mirror of
https://github.com/autc04/Retro68.git
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391 lines
10 KiB
C
391 lines
10 KiB
C
/*
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Copyright 2017 Wolfgang Thaller.
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This file is part of Retro68.
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Retro68 is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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Retro68 is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>.
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*/
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#include <stdint.h>
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#include <stdlib.h>
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#include <Processes.h>
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#include <Sound.h>
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#include <Memory.h>
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#include <OSUtils.h>
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#include <Traps.h>
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#include <Resources.h>
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#include "Retro68Runtime.h"
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#include "PoorMansDebugging.h"
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typedef void (*voidFunction)(void);
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/*
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Linker-defined addresses in the binary;
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*/
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// absolute address 0x1 for multiseg applications,
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// absolute address NULL (or undefined) for code resources
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extern uint8_t _MULTISEG_APP __attribute__ ((weak));
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// section boundaries
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extern uint8_t _stext, _etext, _sdata, _edata, _sbss, _ebss;
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// constructor list:
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extern uint8_t __init_section, __init_section_end;
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// destructor list:
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extern uint8_t __fini_section, __fini_section_end;
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// address of start of code reource.
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// usually equal to _stext, but can be overridden.
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extern uint8_t _rsrc_start;
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extern voidFunction __CTOR_LIST__, __DTOR_LIST__;
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extern uint8_t __EH_FRAME_BEGIN__;
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Retro68RelocState relocState __attribute__ ((section(".relocvars"))) = {
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NULL, NULL, false, false
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};
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#define GET_VIRTUAL_ADDRESS(NAME, SYM) \
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do { \
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__asm__( "\tlea " #SYM ", %0\n" \
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: "=a"(NAME) ); \
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if(hasStripAddr) \
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NAME = StripAddress(NAME); \
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else \
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NAME = StripAddress24(NAME); \
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} while(0)
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#define READ_UNALIGNED_LONGWORD(ptr) \
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(((((((ptr)[0] << 8) | (ptr)[1]) << 8) | (ptr)[2]) << 8) | (ptr)[3])
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#define WRITE_UNALIGNED_LONGWORD(ptr, val) \
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do { \
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uint32_t _a = (val); \
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uint8_t *_ptr = (ptr); \
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_ptr[3] = _a; \
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_ptr[2] = (_a >>= 8); \
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_ptr[1] = (_a >>= 8); \
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_ptr[0] = (_a >>= 8); \
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} while(0)
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#if 0
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void Retro68ApplyRelocations(uint8_t *base, uint32_t size, void *relocations, uint32_t displacements[])
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{
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uint32_t *reloc = (uint32_t*) relocations;
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// Process relocation records
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for(;*reloc != -1;++reloc)
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{
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uint32_t r = *reloc;
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uint8_t *addrPtr = base + (r & 0xFFFFFF);
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uint8_t *addr;
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uint8_t kind = r >> 24;
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assert(addrPtr >= base);
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assert(addrPtr < base + size);
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addr = (uint8_t*) READ_UNALIGNED_LONGWORD(addrPtr);
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addr += displacements[kind];
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WRITE_UNALIGNED_LONGWORD(addrPtr, (uint32_t) addr);
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}
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}
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#else
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void Retro68ApplyRelocations(uint8_t *base, uint32_t size, void *relocations, uint32_t displacements[])
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{
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uint8_t *reloc = (uint8_t*) relocations;
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uint8_t *addrPtr = base - 1;
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while(*reloc)
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{
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// read an uleb128 value
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uint32_t val = 0;
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uint8_t b;
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int i = 0;
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do
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{
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b = *reloc++;
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val |= (b & 0x7F) << i;
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i += 7;
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} while(b & 0x80);
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// ... which consists of an offset and the displacement base index
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// the offset is relative to the previous relocation, or to base-1
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addrPtr += val >> 2;
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uint8_t kind = val & 0x3;
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assert(addrPtr >= base);
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assert(addrPtr <= base + size - 4);
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uint8_t *addr = (uint8_t*) READ_UNALIGNED_LONGWORD(addrPtr);
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addr += displacements[kind];
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WRITE_UNALIGNED_LONGWORD(addrPtr, (uint32_t) addr);
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}
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}
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#endif
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void Retro68Relocate()
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{
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// memory address to retrieve the ROM type (64K or a later ROM)
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// see for details http://www.mac.linux-m68k.org/devel/macalmanac.php
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short* ROM85 = (short*) 0x028E;
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// figure out which trap is supported
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Boolean is128KROM = ((*ROM85) > 0);
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Boolean hasSysEnvirons = false;
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Boolean hasStripAddr = false;
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Boolean hasFlushCodeCache = false;
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if (is128KROM)
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{
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UniversalProcPtr trapSysEnv = GetOSTrapAddress(_SysEnvirons);
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UniversalProcPtr trapStripAddr = GetOSTrapAddress(_StripAddress);
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UniversalProcPtr trapFlushCodeCache = GetOSTrapAddress(0xA0BD);
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UniversalProcPtr trapUnimpl = GetOSTrapAddress(_Unimplemented);
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hasSysEnvirons = (trapSysEnv != trapUnimpl);
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hasStripAddr = (trapStripAddr != trapUnimpl);
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hasFlushCodeCache = (trapFlushCodeCache != trapUnimpl);
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}
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// Figure out the displacement
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// what is the difference between the addresses in our program code
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// and an address calculated by PC-relative access?
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long displacement;
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if (hasStripAddr)
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{
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RETRO68_GET_DISPLACEMENT_STRIP(displacement);
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}
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else
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{
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RETRO68_GET_DISPLACEMENT_STRIP24(displacement);
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}
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struct Retro68RelocState *rState = (Retro68RelocState*)
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((char*)&relocState + displacement);
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// rState now points to the global relocState variable
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//
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if(displacement == 0)
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{
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if(rState->bssPtr)
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{
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// this is not the first time, no relocations needed.
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// should only happen for code resources
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// that are invoked more than once.
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// Lock the code to be sure.
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if(rState->codeHandle)
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HLock(rState->codeHandle);
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return;
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}
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}
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rState->hasStripAddr = hasStripAddr;
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rState->hasFlushCodeCache = hasFlushCodeCache;
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// Locate the start of the FLT file header inside the code resource
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uint8_t *orig_stext, *orig_etext, *orig_sdata, *orig_edata, *orig_sbss, *orig_ebss;
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GET_VIRTUAL_ADDRESS(orig_stext, _stext);
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GET_VIRTUAL_ADDRESS(orig_etext, _etext);
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GET_VIRTUAL_ADDRESS(orig_sdata, _sdata);
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GET_VIRTUAL_ADDRESS(orig_edata, _edata);
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GET_VIRTUAL_ADDRESS(orig_sbss, _sbss);
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GET_VIRTUAL_ADDRESS(orig_ebss, _ebss);
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log(orig_stext);
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log(orig_etext);
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log(orig_sdata);
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log(orig_edata);
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log(orig_sbss);
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log(orig_ebss);
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uint8_t *base = orig_stext + displacement;
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long bss_displacement = 0;
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long data_displacement = 0;
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long jt_displacement = 0;
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if(&_MULTISEG_APP)
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{
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uint8_t * a5 = (uint8_t*) SetCurrentA5();
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bss_displacement = a5 - orig_ebss;
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data_displacement = a5 - orig_ebss;
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jt_displacement = a5 - (uint8_t*)NULL;
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}
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else
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{
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data_displacement = displacement;
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#if 0
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// find the beginning of the current code resource and lock it.
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// this crashes with some implementations of the memory manager
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// if we guess wrong, so let's don't for now.
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// Therefore, all Retro68-compiled code resources have to be locked,
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// or they might get relocated as soon as the global variables are
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// relocated below.
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// TODO: figure out a way to reliably determine the offset from the
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// start of the resource (to pass it from Elf2Mac, probably).
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{
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uint8_t *orig_rsrc_start;
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GET_VIRTUAL_ADDRESS(orig_rsrc_start, _rsrc_start);
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uint8_t *rsrc_start = orig_rsrc_start + displacement;
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Handle h = RecoverHandle((Ptr) rsrc_start);
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if(MemError() == noErr && h)
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{
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// Make sure the code is locked. Only relevant for some code resources.
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HLock(h);
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rState->codeHandle = h;
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}
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}
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#endif
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// Allocate BSS section (uninitialized/zero-initialized global data)
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if(!rState->bssPtr)
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{
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uint32_t bss_size = orig_ebss - orig_sbss;
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THz zone = ApplicationZone();
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if(!zone || base < (uint8_t*)zone)
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rState->bssPtr = NewPtrSysClear(bss_size);
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else
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rState->bssPtr = NewPtrClear(bss_size);
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bss_displacement = (uint8_t*)rState->bssPtr - orig_sbss;
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}
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}
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/*
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Relocation records consist of 4 bytes each.
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The lower three bytes are the offset of the longword being relocated.
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the first byte of each longword specifies which segment
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the relocation leads to; the corresponding displacements are taken
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from the following table:
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*/
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long displacements[4] = {
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displacement, // code
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data_displacement,
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bss_displacement,
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jt_displacement
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};
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void *reloc;
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Handle RELA = NULL;
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uint32_t relocatableSize;
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if(&_MULTISEG_APP == (uint8_t*)1)
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{
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RELA = Get1Resource('RELA', 1);
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assert(RELA);
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reloc = *RELA;
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uint32_t text_size = orig_etext - orig_stext;
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relocatableSize = text_size;
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}
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else
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{
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uint32_t text_and_data_size = orig_edata - orig_stext;
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reloc = base + text_and_data_size;
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relocatableSize = text_and_data_size;
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}
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typedef typeof(&Retro68ApplyRelocations) ApplyRelocationsPtr;
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ApplyRelocationsPtr RealApplyRelocations;
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RealApplyRelocations = (ApplyRelocationsPtr) ((uint8_t*)&Retro68ApplyRelocations + displacement);
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RealApplyRelocations(base, relocatableSize, reloc, displacements);
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// We're basically done.
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/*// Now check whether we're on 68040 or later and need to flush the cache.
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// only do this if SysEnvirons is available.
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// if SysEnvirons is not available, that means we're on an old System or ROM
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// and likely not using a 68040, so we won't do this
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if (hasSysEnvirons)
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{
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SysEnvRec env;
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env.processor = 0;
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SysEnvirons(0, &env);
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if(env.processor >= env68040)
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{
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rState->needFlushCache = true;
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FlushCodeCache();
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}
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}*/
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if(hasFlushCodeCache)
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FlushCodeCache();
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// accessing globals and calling functions is OK below here.
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// ... as long as it is in the current segment.
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Retro68InitMultisegApp();
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// Now we're set.
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// Someone still needs to invoke Retro68CallConstructors
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// ... but that's the job of _start().
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}
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void Retro68CallConstructors()
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{
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static struct object object;
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if (__register_frame_info)
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__register_frame_info(&__EH_FRAME_BEGIN__, &object);
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{
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uint8_t *p = &__init_section;
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uint8_t *e = &__init_section_end;
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p += 2;
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while( p < e )
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{
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(*(voidFunction)(*(long*)p))();
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p += 6;
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}
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}
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{
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voidFunction *p, f;
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for(p = &__CTOR_LIST__; (f = *p); p++)
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f();
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}
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}
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void Retro68CallDestructors()
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{
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{
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voidFunction *p, f;
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for(p = &__DTOR_LIST__; (f = *p); p++)
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f();
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}
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{
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uint8_t *p = &__fini_section;
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uint8_t *e = &__fini_section_end;
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p += 2;
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while( p < e )
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{
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(*(voidFunction)(*(long*)p))();
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p += 6;
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}
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}
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if (__deregister_frame_info)
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__deregister_frame_info(&__EH_FRAME_BEGIN__);
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}
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void Retro68FreeGlobals()
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{
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if(relocState.bssPtr != (Ptr) -1)
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{
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DisposePtr(relocState.bssPtr);
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relocState.bssPtr = (Ptr) -1;
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}
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}
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