open-gpu-kernel-modules/kernel-open/nvidia-uvm/uvm_tracker.h
2022-05-09 13:18:59 -07:00

220 lines
8.9 KiB
C

/*******************************************************************************
Copyright (c) 2015-2019 NVIDIA Corporation
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#ifndef __UVM_TRACKER_H__
#define __UVM_TRACKER_H__
#include "uvm_forward_decl.h"
#include "uvm_linux.h"
#include "nvtypes.h"
#include "nvstatus.h"
typedef struct
{
// Tracked channel
//
// If NULL the entry is considered to be completed.
uvm_channel_t *channel;
// Tracked channel's tracking semaphore value
NvU64 value;
} uvm_tracker_entry_t;
typedef struct
{
union
{
// The default static storage can fit a single entry as that's likely
// the most common use-case. If the tracker ever needs more space, a
// dynamic allocation will be made as part of adding an entry and
// dynamic_entries below will be used.
uvm_tracker_entry_t static_entries[1];
// Pointer to the array with dynamically allocated entries
uvm_tracker_entry_t *dynamic_entries;
};
// Number of used entries in the tracker
NvU32 size;
// Max number of entries that the entries array can store currently
NvU32 max_size;
} uvm_tracker_t;
// Static initializer for a tracker.
// Importantly max_size needs to be set to the size of the static_entries array
// so that uvm_tracker_get_entries() works correctly.
// Note that the extra braces are necessary to avoid missing braces warning all the way down to:
// (near initialization for tracker.<anonymous>.static_entries[0]) [-Wmissing-braces]
#define UVM_TRACKER_INIT() { { { { 0 } } }, 0, ARRAY_SIZE(((uvm_tracker_t *)0)->static_entries) }
// Initialize a tracker
// This is guaranteed not to allocate any memory.
static void uvm_tracker_init(uvm_tracker_t *tracker)
{
*tracker = (uvm_tracker_t)UVM_TRACKER_INIT();
}
// Deinitialize a tracker
// This will free any dynamic entries from the tracker
void uvm_tracker_deinit(uvm_tracker_t *tracker);
// Overwrite a tracker using different tracker, which must be previously initialized.
// This may require allocating memory to fit entries in the tracker. On failure,
// dst is cleared and src is left unmodified.
NV_STATUS uvm_tracker_overwrite(uvm_tracker_t *dst, uvm_tracker_t *src);
// Initialize tracker from another tracker.
// This may require allocating memory to fit entries in the tracker.
// On failure, uvm_tracker_deinit(dst) is safe but not required.
NV_STATUS uvm_tracker_init_from(uvm_tracker_t *dst, uvm_tracker_t *src);
// Clear a tracker
// Remove all entries from tracker
//
// This won't change the max size of the tracker.
static void uvm_tracker_clear(uvm_tracker_t *tracker)
{
tracker->size = 0;
}
// Reserve enough space so min_free_entries can be added to the tracker
// without requiring memory allocation.
NV_STATUS uvm_tracker_reserve(uvm_tracker_t *tracker, NvU32 min_free_entries);
// Add a push to the tracker
// The push needs be finished, i.e. uvm_push_end*() has been called on it.
// This may require allocating memory to fit a new entry in the tracker
NV_STATUS uvm_tracker_add_push(uvm_tracker_t *tracker, uvm_push_t *push);
// Add a uvm_tracker_entry_t to a tracker
// This may require allocating memory to fit a new entry in the tracker
NV_STATUS uvm_tracker_add_entry(uvm_tracker_t *tracker, uvm_tracker_entry_t *new_entry);
// Overwrite the tracker with a single entry
// This will never allocate memory as an empty tracker always has space for at
// least one entry and hence can never fail.
void uvm_tracker_overwrite_with_entry(uvm_tracker_t *tracker, uvm_tracker_entry_t *new_entry);
// Overwrite the tracker with an entry from a push
// This will never allocate memory as an empty tracker always has space for at
// least one entry and hence can never fail.
void uvm_tracker_overwrite_with_push(uvm_tracker_t *tracker, uvm_push_t *push);
// Add all entries from another tracker
// This may require allocating memory to fit a new entry in the tracker.
// On error no entries are added to destination tracker.
NV_STATUS uvm_tracker_add_tracker(uvm_tracker_t *dst, uvm_tracker_t *src);
// "Safe" versions of the above. If memory cannot be allocated to add the new
// entries, these functions stall until entries are free.
NV_STATUS uvm_tracker_overwrite_safe(uvm_tracker_t *dst, uvm_tracker_t *src);
NV_STATUS uvm_tracker_add_push_safe(uvm_tracker_t *tracker, uvm_push_t *push);
NV_STATUS uvm_tracker_add_entry_safe(uvm_tracker_t *tracker, uvm_tracker_entry_t *new_entry);
NV_STATUS uvm_tracker_add_tracker_safe(uvm_tracker_t *dst, uvm_tracker_t *src);
// Query whether all entries in the tracker are complete
//
// This won't change the max size of the tracker.
bool uvm_tracker_is_completed(uvm_tracker_t *tracker);
// Wait for all tracker entries to complete
// This can only fail if a fatal error is hit that uvm_tracker_check_errors()
// would return.
// Both, on success and failure, all the entries will be removed from the
// tracker. This is done even on failure as otherwise it could be impossible to
// remove some entries from the tracker and they would eventually become invalid
// after the channels they track are destroyed.
//
// This won't change the max size of the tracker.
NV_STATUS uvm_tracker_wait(uvm_tracker_t *tracker);
// Wait for all tracker entries for other GPUs to complete
//
// This can only fail if a fatal error is hit that uvm_tracker_check_errors()
// would return. On success, all the entries for GPUs other than the passed in
// GPU will be removed from the tracker. On failure, all entries will be removed
// from the tracker, same as for uvm_tracker_wait().
//
// This won't change the max size of the tracker.
NV_STATUS uvm_tracker_wait_for_other_gpus(uvm_tracker_t *tracker, uvm_gpu_t *gpu);
// Helper to wait for a tracker, then deinit it.
static NV_STATUS uvm_tracker_wait_deinit(uvm_tracker_t *tracker)
{
NV_STATUS status = uvm_tracker_wait(tracker);
uvm_tracker_deinit(tracker);
return status;
}
// Wait for a single tracker entry
//
// Similarly to uvm_tracker_wait(), if a global error is hit, the tracker_entry
// will be set to an empty value that's considered complete (its channel set to NULL).
NV_STATUS uvm_tracker_wait_for_entry(uvm_tracker_entry_t *tracker_entry);
bool uvm_tracker_is_entry_completed(uvm_tracker_entry_t *tracker_entry);
// Check for a global error and errors on all the channels that are tracked by the tracker
//
// This won't change the max size of the tracker.
NV_STATUS uvm_tracker_check_errors(uvm_tracker_t *tracker);
// Check whether a tracker is complete and check for any errors
// This is a shortcut for uvm_tracker_is_completed() + uvm_tracker_check_errors().
// If the tracker is complete and there are no errors, NV_OK is returned.
// If the tracker is not complete and there are no errors, NV_WARN_MORE_PROCESSING_REQUIRED is returned.
// If there are any errors, the error is returned.
//
// This won't change the max size of the tracker.
//
// Warning: If you call this in a spin loop, you should call schedule()
// periodically to break deadlock between RM and UVM. See the comments in
// uvm_spin_loop.
NV_STATUS uvm_tracker_query(uvm_tracker_t *tracker);
// Query all entries for completion and remove the completed ones
//
// This won't change the max size of the tracker.
void uvm_tracker_remove_completed(uvm_tracker_t *tracker);
// Get the array of tracker entries
uvm_tracker_entry_t *uvm_tracker_get_entries(uvm_tracker_t *tracker);
static bool uvm_tracker_is_empty(uvm_tracker_t *tracker)
{
return tracker->size == 0;
}
uvm_gpu_t *uvm_tracker_entry_gpu(uvm_tracker_entry_t *entry);
// Helper to iterate over all tracker entries
#define for_each_tracker_entry(entry, tracker) \
for (entry = &uvm_tracker_get_entries(tracker)[0]; \
entry != &uvm_tracker_get_entries(tracker)[(tracker)->size]; \
++entry)
#endif // __UVM_TRACKER_H__