/** FIFO unit test.
*
* @file
* @author Steffen Vogel <stvogel@eonerc.rwth-aachen.de>
* @copyright 2017, Steffen Vogel
* @license GNU General Public License (version 3)
*
* VILLASfpga
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*********************************************************************************/
#include <criterion/criterion.h>
#include <iostream>
#include <villas/log.hpp>
#include <villas/memory.hpp>
#include <villas/fpga/card.hpp>
#include <villas/fpga/ips/rtds2gpu.hpp>
#include <villas/fpga/ips/gpu2rtds.hpp>
#include <villas/fpga/ips/switch.hpp>
#include <villas/fpga/ips/dma.hpp>
#include <villas/fpga/ips/rtds.hpp>
#include <villas/gpu.hpp>
#include "global.hpp"
static constexpr size_t SAMPLE_SIZE = 4;
static constexpr size_t SAMPLE_COUNT = 1;
static constexpr size_t FRAME_SIZE = SAMPLE_COUNT * SAMPLE_SIZE;
static constexpr size_t DOORBELL_OFFSET = SAMPLE_COUNT;
static constexpr size_t DATA_OFFSET = 0;
static void dumpMem(const uint32_t* addr, size_t len)
{
const size_t bytesPerLine = 16;
const size_t lines = (len) / bytesPerLine + 1;
const uint8_t* buf = reinterpret_cast<const uint8_t*>(addr);
size_t bytesRead = 0;
for(size_t line = 0; line < lines; line++) {
const unsigned base = line * bytesPerLine;
printf("0x%04x: ", base);
for(size_t i = 0; i < bytesPerLine && bytesRead < len; i++) {
printf("0x%02x ", buf[base + i]);
bytesRead++;
}
puts("");
}
}
Test(fpga, rtds2gpu_loopback_dma, .description = "Rtds2Gpu")
{
auto logger = loggerGetOrCreate("unittest:rtds2gpu");
for(auto& ip : state.cards.front()->ips) {
if(*ip != villas::fpga::Vlnv("acs.eonerc.rwth-aachen.de:hls:rtds2gpu:"))
continue;
logger->info("Testing {}", *ip);
/* Collect neccessary IPs */
auto rtds2gpu = dynamic_cast<villas::fpga::ip::Rtds2Gpu&>(*ip);
auto axiSwitch = dynamic_cast<villas::fpga::ip::AxiStreamSwitch*>(
state.cards.front()->lookupIp(villas::fpga::Vlnv("xilinx.com:ip:axis_switch:")));
auto dma = dynamic_cast<villas::fpga::ip::Dma*>(
state.cards.front()->lookupIp(villas::fpga::Vlnv("xilinx.com:ip:axi_dma:")));
auto gpu2rtds = dynamic_cast<villas::fpga::ip::Gpu2Rtds*>(
state.cards.front()->lookupIp(villas::fpga::Vlnv("acs.eonerc.rwth-aachen.de:hls:gpu2rtds:")));
auto rtds = dynamic_cast<villas::fpga::ip::Rtds*>(
state.cards.front()->lookupIp(villas::fpga::Vlnv("acs.eonerc.rwth-aachen.de:user:rtds_axis:")));
cr_assert_not_null(axiSwitch, "No AXI switch IP found");
cr_assert_not_null(dma, "No DMA IP found");
cr_assert_not_null(gpu2rtds, "No Gpu2Rtds IP found");
cr_assert_not_null(rtds, "RTDS IP not found");
rtds2gpu.dump(spdlog::level::debug);
gpu2rtds->dump(spdlog::level::debug);
/* Allocate and prepare memory */
// allocate space for all samples and doorbell register
auto dmaMemSrc = villas::HostDmaRam::getAllocator(0).allocate<uint32_t>(SAMPLE_COUNT + 1);
auto dmaMemDst = villas::HostDmaRam::getAllocator(0).allocate<uint32_t>(SAMPLE_COUNT + 1);
auto dmaMemDst2 = villas::HostDmaRam::getAllocator(0).allocate<uint32_t>(SAMPLE_COUNT + 1);
memset(&dmaMemSrc, 0x11, dmaMemSrc.getMemoryBlock().getSize());
memset(&dmaMemDst, 0x55, dmaMemDst.getMemoryBlock().getSize());
memset(&dmaMemDst2, 0x77, dmaMemDst2.getMemoryBlock().getSize());
const uint32_t* dataSrc = &dmaMemSrc[DATA_OFFSET];
const uint32_t* dataDst = &dmaMemDst[DATA_OFFSET];
const uint32_t* dataDst2 = &dmaMemDst2[0];
dumpMem(dataSrc, dmaMemSrc.getMemoryBlock().getSize());
dumpMem(dataDst, dmaMemDst.getMemoryBlock().getSize());
dumpMem(dataDst2, dmaMemDst2.getMemoryBlock().getSize());
// connect AXI Stream from DMA to Rtds2Gpu IP
cr_assert(dma->connect(rtds2gpu));
cr_assert(rtds2gpu.startOnce(dmaMemDst.getMemoryBlock(), SAMPLE_COUNT, DATA_OFFSET * 4, DOORBELL_OFFSET * 4),
"Preparing Rtds2Gpu IP failed");
cr_assert(dma->write(dmaMemSrc.getMemoryBlock(), FRAME_SIZE),
"Starting DMA MM2S transfer failed");
cr_assert(dma->writeComplete(),
"DMA failed");
while(not rtds2gpu.isFinished());
const uint32_t* doorbellDst = &dmaMemDst[DOORBELL_OFFSET];
rtds2gpu.dump(spdlog::level::info);
rtds2gpu.dumpDoorbell(*doorbellDst);
cr_assert(memcmp(dataSrc, dataDst, FRAME_SIZE) == 0, "Memory not equal");
for(size_t i = 0; i < SAMPLE_COUNT; i++) {
gpu2rtds->registerFrames[i] = dmaMemDst[i];
}
// connect AXI Stream from Gpu2Rtds IP to DMA
cr_assert(gpu2rtds->connect(*dma));
cr_assert(dma->read(dmaMemDst2.getMemoryBlock(), FRAME_SIZE),
"Starting DMA S2MM transfer failed");
cr_assert(gpu2rtds->startOnce(SAMPLE_COUNT),
"Preparing Gpu2Rtds IP failed");
cr_assert(dma->readComplete(),
"DMA failed");
while(not gpu2rtds->isFinished());
cr_assert(memcmp(dataSrc, dataDst2, FRAME_SIZE) == 0, "Memory not equal");
dumpMem(dataSrc, dmaMemSrc.getMemoryBlock().getSize());
dumpMem(dataDst, dmaMemDst.getMemoryBlock().getSize());
dumpMem(dataDst2, dmaMemDst2.getMemoryBlock().getSize());
logger->info(TXT_GREEN("Passed"));
}
}
Test(fpga, rtds2gpu_rtt_cpu, .description = "Rtds2Gpu RTT via CPU")
{
auto logger = loggerGetOrCreate("unittest:rtds2gpu");
/* Collect neccessary IPs */
auto gpu2rtds = dynamic_cast<villas::fpga::ip::Gpu2Rtds*>(
state.cards.front()->lookupIp(villas::fpga::Vlnv("acs.eonerc.rwth-aachen.de:hls:gpu2rtds:")));
auto rtds2gpu = dynamic_cast<villas::fpga::ip::Rtds2Gpu*>(
state.cards.front()->lookupIp(villas::fpga::Vlnv("acs.eonerc.rwth-aachen.de:hls:rtds2gpu:")));
cr_assert_not_null(gpu2rtds, "No Gpu2Rtds IP found");
cr_assert_not_null(rtds2gpu, "No Rtds2Gpu IP not found");
for(auto& ip : state.cards.front()->ips) {
if(*ip != villas::fpga::Vlnv("acs.eonerc.rwth-aachen.de:user:rtds_axis:"))
continue;
auto& rtds = dynamic_cast<villas::fpga::ip::Rtds&>(*ip);
logger->info("Testing {}", rtds);
auto dmaRam = villas::HostDmaRam::getAllocator().allocate<uint32_t>(SAMPLE_COUNT + 1);
uint32_t* data = &dmaRam[DATA_OFFSET];
uint32_t* doorbell = &dmaRam[DOORBELL_OFFSET];
// TEST: rtds loopback via switch, this should always work and have RTT=1
//cr_assert(rtds.connect(rtds));
//logger->info("loopback");
//while(1);
cr_assert(rtds.connect(*rtds2gpu));
cr_assert(gpu2rtds->connect(rtds));
for(size_t i = 1; i <= 10000; ) {
rtds2gpu->doorbellReset(*doorbell);
rtds2gpu->startOnce(dmaRam.getMemoryBlock(), SAMPLE_COUNT, DATA_OFFSET * 4, DOORBELL_OFFSET * 4);
// Wait by polling rtds2gpu IP or ...
// while(not rtds2gpu->isFinished());
// Wait by polling (local) doorbell register (= just memory)
while(not rtds2gpu->doorbellIsValid(*doorbell));
// copy samples to gpu2rtds IP
for(size_t i = 0; i < SAMPLE_COUNT; i++) {
gpu2rtds->registerFrames[i] = data[i];
}
// Waiting for gpu2rtds is not strictly required
gpu2rtds->startOnce(SAMPLE_COUNT);
//while(not gpu2rtds->isFinished());
if(i % 1000 == 0) {
logger->info("Successful iterations {}, data {}", i, data[0]);
rtds2gpu->dump();
rtds2gpu->dumpDoorbell(data[1]);
}
}
logger->info(TXT_GREEN("Passed"));
}
}
void gpu_rtds_rtt_start(volatile uint32_t* dataIn, volatile reg_doorbell_t* doorbellIn,
volatile uint32_t* dataOut, volatile villas::fpga::ip::ControlRegister* controlRegister);
void gpu_rtds_rtt_stop();
Test(fpga, rtds2gpu_rtt_gpu, .description = "Rtds2Gpu RTT via GPU")
{
auto logger = loggerGetOrCreate("unittest:rtds2gpu");
/* Collect neccessary IPs */
auto gpu2rtds = dynamic_cast<villas::fpga::ip::Gpu2Rtds*>(
state.cards.front()->lookupIp(villas::fpga::Vlnv("acs.eonerc.rwth-aachen.de:hls:gpu2rtds:")));
auto rtds2gpu = dynamic_cast<villas::fpga::ip::Rtds2Gpu*>(
state.cards.front()->lookupIp(villas::fpga::Vlnv("acs.eonerc.rwth-aachen.de:hls:rtds2gpu:")));
cr_assert_not_null(gpu2rtds, "No Gpu2Rtds IP found");
cr_assert_not_null(rtds2gpu, "No Rtds2Gpu IP not found");
villas::Plugin* plugin = villas::Plugin::lookup(villas::Plugin::Type::Gpu, "");
auto gpuPlugin = dynamic_cast<villas::gpu::GpuFactory*>(plugin);
cr_assert_not_null(gpuPlugin, "No GPU plugin found");
auto gpus = gpuPlugin->make();
cr_assert(gpus.size() > 0, "No GPUs found");
// just get first cpu
auto& gpu = gpus.front();
// allocate memory on GPU and make accessible by to PCIe/FPGA
auto gpuRam = gpu->getAllocator().allocate<uint32_t>(SAMPLE_COUNT + 1);
cr_assert(gpu->makeAccessibleToPCIeAndVA(gpuRam.getMemoryBlock()));
// make Gpu2Rtds IP register memory on FPGA accessible to GPU
cr_assert(gpu->makeAccessibleFromPCIeOrHostRam(gpu2rtds->getRegisterMemory()));
auto tr = gpu->translate(gpuRam.getMemoryBlock());
auto dataIn = reinterpret_cast<uint32_t*>(tr.getLocalAddr(DATA_OFFSET * sizeof(uint32_t)));
auto doorbellIn = reinterpret_cast<reg_doorbell_t*>(tr.getLocalAddr(DOORBELL_OFFSET * sizeof(uint32_t)));
auto gpu2rtdsRegisters = gpu->translate(gpu2rtds->getRegisterMemory());
auto frameRegister = reinterpret_cast<uint32_t*>(gpu2rtdsRegisters.getLocalAddr(gpu2rtds->registerFrameOffset));
auto controlRegister = reinterpret_cast<villas::fpga::ip::ControlRegister*>(gpu2rtdsRegisters.getLocalAddr(gpu2rtds->registerControlAddr));
// auto doorbellInCpu = reinterpret_cast<reg_doorbell_t*>(&gpuRam[DOORBELL_OFFSET]);
for(auto& ip : state.cards.front()->ips) {
if(*ip != villas::fpga::Vlnv("acs.eonerc.rwth-aachen.de:user:rtds_axis:"))
continue;
auto& rtds = dynamic_cast<villas::fpga::ip::Rtds&>(*ip);
logger->info("Testing {}", rtds);
// TEST: rtds loopback via switch, this should always work and have RTT=1
//cr_assert(rtds.connect(rtds));
//logger->info("loopback");
//while(1);
cr_assert(rtds.connect(*rtds2gpu));
cr_assert(gpu2rtds->connect(rtds));
// launch once so they are configured
cr_assert(rtds2gpu->startOnce(gpuRam.getMemoryBlock(), SAMPLE_COUNT, DATA_OFFSET * 4, DOORBELL_OFFSET * 4));
cr_assert(gpu2rtds->startOnce(SAMPLE_COUNT));
rtds2gpu->setAutoRestart(true);
rtds2gpu->start();
logger->info("GPU RTT RTDS");
std::string dummy;
// logger->info("Press enter to proceed");
// std::cin >> dummy;
gpu_rtds_rtt_start(dataIn, doorbellIn, frameRegister, controlRegister);
// while(1) {
// cr_assert(rtds2gpu->startOnce(gpuRam.getMemoryBlock(), SAMPLE_COUNT, DATA_OFFSET * 4, DOORBELL_OFFSET * 4));
// }
// for(int i = 0; i < 10000; i++) {
// while(not doorbellInCpu->is_valid);
// logger->debug("received data");
// }
// logger->info("Press enter to cancel");
// std::cin >> dummy;
while(1) {
sleep(1);
// logger->debug("Current sequence number: {}", doorbellInCpu->seq_nr);
logger->debug("Still running");
}
gpu_rtds_rtt_stop();
logger->info(TXT_GREEN("Passed"));
}
}