diff options
Diffstat (limited to 'driver')
-rw-r--r-- | driver/base.c | 2 | ||||
-rw-r--r-- | driver/common.h | 16 | ||||
-rw-r--r-- | driver/kmem.c | 139 | ||||
-rw-r--r-- | driver/pciDriver.h | 14 | ||||
-rw-r--r-- | driver/sysfs.c | 2 |
5 files changed, 142 insertions, 31 deletions
diff --git a/driver/base.c b/driver/base.c index 37102d8..d88dcf2 100644 --- a/driver/base.c +++ b/driver/base.c @@ -353,8 +353,6 @@ static int __devinit pcidriver_probe(struct pci_dev *pdev, const struct pci_devi spin_lock_init(&(privdata->kmemlist_lock)); atomic_set(&privdata->kmem_count, 0); - privdata->kmem_cur = NULL; - INIT_LIST_HEAD(&(privdata->umem_list)); spin_lock_init(&(privdata->umemlist_lock)); atomic_set(&privdata->umem_count, 0); diff --git a/driver/common.h b/driver/common.h index e45ae25..b79d5ec 100644 --- a/driver/common.h +++ b/driver/common.h @@ -6,6 +6,14 @@ /*************************************************************************/ /* Private data types and structures */ +#define KMEM_REF_HW 0x80000000 /**< Special reference to indicate hardware access */ +#define KMEM_REF_COUNT 0x0FFFFFFF /**< Mask of reference counter (mmap/munmap) */ + +#define KMEM_MODE_REUSABLE 0x80000000 /**< Indicates reusable buffer */ +#define KMEM_MODE_EXCLUSIVE 0x40000000 /**< Only a single process is allowed to mmap the buffer */ +#define KMEM_MODE_PERSISTENT 0x20000000 /**< Persistent mode instructs kmem_free to preserve buffer in memory */ +#define KMEM_MODE_COUNT 0x0FFFFFFF /**< Mask of reuse counter (alloc/free) */ + /* Define an entry in the kmem list (this list is per device) */ /* This list keeps references to the allocated kernel buffers */ typedef struct { @@ -15,8 +23,14 @@ typedef struct { unsigned long cpua; unsigned long size; unsigned long type; + unsigned long use; unsigned long item; + + spinlock_t lock; + unsigned long mode; + unsigned long refs; + struct class_device_attribute sysfs_attr; /* initialized when adding the entry */ } pcidriver_kmem_entry_t; @@ -57,7 +71,7 @@ typedef struct { struct list_head kmem_list; /* List of 'kmem_list_entry's associated with this device */ atomic_t kmem_count; /* id for next kmem entry */ - pcidriver_kmem_entry_t *kmem_cur; /* Currently selected kmem buffer, for mmap */ + int kmem_cur_id; /* Currently selected kmem buffer, for mmap */ spinlock_t umemlist_lock; /* Spinlock to lock umem list operations */ struct list_head umem_list; /* List of 'umem_list_entry's associated with this device */ diff --git a/driver/kmem.c b/driver/kmem.c index ed2a2af..a720095 100644 --- a/driver/kmem.c +++ b/driver/kmem.c @@ -35,24 +35,48 @@ int pcidriver_kmem_alloc(pcidriver_privdata_t *privdata, kmem_handle_t *kmem_han pcidriver_kmem_entry_t *kmem_entry; void *retptr; - privdata->kmem_cur = NULL; - - if (kmem_handle->reuse) { + if (kmem_handle->flags&KMEM_FLAG_REUSE) { /* kmem_entry = pcidriver_kmem_find_entry_use(privdata, kmem_handle->use, kmem_handle->item); if (kmem_entry) { - if (kmem_handle->type != kmem_entry->type) return EINVAL; + unsigned long flags = kmem_handle->flags; + + if (kmem_handle->type != kmem_entry->type) { + mod_info("Invalid type of reusable kmem_entry\n"); + return -EINVAL; + } - if (kmem_handle->type == PCILIB_KMEM_TYPE_PAGE) kmem_handle->size = kmem_entry->size; - else if (kmem_handle->size != kmem_entry->size) return EINVAL; + if (kmem_handle->type == PCILIB_KMEM_TYPE_PAGE) { + kmem_handle->size = kmem_entry->size; + } else if (kmem_handle->size != kmem_entry->size) { + mod_info("Invalid size of reusable kmem_entry\n"); + return -EINVAL; + } + + if (((kmem_entry->mode&KMEM_MODE_EXCLUSIVE)?1:0) != ((flags&KMEM_FLAG_EXCLUSIVE)?1:0)) { + mod_info("Invalid mode of reusable kmem_entry\n"); + return -EINVAL; + } + if ((kmem_entry->mode&KMEM_MODE_COUNT)==KMEM_MODE_COUNT) { + mod_info("Reuse counter of kmem_entry is overflown"); + return -EBUSY; + } + kmem_handle->handle_id = kmem_entry->id; kmem_handle->pa = (unsigned long)(kmem_entry->dma_handle); - - privdata->kmem_cur = kmem_entry; + + kmem_handle->flags = KMEM_FLAG_REUSED; + if (kmem_entry->refs&KMEM_REF_HW) kmem_handle->flags |= KMEM_FLAG_REUSED_HW; + if (kmem_entry->mode&KMEM_MODE_PERSISTENT) kmem_handle->flags |= KMEM_FLAG_REUSED_PERSISTENT; + + kmem_entry->mode += 1; + if (flags&KMEM_FLAG_HW) kmem_entry->refs |= KMEM_REF_HW; + if (flags&KMEM_FLAG_PERSISTENT) kmem_entry->mode |= KMEM_MODE_PERSISTENT; + + privdata->kmem_cur_id = kmem_entry->id; return 0; }*/ - kmem_handle->reuse = 0; } /* First, allocate zeroed memory for the kmem_entry */ @@ -61,10 +85,12 @@ int pcidriver_kmem_alloc(pcidriver_privdata_t *privdata, kmem_handle_t *kmem_han /* Initialize the kmem_entry */ kmem_entry->id = atomic_inc_return(&privdata->kmem_count) - 1; + privdata->kmem_cur_id = kmem_entry->id; + kmem_handle->handle_id = kmem_entry->id; + kmem_entry->use = kmem_handle->use; kmem_entry->item = kmem_handle->item; kmem_entry->type = kmem_handle->type; - kmem_handle->handle_id = kmem_entry->id; /* Initialize sysfs if possible */ if (pcidriver_sysfs_initialize_kmem(privdata, kmem_entry->id, &(kmem_entry->sysfs_attr)) != 0) @@ -94,11 +120,23 @@ int pcidriver_kmem_alloc(pcidriver_privdata_t *privdata, kmem_handle_t *kmem_han } if (retptr == NULL) goto kmem_alloc_mem_fail; - + kmem_entry->size = kmem_handle->size; kmem_entry->cpua = (unsigned long)retptr; kmem_handle->pa = (unsigned long)(kmem_entry->dma_handle); + kmem_entry->mode = 1; + if (kmem_handle->flags&KMEM_FLAG_REUSE) { + kmem_entry->mode |= KMEM_MODE_REUSABLE; + if (kmem_handle->flags&KMEM_FLAG_EXCLUSIVE) kmem_entry->mode |= KMEM_MODE_EXCLUSIVE; + if (kmem_handle->flags&KMEM_FLAG_PERSISTENT) kmem_entry->mode |= KMEM_MODE_PERSISTENT; + } + + kmem_entry->refs = 0; + if (kmem_handle->flags&KMEM_FLAG_HW) kmem_entry->refs |= KMEM_REF_HW; + + kmem_handle->flags = 0; + set_pages_reserved_compat(kmem_entry->cpua, kmem_entry->size); /* Add the kmem_entry to the list of the device */ @@ -123,15 +161,37 @@ int pcidriver_kmem_free( pcidriver_privdata_t *privdata, kmem_handle_t *kmem_han { pcidriver_kmem_entry_t *kmem_entry; - if (kmem_handle->reuse) { - // just mark free - return 0; - } - /* Find the associated kmem_entry for this buffer */ if ((kmem_entry = pcidriver_kmem_find_entry(privdata, kmem_handle)) == NULL) return -EINVAL; /* kmem_handle is not valid */ + + if (kmem_entry->mode&KMEM_MODE_COUNT) + kmem_entry->mode -= 1; + + if (kmem_handle->flags&KMEM_FLAG_HW) + kmem_entry->refs &= ~KMEM_REF_HW; + + if (kmem_handle->flags&KMEM_FLAG_PERSISTENT) + kmem_entry->mode &= ~KMEM_MODE_PERSISTENT; + + if (kmem_handle->flags&KMEM_FLAG_REUSE) + return 0; + + if (kmem_entry->refs) { + mod_info("can't free referenced kmem_entry\n"); + kmem_entry->mode += 1; + return -EBUSY; + } + + if (kmem_entry->mode & KMEM_MODE_PERSISTENT) { + mod_info("can't free persistent kmem_entry\n"); + return -EBUSY; + } + + if (((kmem_entry->mode&KMEM_MODE_EXCLUSIVE)==0)&&(kmem_entry->mode&KMEM_MODE_COUNT)) + return 0; + return pcidriver_kmem_free_entry(privdata, kmem_entry); } @@ -142,14 +202,23 @@ int pcidriver_kmem_free( pcidriver_privdata_t *privdata, kmem_handle_t *kmem_han */ int pcidriver_kmem_free_all(pcidriver_privdata_t *privdata) { + int failed = 0; struct list_head *ptr, *next; pcidriver_kmem_entry_t *kmem_entry; /* iterate safely over the entries and delete them */ list_for_each_safe(ptr, next, &(privdata->kmem_list)) { kmem_entry = list_entry(ptr, pcidriver_kmem_entry_t, list); - pcidriver_kmem_free_entry(privdata, kmem_entry); /* spin lock inside! */ +/* if (kmem_entry->refs) + failed = 1; + else*/ + pcidriver_kmem_free_entry(privdata, kmem_entry); /* spin lock inside! */ } + + if (failed) { + mod_info("Some kmem_entries are still referenced\n"); + return -EBUSY; + } return 0; } @@ -219,8 +288,6 @@ int pcidriver_kmem_sync( pcidriver_privdata_t *privdata, kmem_sync_t *kmem_sync */ int pcidriver_kmem_free_entry(pcidriver_privdata_t *privdata, pcidriver_kmem_entry_t *kmem_entry) { - privdata->kmem_cur = NULL; - pcidriver_sysfs_remove(privdata, &(kmem_entry->sysfs_attr)); /* Go over the pages of the kmem buffer, and mark them as not reserved */ @@ -339,7 +406,7 @@ pcidriver_kmem_entry_t *pcidriver_kmem_find_entry_use(pcidriver_privdata_t *priv list_for_each(ptr, &(privdata->kmem_list)) { entry = list_entry(ptr, pcidriver_kmem_entry_t, list); - if ((entry->use == use)&&(entry->item == item)) { + if ((entry->use == use)&&(entry->item == item)&&(entry->mode&KMEM_MODE_REUSABLE)) { result = entry; break; } @@ -350,6 +417,15 @@ pcidriver_kmem_entry_t *pcidriver_kmem_find_entry_use(pcidriver_privdata_t *priv } +void pcidriver_kmem_mmap_close(struct vm_area_struct *vma) { + pcidriver_kmem_entry_t *kmem_entry = (pcidriver_kmem_entry_t*)vma->vm_private_data; + if (kmem_entry) kmem_entry->refs -= 1; +} + +static struct vm_operations_struct pcidriver_kmem_mmap_ops = { + .close = pcidriver_kmem_mmap_close +}; + /** * * mmap() kernel memory to userspace. @@ -365,15 +441,11 @@ int pcidriver_mmap_kmem(pcidriver_privdata_t *privdata, struct vm_area_struct *v /* FIXME: Is this really right? Always just the latest one? Can't we identify one? */ /* Get latest entry on the kmem_list */ - spin_lock(&(privdata->kmemlist_lock)); - if (list_empty(&(privdata->kmem_list))) { - spin_unlock(&(privdata->kmemlist_lock)); + kmem_entry = pcidriver_kmem_find_entry_id(privdata, privdata->kmem_cur_id); + if (!kmem_entry) { mod_info("Trying to mmap a kernel memory buffer without creating it first!\n"); return -EFAULT; } - if (privdata->kmem_cur) kmem_entry = privdata->kmem_cur; - else kmem_entry = list_entry(privdata->kmem_list.prev, pcidriver_kmem_entry_t, list); - spin_unlock(&(privdata->kmemlist_lock)); mod_info_dbg("Got kmem_entry with id: %d\n", kmem_entry->id); @@ -386,6 +458,17 @@ int pcidriver_mmap_kmem(pcidriver_privdata_t *privdata, struct vm_area_struct *v return -EINVAL; } + /* reference counting */ + if ((kmem_entry->mode&KMEM_MODE_EXCLUSIVE)&&(kmem_entry->refs&KMEM_REF_COUNT)) { + mod_info("can't make second mmaping for exclusive kmem_entry\n"); + return -EBUSY; + } + if ((kmem_entry->refs&KMEM_REF_COUNT)==KMEM_REF_COUNT) { + mod_info("maximal amount of references is reached by kmem_entry\n"); + return -EBUSY; + } + kmem_entry->refs += 1; + vma->vm_flags |= (VM_RESERVED); #ifdef pgprot_noncached @@ -406,8 +489,12 @@ int pcidriver_mmap_kmem(pcidriver_privdata_t *privdata, struct vm_area_struct *v if (ret) { mod_info("kmem remap failed: %d (%lx)\n", ret,kmem_entry->cpua); + kmem_entry->refs -= 1; return -EAGAIN; } + + vma->vm_ops = &pcidriver_kmem_mmap_ops; + vma->vm_private_data = (void*)kmem_entry; return ret; } diff --git a/driver/pciDriver.h b/driver/pciDriver.h index 3ff3357..9aa580f 100644 --- a/driver/pciDriver.h +++ b/driver/pciDriver.h @@ -99,6 +99,18 @@ /* Maximum number of interrupt sources */ #define PCIDRIVER_INT_MAXSOURCES 16 + +#define KMEM_FLAG_REUSE 1 /**< Try to reuse existing buffer with the same use & item */ +#define KMEM_FLAG_EXCLUSIVE 2 /**< Allow only a single application accessing a specified use & item */ +#define KMEM_FLAG_PERSISTENT 4 /**< Sets persistent mode */ +#define KMEM_FLAG_HW 8 /**< The buffer may be accessed by hardware, the hardware access will not occur any more if passed to _free function */ + +#define KMEM_FLAG_REUSED 1 /**< Indicates if buffer with specified use & item was already allocated and reused */ +#define KMEM_FLAG_REUSED_PERSISTENT 4 /**< Indicates that reused buffer was persistent before the call */ +#define KMEM_FLAG_REUSED_HW 8 /**< Indicates that reused buffer had a HW reference before the call */ + + + /* Types */ typedef struct { unsigned long type; @@ -107,7 +119,7 @@ typedef struct { unsigned long align; unsigned long use; unsigned long item; - int reuse; + int flags; int handle_id; } kmem_handle_t; diff --git a/driver/sysfs.c b/driver/sysfs.c index 0653aef..ab0925c 100644 --- a/driver/sysfs.c +++ b/driver/sysfs.c @@ -98,7 +98,7 @@ static SYSFS_GET_FUNCTION(pcidriver_show_kmem_entry) int id = simple_strtol(attr->attr.name + strlen("kbuf"), NULL, 10); pcidriver_kmem_entry_t *entry = pcidriver_kmem_find_entry_id(privdata, id); if (entry) - return snprintf(buf, PAGE_SIZE, "buffer: %d\ntype: %lu\nuse: 0x%lx\nitem: %lu\nsize: %lu\n", id, entry->type, entry->use, entry->item, entry->size); + return snprintf(buf, PAGE_SIZE, "buffer: %d\ntype: %lu\nuse: 0x%lx\nitem: %lu\nsize: %lu\nrefs: %lu\nhw ref: %i\nmode: %lx\n", id, entry->type, entry->use, entry->item, entry->size, entry->refs&KMEM_REF_COUNT, (entry->refs&KMEM_REF_HW)?1:0, entry->mode); else return snprintf(buf, PAGE_SIZE, "I am in the kmem_entry show function for buffer %d\n", id); #else |