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9.0.0_r8
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hardware
intel
common
libwsbm
src
wsbm_ttmpool.c
/************************************************************************** * * Copyright 2006-2008 Tungsten Graphics, Inc., Cedar Park, Tx., USA * All Rights Reserved. * Copyright 2009 VMware, Inc., Palo Alto, CA., USA * All Rights Reserved. * * 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, sub license, 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 (including the * next paragraph) 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 NON-INFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDERS, AUTHORS AND/OR ITS SUPPLIERS 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. * **************************************************************************/ /* * Authors: Thomas Hellstrm <thomas-at-tungstengraphics-dot-com> */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include <xf86drm.h> #include <stdlib.h> #include <unistd.h> #include <errno.h> #include <sys/mman.h> #include <drm/psb_ttm_placement_user.h> #include "wsbm_pool.h" #include "assert.h" #include "wsbm_priv.h" #include "wsbm_manager.h" #define DRMRESTARTCOMMANDWRITE(_fd, _val, _arg, _ret) \ do { \ (_ret) = drmCommandWrite(_fd, _val, &(_arg), sizeof(_arg)); \ } while ((_ret) == -EAGAIN || (_ret) == -ERESTART); \ #define DRMRESTARTCOMMANDWRITEREAD(_fd, _val, _arg, _ret) \ do { \ (_ret) = drmCommandWriteRead(_fd, _val, &(_arg), sizeof(_arg)); \ } while ((_ret) == -EAGAIN || (_ret) == -ERESTART); \ /* * Buffer pool implementation using DRM buffer objects as wsbm buffer objects. */ struct _TTMBuffer { struct _WsbmBufStorage buf; struct _WsbmCond event; /* * Remains constant after creation. */ uint64_t requestedSize; uint64_t mapHandle; uint64_t realSize; /* * Protected by the kernel lock. */ struct _WsbmKernelBuf kBuf; /* * Protected by the mutex. */ void *virtual; int syncInProgress; unsigned readers; unsigned writers; }; struct _TTMPool { struct _WsbmBufferPool pool; unsigned int pageSize; unsigned int devOffset; }; static inline struct _TTMPool * ttmGetPool(struct _TTMBuffer *dBuf) { return containerOf(dBuf->buf.pool, struct _TTMPool, pool); } static inline struct _TTMBuffer * ttmBuffer(struct _WsbmBufStorage *buf) { return containerOf(buf, struct _TTMBuffer, buf); } static struct _WsbmBufStorage * pool_create(struct _WsbmBufferPool *pool, unsigned long size, uint32_t placement, unsigned alignment) { struct _TTMBuffer *dBuf = (struct _TTMBuffer *) calloc(1, sizeof(*dBuf)); struct _TTMPool *ttmPool = containerOf(pool, struct _TTMPool, pool); int ret; unsigned pageSize = ttmPool->pageSize; union ttm_pl_create_arg arg; if (!dBuf) return NULL; if ((alignment > pageSize) && (alignment % pageSize)) goto out_err0; ret = wsbmBufStorageInit(&dBuf->buf, pool); if (ret) goto out_err0; ret = WSBM_COND_INIT(&dBuf->event); if (ret) goto out_err1; arg.req.size = size; arg.req.placement = placement; arg.req.page_alignment = alignment / pageSize; DRMRESTARTCOMMANDWRITEREAD(pool->fd, ttmPool->devOffset + TTM_PL_CREATE, arg, ret); if (ret) goto out_err2; dBuf->requestedSize = size; dBuf->kBuf.gpuOffset = arg.rep.gpu_offset; dBuf->mapHandle = arg.rep.map_handle; dBuf->realSize = arg.rep.bo_size; dBuf->kBuf.placement = arg.rep.placement; dBuf->kBuf.handle = arg.rep.handle; return &dBuf->buf; out_err2: WSBM_COND_FREE(&dBuf->event); out_err1: wsbmBufStorageTakedown(&dBuf->buf); out_err0: free(dBuf); return NULL; } static struct _WsbmBufStorage * pool_reference(struct _WsbmBufferPool *pool, unsigned handle) { struct _TTMBuffer *dBuf = (struct _TTMBuffer *)calloc(1, sizeof(*dBuf)); struct _TTMPool *ttmPool = containerOf(pool, struct _TTMPool, pool); union ttm_pl_reference_arg arg; int ret; if (!dBuf) return NULL; ret = wsbmBufStorageInit(&dBuf->buf, pool); if (ret) goto out_err0; ret = WSBM_COND_INIT(&dBuf->event); if (ret) goto out_err1; arg.req.handle = handle; ret = drmCommandWriteRead(pool->fd, ttmPool->devOffset + TTM_PL_REFERENCE, &arg, sizeof(arg)); if (ret) goto out_err2; dBuf->requestedSize = arg.rep.bo_size; dBuf->kBuf.gpuOffset = arg.rep.gpu_offset; dBuf->mapHandle = arg.rep.map_handle; dBuf->realSize = arg.rep.bo_size; dBuf->kBuf.placement = arg.rep.placement; dBuf->kBuf.handle = arg.rep.handle; dBuf->kBuf.fence_type_mask = arg.rep.sync_object_arg; return &dBuf->buf; out_err2: WSBM_COND_FREE(&dBuf->event); out_err1: wsbmBufStorageTakedown(&dBuf->buf); out_err0: free(dBuf); return NULL; } static void pool_destroy(struct _WsbmBufStorage **buf) { struct _TTMBuffer *dBuf = ttmBuffer(*buf); struct _TTMPool *ttmPool = ttmGetPool(dBuf); struct ttm_pl_reference_req arg; *buf = NULL; if (dBuf->virtual != NULL) { (void)munmap(dBuf->virtual, dBuf->requestedSize); dBuf->virtual = NULL; } arg.handle = dBuf->kBuf.handle; (void)drmCommandWrite(dBuf->buf.pool->fd, ttmPool->devOffset + TTM_PL_UNREF, &arg, sizeof(arg)); WSBM_COND_FREE(&dBuf->event); wsbmBufStorageTakedown(&dBuf->buf); free(dBuf); } static int syncforcpu_locked(struct _WsbmBufStorage *buf, unsigned mode) { uint32_t kmode = 0; struct _TTMBuffer *dBuf = ttmBuffer(buf); struct _TTMPool *ttmPool = ttmGetPool(dBuf); unsigned int readers; unsigned int writers; int ret = 0; while (dBuf->syncInProgress) WSBM_COND_WAIT(&dBuf->event, &buf->mutex); readers = dBuf->readers; writers = dBuf->writers; if ((mode & WSBM_SYNCCPU_READ) && (++dBuf->readers == 1)) kmode |= TTM_PL_SYNCCPU_MODE_READ; if ((mode & WSBM_SYNCCPU_WRITE) && (++dBuf->writers == 1)) kmode |= TTM_PL_SYNCCPU_MODE_WRITE; if (kmode) { struct ttm_pl_synccpu_arg arg; if (mode & WSBM_SYNCCPU_DONT_BLOCK) kmode |= TTM_PL_SYNCCPU_MODE_NO_BLOCK; dBuf->syncInProgress = 1; /* * This might be a lengthy wait, so * release the mutex. */ WSBM_MUTEX_UNLOCK(&buf->mutex); arg.handle = dBuf->kBuf.handle; arg.access_mode = kmode; arg.op = TTM_PL_SYNCCPU_OP_GRAB; DRMRESTARTCOMMANDWRITE(dBuf->buf.pool->fd, ttmPool->devOffset + TTM_PL_SYNCCPU, arg, ret); WSBM_MUTEX_LOCK(&buf->mutex); dBuf->syncInProgress = 0; WSBM_COND_BROADCAST(&dBuf->event); if (ret) { dBuf->readers = readers; dBuf->writers = writers; } } return ret; } static int releasefromcpu_locked(struct _WsbmBufStorage *buf, unsigned mode) { uint32_t kmode = 0; struct _TTMBuffer *dBuf = ttmBuffer(buf); struct _TTMPool *ttmPool = ttmGetPool(dBuf); int ret = 0; while (dBuf->syncInProgress) WSBM_COND_WAIT(&dBuf->event, &buf->mutex); if ((mode & WSBM_SYNCCPU_READ) && (--dBuf->readers == 0)) kmode |= TTM_PL_SYNCCPU_MODE_READ; if ((mode & WSBM_SYNCCPU_WRITE) && (--dBuf->writers == 0)) kmode |= TTM_PL_SYNCCPU_MODE_WRITE; if (kmode) { struct ttm_pl_synccpu_arg arg; arg.handle = dBuf->kBuf.handle; arg.access_mode = kmode; arg.op = TTM_PL_SYNCCPU_OP_RELEASE; DRMRESTARTCOMMANDWRITE(dBuf->buf.pool->fd, ttmPool->devOffset + TTM_PL_SYNCCPU, arg, ret); } return ret; } static int pool_syncforcpu(struct _WsbmBufStorage *buf, unsigned mode) { int ret; WSBM_MUTEX_LOCK(&buf->mutex); ret = syncforcpu_locked(buf, mode); WSBM_MUTEX_UNLOCK(&buf->mutex); return ret; } static void pool_releasefromcpu(struct _WsbmBufStorage *buf, unsigned mode) { WSBM_MUTEX_LOCK(&buf->mutex); (void)releasefromcpu_locked(buf, mode); WSBM_MUTEX_UNLOCK(&buf->mutex); } #ifdef ANDROID /* No header but syscall provided by bionic */ void* __mmap2(void*, size_t, int, int, int, size_t); #define MMAP2_SHIFT 12 // 2**12 == 4096 static void* _temp_mmap(void *addr, size_t size, int prot, int flags, int fd, long long offset) { return __mmap2(addr, size, prot, flags, fd, (unsigned long)(offset >> MMAP2_SHIFT)); } #endif static int pool_map(struct _WsbmBufStorage *buf, unsigned mode __attribute__ ((unused)), void **virtual) { struct _TTMBuffer *dBuf = ttmBuffer(buf); void *virt; int ret = 0; WSBM_MUTEX_LOCK(&buf->mutex); /* * mmaps are expensive, so we only really unmap if * we destroy the buffer. */ if (dBuf->virtual == NULL) { #if defined(__LP64__) || defined(_LP64) || defined(__LP64) virt = mmap(0, dBuf->requestedSize, PROT_READ | PROT_WRITE, MAP_SHARED, buf->pool->fd, dBuf->mapHandle); #else virt = _temp_mmap(0, dBuf->requestedSize, PROT_READ | PROT_WRITE, MAP_SHARED, buf->pool->fd, dBuf->mapHandle); #endif if (virt == MAP_FAILED) { ret = -errno; goto out_unlock; } dBuf->virtual = virt; } *virtual = dBuf->virtual; out_unlock: WSBM_MUTEX_UNLOCK(&buf->mutex); return ret; } static void pool_unmap(struct _WsbmBufStorage *buf __attribute__ ((unused))) { ; } static unsigned long pool_offset(struct _WsbmBufStorage *buf) { struct _TTMBuffer *dBuf = ttmBuffer(buf); return dBuf->kBuf.gpuOffset; } static unsigned long pool_poolOffset(struct _WsbmBufStorage *buf __attribute__ ((unused))) { return 0; } static uint32_t pool_placement(struct _WsbmBufStorage *buf) { struct _TTMBuffer *dBuf = ttmBuffer(buf); return dBuf->kBuf.placement; } static unsigned long pool_size(struct _WsbmBufStorage *buf) { struct _TTMBuffer *dBuf = ttmBuffer(buf); return dBuf->realSize; } static void pool_fence(struct _WsbmBufStorage *buf __attribute__ ((unused)), struct _WsbmFenceObject *fence __attribute__ ((unused))) { /* * Noop. The kernel handles all fencing. */ } static int pool_waitIdle(struct _WsbmBufStorage *buf, int lazy) { struct _TTMBuffer *dBuf = ttmBuffer(buf); struct _TTMPool *ttmPool = ttmGetPool(dBuf); struct ttm_pl_waitidle_arg req; struct _WsbmBufferPool *pool = buf->pool; int ret; req.handle = dBuf->kBuf.handle; req.mode = (lazy) ? TTM_PL_WAITIDLE_MODE_LAZY : 0; DRMRESTARTCOMMANDWRITE(pool->fd, ttmPool->devOffset + TTM_PL_WAITIDLE, req, ret); return ret; } static void pool_takedown(struct _WsbmBufferPool *pool) { struct _TTMPool *ttmPool = containerOf(pool, struct _TTMPool, pool); free(ttmPool); } static int pool_setStatus(struct _WsbmBufStorage *buf, uint32_t set_placement, uint32_t clr_placement) { struct _TTMBuffer *dBuf = ttmBuffer(buf); struct _TTMPool *ttmPool = ttmGetPool(dBuf); union ttm_pl_setstatus_arg arg; struct ttm_pl_setstatus_req *req = &arg.req; struct ttm_pl_rep *rep = &arg.rep; struct _WsbmBufferPool *pool = buf->pool; int ret; req->handle = dBuf->kBuf.handle; req->set_placement = set_placement; req->clr_placement = clr_placement; DRMRESTARTCOMMANDWRITEREAD(pool->fd, ttmPool->devOffset + TTM_PL_SETSTATUS, arg, ret); if (!ret) { dBuf->kBuf.gpuOffset = rep->gpu_offset; dBuf->kBuf.placement = rep->placement; } return ret; } static struct _WsbmKernelBuf * pool_kernel(struct _WsbmBufStorage *buf) { return (void *)&ttmBuffer(buf)->kBuf; } struct _WsbmBufferPool * wsbmTTMPoolInit(int fd, unsigned int devOffset) { struct _TTMPool *ttmPool; struct _WsbmBufferPool *pool; ttmPool = (struct _TTMPool *)calloc(1, sizeof(*ttmPool)); if (!ttmPool) return NULL; ttmPool->pageSize = getpagesize(); ttmPool->devOffset = devOffset; pool = &ttmPool->pool; pool->fd = fd; pool->map = &pool_map; pool->unmap = &pool_unmap; pool->syncforcpu = &pool_syncforcpu; pool->releasefromcpu = &pool_releasefromcpu; pool->destroy = &pool_destroy; pool->offset = &pool_offset; pool->poolOffset = &pool_poolOffset; pool->placement = &pool_placement; pool->size = &pool_size; pool->create = &pool_create; pool->fence = &pool_fence; pool->kernel = &pool_kernel; pool->validate = NULL; pool->unvalidate = NULL; pool->waitIdle = &pool_waitIdle; pool->takeDown = &pool_takedown; pool->createByReference = &pool_reference; pool->setStatus = &pool_setStatus; return pool; } struct _WsbmBufStorage * ttm_pool_ub_create(struct _WsbmBufferPool *pool, unsigned long size, uint32_t placement, unsigned alignment, const unsigned long *user_ptr, int fd) { struct _TTMBuffer *dBuf = (struct _TTMBuffer *) calloc(1, sizeof(*dBuf)); struct _TTMPool *ttmPool = containerOf(pool, struct _TTMPool, pool); int ret; unsigned pageSize = ttmPool->pageSize; union ttm_pl_create_ub_arg arg; if (!dBuf) return NULL; if ((alignment > pageSize) && (alignment % pageSize)) goto out_err0; ret = wsbmBufStorageInit(&dBuf->buf, pool); if (ret) goto out_err0; ret = WSBM_COND_INIT(&dBuf->event); if (ret) goto out_err1; arg.req.size = size; arg.req.placement = placement; arg.req.page_alignment = alignment / pageSize; arg.req.user_address = (unsigned long)user_ptr; arg.req.fd = fd; DRMRESTARTCOMMANDWRITEREAD(pool->fd, ttmPool->devOffset + TTM_PL_CREATE_UB, arg, ret); if (ret) goto out_err2; dBuf->requestedSize = size; dBuf->kBuf.gpuOffset = arg.rep.gpu_offset; dBuf->mapHandle = arg.rep.map_handle; dBuf->realSize = arg.rep.bo_size; dBuf->kBuf.placement = arg.rep.placement; dBuf->kBuf.handle = arg.rep.handle; return &dBuf->buf; out_err2: WSBM_COND_FREE(&dBuf->event); out_err1: wsbmBufStorageTakedown(&dBuf->buf); out_err0: free(dBuf); return NULL; }
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