/****************************************************************************** * Copyright (C) 2009-2012, International Business Machines * Corporation and others. All Rights Reserved. ******************************************************************************* */ #include "unicode/utypes.h" #if U_PLATFORM_HAS_WIN32_API # define VC_EXTRALEAN # define WIN32_LEAN_AND_MEAN # define NOUSER # define NOSERVICE # define NOIME # define NOMCX #include #include # ifdef __GNUC__ # define WINDOWS_WITH_GNUC # endif #endif #if U_PLATFORM_IS_LINUX_BASED # define U_ELF #endif #ifdef U_ELF # include # if defined(ELFCLASS64) # define U_ELF64 # endif /* Old elf.h headers may not have EM_X86_64, or have EM_X8664 instead. */ # ifndef EM_X86_64 # define EM_X86_64 62 # endif # define ICU_ENTRY_OFFSET 0 #endif #include #include #include "unicode/putil.h" #include "cmemory.h" #include "cstring.h" #include "filestrm.h" #include "toolutil.h" #include "unicode/uclean.h" #include "uoptions.h" #include "pkg_genc.h" #define MAX_COLUMN ((uint32_t)(0xFFFFFFFFU)) #define HEX_0X 0 /* 0x1234 */ #define HEX_0H 1 /* 01234h */ /* * The following is needed by MinGW64 */ #ifndef __USER_LABEL_PREFIX__ #define __USER_LABEL_PREFIX__ _ #endif #define GCC_LABEL_PREFIX_INTERNAL(a) #a #define GCC_LABEL_PREFIX(a) GCC_LABEL_PREFIX_INTERNAL(a) /* prototypes --------------------------------------------------------------- */ static void getOutFilename(const char *inFilename, const char *destdir, char *outFilename, char *entryName, const char *newSuffix, const char *optFilename); static uint32_t write8(FileStream *out, uint8_t byte, uint32_t column); static uint32_t write32(FileStream *out, uint32_t byte, uint32_t column); #if U_PLATFORM == U_PF_OS400 static uint32_t write8str(FileStream *out, uint8_t byte, uint32_t column); #endif /* -------------------------------------------------------------------------- */ /* Creating Template Files for New Platforms Let the cc compiler help you get started. Compile this program const unsigned int x[5] = {1, 2, 0xdeadbeef, 0xffffffff, 16}; with the -S option to produce assembly output. For example, this will generate array.s: gcc -S array.c This will produce a .s file that may look like this: .file "array.c" .version "01.01" gcc2_compiled.: .globl x .section .rodata .align 4 .type x,@object .size x,20 x: .long 1 .long 2 .long -559038737 .long -1 .long 16 .ident "GCC: (GNU) 2.96 20000731 (Red Hat Linux 7.1 2.96-85)" which gives a starting point that will compile, and can be transformed to become the template, generally with some consulting of as docs and some experimentation. If you want ICU to automatically use this assembly, you should specify "GENCCODE_ASSEMBLY=-a name" in the specific config/mh-* file, where the name is the compiler or platform that you used in this assemblyHeader data structure. */ static const struct AssemblyType { const char *name; const char *header; const char *beginLine; const char *footer; int8_t hexType; /* HEX_0X or HEX_0h */ } assemblyHeader[] = { {"gcc", ".globl %s\n" "\t.section .note.GNU-stack,\"\",%%progbits\n" "\t.section .rodata\n" "\t.align 8\n" /* Either align 8 bytes or 2^8 (256) bytes. 8 bytes is needed. */ "\t.type %s,%%object\n" "%s:\n\n", ".long ","",HEX_0X }, {"gcc-darwin", /*"\t.section __TEXT,__text,regular,pure_instructions\n" "\t.section __TEXT,__picsymbolstub1,symbol_stubs,pure_instructions,32\n"*/ ".globl _%s\n" "\t.data\n" "\t.const\n" "\t.align 4\n" /* 1<<4 = 16 */ "_%s:\n\n", ".long ","",HEX_0X }, {"gcc-cygwin", ".globl "GCC_LABEL_PREFIX(__USER_LABEL_PREFIX__) "%s\n" "\t.section .rodata\n" "\t.align 8\n" /* Either align 8 bytes or 2^8 (256) bytes. 8 bytes is needed. */ GCC_LABEL_PREFIX(__USER_LABEL_PREFIX__) "%s:\n\n", ".long ","",HEX_0X }, {"sun", "\t.section \".rodata\"\n" "\t.align 8\n" ".globl %s\n" "%s:\n", ".word ","",HEX_0X }, {"sun-x86", "Drodata.rodata:\n" "\t.type Drodata.rodata,@object\n" "\t.size Drodata.rodata,0\n" "\t.globl %s\n" "\t.align 8\n" "%s:\n", ".4byte ","",HEX_0X }, {"xlc", ".globl %s{RO}\n" "\t.toc\n" "%s:\n" "\t.csect %s{RO}, 4\n", ".long ","",HEX_0X }, {"aCC-ia64", "\t.file \"%s.s\"\n" "\t.type %s,@object\n" "\t.global %s\n" "\t.secalias .abe$0.rodata, \".rodata\"\n" "\t.section .abe$0.rodata = \"a\", \"progbits\"\n" "\t.align 16\n" "%s::\t", "data4 ","",HEX_0X }, {"aCC-parisc", "\t.SPACE $TEXT$\n" "\t.SUBSPA $LIT$\n" "%s\n" "\t.EXPORT %s\n" "\t.ALIGN 16\n", ".WORD ","",HEX_0X }, { "masm", "\tTITLE %s\n" "; generated by genccode\n" ".386\n" ".model flat\n" "\tPUBLIC _%s\n" "ICUDATA_%s\tSEGMENT READONLY PARA PUBLIC FLAT 'DATA'\n" "\tALIGN 16\n" "_%s\tLABEL DWORD\n", "\tDWORD ","\nICUDATA_%s\tENDS\n\tEND\n",HEX_0H } }; static int32_t assemblyHeaderIndex = -1; static int32_t hexType = HEX_0X; U_CAPI UBool U_EXPORT2 checkAssemblyHeaderName(const char* optAssembly) { int32_t idx; assemblyHeaderIndex = -1; for (idx = 0; idx < (int32_t)(sizeof(assemblyHeader)/sizeof(assemblyHeader[0])); idx++) { if (uprv_strcmp(optAssembly, assemblyHeader[idx].name) == 0) { assemblyHeaderIndex = idx; hexType = assemblyHeader[idx].hexType; /* set the hex type */ return TRUE; } } return FALSE; } U_CAPI void U_EXPORT2 printAssemblyHeadersToStdErr(void) { int32_t idx; fprintf(stderr, "%s", assemblyHeader[0].name); for (idx = 1; idx < (int32_t)(sizeof(assemblyHeader)/sizeof(assemblyHeader[0])); idx++) { fprintf(stderr, ", %s", assemblyHeader[idx].name); } fprintf(stderr, ")\n"); } U_CAPI void U_EXPORT2 writeAssemblyCode(const char *filename, const char *destdir, const char *optEntryPoint, const char *optFilename, char *outFilePath) { uint32_t column = MAX_COLUMN; char entry[64]; uint32_t buffer[1024]; char *bufferStr = (char *)buffer; FileStream *in, *out; size_t i, length; in=T_FileStream_open(filename, "rb"); if(in==NULL) { fprintf(stderr, "genccode: unable to open input file %s\n", filename); exit(U_FILE_ACCESS_ERROR); } getOutFilename(filename, destdir, bufferStr, entry, ".s", optFilename); out=T_FileStream_open(bufferStr, "w"); if(out==NULL) { fprintf(stderr, "genccode: unable to open output file %s\n", bufferStr); exit(U_FILE_ACCESS_ERROR); } if (outFilePath != NULL) { uprv_strcpy(outFilePath, bufferStr); } #ifdef WINDOWS_WITH_GNUC /* Need to fix the file seperator character when using MinGW. */ swapFileSepChar(outFilePath, U_FILE_SEP_CHAR, '/'); #endif if(optEntryPoint != NULL) { uprv_strcpy(entry, optEntryPoint); uprv_strcat(entry, "_dat"); } /* turn dashes or dots in the entry name into underscores */ length=uprv_strlen(entry); for(i=0; i= 0 ; i--) #endif { uint8_t value = ptrIdx[i]; if (value || seenNonZero) { *(s++)=hexToStr[value>>4]; *(s++)=hexToStr[value&0xF]; seenNonZero = 1; } } if(hexType==HEX_0H) { *(s++)='h'; } } *(s++)=0; T_FileStream_writeLine(out, bitFieldStr); return column; } static uint32_t write8(FileStream *out, uint8_t byte, uint32_t column) { char s[4]; int i=0; /* convert the byte value to a string */ if(byte>=100) { s[i++]=(char)('0'+byte/100); byte%=100; } if(i>0 || byte>=10) { s[i++]=(char)('0'+byte/10); byte%=10; } s[i++]=(char)('0'+byte); s[i]=0; /* write the value, possibly with comma and newline */ if(column==MAX_COLUMN) { /* first byte */ column=1; } else if(column<16) { T_FileStream_writeLine(out, ","); ++column; } else { T_FileStream_writeLine(out, ",\n"); column=1; } T_FileStream_writeLine(out, s); return column; } #if U_PLATFORM == U_PF_OS400 static uint32_t write8str(FileStream *out, uint8_t byte, uint32_t column) { char s[8]; if (byte > 7) sprintf(s, "\\x%X", byte); else sprintf(s, "\\%X", byte); /* write the value, possibly with comma and newline */ if(column==MAX_COLUMN) { /* first byte */ column=1; T_FileStream_writeLine(out, "\""); } else if(column<24) { ++column; } else { T_FileStream_writeLine(out, "\"\n\""); column=1; } T_FileStream_writeLine(out, s); return column; } #endif static void getOutFilename(const char *inFilename, const char *destdir, char *outFilename, char *entryName, const char *newSuffix, const char *optFilename) { const char *basename=findBasename(inFilename), *suffix=uprv_strrchr(basename, '.'); /* copy path */ if(destdir!=NULL && *destdir!=0) { do { *outFilename++=*destdir++; } while(*destdir!=0); if(*(outFilename-1)!=U_FILE_SEP_CHAR) { *outFilename++=U_FILE_SEP_CHAR; } inFilename=basename; } else { while(inFilenameELFCLASS64 ) { fprintf(stderr, "genccode: match-arch file %s is not an ELF object file, or not supported\n", filename); exit(U_UNSUPPORTED_ERROR); } *pBits= buffer.header32.e_ident[EI_CLASS]==ELFCLASS32 ? 32 : 64; /* only 32 or 64: see check above */ #ifdef U_ELF64 if(*pBits!=32 && *pBits!=64) { fprintf(stderr, "genccode: currently only supports 32-bit and 64-bit ELF format\n"); exit(U_UNSUPPORTED_ERROR); } #else if(*pBits!=32) { fprintf(stderr, "genccode: built with elf.h missing 64-bit definitions\n"); exit(U_UNSUPPORTED_ERROR); } #endif *pIsBigEndian=(UBool)(buffer.header32.e_ident[EI_DATA]==ELFDATA2MSB); if(*pIsBigEndian!=U_IS_BIG_ENDIAN) { fprintf(stderr, "genccode: currently only same-endianness ELF formats are supported\n"); exit(U_UNSUPPORTED_ERROR); } /* TODO: Support byte swapping */ *pCPU=buffer.header32.e_machine; #elif U_PLATFORM_HAS_WIN32_API if(lengthMachine; /* * The number of bits is implicit with the Machine value. * *pBits is ignored in the calling code, so this need not be precise. */ *pBits= *pCPU==IMAGE_FILE_MACHINE_I386 ? 32 : 64; /* Windows always runs on little-endian CPUs. */ *pIsBigEndian=FALSE; #else # error "Unknown platform for CAN_GENERATE_OBJECTS." #endif T_FileStream_close(in); } U_CAPI void U_EXPORT2 writeObjectCode(const char *filename, const char *destdir, const char *optEntryPoint, const char *optMatchArch, const char *optFilename, char *outFilePath) { /* common variables */ char buffer[4096], entry[40]={ 0 }; FileStream *in, *out; const char *newSuffix; int32_t i, entryLength, length, size, entryOffset=0, entryLengthOffset=0; uint16_t cpu, bits; UBool makeBigEndian; /* platform-specific variables and initialization code */ #ifdef U_ELF /* 32-bit Elf file header */ static Elf32_Ehdr header32={ { /* e_ident[] */ ELFMAG0, ELFMAG1, ELFMAG2, ELFMAG3, ELFCLASS32, U_IS_BIG_ENDIAN ? ELFDATA2MSB : ELFDATA2LSB, EV_CURRENT /* EI_VERSION */ }, ET_REL, EM_386, EV_CURRENT, /* e_version */ 0, /* e_entry */ 0, /* e_phoff */ (Elf32_Off)sizeof(Elf32_Ehdr), /* e_shoff */ 0, /* e_flags */ (Elf32_Half)sizeof(Elf32_Ehdr), /* eh_size */ 0, /* e_phentsize */ 0, /* e_phnum */ (Elf32_Half)sizeof(Elf32_Shdr), /* e_shentsize */ 5, /* e_shnum */ 2 /* e_shstrndx */ }; /* 32-bit Elf section header table */ static Elf32_Shdr sectionHeaders32[5]={ { /* SHN_UNDEF */ 0 }, { /* .symtab */ 1, /* sh_name */ SHT_SYMTAB, 0, /* sh_flags */ 0, /* sh_addr */ (Elf32_Off)(sizeof(header32)+sizeof(sectionHeaders32)), /* sh_offset */ (Elf32_Word)(2*sizeof(Elf32_Sym)), /* sh_size */ 3, /* sh_link=sect hdr index of .strtab */ 1, /* sh_info=One greater than the symbol table index of the last * local symbol (with STB_LOCAL). */ 4, /* sh_addralign */ (Elf32_Word)(sizeof(Elf32_Sym)) /* sh_entsize */ }, { /* .shstrtab */ 9, /* sh_name */ SHT_STRTAB, 0, /* sh_flags */ 0, /* sh_addr */ (Elf32_Off)(sizeof(header32)+sizeof(sectionHeaders32)+2*sizeof(Elf32_Sym)), /* sh_offset */ 40, /* sh_size */ 0, /* sh_link */ 0, /* sh_info */ 1, /* sh_addralign */ 0 /* sh_entsize */ }, { /* .strtab */ 19, /* sh_name */ SHT_STRTAB, 0, /* sh_flags */ 0, /* sh_addr */ (Elf32_Off)(sizeof(header32)+sizeof(sectionHeaders32)+2*sizeof(Elf32_Sym)+40), /* sh_offset */ (Elf32_Word)sizeof(entry), /* sh_size */ 0, /* sh_link */ 0, /* sh_info */ 1, /* sh_addralign */ 0 /* sh_entsize */ }, { /* .rodata */ 27, /* sh_name */ SHT_PROGBITS, SHF_ALLOC, /* sh_flags */ 0, /* sh_addr */ (Elf32_Off)(sizeof(header32)+sizeof(sectionHeaders32)+2*sizeof(Elf32_Sym)+40+sizeof(entry)), /* sh_offset */ 0, /* sh_size */ 0, /* sh_link */ 0, /* sh_info */ 16, /* sh_addralign */ 0 /* sh_entsize */ } }; /* symbol table */ static Elf32_Sym symbols32[2]={ { /* STN_UNDEF */ 0 }, { /* data entry point */ 1, /* st_name */ 0, /* st_value */ 0, /* st_size */ ELF64_ST_INFO(STB_GLOBAL, STT_OBJECT), 0, /* st_other */ 4 /* st_shndx=index of related section table entry */ } }; /* section header string table, with decimal string offsets */ static const char sectionStrings[40]= /* 0 */ "\0" /* 1 */ ".symtab\0" /* 9 */ ".shstrtab\0" /* 19 */ ".strtab\0" /* 27 */ ".rodata\0" /* 35 */ "\0\0\0\0"; /* contains terminating NUL */ /* 40: padded to multiple of 8 bytes */ /* * Use entry[] for the string table which will contain only the * entry point name. * entry[0] must be 0 (NUL) * The entry point name can be up to 38 characters long (sizeof(entry)-2). */ /* 16-align .rodata in the .o file, just in case */ static const char padding[16]={ 0 }; int32_t paddingSize; #ifdef U_ELF64 /* 64-bit Elf file header */ static Elf64_Ehdr header64={ { /* e_ident[] */ ELFMAG0, ELFMAG1, ELFMAG2, ELFMAG3, ELFCLASS64, U_IS_BIG_ENDIAN ? ELFDATA2MSB : ELFDATA2LSB, EV_CURRENT /* EI_VERSION */ }, ET_REL, EM_X86_64, EV_CURRENT, /* e_version */ 0, /* e_entry */ 0, /* e_phoff */ (Elf64_Off)sizeof(Elf64_Ehdr), /* e_shoff */ 0, /* e_flags */ (Elf64_Half)sizeof(Elf64_Ehdr), /* eh_size */ 0, /* e_phentsize */ 0, /* e_phnum */ (Elf64_Half)sizeof(Elf64_Shdr), /* e_shentsize */ 5, /* e_shnum */ 2 /* e_shstrndx */ }; /* 64-bit Elf section header table */ static Elf64_Shdr sectionHeaders64[5]={ { /* SHN_UNDEF */ 0 }, { /* .symtab */ 1, /* sh_name */ SHT_SYMTAB, 0, /* sh_flags */ 0, /* sh_addr */ (Elf64_Off)(sizeof(header64)+sizeof(sectionHeaders64)), /* sh_offset */ (Elf64_Xword)(2*sizeof(Elf64_Sym)), /* sh_size */ 3, /* sh_link=sect hdr index of .strtab */ 1, /* sh_info=One greater than the symbol table index of the last * local symbol (with STB_LOCAL). */ 4, /* sh_addralign */ (Elf64_Xword)(sizeof(Elf64_Sym)) /* sh_entsize */ }, { /* .shstrtab */ 9, /* sh_name */ SHT_STRTAB, 0, /* sh_flags */ 0, /* sh_addr */ (Elf64_Off)(sizeof(header64)+sizeof(sectionHeaders64)+2*sizeof(Elf64_Sym)), /* sh_offset */ 40, /* sh_size */ 0, /* sh_link */ 0, /* sh_info */ 1, /* sh_addralign */ 0 /* sh_entsize */ }, { /* .strtab */ 19, /* sh_name */ SHT_STRTAB, 0, /* sh_flags */ 0, /* sh_addr */ (Elf64_Off)(sizeof(header64)+sizeof(sectionHeaders64)+2*sizeof(Elf64_Sym)+40), /* sh_offset */ (Elf64_Xword)sizeof(entry), /* sh_size */ 0, /* sh_link */ 0, /* sh_info */ 1, /* sh_addralign */ 0 /* sh_entsize */ }, { /* .rodata */ 27, /* sh_name */ SHT_PROGBITS, SHF_ALLOC, /* sh_flags */ 0, /* sh_addr */ (Elf64_Off)(sizeof(header64)+sizeof(sectionHeaders64)+2*sizeof(Elf64_Sym)+40+sizeof(entry)), /* sh_offset */ 0, /* sh_size */ 0, /* sh_link */ 0, /* sh_info */ 16, /* sh_addralign */ 0 /* sh_entsize */ } }; /* * 64-bit symbol table * careful: different order of items compared with Elf32_sym! */ static Elf64_Sym symbols64[2]={ { /* STN_UNDEF */ 0 }, { /* data entry point */ 1, /* st_name */ ELF64_ST_INFO(STB_GLOBAL, STT_OBJECT), 0, /* st_other */ 4, /* st_shndx=index of related section table entry */ 0, /* st_value */ 0 /* st_size */ } }; #endif /* U_ELF64 */ /* entry[] have a leading NUL */ entryOffset=1; /* in the common code, count entryLength from after the NUL */ entryLengthOffset=1; newSuffix=".o"; #elif U_PLATFORM_HAS_WIN32_API struct { IMAGE_FILE_HEADER fileHeader; IMAGE_SECTION_HEADER sections[2]; char linkerOptions[100]; } objHeader; IMAGE_SYMBOL symbols[1]; struct { DWORD sizeofLongNames; char longNames[100]; } symbolNames; /* * entry sometimes have a leading '_' * overwritten if entryOffset==0 depending on the target platform * see check for cpu below */ entry[0]='_'; newSuffix=".obj"; #else # error "Unknown platform for CAN_GENERATE_OBJECTS." #endif /* deal with options, files and the entry point name */ getArchitecture(&cpu, &bits, &makeBigEndian, optMatchArch); printf("genccode: --match-arch cpu=%hu bits=%hu big-endian=%d\n", cpu, bits, makeBigEndian); #if U_PLATFORM_HAS_WIN32_API if(cpu==IMAGE_FILE_MACHINE_I386) { entryOffset=1; } #endif in=T_FileStream_open(filename, "rb"); if(in==NULL) { fprintf(stderr, "genccode: unable to open input file %s\n", filename); exit(U_FILE_ACCESS_ERROR); } size=T_FileStream_size(in); getOutFilename(filename, destdir, buffer, entry+entryOffset, newSuffix, optFilename); if (outFilePath != NULL) { uprv_strcpy(outFilePath, buffer); } if(optEntryPoint != NULL) { uprv_strcpy(entry+entryOffset, optEntryPoint); uprv_strcat(entry+entryOffset, "_dat"); } /* turn dashes in the entry name into underscores */ entryLength=(int32_t)uprv_strlen(entry+entryLengthOffset); for(i=0; i