mpw/toolbox/mm.cpp

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#include "mm.h"
#include <cpu/defs.h>
#include <cpu/CpuModule.h>
#include <cpu/fmem.h>
#include <string>
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#include <deque>
#include <vector>
#include <map>
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#include <mplite/mplite.h>
namespace
{
mplite_t pool;
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uint8_t *Memory;
uint32_t MemorySize;
// queue of free Handles
std::deque<uint32_t> HandleQueue;
// map of ptr -> size
std::map<uint32_t, uint32_t> PtrMap;
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struct HandleInfo
{
uint32_t address;
uint32_t size;
HandleInfo(uint32_t a = 0, uint32_t s = 0) :
address(a), size(s)
{}
};
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// map of handle -> size [? just use Ptr map?]
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std::map<uint32_t, HandleInfo> HandleMap;
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inline uint16_t SetMemError(uint16_t error)
{
memoryWriteWord(error, 0x0220);
return error;
}
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bool alloc_handle_block()
{
const unsigned HandleCount = 128;
uint8_t *block = (uint8_t *)mplite_malloc(&pool,
sizeof(uint32_t) * HandleCount);
if (!block) return false;
uint32_t hh = block - Memory;
uint32_t end = hh + 128 * sizeof(uint32_t);
for ( ; hh < end; hh += sizeof(uint32_t))
{
HandleQueue.push_back(hh);
}
return true;
}
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}
namespace MM
{
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bool Init(uint8_t *memory, uint32_t memorySize, uint32_t reserved)
{
int ok;
Memory = memory;
MemorySize = memorySize;
ok = mplite_init(&pool,
memory + reserved,
memorySize - reserved,
32,
NULL);
if (ok != MPLITE_OK) return false;
// allocate a handle block...
if (!alloc_handle_block()) return false;
return true;
}
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uint16_t BlockMove(uint16_t trap)
{
/*
* on entry:
* A0 Pointer to source
* A1 Pointer to destination
* D0 Number of bytes to copy
*
* on exit:
* A0 Address of the new block or NIL
* D0 Result code
*
*/
uint32_t source = cpuGetAReg(0);
uint32_t dest = cpuGetAReg(1);
uint32_t count = cpuGetDReg(0);
fprintf(stderr, "%04x BlockMove(%08x, %08x, %08x)\n",
trap, source, dest, count);
// TODO -- 32-bit clean?
// TODO -- verify within MemorySize?
#if 0
if (source == 0 || dest == 0 || count == 0)
return 0;
#endif
std::memmove(Memory + dest, Memory + source, count);
return 0;
}
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uint32_t CompactMem(uint16_t trap)
{
// todo -- add function to check pool for largest block?
/*
* on entry:
* D0: cbNeeded (long word)
*
* on exit:
* D0: function result (long word)
*
*/
uint32_t cbNeeded = cpuGetDReg(0);
fprintf(stderr, "%04x CompactMem(%08x)\n", trap, cbNeeded);
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return 0x0f0000;
}
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uint16_t DisposePtr(uint16_t trap)
{
/*
* on entry:
* A0 Pointer to the nonrelocatable block to be disposed of
*
* on exit:
* D0 Result code
*
*/
uint32_t mcptr = cpuGetAReg(0);
fprintf(stderr, "%04x DisposePtr(%08x)\n", trap, mcptr);
auto iter = PtrMap.find(mcptr);
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if (iter == PtrMap.end()) return SetMemError(memWZErr);
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PtrMap.erase(iter);
uint8_t *ptr = mcptr + Memory;
mplite_free(&pool, ptr);
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return SetMemError(0);
}
uint16_t DisposeHandle(uint16_t trap)
{
/*
* on entry:
* A0 Handle to be disposed of
*
* on exit:
* D0 Result code
*
*/
uint32_t hh = cpuGetAReg(0);
fprintf(stderr, "%04x DisposeHandle(%08x)\n", trap, hh);
auto iter = HandleMap.find(hh);
if (iter == HandleMap.end()) return SetMemError(memWZErr);
HandleInfo info = iter->second;
HandleMap.erase(iter);
uint8_t *ptr = info.address + Memory;
mplite_free(&pool, ptr);
HandleQueue.push_back(hh);
return SetMemError(0);
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}
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uint16_t NewPtr(uint16_t trap)
{
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/*
* on entry:
* D0 Number of logical bytes requested
*
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* on exit:
* A0 Address of the new block or NIL
* D0 Result code
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*
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*/
bool clear = trap & (1 << 9);
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//bool sys = trap & (1 << 10);
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uint32_t size = cpuGetDReg(0);
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fprintf(stderr, "%04x NewPtr(%08x)\n", trap, size);
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// todo -- separate pools for sys vs non-sys?
// todo -- NewPtr(0) -- null or empty ptr?
if (size == 0)
{
cpuSetAReg(0, 0);
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return SetMemError(0);
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}
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uint8_t *ptr = nullptr;
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ptr = (uint8_t *)mplite_malloc(&pool, size);
if (!ptr)
{
cpuSetAReg(0, 0);
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return SetMemError(memFullErr);
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}
if (clear)
{
std::memset(ptr, 0, size);
}
uint32_t mcptr = ptr - Memory;
PtrMap.emplace(std::make_pair(mcptr, size));
cpuSetAReg(0, mcptr);
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return SetMemError(0);
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}
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uint16_t SetPtrSize(uint16_t trap)
{
/*
* on entry:
* A0 pointer
* D0 new size
*
* on exit:
* D0 Result code
*
*/
uint32_t mcptr = cpuGetAReg(0);
uint32_t newSize = cpuGetDReg(0);
fprintf(stderr, "%08x SetPtrSize(%08x, %08x)\n", trap, mcptr, newSize);
auto iter = PtrMap.find(mcptr);
if (iter == PtrMap.end()) return SetMemError(memWZErr);
PtrMap.erase(iter);
uint8_t *ptr = mcptr + Memory;
if (mplite_resize(&pool, ptr, newSize) < 0)
{
return SetMemError(memFullErr);
}
return SetMemError(0);
}
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uint16_t NewHandle(uint16_t trap)
{
/*
* on entry:
* D0 Number of logical bytes requested
*
* on exit:
* A0 Address of the new handle or NIL
* D0 Result code
*
*/
uint32_t hh = 0;
uint8_t *ptr;
uint32_t mcptr;
bool clear = trap & (1 << 9);
//bool sys = trap & (1 << 10);
uint32_t size = cpuGetDReg(0);
fprintf(stderr, "%04x NewHandle(%08x)\n", trap, size);
if (!HandleQueue.size())
{
if (!alloc_handle_block())
{
cpuSetAReg(0, 0);
return SetMemError(memFullErr);
}
}
hh = HandleQueue.front();
HandleQueue.pop_front();
ptr = nullptr;
mcptr = 0;
if (size)
{
ptr = (uint8_t *)mplite_malloc(&pool, size);
if (!ptr)
{
HandleQueue.push_back(hh);
cpuSetAReg(0, 0);
return SetMemError(memFullErr);
}
mcptr = ptr - Memory;
if (clear)
std::memset(ptr, 0, size);
}
// need a handle -> ptr map?
HandleMap.emplace(std::make_pair(hh, HandleInfo(mcptr, size)));
memoryWriteLong(mcptr, hh);
cpuSetAReg(0, hh);
return SetMemError(0);
}
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}