mpw/toolbox/mm.cpp

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/*
* Copyright (c) 2013, Kelvin W Sherlock
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
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*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
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*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
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#include "mm.h"
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#include "toolbox.h"
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#include <cpu/defs.h>
#include <cpu/CpuModule.h>
#include <cpu/fmem.h>
#include <string>
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#include <cstring>
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#include <deque>
#include <vector>
#include <map>
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#include <mplite/mplite.h>
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#include <macos/sysequ.h>
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#include <macos/errors.h>
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#include "stackframe.h"
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using ToolBox::Log;
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namespace
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{
mplite_t pool;
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uint8_t *Memory;
uint32_t MemorySize;
uint32_t HeapSize;
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// queue of free Handles
std::deque<uint32_t> HandleQueue;
// map of ptr -> size
std::map<uint32_t, uint32_t> PtrMap;
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// map of handle -> size [? just use Ptr map?]
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std::map<uint32_t, MM::HandleInfo> HandleMap;
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inline MacOS::macos_error SetMemError(MacOS::macos_error error)
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{
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memoryWriteWord(error, MacOS::MemErr);
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return error;
}
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inline MacOS::macos_error SetMemError(int16_t error)
{
return SetMemError((MacOS::macos_error)error);
}
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bool alloc_handle_block()
{
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const unsigned HandleCount = 128; // 512 bytes of handle blocks.
uint8_t *block = (uint8_t *)mplite_malloc(&pool,
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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);
}
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return true;
}
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template<class Fx>
int16_t with_handle(uint32_t handle, Fx fx)
{
auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return MacOS::memWZErr;
return fx(iter->second);
}
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}
namespace MM
{
bool Init(uint8_t *memory, uint32_t memorySize, uint32_t globals, uint32_t stack)
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{
int ok;
Memory = memory;
MemorySize = memorySize;
HeapSize = memorySize - stack;
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ok = mplite_init(&pool,
memory + globals,
memorySize - globals - stack,
32,
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NULL);
if (ok != MPLITE_OK) return false;
// allocate a handle master block...
if (!alloc_handle_block()) return false;
// create system handles for the stack and global space?
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return true;
}
namespace Native {
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// debugger support.
// print info on an address.
void MemoryInfo(uint32_t address)
{
// 1. check if it's a pointer.
{
auto iter = PtrMap.find(address);
if (iter != PtrMap.end())
{
printf("Pointer $%08x Size: $%08x\n", iter->first, iter->second);
return;
}
}
// 2. check if it's contained in a pointer
for (const auto kv : PtrMap)
{
if (address < kv.first) continue;
if (address >= kv.first + kv.second) continue;
printf("Pointer $%08x Size: $%08x\n", kv.first, kv.second);
return;
}
// 2. check if it's a handle.
{
auto iter = HandleMap.find(address);
if (iter != HandleMap.end())
{
const HandleInfo &info = iter->second;
printf("Handle $%08x Pointer: $%08x Size: $%08x Flags: %c %c %c\n",
iter->first,
info.address,
info.size,
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info.locked ? 'L' : ' ',
info.purgeable ? 'P' : ' ',
info.resource ? 'R' : ' '
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);
return;
}
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}
// 3. check if the address is within a handle.
{
for (const auto kv : HandleMap)
{
const HandleInfo &info = kv.second;
if (!info.address) continue;
uint32_t begin = info.address;
uint32_t end = info.address + info.size;
if (!info.size) end++;
if (address >= begin && address < end)
{
printf("Handle $%08x Pointer: $%08x Size: $%08x Flags: %c %c %c\n",
kv.first,
info.address,
info.size,
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info.locked ? 'L' : ' ',
info.purgeable ? 'P' : ' ',
info.resource ? 'R' : ' '
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);
return;
}
}
}
}
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void PrintMemoryStats()
{
mplite_print_stats(&pool, std::puts);
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for (const auto & kv : HandleMap)
{
const auto h = kv.first;
const auto & info = kv.second;
fprintf(stdout, "%08x %08x %08x %c %c %c\n",
h,
info.address,
info.size,
info.locked? 'L' : ' ',
info.purgeable? 'P' : ' ',
info.resource ? 'R' : ' '
);
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}
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}
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uint16_t NewPtr(uint32_t size, bool clear, uint32_t &mcptr)
{
// native pointers.
mcptr = 0;
//if (size == 0) return 0;
uint8_t *ptr = nullptr;
ptr = (uint8_t *)mplite_malloc(&pool, size ? size : 1);
if (!ptr)
{
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return SetMemError(MacOS::memFullErr);
}
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if (clear)
std::memset(ptr, 0, size);
mcptr = ptr - Memory;
PtrMap.emplace(std::make_pair(mcptr, size));
return SetMemError(0);
}
uint16_t DisposePtr(uint32_t mcptr)
{
auto iter = PtrMap.find(mcptr);
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if (iter == PtrMap.end()) return SetMemError(MacOS::memWZErr);
PtrMap.erase(iter);
uint8_t *ptr = mcptr + Memory;
mplite_free(&pool, ptr);
return SetMemError(0);
}
uint16_t NewHandle(uint32_t size, bool clear, uint32_t &handle, uint32_t &mcptr)
{
uint8_t *ptr;
uint32_t hh;
handle = 0;
mcptr = 0;
if (!HandleQueue.size())
{
if (!alloc_handle_block())
{
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return SetMemError(MacOS::memFullErr);
}
}
hh = HandleQueue.front();
HandleQueue.pop_front();
ptr = nullptr;
// todo -- size 0 should have a ptr to differentiate
// from purged.
// PPCLink calls NewHandle(0) but expects a valid pointer
// Assertion failed: *fHandle != NULL
//if (size)
//{
ptr = (uint8_t *)mplite_malloc(&pool, size ? size : 1);
if (!ptr)
{
HandleQueue.push_back(hh);
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return SetMemError(MacOS::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);
handle = hh;
return SetMemError(0);
}
uint16_t NewHandle(uint32_t size, bool clear, uint32_t &handle)
{
uint32_t ptr;
return NewHandle(size, clear, handle, ptr);
}
uint16_t DisposeHandle(uint32_t handle)
{
auto iter = HandleMap.find(handle);
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if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
HandleInfo info = iter->second;
HandleMap.erase(iter);
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if (info.address)
{
uint8_t *ptr = info.address + Memory;
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mplite_free(&pool, ptr);
}
HandleQueue.push_back(handle);
return SetMemError(0);
}
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uint16_t GetHandleSize(uint32_t handle, uint32_t &handleSize)
{
handleSize = 0;
const auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
handleSize = iter->second.size;
return SetMemError(0);
}
uint16_t ReallocHandle(uint32_t handle, uint32_t logicalSize)
{
auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
auto& info = iter->second;
if (info.locked) return SetMemError(MacOS::memLockedErr);
uint32_t mcptr = 0;
if (logicalSize)
{
// todo -- purge & retry on failure.
void *address = mplite_malloc(&pool, logicalSize);
if (!address) return SetMemError(MacOS::memFullErr);
mcptr = (uint8_t *)address - Memory;
}
// the handle is not altered in the event of an error.
if (info.address)
{
void *address = Memory + info.address;
mplite_free(&pool, address);
}
info.address = mcptr;
info.size = logicalSize;
memoryWriteLong(mcptr, handle);
// lock? clear purged flag?
return 0;
}
uint16_t SetHandleSize(uint32_t handle, uint32_t newSize)
{
if (handle == 0) return SetMemError(MacOS::nilHandleErr);
const auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
auto &info = iter->second;
// 0 - no change in size.
if (info.size == newSize) return SetMemError(0);
uint32_t mcptr = info.address;
uint8_t *ptr = mcptr + Memory;
// 1. - resizing to 0.
if (!newSize)
{
if (info.locked)
{
//return SetMemError(MacOS::memLockedErr);
// ppclink resizes locked handles.
info.size = 0;
return SetMemError(0);
}
// todo -- size 0 should have a ptr to differentiate
// from purged.
mplite_free(&pool, ptr);
info.address = 0;
info.size = 0;
memoryWriteLong(info.address, handle);
return SetMemError(0);
}
// 2. - resizing from 0.
if (!mcptr)
{
if (info.locked) return SetMemError(MacOS::memLockedErr);
ptr = (uint8_t *)mplite_malloc(&pool, newSize);
if (!ptr) return SetMemError(MacOS::memFullErr);
mcptr = ptr - Memory;
info.address = mcptr;
info.size = newSize;
memoryWriteLong(info.address, handle);
return SetMemError(0);
}
for (unsigned i = 0; i < 2; ++i)
{
// 3. - locked
if (info.locked)
{
if (mplite_resize(&pool, ptr, mplite_roundup(&pool, newSize)) == MPLITE_OK)
{
info.size = newSize;
return SetMemError(0);
}
}
else
{
// 4. - resize.
ptr = (uint8_t *)mplite_realloc(&pool, ptr, mplite_roundup(&pool, newSize));
if (ptr)
{
mcptr = ptr - Memory;
info.address = mcptr;
info.size = newSize;
memoryWriteLong(info.address, handle);
return SetMemError(0);
}
}
fprintf(stderr, "mplite_realloc failed.\n");
Native::PrintMemoryStats();
if (i > 0) return SetMemError(MacOS::memFullErr);
// purge...
for (auto & kv : HandleMap)
{
uint32_t ph = kv.first;
auto &info = kv.second;
if (ph == handle) continue;
if (info.size && info.purgeable && !info.locked)
{
mplite_free(&pool, Memory + info.address);
info.size = 0;
info.address = 0;
// also need to update memory
memoryWriteLong(0, ph);
}
}
}
return SetMemError(MacOS::memFullErr);
}
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// template class to validate handle and work on it.
template<class FX>
uint16_t HandleIt(uint32_t handle, FX fx)
{
const auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
auto &info = iter->second;
fx(info);
return SetMemError(0);
}
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uint16_t HSetRBit(uint32_t handle)
{
const auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
auto &info = iter->second;
info.resource = true;
return SetMemError(0);
}
uint16_t HClrRBit(uint32_t handle)
{
const auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
auto &info = iter->second;
info.resource = false;
return SetMemError(0);
}
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uint16_t HLock(uint32_t handle)
{
const auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
auto &info = iter->second;
info.locked = true;
return SetMemError(0);
}
uint16_t HUnlock(uint32_t handle)
{
const auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
auto &info = iter->second;
info.locked = false;
return SetMemError(0);
}
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}
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#pragma mark --
tool_return<uint32_t> GetHandleSize(uint32_t handle)
{
const auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
SetMemError(0);
return iter->second.size;
}
tool_return<HandleInfo> GetHandleInfo(uint32_t handle)
{
const auto iter = HandleMap.find(handle);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
SetMemError(0);
return iter->second;
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}
#pragma mark --
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uint16_t BlockMove(uint16_t trap)
{
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// also implements BlockMoveData.
// BlockMove will flush caches, BlockMoveData will not.
/*
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* 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);
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Log("%04x BlockMove(%08x, %08x, %08x)\n",
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trap, source, dest, count);
// TODO -- 32-bit clean?
// TODO -- verify within MemorySize?
#if 0
if (source == 0 || dest == 0 || count == 0)
return 0;
#endif
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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?
/*
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* on entry:
* D0: cbNeeded (long word)
*
* on exit:
* D0: function result (long word)
*
*/
uint32_t cbNeeded = cpuGetDReg(0);
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Log("%04x CompactMem(%08x)\n", trap, cbNeeded);
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SetMemError(0);
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return mplite_maxmem(&pool);
}
uint32_t MaxMem(uint16_t trap)
{
// return largest contiguous free block size.
/*
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* on entry:
* (nothing)
*
* on exit:
* D0: function result (long word)
*
*/
Log("%04x MaxMem()\n", trap);
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SetMemError(0);
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return mplite_maxmem(&pool);
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}
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uint32_t MaxBlock(uint16_t trap)
{
/*
* The MaxBlock function returns the maximum contiguous space, in bytes, that you
* could obtain after compacting the current heap zone. MaxBlock does not actually
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* do the compaction.
*/
/*
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* on entry:
* (nothing)
*
* on exit:
* D0: function result (long word)
*
*/
Log("%04x MaxBlock()\n", trap);
SetMemError(0);
return mplite_maxmem(&pool);
}
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uint32_t FreeMem(uint16_t trap)
{
// total free memory.
/*
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* on entry:
* (nothing)
*
* on exit:
* D0: function result (long word)
*
*/
Log("%04x FreeMem()\n", trap);
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SetMemError(0);
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return mplite_freemem(&pool);
}
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uint16_t ReserveMem(uint16_t trap)
{
/*
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* on entry:
* D0: cbNeeded (long word)
*
* on exit:
* D0: Result code.
*
*/
uint32_t cbNeeded = cpuGetDReg(0);
uint32_t available;
Log("%04x ReserveMem($%08x)\n", trap, cbNeeded);
available = mplite_maxmem(&pool);
// TODO -- if available < cbNeeded, purge handle and retry?
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if (available < cbNeeded) return SetMemError(MacOS::memFullErr);
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return SetMemError(0);
}
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uint16_t MoveHHi(uint16_t trap)
{
/*
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* on entry:
* A0: Handle to move
*
* on exit:
* D0: Result code.
*
*/
uint32_t theHandle = cpuGetAReg(0);
Log("%04x MoveHHi(%08x)\n", trap, theHandle);
// check if it's valid.
auto iter = HandleMap.find(theHandle);
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if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
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return SetMemError(0);
}
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uint32_t StackSpace(uint16_t trap)
{
/*
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* on entry:
*
* on exit:
* D0: Number of bytes between stack and heap
*
*/
uint32_t sp = cpuGetAReg(7);
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Log("%04x StackSpace(%08x)\n", trap);
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SetMemError(0);
// MemorySize is the top of the heap. stack is after it.
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return sp - HeapSize;
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}
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#pragma mark Pointers
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uint16_t NewPtr(uint16_t trap)
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{
/*
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* on entry:
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* D0 Number of logical bytes requested
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*
* on exit:
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* A0 Address of the new block or NIL
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* D0 Result code
*
*/
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bool clear = trap & (1 << 9);
//bool sys = trap & (1 << 10);
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uint32_t size = cpuGetDReg(0);
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Log("%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?
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uint32_t mcptr;
uint16_t error;
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error = Native::NewPtr(size, clear, mcptr);
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cpuSetAReg(0, mcptr);
return error; //SetMemError(error);
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}
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uint16_t DisposePtr(uint16_t trap)
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{
/*
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* on entry:
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* A0 Pointer to the nonrelocatable block to be disposed of
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*
* on exit:
* D0 Result code
*
*/
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uint32_t mcptr = cpuGetAReg(0);
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Log("%04x DisposePtr(%08x)\n", trap, mcptr);
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uint16_t error;
error = Native::DisposePtr(mcptr);
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return error; //SetMemError(error);
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}
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uint32_t GetPtrSize(uint16_t trap)
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{
/*
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* on entry:
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* A0 pointer
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*
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* on exit:
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* D0 size (32-bit) or error code
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*
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*/
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uint32_t mcptr = cpuGetAReg(0);
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Log("%08x GetPtrSize(%08x)\n", trap, mcptr);
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auto iter = PtrMap.find(mcptr);
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if (iter == PtrMap.end()) return SetMemError(MacOS::memWZErr);
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return iter->second;
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}
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uint16_t SetPtrSize(uint16_t trap)
{
/*
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* on entry:
* A0 pointer
* D0 new size
*
* on exit:
* D0 Result code
*
*/
uint32_t mcptr = cpuGetAReg(0);
uint32_t newSize = cpuGetDReg(0);
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Log("%08x SetPtrSize(%08x, %08x)\n", trap, mcptr, newSize);
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auto iter = PtrMap.find(mcptr);
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if (iter == PtrMap.end()) return SetMemError(MacOS::memWZErr);
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uint8_t *ptr = mcptr + Memory;
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if (mplite_resize(&pool, ptr, mplite_roundup(&pool, newSize)) < 0)
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{
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return SetMemError(MacOS::memFullErr);
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}
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// update the size.
iter->second = newSize;
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return SetMemError(0);
}
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#pragma mark Handles
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uint16_t NewHandle(uint16_t trap)
{
/*
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* 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;
uint16_t error;
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bool clear = trap & (1 << 9);
//bool sys = trap & (1 << 10);
uint32_t size = cpuGetDReg(0);
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Log("%04x NewHandle(%08x)\n", trap, size);
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error = Native::NewHandle(size, clear, hh);
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cpuSetAReg(0, hh);
return error;
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}
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uint16_t DisposeHandle(uint16_t trap)
{
/*
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* on entry:
* A0 Handle to be disposed of
*
* on exit:
* D0 Result code
*
*/
uint32_t hh = cpuGetAReg(0);
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Log("%04x DisposeHandle(%08x)\n", trap, hh);
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return Native::DisposeHandle(hh);
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}
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uint16_t EmptyHandle(uint16_t trap)
{
/*
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* on entry:
* A0 Handle to be disposed of
*
* on exit:
* D0 Result code
*
*/
uint32_t hh = cpuGetAReg(0);
Log("%04x EmptyHandle(%08x)\n", trap, hh);
auto iter = HandleMap.find(hh);
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if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
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auto &info = iter->second;
if (info.address == 0) return SetMemError(0);
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if (info.locked) return SetMemError(MacOS::memLockedErr); // ?
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void *address = Memory + info.address;
mplite_free(&pool, address);
info.address = 0;
info.size = 0;
memoryWriteLong(0, hh);
return 0;
}
/*
* ReallocHandle (h: Handle; logicalSize: Size);
*
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* ReallocHandle allocates a new relocatable block with a logical
* size of logicalSize bytes. It then updates handle h by setting
* its master pointer to point to the new block. The main use of
* this procedure is to reallocate space for a block that has
* been purged. Normally h is an empty handle, but it need not
* be: If it points to an existing block, that block is released
* before the new block is created.
*
* In case of an error, no new block is allocated and handle h is
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* left unchanged.
*/
uint16_t ReallocHandle(uint16_t trap)
{
/*
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* on entry:
* A0 Handle to be disposed of
* D0 Logical Size
*
* on exit:
* D0 Result code
*
*/
uint32_t hh = cpuGetAReg(0);
uint32_t logicalSize = cpuGetDReg(0);
Log("%04x ReallocHandle(%08x, %08x)\n", trap, hh, logicalSize);
return Native::ReallocHandle(hh, logicalSize);
#if 0
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auto iter = HandleMap.find(hh);
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if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
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auto& info = iter->second;
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if (info.locked) return SetMemError(MacOS::memLockedErr);
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if (info.address)
{
void *address = Memory + info.address;
mplite_free(&pool, address);
info.address = 0;
info.size = 0;
memoryWriteLong(0, hh);
}
// allocate a new block...
if (logicalSize == 0) return SetMemError(0);
void *address = mplite_malloc(&pool, logicalSize);
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if (!address) return SetMemError(MacOS::memFullErr);
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uint32_t mcptr = (uint8_t *)address - Memory;
info.size = logicalSize;
info.address = mcptr;
memoryWriteLong(mcptr, hh);
// lock? clear purged flag?
return 0;
#endif
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}
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uint32_t GetHandleSize(uint16_t trap)
{
/*
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* on entry:
* A0 handle
*
* on exit:
* D0 size (32-bit) or error code
*
*/
/*
* The trap dispatcher sets the condition codes before returning
* from a trap by testing the low-order word of register D0 with
* a TST.W instruction. Because the block size returned in D0 by
* _GetHandleSize is a full 32-bit long word, the word-length
* test sets the condition codes incorrectly in this case. To
* branch on the contents of D0, use your own TST.L instruction
* on return from the trap to test the full 32 bits of the register.
*/
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uint32_t hh = cpuGetAReg(0);
Log("%04x GetHandleSize(%08x)\n", trap, hh);
if (hh == 0) return SetMemError(MacOS::nilHandleErr); // ????
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auto iter = HandleMap.find(hh);
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if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
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return iter->second.size;
}
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uint16_t SetHandleSize(uint16_t trap)
{
/*
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* on entry:
* A0 pointer
* D0 new size
*
* on exit:
* D0 Result code
*
*/
uint32_t hh = cpuGetAReg(0);
uint32_t newSize = cpuGetDReg(0);
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Log("%04x SetHandleSize(%08x, %08x)\n", trap, hh, newSize);
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return Native::SetHandleSize(hh, newSize);
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}
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uint32_t RecoverHandle(uint16_t trap)
{
// FUNCTION RecoverHandle (p: Ptr): Handle;
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/*
* on entry:
* A0 Master pointer
*
* on exit:
* A0 Handle to master pointers relocatable block
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* D0 Unchanged
*
*/
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uint32_t p = cpuGetAReg(0);
uint32_t hh = 0;
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Log("%04x RecoverHandle(%08x)\n", trap, p);
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uint16_t error = MacOS::memBCErr;
for (const auto kv : HandleMap)
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{
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const HandleInfo &info = kv.second;
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if (!info.address) continue;
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uint32_t begin = info.address;
uint32_t end = info.address + info.size;
if (!info.size) end++;
if (p >= begin && p < end)
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{
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hh = kv.first;
error = MacOS::noErr;
break;
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}
}
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2014-12-20 18:03:02 +00:00
SetMemError(error);
cpuSetAReg(0, hh);
// return d0 register unchanged.
return cpuGetDReg(0);
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}
2013-02-25 04:20:38 +00:00
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#pragma mark Handle attributes
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uint16_t HGetState(uint16_t trap)
{
/*
* on entry:
* A0 Handle
*
* on exit:
* D0 flag byte
*
*/
unsigned flags = 0;
uint32_t hh = cpuGetAReg(0);
Log("%04x HGetState(%08x)\n", trap, hh);
auto iter = HandleMap.find(hh);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
/*
* flag bits:
* 0-4: reserved
* 5: is a resource
* 6: set if purgeable
* 7: set if locked
*/
const auto &info = iter->second;
// resouce not yet supported...
// would need extra field and support in RM:: when
// creating.
// see HSetRBit, HClrRBit
if (info.resource) flags |= (1 << 5);
if (info.purgeable) flags |= (1 << 6);
if (info.locked) flags |= (1 << 7);
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SetMemError(0);
return flags;
}
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uint16_t HSetState(uint16_t trap)
{
/*
* on entry:
* A0 Handle
* D0 flags
*
* on exit:
* D0 flag byte
*
*/
uint32_t hh = cpuGetAReg(0);
uint16_t flags = cpuGetDReg(0);
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2015-01-05 16:56:33 +00:00
Log("%04x HSetState(%08x, %04x)\n", trap, hh, flags);
auto iter = HandleMap.find(hh);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
auto &info = iter->second;
info.resource = (flags & (1 << 5));
info.purgeable = (flags & (1 << 6));
info.locked = (flags & (1 << 7));
return SetMemError(0);
}
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uint16_t HPurge(uint16_t trap)
{
/*
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* on entry:
* A0 Handle
*
* on exit:
* D0 Result code
*
*/
uint32_t hh = cpuGetAReg(0);
Log("%04x HPurge(%08x)\n", trap, hh);
auto iter = HandleMap.find(hh);
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if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
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iter->second.purgeable = true;
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2015-01-14 19:26:49 +00:00
return SetMemError(0);
}
uint16_t HNoPurge(uint16_t trap)
{
/*
2015-01-14 19:26:49 +00:00
* on entry:
* A0 Handle
*
* on exit:
* D0 Result code
*
*/
uint32_t hh = cpuGetAReg(0);
Log("%04x HNoPurge(%08x)\n", trap, hh);
auto iter = HandleMap.find(hh);
if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
iter->second.purgeable = false;
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return SetMemError(0);
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}
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uint16_t HLock(uint16_t trap)
{
/*
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* on entry:
* A0 Handle
*
* on exit:
* D0 Result code
*
*/
uint32_t hh = cpuGetAReg(0);
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Log("%04x HLock(%08x)\n", trap, hh);
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auto iter = HandleMap.find(hh);
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if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
2013-02-16 20:37:55 +00:00
2013-02-26 23:31:43 +00:00
iter->second.locked = true;
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return SetMemError(0);
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}
uint16_t HUnlock(uint16_t trap)
{
/*
2013-02-16 20:37:55 +00:00
* on entry:
* A0 Handle
*
* on exit:
* D0 Result code
*
*/
uint32_t hh = cpuGetAReg(0);
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Log("%04x HUnlock(%08x)\n", trap, hh);
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auto iter = HandleMap.find(hh);
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if (iter == HandleMap.end()) return SetMemError(MacOS::memWZErr);
2013-02-16 20:37:55 +00:00
2013-02-26 23:31:43 +00:00
iter->second.locked = false;
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return SetMemError(0);
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}
2013-02-08 03:12:30 +00:00
2013-02-26 23:32:39 +00:00
#pragma mark - OS Utility Routines
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uint16_t HandToHand(uint16_t trap)
{
/*
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* on entry:
* A0 source Handle
*
* on exit:
* A0 destination Handle
* D0 Result code
*
*/
2013-07-13 23:19:49 +00:00
uint32_t srcHandle = cpuGetAReg(0);
Log("%04x HandToHand(%08x)\n", trap, srcHandle);
auto iter = HandleMap.find(srcHandle);
if (iter == HandleMap.end())
return SetMemError(MacOS::memWZErr);
auto const info = iter->second;
2013-07-13 23:19:49 +00:00
uint32_t destHandle;
uint32_t destPtr;
uint32_t d0 = Native::NewHandle(info.size, false, destHandle, destPtr);
if (d0 == 0)
{
std::memmove(memoryPointer(destPtr), memoryPointer(info.address), info.size);
}
2013-07-13 23:19:49 +00:00
cpuSetAReg(0, destHandle);
return d0; // SetMemError called by Native::NewHandle.
}
2013-02-26 23:32:39 +00:00
uint16_t PtrToHand(uint16_t trap)
{
/*
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* on entry:
* A0 source Pointer
* D0 size
*
* on exit:
* A0 destination pointer
* D0 Result code
*
*/
2013-02-26 23:32:39 +00:00
uint32_t mcptr = cpuGetAReg(0);
uint32_t size = cpuGetDReg(0);
Log("%04x PtrToHand(%08x, %08x)\n", trap, mcptr, size);
uint32_t destHandle;
uint32_t destPtr;
uint32_t d0 = Native::NewHandle(size, false, destHandle, destPtr);
if (d0 == 0)
{
std::memmove(memoryPointer(destPtr), memoryPointer(mcptr), size);
}
2013-02-26 23:32:39 +00:00
cpuSetAReg(0, destHandle);
2013-06-30 17:10:41 +00:00
return d0; // SetMemError called by Native::NewHandle.
2013-02-26 23:32:39 +00:00
}
uint16_t PtrAndHand(uint16_t trap)
{
// FUNCTION PtrAndHand (pntr: Ptr; hndl: Handle; size: LongInt): OSErr;
/*
* on entry:
* A0 source Pointer
* A1 dest Handle
* D0 number of bytes to concatenate
*
* on exit:
* A0 destination Handle
* D0 Result code
*
*/
uint32_t ptr = cpuGetAReg(0);
uint32_t handle = cpuGetAReg(1);
uint32_t size = cpuGetDReg(0);
Log("%04x PtrAndHand(%08x, %08x, %08x)\n", trap, ptr, handle, size);
cpuSetAReg(0, handle);
uint32_t oldSize = 0;
uint32_t d0;
d0 = Native::GetHandleSize(handle, oldSize);
if (d0) return d0;
if ((uint64_t)oldSize + (uint64_t)size > UINT32_MAX)
return SetMemError(MacOS::memFullErr);
d0 = Native::SetHandleSize(handle, oldSize + size);
if (d0) return d0;
auto iter = HandleMap.find(handle);
if (iter == HandleMap.end())
return SetMemError(MacOS::memWZErr);
auto const info = iter->second;
std::memmove(memoryPointer(info.address + oldSize), memoryPointer(ptr), size);
return SetMemError(0);
}
2013-02-25 22:33:26 +00:00
2013-07-13 23:19:49 +00:00
2013-02-25 22:33:26 +00:00
#pragma mark -
uint32_t StripAddress(uint16_t trap)
{
/*
2013-02-25 22:33:26 +00:00
* on entry:
* d0 Address to strip
*
* on exit:
* D0 Address that has been stripped.
*
*/
// TODO -- in 32-bit mode, this is a nop.
// have a --24 / --32 flag?
uint32_t address = cpuGetDReg(0);
Log("%04x StripAddress(%08x)\n", trap, address);
if (MemorySize <= 0x00ffffff)
address &= 0x00ffffff;
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return address;
}
2013-06-27 03:50:08 +00:00
#pragma mark - zone
2013-06-27 02:50:53 +00:00
uint16_t HandleZone(uint16_t trap)
{
// FUNCTION HandleZone (h: Handle): THz;
/*
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* on entry:
* A0 Handle whose zone is to be found
*
* on exit:
* A0 Pointer to handles heap zone
2013-06-27 02:50:53 +00:00
* D0 Result code
*
*/
uint32_t h = cpuGetAReg(0);
Log("%04x HandleZone(%08x)\n", trap, h);
if (HandleMap.find(h) == HandleMap.end())
{
cpuSetAReg(0, 0);
return SetMemError(MacOS::memWZErr);
}
cpuSetAReg(0, 0);
return SetMemError(0);
}
2013-02-25 22:33:26 +00:00
2013-06-27 03:50:08 +00:00
uint16_t GetZone(uint16_t trap)
{
// FUNCTION GetZone: THz;
/*
* on entry:
*
* on exit:
* A0 Pointer to current heap zone
2013-06-27 03:50:08 +00:00
* D0 Result code
*/
Log("%04x GetZone()\n", trap);
cpuSetAReg(0, 0);
return 0;
}
uint16_t SetZone(uint16_t trap)
{
// PROCEDURE SetZone (hz: THz);
/*
* on entry:
* A0 Pointer to new current heap zone
*
* on exit:
* D0 Result code
*/
uint32_t THz = cpuGetAReg(0);
Log("%04x SetZone(%08x)\n", trap, THz);
return 0;
}
2014-07-24 15:37:21 +00:00
uint16_t MaxApplZone(uint16_t trap)
{
// PROCEDURE MaxApplZone;
/*
* on exit:
* D0 Result code
*/
Log("%04x MaxApplZone\n", trap);
return 0;
}
2015-02-27 13:55:10 +00:00
uint16_t SetApplLimit(uint16_t trap)
{
// PROCEDURE SetApplLimit (zoneLimit: Ptr);
/*
* on entry
* A0 Pointer to desired new zone limit
*
* on exit
* D0 Result code
*/
uint32_t zoneLimit = cpuGetAReg(0);
Log("%04x SetApplLimit(%08x)\n", trap, zoneLimit);
return 0;
}
2014-12-15 00:51:49 +00:00
uint32_t PurgeSpace(uint16_t trap)
{
// PROCEDURE PurgeSpace (VAR total: LongInt; VAR contig: LongInt);
/*
* Registers on exit:
* A0 Maximum number of contiguous bytes after purge
2014-12-15 00:51:49 +00:00
* D0 Total free memory after purge
*/
Log("%04x PurgeSpace()\n", trap);
SetMemError(0);
cpuSetAReg(0, mplite_maxmem(&pool));
return mplite_freemem(&pool);
}
2014-12-15 00:52:08 +00:00
uint16_t TempMaxMem(void)
{
// FUNCTION TempMaxMem (VAR grow: Size): Size;
uint32_t address;
uint32_t sp = StackFrame<4>(address);
Log(" TempMaxMem(%08x)\n", address);
if (address) memoryWriteLong(0, address);
ToolReturn<4>(sp, mplite_maxmem(&pool));
2014-12-18 19:40:03 +00:00
return SetMemError(0);
2014-12-15 00:52:08 +00:00
}
2014-12-18 19:40:03 +00:00
uint16_t TempFreeMem(void)
{
// FUNCTION TempFreeMem: LongInt;
Log(" TempFreeMem()\n");
ToolReturn<4>(-1, mplite_freemem(&pool));
return SetMemError(0);
}
2014-12-28 23:15:27 +00:00
uint16_t TempNewHandle(void)
{
// FUNCTION TempNewHandle (logicalSize: Size;
// VAR resultCode: OSErr): Handle;
uint16_t rv;
uint32_t logicalSize;
uint32_t resultCode;
uint32_t theHandle;
uint32_t sp = StackFrame<8>(logicalSize, resultCode);
Log(" TempNewHandle(%08x, %08x)\n", logicalSize, resultCode);
rv = Native::NewHandle(logicalSize, true, theHandle);
if (resultCode) memoryWriteWord(rv, resultCode);
ToolReturn<4>(sp, theHandle);
return rv;
}
uint16_t TempHLock(void)
{
// PROCEDURE TempHLock (theHandle: Handle; VAR resultCode: OSErr);
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uint32_t theHandle;
uint32_t resultCode;
StackFrame<8>(theHandle, resultCode);
Log(" TempHLock(%08x, %08x)\n", theHandle, resultCode);
uint16_t rv = Native::HLock(theHandle);
if (resultCode) memoryWriteWord(rv, resultCode);
return rv;
}
uint16_t TempHUnlock(void)
{
// PROCEDURE TempHUnlock (theHandle: Handle; VAR resultCode: OSErr);
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uint32_t theHandle;
uint32_t resultCode;
StackFrame<8>(theHandle, resultCode);
Log(" TempHUnlock(%08x, %08x)\n", theHandle, resultCode);
uint16_t rv = Native::HUnlock(theHandle);
if (resultCode) memoryWriteWord(rv, resultCode);
return rv;
}
uint16_t TempDisposeHandle(void)
{
// PROCEDURE TempDisposeHandle (theHandle: Handle; VAR resultCode: OSErr);
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uint32_t theHandle;
uint32_t resultCode;
StackFrame<8>(theHandle, resultCode);
Log(" TempDisposeHandle(%08x, %08x)\n", theHandle, resultCode);
uint16_t rv = Native::DisposeHandle(theHandle);
if (resultCode) memoryWriteWord(rv, resultCode);
return rv;
}
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}