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dev ... fabiandrug

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55
.gdb_history Normal file
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@ -0,0 +1,55 @@
target extended-remote localhost:3333
dashboard -layout registers variables stack memory
file cpp/prog
load
si
load
si
file cpp/prog
load
si
break
b main
b main
si
break
load
si
si
si
load
si
si
si
load
si
file cpp/prog
load
si
file cpp/prog
si
file cpp/prog
si
si
b amin
si
b main
si
file cpp/prog
load
si
file cpp/prog
load
si
:w!
i
si
si
load
si
si
si
loa
load
dash
q

BIN
cpp/._rvmain.cpp.swl
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cpp/._rvmain.cpp.swo
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BIN
cpp/._rvmain.cpp.swn → cpp/._rvmain.cpp.swp
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cpp/.gdb_history Normal file
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@ -0,0 +1,45 @@
target extended-remote loclahost:3333

target extended-remote localahost:3333

target extended-remote localhost:3333
dashboard -layout registers variables stack memory
file prog
load
si
load
si
c
load
si
c
load
si
c
load
s
b main
c
load
si
b main
si
load
si
c
file prog
load
si
load
si
load
si
c
load
si
c
load
si
c
si
q

2
cpp/Make.rules
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@ -22,7 +22,7 @@ CFLAGS+= -g
LDFLAGS+=-nostdlib
LDFLAGS+=-Wl,-Ttext=0x00000000
LDFLAGS+=-Wl,-Ttext=0x80000000
# see: https://github.com/riscv/riscv-gcc/issues/120
#LDFLAGS+=-Wl,--no-relax

81
cpp/Make.rules-kopia
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@ -1,81 +0,0 @@
ARCH=riscv64-unknown-elf
GNU_DIR=$(HOME)/riscv/riscv/
GNU_BIN=$(GNU_DIR)/bin
CC=$(GNU_BIN)/$(ARCH)-gcc
CXX=$(GNU_BIN)/$(ARCH)-g++
AS=$(GNU_BIN)/$(ARCH)-as
LD=$(GNU_BIN)/$(ARCH)-ld
OBJCOPY=$(GNU_BIN)/$(ARCH)-objcopy
OBJDUMP=$(GNU_BIN)/$(ARCH)-objdump
SIZE=$(GNU_BIN)/$(ARCH)-size
AR=$(GNU_BIN)/$(ARCH)-ar
RANLIB=$(GNU_BIN)/$(ARCH)-ranlib
CFLAGS+=-ffreestanding
CFLAGS+=-fno-pic
CFLAGS+=-march=rv32i -mabi=ilp32
CFLAGS+= -g
LDFLAGS+=-nostdlib
LDFLAGS+=-Wl,-Ttext=0x00000000
# see: https://github.com/riscv/riscv-gcc/issues/120
#LDFLAGS+=-Wl,--no-relax
ASFLAGS+=$(CFLAGS)
CXXFLAGS+=$(CFLAGS)
CLEAN_DIRS=$(SUBDIRS:%=clean-%)
ALL_DIRS=$(SUBDIRS:%=all-%)
OBJDUMPFLAGS+=-Mnumeric,no-aliases
.PHONY: all clean world $(CLEAN_DIRS) $(ALL_DIRS)
%.bin : %
$(OBJCOPY) $< -O binary $@
%.lst : %
$(OBJDUMP) $(OBJDUMPFLAGS) -dr --disassemble-all $< > $<.lst
% : %.o
$(LINK.cc) $(LDFLAGS) -o $@ $^ $(LDLIBS)
$(SIZE) -x -A $@
%.s: %.c
$(COMPILE.c) -S -o $@ $<
%.s: %.cc
$(COMPILE.cc) -S -o $@ $<
%.o: %.c
$(COMPILE.c) -o $@ $<
%.o: %.cc
$(COMPILE.cc) -o $@ $<
%.srec: %
$(OBJCOPY) $< -O srec $@
all:: $(ALL_DIRS)
clean:: $(CLEAN_DIRS)
$(ALL_DIRS)::
$(MAKE) -C $(@:all-%=%) all
$(CLEAN_DIRS)::
$(MAKE) -C $(@:clean-%=%) clean
world:: clean all

9
cpp/Makefile
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@ -2,19 +2,16 @@ TOP=./
include $(TOP)/Make.rules
LDLIBS=
#CFLAGS+=-O0 -g
# CFLAGS+=-Og -ggdb3
CFLAGS+=-O0 -ggdb3
CFLAGS+=-O0 -g
LDFLAGS+=-Wl,--no-relax
LDFLAGS+=-Wl,-Ttext=0x80000000,-Tdata=0x80010000
# LDFLAGS+=-T murax_128k_ram.ld
LDFLAGS+=-Wl,-Tdata=0x10000
PROGS=prog prog.bin prog.lst
all:: $(PROGS)
prog: _crt0.o _rvmain.o myfunc.o
prog: _crt0.o _rvmain.o myfunc.o myfuncStruct.o myfuncStructOOP.o myfuncOOP.o
$(LINK.cc) -o $@ $^ $(LDLIBS)
$(SIZE) -A -x $@

543
cpp/Murax.scala
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@ -1,543 +0,0 @@
package vexriscv.demo
import spinal.core._
import spinal.lib._
import spinal.lib.bus.amba3.apb._
import spinal.lib.bus.misc.SizeMapping
import spinal.lib.bus.simple.PipelinedMemoryBus
import spinal.lib.com.jtag.Jtag
import spinal.lib.com.spi.ddr.SpiXdrMaster
import spinal.lib.com.uart._
import spinal.lib.io.{InOutWrapper, TriStateArray}
import spinal.lib.misc.{InterruptCtrl, Prescaler, Timer}
import spinal.lib.soc.pinsec.{PinsecTimerCtrl, PinsecTimerCtrlExternal}
import vexriscv.plugin._
import vexriscv.{VexRiscv, VexRiscvConfig, plugin}
import spinal.lib.com.spi.ddr._
import spinal.lib.bus.simple._
import scala.collection.mutable.ArrayBuffer
import scala.collection.Seq
/**
* Created by PIC32F_USER on 28/07/2017.
*
* Murax is a very light SoC which could work without any external component.
* - ICE40-hx8k + icestorm => 53 Mhz, 2142 LC
* - 0.37 DMIPS/Mhz
* - 8 kB of on-chip ram
* - JTAG debugger (eclipse/GDB/openocd ready)
* - Interrupt support
* - APB bus for peripherals
* - 32 GPIO pin
* - one 16 bits prescaler, two 16 bits timers
* - one UART with tx/rx fifo
*/
case class MuraxConfig(coreFrequency : HertzNumber,
onChipRamSize : BigInt,
onChipRamHexFile : String,
pipelineDBus : Boolean,
pipelineMainBus : Boolean,
pipelineApbBridge : Boolean,
gpioWidth : Int,
uartCtrlConfig : UartCtrlMemoryMappedConfig,
xipConfig : SpiXdrMasterCtrl.MemoryMappingParameters,
hardwareBreakpointCount : Int,
cpuPlugins : ArrayBuffer[Plugin[VexRiscv]]){
require(pipelineApbBridge || pipelineMainBus, "At least pipelineMainBus or pipelineApbBridge should be enable to avoid wipe transactions")
val genXip = xipConfig != null
}
object MuraxConfig{
def default : MuraxConfig = default(false, false)
def default(withXip : Boolean = false, bigEndian : Boolean = false) = MuraxConfig(
coreFrequency = 12 MHz,
onChipRamSize = 128 kB,
onChipRamHexFile = null,
pipelineDBus = true,
pipelineMainBus = false,
pipelineApbBridge = true,
gpioWidth = 32,
xipConfig = ifGen(withXip) (SpiXdrMasterCtrl.MemoryMappingParameters(
SpiXdrMasterCtrl.Parameters(8, 12, SpiXdrParameter(2, 2, 1)).addFullDuplex(0,1,false),
cmdFifoDepth = 32,
rspFifoDepth = 32,
xip = SpiXdrMasterCtrl.XipBusParameters(addressWidth = 24, lengthWidth = 2)
)),
hardwareBreakpointCount = if(withXip) 3 else 0,
cpuPlugins = ArrayBuffer( //DebugPlugin added by the toplevel
new IBusSimplePlugin(
resetVector = if(withXip) 0xF001E000l else 0x00000000l,
cmdForkOnSecondStage = true,
cmdForkPersistence = withXip, //Required by the Xip controller
prediction = NONE,
catchAccessFault = false,
compressedGen = false,
bigEndian = bigEndian
),
new DBusSimplePlugin(
catchAddressMisaligned = false,
catchAccessFault = false,
earlyInjection = false,
bigEndian = bigEndian
),
new CsrPlugin(CsrPluginConfig.smallest(mtvecInit = if(withXip) 0xE0040020l else 0x00000020l)),
new DecoderSimplePlugin(
catchIllegalInstruction = false
),
new RegFilePlugin(
regFileReadyKind = plugin.SYNC,
zeroBoot = false
),
new IntAluPlugin,
new SrcPlugin(
separatedAddSub = false,
executeInsertion = false
),
new LightShifterPlugin,
new HazardSimplePlugin(
bypassExecute = false,
bypassMemory = false,
bypassWriteBack = false,
bypassWriteBackBuffer = false,
pessimisticUseSrc = false,
pessimisticWriteRegFile = false,
pessimisticAddressMatch = false
),
new BranchPlugin(
earlyBranch = false,
catchAddressMisaligned = false
),
new YamlPlugin("cpu0.yaml")
),
uartCtrlConfig = UartCtrlMemoryMappedConfig(
uartCtrlConfig = UartCtrlGenerics(
dataWidthMax = 8,
clockDividerWidth = 20,
preSamplingSize = 1,
samplingSize = 3,
postSamplingSize = 1
),
initConfig = UartCtrlInitConfig(
baudrate = 115200,
dataLength = 7, //7 => 8 bits
parity = UartParityType.NONE,
stop = UartStopType.ONE
),
busCanWriteClockDividerConfig = false,
busCanWriteFrameConfig = false,
txFifoDepth = 16,
rxFifoDepth = 16
)
)
def fast = {
val config = default
//Replace HazardSimplePlugin to get datapath bypass
config.cpuPlugins(config.cpuPlugins.indexWhere(_.isInstanceOf[HazardSimplePlugin])) = new HazardSimplePlugin(
bypassExecute = true,
bypassMemory = true,
bypassWriteBack = true,
bypassWriteBackBuffer = true
)
// config.cpuPlugins(config.cpuPlugins.indexWhere(_.isInstanceOf[LightShifterPlugin])) = new FullBarrelShifterPlugin()
config
}
}
case class Murax(config : MuraxConfig) extends Component{
import config._
val io = new Bundle {
//Clocks / reset
val asyncReset = in Bool()
val mainClk = in Bool()
//Main components IO
val jtag = slave(Jtag())
//Peripherals IO
val gpioA = master(TriStateArray(gpioWidth bits))
val uart = master(Uart())
val xip = ifGen(genXip)(master(SpiXdrMaster(xipConfig.ctrl.spi)))
}
val resetCtrlClockDomain = ClockDomain(
clock = io.mainClk,
config = ClockDomainConfig(
resetKind = BOOT
)
)
val resetCtrl = new ClockingArea(resetCtrlClockDomain) {
val mainClkResetUnbuffered = False
//Implement an counter to keep the reset axiResetOrder high 64 cycles
// Also this counter will automatically do a reset when the system boot.
val systemClkResetCounter = Reg(UInt(6 bits)) init(0)
when(systemClkResetCounter =/= U(systemClkResetCounter.range -> true)){
systemClkResetCounter := systemClkResetCounter + 1
mainClkResetUnbuffered := True
}
when(BufferCC(io.asyncReset)){
systemClkResetCounter := 0
}
//Create all reset used later in the design
val mainClkReset = RegNext(mainClkResetUnbuffered)
val systemReset = RegNext(mainClkResetUnbuffered)
}
val systemClockDomain = ClockDomain(
clock = io.mainClk,
reset = resetCtrl.systemReset,
frequency = FixedFrequency(coreFrequency)
)
val debugClockDomain = ClockDomain(
clock = io.mainClk,
reset = resetCtrl.mainClkReset,
frequency = FixedFrequency(coreFrequency)
)
val system = new ClockingArea(systemClockDomain) {
val pipelinedMemoryBusConfig = PipelinedMemoryBusConfig(
addressWidth = 32,
dataWidth = 32
)
val bigEndianDBus = config.cpuPlugins.exists(_ match{ case plugin : DBusSimplePlugin => plugin.bigEndian case _ => false})
//Arbiter of the cpu dBus/iBus to drive the mainBus
//Priority to dBus, !! cmd transactions can change on the fly !!
val mainBusArbiter = new MuraxMasterArbiter(pipelinedMemoryBusConfig, bigEndianDBus)
//Instanciate the CPU
val cpu = new VexRiscv(
config = VexRiscvConfig(
plugins = cpuPlugins += new DebugPlugin(debugClockDomain, hardwareBreakpointCount)
)
)
//Checkout plugins used to instanciate the CPU to connect them to the SoC
val timerInterrupt = False
val externalInterrupt = False
for(plugin <- cpu.plugins) plugin match{
case plugin : IBusSimplePlugin =>
mainBusArbiter.io.iBus.cmd <> plugin.iBus.cmd
mainBusArbiter.io.iBus.rsp <> plugin.iBus.rsp
case plugin : DBusSimplePlugin => {
if(!pipelineDBus)
mainBusArbiter.io.dBus <> plugin.dBus
else {
mainBusArbiter.io.dBus.cmd << plugin.dBus.cmd.halfPipe()
mainBusArbiter.io.dBus.rsp <> plugin.dBus.rsp
}
}
case plugin : CsrPlugin => {
plugin.externalInterrupt := externalInterrupt
plugin.timerInterrupt := timerInterrupt
}
case plugin : DebugPlugin => plugin.debugClockDomain{
resetCtrl.systemReset setWhen(RegNext(plugin.io.resetOut))
io.jtag <> plugin.io.bus.fromJtag()
}
case _ =>
}
//****** MainBus slaves ********
val mainBusMapping = ArrayBuffer[(PipelinedMemoryBus,SizeMapping)]()
val ram = new MuraxPipelinedMemoryBusRam(
onChipRamSize = onChipRamSize,
onChipRamHexFile = onChipRamHexFile,
pipelinedMemoryBusConfig = pipelinedMemoryBusConfig,
bigEndian = bigEndianDBus
)
mainBusMapping += ram.io.bus -> (0x00000000l, onChipRamSize)
val apbBridge = new PipelinedMemoryBusToApbBridge(
apb3Config = Apb3Config(
addressWidth = 20,
dataWidth = 32
),
pipelineBridge = pipelineApbBridge,
pipelinedMemoryBusConfig = pipelinedMemoryBusConfig
)
mainBusMapping += apbBridge.io.pipelinedMemoryBus -> (0xF0000000l, 1 MB)
//******** APB peripherals *********
val apbMapping = ArrayBuffer[(Apb3, SizeMapping)]()
val gpioACtrl = Apb3Gpio(gpioWidth = gpioWidth, withReadSync = true)
io.gpioA <> gpioACtrl.io.gpio
apbMapping += gpioACtrl.io.apb -> (0x00000, 4 kB)
val uartCtrl = Apb3UartCtrl(uartCtrlConfig)
uartCtrl.io.uart <> io.uart
externalInterrupt setWhen(uartCtrl.io.interrupt)
apbMapping += uartCtrl.io.apb -> (0x10000, 4 kB)
val timer = new MuraxApb3Timer()
timerInterrupt setWhen(timer.io.interrupt)
apbMapping += timer.io.apb -> (0x20000, 4 kB)
val xip = ifGen(genXip)(new Area{
val ctrl = Apb3SpiXdrMasterCtrl(xipConfig)
ctrl.io.spi <> io.xip
externalInterrupt setWhen(ctrl.io.interrupt)
apbMapping += ctrl.io.apb -> (0x1F000, 4 kB)
val accessBus = new PipelinedMemoryBus(PipelinedMemoryBusConfig(24,32))
mainBusMapping += accessBus -> (0xE0000000l, 16 MB)
ctrl.io.xip.fromPipelinedMemoryBus() << accessBus
val bootloader = Apb3Rom("src/main/c/murax/xipBootloader/crt.bin")
apbMapping += bootloader.io.apb -> (0x1E000, 4 kB)
})
//******** Memory mappings *********
val apbDecoder = Apb3Decoder(
master = apbBridge.io.apb,
slaves = apbMapping.toSeq
)
val mainBusDecoder = new Area {
val logic = new MuraxPipelinedMemoryBusDecoder(
master = mainBusArbiter.io.masterBus,
specification = mainBusMapping.toSeq,
pipelineMaster = pipelineMainBus
)
}
}
}
object Murax{
def main(args: Array[String]) {
SpinalVerilog(Murax(MuraxConfig.default))
}
}
object MuraxCfu{
def main(args: Array[String]) {
SpinalVerilog{
val config = MuraxConfig.default
config.cpuPlugins += new CfuPlugin(
stageCount = 1,
allowZeroLatency = true,
encodings = List(
CfuPluginEncoding (
instruction = M"-------------------------0001011",
functionId = List(14 downto 12),
input2Kind = CfuPlugin.Input2Kind.RS
)
),
busParameter = CfuBusParameter(
CFU_VERSION = 0,
CFU_INTERFACE_ID_W = 0,
CFU_FUNCTION_ID_W = 3,
CFU_REORDER_ID_W = 0,
CFU_REQ_RESP_ID_W = 0,
CFU_INPUTS = 2,
CFU_INPUT_DATA_W = 32,
CFU_OUTPUTS = 1,
CFU_OUTPUT_DATA_W = 32,
CFU_FLOW_REQ_READY_ALWAYS = false,
CFU_FLOW_RESP_READY_ALWAYS = false,
CFU_WITH_STATUS = true,
CFU_RAW_INSN_W = 32,
CFU_CFU_ID_W = 4,
CFU_STATE_INDEX_NUM = 5
)
)
val toplevel = Murax(config)
toplevel.rework {
for (plugin <- toplevel.system.cpu.plugins) plugin match {
case plugin: CfuPlugin => plugin.bus.toIo().setName("miaou")
case _ =>
}
}
toplevel
}
}
}
object Murax_iCE40_hx8k_breakout_board_xip{
case class SB_GB() extends BlackBox{
val USER_SIGNAL_TO_GLOBAL_BUFFER = in Bool()
val GLOBAL_BUFFER_OUTPUT = out Bool()
}
case class SB_IO_SCLK() extends BlackBox{
addGeneric("PIN_TYPE", B"010000")
val PACKAGE_PIN = out Bool()
val OUTPUT_CLK = in Bool()
val CLOCK_ENABLE = in Bool()
val D_OUT_0 = in Bool()
val D_OUT_1 = in Bool()
setDefinitionName("SB_IO")
}
case class SB_IO_DATA() extends BlackBox{
addGeneric("PIN_TYPE", B"110000")
val PACKAGE_PIN = inout(Analog(Bool))
val CLOCK_ENABLE = in Bool()
val INPUT_CLK = in Bool()
val OUTPUT_CLK = in Bool()
val OUTPUT_ENABLE = in Bool()
val D_OUT_0 = in Bool()
val D_OUT_1 = in Bool()
val D_IN_0 = out Bool()
val D_IN_1 = out Bool()
setDefinitionName("SB_IO")
}
case class Murax_iCE40_hx8k_breakout_board_xip() extends Component{
val io = new Bundle {
val mainClk = in Bool()
val jtag_tck = in Bool()
val jtag_tdi = in Bool()
val jtag_tdo = out Bool()
val jtag_tms = in Bool()
val uart_txd = out Bool()
val uart_rxd = in Bool()
val mosi = inout(Analog(Bool))
val miso = inout(Analog(Bool))
val sclk = out Bool()
val spis = out Bool()
val led = out Bits(8 bits)
}
val murax = Murax(MuraxConfig.default(withXip = true).copy(onChipRamSize = 8 kB))
murax.io.asyncReset := False
val mainClkBuffer = SB_GB()
mainClkBuffer.USER_SIGNAL_TO_GLOBAL_BUFFER <> io.mainClk
mainClkBuffer.GLOBAL_BUFFER_OUTPUT <> murax.io.mainClk
val jtagClkBuffer = SB_GB()
jtagClkBuffer.USER_SIGNAL_TO_GLOBAL_BUFFER <> io.jtag_tck
jtagClkBuffer.GLOBAL_BUFFER_OUTPUT <> murax.io.jtag.tck
io.led <> murax.io.gpioA.write(7 downto 0)
murax.io.jtag.tdi <> io.jtag_tdi
murax.io.jtag.tdo <> io.jtag_tdo
murax.io.jtag.tms <> io.jtag_tms
murax.io.gpioA.read <> 0
murax.io.uart.txd <> io.uart_txd
murax.io.uart.rxd <> io.uart_rxd
val xip = new ClockingArea(murax.systemClockDomain) {
RegNext(murax.io.xip.ss.asBool) <> io.spis
val sclkIo = SB_IO_SCLK()
sclkIo.PACKAGE_PIN <> io.sclk
sclkIo.CLOCK_ENABLE := True
sclkIo.OUTPUT_CLK := ClockDomain.current.readClockWire
sclkIo.D_OUT_0 <> murax.io.xip.sclk.write(0)
sclkIo.D_OUT_1 <> RegNext(murax.io.xip.sclk.write(1))
val datas = for ((data, pin) <- (murax.io.xip.data, List(io.mosi, io.miso)).zipped) yield new Area {
val dataIo = SB_IO_DATA()
dataIo.PACKAGE_PIN := pin
dataIo.CLOCK_ENABLE := True
dataIo.OUTPUT_CLK := ClockDomain.current.readClockWire
dataIo.OUTPUT_ENABLE <> data.writeEnable
dataIo.D_OUT_0 <> data.write(0)
dataIo.D_OUT_1 <> RegNext(data.write(1))
dataIo.INPUT_CLK := ClockDomain.current.readClockWire
data.read(0) := dataIo.D_IN_0
data.read(1) := RegNext(dataIo.D_IN_1)
}
}
}
def main(args: Array[String]) {
SpinalVerilog(Murax_iCE40_hx8k_breakout_board_xip())
}
}
object MuraxDhrystoneReady{
def main(args: Array[String]) {
SpinalVerilog(Murax(MuraxConfig.fast.copy(onChipRamSize = 256 kB)))
}
}
object MuraxDhrystoneReadyMulDivStatic{
def main(args: Array[String]) {
SpinalVerilog({
val config = MuraxConfig.fast.copy(onChipRamSize = 256 kB)
config.cpuPlugins += new MulPlugin
config.cpuPlugins += new DivPlugin
config.cpuPlugins.remove(config.cpuPlugins.indexWhere(_.isInstanceOf[BranchPlugin]))
config.cpuPlugins +=new BranchPlugin(
earlyBranch = false,
catchAddressMisaligned = false
)
config.cpuPlugins += new IBusSimplePlugin(
resetVector = 0x00000000l,
cmdForkOnSecondStage = true,
cmdForkPersistence = false,
prediction = STATIC,
catchAccessFault = false,
compressedGen = false
)
config.cpuPlugins.remove(config.cpuPlugins.indexWhere(_.isInstanceOf[LightShifterPlugin]))
config.cpuPlugins += new FullBarrelShifterPlugin
Murax(config)
})
}
}
//Will blink led and echo UART RX to UART TX (in the verilator sim, type some text and press enter to send UART frame to the Murax RX pin)
object MuraxWithRamInit{
def main(args: Array[String]) {
SpinalVerilog(Murax(MuraxConfig.default.copy(onChipRamSize = 4 kB, onChipRamHexFile = "src/main/ressource/hex/muraxDemo.hex")))
}
}
object Murax_arty{
def main(args: Array[String]) {
val hex = "src/main/c/murax/hello_world/build/hello_world.hex"
SpinalVerilog(Murax(MuraxConfig.default(false).copy(coreFrequency = 100 MHz,onChipRamSize = 32 kB, onChipRamHexFile = hex)))
}
}
object MuraxAsicBlackBox extends App{
println("Warning this soc do not has any rom to boot on.")
val config = SpinalConfig()
config.addStandardMemBlackboxing(blackboxAll)
config.generateVerilog(Murax(MuraxConfig.default()))
}

8
cpp/_crt0.S
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@ -9,17 +9,13 @@ _start:
la gp, __global_pointer$
.option pop
li sp, 0x800ffff0
li sp, 0x80020000
# Clear the bss segment
la a0, __bss_start
la a1, __BSS_END__
j finish_bss
clear_bss:
bgeu a0, a1, finish_bss
sb x0, 0(a0)
addi a0, a0, 1
beq x0, x0, clear_bss
finish_bss:
nop //!

42
cpp/_crt0.S-k0
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@ -1,42 +0,0 @@
.text
.global _start
.type _start, @function
_start:
# Initialize global pointer
.option push
.option norelax
la gp, __global_pointer$
.option pop
li sp, 0x1fff0
# Clear the bss segment
la a0, __bss_start
la a1, __BSS_END__
clear_bss:
bgeu a0, a1, finish_bss
sb x0, 0(a0)
addi a0, a0, 1
beq x0, x0, clear_bss
finish_bss:
nop //!
call main
nop //!
# abort execution here
ebreak
.section .rodata
alfabet:
.string "abcdefghijklmnopqrstuwxyz"
slowo:
.section .data
wynik:
.string "mpabi"
.space 26 # rezerwuje 26 bajtów dla wyniku, zainicjowane na 0

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cpp/_crt0.S-k1
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@ -1,39 +0,0 @@
.text
.global _start
.type _start, @function
_start:
# Initialize global pointer
.option push
.option norelax
la gp, __global_pointer$
.option pop
# Initialize stack pointer from linker script symbol
la sp, __stack_top
# Clear the BSS segment
la a0, __bss_start
la a1, __bss_end
clear_bss:
bgeu a0, a1, finish_bss
sb x0, 0(a0)
addi a0, a0, 1
j clear_bss
finish_bss:
call main
ebreak
.section .rodata
alfabet:
.string "abcdefghijklmnopqrstuwxyz"
slowo:
.section .data
wynik:
.string "mpabi"
.space 26 # rezerwuje 26 bajtów dla wyniku, zainicjowane na 0

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cpp/_rv-diss Normal file
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riscv64-unknown-elf-objdump -S --disassemble prog > prog.dis

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@ -0,0 +1 @@
readelf -S -W prog

178
cpp/_rvmain.cpp
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@ -1,163 +1,41 @@
#include <stdint.h>
#include <stdio.h>
int strlen(char *s) {
char *p = s;
while (*p != '\0')
p++;
return p - s;
}
void strcpy(char *s, char *t)
{
while (*s++ = *t++);
}
#define ALLOCSIZE 10000
static char allocbuf[ALLOCSIZE];
static char *allocp = allocbuf;
char *alloc(int n)
{
if (n % 4 != 0) {
n += 4 - (n % 4);
int strlen(const char *s) {
int len = 0;
while (*s != '\0') {
len++;
s++;
}
if (allocbuf + ALLOCSIZE - allocp >= n) {
allocp += n;
return allocp - n;
} else
return 0;
return len;
}
// def. model danych
void strcpy(char *dest, const char *src) {
while (*src != '\0') {
*dest = *src;
dest++;
src++;
}
*dest = '\0';
}
//pre processor
#define LEN (8+2)*10
struct model {
char * str;
uint32_t len ;
};
//alg
// prosta implementacji func. z bibl. std. strok przy uzyciu gpt3.5
//
#define NULL ((void*) 0)
//
// Funkcja pomocnicza do sprawdzania, czy znak jest wśród delimiterów
bool is_delim(char c, const char *delims) {
while (*delims) {
if (c == *delims) {
return true;
void bubble_sort(char *str, int len) {
for (int i = 0; i < len - 1; i++) {
for (int j = 0; j < len - i - 1; j++) {
if (str[j] > str[j + 1]) {
char temp = str[j];
str[j] = str[j + 1];
str[j + 1] = temp;
}
}
delims++;
}
return false;
}
// Najprostsza implementacja funkcji strtok
char *simple_strtok(char *str, const char *delims) {
static char *static_str = (char *) NULL; // Przechowuje wskaźnik do bieżącej pozycji w ciągu
int main() {
char word[] = "Fabian";
int length = strlen(word);
// Jeśli przekazano nowy ciąg, zaktualizuj static_str
if (str == NULL) {
return (char *) NULL; // str nie wskazuje na zdanie !!!
}
static_str = str;
// " .,mpabi"
// ^
bubble_sort(word, length);
// Pomiń początkowe delimitery
while (*static_str && is_delim(*static_str, delims)) {
static_str++;
}
// Jeśli doszliśmy do końca ciągu, zwróć NULL
if (*static_str == '\0') {
return (char *) NULL;
}
// Zapisz początek tokenu
char *token_start = static_str;
// Znajdź koniec tokenu
while (*static_str && !is_delim(*static_str, delims)) {
static_str++;
}
// Jeśli znaleziono delimitery, zamień je na '\0' i zaktualizuj static_str
if (*static_str) {
*static_str = '\0';
static_str++;
}
// Zwróć początek tokenu
return token_start;
return 0;
}
char buf[100];
struct model * p = (struct model *) buf; //p[1]
////func alg
//in: ptr to date
//return: count of words
int alg (const char * ptr) {
char bufer[ALLOCSIZE];
strcpy(bufer, (char *)ptr);
const char *delims = " ,.!?:;\n\t";
int8_t count = 0;
char *token = simple_strtok(bufer, delims);
while (token != (char *)NULL) {
p[count].str = token;
p[count].len = strlen(token);
token = simple_strtok((char *)NULL, delims);
count++;
}
return count;
}
int main() {
char *str = "If wantered relation no surprise of all";
alg(str);
asm ("nop");
return 1;
}
// wynik tego kodu:
// p[0].str = If
// p[0].len = 2
// p[1].str = wantered
// p[1].len = 8
// p[2].str = relation
// p[2].len = 8
// p[3].str = no
// p[3].len = 2
// p[4].str = surprise
// p[4].len = 8
// p[5].str = of
// p[5].len = 2
// p[6].str = all
// p[6].len = 3

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#include <stdint.h>
int strlen(char *s) {
char *p = s;
while (*p != '\0')
p++;
return p - s;
}
void strcpy(char *s, char *t)
{
while (*s++ = *t++);
}
#define ALLOCSIZE 10000
static char allocbuf[ALLOCSIZE];
static char *allocp = allocbuf;
char *alloc(int n)
{
if (n % 4 != 0) {
n += 4 - (n % 4);
}
if (allocbuf + ALLOCSIZE - allocp >= n) {
allocp += n;
return allocp - n;
} else
return 0;
}
// def. model danych
//pre processor
#define LEN (8+2)*10
struct model {
char * str;
uint32_t len ;
};
//alg
// prosta implementacji func. z bibl. std. strok przy uzyciu gpt3.5
//
#define NULL ((void*) 0)
//
// Funkcja pomocnicza do sprawdzania, czy znak jest wśród delimiterów
bool is_delim(char c, const char *delims) {
while (*delims) {
if (c == *delims) {
return true;
}
delims++;
}
return false;
}
// Najprostsza implementacja funkcji strtok
char *simple_strtok(char *str, const char *delims) {
static char *static_str = (char *) NULL; // Przechowuje wskaźnik do bieżącej pozycji w ciągu
// Jeśli przekazano nowy ciąg, zaktualizuj static_str
if (str != NULL) {
static_str = str;
}
// Jeśli static_str jest NULL, zwróć NULL
if (static_str == NULL) {
return (char *) NULL;
}
// Pomiń początkowe delimitery
while (*static_str && is_delim(*static_str, delims)) {
static_str++;
}
// Jeśli doszliśmy do końca ciągu, zwróć NULL
if (*static_str == '\0') {
return (char *) NULL;
}
// Zapisz początek tokenu
char *token_start = static_str;
// Znajdź koniec tokenu
while (*static_str && !is_delim(*static_str, delims)) {
static_str++;
}
// Jeśli znaleziono delimitery, zamień je na '\0' i zaktualizuj static_str
if (*static_str) {
*static_str = '\0';
static_str++;
}
// Zwróć początek tokenu
return token_start;
}
////func alg
//in: ptr to date
//return: count of words
int alg (const char * ptr) {
char bufer[ALLOCSIZE];
strcpy(bufer, (char *)ptr);
const char *delims = " ,.!?:;\n\t";
int8_t count = 0;
char *token = simple_strtok(bufer, delims);
while (token != (char *)NULL) {
count++;
token = simple_strtok((char *)NULL, delims);
}
return count;
}
int main() {
const char *str = "If wantered relation no surprise of all";
struct model *ptr = (struct model *) alloc(LEN);
if (ptr != (struct model *) NULL) {
ptr->str = alloc(strlen((char *)str) + 1);
if (ptr->str != (char *)NULL) {
strcpy (ptr->str, (char *)str);
ptr->len = strlen(ptr->str);
int8_t count = alg(ptr->str);
}
}
return 1;
}

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# set args 0x1FF80 0x80 0x30
# source gdb/z.py
import gdb
import sys
# Parse arguments from the GDB command
args = gdb.string_to_argv(gdb.parameter("args"))
if len(args) != 3:
print("Usage: source gdb/zero_with_params.py <start_address> <num_bytes> <pattern>")
else:
start_address = int(args[0], 16) # Convert start address from hex to int
num_bytes = int(args[1], 16) # Convert number of bytes from hex to int
pattern = int(args[2], 16) # Convert pattern from hex to int
for i in range(num_bytes):
gdb.execute("set *((char*)%x + %x) = %x" % (start_address, i, pattern))

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@ -0,0 +1,5 @@
#source gdb/z.py
import gdb
for i in range(0, 128): # 128 bajtów
gdb.execute("set *((char*)(0x1FF80 + %x)) = 0xaa" % i)

43
cpp/murax_128k_ram-sp.ld
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@ -1,43 +0,0 @@
MEMORY
{
RAM (wx) : ORIGIN = 0x0, LENGTH = 128K
}
SECTIONS
{
.text :
{
*(.text*)
*(.rodata*)
} > RAM
.data :
{
*(.data*)
} > RAM
.bss :
{
*(.bss*)
*(COMMON)
} > RAM
/* Add stack at the end of RAM */
. = ALIGN(4);
_end = .;
PROVIDE(end = .);
/* Define stack size and location */
_stack_size = 0x4000; /* Example stack size: 16KB */
_stack_end = ORIGIN(RAM) + LENGTH(RAM); /* End of RAM */
_stack_start = _stack_end - _stack_size; /* Calculate start of the stack */
.stack (NOLOAD) :
{
. = ALIGN(4);
. = . + _stack_size;
. = ALIGN(4);
_sp = .;
} > RAM
PROVIDE(__stack = _sp);
}

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@ -1,67 +0,0 @@
/* Linker script for a system with 128KB RAM starting at 0x10000 */
MEMORY
{
RAM (wx) : ORIGIN = 0x0000, LENGTH = 128K
}
SECTIONS
{
/* Place code and readonly data at the beginning of RAM */
.text :
{
*(.text*)
*(.rodata*)
} > RAM
/* Place initialized data right after the .text section */
.data :
{
. = ALIGN(4);
*(.data*)
} > RAM
/* Uninitialized data (BSS) follows initialized data */
.bss :
{
. = ALIGN(4);
__bss_start = .;
*(.bss*)
*(COMMON)
. = ALIGN(4);
__bss_end = .;
} > RAM
/* Define heap start right after bss */
. = ALIGN(4);
__heap_start = .;
PROVIDE(heap_start = __heap_start);
/* Leave space for the heap by not explicitly defining its end */
/* The heap grows towards the stack */
/* Reserve space for the stack at the end of RAM */
/* Let's say we want a 16KB stack */
. = ALIGN(4);
__stack_size = 16K; /* Size of the stack */
__stack_top = ORIGIN(RAM) + LENGTH(RAM); /* Top of the stack */
__stack_start = __stack_top - __stack_size; /* Start of the stack */
.stack (NOLOAD) :
{
. = __stack_start;
. += __stack_size; /* Allocate space for the stack */
. = ALIGN(4);
} > RAM
PROVIDE(__stack = __stack_top);
PROVIDE(stack_top = __stack_top);
PROVIDE(stack_start = __stack_start);
/* Heap end is dynamically located at the start of the stack */
__heap_end = __stack_start;
PROVIDE(heap_end = __heap_end);
/* End of RAM usage */
. = ALIGN(4);
_end = .;
PROVIDE(end = _end);
}

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@ -1,13 +0,0 @@
MEMORY
{
RAM (wx) : ORIGIN = 0x10000, LENGTH = 128K
}
SECTIONS
{
.text : { *(.text*) } > RAM
.rodata : { *(.rodata*) } > RAM
.data : { *(.data*) } > RAM
.bss : { *(.bss*) } > RAM
_end = .; /* Definiuje koniec sekcji danych, może być używane do określenia rozmiaru sterty */
}

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#include "myfuncOOP.hpp"
MyfuncOOP::MyfuncOOP(const char* alfabet, const char* slowo, uint8_t* wynik)
: alfabet(alfabet), slowo(slowo), wynik(wynik) {
}
void MyfuncOOP::countCharacters() {
int alfabet_length = myStrlen(alfabet);
for (int i = 0; i < alfabet_length; ++i) {
wynik[i] = 0; // Initialize counts to zero
}
for (int i = 0; i < alfabet_length; ++i) {
for (int j = 0; slowo[j] != '\0'; ++j) {
if (alfabet[i] == slowo[j]) {
wynik[i]++;
}
}
}
}
const uint8_t* MyfuncOOP::getResults() const {
return wynik;
}
int MyfuncOOP::myStrlen(const char* str) {
int length = 0;
while (str[length] != '\0') {
++length;
}
return length;
}
// MyfuncOOP zliczacz(alfabet, slowo, wynik);
// zliczacz.countCharacters();
// const uint8_t* results = zliczacz.getResults();

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#ifndef MYFUNC_OOP_HPP
#define MYFUNC_OOP_HPP
#include <cstdint>
class MyfuncOOP {
public:
MyfuncOOP(const char* alfabet, const char* slowo, uint8_t* wynik);
void countCharacters();
const uint8_t* getResults() const;
private:
const char* alfabet;
const char* slowo;
uint8_t* wynik;
static int myStrlen(const char* str);
};
#endif // MYFUNC_OOP_HPP

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#include "myfuncStruct.h"
// Static function for string length calculation
static int my_strlen(const char *str) {
int length = 0;
while (str[length] != '\0') {
length++;
}
return length;
}
// Function to count occurrences of each character in 'alfabet' within 'slowo'
void count_charactersStruct(ZliczaczStruct* zliczacz) {
int alfabet_length = my_strlen(zliczacz->alfabet);
// Initialize the result array to zero
for (int i = 0; i < alfabet_length; ++i) {
zliczacz->wynik[i] = 0;
}
// Count occurrences
for (int i = 0; i < alfabet_length; ++i) {
for (int j = 0; zliczacz->slowo[j] != '\0'; ++j) {
if (zliczacz->alfabet[i] == zliczacz->slowo[j]) {
zliczacz->wynik[i]++;
}
}
}
}

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#ifndef MYFUNCSTRUCT_H
#define MYFUNCSTRUCT_H
#include <stdint.h>
typedef struct {
const char* alfabet;
const char* slowo;
uint8_t* wynik; // Pointer to an array for results
} ZliczaczStruct;
// Function declaration for counting character occurrences
void count_charactersStruct(ZliczaczStruct* zliczacz);
#endif // MYFUNCSTRUCT_H

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#include "myfuncStructOOP.h"
// Static function for string length calculation
static int my_strlen(const char *str) {
int length = 0;
while (str[length] != '\0') {
length++;
}
return length;
}
// 'Method' to count occurrences of each character
static void count_charactersStructOOP(ZliczaczStructOOP* zliczacz) {
int alfabet_length = my_strlen(zliczacz->alfabet);
// Initialize the result array to zero
for (int i = 0; i < alfabet_length; ++i) {
zliczacz->wynik[i] = 0;
}
// Count occurrences
for (int i = 0; i < alfabet_length; ++i) {
for (int j = 0; zliczacz->slowo[j] != '\0'; ++j) {
if (zliczacz->alfabet[i] == zliczacz->slowo[j]) {
zliczacz->wynik[i]++;
}
}
}
}
// Constructor-like function to initialize a ZliczaczStructOOP
void initializeZliczaczStructOOP(ZliczaczStructOOP* zliczacz, const char* alfabet, const char* slowo, uint8_t* wynik) {
zliczacz->alfabet = alfabet;
zliczacz->slowo = slowo;
zliczacz->wynik = wynik;
zliczacz->count_characters = count_charactersStructOOP;
}
// #include "myfuncStructOOP.h"
// ZliczaczStructOOP zliczacz;
// initializeZliczaczStructOOP(&zliczacz, alfabet, slowo, wynik);
// zliczacz.count_characters(&zliczacz);

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#ifndef MYFUNCSTRUCTOOP_H
#define MYFUNCSTRUCTOOP_H
#include <stdint.h>
typedef struct ZliczaczStructOOP ZliczaczStructOOP;
struct ZliczaczStructOOP {
// Data members
const char* alfabet;
const char* slowo;
uint8_t* wynik; // Pointer to an array for results
// Function pointers, acting as 'methods'
void (*count_characters)(ZliczaczStructOOP*);
};
void initializeZliczaczStructOOP(ZliczaczStructOOP* zliczacz, const char* alfabet, const char* slowo, uint8_t* wynik);
#endif // MYFUNCSTRUCTOOP_H

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_crt0.S
main.cpp
myfunc.cpp
myfunc.h
_rvmain.cc

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import asyncio
import websockets
async def consume_ws_latest_records():
uri = "ws://172.24.0.3:3333/ws_latest_records"
async with websockets.connect(uri) as websocket:
while True:
message = input("Enter a message to send: ")
await websocket.send(message)
response = await websocket.recv()
print(f"Received from server: {response}")
if __name__ == "__main__":
asyncio.get_event_loop().run_until_complete(consume_ws_latest_records())

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g++ -std=c++17 -o websocket-client-sync main.cpp myfunc.cpp -lboost_system -lboost_thread -lboost_coroutine -ljsoncpp

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./websocket-client-sync ws://localhost:3333/ws

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#include <boost/beast/core.hpp>
#include <boost/beast/websocket.hpp>
#include <boost/asio/connect.hpp>
#include <boost/asio/ip/tcp.hpp>
#include <cstdlib>
#include <iostream>
#include <string>
#include <jsoncpp/json/json.h>
#include <thread>
#include <chrono>
#include <regex>
namespace beast = boost::beast;
namespace websocket = beast::websocket;
namespace net = boost::asio;
using tcp = boost::asio::ip::tcp;
struct Person {
std::string name;
int age;
long long timestamp;
};
Json::Value serializePerson(const Person& person) {
Json::Value jsonPerson;
jsonPerson["name"] = person.name;
jsonPerson["age"] = person.age;
jsonPerson["timestamp"] = static_cast<Json::Value::Int64>(person.timestamp);
return jsonPerson;
}
std::tuple<std::string, std::string, std::string> parseURI(const std::string& uri) {
std::regex uriRegex(R"(^ws://([^:/]+):(\d+)(/.+)$)");
std::smatch match;
if (std::regex_match(uri, match, uriRegex)) {
return std::make_tuple(match[1].str(), match[2].str(), match[3].str());
} else {
throw std::invalid_argument("Nieprawidłowe URI");
}
}
template <typename T>
T getInput(const std::string& prompt) {
T value;
while (true) {
std::cout << prompt;
std::cin >> value;
if (std::cin.fail()) {
std::cin.clear();
std::cin.ignore(std::numeric_limits<std::streamsize>::max(), '\n');
std::cerr << "Błąd! Spróbuj ponownie." << std::endl;
} else {
std::cin.ignore(std::numeric_limits<std::streamsize>::max(), '\n');
break;
}
}
return value;
}
void iterateCharBuffer(const char* charBuffer, std::size_t bufferSize) {
for (std::size_t i = 0; i < bufferSize; ++i) {
std::cout << charBuffer[i];
}
std::cout << std::endl;
// Example: Call the function you want to apply to the char buffer
}
int main(int argc, char** argv) {
try {
if (argc != 2) {
std::cerr << "Sposób użycia: " << argv[0] << " <adres URI>\n";
return EXIT_FAILURE;
}
std::string uri = argv[1];
auto uriParts = parseURI(uri);
std::string host, port, endpoint;
std::tie(host, port, endpoint) = uriParts;
net::io_context io_context;
websocket::stream<tcp::socket> ws(io_context);
tcp::resolver resolver(io_context);
auto endpoints = resolver.resolve(host, port);
net::connect(ws.next_layer(), endpoints);
ws.handshake(host, endpoint);
while (true) {
std::cout << "Menu:\n";
std::cout << "1. Dodaj rekord\n";
std::cout << "2. Zwróć ostatnie rekordy\n";
std::cout << "3. Wyjście\n";
int choice = getInput<int>("Wybierz opcję: ");
if (choice == 1) {
std::string name = getInput<std::string>("Podaj imię: ");
int age = getInput<int>("Podaj wiek: ");
Person personToSend{name, age, std::chrono::duration_cast<std::chrono::milliseconds>(
std::chrono::system_clock::now().time_since_epoch()).count()};
Json::Value jsonPerson = serializePerson(personToSend);
ws.write(net::buffer(Json::writeString(Json::StreamWriterBuilder(), jsonPerson)));
} else if (choice == 2) {
ws.write(net::buffer("get_latest_records"));
beast::flat_buffer buffer;
ws.read(buffer);
std::cout << "Otrzymano: " << beast::make_printable(buffer.data()) << std::endl;
const char* bufferData = boost::asio::buffer_cast<const char*>(buffer.data());
std::size_t bufferSize = boost::asio::buffer_size(buffer.data());
char* charBuffer = new char[bufferSize + 1];
std::memcpy(charBuffer, bufferData, bufferSize);
charBuffer[bufferSize] = '\0';
iterateCharBuffer(charBuffer, bufferSize);
delete[] charBuffer;
buffer.consume(buffer.size());
} else if (choice == 3) {
std::cout << "Zamykanie programu...\n";
break;
} else {
std::cout << "Nieprawidłowy wybór. Spróbuj ponownie.\n";
}
std::this_thread::sleep_for(std::chrono::milliseconds(200));
}
} catch (std::exception const& e) {
std::cerr << "Błąd: " << e.what() << std::endl;
return EXIT_FAILURE;
}
return EXIT_SUCCESS;
}

53
cpp/try/uri.cpp Normal file
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#include <iostream>
#include <tuple>
#include <regex>
#include <boost/asio.hpp>
#include <boost/beast.hpp>
#include <jsoncpp/json/json.h>
namespace beast = boost::beast;
namespace websocket = beast::websocket;
namespace net = boost::asio;
using tcp = boost::asio::ip::tcp;
std::tuple<std::string, std::string, std::string> parseURI(const std::string& uri) {
std::regex uriRegex(R"(^ws://([^:/]+):(\d+)(/.+)$)");
std::smatch match;
if (std::regex_match(uri, match, uriRegex)) {
return std::make_tuple(match[1].str(), match[2].str(), match[3].str());
} else {
throw std::invalid_argument("Nieprawidłowe URI");
}
}
int main() {
std::string uri = "ws://172.24.0.3:3333";
std::cout << "Dostarczone URI: " << uri << std::endl;
try {
auto uriParts = parseURI(uri);
std::string host, port, endpoint;
std::tie(host, port, endpoint) = uriParts;
net::io_context io_context;
// Utwórz obiekt WebSocket
websocket::stream<tcp::socket> ws(io_context);
// Połącz z serwerem WebSocket
tcp::resolver resolver(io_context);
auto endpoints = resolver.resolve(host, port);
net::connect(ws.next_layer(), endpoints);
// Wysyłanie danych na serwer WebSocket
ws.handshake(host, endpoint);
} catch (const std::exception& e) {
std::cerr << "Błąd: " << e.what() << std::endl;
return EXIT_FAILURE;
}
return EXIT_SUCCESS;
}

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cpp/txt.txt Normal file
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#include <stdio.h>
#include <string.h>
size_t my_strlen(const char *str) {
size_t len = 0;
while (*str++) {
len++;
}
return len;
}
int main() {
const char *test_string = "Hello, world!";
size_t length = my_strlen(test_string);
char source[] = "Fabian";
char destination[100];
strcpy(destination, source);
return 0;
}

2
gra.txt
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@ -1,2 +0,0 @@
https://www.mediafire.com/file/c5d9ad65bxiln6o/MojaGra1.zip/file