/**
* \brief initializes the Xeon Phi DMA devices and the service
*
* \param phi Xeon Phi handle
*
* \returns SYS_ERR_OK on success
*/
errval_t xdma_service_init(struct xeon_phi *phi)
{
errval_t err;
void *mmio_base = NULL;
#ifdef __k1om__
mmio_base = (void *) (phi->mmio.vbase);
#else
mmio_base = (void *) XEON_PHI_MMIO_TO_SBOX(phi);
#endif
struct xeon_phi_dma_device *dev;
err = xeon_phi_dma_device_init(mmio_base, &dev);
if (err_is_fail(err)) {
return err;
}
phi->dma = (struct dma_device *)dev;
#if DMA_BENCH_RUN_BENCHMARK
dma_bench_run_default_xphi((struct dma_device *)dev);
#endif
iref_t svc_iref;
char svc_name[30];
#ifdef __k1om__
snprintf(svc_name, 30, "%s", XEON_PHI_DMA_SERVICE_NAME);
#else
snprintf(svc_name, 30, "%s.%u", XEON_PHI_DMA_SERVICE_NAME, phi->id);
#endif
err = dma_service_init_with_name(svc_name, &dma_svc_cb, phi, &svc_iref);
if (err_is_fail(err)) {
USER_PANIC_ERR(err, "Failed to start the DMA service");
}
err = dma_manager_register_driver(0, 1ULL << 40, DMA_DEV_TYPE_XEON_PHI,
svc_iref);
if (err_is_fail(err)) {
USER_PANIC_ERR(err, "Failed to register with the DMA manager\n");
}
return SYS_ERR_OK;
}
static void impl_test(void)
{
errval_t err;
debug_printf("Doing an implementation test\n");
struct capref frame;
err = frame_alloc(&frame, 2 * BUFFER_SIZE, NULL);
assert(err_is_ok(err));
struct frame_identity id;
err = invoke_frame_identify(frame, &id);
assert(err_is_ok(err));
void *buf;
err = vspace_map_one_frame(&buf, 1UL << id.bits, frame, NULL, NULL);
assert(err_is_ok(err));
memset(buf, 0, 1UL << id.bits);
memset(buf, 0xA5, BUFFER_SIZE);
struct ioat_dma_req_setup setup = {
.type = IOAT_DMA_REQ_TYPE_MEMCPY,
.src = id.base,
.dst = id.base + BUFFER_SIZE,
.bytes = BUFFER_SIZE,
.done_cb = impl_test_cb,
.arg = buf
};
int reps = 10;
do {
debug_printf("!!!!!! NEW ROUND\n");
err = ioat_dma_request_memcpy(dma_ctrl.devices, &setup);
assert(err_is_ok(err));
uint32_t i = 10;
while(i--) {
ioat_dma_device_poll_channels(dma_ctrl.devices);
}
}while(reps--);
}
#endif
int main(int argc,
char *argv[])
{
errval_t err;
debug_printf("I/O AT DMA driver started\n");
/*
* Parsing of cmdline arguments.
*
* When started by Kaluga, the last element of the cmdline will contain
* the basic PCI information of the device.
* VENDORID:DEVICEID:BUS:DEV:FUN
*/
uint32_t vendor_id, device_id;
struct pci_addr addr = {
.bus = PCI_ADDR_DONT_CARE,
.device = PCI_ADDR_DONT_CARE,
.device = PCI_ADDR_DONT_CARE
};
enum device_type devtype = IOAT_DEVICE_INVAL;
if (argc > 1) {
uint32_t parsed = sscanf(argv[argc - 1], "%x:%x:%x:%x:%x", &vendor_id,
&device_id, &addr.bus, &addr.device,
&addr.function);
if (parsed != 5) {
DEBUGPRINT("WARNING: cmdline parsing failed. Using PCI Address [0,0,0]");
} else {
if (vendor_id != 0x8086) {
USER_PANIC("unexpected vendor [%x]", vendor_id);
}
switch ((device_id & 0xFFF0)) {
case PCI_DEVICE_IOAT_IVB0:
devtype = IOAT_DEVICE_IVB;
break;
case PCI_DEVICE_IOAT_HSW0:
devtype = IOAT_DEVICE_HSW;
break;
default:
USER_PANIC("unexpected device [%x]", device_id)
;
break;
}
DEBUGPRINT("Initializing I/O AT DMA device with PCI address [%u,%u,%u]\n",
addr.bus, addr.device, addr.function);
}
} else {
DEBUGPRINT("WARNING: Initializing I/O AT DMA device with unknown PCI address "
"[0,0,0]\n");
}
err = ioat_device_discovery(addr, devtype, IOAT_DMA_OPERATION);
if (err_is_fail(err)) {
USER_PANIC_ERR(err, "DMA Device discovery failed");
}
#if DMA_BENCH_RUN_BENCHMARK
struct ioat_dma_device *dev = ioat_device_get_next();
dma_bench_run_default(dev);
#endif
#if IOAT_DMA_OPERATION == IOAT_DMA_OPERATION_SERVICE
iref_t svc_iref;
char svc_name[30];
uint8_t numa_node = (disp_get_core_id() >= 20);
snprintf(svc_name, 30, "%s.%u", IOAT_DMA_SERVICE_NAME, numa_node);
err = dma_service_init_with_name(svc_name, &dma_svc_cb, NULL, &svc_iref);
if (err_is_fail(err)) {
USER_PANIC_ERR(err, "Failed to start the DMA service");
}
err = dma_manager_register_driver(0, 1ULL << 40, DMA_DEV_TYPE_IOAT, svc_iref);
if (err_is_fail(err)) {
USER_PANIC_ERR(err, "Failed to register with the DMA manager\n");
}
DEBUGPRINT("Driver registered with DMA manager. Serving requests now.\n");
#endif
#if IOAT_DMA_OPERATION == IOAT_DMA_OPERATION_LIBRARY
#endif
uint8_t idle = 0x1;
uint32_t idle_counter = 0xFF;
while (1) {
err = ioat_device_poll();
switch (err_no(err)) {
case DMA_ERR_DEVICE_IDLE:
idle = idle && 0x1;
break;
case SYS_ERR_OK:
idle = 0;
break;
default:
debug_printf("I/O AT DMA driver terminated: in poll, %s\n",
err_getstring(err));
return err;
}
err = event_dispatch_non_block(get_default_waitset());
switch (err_no(err)) {
case SYS_ERR_OK:
idle = 0;
break;
case LIB_ERR_NO_EVENT:
idle &= 1;
break;
default:
debug_printf("I/O AT DMA driver terminated in dispatch, %s\n",
err_getstring(err));
return err;
}
if (idle) {
idle_counter--;
}
if (idle_counter == 0) {
idle_counter = 0xFF;
thread_yield();
}
}
return 0;
}
