#include <limits.h>
-#include "main/bitset.h"
+#include "util/bitset.h"
#include "main/hash.h"
#include "main/macros.h"
#include "main/mtypes.h"
* documentation, but is available by reading the source code for the
* intel_perf_counters utility (shipped as part of intel-gpu-tools).
*/
-const static struct gl_perf_monitor_counter gen5_raw_chaps_counters[] = {
+static const struct gl_perf_monitor_counter gen5_raw_chaps_counters[] = {
COUNTER("cycles the CS unit is starved"),
COUNTER("cycles the CS unit is stalled"),
COUNTER("cycles the VF unit is starved"),
COUNTER("cycles any EU is stalled for math"),
};
-const static int gen5_oa_snapshot_layout[] =
+static const int gen5_oa_snapshot_layout[] =
{
-1, /* Report ID */
-1, /* TIMESTAMP (64-bit) */
28, /* cycles any EU is stalled for math */
};
-const static struct gl_perf_monitor_group gen5_groups[] = {
+static const struct gl_perf_monitor_group gen5_groups[] = {
[OA_COUNTERS] = GROUP("CHAPS Counters", INT_MAX, gen5_raw_chaps_counters),
/* Our pipeline statistics counter handling requires hardware contexts. */
};
/**
* Aggregating counters A0-A28:
*/
-const static struct gl_perf_monitor_counter gen6_raw_oa_counters[] = {
+static const struct gl_perf_monitor_counter gen6_raw_oa_counters[] = {
/* A0: 0 */ COUNTER("Aggregated Core Array Active"),
/* A1: 1 */ COUNTER("Aggregated Core Array Stalled"),
/* A2: 2 */ COUNTER("Vertex Shader Active Time"),
*
* (Yes, this is a strange order.) We also have to remap for missing counters.
*/
-const static int gen6_oa_snapshot_layout[] =
+static const int gen6_oa_snapshot_layout[] =
{
-1, /* Report ID */
-1, /* TIMESTAMP (64-bit) */
18, /* A21: Pixel Kill Count */
};
-const static struct gl_perf_monitor_counter gen6_statistics_counters[] = {
+static const struct gl_perf_monitor_counter gen6_statistics_counters[] = {
COUNTER64("IA_VERTICES_COUNT"),
COUNTER64("IA_PRIMITIVES_COUNT"),
COUNTER64("VS_INVOCATION_COUNT"),
};
/** MMIO register addresses for each pipeline statistics counter. */
-const static int gen6_statistics_register_addresses[] = {
+static const int gen6_statistics_register_addresses[] = {
IA_VERTICES_COUNT,
IA_PRIMITIVES_COUNT,
VS_INVOCATION_COUNT,
GEN6_SO_PRIM_STORAGE_NEEDED,
};
-const static struct gl_perf_monitor_group gen6_groups[] = {
+static const struct gl_perf_monitor_group gen6_groups[] = {
GROUP("Observability Architecture Counters", INT_MAX, gen6_raw_oa_counters),
GROUP("Pipeline Statistics Registers", INT_MAX, gen6_statistics_counters),
};
* Ivybridge/Baytrail/Haswell:
* @{
*/
-const static struct gl_perf_monitor_counter gen7_raw_oa_counters[] = {
+static const struct gl_perf_monitor_counter gen7_raw_oa_counters[] = {
COUNTER("Aggregated Core Array Active"),
COUNTER("Aggregated Core Array Stalled"),
COUNTER("Vertex Shader Active Time"),
* B7 B6 B5 B4 B3 B2 B1 B0
* Rsv Rsv Rsv Rsv Rsv Rsv Rsv Rsv
*/
-const static int gen7_oa_snapshot_layout[] =
+static const int gen7_oa_snapshot_layout[] =
{
-1, /* Report ID */
-1, /* TIMESTAMP (64-bit) */
-1, /* Reserved */
};
-const static struct gl_perf_monitor_counter gen7_statistics_counters[] = {
+static const struct gl_perf_monitor_counter gen7_statistics_counters[] = {
COUNTER64("IA_VERTICES_COUNT"),
COUNTER64("IA_PRIMITIVES_COUNT"),
COUNTER64("VS_INVOCATION_COUNT"),
};
/** MMIO register addresses for each pipeline statistics counter. */
-const static int gen7_statistics_register_addresses[] = {
+static const int gen7_statistics_register_addresses[] = {
IA_VERTICES_COUNT,
IA_PRIMITIVES_COUNT,
VS_INVOCATION_COUNT,
GEN7_SO_PRIM_STORAGE_NEEDED(3),
};
-const static struct gl_perf_monitor_group gen7_groups[] = {
+static const struct gl_perf_monitor_group gen7_groups[] = {
GROUP("Observability Architecture Counters", INT_MAX, gen7_raw_oa_counters),
GROUP("Pipeline Statistics Registers", INT_MAX, gen7_statistics_counters),
};
const int group = PIPELINE_STATS_COUNTERS;
const int num_counters = ctx->PerfMonitor.Groups[group].NumCounters;
- intel_batchbuffer_emit_mi_flush(brw);
+ brw_emit_mi_flush(brw);
for (int i = 0; i < num_counters; i++) {
if (BITSET_TEST(monitor->base.ActiveCounters[group], i)) {
* The amount of batch space it takes to emit an MI_REPORT_PERF_COUNT snapshot,
* including the required PIPE_CONTROL flushes.
*
- * Sandybridge is the worst case scenario: intel_batchbuffer_emit_mi_flush
+ * Sandybridge is the worst case scenario: brw_emit_mi_flush
* expands to three PIPE_CONTROLs which are 4 DWords each. We have to flush
* before and after MI_REPORT_PERF_COUNT, so multiply by two. Finally, add
* the 3 DWords for MI_REPORT_PERF_COUNT itself.
/* Make sure the commands to take a snapshot fits in a single batch. */
intel_batchbuffer_require_space(brw, MI_REPORT_PERF_COUNT_BATCH_DWORDS * 4,
RENDER_RING);
- int batch_used = brw->batch.used;
+ int batch_used = USED_BATCH(brw->batch);
/* Reports apparently don't always get written unless we flush first. */
- intel_batchbuffer_emit_mi_flush(brw);
+ brw_emit_mi_flush(brw);
if (brw->gen == 5) {
/* Ironlake requires two MI_REPORT_PERF_COUNT commands to write all
}
/* Reports apparently don't always get written unless we flush after. */
- intel_batchbuffer_emit_mi_flush(brw);
+ brw_emit_mi_flush(brw);
(void) batch_used;
- assert(brw->batch.used - batch_used <= MI_REPORT_PERF_COUNT_BATCH_DWORDS * 4);
+ assert(USED_BATCH(brw->batch) - batch_used <= MI_REPORT_PERF_COUNT_BATCH_DWORDS * 4);
}
/**
return;
}
- const int snapshot_size = brw->perfmon.entries_per_oa_snapshot;
+ const ptrdiff_t snapshot_size = brw->perfmon.entries_per_oa_snapshot;
/* First, add the contributions from the "head" interval:
* (snapshot taken at BeginPerfMonitor time,
{
struct brw_context *brw = brw_context(ctx);
struct brw_perf_monitor_object *monitor = brw_perf_monitor(m);
+ const GLuint *const data_end = (GLuint *)((uint8_t *) data + data_size);
DBG("GetResult(%d)\n", m->Name);
brw_dump_perf_monitors(brw);
if (counter < 0 || !BITSET_TEST(m->ActiveCounters[group], counter))
continue;
- data[offset++] = group;
- data[offset++] = counter;
- data[offset++] = monitor->oa_results[i];
+ if (data + offset + 3 <= data_end) {
+ data[offset++] = group;
+ data[offset++] = counter;
+ data[offset++] = monitor->oa_results[i];
+ }
}
clean_bookend_bo(brw);
for (int i = 0; i < num_counters; i++) {
if (BITSET_TEST(m->ActiveCounters[PIPELINE_STATS_COUNTERS], i)) {
- data[offset++] = PIPELINE_STATS_COUNTERS;
- data[offset++] = i;
- *((uint64_t *) (&data[offset])) = monitor->pipeline_stats_results[i];
- offset += 2;
+ if (data + offset + 4 <= data_end) {
+ data[offset++] = PIPELINE_STATS_COUNTERS;
+ data[offset++] = i;
+ *((uint64_t *) (&data[offset])) = monitor->pipeline_stats_results[i];
+ offset += 2;
+ }
}
}
}
static struct gl_perf_monitor_object *
brw_new_perf_monitor(struct gl_context *ctx)
{
+ (void) ctx;
return calloc(1, sizeof(struct brw_perf_monitor_object));
}
brw_perf_monitor_new_batch(struct brw_context *brw)
{
assert(brw->batch.ring == RENDER_RING);
- assert(brw->gen < 6 || brw->batch.used == 0);
+ assert(brw->gen < 6 || USED_BATCH(brw->batch) == 0);
if (brw->perfmon.oa_users == 0)
return;