Add 6db
SVN=122505
diff --git a/src/libmachamd64/executable.c b/src/libmachamd64/executable.c
new file mode 100644
index 0000000..23505f5
--- /dev/null
+++ b/src/libmachamd64/executable.c
@@ -0,0 +1,963 @@
+// Inferno libmach/executable.c
+// http://code.google.com/p/inferno-os/source/browse/utils/libmach/executable.c
+//
+// Copyright © 1994-1999 Lucent Technologies Inc.
+// Power PC support Copyright © 1995-2004 C H Forsyth (forsyth@terzarima.net).
+// Portions Copyright © 1997-1999 Vita Nuova Limited.
+// Portions Copyright © 2000-2007 Vita Nuova Holdings Limited (www.vitanuova.com).
+// Revisions Copyright © 2000-2004 Lucent Technologies Inc. and others.
+// Portions Copyright © 2009 The Go Authors. All rights reserved.
+//
+// Permission is hereby granted, free of charge, to any person obtaining a copy
+// of this software and associated documentation files (the "Software"), to deal
+// in the Software without restriction, including without limitation the rights
+// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+// copies of the Software, and to permit persons to whom the Software is
+// furnished to do so, subject to the following conditions:
+//
+// The above copyright notice and this permission notice shall be included in
+// all copies or substantial portions of the Software.
+//
+// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+// THE SOFTWARE.
+
+#include <u.h>
+#include <libc.h>
+#include <bio.h>
+#include <bootexec.h>
+#include <mach_amd64.h>
+#include "elf.h"
+
+/*
+ * All a.out header types. The dummy entry allows canonical
+ * processing of the union as a sequence of longs
+ */
+
+typedef struct {
+ union{
+ /*struct { */
+ Exec exechdr; /* a.out.h */
+ /* uvlong hdr[1];*/
+ /*};*/
+ Ehdr32 elfhdr32; /* elf.h */
+ Ehdr64 elfhdr64; /* elf.h */
+ struct mipsexec mips; /* bootexec.h */
+ struct mips4kexec mipsk4; /* bootexec.h */
+ struct sparcexec sparc; /* bootexec.h */
+ struct nextexec next; /* bootexec.h */
+ } e;
+ long dummy; /* padding to ensure extra long */
+} ExecHdr;
+
+static int nextboot(int, Fhdr*, ExecHdr*);
+static int sparcboot(int, Fhdr*, ExecHdr*);
+static int mipsboot(int, Fhdr*, ExecHdr*);
+static int mips4kboot(int, Fhdr*, ExecHdr*);
+static int common(int, Fhdr*, ExecHdr*);
+static int commonllp64(int, Fhdr*, ExecHdr*);
+static int adotout(int, Fhdr*, ExecHdr*);
+static int elfdotout(int, Fhdr*, ExecHdr*);
+static int armdotout(int, Fhdr*, ExecHdr*);
+static void setsym(Fhdr*, long, long, long, vlong);
+static void setdata(Fhdr*, uvlong, long, vlong, long);
+static void settext(Fhdr*, uvlong, uvlong, long, vlong);
+static void hswal(void*, int, ulong(*)(ulong));
+static uvlong _round(uvlong, ulong);
+
+/*
+ * definition of per-executable file type structures
+ */
+
+typedef struct Exectable{
+ long magic; /* big-endian magic number of file */
+ char *name; /* executable identifier */
+ char *dlmname; /* dynamically loadable module identifier */
+ uchar type; /* Internal code */
+ uchar _magic; /* _MAGIC() magic */
+ Mach *mach; /* Per-machine data */
+ long hsize; /* header size */
+ ulong (*swal)(ulong); /* beswal or leswal */
+ int (*hparse)(int, Fhdr*, ExecHdr*);
+} ExecTable;
+
+extern Mach mmips;
+extern Mach mmips2le;
+extern Mach mmips2be;
+extern Mach msparc;
+extern Mach msparc64;
+extern Mach m68020;
+extern Mach mi386;
+extern Mach mamd64;
+extern Mach marm;
+extern Mach mpower;
+extern Mach mpower64;
+extern Mach malpha;
+
+/* BUG: FIX THESE WHEN NEEDED */
+Mach mmips;
+Mach mmips2le;
+Mach mmips2be;
+Mach msparc;
+Mach msparc64;
+Mach m68020;
+Mach marm;
+Mach mpower;
+Mach mpower64;
+Mach malpha;
+
+ExecTable exectab[] =
+{
+ { V_MAGIC, /* Mips v.out */
+ "mips plan 9 executable BE",
+ "mips plan 9 dlm BE",
+ FMIPS,
+ 1,
+ &mmips,
+ sizeof(Exec),
+ beswal,
+ adotout },
+ { P_MAGIC, /* Mips 0.out (r3k le) */
+ "mips plan 9 executable LE",
+ "mips plan 9 dlm LE",
+ FMIPSLE,
+ 1,
+ &mmips,
+ sizeof(Exec),
+ beswal,
+ adotout },
+ { M_MAGIC, /* Mips 4.out */
+ "mips 4k plan 9 executable BE",
+ "mips 4k plan 9 dlm BE",
+ FMIPS2BE,
+ 1,
+ &mmips2be,
+ sizeof(Exec),
+ beswal,
+ adotout },
+ { N_MAGIC, /* Mips 0.out */
+ "mips 4k plan 9 executable LE",
+ "mips 4k plan 9 dlm LE",
+ FMIPS2LE,
+ 1,
+ &mmips2le,
+ sizeof(Exec),
+ beswal,
+ adotout },
+ { 0x160<<16, /* Mips boot image */
+ "mips plan 9 boot image",
+ nil,
+ FMIPSB,
+ 0,
+ &mmips,
+ sizeof(struct mipsexec),
+ beswal,
+ mipsboot },
+ { (0x160<<16)|3, /* Mips boot image */
+ "mips 4k plan 9 boot image",
+ nil,
+ FMIPSB,
+ 0,
+ &mmips2be,
+ sizeof(struct mips4kexec),
+ beswal,
+ mips4kboot },
+ { K_MAGIC, /* Sparc k.out */
+ "sparc plan 9 executable",
+ "sparc plan 9 dlm",
+ FSPARC,
+ 1,
+ &msparc,
+ sizeof(Exec),
+ beswal,
+ adotout },
+ { 0x01030107, /* Sparc boot image */
+ "sparc plan 9 boot image",
+ nil,
+ FSPARCB,
+ 0,
+ &msparc,
+ sizeof(struct sparcexec),
+ beswal,
+ sparcboot },
+ { U_MAGIC, /* Sparc64 u.out */
+ "sparc64 plan 9 executable",
+ "sparc64 plan 9 dlm",
+ FSPARC64,
+ 1,
+ &msparc64,
+ sizeof(Exec),
+ beswal,
+ adotout },
+ { A_MAGIC, /* 68020 2.out & boot image */
+ "68020 plan 9 executable",
+ "68020 plan 9 dlm",
+ F68020,
+ 1,
+ &m68020,
+ sizeof(Exec),
+ beswal,
+ common },
+ { 0xFEEDFACE, /* Next boot image */
+ "next plan 9 boot image",
+ nil,
+ FNEXTB,
+ 0,
+ &m68020,
+ sizeof(struct nextexec),
+ beswal,
+ nextboot },
+ { I_MAGIC, /* I386 8.out & boot image */
+ "386 plan 9 executable",
+ "386 plan 9 dlm",
+ FI386,
+ 1,
+ &mi386,
+ sizeof(Exec),
+ beswal,
+ common },
+ { S_MAGIC, /* amd64 6.out & boot image */
+ "amd64 plan 9 executable",
+ "amd64 plan 9 dlm",
+ FAMD64,
+ 1,
+ &mamd64,
+ sizeof(Exec)+8,
+ nil,
+ commonllp64 },
+ { Q_MAGIC, /* PowerPC q.out & boot image */
+ "power plan 9 executable",
+ "power plan 9 dlm",
+ FPOWER,
+ 1,
+ &mpower,
+ sizeof(Exec),
+ beswal,
+ common },
+ { T_MAGIC, /* power64 9.out & boot image */
+ "power64 plan 9 executable",
+ "power64 plan 9 dlm",
+ FPOWER64,
+ 1,
+ &mpower64,
+ sizeof(Exec)+8,
+ nil,
+ commonllp64 },
+ { ELF_MAG, /* any elf32 or elf64 */
+ "elf executable",
+ nil,
+ FNONE,
+ 0,
+ &mi386,
+ sizeof(Ehdr64),
+ nil,
+ elfdotout },
+ { E_MAGIC, /* Arm 5.out and boot image */
+ "arm plan 9 executable",
+ "arm plan 9 dlm",
+ FARM,
+ 1,
+ &marm,
+ sizeof(Exec),
+ beswal,
+ common },
+ { (143<<16)|0413, /* (Free|Net)BSD Arm */
+ "arm *bsd executable",
+ nil,
+ FARM,
+ 0,
+ &marm,
+ sizeof(Exec),
+ leswal,
+ armdotout },
+ { L_MAGIC, /* alpha 7.out */
+ "alpha plan 9 executable",
+ "alpha plan 9 dlm",
+ FALPHA,
+ 1,
+ &malpha,
+ sizeof(Exec),
+ beswal,
+ common },
+ { 0x0700e0c3, /* alpha boot image */
+ "alpha plan 9 boot image",
+ nil,
+ FALPHA,
+ 0,
+ &malpha,
+ sizeof(Exec),
+ beswal,
+ common },
+ { 0 },
+};
+
+Mach *mach = &mi386; /* Global current machine table */
+
+static ExecTable*
+couldbe4k(ExecTable *mp)
+{
+ Dir *d;
+ ExecTable *f;
+
+ if((d=dirstat("/proc/1/regs")) == nil)
+ return mp;
+ if(d->length < 32*8){ /* R3000 */
+ free(d);
+ return mp;
+ }
+ free(d);
+ for (f = exectab; f->magic; f++)
+ if(f->magic == M_MAGIC) {
+ f->name = "mips plan 9 executable on mips2 kernel";
+ return f;
+ }
+ return mp;
+}
+
+int
+crackhdr(int fd, Fhdr *fp)
+{
+ ExecTable *mp;
+ ExecHdr d;
+ int nb, ret;
+ ulong magic;
+
+ fp->type = FNONE;
+ nb = read(fd, (char *)&d.e, sizeof(d.e));
+ if (nb <= 0)
+ return 0;
+
+ ret = 0;
+ magic = beswal(d.e.exechdr.magic); /* big-endian */
+ for (mp = exectab; mp->magic; mp++) {
+ if (nb < mp->hsize)
+ continue;
+
+ /*
+ * The magic number has morphed into something
+ * with fields (the straw was DYN_MAGIC) so now
+ * a flag is needed in Fhdr to distinguish _MAGIC()
+ * magic numbers from foreign magic numbers.
+ *
+ * This code is creaking a bit and if it has to
+ * be modified/extended much more it's probably
+ * time to step back and redo it all.
+ */
+ if(mp->_magic){
+ if(mp->magic != (magic & ~DYN_MAGIC))
+ continue;
+
+ if(mp->magic == V_MAGIC)
+ mp = couldbe4k(mp);
+
+ if ((magic & DYN_MAGIC) && mp->dlmname != nil)
+ fp->name = mp->dlmname;
+ else
+ fp->name = mp->name;
+ }
+ else{
+ if(mp->magic != magic)
+ continue;
+ fp->name = mp->name;
+ }
+ fp->type = mp->type;
+ fp->hdrsz = mp->hsize; /* will be zero on bootables */
+ fp->_magic = mp->_magic;
+ fp->magic = magic;
+
+ mach = mp->mach;
+ if(mp->swal != nil)
+ hswal(&d, sizeof(d.e)/sizeof(ulong), mp->swal);
+ ret = mp->hparse(fd, fp, &d);
+ seek(fd, mp->hsize, 0); /* seek to end of header */
+ break;
+ }
+ if(mp->magic == 0)
+ werrstr("unknown header type");
+ return ret;
+}
+
+/*
+ * Convert header to canonical form
+ */
+static void
+hswal(void *v, int n, ulong (*swap)(ulong))
+{
+ ulong *ulp;
+
+ for(ulp = v; n--; ulp++)
+ *ulp = (*swap)(*ulp);
+}
+
+/*
+ * Crack a normal a.out-type header
+ */
+static int
+adotout(int fd, Fhdr *fp, ExecHdr *hp)
+{
+ long pgsize;
+
+ USED(fd);
+ pgsize = mach->pgsize;
+ settext(fp, hp->e.exechdr.entry, pgsize+sizeof(Exec),
+ hp->e.exechdr.text, sizeof(Exec));
+ setdata(fp, _round(pgsize+fp->txtsz+sizeof(Exec), pgsize),
+ hp->e.exechdr.data, fp->txtsz+sizeof(Exec), hp->e.exechdr.bss);
+ setsym(fp, hp->e.exechdr.syms, hp->e.exechdr.spsz, hp->e.exechdr.pcsz, fp->datoff+fp->datsz);
+ return 1;
+}
+
+static void
+commonboot(Fhdr *fp)
+{
+ if (!(fp->entry & mach->ktmask))
+ return;
+
+ switch(fp->type) { /* boot image */
+ case F68020:
+ fp->type = F68020B;
+ fp->name = "68020 plan 9 boot image";
+ break;
+ case FI386:
+ fp->type = FI386B;
+ fp->txtaddr = (u32int)fp->entry;
+ fp->name = "386 plan 9 boot image";
+ fp->dataddr = _round(fp->txtaddr+fp->txtsz, mach->pgsize);
+ break;
+ case FARM:
+ fp->type = FARMB;
+ fp->txtaddr = (u32int)fp->entry;
+ fp->name = "ARM plan 9 boot image";
+ fp->dataddr = _round(fp->txtaddr+fp->txtsz, mach->pgsize);
+ return;
+ case FALPHA:
+ fp->type = FALPHAB;
+ fp->txtaddr = (u32int)fp->entry;
+ fp->name = "alpha plan 9 boot image";
+ fp->dataddr = fp->txtaddr+fp->txtsz;
+ break;
+ case FPOWER:
+ fp->type = FPOWERB;
+ fp->txtaddr = (u32int)fp->entry;
+ fp->name = "power plan 9 boot image";
+ fp->dataddr = fp->txtaddr+fp->txtsz;
+ break;
+ case FAMD64:
+ fp->type = FAMD64B;
+ fp->txtaddr = fp->entry;
+ fp->name = "amd64 plan 9 boot image";
+ fp->dataddr = _round(fp->txtaddr+fp->txtsz, mach->pgsize);
+ break;
+ default:
+ return;
+ }
+ fp->hdrsz = 0; /* header stripped */
+}
+
+/*
+ * _MAGIC() style headers and
+ * alpha plan9-style bootable images for axp "headerless" boot
+ *
+ */
+static int
+common(int fd, Fhdr *fp, ExecHdr *hp)
+{
+ adotout(fd, fp, hp);
+ if(hp->e.exechdr.magic & DYN_MAGIC) {
+ fp->txtaddr = 0;
+ fp->dataddr = fp->txtsz;
+ return 1;
+ }
+ commonboot(fp);
+ return 1;
+}
+
+static int
+commonllp64(int unused, Fhdr *fp, ExecHdr *hp)
+{
+ long pgsize;
+ uvlong entry;
+
+ hswal(&hp->e, sizeof(Exec)/sizeof(long), beswal);
+ if(!(hp->e.exechdr.magic & HDR_MAGIC))
+ return 0;
+
+ /*
+ * There can be more magic here if the
+ * header ever needs more expansion.
+ * For now just catch use of any of the
+ * unused bits.
+ */
+ if((hp->e.exechdr.magic & ~DYN_MAGIC)>>16)
+ return 0;
+ entry = beswav(*(uvlong*)&hp->e.exechdr);
+
+ pgsize = mach->pgsize;
+ settext(fp, entry, pgsize+fp->hdrsz, hp->e.exechdr.text, fp->hdrsz);
+ setdata(fp, _round(pgsize+fp->txtsz+fp->hdrsz, pgsize),
+ hp->e.exechdr.data, fp->txtsz+fp->hdrsz, hp->e.exechdr.bss);
+ setsym(fp, hp->e.exechdr.syms, hp->e.exechdr.spsz, hp->e.exechdr.pcsz, fp->datoff+fp->datsz);
+
+ if(hp->e.exechdr.magic & DYN_MAGIC) {
+ fp->txtaddr = 0;
+ fp->dataddr = fp->txtsz;
+ return 1;
+ }
+ commonboot(fp);
+ return 1;
+}
+
+/*
+ * mips bootable image.
+ */
+static int
+mipsboot(int fd, Fhdr *fp, ExecHdr *hp)
+{
+abort();
+#ifdef unused
+ USED(fd);
+ fp->type = FMIPSB;
+ switch(hp->e.exechdr.amagic) {
+ default:
+ case 0407: /* some kind of mips */
+ settext(fp, (u32int)hp->e.mentry, (u32int)hp->e.text_start,
+ hp->e.tsize, sizeof(struct mipsexec)+4);
+ setdata(fp, (u32int)hp->e.data_start, hp->e.dsize,
+ fp->txtoff+hp->e.tsize, hp->e.bsize);
+ break;
+ case 0413: /* some kind of mips */
+ settext(fp, (u32int)hp->e.mentry, (u32int)hp->e.text_start,
+ hp->e.tsize, 0);
+ setdata(fp, (u32int)hp->e.data_start, hp->e.dsize,
+ hp->e.tsize, hp->e.bsize);
+ break;
+ }
+ setsym(fp, hp->e.nsyms, 0, hp->e.pcsize, hp->e.symptr);
+ fp->hdrsz = 0; /* header stripped */
+#endif
+ return 1;
+}
+
+/*
+ * mips4k bootable image.
+ */
+static int
+mips4kboot(int fd, Fhdr *fp, ExecHdr *hp)
+{
+abort();
+#ifdef unused
+ USED(fd);
+ fp->type = FMIPSB;
+ switch(hp->e.h.amagic) {
+ default:
+ case 0407: /* some kind of mips */
+ settext(fp, (u32int)hp->e.h.mentry, (u32int)hp->e.h.text_start,
+ hp->e.h.tsize, sizeof(struct mips4kexec));
+ setdata(fp, (u32int)hp->e.h.data_start, hp->e.h.dsize,
+ fp->txtoff+hp->e.h.tsize, hp->e.h.bsize);
+ break;
+ case 0413: /* some kind of mips */
+ settext(fp, (u32int)hp->e.h.mentry, (u32int)hp->e.h.text_start,
+ hp->e.h.tsize, 0);
+ setdata(fp, (u32int)hp->e.h.data_start, hp->e.h.dsize,
+ hp->e.h.tsize, hp->e.h.bsize);
+ break;
+ }
+ setsym(fp, hp->e.h.nsyms, 0, hp->e.h.pcsize, hp->e.h.symptr);
+ fp->hdrsz = 0; /* header stripped */
+#endif
+ return 1;
+}
+
+/*
+ * sparc bootable image
+ */
+static int
+sparcboot(int fd, Fhdr *fp, ExecHdr *hp)
+{
+abort();
+#ifdef unused
+ USED(fd);
+ fp->type = FSPARCB;
+ settext(fp, hp->e.sentry, hp->e.sentry, hp->e.stext,
+ sizeof(struct sparcexec));
+ setdata(fp, hp->e.sentry+hp->e.stext, hp->e.sdata,
+ fp->txtoff+hp->e.stext, hp->e.sbss);
+ setsym(fp, hp->e.ssyms, 0, hp->e.sdrsize, fp->datoff+hp->e.sdata);
+ fp->hdrsz = 0; /* header stripped */
+#endif
+ return 1;
+}
+
+/*
+ * next bootable image
+ */
+static int
+nextboot(int fd, Fhdr *fp, ExecHdr *hp)
+{
+abort();
+#ifdef unused
+ USED(fd);
+ fp->type = FNEXTB;
+ settext(fp, hp->e.textc.vmaddr, hp->e.textc.vmaddr,
+ hp->e.texts.size, hp->e.texts.offset);
+ setdata(fp, hp->e.datac.vmaddr, hp->e.datas.size,
+ hp->e.datas.offset, hp->e.bsss.size);
+ setsym(fp, hp->e.symc.nsyms, hp->e.symc.spoff, hp->e.symc.pcoff,
+ hp->e.symc.symoff);
+ fp->hdrsz = 0; /* header stripped */
+#endif
+ return 1;
+}
+
+/*
+ * Elf32 and Elf64 binaries.
+ */
+static int
+elf64dotout(int fd, Fhdr *fp, ExecHdr *hp)
+{
+
+ uvlong (*swav)(uvlong);
+ ulong (*swal)(ulong);
+ ushort (*swab)(ushort);
+ Ehdr64 *ep;
+ Phdr64 *ph;
+ int i, it, id, is, phsz;
+
+ /* bitswap the header according to the DATA format */
+ ep = &hp->e.elfhdr64;
+ if(ep->ident[CLASS] != ELFCLASS64) {
+ werrstr("bad ELF class - not 32 bit or 64 bit");
+ return 0;
+ }
+ if(ep->ident[DATA] == ELFDATA2LSB) {
+ swab = leswab;
+ swal = leswal;
+ swav = leswav;
+ } else if(ep->ident[DATA] == ELFDATA2MSB) {
+ swab = beswab;
+ swal = beswal;
+ swav = beswav;
+ } else {
+ werrstr("bad ELF encoding - not big or little endian");
+ return 0;
+ }
+
+ ep->type = swab(ep->type);
+ ep->machine = swab(ep->machine);
+ ep->version = swal(ep->version);
+ ep->elfentry = swal(ep->elfentry);
+print("entry: 0x%x\n", ep->elfentry);
+ ep->phoff = swav(ep->phoff);
+ ep->shoff = swav(ep->shoff);
+ ep->flags = swav(ep->flags);
+ ep->ehsize = swab(ep->ehsize);
+ ep->phentsize = swab(ep->phentsize);
+ ep->phnum = swab(ep->phnum);
+ ep->shentsize = swab(ep->shentsize);
+ ep->shnum = swab(ep->shnum);
+ ep->shstrndx = swab(ep->shstrndx);
+ if(ep->type != EXEC || ep->version != CURRENT)
+ return 0;
+
+ /* we could definitely support a lot more machines here */
+ fp->magic = ELF_MAG;
+ fp->hdrsz = (ep->ehsize+ep->phnum*ep->phentsize+16)&~15;
+ switch(ep->machine) {
+ case I386:
+ mach = &mi386;
+ fp->type = FI386;
+ break;
+ case MIPS:
+ mach = &mmips;
+ fp->type = FMIPS;
+ break;
+ case SPARC64:
+ mach = &msparc64;
+ fp->type = FSPARC64;
+ break;
+ case POWER:
+ mach = &mpower;
+ fp->type = FPOWER;
+ break;
+ case AMD64:
+ mach = &mamd64;
+ fp->type = FAMD64;
+ break;
+ case ARM:
+ mach = &marm;
+ fp->type = FARM;
+ break;
+ default:
+ return 0;
+ }
+
+ if(ep->phentsize != sizeof(Phdr64)) {
+ werrstr("bad ELF header size");
+ return 0;
+ }
+ phsz = sizeof(Phdr64)*ep->phnum;
+ ph = malloc(phsz);
+ if(!ph)
+ return 0;
+ seek(fd, ep->phoff, 0);
+ if(read(fd, ph, phsz) < 0) {
+ free(ph);
+ return 0;
+ }
+ hswal(ph, phsz/sizeof(ulong), swal);
+
+ /* find text, data and symbols and install them */
+ it = id = is = -1;
+ for(i = 0; i < ep->phnum; i++) {
+ if(ph[i].type == LOAD
+ && (ph[i].flags & (R|X)) == (R|X) && it == -1)
+ it = i;
+ else if(ph[i].type == LOAD
+ && (ph[i].flags & (R|W)) == (R|W) && id == -1)
+ id = i;
+ else if(ph[i].type == NOPTYPE && is == -1)
+ is = i;
+ }
+ if(it == -1 || id == -1) {
+ /*
+ * The SPARC64 boot image is something of an ELF hack.
+ * Text+Data+BSS are represented by ph[0]. Symbols
+ * are represented by ph[1]:
+ *
+ * filesz, memsz, vaddr, paddr, off
+ * ph[0] : txtsz+datsz, txtsz+datsz+bsssz, txtaddr-KZERO, datasize, txtoff
+ * ph[1] : symsz, lcsz, 0, 0, symoff
+ */
+ if(ep->machine == SPARC64 && ep->phnum == 2) {
+ ulong txtaddr, txtsz, dataddr, bsssz;
+
+ txtaddr = ph[0].vaddr | 0x80000000;
+ txtsz = ph[0].filesz - ph[0].paddr;
+ dataddr = txtaddr + txtsz;
+ bsssz = ph[0].memsz - ph[0].filesz;
+ settext(fp, ep->elfentry | 0x80000000, txtaddr, txtsz, ph[0].offset);
+ setdata(fp, dataddr, ph[0].paddr, ph[0].offset + txtsz, bsssz);
+ setsym(fp, ph[1].filesz, 0, ph[1].memsz, ph[1].offset);
+ free(ph);
+ return 1;
+ }
+
+ werrstr("No TEXT or DATA sections");
+ free(ph);
+ return 0;
+ }
+
+ settext(fp, ep->elfentry, ph[it].vaddr, ph[it].memsz, ph[it].offset);
+ setdata(fp, ph[id].vaddr, ph[id].filesz, ph[id].offset, ph[id].memsz - ph[id].filesz);
+ if(is != -1)
+ setsym(fp, ph[is].filesz, 0, ph[is].memsz, ph[is].offset);
+ free(ph);
+ return 1;
+}
+
+static int
+elfdotout(int fd, Fhdr *fp, ExecHdr *hp)
+{
+
+ ulong (*swal)(ulong);
+ ushort (*swab)(ushort);
+ Ehdr32 *ep;
+ Phdr32 *ph;
+ int i, it, id, is, phsz;
+
+ /* bitswap the header according to the DATA format */
+ ep = &hp->e.elfhdr32;
+ if(ep->ident[CLASS] != ELFCLASS32) {
+ return elf64dotout(fd, fp, hp);
+ }
+ if(ep->ident[DATA] == ELFDATA2LSB) {
+ swab = leswab;
+ swal = leswal;
+ } else if(ep->ident[DATA] == ELFDATA2MSB) {
+ swab = beswab;
+ swal = beswal;
+ } else {
+ werrstr("bad ELF encoding - not big or little endian");
+ return 0;
+ }
+
+ ep->type = swab(ep->type);
+ ep->machine = swab(ep->machine);
+ ep->version = swal(ep->version);
+ ep->elfentry = swal(ep->elfentry);
+ ep->phoff = swal(ep->phoff);
+ ep->shoff = swal(ep->shoff);
+ ep->flags = swal(ep->flags);
+ ep->ehsize = swab(ep->ehsize);
+ ep->phentsize = swab(ep->phentsize);
+ ep->phnum = swab(ep->phnum);
+ ep->shentsize = swab(ep->shentsize);
+ ep->shnum = swab(ep->shnum);
+ ep->shstrndx = swab(ep->shstrndx);
+ if(ep->type != EXEC || ep->version != CURRENT)
+ return 0;
+
+ /* we could definitely support a lot more machines here */
+ fp->magic = ELF_MAG;
+ fp->hdrsz = (ep->ehsize+ep->phnum*ep->phentsize+16)&~15;
+ switch(ep->machine) {
+ case I386:
+ mach = &mi386;
+ fp->type = FI386;
+ break;
+ case MIPS:
+ mach = &mmips;
+ fp->type = FMIPS;
+ break;
+ case SPARC64:
+ mach = &msparc64;
+ fp->type = FSPARC64;
+ break;
+ case POWER:
+ mach = &mpower;
+ fp->type = FPOWER;
+ break;
+ case AMD64:
+ mach = &mamd64;
+ fp->type = FAMD64;
+ break;
+ case ARM:
+ mach = &marm;
+ fp->type = FARM;
+ break;
+ default:
+ return 0;
+ }
+
+ if(ep->phentsize != sizeof(Phdr32)) {
+ werrstr("bad ELF header size");
+ return 0;
+ }
+ phsz = sizeof(Phdr32)*ep->phnum;
+ ph = malloc(phsz);
+ if(!ph)
+ return 0;
+ seek(fd, ep->phoff, 0);
+ if(read(fd, ph, phsz) < 0) {
+ free(ph);
+ return 0;
+ }
+ hswal(ph, phsz/sizeof(ulong), swal);
+
+ /* find text, data and symbols and install them */
+ it = id = is = -1;
+ for(i = 0; i < ep->phnum; i++) {
+ if(ph[i].type == LOAD
+ && (ph[i].flags & (R|X)) == (R|X) && it == -1)
+ it = i;
+ else if(ph[i].type == LOAD
+ && (ph[i].flags & (R|W)) == (R|W) && id == -1)
+ id = i;
+ else if(ph[i].type == NOPTYPE && is == -1)
+ is = i;
+ }
+ if(it == -1 || id == -1) {
+ /*
+ * The SPARC64 boot image is something of an ELF hack.
+ * Text+Data+BSS are represented by ph[0]. Symbols
+ * are represented by ph[1]:
+ *
+ * filesz, memsz, vaddr, paddr, off
+ * ph[0] : txtsz+datsz, txtsz+datsz+bsssz, txtaddr-KZERO, datasize, txtoff
+ * ph[1] : symsz, lcsz, 0, 0, symoff
+ */
+ if(ep->machine == SPARC64 && ep->phnum == 2) {
+ ulong txtaddr, txtsz, dataddr, bsssz;
+
+ txtaddr = ph[0].vaddr | 0x80000000;
+ txtsz = ph[0].filesz - ph[0].paddr;
+ dataddr = txtaddr + txtsz;
+ bsssz = ph[0].memsz - ph[0].filesz;
+ settext(fp, ep->elfentry | 0x80000000, txtaddr, txtsz, ph[0].offset);
+ setdata(fp, dataddr, ph[0].paddr, ph[0].offset + txtsz, bsssz);
+ setsym(fp, ph[1].filesz, 0, ph[1].memsz, ph[1].offset);
+ free(ph);
+ return 1;
+ }
+
+ werrstr("No TEXT or DATA sections");
+ free(ph);
+ return 0;
+ }
+
+ settext(fp, ep->elfentry, ph[it].vaddr, ph[it].memsz, ph[it].offset);
+ setdata(fp, ph[id].vaddr, ph[id].filesz, ph[id].offset, ph[id].memsz - ph[id].filesz);
+ if(is != -1)
+ setsym(fp, ph[is].filesz, 0, ph[is].memsz, ph[is].offset);
+ free(ph);
+ return 1;
+}
+
+/*
+ * (Free|Net)BSD ARM header.
+ */
+static int
+armdotout(int fd, Fhdr *fp, ExecHdr *hp)
+{
+ uvlong kbase;
+
+ USED(fd);
+ settext(fp, hp->e.exechdr.entry, sizeof(Exec), hp->e.exechdr.text, sizeof(Exec));
+ setdata(fp, fp->txtsz, hp->e.exechdr.data, fp->txtsz, hp->e.exechdr.bss);
+ setsym(fp, hp->e.exechdr.syms, hp->e.exechdr.spsz, hp->e.exechdr.pcsz, fp->datoff+fp->datsz);
+
+ kbase = 0xF0000000;
+ if ((fp->entry & kbase) == kbase) { /* Boot image */
+ fp->txtaddr = kbase+sizeof(Exec);
+ fp->name = "ARM *BSD boot image";
+ fp->hdrsz = 0; /* header stripped */
+ fp->dataddr = kbase+fp->txtsz;
+ }
+ return 1;
+}
+
+static void
+settext(Fhdr *fp, uvlong e, uvlong a, long s, vlong off)
+{
+ fp->txtaddr = a;
+ fp->entry = e;
+ fp->txtsz = s;
+ fp->txtoff = off;
+}
+
+static void
+setdata(Fhdr *fp, uvlong a, long s, vlong off, long bss)
+{
+ fp->dataddr = a;
+ fp->datsz = s;
+ fp->datoff = off;
+ fp->bsssz = bss;
+}
+
+static void
+setsym(Fhdr *fp, long symsz, long sppcsz, long lnpcsz, vlong symoff)
+{
+ fp->symsz = symsz;
+ fp->symoff = symoff;
+ fp->sppcsz = sppcsz;
+ fp->sppcoff = fp->symoff+fp->symsz;
+ fp->lnpcsz = lnpcsz;
+ fp->lnpcoff = fp->sppcoff+fp->sppcsz;
+}
+
+
+static uvlong
+_round(uvlong a, ulong b)
+{
+ uvlong w;
+
+ w = (a/b)*b;
+ if (a!=w)
+ w += b;
+ return(w);
+}
