/* ** LuaJIT VM builder: PE object emitter. ** Copyright (C) 2005-2017 Mike Pall. See Copyright Notice in luajit.h ** ** Only used for building on Windows, since we cannot assume the presence ** of a suitable assembler. The host and target byte order must match. */ #include "buildvm.h" #include "lj_bc.h" #if LJ_TARGET_X86ORX64 || LJ_TARGET_PPC /* Context for PE object emitter. */ static char *strtab; static size_t strtabofs; /* -- PE object definitions ----------------------------------------------- */ /* PE header. */ typedef struct PEheader { uint16_t arch; uint16_t nsects; uint32_t time; uint32_t symtabofs; uint32_t nsyms; uint16_t opthdrsz; uint16_t flags; } PEheader; /* PE section. */ typedef struct PEsection { char name[8]; uint32_t vsize; uint32_t vaddr; uint32_t size; uint32_t ofs; uint32_t relocofs; uint32_t lineofs; uint16_t nreloc; uint16_t nline; uint32_t flags; } PEsection; /* PE relocation. */ typedef struct PEreloc { uint32_t vaddr; uint32_t symidx; uint16_t type; } PEreloc; /* Cannot use sizeof, because it pads up to the max. alignment. */ #define PEOBJ_RELOC_SIZE (4+4+2) /* PE symbol table entry. */ typedef struct PEsym { union { char name[8]; uint32_t nameref[2]; } n; uint32_t value; int16_t sect; uint16_t type; uint8_t scl; uint8_t naux; } PEsym; /* PE symbol table auxiliary entry for a section. */ typedef struct PEsymaux { uint32_t size; uint16_t nreloc; uint16_t nline; uint32_t cksum; uint16_t assoc; uint8_t comdatsel; uint8_t unused[3]; } PEsymaux; /* Cannot use sizeof, because it pads up to the max. alignment. */ #define PEOBJ_SYM_SIZE (8+4+2+2+1+1) /* PE object CPU specific defines. */ #if LJ_TARGET_X86 #define PEOBJ_ARCH_TARGET 0x014c #define PEOBJ_RELOC_REL32 0x14 /* MS: REL32, GNU: DISP32. */ #define PEOBJ_RELOC_DIR32 0x06 #define PEOBJ_RELOC_OFS 0 #define PEOBJ_TEXT_FLAGS 0x60500020 /* 60=r+x, 50=align16, 20=code. */ #elif LJ_TARGET_X64 #define PEOBJ_ARCH_TARGET 0x8664 #define PEOBJ_RELOC_REL32 0x04 /* MS: REL32, GNU: DISP32. */ #define PEOBJ_RELOC_DIR32 0x02 #define PEOBJ_RELOC_ADDR32NB 0x03 #define PEOBJ_RELOC_OFS 0 #define PEOBJ_TEXT_FLAGS 0x60500020 /* 60=r+x, 50=align16, 20=code. */ #elif LJ_TARGET_PPC #define PEOBJ_ARCH_TARGET 0x01f2 #define PEOBJ_RELOC_REL32 0x06 #define PEOBJ_RELOC_DIR32 0x02 #define PEOBJ_RELOC_OFS (-4) #define PEOBJ_TEXT_FLAGS 0x60400020 /* 60=r+x, 40=align8, 20=code. */ #endif /* Section numbers (0-based). */ enum { PEOBJ_SECT_ABS = -2, PEOBJ_SECT_UNDEF = -1, PEOBJ_SECT_TEXT, #if LJ_TARGET_X64 PEOBJ_SECT_PDATA, PEOBJ_SECT_XDATA, #endif PEOBJ_SECT_RDATA_Z, PEOBJ_NSECTIONS }; /* Symbol types. */ #define PEOBJ_TYPE_NULL 0 #define PEOBJ_TYPE_FUNC 0x20 /* Symbol storage class. */ #define PEOBJ_SCL_EXTERN 2 #define PEOBJ_SCL_STATIC 3 /* -- PE object emitter --------------------------------------------------- */ /* Emit PE object symbol. */ static void emit_peobj_sym(BuildCtx *ctx, const char *name, uint32_t value, int sect, int type, int scl) { PEsym sym; size_t len = strlen(name); if (!strtab) { /* Pass 1: only calculate string table length. */ if (len > 8) strtabofs += len+1; return; } if (len <= 8) { memcpy(sym.n.name, name, len); memset(sym.n.name+len, 0, 8-len); } else { sym.n.nameref[0] = 0; sym.n.nameref[1] = (uint32_t)strtabofs; memcpy(strtab + strtabofs, name, len); strtab[strtabofs+len] = 0; strtabofs += len+1; } sym.value = value; sym.sect = (int16_t)(sect+1); /* 1-based section number. */ sym.type = (uint16_t)type; sym.scl = (uint8_t)scl; sym.naux = 0; owrite(ctx, &sym, PEOBJ_SYM_SIZE); } /* Emit PE object section symbol. */ static void emit_peobj_sym_sect(BuildCtx *ctx, PEsection *pesect, int sect) { PEsym sym; PEsymaux aux; if (!strtab) return; /* Pass 1: no output. */ memcpy(sym.n.name, pesect[sect].name, 8); sym.value = 0; sym.sect = (int16_t)(sect+1); /* 1-based section number. */ sym.type = PEOBJ_TYPE_NULL; sym.scl = PEOBJ_SCL_STATIC; sym.naux = 1; owrite(ctx, &sym, PEOBJ_SYM_SIZE); memset(&aux, 0, sizeof(PEsymaux)); aux.size = pesect[sect].size; aux.nreloc = pesect[sect].nreloc; owrite(ctx, &aux, PEOBJ_SYM_SIZE); } /* Emit Windows PE object file. */ void emit_peobj(BuildCtx *ctx) { PEheader pehdr; PEsection pesect[PEOBJ_NSECTIONS]; uint32_t sofs; int i, nrsym; union { uint8_t b; uint32_t u; } host_endian; sofs = sizeof(PEheader) + PEOBJ_NSECTIONS*sizeof(PEsection); /* Fill in PE sections. */ memset(&pesect, 0, PEOBJ_NSECTIONS*sizeof(PEsection)); memcpy(pesect[PEOBJ_SECT_TEXT].name, ".text", sizeof(".text")-1); pesect[PEOBJ_SECT_TEXT].ofs = sofs; sofs += (pesect[PEOBJ_SECT_TEXT].size = (uint32_t)ctx->codesz); pesect[PEOBJ_SECT_TEXT].relocofs = sofs; sofs += (pesect[PEOBJ_SECT_TEXT].nreloc = (uint16_t)ctx->nreloc) * PEOBJ_RELOC_SIZE; /* Flags: 60 = read+execute, 50 = align16, 20 = code. */ pesect[PEOBJ_SECT_TEXT].flags = PEOBJ_TEXT_FLAGS; #if LJ_TARGET_X64 memcpy(pesect[PEOBJ_SECT_PDATA].name, ".pdata", sizeof(".pdata")-1); pesect[PEOBJ_SECT_PDATA].ofs = sofs; sofs += (pesect[PEOBJ_SECT_PDATA].size = 6*4); pesect[PEOBJ_SECT_PDATA].relocofs = sofs; sofs += (pesect[PEOBJ_SECT_PDATA].nreloc = 6) * PEOBJ_RELOC_SIZE; /* Flags: 40 = read, 30 = align4, 40 = initialized data. */ pesect[PEOBJ_SECT_PDATA].flags = 0x40300040; memcpy(pesect[PEOBJ_SECT_XDATA].name, ".xdata", sizeof(".xdata")-1); pesect[PEOBJ_SECT_XDATA].ofs = sofs; sofs += (pesect[PEOBJ_SECT_XDATA].size = 8*2+4+6*2); /* See below. */ pesect[PEOBJ_SECT_XDATA].relocofs = sofs; sofs += (pesect[PEOBJ_SECT_XDATA].nreloc = 1) * PEOBJ_RELOC_SIZE; /* Flags: 40 = read, 30 = align4, 40 = initialized data. */ pesect[PEOBJ_SECT_XDATA].flags = 0x40300040; #endif memcpy(pesect[PEOBJ_SECT_RDATA_Z].name, ".rdata$Z", sizeof(".rdata$Z")-1); pesect[PEOBJ_SECT_RDATA_Z].ofs = sofs; sofs += (pesect[PEOBJ_SECT_RDATA_Z].size = (uint32_t)strlen(ctx->dasm_ident)+1); /* Flags: 40 = read, 30 = align4, 40 = initialized data. */ pesect[PEOBJ_SECT_RDATA_Z].flags = 0x40300040; /* Fill in PE header. */ pehdr.arch = PEOBJ_ARCH_TARGET; pehdr.nsects = PEOBJ_NSECTIONS; pehdr.time = 0; /* Timestamp is optional. */ pehdr.symtabofs = sofs; pehdr.opthdrsz = 0; pehdr.flags = 0; /* Compute the size of the symbol table: ** @feat.00 + nsections*2 ** + asm_start + nsym ** + nrsym */ nrsym = ctx->nrelocsym; pehdr.nsyms = 1+PEOBJ_NSECTIONS*2 + 1+ctx->nsym + nrsym; #if LJ_TARGET_X64 pehdr.nsyms += 1; /* Symbol for lj_err_unwind_win64. */ #endif /* Write PE object header and all sections. */ owrite(ctx, &pehdr, sizeof(PEheader)); owrite(ctx, &pesect, sizeof(PEsection)*PEOBJ_NSECTIONS); /* Write .text section. */ host_endian.u = 1; if (host_endian.b != LJ_ENDIAN_SELECT(1, 0)) { #if LJ_TARGET_PPC uint32_t *p = (uint32_t *)ctx->code; int n = (int)(ctx->codesz >> 2); for (i = 0; i < n; i++, p++) *p = lj_bswap(*p); /* Byteswap .text section. */ #else fprintf(stderr, "Error: different byte order for host and target\n"); exit(1); #endif } owrite(ctx, ctx->code, ctx->codesz); for (i = 0; i < ctx->nreloc; i++) { PEreloc reloc; reloc.vaddr = (uint32_t)ctx->reloc[i].ofs + PEOBJ_RELOC_OFS; reloc.symidx = 1+2+ctx->reloc[i].sym; /* Reloc syms are after .text sym. */ reloc.type = ctx->reloc[i].type ? PEOBJ_RELOC_REL32 : PEOBJ_RELOC_DIR32; owrite(ctx, &reloc, PEOBJ_RELOC_SIZE); } #if LJ_TARGET_X64 { /* Write .pdata section. */ uint32_t fcofs = (uint32_t)ctx->sym[ctx->nsym-1].ofs; uint32_t pdata[3]; /* Start of .text, end of .text and .xdata. */ PEreloc reloc; pdata[0] = 0; pdata[1] = fcofs; pdata[2] = 0; owrite(ctx, &pdata, sizeof(pdata)); pdata[0] = fcofs; pdata[1] = (uint32_t)ctx->codesz; pdata[2] = 20; owrite(ctx, &pdata, sizeof(pdata)); reloc.vaddr = 0; reloc.symidx = 1+2+nrsym+2+2+1; reloc.type = PEOBJ_RELOC_ADDR32NB; owrite(ctx, &reloc, PEOBJ_RELOC_SIZE); reloc.vaddr = 4; reloc.symidx = 1+2+nrsym+2+2+1; reloc.type = PEOBJ_RELOC_ADDR32NB; owrite(ctx, &reloc, PEOBJ_RELOC_SIZE); reloc.vaddr = 8; reloc.symidx = 1+2+nrsym+2; reloc.type = PEOBJ_RELOC_ADDR32NB; owrite(ctx, &reloc, PEOBJ_RELOC_SIZE); reloc.vaddr = 12; reloc.symidx = 1+2+nrsym+2+2+1; reloc.type = PEOBJ_RELOC_ADDR32NB; owrite(ctx, &reloc, PEOBJ_RELOC_SIZE); reloc.vaddr = 16; reloc.symidx = 1+2+nrsym+2+2+1; reloc.type = PEOBJ_RELOC_ADDR32NB; owrite(ctx, &reloc, PEOBJ_RELOC_SIZE); reloc.vaddr = 20; reloc.symidx = 1+2+nrsym+2; reloc.type = PEOBJ_RELOC_ADDR32NB; owrite(ctx, &reloc, PEOBJ_RELOC_SIZE); } { /* Write .xdata section. */ uint16_t xdata[8+2+6]; PEreloc reloc; xdata[0] = 0x01|0x08|0x10; /* Ver. 1, uhandler/ehandler, prolog size 0. */ xdata[1] = 0x0005; /* Number of unwind codes, no frame pointer. */ xdata[2] = 0x4200; /* Stack offset 4*8+8 = aword*5. */ xdata[3] = 0x3000; /* Push rbx. */ xdata[4] = 0x6000; /* Push rsi. */ xdata[5] = 0x7000; /* Push rdi. */ xdata[6] = 0x5000; /* Push rbp. */ xdata[7] = 0; /* Alignment. */ xdata[8] = xdata[9] = 0; /* Relocated address of exception handler. */ xdata[10] = 0x01; /* Ver. 1, no handler, prolog size 0. */ xdata[11] = 0x1504; /* Number of unwind codes, fp = rbp, fpofs = 16. */ xdata[12] = 0x0300; /* set_fpreg. */ xdata[13] = 0x0200; /* stack offset 0*8+8 = aword*1. */ xdata[14] = 0x3000; /* Push rbx. */ xdata[15] = 0x5000; /* Push rbp. */ owrite(ctx, &xdata, sizeof(xdata)); reloc.vaddr = 2*8; reloc.symidx = 1+2+nrsym+2+2; reloc.type = PEOBJ_RELOC_ADDR32NB; owrite(ctx, &reloc, PEOBJ_RELOC_SIZE); } #endif /* Write .rdata$Z section. */ owrite(ctx, ctx->dasm_ident, strlen(ctx->dasm_ident)+1); /* Write symbol table. */ strtab = NULL; /* 1st pass: collect string sizes. */ for (;;) { strtabofs = 4; /* Mark as SafeSEH compliant. */ emit_peobj_sym(ctx, "@feat.00", 1, PEOBJ_SECT_ABS, PEOBJ_TYPE_NULL, PEOBJ_SCL_STATIC); emit_peobj_sym_sect(ctx, pesect, PEOBJ_SECT_TEXT); for (i = 0; i < nrsym; i++) emit_peobj_sym(ctx, ctx->relocsym[i], 0, PEOBJ_SECT_UNDEF, PEOBJ_TYPE_FUNC, PEOBJ_SCL_EXTERN); #if LJ_TARGET_X64 emit_peobj_sym_sect(ctx, pesect, PEOBJ_SECT_PDATA); emit_peobj_sym_sect(ctx, pesect, PEOBJ_SECT_XDATA); emit_peobj_sym(ctx, "lj_err_unwind_win64", 0, PEOBJ_SECT_UNDEF, PEOBJ_TYPE_FUNC, PEOBJ_SCL_EXTERN); #endif emit_peobj_sym(ctx, ctx->beginsym, 0, PEOBJ_SECT_TEXT, PEOBJ_TYPE_NULL, PEOBJ_SCL_EXTERN); for (i = 0; i < ctx->nsym; i++) emit_peobj_sym(ctx, ctx->sym[i].name, (uint32_t)ctx->sym[i].ofs, PEOBJ_SECT_TEXT, PEOBJ_TYPE_FUNC, PEOBJ_SCL_EXTERN); emit_peobj_sym_sect(ctx, pesect, PEOBJ_SECT_RDATA_Z); if (strtab) break; /* 2nd pass: alloc strtab, write syms and copy strings. */ strtab = (char *)malloc(strtabofs); *(uint32_t *)strtab = (uint32_t)strtabofs; } /* Write string table. */ owrite(ctx, strtab, strtabofs); } #else void emit_peobj(BuildCtx *ctx) { UNUSED(ctx); fprintf(stderr, "Error: no PE object support for this target\n"); exit(1); } #endif