static enum gcerror alloc_fixup(struct gcfixup **gcfixup)
{
enum gcerror gcerror = GCERR_NONE;
struct gcfixup *temp;
GCLOCK(&g_fixuplock);
if (list_empty(&g_fixupvac)) {
temp = kmalloc(sizeof(struct gcfixup), GFP_KERNEL);
if (temp == NULL) {
GCERR("out of memory.\n");
gcerror = GCERR_SETGRP(GCERR_OODM,
GCERR_IOCTL_FIXUP_ALLOC);
goto exit;
}
} else {
struct list_head *head;
head = g_fixupvac.next;
temp = list_entry(head, struct gcfixup, link);
list_del(head);
}
GCUNLOCK(&g_fixuplock);
INIT_LIST_HEAD(&temp->link);
*gcfixup = temp;
exit:
return gcerror;
}
static enum gcerror get_arena(struct gcmmu *gcmmu, struct gcmmuarena **arena)
{
enum gcerror gcerror = GCERR_NONE;
struct gcmmuarena *temp;
GCENTER(GCZONE_ARENA);
GCLOCK(&gcmmu->lock);
if (list_empty(&gcmmu->vacarena)) {
temp = kmalloc(sizeof(struct gcmmuarena), GFP_KERNEL);
if (temp == NULL) {
GCERR("arena entry allocation failed.\n");
gcerror = GCERR_SETGRP(GCERR_OODM,
GCERR_MMU_ARENA_ALLOC);
goto exit;
}
} else {
struct list_head *head;
head = gcmmu->vacarena.next;
temp = list_entry(head, struct gcmmuarena, link);
list_del(head);
}
*arena = temp;
exit:
GCUNLOCK(&gcmmu->lock);
GCEXITARG(GCZONE_ARENA, "gc%s = 0x%08X\n",
(gcerror == GCERR_NONE) ? "result" : "error", gcerror);
return gcerror;
}
static void free_buffer(struct gcbuffer *gcbuffer)
{
/* Free fixups. */
free_fixup_list(&gcbuffer->fixup);
/* Free the buffer. */
GCLOCK(&g_bufferlock);
list_move(&gcbuffer->link, &g_buffervac);
GCUNLOCK(&g_bufferlock);
}
enum gcerror gcmmu_destroy_context(struct gccorecontext *gccorecontext,
struct gcmmucontext *gcmmucontext)
{
enum gcerror gcerror;
struct gcmmu *gcmmu = &gccorecontext->gcmmu;
struct list_head *head;
struct gcmmuarena *arena;
struct gcmmustlbblock *nextblock;
GCENTER(GCZONE_CONTEXT);
if (gcmmucontext == NULL) {
gcerror = GCERR_MMU_CTXT_BAD;
goto exit;
}
/* Unmap the command queue. */
gcerror = gcqueue_unmap(gccorecontext, gcmmucontext);
if (gcerror != GCERR_NONE)
goto exit;
/* Free allocated arenas. */
while (!list_empty(&gcmmucontext->allocated)) {
head = gcmmucontext->allocated.next;
arena = list_entry(head, struct gcmmuarena, link);
release_physical_pages(arena);
list_move(head, &gcmmucontext->vacant);
}
/* Free slave tables. */
while (gcmmucontext->slavealloc != NULL) {
gc_free_cached(&gcmmucontext->slavealloc->pages);
nextblock = gcmmucontext->slavealloc->next;
kfree(gcmmucontext->slavealloc);
gcmmucontext->slavealloc = nextblock;
}
/* Free the master table. */
gc_free_cached(&gcmmucontext->master);
/* Free arenas. */
GCLOCK(&gcmmu->lock);
list_splice_init(&gcmmucontext->vacant, &gcmmu->vacarena);
GCUNLOCK(&gcmmu->lock);
/* Dereference. */
gcmmu->refcount -= 1;
GCEXIT(GCZONE_CONTEXT);
return GCERR_NONE;
exit:
GCEXITARG(GCZONE_CONTEXT, "gcerror = 0x%08X\n", gcerror);
return gcerror;
}
static void free_vacant_unmap(void)
{
struct list_head *head;
struct gcschedunmap *gcschedunmap;
GCLOCK(&g_unmaplock);
while (!list_empty(&g_unmapvac)) {
head = g_unmapvac.next;
gcschedunmap = list_entry(head, struct gcschedunmap, link);
list_del(head);
kfree(gcschedunmap);
}
GCUNLOCK(&g_unmaplock);
}
static void free_vacant_buffers(void)
{
struct list_head *head;
struct gcbuffer *gcbuffer;
GCLOCK(&g_bufferlock);
while (!list_empty(&g_buffervac)) {
head = g_buffervac.next;
gcbuffer = list_entry(head, struct gcbuffer, link);
list_del(head);
kfree(gcbuffer);
}
GCUNLOCK(&g_bufferlock);
}
static void free_vacant_fixups(void)
{
struct list_head *head;
struct gcfixup *gcfixup;
GCLOCK(&g_fixuplock);
while (!list_empty(&g_fixupvac)) {
head = g_fixupvac.next;
gcfixup = list_entry(head, struct gcfixup, link);
list_del(head);
kfree(gcfixup);
}
GCUNLOCK(&g_fixuplock);
}
enum bverror do_map(struct bvbuffdesc *bvbuffdesc,
struct gcbatch *batch,
struct bvbuffmap **map)
{
static const int mapsize
= sizeof(struct bvbuffmap)
+ sizeof(struct bvbuffmapinfo);
enum bverror bverror;
struct gccontext *gccontext = get_context();
struct bvbuffmap *bvbuffmap;
struct bvbuffmapinfo *bvbuffmapinfo;
struct bvphysdesc *bvphysdesc;
bool mappedbyothers;
struct gcimap gcimap;
struct gcschedunmap *gcschedunmap;
GCENTERARG(GCZONE_MAPPING, "bvbuffdesc = 0x%08X\n",
(unsigned int) bvbuffdesc);
/* Lock access to the mapping list. */
GCLOCK(&gccontext->maplock);
/* Try to find existing mapping. */
bvbuffmap = bvbuffdesc->map;
while (bvbuffmap != NULL) {
if (bvbuffmap->bv_unmap == bv_unmap)
break;
bvbuffmap = bvbuffmap->nextmap;
}
/* Not mapped yet? */
if (bvbuffmap == NULL) {
/* New mapping, allocate a record. */
if (gccontext->buffmapvac == NULL) {
bvbuffmap = gcalloc(struct bvbuffmap, mapsize);
if (bvbuffmap == NULL) {
BVSETERROR(BVERR_OOM,
"failed to allocate mapping record");
goto fail;
}
bvbuffmap->structsize = sizeof(struct bvbuffmap);
bvbuffmap->bv_unmap = bv_unmap;
bvbuffmap->handle = (unsigned long) (bvbuffmap + 1);
} else {
enum bverror allocate_batch(struct bvbltparams *bvbltparams,
struct gcbatch **gcbatch)
{
enum bverror bverror;
struct gccontext *gccontext = get_context();
struct gcbatch *temp;
struct gcbuffer *gcbuffer;
GCENTER(GCZONE_BATCH_ALLOC);
/* Lock access to batch management. */
GCLOCK(&gccontext->batchlock);
if (list_empty(&gccontext->batchvac)) {
temp = gcalloc(struct gcbatch, sizeof(struct gcbatch));
if (temp == NULL) {
BVSETBLTERROR(BVERR_OOM,
"batch header allocation failed");
goto exit;
}
GCDBG(GCZONE_BATCH_ALLOC, "allocated new batch = 0x%08X\n",
(unsigned int) temp);
} else {
static void free_fixup(struct gcfixup *gcfixup)
{
GCLOCK(&g_fixuplock);
list_move(&gcfixup->link, &g_fixupvac);
GCUNLOCK(&g_fixuplock);
}
static void free_schedunmap_list(struct list_head *schedunmaplist)
{
GCLOCK(&g_unmaplock);
list_splice_init(schedunmaplist, &g_unmapvac);
GCUNLOCK(&g_unmaplock);
}
static void free_schedunmap(struct gcschedunmap *gcschedunmap)
{
GCLOCK(&g_unmaplock);
list_move(&gcschedunmap->link, &g_unmapvac);
GCUNLOCK(&g_unmaplock);
}
static void free_fixup_list(struct list_head *fixuplist)
{
GCLOCK(&g_fixuplock);
list_splice_init(fixuplist, &g_fixupvac);
GCUNLOCK(&g_fixuplock);
}
