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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/runfw/@/dev/nxge/xgehal/xgehal-mm.c |
/*- * Copyright (c) 2002-2007 Neterion, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $FreeBSD: release/9.1.0/sys/dev/nxge/xgehal/xgehal-mm.c 173139 2007-10-29 14:19:32Z rwatson $ */ #include <dev/nxge/include/xge-os-pal.h> #include <dev/nxge/include/xgehal-mm.h> #include <dev/nxge/include/xge-debug.h> /* * __hal_mempool_grow * * Will resize mempool up to %num_allocate value. */ xge_hal_status_e __hal_mempool_grow(xge_hal_mempool_t *mempool, int num_allocate, int *num_allocated) { int i, first_time = mempool->memblocks_allocated == 0 ? 1 : 0; int n_items = mempool->items_per_memblock; *num_allocated = 0; if ((mempool->memblocks_allocated + num_allocate) > mempool->memblocks_max) { xge_debug_mm(XGE_ERR, "%s", "__hal_mempool_grow: can grow anymore"); return XGE_HAL_ERR_OUT_OF_MEMORY; } for (i = mempool->memblocks_allocated; i < mempool->memblocks_allocated + num_allocate; i++) { int j; int is_last = ((mempool->memblocks_allocated+num_allocate-1) == i); xge_hal_mempool_dma_t *dma_object = mempool->memblocks_dma_arr + i; void *the_memblock; int dma_flags; dma_flags = XGE_OS_DMA_CACHELINE_ALIGNED; #ifdef XGE_HAL_DMA_DTR_CONSISTENT dma_flags |= XGE_OS_DMA_CONSISTENT; #else dma_flags |= XGE_OS_DMA_STREAMING; #endif /* allocate DMA-capable memblock */ mempool->memblocks_arr[i] = xge_os_dma_malloc(mempool->pdev, mempool->memblock_size, dma_flags, &dma_object->handle, &dma_object->acc_handle); if (mempool->memblocks_arr[i] == NULL) { xge_debug_mm(XGE_ERR, "memblock[%d]: out of DMA memory", i); return XGE_HAL_ERR_OUT_OF_MEMORY; } xge_os_memzero(mempool->memblocks_arr[i], mempool->memblock_size); the_memblock = mempool->memblocks_arr[i]; /* allocate memblock's private part. Each DMA memblock * has a space allocated for item's private usage upon * mempool's user request. Each time mempool grows, it will * allocate new memblock and its private part at once. * This helps to minimize memory usage a lot. */ mempool->memblocks_priv_arr[i] = xge_os_malloc(mempool->pdev, mempool->items_priv_size * n_items); if (mempool->memblocks_priv_arr[i] == NULL) { xge_os_dma_free(mempool->pdev, the_memblock, mempool->memblock_size, &dma_object->acc_handle, &dma_object->handle); xge_debug_mm(XGE_ERR, "memblock_priv[%d]: out of virtual memory, " "requested %d(%d:%d) bytes", i, mempool->items_priv_size * n_items, mempool->items_priv_size, n_items); return XGE_HAL_ERR_OUT_OF_MEMORY; } xge_os_memzero(mempool->memblocks_priv_arr[i], mempool->items_priv_size * n_items); /* map memblock to physical memory */ dma_object->addr = xge_os_dma_map(mempool->pdev, dma_object->handle, the_memblock, mempool->memblock_size, XGE_OS_DMA_DIR_BIDIRECTIONAL, #ifdef XGE_HAL_DMA_DTR_CONSISTENT XGE_OS_DMA_CONSISTENT #else XGE_OS_DMA_STREAMING #endif ); if (dma_object->addr == XGE_OS_INVALID_DMA_ADDR) { xge_os_free(mempool->pdev, mempool->memblocks_priv_arr[i], mempool->items_priv_size * n_items); xge_os_dma_free(mempool->pdev, the_memblock, mempool->memblock_size, &dma_object->acc_handle, &dma_object->handle); return XGE_HAL_ERR_OUT_OF_MAPPING; } /* fill the items hash array */ for (j=0; j<n_items; j++) { int index = i*n_items + j; if (first_time && index >= mempool->items_initial) { break; } mempool->items_arr[index] = ((char *)the_memblock + j*mempool->item_size); /* let caller to do more job on each item */ if (mempool->item_func_alloc != NULL) { xge_hal_status_e status; if ((status = mempool->item_func_alloc( mempool, the_memblock, i, dma_object, mempool->items_arr[index], index, is_last, mempool->userdata)) != XGE_HAL_OK) { if (mempool->item_func_free != NULL) { int k; for (k=0; k<j; k++) { index =i*n_items + k; (void)mempool->item_func_free( mempool, the_memblock, i, dma_object, mempool->items_arr[index], index, is_last, mempool->userdata); } } xge_os_free(mempool->pdev, mempool->memblocks_priv_arr[i], mempool->items_priv_size * n_items); xge_os_dma_unmap(mempool->pdev, dma_object->handle, dma_object->addr, mempool->memblock_size, XGE_OS_DMA_DIR_BIDIRECTIONAL); xge_os_dma_free(mempool->pdev, the_memblock, mempool->memblock_size, &dma_object->acc_handle, &dma_object->handle); return status; } } mempool->items_current = index + 1; } xge_debug_mm(XGE_TRACE, "memblock%d: allocated %dk, vaddr 0x"XGE_OS_LLXFMT", " "dma_addr 0x"XGE_OS_LLXFMT, i, mempool->memblock_size / 1024, (unsigned long long)(ulong_t)mempool->memblocks_arr[i], (unsigned long long)dma_object->addr); (*num_allocated)++; if (first_time && mempool->items_current == mempool->items_initial) { break; } } /* increment actual number of allocated memblocks */ mempool->memblocks_allocated += *num_allocated; return XGE_HAL_OK; } /* * xge_hal_mempool_create * @memblock_size: * @items_initial: * @items_max: * @item_size: * @item_func: * * This function will create memory pool object. Pool may grow but will * never shrink. Pool consists of number of dynamically allocated blocks * with size enough to hold %items_initial number of items. Memory is * DMA-able but client must map/unmap before interoperating with the device. * See also: xge_os_dma_map(), xge_hal_dma_unmap(), xge_hal_status_e{}. */ xge_hal_mempool_t* __hal_mempool_create(pci_dev_h pdev, int memblock_size, int item_size, int items_priv_size, int items_initial, int items_max, xge_hal_mempool_item_f item_func_alloc, xge_hal_mempool_item_f item_func_free, void *userdata) { xge_hal_status_e status; int memblocks_to_allocate; xge_hal_mempool_t *mempool; int allocated; if (memblock_size < item_size) { xge_debug_mm(XGE_ERR, "memblock_size %d < item_size %d: misconfiguration", memblock_size, item_size); return NULL; } mempool = (xge_hal_mempool_t *) \ xge_os_malloc(pdev, sizeof(xge_hal_mempool_t)); if (mempool == NULL) { xge_debug_mm(XGE_ERR, "mempool allocation failure"); return NULL; } xge_os_memzero(mempool, sizeof(xge_hal_mempool_t)); mempool->pdev = pdev; mempool->memblock_size = memblock_size; mempool->items_max = items_max; mempool->items_initial = items_initial; mempool->item_size = item_size; mempool->items_priv_size = items_priv_size; mempool->item_func_alloc = item_func_alloc; mempool->item_func_free = item_func_free; mempool->userdata = userdata; mempool->memblocks_allocated = 0; mempool->items_per_memblock = memblock_size / item_size; mempool->memblocks_max = (items_max + mempool->items_per_memblock - 1) / mempool->items_per_memblock; /* allocate array of memblocks */ mempool->memblocks_arr = (void ** ) xge_os_malloc(mempool->pdev, sizeof(void*) * mempool->memblocks_max); if (mempool->memblocks_arr == NULL) { xge_debug_mm(XGE_ERR, "memblocks_arr allocation failure"); __hal_mempool_destroy(mempool); return NULL; } xge_os_memzero(mempool->memblocks_arr, sizeof(void*) * mempool->memblocks_max); /* allocate array of private parts of items per memblocks */ mempool->memblocks_priv_arr = (void **) xge_os_malloc(mempool->pdev, sizeof(void*) * mempool->memblocks_max); if (mempool->memblocks_priv_arr == NULL) { xge_debug_mm(XGE_ERR, "memblocks_priv_arr allocation failure"); __hal_mempool_destroy(mempool); return NULL; } xge_os_memzero(mempool->memblocks_priv_arr, sizeof(void*) * mempool->memblocks_max); /* allocate array of memblocks DMA objects */ mempool->memblocks_dma_arr = (xge_hal_mempool_dma_t *) xge_os_malloc(mempool->pdev, sizeof(xge_hal_mempool_dma_t) * mempool->memblocks_max); if (mempool->memblocks_dma_arr == NULL) { xge_debug_mm(XGE_ERR, "memblocks_dma_arr allocation failure"); __hal_mempool_destroy(mempool); return NULL; } xge_os_memzero(mempool->memblocks_dma_arr, sizeof(xge_hal_mempool_dma_t) * mempool->memblocks_max); /* allocate hash array of items */ mempool->items_arr = (void **) xge_os_malloc(mempool->pdev, sizeof(void*) * mempool->items_max); if (mempool->items_arr == NULL) { xge_debug_mm(XGE_ERR, "items_arr allocation failure"); __hal_mempool_destroy(mempool); return NULL; } xge_os_memzero(mempool->items_arr, sizeof(void *) * mempool->items_max); mempool->shadow_items_arr = (void **) xge_os_malloc(mempool->pdev, sizeof(void*) * mempool->items_max); if (mempool->shadow_items_arr == NULL) { xge_debug_mm(XGE_ERR, "shadow_items_arr allocation failure"); __hal_mempool_destroy(mempool); return NULL; } xge_os_memzero(mempool->shadow_items_arr, sizeof(void *) * mempool->items_max); /* calculate initial number of memblocks */ memblocks_to_allocate = (mempool->items_initial + mempool->items_per_memblock - 1) / mempool->items_per_memblock; xge_debug_mm(XGE_TRACE, "allocating %d memblocks, " "%d items per memblock", memblocks_to_allocate, mempool->items_per_memblock); /* pre-allocate the mempool */ status = __hal_mempool_grow(mempool, memblocks_to_allocate, &allocated); xge_os_memcpy(mempool->shadow_items_arr, mempool->items_arr, sizeof(void*) * mempool->items_max); if (status != XGE_HAL_OK) { xge_debug_mm(XGE_ERR, "mempool_grow failure"); __hal_mempool_destroy(mempool); return NULL; } xge_debug_mm(XGE_TRACE, "total: allocated %dk of DMA-capable memory", mempool->memblock_size * allocated / 1024); return mempool; } /* * xge_hal_mempool_destroy */ void __hal_mempool_destroy(xge_hal_mempool_t *mempool) { int i, j; for (i=0; i<mempool->memblocks_allocated; i++) { xge_hal_mempool_dma_t *dma_object; xge_assert(mempool->memblocks_arr[i]); xge_assert(mempool->memblocks_dma_arr + i); dma_object = mempool->memblocks_dma_arr + i; for (j=0; j<mempool->items_per_memblock; j++) { int index = i*mempool->items_per_memblock + j; /* to skip last partially filled(if any) memblock */ if (index >= mempool->items_current) { break; } /* let caller to do more job on each item */ if (mempool->item_func_free != NULL) { mempool->item_func_free(mempool, mempool->memblocks_arr[i], i, dma_object, mempool->shadow_items_arr[index], index, /* unused */ -1, mempool->userdata); } } xge_os_dma_unmap(mempool->pdev, dma_object->handle, dma_object->addr, mempool->memblock_size, XGE_OS_DMA_DIR_BIDIRECTIONAL); xge_os_free(mempool->pdev, mempool->memblocks_priv_arr[i], mempool->items_priv_size * mempool->items_per_memblock); xge_os_dma_free(mempool->pdev, mempool->memblocks_arr[i], mempool->memblock_size, &dma_object->acc_handle, &dma_object->handle); } if (mempool->items_arr) { xge_os_free(mempool->pdev, mempool->items_arr, sizeof(void*) * mempool->items_max); } if (mempool->shadow_items_arr) { xge_os_free(mempool->pdev, mempool->shadow_items_arr, sizeof(void*) * mempool->items_max); } if (mempool->memblocks_dma_arr) { xge_os_free(mempool->pdev, mempool->memblocks_dma_arr, sizeof(xge_hal_mempool_dma_t) * mempool->memblocks_max); } if (mempool->memblocks_priv_arr) { xge_os_free(mempool->pdev, mempool->memblocks_priv_arr, sizeof(void*) * mempool->memblocks_max); } if (mempool->memblocks_arr) { xge_os_free(mempool->pdev, mempool->memblocks_arr, sizeof(void*) * mempool->memblocks_max); } xge_os_free(mempool->pdev, mempool, sizeof(xge_hal_mempool_t)); }