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Perform SBA writes with batch transactions for improved performance. (#405) 

* Add riscv_batch_available_scans().

This function will query the number of available scans in a batch.

* Perform SBA writes with batch transactions for improved performance.

Using batch transactions avoids an unnecessary dmi read after every
dmi write, resulting in a significant performance improvement.
bscan_optimization
darius-bluespec 2019-09-25 00:49:25 +00:00 committed by Tim Newsome
parent bf1e201336
commit 20fc862b15
3 changed files with 60 additions and 18 deletions
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5
src/target/riscv/batch.c
View File

@ -158,3 +158,8 @@ void dump_field(int idle, const struct scan_field *field)
field->num_bits, idle, op_string[out_op], out_data, out_address); field->num_bits, idle, op_string[out_op], out_data, out_address);
} }
} }
size_t riscv_batch_available_scans(struct riscv_batch *batch)
{
return batch->allocated_scans - batch->used_scans - 4;
}

3
src/target/riscv/batch.h
View File

@ -61,4 +61,7 @@ uint64_t riscv_batch_get_dmi_read(struct riscv_batch *batch, size_t key);
/* Scans in a NOP. */ /* Scans in a NOP. */
void riscv_batch_add_nop(struct riscv_batch *batch); void riscv_batch_add_nop(struct riscv_batch *batch);
/* Returns the number of available scans. */
size_t riscv_batch_available_scans(struct riscv_batch *batch);
#endif #endif

70
src/target/riscv/riscv-013.c
View File

@ -2982,24 +2982,39 @@ static int write_memory_bus_v1(struct target *target, target_addr_t address,
target_addr_t next_address = address; target_addr_t next_address = address;
target_addr_t end_address = address + count * size; target_addr_t end_address = address + count * size;
int result;
sb_write_address(target, next_address); sb_write_address(target, next_address);
while (next_address < end_address) { while (next_address < end_address) {
LOG_DEBUG("transferring burst starting at address 0x%" TARGET_PRIxADDR,
next_address);
struct riscv_batch *batch = riscv_batch_alloc(
target,
32,
info->dmi_busy_delay + info->bus_master_write_delay);
for (uint32_t i = (next_address - address) / size; i < count; i++) { for (uint32_t i = (next_address - address) / size; i < count; i++) {
const uint8_t *p = buffer + i * size; const uint8_t *p = buffer + i * size;
if (riscv_batch_available_scans(batch) < (size + 3) / 4)
break;
if (size > 12) if (size > 12)
dmi_write(target, DMI_SBDATA3, riscv_batch_add_dmi_write(batch, DMI_SBDATA3,
((uint32_t) p[12]) | ((uint32_t) p[12]) |
(((uint32_t) p[13]) << 8) | (((uint32_t) p[13]) << 8) |
(((uint32_t) p[14]) << 16) | (((uint32_t) p[14]) << 16) |
(((uint32_t) p[15]) << 24)); (((uint32_t) p[15]) << 24));
if (size > 8) if (size > 8)
dmi_write(target, DMI_SBDATA2, riscv_batch_add_dmi_write(batch, DMI_SBDATA2,
((uint32_t) p[8]) | ((uint32_t) p[8]) |
(((uint32_t) p[9]) << 8) | (((uint32_t) p[9]) << 8) |
(((uint32_t) p[10]) << 16) | (((uint32_t) p[10]) << 16) |
(((uint32_t) p[11]) << 24)); (((uint32_t) p[11]) << 24));
if (size > 4) if (size > 4)
dmi_write(target, DMI_SBDATA1, riscv_batch_add_dmi_write(batch, DMI_SBDATA1,
((uint32_t) p[4]) | ((uint32_t) p[4]) |
(((uint32_t) p[5]) << 8) | (((uint32_t) p[5]) << 8) |
(((uint32_t) p[6]) << 16) | (((uint32_t) p[6]) << 16) |
@ -3011,34 +3026,53 @@ static int write_memory_bus_v1(struct target *target, target_addr_t address,
} }
if (size > 1) if (size > 1)
value |= ((uint32_t) p[1]) << 8; value |= ((uint32_t) p[1]) << 8;
dmi_write(target, DMI_SBDATA0, value); riscv_batch_add_dmi_write(batch, DMI_SBDATA0, value);
log_memory_access(address + i * size, value, size, false); log_memory_access(address + i * size, value, size, false);
next_address += size;
if (info->bus_master_write_delay) {
jtag_add_runtest(info->bus_master_write_delay, TAP_IDLE);
if (jtag_execute_queue() != ERROR_OK) {
LOG_ERROR("Failed to scan idle sequence");
return ERROR_FAIL;
}
}
} }
if (read_sbcs_nonbusy(target, &sbcs) != ERROR_OK) result = batch_run(target, batch);
riscv_batch_free(batch);
if (result != ERROR_OK)
return result;
bool dmi_busy_encountered;
if (dmi_op(target, &sbcs, &dmi_busy_encountered, DMI_OP_READ,
DMI_SBCS, 0, false, false) != ERROR_OK)
return ERROR_FAIL; return ERROR_FAIL;
if (get_field(sbcs, DMI_SBCS_SBBUSYERROR)) { time_t start = time(NULL);
while (get_field(sbcs, DMI_SBCS_SBBUSY)) {
if (time(NULL) - start > riscv_command_timeout_sec) {
LOG_ERROR("Timed out after %ds waiting for sbbusy to go low (sbcs=0x%x). "
"Increase the timeout with riscv set_command_timeout_sec.",
riscv_command_timeout_sec, sbcs);
return ERROR_FAIL;
}
if (dmi_read(target, &sbcs, DMI_SBCS) != ERROR_OK)
return ERROR_FAIL;
}
if (get_field(sbcs, DMI_SBCS_SBBUSYERROR) || dmi_busy_encountered) {
/* We wrote while the target was busy. Slow down and try again. */ /* We wrote while the target was busy. Slow down and try again. */
dmi_write(target, DMI_SBCS, DMI_SBCS_SBBUSYERROR); dmi_write(target, DMI_SBCS, DMI_SBCS_SBBUSYERROR);
next_address = sb_read_address(target);
info->bus_master_write_delay += info->bus_master_write_delay / 10 + 1; info->bus_master_write_delay += info->bus_master_write_delay / 10 + 1;
next_address = sb_read_address(target);
if (next_address < address) {
/* This should never happen, probably buggy hardware. */
LOG_DEBUG("unexpected system bus address 0x%" TARGET_PRIxADDR,
next_address);
return ERROR_FAIL;
}
continue; continue;
} }
unsigned error = get_field(sbcs, DMI_SBCS_SBERROR); unsigned error = get_field(sbcs, DMI_SBCS_SBERROR);
if (error == 0) { if (error != 0) {
next_address = end_address;
} else {
/* Some error indicating the bus access failed, but not because of /* Some error indicating the bus access failed, but not because of
* something we did wrong. */ * something we did wrong. */
dmi_write(target, DMI_SBCS, DMI_SBCS_SBERROR); dmi_write(target, DMI_SBCS, DMI_SBCS_SBERROR);