row at the end of the avail list if it reaches 0. */ void shctx_row_dec_hot(struct shared_context *shctx, struct shared_block *first) { struct shared_block *block, *sblock; int count = 0; first->refcount--; if (first->refcount <= 0) { block = first; list_for_each_entry_safe_from(block, sblock, &shctx->hot, list) { shctx_block_set_avail(shctx, block); count++; if (count >= first->block_count) break; } } } /* * Append data in the row if there is enough space. * The row should be in the hot list * * Return the amount of appended data if ret >= 0 * or how much more space it needs to contains the data if < 0. */ int shctx_row_data_append(struct shared_context *shctx, struct shared_block *first, unsigned char *data, int len) { int remain, start; int count = 0; struct shared_block *block; /* return - needed to work */ if (len > first->block_count * shctx->block_size - first->len) return (first->block_count * shctx->block_size - first->len) - len; /* skipping full buffers, stop at the first buffer with remaining space */ block = first; list_for_each_entry_from(block, &shctx->hot, list) { count++; /* break if there is not enough blocks */ if (count > first->block_count) break; /* end of copy */ if (len <= 0) break; /* skip full buffers */ if (count * shctx->block_size <= first->len) continue; /* remaining space in the current block which is not full */ remain = (shctx->block_size * count - first->len) % shctx->block_size; /* if remain == 0, previous buffer are full, or first->len == 0 */ remain = remain ? remain : shctx->block_size; /* start must be calculated before remain is modified */ start = shctx->block_size - remain; /* must not try to copy more than len */ remain = MIN(remain, len); memcpy(block->data + start, data, remain); data += remain; len -= remain; first->len += remain; /* update len in the head of the row */ } return len; } /* * Copy data from a row of blocks, return the remaining data to copy * If 0 is returned, the full data has successfuly be copied * * The row should be in the hot list */ int shctx_row_data_get(struct shared_context *shctx, struct shared_block *first, unsigned char *dst, int offset, int len) { int count = 0, size = 0, start = -1; struct shared_block *block; /* can't copy more */ if (len > first->len) len = first->len; block = first; count = 0; /* Pass through the blocks to copy them */ list_for_each_entry_from(block, &shctx->hot, list) { if (count >= first->block_count || len <= 0) break; count++; /* continue until we are in right block corresponding to the offset */ if (count < offset / shctx->block_size + 1) continue; /* on the first block, data won't possibly began at offset 0 */ if (start == -1) start = offset - (count - 1) * shctx->block_size; /* size can be lower than a block when copying the last block */ size = MIN(shctx->block_size - start, len); memcpy(dst, block->data + start, size); dst += size; len -= size; start = 0; } return len; } /* Allocate shared memory context. * is maximum blocks. * If is set to less or equal to 0, ssl cache is disabled. * Returns: -1 on alloc failure, if it performs context alloc, * and 0 if cache is already allocated. */ int shctx_init(struct shared_context **orig_shctx, int maxblocks, int blocksize, int extra, int shared) { int i; struct shared_context *shctx; int ret; #ifndef USE_PRIVATE_CACHE #ifdef USE_PTHREAD_PSHARED pthread_mutexattr_t attr; #endif #endif void *cur; int maptype = MAP_PRIVATE; if (maxblocks <= 0) return 0; #ifndef USE_PRIVATE_CACHE if (shared) maptype = MAP_SHARED; #endif shctx = (struct shared_context *)mmap(NULL, sizeof(struct shared_context) + extra + (maxblocks * (sizeof(struct shared_block) + blocksize)), PROT_READ | PROT_WRITE, maptype | MAP_ANON, -1, 0); if (!shctx || shctx == MAP_FAILED) { shctx = NULL; ret = SHCTX_E_ALLOC_CACHE; goto err; } shctx->nbav = 0; #ifndef USE_PRIVATE_CACHE if (maptype == MAP_SHARED) { #ifdef USE_PTHREAD_PSHARED if (pthread_mutexattr_init(&attr)) { munmap(shctx, sizeof(struct shared_context) + extra + (maxblocks * (sizeof(struct shared_block) + blocksize))); shctx = NULL; ret = SHCTX_E_INIT_LOCK; goto err; } if (pthread_mutexattr_setpshared(&attr, PTHREAD_PROCESS_SHARED)) { pthread_mutexattr_destroy(&attr); munmap(shctx, sizeof(struct shared_context) + extra + (maxblocks * (sizeof(struct shared_block) + blocksize))); shctx = NULL; ret = SHCTX_E_INIT_LOCK; goto err; } if (pthread_mutex_init(&shctx->mutex, &attr)) { pthread_mutexattr_destroy(&attr); munmap(shctx, sizeof(struct shared_context) + extra + (maxblocks * (sizeof(struct shared_block) + blocksize))); shctx = NULL; ret = SHCTX_E_INIT_LOCK; goto err; } #else shctx->waiters = 0; #endif use_shared_mem = 1; } #endif LIST_INIT(&shctx->avail); LIST_INIT(&shctx->hot); shctx->block_size = blocksize; /* init the free blocks after the shared context struct */ cur = (void *)shctx + sizeof(struct shared_context) + extra; for (i = 0; i < maxblocks; i++) { struct shared_block *cur_block = (struct shared_block *)cur; cur_block->len = 0; cur_block->refcount = 0; cur_block->block_count = 1; LIST_ADDQ(&shctx->avail, &cur_block->list); shctx->nbav++; cur += sizeof(struct shared_block) + blocksize; } ret = maxblocks; err: *orig_shctx = shctx; return ret; }