417 lines
12 KiB
C++
417 lines
12 KiB
C++
/*******************************************************************************
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HARPtools by Chad D. Kersey, Summer 2011
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*******************************************************************************/
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#ifndef __MEM_H
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#define __MEM_H
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#include <ostream>
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#include <vector>
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#include <queue>
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#include <map>
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#include <pthread.h>
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#include "types.h"
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namespace Harp {
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void *consoleInputThread(void *);
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struct BadAddress {};
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class MemDevice {
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public:
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virtual ~MemDevice() {}
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virtual Size size() const = 0;
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virtual Word read(Addr) = 0;
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virtual void write(Addr, Word) = 0;
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virtual Byte *base() { return NULL; } /* Null if unavailable. */
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};
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class RamMemDevice : public MemDevice {
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public:
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RamMemDevice(Size size, Size wordSize);
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RamMemDevice(const char* filename, Size wordSize);
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~RamMemDevice() {}
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virtual Size size() const { return contents.size(); };
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virtual Word read(Addr);
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virtual void write(Addr, Word);
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virtual Byte *base() { return &contents[0]; }
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protected:
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Size wordSize;
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std::vector<Byte> contents;
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};
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class RomMemDevice : public RamMemDevice {
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public:
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RomMemDevice(const char* filename, Size wordSize) :
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RamMemDevice(filename, wordSize) {}
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RomMemDevice(Size size, Size wordSize) :
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RamMemDevice(size, wordSize) {}
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~RomMemDevice();
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virtual void write(Addr, Word);
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};
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class Core;
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class ConsoleMemDevice : public MemDevice {
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public:
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ConsoleMemDevice(Size wS, std::ostream &o, Core &core, bool batch = false) {}
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~ConsoleMemDevice() {}
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//virtual Size wordSize() const { return wordSize; }
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virtual Size size() const { return 1; }
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virtual Word read(Addr) { Word(5); }
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virtual void write(Addr a, Word w) { }
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void poll() {}
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};
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class DiskControllerMemDevice : public MemDevice {
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public:
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DiskControllerMemDevice(Size wordSize, Size blockSize, Core &c) :
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wordSize(wordSize), blockSize(blockSize), core(c), disks() {}
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void addDisk(Byte *file, Size n) { disks.push_back(Disk(file, n)); }
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virtual Size size() const { return wordSize * 6; }
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virtual Word read(Addr);
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virtual void write(Addr, Word);
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private:
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Word curDisk, curBlock, nBlocks, physAddr, command, status;
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enum Status { OK = 0, INVALID_DISK, INVALID_BLOCK };
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struct Disk {
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Disk(Byte *f, Size n): file(f), blocks(n) {}
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Byte *file;
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Size blocks;
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};
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std::vector <Disk> disks;
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Core &core;
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Size wordSize, blockSize;;
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};
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class MemoryUnit {
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public:
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MemoryUnit(Size pageSize, Size addrBytes, bool disableVm = false) :
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pageSize(pageSize), addrBytes(addrBytes), ad(), disableVm(disableVm)
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{
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if (!disableVm)
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tlb[0] = TLBEntry(0, 077);
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}
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void attach(MemDevice &m, Addr base);
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//Size wordSize();
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struct PageFault {
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PageFault(Addr a, bool nf) : faultAddr(a), notFound(nf) {}
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Addr faultAddr;
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bool notFound;
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}; /* Thrown on page fault. */
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Word read(Addr, bool sup); /* For data accesses. */
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Word fetch(Addr, bool sup); /* For instruction accesses. */
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Byte *getPtr(Addr, Size);
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void write(Addr, Word, bool sup, Size);
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void tlbAdd(Addr virt, Addr phys, Word flags);
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void tlbRm(Addr va);
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void tlbFlush() { tlb.clear(); }
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#ifdef EMU_INSTRUMENTATION
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Addr virtToPhys(Addr va);
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#endif
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private:
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class ADecoder {
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public:
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ADecoder() : zeroChild(NULL), oneChild(NULL), range(0) {}
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ADecoder(MemDevice &md, Size range) :
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zeroChild(NULL), oneChild(NULL), range(range), md(&md) {}
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Byte *getPtr(Addr a, Size sz, Size wordSize);
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Word read(Addr a, bool sup, Size wordSize);
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void write(Addr a, Word w, bool sup, Size wordSize);
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void map(Addr a, MemDevice &md, Size range, Size bit);
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private:
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MemDevice &doLookup(Addr a, Size &bit);
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ADecoder *zeroChild, *oneChild;
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MemDevice *md;
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Size range;
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};
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ADecoder ad;
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struct TLBEntry {
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TLBEntry() {}
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TLBEntry(Word pfn, Word flags): pfn(pfn), flags(flags) {}
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Word flags;
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Word pfn;
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};
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std::map<Addr, TLBEntry> tlb;
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TLBEntry tlbLookup(Addr vAddr, Word flagMask);
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Size pageSize, addrBytes;
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bool disableVm;
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};
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class RAM : public MemDevice {
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public:
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uint8_t* mem[1 << 12];
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RAM(){
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for(uint32_t i = 0;i < (1 << 12);i++) mem[i] = NULL;
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}
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~RAM(){
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for(uint32_t i = 0;i < (1 << 12);i++) if(mem[i]) delete [] mem[i];
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}
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void clear(){
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for(uint32_t i = 0;i < (1 << 12);i++)
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{
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if(mem[i])
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{
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delete mem[i];
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mem[i] = NULL;
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}
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}
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}
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uint8_t* get(uint32_t address){
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if(mem[address >> 20] == NULL) {
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uint8_t* ptr = new uint8_t[1024*1024];
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for(uint32_t i = 0;i < 1024*1024;i+=4) {
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ptr[i + 0] = 0xaa;
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ptr[i + 1] = 0xbb;
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ptr[i + 2] = 0xcc;
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ptr[i + 3] = 0xdd;
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}
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mem[address >> 20] = ptr;
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}
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return &mem[address >> 20][address & 0xFFFFF];
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}
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void read(uint32_t address,uint32_t length, uint8_t *data){
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for(unsigned i = 0;i < length;i++){
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data[i] = (*this)[address + i];
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}
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}
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void write(uint32_t address,uint32_t length, uint8_t *data){
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for(unsigned i = 0;i < length;i++){
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(*this)[address + i] = data[i];
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}
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}
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virtual Size size() const { return (1<<31); };
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void getBlock(uint32_t address, uint8_t *data)
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{
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uint32_t block_number = address & 0xffffff00; // To zero out block offset
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uint32_t bytes_num = 256;
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this->read(block_number, bytes_num, data);
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}
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void getWord(uint32_t address, uint32_t * data)
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{
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data[0] = 0;
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uint8_t first = *get(address + 0);
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uint8_t second = *get(address + 1);
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uint8_t third = *get(address + 2);
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uint8_t fourth = *get(address + 3);
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// std::cout << std::hex;
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// std::cout << "RAM: READING ADDRESS " << address + 0 << " DATA: " << (uint32_t) first << "\n";
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// std::cout << "RAM: READING ADDRESS " << address + 1 << " DATA: " << (uint32_t) second << "\n";
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// std::cout << "RAM: READING ADDRESS " << address + 2 << " DATA: " << (uint32_t) third << "\n";
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// std::cout << "RAM: READING ADDRESS " << address + 3 << " DATA: " << (uint32_t) fourth << "\n";
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data[0] = (data[0] << 0) | fourth;
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data[0] = (data[0] << 8) | third;
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data[0] = (data[0] << 8) | second;
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data[0] = (data[0] << 8) | first;
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// data[0] = (data[0] << 0) | first;
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// data[0] = (data[0] << 8) | second;
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// data[0] = (data[0] << 8) | third;
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// data[0] = (data[0] << 8) | fourth;
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// std::cout << "FINAL DATA: " << data[0] << "\n";
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}
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void writeWord(uint32_t address, uint32_t * data)
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{
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uint32_t data_to_write = *data;
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uint32_t byte_mask = 0xFF;
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for (int i = 0; i < 4; i++)
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{
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// std::cout << "RAM: DATA TO WRITE " << data_to_write << "\n";
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// std::cout << "RAM: DATA TO MASK " << byte_mask << "\n";
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// std::cout << "RAM: WRITING ADDRESS " << address + i << " DATA: " << (data_to_write & byte_mask) << "\n";
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(*this)[address + i] = data_to_write & byte_mask;
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data_to_write = data_to_write >> 8;
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}
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}
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void writeHalf(uint32_t address, uint32_t * data)
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{
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uint32_t data_to_write = *data;
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uint32_t byte_mask = 0xFF;
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for (int i = 0; i < 2; i++)
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{
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// std::cout << "RAM: DATA TO WRITE " << data_to_write << "\n";
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// std::cout << "RAM: DATA TO MASK " << byte_mask << "\n";
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// std::cout << "RAM: WRITING ADDRESS " << address + i << " DATA: " << (data_to_write & byte_mask) << "\n";
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(*this)[address + i] = data_to_write & byte_mask;
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data_to_write = data_to_write >> 8;
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}
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}
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void writeByte(uint32_t address, uint32_t * data)
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{
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uint32_t data_to_write = *data;
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uint32_t byte_mask = 0xFF;
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(*this)[address] = data_to_write & byte_mask;
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data_to_write = data_to_write >> 8;
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}
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uint8_t& operator [](uint32_t address) {
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return *get(address);
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}
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virtual void write(Addr addr, Word w)
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{
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uint32_t word = (uint32_t) w;
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writeWord(addr, &word);
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}
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virtual Word read(Addr addr)
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{
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uint32_t w;
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getWord(addr, &w);
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// std::cout << "RAM: read -> " << w << " at addr: " << addr << "\n";
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return (Word) w;
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}
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virtual Byte *base()
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{
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return (Byte *) this->get(0);
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}
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// MEMORY UTILS
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uint32_t hti_old(char c) {
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if (c >= 'A' && c <= 'F')
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return c - 'A' + 10;
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if (c >= 'a' && c <= 'f')
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return c - 'a' + 10;
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return c - '0';
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}
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uint32_t hToI_old(char *c, uint32_t size) {
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uint32_t value = 0;
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for (uint32_t i = 0; i < size; i++) {
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value += hti_old(c[i]) << ((size - i - 1) * 4);
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}
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return value;
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}
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void loadHexImpl(std::string path) {
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this->clear();
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FILE *fp = fopen(&path[0], "r");
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if(fp == 0){
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std::cout << path << " not found" << std::endl;
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}
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//Preload 0x0 <-> 0x80000000 jumps
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((uint32_t*)this->get(0))[0] = 0xf1401073;
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((uint32_t*)this->get(0))[1] = 0xf1401073;
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// ((uint32_t*)this->get(0))[1] = 0xf1401073;
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((uint32_t*)this->get(0))[2] = 0x30101073;
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((uint32_t*)this->get(0))[3] = 0x800000b7;
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((uint32_t*)this->get(0))[4] = 0x000080e7;
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((uint32_t*)this->get(0x80000000))[0] = 0x00000097;
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((uint32_t*)this->get(0xb0000000))[0] = 0x01C02023;
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// F00FFF10
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((uint32_t*)this->get(0xf00fff10))[0] = 0x12345678;
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fseek(fp, 0, SEEK_END);
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uint32_t size = ftell(fp);
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fseek(fp, 0, SEEK_SET);
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char* content = new char[size];
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int x = fread(content, 1, size, fp);
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if (!x) { std::cout << "COULD NOT READ FILE\n"; std::abort();}
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int offset = 0;
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char* line = content;
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// std::cout << "WHTA\n";
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while (1) {
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if (line[0] == ':') {
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uint32_t byteCount = hToI_old(line + 1, 2);
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uint32_t nextAddr = hToI_old(line + 3, 4) + offset;
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uint32_t key = hToI_old(line + 7, 2);
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switch (key) {
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case 0:
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for (uint32_t i = 0; i < byteCount; i++) {
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unsigned add = nextAddr + i;
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*(this->get(add)) = hToI_old(line + 9 + i * 2, 2);
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// std::cout << "lhi: Address: " << std::hex <<(add) << "\tValue: " << std::hex << hToI_old(line + 9 + i * 2, 2) << std::endl;
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}
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break;
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case 2:
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// cout << offset << endl;
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offset = hToI_old(line + 9, 4) << 4;
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break;
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case 4:
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// cout << offset << endl;
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offset = hToI_old(line + 9, 4) << 16;
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break;
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default:
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// cout << "??? " << key << endl;
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break;
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}
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}
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while (*line != '\n' && size != 0) {
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line++;
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size--;
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}
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if (size <= 1)
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break;
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line++;
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size--;
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}
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if (content) delete[] content;
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}
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};
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};
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#endif
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