/*****************************************************************************/ /* */ /* config.c */ /* */ /* Target configuration file for the ld65 linker */ /* */ /* */ /* */ /* (C) 1998-2000 Ullrich von Bassewitz */ /* Wacholderweg 14 */ /* D-70597 Stuttgart */ /* EMail: uz@musoftware.de */ /* */ /* */ /* This software is provided 'as-is', without any expressed or implied */ /* warranty. In no event will the authors be held liable for any damages */ /* arising from the use of this software. */ /* */ /* Permission is granted to anyone to use this software for any purpose, */ /* including commercial applications, and to alter it and redistribute it */ /* freely, subject to the following restrictions: */ /* */ /* 1. The origin of this software must not be misrepresented; you must not */ /* claim that you wrote the original software. If you use this software */ /* in a product, an acknowledgment in the product documentation would be */ /* appreciated but is not required. */ /* 2. Altered source versions must be plainly marked as such, and must not */ /* be misrepresented as being the original software. */ /* 3. This notice may not be removed or altered from any source */ /* distribution. */ /* */ /*****************************************************************************/ #include #include #include #include #include "../common/bitops.h" #include "../common/xmalloc.h" #include "error.h" #include "global.h" #include "bin.h" #include "o65.h" #include "binfmt.h" #include "exports.h" #include "scanner.h" #include "config.h" /*****************************************************************************/ /* Data */ /*****************************************************************************/ /* File list */ static File* FileList; /* Single linked list */ static unsigned FileCount; /* Number of entries in the list */ /* Memory list */ static Memory* MemoryList; /* Single linked list */ static Memory* MemoryLast; /* Last element in list */ static unsigned MemoryCount; /* Number of entries in the list */ /* Memory attributes */ #define MA_START 0x0001 #define MA_SIZE 0x0002 #define MA_TYPE 0x0004 #define MA_FILE 0x0008 #define MA_DEFINE 0x0010 #define MA_FILL 0x0020 #define MA_FILLVAL 0x0040 /* Segment list */ SegDesc* SegDescList; /* Single linked list */ unsigned SegDescCount; /* Number of entries in list */ /* Segment attributes */ #define SA_TYPE 0x0001 #define SA_LOAD 0x0002 #define SA_RUN 0x0004 #define SA_ALIGN 0x0008 #define SA_DEFINE 0x0010 #define SA_OFFSET 0x0020 #define SA_START 0x0040 /* Descriptor holding information about the binary formats */ static BinDesc* BinFmtDesc = 0; static O65Desc* O65FmtDesc = 0; /* Attributes for the o65 format */ static unsigned O65Attr = 0; #define OA_OS 0x0001 #define OA_TYPE 0x0002 #define OA_VERSION 0x0004 #define OA_OSVERSION 0x0008 #define OA_TEXT 0x0010 #define OA_DATA 0x0020 #define OA_BSS 0x0040 #define OA_ZP 0x0080 /*****************************************************************************/ /* Constructors/Destructors */ /*****************************************************************************/ static File* NewFile (const char* Name) /* Create a new file descriptor and insert it into the list */ { /* Get the length of the name */ unsigned Len = strlen (Name); /* Allocate memory */ File* F = xmalloc (sizeof (File) + Len); /* Initialize the fields */ F->Flags = 0; F->Format = BINFMT_DEFAULT; F->MemList = 0; F->MemLast = 0; memcpy (F->Name, Name, Len); F->Name [Len] = '\0'; /* Insert the struct into the list */ F->Next = FileList; FileList = F; ++FileCount; /* ...and return it */ return F; } static Memory* NewMemory (const char* Name) /* Create a new memory section and insert it into the list */ { /* Get the length of the name */ unsigned Len = strlen (Name); /* Check for duplicate names */ Memory* M = MemoryList; while (M) { if (strcmp (M->Name, Name) == 0) { CfgError ("Memory area `%s' defined twice", Name); break; } M = M->Next; } /* Allocate memory */ M = xmalloc (sizeof (Memory) + Len); /* Initialize the fields */ M->Next = 0; M->FNext = 0; M->Attr = 0; M->Flags = 0; M->Start = 0; M->Size = 0; M->FillLevel = 0; M->FillVal = 0; M->SegList = 0; M->SegLast = 0; M->F = 0; memcpy (M->Name, Name, Len); M->Name [Len] = '\0'; /* Insert the struct into the list */ if (MemoryLast == 0) { /* First element */ MemoryList = M; } else { MemoryLast->Next = M; } MemoryLast = M; ++MemoryCount; /* ...and return it */ return M; } static SegDesc* NewSegDesc (const char* Name) /* Create a segment descriptor */ { Segment* Seg; /* Get the length of the name */ unsigned Len = strlen (Name); /* Check for duplicate names */ SegDesc* S = SegDescList; while (S) { if (strcmp (S->Name, Name) == 0) { CfgError ("Segment `%s' defined twice", Name); break; } S = S->Next; } /* Verify that the given segment does really exist */ Seg = SegFind (Name); if (Seg == 0) { CfgWarning ("Segment `%s' does not exist", Name); } /* Allocate memory */ S = xmalloc (sizeof (SegDesc) + Len); /* Initialize the fields */ S->Next = 0; S->Seg = Seg; S->Attr = 0; S->Flags = 0; S->Align = 0; memcpy (S->Name, Name, Len); S->Name [Len] = '\0'; /* ...and return it */ return S; } static void FreeSegDesc (SegDesc* S) /* Free a segment descriptor */ { xfree (S); } /*****************************************************************************/ /* Code */ /*****************************************************************************/ static void FlagAttr (unsigned* Flags, unsigned Mask, const char* Name) /* Check if the item is already defined. Print an error if so. If not, set * the marker that we have a definition now. */ { if (*Flags & Mask) { CfgError ("%s is already defined", Name); } *Flags |= Mask; } static void AttrCheck (unsigned Attr, unsigned Mask, const char* Name) /* Check that a mandatory attribute was given */ { if ((Attr & Mask) == 0) { CfgError ("%s attribute is missing", Name); } } static File* FindFile (const char* Name) /* Find a file with a given name. */ { File* F = FileList; while (F) { if (strcmp (F->Name, Name) == 0) { return F; } F = F->Next; } return 0; } static File* GetFile (const char* Name) /* Get a file entry with the given name. Create a new one if needed. */ { File* F = FindFile (Name); if (F == 0) { /* Create a new one */ F = NewFile (Name); } return F; } static void FileInsert (File* F, Memory* M) /* Insert the memory area into the files list */ { M->F = F; if (F->MemList == 0) { /* First entry */ F->MemList = M; } else { F->MemLast->FNext = M; } F->MemLast = M; } static void ParseMemory (void) /* Parse a MEMORY section */ { static const IdentTok Attributes [] = { { "START", CFGTOK_START }, { "SIZE", CFGTOK_SIZE }, { "TYPE", CFGTOK_TYPE }, { "FILE", CFGTOK_FILE }, { "DEFINE", CFGTOK_DEFINE }, { "FILL", CFGTOK_FILL }, { "FILLVAL", CFGTOK_FILLVAL }, }; static const IdentTok Types [] = { { "RO", CFGTOK_RO }, { "RW", CFGTOK_RW }, }; while (CfgTok == CFGTOK_IDENT) { /* Create a new entry on the heap */ Memory* M = NewMemory (CfgSVal); /* Skip the name and the following colon */ CfgNextTok (); CfgConsumeColon (); /* Read the attributes */ while (CfgTok == CFGTOK_IDENT) { /* Map the identifier to a token */ unsigned AttrTok; CfgSpecialToken (Attributes, ENTRY_COUNT (Attributes), "Attribute"); AttrTok = CfgTok; /* An optional assignment follows */ CfgNextTok (); CfgOptionalAssign (); /* Check which attribute was given */ switch (AttrTok) { case CFGTOK_START: FlagAttr (&M->Attr, MA_START, "START"); CfgAssureInt (); M->Start = CfgIVal; break; case CFGTOK_SIZE: FlagAttr (&M->Attr, MA_SIZE, "SIZE"); CfgAssureInt (); M->Size = CfgIVal; break; case CFGTOK_TYPE: FlagAttr (&M->Attr, MA_TYPE, "TYPE"); CfgSpecialToken (Types, ENTRY_COUNT (Types), "Type"); if (CfgTok == CFGTOK_RO) { M->Flags |= MF_RO; } break; case CFGTOK_FILE: FlagAttr (&M->Attr, MA_FILE, "FILE"); CfgAssureStr (); /* Get the file entry and insert the memory area */ FileInsert (GetFile (CfgSVal), M); break; case CFGTOK_DEFINE: FlagAttr (&M->Attr, MA_DEFINE, "DEFINE"); /* Map the token to a boolean */ CfgBoolToken (); if (CfgTok == CFGTOK_TRUE) { M->Flags |= MF_DEFINE; } break; case CFGTOK_FILL: FlagAttr (&M->Attr, MA_FILL, "FILL"); /* Map the token to a boolean */ CfgBoolToken (); if (CfgTok == CFGTOK_TRUE) { M->Flags |= MF_FILL; } break; case CFGTOK_FILLVAL: FlagAttr (&M->Attr, MA_FILLVAL, "FILLVAL"); CfgAssureInt (); CfgRangeCheck (0, 0xFF); M->FillVal = (unsigned char) CfgIVal; break; default: FAIL ("Unexpected attribute token"); } /* Skip the attribute value and an optional comma */ CfgNextTok (); CfgOptionalComma (); } /* Skip the semicolon */ CfgConsumeSemi (); /* Check for mandatory parameters */ AttrCheck (M->Attr, MA_START, "START"); AttrCheck (M->Attr, MA_SIZE, "SIZE"); /* If we don't have a file name for output given, use the default * file name. */ if ((M->Attr & MA_FILE) == 0) { FileInsert (GetFile (OutputName), M); } } } static void ParseFiles (void) /* Parse a FILES section */ { static const IdentTok Attributes [] = { { "FORMAT", CFGTOK_FORMAT }, }; static const IdentTok Formats [] = { { "O65", CFGTOK_O65 }, { "BIN", CFGTOK_BIN }, { "BINARY", CFGTOK_BIN }, }; /* Parse all files */ while (CfgTok != CFGTOK_RCURLY) { File* F; /* We expect a string value here */ CfgAssureStr (); /* Search for the file, it must exist */ F = FindFile (CfgSVal); if (F == 0) { CfgError ("No such file: `%s'", CfgSVal); } /* Skip the token and the following colon */ CfgNextTok (); CfgConsumeColon (); /* Read the attributes */ while (CfgTok == CFGTOK_IDENT) { /* Map the identifier to a token */ unsigned AttrTok; CfgSpecialToken (Attributes, ENTRY_COUNT (Attributes), "Attribute"); AttrTok = CfgTok; /* An optional assignment follows */ CfgNextTok (); CfgOptionalAssign (); /* Check which attribute was given */ switch (AttrTok) { case CFGTOK_FORMAT: if (F->Format != BINFMT_DEFAULT) { /* We've set the format already! */ Error ("Cannot set a file format twice"); } /* Read the format token */ CfgSpecialToken (Formats, ENTRY_COUNT (Formats), "Format"); switch (CfgTok) { case CFGTOK_BIN: F->Format = BINFMT_BINARY; break; case CFGTOK_O65: F->Format = BINFMT_O65; break; default: Error ("Unexpected format token"); } break; default: FAIL ("Unexpected attribute token"); } /* Skip the attribute value and an optional comma */ CfgNextTok (); CfgOptionalComma (); } /* Skip the semicolon */ CfgConsumeSemi (); } } static Memory* CfgFindMemory (const char* Name) /* Find the memory are with the given name. Return NULL if not found */ { Memory* M = MemoryList; while (M) { if (strcmp (M->Name, Name) == 0) { return M; } M = M->Next; } return 0; } static Memory* CfgGetMemory (const char* Name) /* Find the memory are with the given name. Print an error on an invalid name */ { Memory* M = CfgFindMemory (Name); if (M == 0) { CfgError ("Invalid memory area `%s'", Name); } return M; } static void SegDescInsert (SegDesc* S) /* Insert a segment descriptor into the list of segment descriptors */ { /* Insert the struct into the list */ S->Next = SegDescList; SegDescList = S; ++SegDescCount; } static void MemoryInsert (Memory* M, SegDesc* S) /* Insert the segment descriptor into the memory area list */ { /* Create a new node for the entry */ MemListNode* N = xmalloc (sizeof (MemListNode)); N->Seg = S; N->Next = 0; if (M->SegLast == 0) { /* First entry */ M->SegList = N; } else { M->SegLast->Next = N; } M->SegLast = N; } static void ParseSegments (void) /* Parse a SEGMENTS section */ { static const IdentTok Attributes [] = { { "LOAD", CFGTOK_LOAD }, { "RUN", CFGTOK_RUN }, { "TYPE", CFGTOK_TYPE }, { "ALIGN", CFGTOK_ALIGN }, { "DEFINE", CFGTOK_DEFINE }, { "OFFSET", CFGTOK_OFFSET }, { "START", CFGTOK_START }, }; static const IdentTok Types [] = { { "RO", CFGTOK_RO }, { "RW", CFGTOK_RW }, { "BSS", CFGTOK_BSS }, { "ZP", CFGTOK_ZP }, { "WP", CFGTOK_WPROT }, { "WPROT", CFGTOK_WPROT }, }; unsigned Count; while (CfgTok == CFGTOK_IDENT) { SegDesc* S; /* Create a new entry on the heap */ S = NewSegDesc (CfgSVal); /* Skip the name and the following colon */ CfgNextTok (); CfgConsumeColon (); /* Read the attributes */ while (CfgTok == CFGTOK_IDENT) { /* Map the identifier to a token */ unsigned AttrTok; CfgSpecialToken (Attributes, ENTRY_COUNT (Attributes), "Attribute"); AttrTok = CfgTok; /* An optional assignment follows */ CfgNextTok (); CfgOptionalAssign (); /* Check which attribute was given */ switch (AttrTok) { case CFGTOK_LOAD: FlagAttr (&S->Attr, SA_LOAD, "LOAD"); S->Load = CfgGetMemory (CfgSVal); break; case CFGTOK_RUN: FlagAttr (&S->Attr, SA_RUN, "RUN"); S->Run = CfgGetMemory (CfgSVal); break; case CFGTOK_TYPE: FlagAttr (&S->Attr, SA_TYPE, "TYPE"); CfgSpecialToken (Types, ENTRY_COUNT (Types), "Type"); switch (CfgTok) { case CFGTOK_RO: S->Flags |= SF_RO; break; case CFGTOK_BSS: S->Flags |= SF_BSS; break; case CFGTOK_ZP: S->Flags |= (SF_BSS | SF_ZP); break; case CFGTOK_WPROT: S->Flags |= (SF_RO | SF_WPROT); break; } break; case CFGTOK_ALIGN: CfgAssureInt (); FlagAttr (&S->Attr, SA_ALIGN, "ALIGN"); CfgRangeCheck (1, 0x10000); S->Align = BitFind (CfgIVal); if ((0x01UL << S->Align) != CfgIVal) { CfgError ("Alignment must be a power of 2"); } S->Flags |= SF_ALIGN; break; case CFGTOK_DEFINE: FlagAttr (&S->Attr, SA_DEFINE, "DEFINE"); /* Map the token to a boolean */ CfgBoolToken (); if (CfgTok == CFGTOK_TRUE) { S->Flags |= SF_DEFINE; } break; case CFGTOK_OFFSET: CfgAssureInt (); FlagAttr (&S->Attr, SA_OFFSET, "OFFSET"); CfgRangeCheck (1, 0x1000000); S->Addr = CfgIVal; S->Flags |= SF_OFFSET; break; case CFGTOK_START: CfgAssureInt (); FlagAttr (&S->Attr, SA_START, "START"); CfgRangeCheck (1, 0x1000000); S->Addr = CfgIVal; S->Flags |= SF_START; break; default: FAIL ("Unexpected attribute token"); } /* Skip the attribute value and an optional comma */ CfgNextTok (); CfgOptionalComma (); } /* Skip the semicolon */ CfgConsumeSemi (); /* Check for mandatory parameters */ AttrCheck (S->Attr, SA_LOAD, "LOAD"); /* Set defaults for stuff not given */ if ((S->Attr & SA_RUN) == 0) { S->Attr |= SA_RUN; S->Run = S->Load; } else { /* Both attributes given */ S->Flags |= SF_LOAD_AND_RUN; } if ((S->Attr & SA_ALIGN) == 0) { S->Attr |= SA_ALIGN; S->Align = 0; } /* If the segment is marked as BSS style, check that there's no * initialized data in the segment. */ if ((S->Flags & SF_BSS) != 0 && !IsBSSType (S->Seg)) { Warning ("%s(%u): Segment with type `bss' contains initialized data", CfgGetName (), CfgErrorLine); } /* Don't allow read/write data to be put into a readonly area */ if ((S->Flags & SF_RO) == 0) { if (S->Run->Flags & MF_RO) { CfgError ("Cannot put r/w segment `%s' in r/o memory area `%s'", S->Name, S->Run->Name); } } /* Only one of ALIGN, START and OFFSET may be used */ Count = ((S->Flags & SF_ALIGN) != 0) + ((S->Flags & SF_OFFSET) != 0) + ((S->Flags & SF_START) != 0); if (Count > 1) { CfgError ("Only one of ALIGN, START, OFFSET may be used"); } /* If this segment does exist in any of the object files, insert the * descriptor into the list of segment descriptors. Otherwise discard * it silently, because the segment pointer in the descriptor is * invalid. */ if (S->Seg != 0) { /* Insert the descriptor into the list of all descriptors */ SegDescInsert (S); /* Insert the segment into the memory area list */ MemoryInsert (S->Run, S); if ((S->Flags & SF_LOAD_AND_RUN) != 0) { /* We have a separate RUN area given */ MemoryInsert (S->Load, S); } } else { /* Segment does not exist, discard the descriptor */ FreeSegDesc (S); } } } static void ParseO65 (void) /* Parse the o65 format section */ { static const IdentTok Attributes [] = { { "EXPORT", CFGTOK_EXPORT }, { "IMPORT", CFGTOK_IMPORT }, { "TYPE", CFGTOK_TYPE }, { "OS", CFGTOK_OS }, }; static const IdentTok Types [] = { { "SMALL", CFGTOK_SMALL }, { "LARGE", CFGTOK_LARGE }, }; static const IdentTok OperatingSystems [] = { { "LUNIX", CFGTOK_LUNIX }, { "OSA65", CFGTOK_OSA65 }, }; while (CfgTok == CFGTOK_IDENT) { /* Map the identifier to a token */ unsigned AttrTok; CfgSpecialToken (Attributes, ENTRY_COUNT (Attributes), "Attribute"); AttrTok = CfgTok; /* An optional assignment follows */ CfgNextTok (); CfgOptionalAssign (); /* Check which attribute was given */ switch (AttrTok) { case CFGTOK_EXPORT: /* We expect an identifier */ CfgAssureIdent (); /* Check if we have this symbol defined already. The entry * routine will check this also, but we get a more verbose * error message when checking it here. */ if (O65GetExport (O65FmtDesc, CfgSVal) != 0) { CfgError ("Duplicate exported symbol: `%s'", CfgSVal); } /* Insert the symbol into the table */ O65SetExport (O65FmtDesc, CfgSVal); break; case CFGTOK_IMPORT: /* We expect an identifier */ CfgAssureIdent (); /* Check if we have this symbol defined already. The entry * routine will check this also, but we get a more verbose * error message when checking it here. */ if (O65GetImport (O65FmtDesc, CfgSVal) != 0) { CfgError ("Duplicate imported symbol: `%s'", CfgSVal); } /* Insert the symbol into the table */ O65SetImport (O65FmtDesc, CfgSVal); break; case CFGTOK_TYPE: /* Cannot have this attribute twice */ FlagAttr (&O65Attr, OA_TYPE, "TYPE"); /* Get the type of the executable */ CfgSpecialToken (Types, ENTRY_COUNT (Types), "Type"); switch (CfgTok) { case CFGTOK_SMALL: /* Default, nothing to do */ break; case CFGTOK_LARGE: O65SetLargeModel (O65FmtDesc); break; default: Error ("Unexpected type token"); } break; case CFGTOK_OS: /* Cannot use this attribute twice */ FlagAttr (&O65Attr, OA_OS, "OS"); /* Get the operating system */ CfgSpecialToken (OperatingSystems, ENTRY_COUNT (OperatingSystems), "OS type"); switch (CfgTok) { case CFGTOK_LUNIX: O65SetOS (O65FmtDesc, O65OS_LUNIX); break; case CFGTOK_OSA65: O65SetOS (O65FmtDesc, O65OS_OSA65); break; default: Error ("Unexpected OS token"); } break; default: FAIL ("Unexpected attribute token"); } /* Skip the attribute value and an optional comma */ CfgNextTok (); CfgOptionalComma (); } } static void ParseFormats (void) /* Parse a target format section */ { static const IdentTok Formats [] = { { "O65", CFGTOK_O65 }, { "BIN", CFGTOK_BIN }, { "BINARY", CFGTOK_BIN }, }; while (CfgTok == CFGTOK_IDENT) { /* Map the identifier to a token */ unsigned FormatTok; CfgSpecialToken (Formats, ENTRY_COUNT (Formats), "Format"); FormatTok = CfgTok; /* Skip the name and the following colon */ CfgNextTok (); CfgConsumeColon (); /* Parse the format options */ switch (FormatTok) { case CFGTOK_O65: ParseO65 (); break; case CFGTOK_BIN: /* No attribibutes available */ break; default: Error ("Unexpected format token"); } /* Skip the semicolon */ CfgConsumeSemi (); } } static void ParseConfig (void) /* Parse the config file */ { static const IdentTok BlockNames [] = { { "MEMORY", CFGTOK_MEMORY }, { "FILES", CFGTOK_FILES }, { "SEGMENTS", CFGTOK_SEGMENTS }, { "FORMATS", CFGTOK_FORMATS }, }; unsigned BlockTok; do { /* Read the block ident */ CfgSpecialToken (BlockNames, ENTRY_COUNT (BlockNames), "Block identifier"); BlockTok = CfgTok; CfgNextTok (); /* Expected a curly brace */ CfgConsume (CFGTOK_LCURLY, "`{' expected"); /* Read the block */ switch (BlockTok) { case CFGTOK_MEMORY: ParseMemory (); break; case CFGTOK_FILES: ParseFiles (); break; case CFGTOK_SEGMENTS: ParseSegments (); break; case CFGTOK_FORMATS: ParseFormats (); break; default: FAIL ("Unexpected block token"); } /* Skip closing brace */ CfgConsume (CFGTOK_RCURLY, "`}' expected"); } while (CfgTok != CFGTOK_EOF); } void CfgRead (void) /* Read the configuration */ { /* Create the descriptors for the binary formats */ BinFmtDesc = NewBinDesc (); O65FmtDesc = NewO65Desc (); /* If we have a config name given, open the file, otherwise we will read * from a buffer. */ CfgOpenInput (); /* Parse the file */ ParseConfig (); /* Close the input file */ CfgCloseInput (); } static void CreateRunDefines (Memory* M, SegDesc* S, unsigned long Addr) /* Create the defines for a RUN segment */ { char Buf [256]; sprintf (Buf, "__%s_RUN__", S->Name); CreateMemExport (Buf, M, Addr - M->Start); sprintf (Buf, "__%s_SIZE__", S->Name); CreateConstExport (Buf, S->Seg->Size); S->Flags |= SF_RUN_DEF; } static void CreateLoadDefines (Memory* M, SegDesc* S, unsigned long Addr) /* Create the defines for a LOAD segment */ { char Buf [256]; sprintf (Buf, "__%s_LOAD__", S->Name); CreateMemExport (Buf, M, Addr - M->Start); S->Flags |= SF_LOAD_DEF; } void CfgAssignSegments (void) /* Assign segments, define linker symbols where requested */ { /* Walk through each of the memory sections. Add up the sizes and check * for an overflow of the section. Assign the start addresses of the * segments while doing this. */ Memory* M = MemoryList; while (M) { /* Get the start address of this memory area */ unsigned long Addr = M->Start; /* Walk through the segments in this memory area */ MemListNode* N = M->SegList; while (N) { /* Get the segment from the node */ SegDesc* S = N->Seg; /* Handle ALIGN and OFFSET/START */ if (S->Flags & SF_ALIGN) { /* Align the address */ unsigned long Val = (0x01UL << S->Align) - 1; Addr = (Addr + Val) & ~Val; } else if (S->Flags & (SF_OFFSET | SF_START)) { /* Give the segment a fixed starting address */ unsigned long NewAddr = S->Addr; if (S->Flags & SF_OFFSET) { /* An offset was given, no address, make an address */ NewAddr += M->Start; } if (Addr > NewAddr) { /* Offset already too large */ if (S->Flags & SF_OFFSET) { Error ("Offset too small in `%s', segment `%s'", M->Name, S->Name); } else { Error ("Start address too low in `%s', segment `%s'", M->Name, S->Name); } } Addr = NewAddr; } /* If this is the run area, set the start address of this segment */ if (S->Run == M) { S->Seg->PC = Addr; } /* Increment the fill level of the memory area and check for an * overflow. */ M->FillLevel = Addr + S->Seg->Size - M->Start; if (M->FillLevel > M->Size) { Error ("Memory area overflow in `%s', segment `%s' (%lu bytes)", M->Name, S->Name, M->FillLevel - M->Size); } /* If requested, define symbols for the start and size of the * segment. */ if (S->Flags & SF_DEFINE) { if ((S->Flags & SF_LOAD_AND_RUN) && S->Run == S->Load) { /* RUN and LOAD given and in one memory area. * Be careful: We will encounter this code twice, the * first time when walking the RUN list, second time when * walking the LOAD list. Be sure to define only the * relevant symbols on each walk. */ if (S->Load == M) { if ((S->Flags & SF_LOAD_DEF) == 0) { CreateLoadDefines (M, S, Addr); } else { CHECK ((S->Flags & SF_RUN_DEF) == 0); CreateRunDefines (M, S, Addr); } } } else { /* RUN and LOAD in different memory areas, or RUN not * given, so RUN defaults to LOAD. In the latter case, we * have only one copy of the segment in the area. */ if (S->Run == M) { CreateRunDefines (M, S, Addr); } if (S->Load == M) { CreateLoadDefines (M, S, Addr); } } } /* Calculate the new address */ Addr += S->Seg->Size; /* Next segment */ N = N->Next; } /* If requested, define symbols for start and size of the memory area */ if (M->Flags & MF_DEFINE) { char Buf [256]; sprintf (Buf, "__%s_START__", M->Name); CreateMemExport (Buf, M, 0); sprintf (Buf, "__%s_SIZE__", M->Name); CreateConstExport (Buf, M->Size); sprintf (Buf, "__%s_LAST__", M->Name); CreateConstExport (Buf, M->FillLevel); } /* Next memory area */ M = M->Next; } } void CfgWriteTarget (void) /* Write the target file(s) */ { Memory* M; /* Walk through the files list */ File* F = FileList; while (F) { /* We don't need to look at files with no memory areas */ if (F->MemList) { /* Is there an output file? */ if (strlen (F->Name) > 0) { /* Assign a proper binary format */ if (F->Format == BINFMT_DEFAULT) { F->Format = DefaultBinFmt; } /* Call the apropriate routine for the binary format */ switch (F->Format) { case BINFMT_BINARY: BinWriteTarget (BinFmtDesc, F); break; case BINFMT_O65: O65WriteTarget (O65FmtDesc, F); break; default: Internal ("Invalid binary format: %u", F->Format); } } else { /* No output file. Walk through the list and mark all segments * assigned to the memory areas in this file as dumped. */ M = F->MemList; while (M) { /* Walk throught the segments */ MemListNode* N = M->SegList; while (N) { /* Mark the segment as dumped */ N->Seg->Seg->Dumped = 1; /* Next segment node */ N = N->Next; } /* Next memory area */ M = M->FNext; } } } /* Next file */ F = F->Next; } }