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/* SPDX-License-Identifier: MIT */
#ifndef _INTEL_RINGBUFFER_H_
#define _INTEL_RINGBUFFER_H_
#include <drm/drm_util.h>
#include <linux/hashtable.h>
#include <linux/irq_work.h>
#include <linux/random.h>
#include <linux/seqlock.h>
#include "i915_gem_batch_pool.h"
#include "i915_pmu.h"
#include "i915_reg.h"
#include "i915_request.h"
#include "i915_selftest.h"
#include "i915_timeline.h"
#include "intel_engine_types.h"
#include "intel_gpu_commands.h"
#include "intel_workarounds.h"
struct drm_printer;
/* Early gen2 devices have a cacheline of just 32 bytes, using 64 is overkill,
* but keeps the logic simple. Indeed, the whole purpose of this macro is just
* to give some inclination as to some of the magic values used in the various
* workarounds!
*/
#define CACHELINE_BYTES 64
#define CACHELINE_DWORDS (CACHELINE_BYTES / sizeof(u32))
/*
* The register defines to be used with the following macros need to accept a
* base param, e.g:
*
* REG_FOO(base) _MMIO((base) + <relative offset>)
* ENGINE_READ(engine, REG_FOO);
*
* register arrays are to be defined and accessed as follows:
*
* REG_BAR(base, i) _MMIO((base) + <relative offset> + (i) * <shift>)
* ENGINE_READ_IDX(engine, REG_BAR, i)
*/
#define __ENGINE_REG_OP(op__, engine__, ...) \
intel_uncore_##op__((engine__)->uncore, __VA_ARGS__)
#define __ENGINE_READ_OP(op__, engine__, reg__) \
__ENGINE_REG_OP(op__, (engine__), reg__((engine__)->mmio_base))
#define ENGINE_READ16(...) __ENGINE_READ_OP(read16, __VA_ARGS__)
#define ENGINE_READ(...) __ENGINE_READ_OP(read, __VA_ARGS__)
#define ENGINE_READ_FW(...) __ENGINE_READ_OP(read_fw, __VA_ARGS__)
#define ENGINE_POSTING_READ(...) __ENGINE_READ_OP(posting_read, __VA_ARGS__)
#define ENGINE_POSTING_READ16(...) __ENGINE_READ_OP(posting_read16, __VA_ARGS__)
#define ENGINE_READ64(engine__, lower_reg__, upper_reg__) \
__ENGINE_REG_OP(read64_2x32, (engine__), \
lower_reg__((engine__)->mmio_base), \
upper_reg__((engine__)->mmio_base))
#define ENGINE_READ_IDX(engine__, reg__, idx__) \
__ENGINE_REG_OP(read, (engine__), reg__((engine__)->mmio_base, (idx__)))
#define __ENGINE_WRITE_OP(op__, engine__, reg__, val__) \
__ENGINE_REG_OP(op__, (engine__), reg__((engine__)->mmio_base), (val__))
#define ENGINE_WRITE16(...) __ENGINE_WRITE_OP(write16, __VA_ARGS__)
#define ENGINE_WRITE(...) __ENGINE_WRITE_OP(write, __VA_ARGS__)
#define ENGINE_WRITE_FW(...) __ENGINE_WRITE_OP(write_fw, __VA_ARGS__)
#define GEN6_RING_FAULT_REG_READ(engine__) \
intel_uncore_read((engine__)->uncore, RING_FAULT_REG(engine__))
#define GEN6_RING_FAULT_REG_POSTING_READ(engine__) \
intel_uncore_posting_read((engine__)->uncore, RING_FAULT_REG(engine__))
#define GEN6_RING_FAULT_REG_RMW(engine__, clear__, set__) \
({ \
u32 __val; \
\
__val = intel_uncore_read((engine__)->uncore, \
RING_FAULT_REG(engine__)); \
__val &= ~(clear__); \
__val |= (set__); \
intel_uncore_write((engine__)->uncore, RING_FAULT_REG(engine__), \
__val); \
})
/* seqno size is actually only a uint32, but since we plan to use MI_FLUSH_DW to
* do the writes, and that must have qw aligned offsets, simply pretend it's 8b.
*/
enum intel_engine_hangcheck_action {
ENGINE_IDLE = 0,
ENGINE_WAIT,
ENGINE_ACTIVE_SEQNO,
ENGINE_ACTIVE_HEAD,
ENGINE_ACTIVE_SUBUNITS,
ENGINE_WAIT_KICK,
ENGINE_DEAD,
};
static inline const char *
hangcheck_action_to_str(const enum intel_engine_hangcheck_action a)
{
switch (a) {
case ENGINE_IDLE:
return "idle";
case ENGINE_WAIT:
return "wait";
case ENGINE_ACTIVE_SEQNO:
return "active seqno";
case ENGINE_ACTIVE_HEAD:
return "active head";
case ENGINE_ACTIVE_SUBUNITS:
return "active subunits";
case ENGINE_WAIT_KICK:
return "wait kick";
case ENGINE_DEAD:
return "dead";
}
return "unknown";
}
void intel_engines_set_scheduler_caps(struct drm_i915_private *i915);
static inline void
execlists_set_active(struct intel_engine_execlists *execlists,
unsigned int bit)
{
__set_bit(bit, (unsigned long *)&execlists->active);
}
static inline bool
execlists_set_active_once(struct intel_engine_execlists *execlists,
unsigned int bit)
{
return !__test_and_set_bit(bit, (unsigned long *)&execlists->active);
}
static inline void
execlists_clear_active(struct intel_engine_execlists *execlists,
unsigned int bit)
{
__clear_bit(bit, (unsigned long *)&execlists->active);
}
static inline void
execlists_clear_all_active(struct intel_engine_execlists *execlists)
{
execlists->active = 0;
}
static inline bool
execlists_is_active(const struct intel_engine_execlists *execlists,
unsigned int bit)
{
return test_bit(bit, (unsigned long *)&execlists->active);
}
void execlists_user_begin(struct intel_engine_execlists *execlists,
const struct execlist_port *port);
void execlists_user_end(struct intel_engine_execlists *execlists);
void
execlists_cancel_port_requests(struct intel_engine_execlists * const execlists);
struct i915_request *
execlists_unwind_incomplete_requests(struct intel_engine_execlists *execlists);
static inline unsigned int
execlists_num_ports(const struct intel_engine_execlists * const execlists)
{
return execlists->port_mask + 1;
}
static inline struct execlist_port *
execlists_port_complete(struct intel_engine_execlists * const execlists,
struct execlist_port * const port)
{
const unsigned int m = execlists->port_mask;
GEM_BUG_ON(port_index(port, execlists) != 0);
GEM_BUG_ON(!execlists_is_active(execlists, EXECLISTS_ACTIVE_USER));
memmove(port, port + 1, m * sizeof(struct execlist_port));
memset(port + m, 0, sizeof(struct execlist_port));
return port;
}
static inline u32
intel_read_status_page(const struct intel_engine_cs *engine, int reg)
{
/* Ensure that the compiler doesn't optimize away the load. */
return READ_ONCE(engine->status_page.addr[reg]);
}
static inline void
intel_write_status_page(struct intel_engine_cs *engine, int reg, u32 value)
{
/* Writing into the status page should be done sparingly. Since
* we do when we are uncertain of the device state, we take a bit
* of extra paranoia to try and ensure that the HWS takes the value
* we give and that it doesn't end up trapped inside the CPU!
*/
if (static_cpu_has(X86_FEATURE_CLFLUSH)) {
mb();
clflush(&engine->status_page.addr[reg]);
engine->status_page.addr[reg] = value;
clflush(&engine->status_page.addr[reg]);
mb();
} else {
WRITE_ONCE(engine->status_page.addr[reg], value);
}
}
/*
* Reads a dword out of the status page, which is written to from the command
* queue by automatic updates, MI_REPORT_HEAD, MI_STORE_DATA_INDEX, or
* MI_STORE_DATA_IMM.
*
* The following dwords have a reserved meaning:
* 0x00: ISR copy, updated when an ISR bit not set in the HWSTAM changes.
* 0x04: ring 0 head pointer
* 0x05: ring 1 head pointer (915-class)
* 0x06: ring 2 head pointer (915-class)
* 0x10-0x1b: Context status DWords (GM45)
* 0x1f: Last written status offset. (GM45)
* 0x20-0x2f: Reserved (Gen6+)
*
* The area from dword 0x30 to 0x3ff is available for driver usage.
*/
#define I915_GEM_HWS_PREEMPT 0x32
#define I915_GEM_HWS_PREEMPT_ADDR (I915_GEM_HWS_PREEMPT * sizeof(u32))
#define I915_GEM_HWS_SEQNO 0x40
#define I915_GEM_HWS_SEQNO_ADDR (I915_GEM_HWS_SEQNO * sizeof(u32))
#define I915_GEM_HWS_SCRATCH 0x80
#define I915_GEM_HWS_SCRATCH_ADDR (I915_GEM_HWS_SCRATCH * sizeof(u32))
#define I915_HWS_CSB_BUF0_INDEX 0x10
#define I915_HWS_CSB_WRITE_INDEX 0x1f
#define CNL_HWS_CSB_WRITE_INDEX 0x2f
struct intel_ring *
intel_engine_create_ring(struct intel_engine_cs *engine,
struct i915_timeline *timeline,
int size);
int intel_ring_pin(struct intel_ring *ring);
void intel_ring_reset(struct intel_ring *ring, u32 tail);
unsigned int intel_ring_update_space(struct intel_ring *ring);
void intel_ring_unpin(struct intel_ring *ring);
void intel_ring_free(struct kref *ref);
static inline struct intel_ring *intel_ring_get(struct intel_ring *ring)
{
kref_get(&ring->ref);
return ring;
}
static inline void intel_ring_put(struct intel_ring *ring)
{
kref_put(&ring->ref, intel_ring_free);
}
void intel_engine_stop(struct intel_engine_cs *engine);
void intel_engine_cleanup(struct intel_engine_cs *engine);
int __must_check intel_ring_cacheline_align(struct i915_request *rq);
u32 __must_check *intel_ring_begin(struct i915_request *rq, unsigned int n);
static inline void intel_ring_advance(struct i915_request *rq, u32 *cs)
{
/* Dummy function.
*
* This serves as a placeholder in the code so that the reader
* can compare against the preceding intel_ring_begin() and
* check that the number of dwords emitted matches the space
* reserved for the command packet (i.e. the value passed to
* intel_ring_begin()).
*/
GEM_BUG_ON((rq->ring->vaddr + rq->ring->emit) != cs);
}
static inline u32 intel_ring_wrap(const struct intel_ring *ring, u32 pos)
{
return pos & (ring->size - 1);
}
static inline bool
intel_ring_offset_valid(const struct intel_ring *ring,
unsigned int pos)
{
if (pos & -ring->size) /* must be strictly within the ring */
return false;
if (!IS_ALIGNED(pos, 8)) /* must be qword aligned */
return false;
return true;
}
static inline u32 intel_ring_offset(const struct i915_request *rq, void *addr)
{
/* Don't write ring->size (equivalent to 0) as that hangs some GPUs. */
u32 offset = addr - rq->ring->vaddr;
GEM_BUG_ON(offset > rq->ring->size);
return intel_ring_wrap(rq->ring, offset);
}
static inline void
assert_ring_tail_valid(const struct intel_ring *ring, unsigned int tail)
{
GEM_BUG_ON(!intel_ring_offset_valid(ring, tail));
/*
* "Ring Buffer Use"
* Gen2 BSpec "1. Programming Environment" / 1.4.4.6
* Gen3 BSpec "1c Memory Interface Functions" / 2.3.4.5
* Gen4+ BSpec "1c Memory Interface and Command Stream" / 5.3.4.5
* "If the Ring Buffer Head Pointer and the Tail Pointer are on the
* same cacheline, the Head Pointer must not be greater than the Tail
* Pointer."
*
* We use ring->head as the last known location of the actual RING_HEAD,
* it may have advanced but in the worst case it is equally the same
* as ring->head and so we should never program RING_TAIL to advance
* into the same cacheline as ring->head.
*/
#define cacheline(a) round_down(a, CACHELINE_BYTES)
GEM_BUG_ON(cacheline(tail) == cacheline(ring->head) &&
tail < ring->head);
#undef cacheline
}
static inline unsigned int
intel_ring_set_tail(struct intel_ring *ring, unsigned int tail)
{
/* Whilst writes to the tail are strictly order, there is no
* serialisation between readers and the writers. The tail may be
* read by i915_request_retire() just as it is being updated
* by execlists, as although the breadcrumb is complete, the context
* switch hasn't been seen.
*/
assert_ring_tail_valid(ring, tail);
ring->tail = tail;
return tail;
}
static inline unsigned int
__intel_ring_space(unsigned int head, unsigned int tail, unsigned int size)
{
/*
* "If the Ring Buffer Head Pointer and the Tail Pointer are on the
* same cacheline, the Head Pointer must not be greater than the Tail
* Pointer."
*/
GEM_BUG_ON(!is_power_of_2(size));
return (head - tail - CACHELINE_BYTES) & (size - 1);
}
int intel_engines_init_mmio(struct drm_i915_private *i915);
int intel_engines_setup(struct drm_i915_private *i915);
int intel_engines_init(struct drm_i915_private *i915);
void intel_engines_cleanup(struct drm_i915_private *i915);
int intel_engine_init_common(struct intel_engine_cs *engine);
void intel_engine_cleanup_common(struct intel_engine_cs *engine);
int intel_ring_submission_setup(struct intel_engine_cs *engine);
int intel_ring_submission_init(struct intel_engine_cs *engine);
int intel_engine_stop_cs(struct intel_engine_cs *engine);
void intel_engine_cancel_stop_cs(struct intel_engine_cs *engine);
void intel_engine_set_hwsp_writemask(struct intel_engine_cs *engine, u32 mask);
u64 intel_engine_get_active_head(const struct intel_engine_cs *engine);
u64 intel_engine_get_last_batch_head(const struct intel_engine_cs *engine);
void intel_engine_get_instdone(struct intel_engine_cs *engine,
struct intel_instdone *instdone);
void intel_engine_init_execlists(struct intel_engine_cs *engine);
void intel_engine_init_breadcrumbs(struct intel_engine_cs *engine);
void intel_engine_fini_breadcrumbs(struct intel_engine_cs *engine);
void intel_engine_pin_breadcrumbs_irq(struct intel_engine_cs *engine);
void intel_engine_unpin_breadcrumbs_irq(struct intel_engine_cs *engine);
void intel_engine_signal_breadcrumbs(struct intel_engine_cs *engine);
void intel_engine_disarm_breadcrumbs(struct intel_engine_cs *engine);
static inline void
intel_engine_queue_breadcrumbs(struct intel_engine_cs *engine)
{
irq_work_queue(&engine->breadcrumbs.irq_work);
}
void intel_engine_breadcrumbs_irq(struct intel_engine_cs *engine);
void intel_engine_reset_breadcrumbs(struct intel_engine_cs *engine);
void intel_engine_fini_breadcrumbs(struct intel_engine_cs *engine);
void intel_engine_print_breadcrumbs(struct intel_engine_cs *engine,
struct drm_printer *p);
static inline u32 *gen8_emit_pipe_control(u32 *batch, u32 flags, u32 offset)
{
memset(batch, 0, 6 * sizeof(u32));
batch[0] = GFX_OP_PIPE_CONTROL(6);
batch[1] = flags;
batch[2] = offset;
return batch + 6;
}
static inline u32 *
gen8_emit_ggtt_write_rcs(u32 *cs, u32 value, u32 gtt_offset, u32 flags)
{
/* We're using qword write, offset should be aligned to 8 bytes. */
GEM_BUG_ON(!IS_ALIGNED(gtt_offset, 8));
/* w/a for post sync ops following a GPGPU operation we
* need a prior CS_STALL, which is emitted by the flush
* following the batch.
*/
*cs++ = GFX_OP_PIPE_CONTROL(6);
*cs++ = flags | PIPE_CONTROL_QW_WRITE | PIPE_CONTROL_GLOBAL_GTT_IVB;
*cs++ = gtt_offset;
*cs++ = 0;
*cs++ = value;
/* We're thrashing one dword of HWS. */
*cs++ = 0;
return cs;
}
static inline u32 *
gen8_emit_ggtt_write(u32 *cs, u32 value, u32 gtt_offset, u32 flags)
{
/* w/a: bit 5 needs to be zero for MI_FLUSH_DW address. */
GEM_BUG_ON(gtt_offset & (1 << 5));
/* Offset should be aligned to 8 bytes for both (QW/DW) write types */
GEM_BUG_ON(!IS_ALIGNED(gtt_offset, 8));
*cs++ = (MI_FLUSH_DW + 1) | MI_FLUSH_DW_OP_STOREDW | flags;
*cs++ = gtt_offset | MI_FLUSH_DW_USE_GTT;
*cs++ = 0;
*cs++ = value;
return cs;
}
static inline void intel_engine_reset(struct intel_engine_cs *engine,
bool stalled)
{
if (engine->reset.reset)
engine->reset.reset(engine, stalled);
engine->serial++; /* contexts lost */
}
bool intel_engine_is_idle(struct intel_engine_cs *engine);
bool intel_engines_are_idle(struct drm_i915_private *dev_priv);
void intel_engine_lost_context(struct intel_engine_cs *engine);
void intel_engines_reset_default_submission(struct drm_i915_private *i915);
unsigned int intel_engines_has_context_isolation(struct drm_i915_private *i915);
bool intel_engine_can_store_dword(struct intel_engine_cs *engine);
__printf(3, 4)
void intel_engine_dump(struct intel_engine_cs *engine,
struct drm_printer *m,
const char *header, ...);
struct intel_engine_cs *
intel_engine_lookup_user(struct drm_i915_private *i915, u8 class, u8 instance);
static inline void intel_engine_context_in(struct intel_engine_cs *engine)
{
unsigned long flags;
if (READ_ONCE(engine->stats.enabled) == 0)
return;
write_seqlock_irqsave(&engine->stats.lock, flags);
if (engine->stats.enabled > 0) {
if (engine->stats.active++ == 0)
engine->stats.start = ktime_get();
GEM_BUG_ON(engine->stats.active == 0);
}
write_sequnlock_irqrestore(&engine->stats.lock, flags);
}
static inline void intel_engine_context_out(struct intel_engine_cs *engine)
{
unsigned long flags;
if (READ_ONCE(engine->stats.enabled) == 0)
return;
write_seqlock_irqsave(&engine->stats.lock, flags);
if (engine->stats.enabled > 0) {
ktime_t last;
if (engine->stats.active && --engine->stats.active == 0) {
/*
* Decrement the active context count and in case GPU
* is now idle add up to the running total.
*/
last = ktime_sub(ktime_get(), engine->stats.start);
engine->stats.total = ktime_add(engine->stats.total,
last);
} else if (engine->stats.active == 0) {
/*
* After turning on engine stats, context out might be
* the first event in which case we account from the
* time stats gathering was turned on.
*/
last = ktime_sub(ktime_get(), engine->stats.enabled_at);
engine->stats.total = ktime_add(engine->stats.total,
last);
}
}
write_sequnlock_irqrestore(&engine->stats.lock, flags);
}
int intel_enable_engine_stats(struct intel_engine_cs *engine);
void intel_disable_engine_stats(struct intel_engine_cs *engine);
ktime_t intel_engine_get_busy_time(struct intel_engine_cs *engine);
struct i915_request *
intel_engine_find_active_request(struct intel_engine_cs *engine);
u32 intel_engine_context_size(struct drm_i915_private *i915, u8 class);
#if IS_ENABLED(CONFIG_DRM_I915_SELFTEST)
static inline bool inject_preempt_hang(struct intel_engine_execlists *execlists)
{
if (!execlists->preempt_hang.inject_hang)
return false;
complete(&execlists->preempt_hang.completion);
return true;
}
#else
static inline bool inject_preempt_hang(struct intel_engine_execlists *execlists)
{
return false;
}
#endif
#endif /* _INTEL_RINGBUFFER_H_ */
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