RISC-V privilege specification does not specify how to encode the event ID.
Therefore, each platform is allowed to customize its own encoding rule.
The common encoding methods are as follow, directly assigning a number to an
event, or every bit in the mphmevent CSR controls one specified event or
mixes the above two methods.
To enable OpenSBI to support the above three encoding methods simultaneously,
this patch repurpose the dt property "riscv,raw-event-to-mhpmcounters". The
"riscv,raw-event-to-mhpmcounters" will describes the one or multiple raw
events that could be counted by a set of counters. But, the column number
of "riscv,raw-event-to-mhpmcounters" is extended from 2 to 3. The 1st column
(64bit) is the ID of the raw events. The 2nd column (64bit) represents a
select_mask now to represent the bits used for event ID encoding.
If a platform directly encodes each raw PMU event as a unique ID,
the value of select_mask will be 0xffffffff_ffffffff.
Signed-off-by: Vincent Chen <vincent.chen@sifive.com>
Signed-off-by: Atish Patra<atishp@rivosinc.com>
Reviewed-by: Anup Patel <anup.patel@wdc.com>
shouldn't encode any raw event.
* **riscv,raw-event-to-mhpmcounters**(Optional) - It represents an ONE-to-MANY
-mapping between a raw event and all the MHPMCOUNTERx in a bitmap format that can
-be used to monitor that raw event. The information is encoded in a table format
-where each raw represent a specific raw event. The first column stores the
-expected event selector value that should be encoded in the expected value to be
-written in MHPMEVENTx. The second column stores a bitmap of all the MHPMCOUNTERx
-that can be used for monitoring the specified event.
+or MANY-to-MANY mapping between the raw event(s) and all the MHPMCOUNTERx in
+a bitmap format that can be used to monitor that raw event, which depends on
+how the platform encodes the monitor events. Currently, only the following three
+encoding methods are supported, encoding each event as a number, using a bitmap
+to encode monitor events, and mixing the previous two methods. The information
+is encoded in a table format where each row represent the specific raw event(s).
+The first column represents a 64-bit selector value which can indicate an
+monitor event ID (encoded by a number) or an event set (encoded by a bitmap).
+In case of the latter, the lower bits used to encode a set of events should be
+set to zero. The second column is a 64-bit selector mask where any bits used
+for event encoding will be cleared. If a platform directly encodes each raw PMU
+event as a unique ID, the value of select_mask will be 0xffffffff_ffffffff.
+The third column represent a bitmap of all the MHPMCOUNTERx that can be used for
+monitoring the specified event(s).
*Note:* A platform may choose to provide the mapping between event & counters
via platform hooks rather than the device tree.
<0x00002 0x00002 0x00000004>,
<0x00003 0x0000A 0x00000ff8>,
<0x10000 0x10033 0x000ff000>,
- riscv,raw-event-to-mhpmcounters = <0x0000 0x0002 0x00000f8>,
- <0x0000 0x0003 0x00000ff0>,
+ riscv,raw-event-to-mhpmcounters = <0x0000 0x0002 0xffffffff 0xffffffff 0x00000f8>,
+ <0xffffffff 0xfffffff0 0xffffffff 0xfffffff0 0x00000ff0>,
};
```
* @return 0 on success, error otherwise.
*/
-int sbi_pmu_add_raw_event_counter_map(uint64_t select, u32 cmap);
+int sbi_pmu_add_raw_event_counter_map(uint64_t select, uint64_t select_mask, u32 cmap);
int sbi_pmu_ctr_read(uint32_t cidx, unsigned long *cval);
uint32_t counters;
uint32_t start_idx;
uint32_t end_idx;
- /* Event selector value used only for raw events */
+ /* Event selector value used only for raw events. The event select value
+ * can be a even id or a selector value for set of events encoded in few
+ * bits. In case latter, the bits used for encoding of the events should
+ * be zeroed out in the select value.
+ */
uint64_t select;
+ /**
+ * The select_mask indicates which bits are encoded for the event(s).
+ */
+ uint64_t select_mask;
};
/** Representation of a firmware event */
}
static bool pmu_event_select_overlap(struct sbi_pmu_hw_event *evt,
- uint64_t select_val)
+ uint64_t select_val, uint64_t select_mask)
{
- if (evt->select == select_val)
+ if ((evt->select == select_val) && (evt->select_mask == select_mask))
return TRUE;
return FALSE;
}
static int pmu_add_hw_event_map(u32 eidx_start, u32 eidx_end, u32 cmap,
- uint64_t select)
+ uint64_t select, uint64_t select_mask)
{
int i = 0;
bool is_overlap;
for (i = 0; i < num_hw_events; i++) {
if (eidx_start == SBI_PMU_EVENT_RAW_IDX)
/* All raw events have same event idx. Just do sanity check on select */
- is_overlap = pmu_event_select_overlap(&hw_event_map[i], select);
+ is_overlap = pmu_event_select_overlap(&hw_event_map[i],
+ select, select_mask);
else
is_overlap = pmu_event_range_overlap(&hw_event_map[i], event);
if (is_overlap)
goto reset_event;
}
+ event->select_mask = select_mask;
event->counters = cmap;
event->select = select;
num_hw_events++;
eidx_end == SBI_PMU_EVENT_RAW_IDX)
return SBI_EINVAL;
- return pmu_add_hw_event_map(eidx_start, eidx_end, cmap, 0);
+ return pmu_add_hw_event_map(eidx_start, eidx_end, cmap, 0, 0);
}
-int sbi_pmu_add_raw_event_counter_map(uint64_t select, u32 cmap)
+int sbi_pmu_add_raw_event_counter_map(uint64_t select, uint64_t select_mask, u32 cmap)
{
return pmu_add_hw_event_map(SBI_PMU_EVENT_RAW_IDX,
- SBI_PMU_EVENT_RAW_IDX, cmap, select);
+ SBI_PMU_EVENT_RAW_IDX, cmap, select, select_mask);
}
static int pmu_ctr_enable_irq_hw(int ctr_idx)
continue;
/* For raw events, event data is used as the select value */
- if ((event_idx == SBI_PMU_EVENT_RAW_IDX) && temp->select != data)
- continue;
+ if (event_idx == SBI_PMU_EVENT_RAW_IDX) {
+ uint64_t select_mask = temp->select_mask;
+ /* The non-event map bits of data should match the selector */
+ if (temp->select != (data & select_mask))
+ continue;
+ }
/* Fixed counters should not be part of the search */
ctr_mask = temp->counters & (cmask << cbase) &
(~SBI_PMU_FIXED_CTR_MASK);
else
return SBI_EFAIL;
}
-
ret = pmu_update_hw_mhpmevent(temp, ctr_idx, flags, event_idx, data);
if (!ret)
const u32 *event_val;
const u32 *event_ctr_map;
struct fdt_pmu_hw_event_select *event;
- uint64_t raw_selector;
+ uint64_t raw_selector, select_mask;
u32 event_idx_start, event_idx_end, ctr_map;
if (!fdt)
}
event_val = fdt_getprop(fdt, pmu_offset, "riscv,raw-event-to-mhpmcounters", &len);
- if (!event_val || len < 8)
+ if (!event_val || len < 20)
return SBI_EFAIL;
- len = len / (sizeof(u32) * 3);
+ len = len / (sizeof(u32) * 5);
for (i = 0; i < len; i++) {
- raw_selector = fdt32_to_cpu(event_val[3 * i]);
- raw_selector = (raw_selector << 32) | fdt32_to_cpu(event_val[3 * i + 1]);
- ctr_map = fdt32_to_cpu(event_val[3 * i + 2]);
- result = sbi_pmu_add_raw_event_counter_map(raw_selector, ctr_map);
+ raw_selector = fdt32_to_cpu(event_val[5 * i]);
+ raw_selector = (raw_selector << 32) | fdt32_to_cpu(event_val[5 * i + 1]);
+ select_mask = fdt32_to_cpu(event_val[5 * i + 2]);
+ select_mask = (select_mask << 32) | fdt32_to_cpu(event_val[5 * i + 3]);
+ ctr_map = fdt32_to_cpu(event_val[5 * i + 4]);
+ result = sbi_pmu_add_raw_event_counter_map(raw_selector, select_mask, ctr_map);
if (!result)
hw_event_count++;
}