/* -----------------------------------------------------------------------------
- * $Id: Linker.c,v 1.123 2003/06/26 20:48:59 panne Exp $
*
- * (c) The GHC Team, 2000-2003
+ * (c) The GHC Team, 2000-2004
*
* RTS Object Linker
*
#if 0
#include "PosixSource.h"
#endif
+
+// Linux needs _GNU_SOURCE to get RTLD_DEFAULT from <dlfcn.h>.
+#ifdef __linux__
+#define _GNU_SOURCE
+#endif
+
#include "Rts.h"
#include "RtsFlags.h"
#include "HsFFI.h"
#include "Linker.h"
#include "LinkerInternals.h"
#include "RtsUtils.h"
-#include "StoragePriv.h"
#include "Schedule.h"
+#include "Storage.h"
#ifdef HAVE_SYS_TYPES_H
#include <sys/types.h>
#include <sys/wait.h>
#endif
-#if defined(ia64_TARGET_ARCH)
+#if defined(ia64_TARGET_ARCH) || defined(openbsd_TARGET_OS)
#define USE_MMAP
#include <fcntl.h>
#include <sys/mman.h>
+
+#if defined(openbsd_TARGET_OS)
+#ifdef HAVE_UNISTD_H
+#include <unistd.h>
+#endif
#endif
-#if defined(linux_TARGET_OS) || defined(solaris2_TARGET_OS) || defined(freebsd_TARGET_OS) || defined(netbsd_TARGET_OS)
+#endif
+
+#if defined(linux_TARGET_OS) || defined(solaris2_TARGET_OS) || defined(freebsd_TARGET_OS) || defined(netbsd_TARGET_OS) || defined(openbsd_TARGET_OS)
# define OBJFORMAT_ELF
#elif defined(cygwin32_TARGET_OS) || defined (mingw32_TARGET_OS)
# define OBJFORMAT_PEi386
# include <mach-o/loader.h>
# include <mach-o/nlist.h>
# include <mach-o/reloc.h>
+# include <mach-o/dyld.h>
#endif
/* Hash table mapping symbol names to Symbol */
static int ocVerifyImage_ELF ( ObjectCode* oc );
static int ocGetNames_ELF ( ObjectCode* oc );
static int ocResolve_ELF ( ObjectCode* oc );
+#if defined(powerpc_TARGET_ARCH)
+static int ocAllocateJumpIslands_ELF ( ObjectCode* oc );
+#endif
#elif defined(OBJFORMAT_PEi386)
static int ocVerifyImage_PEi386 ( ObjectCode* oc );
static int ocGetNames_PEi386 ( ObjectCode* oc );
static int ocResolve_PEi386 ( ObjectCode* oc );
#elif defined(OBJFORMAT_MACHO)
+static int ocAllocateJumpIslands_MachO ( ObjectCode* oc );
static int ocVerifyImage_MachO ( ObjectCode* oc );
static int ocGetNames_MachO ( ObjectCode* oc );
static int ocResolve_MachO ( ObjectCode* oc );
#define RTS_MINGW_ONLY_SYMBOLS /**/
/* Don't have the ability to read import libs / archives, so
* we have to stupidly list a lot of what libcygwin.a
- * exports; sigh.
+ * exports; sigh.
*/
#define RTS_CYGWIN_ONLY_SYMBOLS \
SymX(regfree) \
#if __GNUC__>=3
#define RTS_MINGW_EXTRA_SYMS \
Sym(_imp____mb_cur_max) \
- Sym(_imp___pctype)
+ Sym(_imp___pctype)
#else
#define RTS_MINGW_EXTRA_SYMS
#endif
#define RTS_MINGW_ONLY_SYMBOLS \
SymX(asyncReadzh_fast) \
SymX(asyncWritezh_fast) \
+ SymX(asyncDoProczh_fast) \
SymX(memset) \
SymX(inet_ntoa) \
SymX(inet_addr) \
# define MAIN_CAP_SYM
#endif
+#ifdef TABLES_NEXT_TO_CODE
+#define RTS_RET_SYMBOLS /* nothing */
+#else
+#define RTS_RET_SYMBOLS \
+ SymX(stg_enter_ret) \
+ SymX(stg_gc_fun_ret) \
+ SymX(stg_ap_0_ret) \
+ SymX(stg_ap_v_ret) \
+ SymX(stg_ap_f_ret) \
+ SymX(stg_ap_d_ret) \
+ SymX(stg_ap_l_ret) \
+ SymX(stg_ap_n_ret) \
+ SymX(stg_ap_p_ret) \
+ SymX(stg_ap_pv_ret) \
+ SymX(stg_ap_pp_ret) \
+ SymX(stg_ap_ppv_ret) \
+ SymX(stg_ap_ppp_ret) \
+ SymX(stg_ap_pppv_ret) \
+ SymX(stg_ap_pppp_ret) \
+ SymX(stg_ap_ppppp_ret) \
+ SymX(stg_ap_pppppp_ret)
+#endif
+
#define RTS_SYMBOLS \
Maybe_ForeignObj \
Maybe_Stable_Names \
Sym(StgReturn) \
SymX(stg_enter_info) \
- SymX(stg_enter_ret) \
SymX(stg_gc_void_info) \
SymX(__stg_gc_enter_1) \
SymX(stg_gc_noregs) \
SymX(stg_gc_l1) \
SymX(__stg_gc_fun) \
SymX(stg_gc_fun_info) \
- SymX(stg_gc_fun_ret) \
SymX(stg_gc_gen) \
SymX(stg_gc_gen_info) \
SymX(stg_gc_gen_hp) \
SymX(stg_block_takemvar) \
SymX(stg_block_putmvar) \
SymX(stg_seq_frame_info) \
- SymX(ErrorHdrHook) \
MAIN_CAP_SYM \
SymX(MallocFailHook) \
SymX(OnExitHook) \
SymX(OutOfHeapHook) \
- SymX(PatErrorHdrHook) \
- SymX(PostTraceHook) \
- SymX(PreTraceHook) \
SymX(StackOverflowHook) \
SymX(__encodeDouble) \
SymX(__encodeFloat) \
+ SymX(addDLL) \
SymX(__gmpn_gcd_1) \
SymX(__gmpz_cmp) \
SymX(__gmpz_cmp_si) \
SymX(__int_encodeDouble) \
SymX(__int_encodeFloat) \
SymX(andIntegerzh_fast) \
+ SymX(barf) \
SymX(blockAsyncExceptionszh_fast) \
SymX(catchzh_fast) \
+ SymX(closure_flags) \
SymX(cmp_thread) \
- SymX(complementIntegerzh_fast) \
SymX(cmpIntegerzh_fast) \
SymX(cmpIntegerIntzh_fast) \
+ SymX(complementIntegerzh_fast) \
SymX(createAdjustor) \
SymX(decodeDoublezh_fast) \
SymX(decodeFloatzh_fast) \
SymX(divExactIntegerzh_fast) \
SymX(divModIntegerzh_fast) \
SymX(forkzh_fast) \
- SymX(forkProcesszh_fast) \
+ SymX(forkProcess) \
+ SymX(forkOS_createThread) \
SymX(freeHaskellFunctionPtr) \
SymX(freeStablePtr) \
SymX(gcdIntegerzh_fast) \
SymX(gcdIntegerIntzh_fast) \
SymX(gcdIntzh_fast) \
+ SymX(genSymZh) \
+ SymX(genericRaise) \
SymX(getProgArgv) \
SymX(getStablePtr) \
+ SymX(initLinker) \
SymX(int2Integerzh_fast) \
SymX(integer2Intzh_fast) \
SymX(integer2Wordzh_fast) \
+ SymX(isCurrentThreadBoundzh_fast) \
SymX(isDoubleDenormalized) \
SymX(isDoubleInfinite) \
SymX(isDoubleNaN) \
SymX(isFloatNaN) \
SymX(isFloatNegativeZero) \
SymX(killThreadzh_fast) \
+ SymX(loadObj) \
+ SymX(lookupSymbol) \
SymX(makeStablePtrzh_fast) \
SymX(minusIntegerzh_fast) \
SymX(mkApUpd0zh_fast) \
SymX(newPinnedByteArrayzh_fast) \
SymX(orIntegerzh_fast) \
SymX(performGC) \
+ SymX(performMajorGC) \
SymX(plusIntegerzh_fast) \
SymX(prog_argc) \
SymX(prog_argv) \
SymX(quotIntegerzh_fast) \
SymX(quotRemIntegerzh_fast) \
SymX(raisezh_fast) \
+ SymX(raiseIOzh_fast) \
SymX(remIntegerzh_fast) \
SymX(resetNonBlockingFd) \
SymX(resumeThread) \
+ SymX(resolveObjs) \
SymX(rts_apply) \
SymX(rts_checkSchedStatus) \
SymX(rts_eval) \
SymX(rts_evalIO) \
SymX(rts_evalLazyIO) \
+ SymX(rts_evalStableIO) \
SymX(rts_eval_) \
SymX(rts_getBool) \
SymX(rts_getChar) \
SymX(rts_mkWord64) \
SymX(rts_mkWord8) \
SymX(rts_unlock) \
+ SymX(rtsSupportsBoundThreads) \
SymX(run_queue_hd) \
+ SymX(__hscore_get_saved_termios) \
+ SymX(__hscore_set_saved_termios) \
SymX(setProgArgv) \
SymX(startupHaskell) \
SymX(shutdownHaskell) \
SymX(stable_ptr_table) \
SymX(stackOverflow) \
SymX(stg_CAF_BLACKHOLE_info) \
+ SymX(stg_BLACKHOLE_BQ_info) \
+ SymX(awakenBlockedQueue) \
SymX(stg_CHARLIKE_closure) \
SymX(stg_EMPTY_MVAR_info) \
SymX(stg_IND_STATIC_info) \
SymX(stg_INTLIKE_closure) \
SymX(stg_MUT_ARR_PTRS_FROZEN_info) \
SymX(stg_WEAK_info) \
+ SymX(stg_ap_0_info) \
SymX(stg_ap_v_info) \
SymX(stg_ap_f_info) \
SymX(stg_ap_d_info) \
SymX(stg_ap_pp_info) \
SymX(stg_ap_ppv_info) \
SymX(stg_ap_ppp_info) \
+ SymX(stg_ap_pppv_info) \
SymX(stg_ap_pppp_info) \
SymX(stg_ap_ppppp_info) \
SymX(stg_ap_pppppp_info) \
- SymX(stg_ap_ppppppp_info) \
- SymX(stg_ap_0_ret) \
- SymX(stg_ap_v_ret) \
- SymX(stg_ap_f_ret) \
- SymX(stg_ap_d_ret) \
- SymX(stg_ap_l_ret) \
- SymX(stg_ap_n_ret) \
- SymX(stg_ap_p_ret) \
- SymX(stg_ap_pv_ret) \
- SymX(stg_ap_pp_ret) \
- SymX(stg_ap_ppv_ret) \
- SymX(stg_ap_ppp_ret) \
- SymX(stg_ap_pppp_ret) \
- SymX(stg_ap_ppppp_ret) \
- SymX(stg_ap_pppppp_ret) \
- SymX(stg_ap_ppppppp_ret) \
SymX(stg_ap_1_upd_info) \
SymX(stg_ap_2_upd_info) \
SymX(stg_ap_3_upd_info) \
SymX(stg_ap_5_upd_info) \
SymX(stg_ap_6_upd_info) \
SymX(stg_ap_7_upd_info) \
- SymX(stg_ap_8_upd_info) \
SymX(stg_exit) \
SymX(stg_sel_0_upd_info) \
SymX(stg_sel_10_upd_info) \
SymX(tryPutMVarzh_fast) \
SymX(tryTakeMVarzh_fast) \
SymX(unblockAsyncExceptionszh_fast) \
+ SymX(unloadObj) \
SymX(unsafeThawArrayzh_fast) \
SymX(waitReadzh_fast) \
SymX(waitWritezh_fast) \
#define SymX(vvv) /**/
#define SymX_redirect(vvv,xxx) /**/
RTS_SYMBOLS
+RTS_RET_SYMBOLS
RTS_LONG_LONG_SYMS
RTS_POSIX_ONLY_SYMBOLS
RTS_MINGW_ONLY_SYMBOLS
static RtsSymbolVal rtsSyms[] = {
RTS_SYMBOLS
+ RTS_RET_SYMBOLS
RTS_LONG_LONG_SYMS
RTS_POSIX_ONLY_SYMBOLS
RTS_MINGW_ONLY_SYMBOLS
insertStrHashTable(table, (StgWord)key, data);
return;
}
- fprintf(stderr,
+ debugBelch(
"\n\n"
"GHCi runtime linker: fatal error: I found a duplicate definition for symbol\n"
" %s\n"
static void *dl_prog_handle;
#endif
+/* dlopen(NULL,..) doesn't work so we grab libc explicitly */
+#if defined(openbsd_TARGET_OS)
+static void *dl_libc_handle;
+#endif
+
void
initLinker( void )
{
# endif
# if defined(OBJFORMAT_ELF) || defined(OBJFORMAT_MACHO)
+# if defined(RTLD_DEFAULT)
+ dl_prog_handle = RTLD_DEFAULT;
+# else
dl_prog_handle = dlopen(NULL, RTLD_LAZY);
+# if defined(openbsd_TARGET_OS)
+ dl_libc_handle = dlopen("libc.so", RTLD_LAZY);
+# endif
+# endif // RTLD_DEFAULT
# endif
}
* to give to loadSymbol, so that we can find the symbols. For such
* libraries, the LoadLibrary call should be a no-op except for returning
* the handle.
- *
+ *
*/
#if defined(OBJFORMAT_PEi386)
initLinker();
hdl= dlopen(dll_name, RTLD_NOW | RTLD_GLOBAL);
+
if (hdl == NULL) {
/* dlopen failed; return a ptr to the error msg. */
errmsg = dlerror();
initLinker();
- /* fprintf(stderr, "\naddDLL; dll_name = `%s'\n", dll_name); */
+ /* debugBelch("\naddDLL; dll_name = `%s'\n", dll_name); */
/* See if we've already got it, and ignore if so. */
for (o_dll = opened_dlls; o_dll != NULL; o_dll = o_dll->next) {
val = lookupStrHashTable(symhash, lbl);
if (val == NULL) {
-# if defined(OBJFORMAT_ELF) || defined(OBJFORMAT_MACHO)
+# if defined(OBJFORMAT_ELF)
+# if defined(openbsd_TARGET_OS)
+ val = dlsym(dl_prog_handle, lbl);
+ return (val != NULL) ? val : dlsym(dl_libc_handle,lbl);
+# else /* not openbsd */
return dlsym(dl_prog_handle, lbl);
+# endif
+# elif defined(OBJFORMAT_MACHO)
+ if(NSIsSymbolNameDefined(lbl)) {
+ NSSymbol symbol = NSLookupAndBindSymbol(lbl);
+ return NSAddressOfSymbol(symbol);
+ } else {
+ return NULL;
+ }
# elif defined(OBJFORMAT_PEi386)
OpenedDLL* o_dll;
void* sym;
for (o_dll = opened_dlls; o_dll != NULL; o_dll = o_dll->next) {
- /* fprintf(stderr, "look in %s for %s\n", o_dll->name, lbl); */
+ /* debugBelch("look in %s for %s\n", o_dll->name, lbl); */
if (lbl[0] == '_') {
/* HACK: if the name has an initial underscore, try stripping
it off & look that up first. I've yet to verify whether there's
*/
sym = GetProcAddress(o_dll->instance, (lbl+1));
if (sym != NULL) {
- /*fprintf(stderr, "found %s in %s\n", lbl+1,o_dll->name); fflush(stderr);*/
+ /*debugBelch("found %s in %s\n", lbl+1,o_dll->name);*/
return sym;
}
}
sym = GetProcAddress(o_dll->instance, lbl);
if (sym != NULL) {
- /*fprintf(stderr, "found %s in %s\n", lbl,o_dll->name); fflush(stderr);*/
+ /*debugBelch("found %s in %s\n", lbl,o_dll->name);*/
return sym;
}
}
for (i = 0; i < oc->n_symbols; i++) {
sym = oc->symbols[i];
if (sym == NULL) continue;
- // fprintf(stderr, "enquire %p %p\n", sym, oc->lochash);
+ // debugBelch("enquire %p %p\n", sym, oc->lochash);
a = NULL;
if (oc->lochash != NULL) {
a = lookupStrHashTable(oc->lochash, sym);
a = lookupStrHashTable(symhash, sym);
}
if (a == NULL) {
- // fprintf(stderr, "ghci_enquire: can't find %s\n", sym);
+ // debugBelch("ghci_enquire: can't find %s\n", sym);
}
else if (addr-DELTA <= a && a <= addr+DELTA) {
- fprintf(stderr, "%p + %3d == `%s'\n", addr, a - addr, sym);
+ debugBelch("%p + %3d == `%s'\n", addr, a - addr, sym);
}
}
}
int r, n;
#ifdef USE_MMAP
int fd, pagesize;
- void *map_addr;
+ void *map_addr = NULL;
#else
FILE *f;
#endif
initLinker();
- /* fprintf(stderr, "loadObj %s\n", path ); */
+ /* debugBelch("loadObj %s\n", path ); */
- /* Check that we haven't already loaded this object. Don't give up
- at this stage; ocGetNames_* will barf later. */
+ /* Check that we haven't already loaded this object.
+ Ignore requests to load multiple times */
{
ObjectCode *o;
int is_dup = 0;
for (o = objects; o; o = o->next) {
- if (0 == strcmp(o->fileName, path))
+ if (0 == strcmp(o->fileName, path)) {
is_dup = 1;
+ break; /* don't need to search further */
+ }
}
if (is_dup) {
- fprintf(stderr,
- "\n\n"
+ IF_DEBUG(linker, debugBelch(
"GHCi runtime linker: warning: looks like you're trying to load the\n"
"same object file twice:\n"
" %s\n"
- "GHCi will continue, but a duplicate-symbol error may shortly follow.\n"
- "\n"
- , path);
+ "GHCi will ignore this, but be warned.\n"
+ , path));
+ return 1; /* success */
}
}
/* On many architectures malloc'd memory isn't executable, so we need to use mmap. */
+#if defined(openbsd_TARGET_OS)
+ fd = open(path, O_RDONLY, S_IRUSR);
+#else
fd = open(path, O_RDONLY);
+#endif
if (fd == -1)
barf("loadObj: can't open `%s'", path);
#endif /* USE_MMAP */
+# if defined(OBJFORMAT_MACHO)
+ r = ocAllocateJumpIslands_MachO ( oc );
+ if (!r) { return r; }
+# elif defined(OBJFORMAT_ELF) && defined(powerpc_TARGET_ARCH)
+ r = ocAllocateJumpIslands_ELF ( oc );
+ if (!r) { return r; }
+#endif
+
/* verify the in-memory image */
# if defined(OBJFORMAT_ELF)
r = ocVerifyImage_ELF ( oc );
ASSERT(symhash != NULL);
ASSERT(objects != NULL);
- initLinker();
+ initLinker();
prev = NULL;
for (oc = objects; oc; prev = oc, oc = oc->next) {
}
}
- belch("unloadObj: can't find `%s' to unload", path);
+ errorBelch("unloadObj: can't find `%s' to unload", path);
return 0;
}
{
ProddableBlock* pb
= stgMallocBytes(sizeof(ProddableBlock), "addProddableBlock");
- /* fprintf(stderr, "aPB %p %p %d\n", oc, start, size); */
+ /* debugBelch("aPB %p %p %d\n", oc, start, size); */
ASSERT(size > 0);
pb->start = start;
pb->size = size;
s->next = oc->sections;
oc->sections = s;
/*
- fprintf(stderr, "addSection: %p-%p (size %d), kind %d\n",
+ debugBelch("addSection: %p-%p (size %d), kind %d\n",
start, ((char*)end)-1, end - start + 1, kind );
*/
}
+/* --------------------------------------------------------------------------
+ * PowerPC specifics (jump islands)
+ * ------------------------------------------------------------------------*/
+
+#if defined(powerpc_TARGET_ARCH)
+
+/*
+ ocAllocateJumpIslands
+
+ Allocate additional space at the end of the object file image to make room
+ for jump islands.
+
+ PowerPC relative branch instructions have a 24 bit displacement field.
+ As PPC code is always 4-byte-aligned, this yields a +-32MB range.
+ If a particular imported symbol is outside this range, we have to redirect
+ the jump to a short piece of new code that just loads the 32bit absolute
+ address and jumps there.
+ This function just allocates space for one 16 byte ppcJumpIsland for every
+ undefined symbol in the object file. The code for the islands is filled in by
+ makeJumpIsland below.
+*/
+
+static int ocAllocateJumpIslands( ObjectCode* oc, int count, int first )
+{
+ int aligned;
+
+ if( count > 0 )
+ {
+#ifdef USE_MMAP
+ #error ocAllocateJumpIslands doesnt want USE_MMAP to be defined
+#endif
+ // round up to the nearest 4
+ aligned = (oc->fileSize + 3) & ~3;
+
+ oc->image = stgReallocBytes( oc->image,
+ aligned + sizeof( ppcJumpIsland ) * count,
+ "ocAllocateJumpIslands" );
+ oc->jump_islands = (ppcJumpIsland *) (((char *) oc->image) + aligned);
+ memset( oc->jump_islands, 0, sizeof( ppcJumpIsland ) * count );
+ }
+ else
+ oc->jump_islands = NULL;
+
+ oc->island_start_symbol = first;
+ oc->n_islands = count;
+
+ return 1;
+}
+
+static unsigned long makeJumpIsland( ObjectCode* oc,
+ unsigned long symbolNumber,
+ unsigned long target )
+{
+ ppcJumpIsland *island;
+
+ if( symbolNumber < oc->island_start_symbol ||
+ symbolNumber - oc->island_start_symbol > oc->n_islands)
+ return 0;
+
+ island = &oc->jump_islands[symbolNumber - oc->island_start_symbol];
+
+ // lis r12, hi16(target)
+ island->lis_r12 = 0x3d80;
+ island->hi_addr = target >> 16;
+
+ // ori r12, r12, lo16(target)
+ island->ori_r12_r12 = 0x618c;
+ island->lo_addr = target & 0xffff;
+
+ // mtctr r12
+ island->mtctr_r12 = 0x7d8903a6;
+
+ // bctr
+ island->bctr = 0x4e800420;
+
+ return (unsigned long) island;
+}
+
+/*
+ ocFlushInstructionCache
+
+ Flush the data & instruction caches.
+ Because the PPC has split data/instruction caches, we have to
+ do that whenever we modify code at runtime.
+ */
+
+static void ocFlushInstructionCache( ObjectCode *oc )
+{
+ int n = (oc->fileSize + sizeof( ppcJumpIsland ) * oc->n_islands + 3) / 4;
+ unsigned long *p = (unsigned long *) oc->image;
+
+ while( n-- )
+ {
+ __asm__ volatile ( "dcbf 0,%0\n\t"
+ "sync\n\t"
+ "icbi 0,%0"
+ :
+ : "r" (p)
+ );
+ p++;
+ }
+ __asm__ volatile ( "sync\n\t"
+ "isync"
+ );
+}
+#endif
/* --------------------------------------------------------------------------
* PEi386 specifics (Win32 targets)
{
if (name[0]==0 && name[1]==0 && name[2]==0 && name[3]==0) {
UInt32 strtab_offset = * (UInt32*)(name+4);
- fprintf ( stderr, "%s", strtab + strtab_offset );
+ debugBelch("%s", strtab + strtab_offset );
} else {
int i;
for (i = 0; i < 8; i++) {
if (name[i] == 0) break;
- fprintf ( stderr, "%c", name[i] );
+ debugBelch("%c", name[i] );
}
}
}
COFF_section* sectab;
COFF_symbol* symtab;
UChar* strtab;
- /* fprintf(stderr, "\nLOADING %s\n", oc->fileName); */
+ /* debugBelch("\nLOADING %s\n", oc->fileName); */
hdr = (COFF_header*)(oc->image);
sectab = (COFF_section*) (
((UChar*)(oc->image))
+ hdr->NumberOfSymbols * sizeof_COFF_symbol;
if (hdr->Machine != 0x14c) {
- belch("Not x86 PEi386");
+ errorBelch("Not x86 PEi386");
return 0;
}
if (hdr->SizeOfOptionalHeader != 0) {
- belch("PEi386 with nonempty optional header");
+ errorBelch("PEi386 with nonempty optional header");
return 0;
}
if ( /* (hdr->Characteristics & MYIMAGE_FILE_RELOCS_STRIPPED) || */
(hdr->Characteristics & MYIMAGE_FILE_EXECUTABLE_IMAGE) ||
(hdr->Characteristics & MYIMAGE_FILE_DLL) ||
(hdr->Characteristics & MYIMAGE_FILE_SYSTEM) ) {
- belch("Not a PEi386 object file");
+ errorBelch("Not a PEi386 object file");
return 0;
}
if ( (hdr->Characteristics & MYIMAGE_FILE_BYTES_REVERSED_HI)
/* || !(hdr->Characteristics & MYIMAGE_FILE_32BIT_MACHINE) */ ) {
- belch("Invalid PEi386 word size or endiannness: %d",
+ errorBelch("Invalid PEi386 word size or endiannness: %d",
(int)(hdr->Characteristics));
return 0;
}
/* If the string table size is way crazy, this might indicate that
there are more than 64k relocations, despite claims to the
contrary. Hence this test. */
- /* fprintf(stderr, "strtab size %d\n", * (UInt32*)strtab); */
+ /* debugBelch("strtab size %d\n", * (UInt32*)strtab); */
#if 0
if ( (*(UInt32*)strtab) > 600000 ) {
/* Note that 600k has no special significance other than being
big enough to handle the almost-2MB-sized lumps that
constitute HSwin32*.o. */
- belch("PEi386 object has suspiciously large string table; > 64k relocs?");
+ debugBelch("PEi386 object has suspiciously large string table; > 64k relocs?");
return 0;
}
#endif
IF_DEBUG(linker, i=1);
if (i == 0) return 1;
- fprintf ( stderr,
- "sectab offset = %d\n", ((UChar*)sectab) - ((UChar*)hdr) );
- fprintf ( stderr,
- "symtab offset = %d\n", ((UChar*)symtab) - ((UChar*)hdr) );
- fprintf ( stderr,
- "strtab offset = %d\n", ((UChar*)strtab) - ((UChar*)hdr) );
-
- fprintf ( stderr, "\n" );
- fprintf ( stderr,
- "Machine: 0x%x\n", (UInt32)(hdr->Machine) );
- fprintf ( stderr,
- "# sections: %d\n", (UInt32)(hdr->NumberOfSections) );
- fprintf ( stderr,
- "time/date: 0x%x\n", (UInt32)(hdr->TimeDateStamp) );
- fprintf ( stderr,
- "symtab offset: %d\n", (UInt32)(hdr->PointerToSymbolTable) );
- fprintf ( stderr,
- "# symbols: %d\n", (UInt32)(hdr->NumberOfSymbols) );
- fprintf ( stderr,
- "sz of opt hdr: %d\n", (UInt32)(hdr->SizeOfOptionalHeader) );
- fprintf ( stderr,
- "characteristics: 0x%x\n", (UInt32)(hdr->Characteristics) );
+ debugBelch( "sectab offset = %d\n", ((UChar*)sectab) - ((UChar*)hdr) );
+ debugBelch( "symtab offset = %d\n", ((UChar*)symtab) - ((UChar*)hdr) );
+ debugBelch( "strtab offset = %d\n", ((UChar*)strtab) - ((UChar*)hdr) );
+
+ debugBelch("\n" );
+ debugBelch( "Machine: 0x%x\n", (UInt32)(hdr->Machine) );
+ debugBelch( "# sections: %d\n", (UInt32)(hdr->NumberOfSections) );
+ debugBelch( "time/date: 0x%x\n", (UInt32)(hdr->TimeDateStamp) );
+ debugBelch( "symtab offset: %d\n", (UInt32)(hdr->PointerToSymbolTable) );
+ debugBelch( "# symbols: %d\n", (UInt32)(hdr->NumberOfSymbols) );
+ debugBelch( "sz of opt hdr: %d\n", (UInt32)(hdr->SizeOfOptionalHeader) );
+ debugBelch( "characteristics: 0x%x\n", (UInt32)(hdr->Characteristics) );
/* Print the section table. */
- fprintf ( stderr, "\n" );
+ debugBelch("\n" );
for (i = 0; i < hdr->NumberOfSections; i++) {
COFF_reloc* reltab;
COFF_section* sectab_i
= (COFF_section*)
myindex ( sizeof_COFF_section, sectab, i );
- fprintf ( stderr,
+ debugBelch(
"\n"
"section %d\n"
" name `",
i
);
printName ( sectab_i->Name, strtab );
- fprintf ( stderr,
+ debugBelch(
"'\n"
" vsize %d\n"
" vaddr %d\n"
COFF_symbol* sym;
COFF_reloc* rel = (COFF_reloc*)
myindex ( sizeof_COFF_reloc, reltab, j );
- fprintf ( stderr,
+ debugBelch(
" type 0x%-4x vaddr 0x%-8x name `",
(UInt32)rel->Type,
rel->VirtualAddress );
myindex ( sizeof_COFF_symbol, symtab, rel->SymbolTableIndex );
/* Hmm..mysterious looking offset - what's it for? SOF */
printName ( sym->Name, strtab -10 );
- fprintf ( stderr, "'\n" );
+ debugBelch("'\n" );
}
- fprintf ( stderr, "\n" );
+ debugBelch("\n" );
}
- fprintf ( stderr, "\n" );
- fprintf ( stderr, "string table has size 0x%x\n", * (UInt32*)strtab );
- fprintf ( stderr, "---START of string table---\n");
+ debugBelch("\n" );
+ debugBelch("string table has size 0x%x\n", * (UInt32*)strtab );
+ debugBelch("---START of string table---\n");
for (i = 4; i < *(Int32*)strtab; i++) {
if (strtab[i] == 0)
- fprintf ( stderr, "\n"); else
- fprintf( stderr, "%c", strtab[i] );
+ debugBelch("\n"); else
+ debugBelch("%c", strtab[i] );
}
- fprintf ( stderr, "--- END of string table---\n");
+ debugBelch("--- END of string table---\n");
- fprintf ( stderr, "\n" );
+ debugBelch("\n" );
i = 0;
while (1) {
COFF_symbol* symtab_i;
if (i >= (Int32)(hdr->NumberOfSymbols)) break;
symtab_i = (COFF_symbol*)
myindex ( sizeof_COFF_symbol, symtab, i );
- fprintf ( stderr,
+ debugBelch(
"symbol %d\n"
" name `",
i
);
printName ( symtab_i->Name, strtab );
- fprintf ( stderr,
+ debugBelch(
"'\n"
" value 0x%x\n"
" 1+sec# %d\n"
i++;
}
- fprintf ( stderr, "\n" );
+ debugBelch("\n" );
return 1;
}
"ocGetNames_PEi386(anonymous bss)");
sectab_i->PointerToRawData = ((UChar*)zspace) - ((UChar*)(oc->image));
addProddableBlock(oc, zspace, sectab_i->VirtualSize);
- /* fprintf(stderr, "BSS anon section at 0x%x\n", zspace); */
+ /* debugBelch("BSS anon section at 0x%x\n", zspace); */
}
/* Copy section information into the ObjectCode. */
COFF_section* sectab_i
= (COFF_section*)
myindex ( sizeof_COFF_section, sectab, i );
- IF_DEBUG(linker, belch("section name = %s\n", sectab_i->Name ));
+ IF_DEBUG(linker, debugBelch("section name = %s\n", sectab_i->Name ));
# if 0
/* I'm sure this is the Right Way to do it. However, the
&& 0 != strcmp(".stab", sectab_i->Name)
&& 0 != strcmp(".stabstr", sectab_i->Name)
) {
- belch("Unknown PEi386 section name `%s'", sectab_i->Name);
+ errorBelch("Unknown PEi386 section name `%s'", sectab_i->Name);
return 0;
}
addSection(oc, SECTIONKIND_RWDATA, addr,
((UChar*)addr) + symtab_i->Value - 1);
addProddableBlock(oc, addr, symtab_i->Value);
- /* fprintf(stderr, "BSS section at 0x%x\n", addr); */
+ /* debugBelch("BSS section at 0x%x\n", addr); */
}
if (addr != NULL ) {
sname = cstring_from_COFF_symbol_name ( symtab_i->Name, strtab );
- /* fprintf(stderr,"addSymbol %p `%s \n", addr,sname); */
- IF_DEBUG(linker, belch("addSymbol %p `%s'\n", addr,sname);)
+ /* debugBelch("addSymbol %p `%s \n", addr,sname); */
+ IF_DEBUG(linker, debugBelch("addSymbol %p `%s'\n", addr,sname);)
ASSERT(i >= 0 && i < oc->n_symbols);
/* cstring_from_COFF_symbol_name always succeeds. */
oc->symbols[i] = sname;
ghciInsertStrHashTable(oc->fileName, symhash, sname, addr);
} else {
# if 0
- fprintf ( stderr,
+ debugBelch(
"IGNORING symbol %d\n"
" name `",
i
);
printName ( symtab_i->Name, strtab );
- fprintf ( stderr,
+ debugBelch(
"'\n"
" value 0x%x\n"
" 1+sec# %d\n"
/* ToDo: should be variable-sized? But is at least safe in the
sense of buffer-overrun-proof. */
char symbol[1000];
- /* fprintf(stderr, "resolving for %s\n", oc->fileName); */
+ /* debugBelch("resolving for %s\n", oc->fileName); */
hdr = (COFF_header*)(oc->image);
sectab = (COFF_section*) (
* real count can be found in the first reloc entry.
*
* See Section 4.1 (last para) of the PE spec (rev6.0).
+ *
+ * Nov2003 update: the GNU linker still doesn't correctly
+ * handle the generation of relocatable object files with
+ * overflown relocations. Hence the output to warn of potential
+ * troubles.
*/
COFF_reloc* rel = (COFF_reloc*)
myindex ( sizeof_COFF_reloc, reltab, 0 );
noRelocs = rel->VirtualAddress;
- fprintf(stderr, "Overflown relocs: %u\n", noRelocs);
+ debugBelch("WARNING: Overflown relocation field (# relocs found: %u)\n",
+ noRelocs);
j = 1;
} else {
noRelocs = sectab_i->NumberOfRelocations;
myindex ( sizeof_COFF_symbol,
symtab, reltab_j->SymbolTableIndex );
IF_DEBUG(linker,
- fprintf ( stderr,
+ debugBelch(
"reloc sec %2d num %3d: type 0x%-4x "
"vaddr 0x%-8x name `",
i, j,
(UInt32)reltab_j->Type,
reltab_j->VirtualAddress );
printName ( sym->Name, strtab );
- fprintf ( stderr, "'\n" ));
+ debugBelch("'\n" ));
if (sym->StorageClass == MYIMAGE_SYM_CLASS_STATIC) {
COFF_section* section_sym
= findPEi386SectionCalled ( oc, sym->Name );
if (!section_sym) {
- belch("%s: can't find section `%s'", oc->fileName, sym->Name);
+ errorBelch("%s: can't find section `%s'", oc->fileName, sym->Name);
return 0;
}
S = ((UInt32)(oc->image))
(void*)S = lookupSymbol( symbol );
if ((void*)S != NULL) goto foundit;
/* Newline first because the interactive linker has printed "linking..." */
- belch("\n%s: unknown symbol `%s'", oc->fileName, symbol);
+ errorBelch("\n%s: unknown symbol `%s'", oc->fileName, symbol);
return 0;
foundit:
}
*pP = S - ((UInt32)pP) - 4;
break;
default:
- belch("%s: unhandled PEi386 relocation type %d",
+ debugBelch("%s: unhandled PEi386 relocation type %d",
oc->fileName, reltab_j->Type);
return 0;
}
}
}
- IF_DEBUG(linker, belch("completed %s", oc->fileName));
+ IF_DEBUG(linker, debugBelch("completed %s", oc->fileName));
return 1;
}
# define ELF_TARGET_SPARC /* Used inside <elf.h> */
#elif defined(i386_TARGET_ARCH)
# define ELF_TARGET_386 /* Used inside <elf.h> */
+#elif defined(x86_64_TARGET_ARCH)
+# define ELF_TARGET_X64_64
+# define ELF_64BIT
#elif defined (ia64_TARGET_ARCH)
# define ELF_TARGET_IA64 /* Used inside <elf.h> */
# define ELF_64BIT
# define ELF_NEED_PLT /* needs Procedure Linkage Tables */
#endif
+#if !defined(openbsd_TARGET_OS)
#include <elf.h>
+#else
+/* openbsd elf has things in different places, with diff names */
+#include <elf_abi.h>
+#include <machine/reloc.h>
+#define R_386_32 RELOC_32
+#define R_386_PC32 RELOC_PC32
+#endif
/*
* Define a set of types which can be used for both ELF32 and ELF64
ehdr->e_ident[EI_MAG1] != ELFMAG1 ||
ehdr->e_ident[EI_MAG2] != ELFMAG2 ||
ehdr->e_ident[EI_MAG3] != ELFMAG3) {
- belch("%s: not an ELF object", oc->fileName);
+ errorBelch("%s: not an ELF object", oc->fileName);
return 0;
}
if (ehdr->e_ident[EI_CLASS] != ELFCLASS) {
- belch("%s: unsupported ELF format", oc->fileName);
+ errorBelch("%s: unsupported ELF format", oc->fileName);
return 0;
}
if (ehdr->e_ident[EI_DATA] == ELFDATA2LSB) {
- IF_DEBUG(linker,belch( "Is little-endian" ));
+ IF_DEBUG(linker,debugBelch( "Is little-endian" ));
} else
if (ehdr->e_ident[EI_DATA] == ELFDATA2MSB) {
- IF_DEBUG(linker,belch( "Is big-endian" ));
+ IF_DEBUG(linker,debugBelch( "Is big-endian" ));
} else {
- belch("%s: unknown endiannness", oc->fileName);
+ errorBelch("%s: unknown endiannness", oc->fileName);
return 0;
}
if (ehdr->e_type != ET_REL) {
- belch("%s: not a relocatable object (.o) file", oc->fileName);
+ errorBelch("%s: not a relocatable object (.o) file", oc->fileName);
return 0;
}
- IF_DEBUG(linker, belch( "Is a relocatable object (.o) file" ));
+ IF_DEBUG(linker, debugBelch( "Is a relocatable object (.o) file" ));
- IF_DEBUG(linker,belch( "Architecture is " ));
+ IF_DEBUG(linker,debugBelch( "Architecture is " ));
switch (ehdr->e_machine) {
- case EM_386: IF_DEBUG(linker,belch( "x86" )); break;
- case EM_SPARC: IF_DEBUG(linker,belch( "sparc" )); break;
+ case EM_386: IF_DEBUG(linker,debugBelch( "x86" )); break;
+ case EM_SPARC: IF_DEBUG(linker,debugBelch( "sparc" )); break;
#ifdef EM_IA_64
- case EM_IA_64: IF_DEBUG(linker,belch( "ia64" )); break;
+ case EM_IA_64: IF_DEBUG(linker,debugBelch( "ia64" )); break;
#endif
- default: IF_DEBUG(linker,belch( "unknown" ));
- belch("%s: unknown architecture", oc->fileName);
+ case EM_PPC: IF_DEBUG(linker,debugBelch( "powerpc32" )); break;
+ default: IF_DEBUG(linker,debugBelch( "unknown" ));
+ errorBelch("%s: unknown architecture", oc->fileName);
return 0;
}
- IF_DEBUG(linker,belch(
+ IF_DEBUG(linker,debugBelch(
"\nSection header table: start %d, n_entries %d, ent_size %d",
ehdr->e_shoff, ehdr->e_shnum, ehdr->e_shentsize ));
shdr = (Elf_Shdr*) (ehdrC + ehdr->e_shoff);
if (ehdr->e_shstrndx == SHN_UNDEF) {
- belch("%s: no section header string table", oc->fileName);
+ errorBelch("%s: no section header string table", oc->fileName);
return 0;
} else {
- IF_DEBUG(linker,belch( "Section header string table is section %d",
+ IF_DEBUG(linker,debugBelch( "Section header string table is section %d",
ehdr->e_shstrndx));
sh_strtab = ehdrC + shdr[ehdr->e_shstrndx].sh_offset;
}
for (i = 0; i < ehdr->e_shnum; i++) {
- IF_DEBUG(linker,fprintf(stderr, "%2d: ", i ));
- IF_DEBUG(linker,fprintf(stderr, "type=%2d ", (int)shdr[i].sh_type ));
- IF_DEBUG(linker,fprintf(stderr, "size=%4d ", (int)shdr[i].sh_size ));
- IF_DEBUG(linker,fprintf(stderr, "offs=%4d ", (int)shdr[i].sh_offset ));
- IF_DEBUG(linker,fprintf(stderr, " (%p .. %p) ",
+ IF_DEBUG(linker,debugBelch("%2d: ", i ));
+ IF_DEBUG(linker,debugBelch("type=%2d ", (int)shdr[i].sh_type ));
+ IF_DEBUG(linker,debugBelch("size=%4d ", (int)shdr[i].sh_size ));
+ IF_DEBUG(linker,debugBelch("offs=%4d ", (int)shdr[i].sh_offset ));
+ IF_DEBUG(linker,debugBelch(" (%p .. %p) ",
ehdrC + shdr[i].sh_offset,
ehdrC + shdr[i].sh_offset + shdr[i].sh_size - 1));
if (shdr[i].sh_type == SHT_REL) {
- IF_DEBUG(linker,fprintf(stderr, "Rel " ));
+ IF_DEBUG(linker,debugBelch("Rel " ));
} else if (shdr[i].sh_type == SHT_RELA) {
- IF_DEBUG(linker,fprintf(stderr, "RelA " ));
+ IF_DEBUG(linker,debugBelch("RelA " ));
} else {
- IF_DEBUG(linker,fprintf(stderr," "));
+ IF_DEBUG(linker,debugBelch(" "));
}
if (sh_strtab) {
- IF_DEBUG(linker,fprintf(stderr, "sname=%s\n", sh_strtab + shdr[i].sh_name ));
+ IF_DEBUG(linker,debugBelch("sname=%s\n", sh_strtab + shdr[i].sh_name ));
}
}
- IF_DEBUG(linker,belch( "\nString tables" ));
+ IF_DEBUG(linker,debugBelch( "\nString tables" ));
strtab = NULL;
nstrtab = 0;
for (i = 0; i < ehdr->e_shnum; i++) {
debugging info. */
&& 0 != memcmp(".stabstr", sh_strtab + shdr[i].sh_name, 8)
) {
- IF_DEBUG(linker,belch(" section %d is a normal string table", i ));
+ IF_DEBUG(linker,debugBelch(" section %d is a normal string table", i ));
strtab = ehdrC + shdr[i].sh_offset;
nstrtab++;
}
}
if (nstrtab != 1) {
- belch("%s: no string tables, or too many", oc->fileName);
+ errorBelch("%s: no string tables, or too many", oc->fileName);
return 0;
}
nsymtabs = 0;
- IF_DEBUG(linker,belch( "\nSymbol tables" ));
+ IF_DEBUG(linker,debugBelch( "\nSymbol tables" ));
for (i = 0; i < ehdr->e_shnum; i++) {
if (shdr[i].sh_type != SHT_SYMTAB) continue;
- IF_DEBUG(linker,belch( "section %d is a symbol table", i ));
+ IF_DEBUG(linker,debugBelch( "section %d is a symbol table", i ));
nsymtabs++;
stab = (Elf_Sym*) (ehdrC + shdr[i].sh_offset);
nent = shdr[i].sh_size / sizeof(Elf_Sym);
- IF_DEBUG(linker,belch( " number of entries is apparently %d (%d rem)",
+ IF_DEBUG(linker,debugBelch( " number of entries is apparently %d (%d rem)",
nent,
shdr[i].sh_size % sizeof(Elf_Sym)
));
if (0 != shdr[i].sh_size % sizeof(Elf_Sym)) {
- belch("%s: non-integral number of symbol table entries", oc->fileName);
+ errorBelch("%s: non-integral number of symbol table entries", oc->fileName);
return 0;
}
for (j = 0; j < nent; j++) {
- IF_DEBUG(linker,fprintf(stderr, " %2d ", j ));
- IF_DEBUG(linker,fprintf(stderr, " sec=%-5d size=%-3d val=%5p ",
+ IF_DEBUG(linker,debugBelch(" %2d ", j ));
+ IF_DEBUG(linker,debugBelch(" sec=%-5d size=%-3d val=%5p ",
(int)stab[j].st_shndx,
(int)stab[j].st_size,
(char*)stab[j].st_value ));
- IF_DEBUG(linker,fprintf(stderr, "type=" ));
+ IF_DEBUG(linker,debugBelch("type=" ));
switch (ELF_ST_TYPE(stab[j].st_info)) {
- case STT_NOTYPE: IF_DEBUG(linker,fprintf(stderr, "notype " )); break;
- case STT_OBJECT: IF_DEBUG(linker,fprintf(stderr, "object " )); break;
- case STT_FUNC : IF_DEBUG(linker,fprintf(stderr, "func " )); break;
- case STT_SECTION: IF_DEBUG(linker,fprintf(stderr, "section" )); break;
- case STT_FILE: IF_DEBUG(linker,fprintf(stderr, "file " )); break;
- default: IF_DEBUG(linker,fprintf(stderr, "? " )); break;
+ case STT_NOTYPE: IF_DEBUG(linker,debugBelch("notype " )); break;
+ case STT_OBJECT: IF_DEBUG(linker,debugBelch("object " )); break;
+ case STT_FUNC : IF_DEBUG(linker,debugBelch("func " )); break;
+ case STT_SECTION: IF_DEBUG(linker,debugBelch("section" )); break;
+ case STT_FILE: IF_DEBUG(linker,debugBelch("file " )); break;
+ default: IF_DEBUG(linker,debugBelch("? " )); break;
}
- IF_DEBUG(linker,fprintf(stderr, " " ));
+ IF_DEBUG(linker,debugBelch(" " ));
- IF_DEBUG(linker,fprintf(stderr, "bind=" ));
+ IF_DEBUG(linker,debugBelch("bind=" ));
switch (ELF_ST_BIND(stab[j].st_info)) {
- case STB_LOCAL : IF_DEBUG(linker,fprintf(stderr, "local " )); break;
- case STB_GLOBAL: IF_DEBUG(linker,fprintf(stderr, "global" )); break;
- case STB_WEAK : IF_DEBUG(linker,fprintf(stderr, "weak " )); break;
- default: IF_DEBUG(linker,fprintf(stderr, "? " )); break;
+ case STB_LOCAL : IF_DEBUG(linker,debugBelch("local " )); break;
+ case STB_GLOBAL: IF_DEBUG(linker,debugBelch("global" )); break;
+ case STB_WEAK : IF_DEBUG(linker,debugBelch("weak " )); break;
+ default: IF_DEBUG(linker,debugBelch("? " )); break;
}
- IF_DEBUG(linker,fprintf(stderr, " " ));
+ IF_DEBUG(linker,debugBelch(" " ));
- IF_DEBUG(linker,fprintf(stderr, "name=%s\n", strtab + stab[j].st_name ));
+ IF_DEBUG(linker,debugBelch("name=%s\n", strtab + stab[j].st_name ));
}
}
if (nsymtabs == 0) {
- belch("%s: didn't find any symbol tables", oc->fileName);
+ errorBelch("%s: didn't find any symbol tables", oc->fileName);
return 0;
}
ASSERT(symhash != NULL);
if (!strtab) {
- belch("%s: no strtab", oc->fileName);
+ errorBelch("%s: no strtab", oc->fileName);
return 0;
}
"ocGetNames_ELF(BSS)");
shdr[i].sh_offset = ((char*)zspace) - ((char*)ehdrC);
/*
- fprintf(stderr, "BSS section at 0x%x, size %d\n",
+ debugBelch("BSS section at 0x%x, size %d\n",
zspace, shdr[i].sh_size);
*/
}
isLocal = FALSE;
ad = stgCallocBytes(1, stab[j].st_size, "ocGetNames_ELF(COMMON)");
/*
- fprintf(stderr, "COMMON symbol, size %d name %s\n",
+ debugBelch("COMMON symbol, size %d name %s\n",
stab[j].st_size, nm);
*/
/* Pointless to do addProddableBlock() for this area,
ASSERT(secno > 0 && secno < ehdr->e_shnum);
/*
if (shdr[secno].sh_type == SHT_NOBITS) {
- fprintf(stderr, " BSS symbol, size %d off %d name %s\n",
+ debugBelch(" BSS symbol, size %d off %d name %s\n",
stab[j].st_size, stab[j].st_value, nm);
}
*/
if (ELF_ST_TYPE(stab[j].st_info) == STT_FUNC)
ad = (char *)allocateFunctionDesc((Elf_Addr)ad);
#endif
- IF_DEBUG(linker,belch( "addOTabName(GLOB): %10p %s %s",
+ IF_DEBUG(linker,debugBelch( "addOTabName(GLOB): %10p %s %s",
ad, oc->fileName, nm ));
isLocal = FALSE;
}
}
} else {
/* Skip. */
- IF_DEBUG(linker,belch( "skipping `%s'",
+ IF_DEBUG(linker,debugBelch( "skipping `%s'",
strtab + stab[j].st_name ));
/*
- fprintf(stderr,
+ debugBelch(
"skipping bind = %d, type = %d, shndx = %d `%s'\n",
(int)ELF_ST_BIND(stab[j].st_info),
(int)ELF_ST_TYPE(stab[j].st_info),
stab = (Elf_Sym*) (ehdrC + shdr[ symtab_shndx ].sh_offset);
targ = (Elf_Word*)(ehdrC + shdr[ target_shndx ].sh_offset);
- IF_DEBUG(linker,belch( "relocations for section %d using symtab %d",
+ IF_DEBUG(linker,debugBelch( "relocations for section %d using symtab %d",
target_shndx, symtab_shndx ));
for (j = 0; j < nent; j++) {
Elf_Word* pP = (Elf_Word*)P;
Elf_Addr A = *pP;
Elf_Addr S;
+ void* S_tmp;
Elf_Addr value;
- IF_DEBUG(linker,belch( "Rel entry %3d is raw(%6p %6p)",
+ IF_DEBUG(linker,debugBelch( "Rel entry %3d is raw(%6p %6p)",
j, (void*)offset, (void*)info ));
if (!info) {
- IF_DEBUG(linker,belch( " ZERO" ));
+ IF_DEBUG(linker,debugBelch( " ZERO" ));
S = 0;
} else {
Elf_Sym sym = stab[ELF_R_SYM(info)];
} else {
/* No, so look up the name in our global table. */
symbol = strtab + sym.st_name;
- (void*)S = lookupSymbol( symbol );
+ S_tmp = lookupSymbol( symbol );
+ S = (Elf_Addr)S_tmp;
}
if (!S) {
- belch("%s: unknown symbol `%s'", oc->fileName, symbol);
+ errorBelch("%s: unknown symbol `%s'", oc->fileName, symbol);
return 0;
}
- IF_DEBUG(linker,belch( "`%s' resolves to %p", symbol, (void*)S ));
+ IF_DEBUG(linker,debugBelch( "`%s' resolves to %p", symbol, (void*)S ));
}
- IF_DEBUG(linker,belch( "Reloc: P = %p S = %p A = %p",
+ IF_DEBUG(linker,debugBelch( "Reloc: P = %p S = %p A = %p",
(void*)P, (void*)S, (void*)A ));
checkProddableBlock ( oc, pP );
case R_386_PC32: *pP = value - P; break;
# endif
default:
- belch("%s: unhandled ELF relocation(Rel) type %d\n",
+ errorBelch("%s: unhandled ELF relocation(Rel) type %d\n",
oc->fileName, ELF_R_TYPE(info));
return 0;
}
stab = (Elf_Sym*) (ehdrC + shdr[ symtab_shndx ].sh_offset);
targ = (Elf_Addr) (ehdrC + shdr[ target_shndx ].sh_offset);
- IF_DEBUG(linker,belch( "relocations for section %d using symtab %d",
+ IF_DEBUG(linker,debugBelch( "relocations for section %d using symtab %d",
target_shndx, symtab_shndx ));
for (j = 0; j < nent; j++) {
-#if defined(DEBUG) || defined(sparc_TARGET_ARCH) || defined(ia64_TARGET_ARCH)
+#if defined(DEBUG) || defined(sparc_TARGET_ARCH) || defined(ia64_TARGET_ARCH) || defined(powerpc_TARGET_ARCH)
/* This #ifdef only serves to avoid unused-var warnings. */
Elf_Addr offset = rtab[j].r_offset;
Elf_Addr P = targ + offset;
Elf_Addr info = rtab[j].r_info;
Elf_Addr A = rtab[j].r_addend;
Elf_Addr S;
+ void* S_tmp;
Elf_Addr value;
# if defined(sparc_TARGET_ARCH)
Elf_Word* pP = (Elf_Word*)P;
# elif defined(ia64_TARGET_ARCH)
Elf64_Xword *pP = (Elf64_Xword *)P;
Elf_Addr addr;
+# elif defined(powerpc_TARGET_ARCH)
+ Elf_Sword delta;
# endif
- IF_DEBUG(linker,belch( "Rel entry %3d is raw(%6p %6p %6p) ",
+ IF_DEBUG(linker,debugBelch( "Rel entry %3d is raw(%6p %6p %6p) ",
j, (void*)offset, (void*)info,
(void*)A ));
if (!info) {
- IF_DEBUG(linker,belch( " ZERO" ));
+ IF_DEBUG(linker,debugBelch( " ZERO" ));
S = 0;
} else {
Elf_Sym sym = stab[ELF_R_SYM(info)];
} else {
/* No, so look up the name in our global table. */
symbol = strtab + sym.st_name;
- (void*)S = lookupSymbol( symbol );
+ S_tmp = lookupSymbol( symbol );
+ S = (Elf_Addr)S_tmp;
#ifdef ELF_FUNCTION_DESC
/* If a function, already a function descriptor - we would
have to copy it to add an offset. */
if (S && (ELF_ST_TYPE(sym.st_info) == STT_FUNC) && (A != 0))
- belch("%s: function %s with addend %p", oc->fileName, symbol, (void *)A);
+ errorBelch("%s: function %s with addend %p", oc->fileName, symbol, (void *)A);
#endif
}
if (!S) {
- belch("%s: unknown symbol `%s'", oc->fileName, symbol);
+ errorBelch("%s: unknown symbol `%s'", oc->fileName, symbol);
return 0;
}
- IF_DEBUG(linker,belch( "`%s' resolves to %p", symbol, (void*)S ));
+ IF_DEBUG(linker,debugBelch( "`%s' resolves to %p", symbol, (void*)S ));
}
- IF_DEBUG(linker,fprintf ( stderr, "Reloc: P = %p S = %p A = %p\n",
+ IF_DEBUG(linker,debugBelch("Reloc: P = %p S = %p A = %p\n",
(void*)P, (void*)S, (void*)A ));
/* checkProddableBlock ( oc, (void*)P ); */
/* This goes with R_IA64_LTOFF22X and points to the load to
* convert into a move. We don't implement relaxation. */
break;
+# elif defined(powerpc_TARGET_ARCH)
+ case R_PPC_ADDR16_LO:
+ *(Elf32_Half*) P = value;
+ break;
+
+ case R_PPC_ADDR16_HI:
+ *(Elf32_Half*) P = value >> 16;
+ break;
+
+ case R_PPC_ADDR16_HA:
+ *(Elf32_Half*) P = (value + 0x8000) >> 16;
+ break;
+
+ case R_PPC_ADDR32:
+ *(Elf32_Word *) P = value;
+ break;
+
+ case R_PPC_REL32:
+ *(Elf32_Word *) P = value - P;
+ break;
+
+ case R_PPC_REL24:
+ delta = value - P;
+
+ if( delta << 6 >> 6 != delta )
+ {
+ value = makeJumpIsland( oc, ELF_R_SYM(info), value );
+ delta = value - P;
+
+ if( value == 0 || delta << 6 >> 6 != delta )
+ {
+ barf( "Unable to make ppcJumpIsland for #%d",
+ ELF_R_SYM(info) );
+ return 0;
+ }
+ }
+
+ *(Elf_Word *) P = (*(Elf_Word *) P & 0xfc000003)
+ | (delta & 0x3fffffc);
+ break;
# endif
default:
- belch("%s: unhandled ELF relocation(RelA) type %d\n",
+ errorBelch("%s: unhandled ELF relocation(RelA) type %d\n",
oc->fileName, ELF_R_TYPE(info));
return 0;
}
strtab = findElfSection ( ehdrC, SHT_STRTAB );
if (stab == NULL || strtab == NULL) {
- belch("%s: can't find string or symbol table", oc->fileName);
+ errorBelch("%s: can't find string or symbol table", oc->fileName);
return 0;
}
freeHashTable(oc->lochash, NULL);
oc->lochash = NULL;
+#if defined(powerpc_TARGET_ARCH)
+ ocFlushInstructionCache( oc );
+#endif
+
return 1;
}
#endif /* ia64 */
+/*
+ * PowerPC ELF specifics
+ */
+
+#ifdef powerpc_TARGET_ARCH
+
+static int ocAllocateJumpIslands_ELF( ObjectCode *oc )
+{
+ Elf_Ehdr *ehdr;
+ Elf_Shdr* shdr;
+ int i;
+
+ ehdr = (Elf_Ehdr *) oc->image;
+ shdr = (Elf_Shdr *) ( ((char *)oc->image) + ehdr->e_shoff );
+
+ for( i = 0; i < ehdr->e_shnum; i++ )
+ if( shdr[i].sh_type == SHT_SYMTAB )
+ break;
+
+ if( i == ehdr->e_shnum )
+ {
+ errorBelch( "This ELF file contains no symtab" );
+ return 0;
+ }
+
+ if( shdr[i].sh_entsize != sizeof( Elf_Sym ) )
+ {
+ errorBelch( "The entry size (%d) of the symtab isn't %d\n",
+ shdr[i].sh_entsize, sizeof( Elf_Sym ) );
+
+ return 0;
+ }
+
+ return ocAllocateJumpIslands( oc, shdr[i].sh_size / sizeof( Elf_Sym ), 0 );
+}
+
+#endif /* powerpc */
+
#endif /* ELF */
/* --------------------------------------------------------------------------
#if defined(OBJFORMAT_MACHO)
/*
- Initial support for MachO linking on Darwin/MacOS X on PowerPC chips
+ Support for MachO linking on Darwin/MacOS X on PowerPC chips
by Wolfgang Thaller (wolfgang.thaller@gmx.net)
-
+
I hereby formally apologize for the hackish nature of this code.
Things that need to be done:
- *) get common symbols and .bss sections to work properly.
- Haskell modules seem to work, but C modules can cause problems
*) implement ocVerifyImage_MachO
- *) add more sanity checks. The current code just has to segfault if there's a
- broken .o file.
+ *) add still more sanity checks.
*/
+static int ocAllocateJumpIslands_MachO(ObjectCode* oc)
+{
+ struct mach_header *header = (struct mach_header *) oc->image;
+ struct load_command *lc = (struct load_command *) (header + 1);
+ unsigned i;
+
+ for( i = 0; i < header->ncmds; i++ )
+ {
+ if( lc->cmd == LC_DYSYMTAB )
+ {
+ struct dysymtab_command *dsymLC = (struct dysymtab_command *) lc;
+
+ if( !ocAllocateJumpIslands( oc, dsymLC->nundefsym,
+ dsymLC->iundefsym ) )
+ return 0;
+
+ break; // there can be only one LC_DSYMTAB
+ }
+ lc = (struct load_command *) ( ((char *)lc) + lc->cmdsize );
+ }
+ return 1;
+}
+
static int ocVerifyImage_MachO(ObjectCode* oc)
{
// FIXME: do some verifying here
struct nlist *nlist)
{
unsigned i;
-
+
for(i=0;i*4<sect->size;i++)
{
// according to otool, reserved1 contains the first index into the indirect symbol table
struct nlist *symbol = &nlist[indirectSyms[sect->reserved1+i]];
char *nm = image + symLC->stroff + symbol->n_un.n_strx;
void *addr = NULL;
-
+
if((symbol->n_type & N_TYPE) == N_UNDF
&& (symbol->n_type & N_EXT) && (symbol->n_value != 0))
addr = (void*) (symbol->n_value);
addr = lookupSymbol(nm);
if(!addr)
{
- belch("\n%s: unknown symbol `%s'", oc->fileName, nm);
+ errorBelch("\n%s: unknown symbol `%s'", oc->fileName, nm);
return 0;
}
ASSERT(addr);
+ checkProddableBlock(oc,((void**)(image + sect->offset)) + i);
((void**)(image + sect->offset))[i] = addr;
}
-
+
return 1;
}
-static int relocateSection(char *image,
+static char* relocateAddress(
+ ObjectCode* oc,
+ int nSections,
+ struct section* sections,
+ unsigned long address)
+{
+ int i;
+ for(i = 0; i < nSections; i++)
+ {
+ if(sections[i].addr <= address
+ && address < sections[i].addr + sections[i].size)
+ {
+ return oc->image + sections[i].offset + address - sections[i].addr;
+ }
+ }
+ barf("Invalid Mach-O file:"
+ "Address out of bounds while relocating object file");
+ return NULL;
+}
+
+static int relocateSection(
+ ObjectCode* oc,
+ char *image,
struct symtab_command *symLC, struct nlist *nlist,
- struct section* sections, struct section *sect)
+ int nSections, struct section* sections, struct section *sect)
{
struct relocation_info *relocs;
int i,n;
-
+
if(!strcmp(sect->sectname,"__la_symbol_ptr"))
return 1;
else if(!strcmp(sect->sectname,"__nl_symbol_ptr"))
n = sect->nreloc;
relocs = (struct relocation_info*) (image + sect->reloff);
-
+
for(i=0;i<n;i++)
{
if(relocs[i].r_address & R_SCATTERED)
{
struct scattered_relocation_info *scat =
(struct scattered_relocation_info*) &relocs[i];
-
+
if(!scat->r_pcrel)
{
- if(scat->r_length == 2 && scat->r_type == GENERIC_RELOC_VANILLA)
+ if(scat->r_length == 2)
{
- unsigned long* word = (unsigned long*) (image + sect->offset + scat->r_address);
-
- *word = scat->r_value + sect->offset + ((long) image);
+ unsigned long word = 0;
+ unsigned long* wordPtr = (unsigned long*) (image + sect->offset + scat->r_address);
+ checkProddableBlock(oc,wordPtr);
+
+ // Step 1: Figure out what the relocated value should be
+ if(scat->r_type == GENERIC_RELOC_VANILLA)
+ {
+ word = *wordPtr + (unsigned long) relocateAddress(
+ oc,
+ nSections,
+ sections,
+ scat->r_value)
+ - scat->r_value;
+ }
+ else if(scat->r_type == PPC_RELOC_SECTDIFF
+ || scat->r_type == PPC_RELOC_LO16_SECTDIFF
+ || scat->r_type == PPC_RELOC_HI16_SECTDIFF
+ || scat->r_type == PPC_RELOC_HA16_SECTDIFF)
+ {
+ struct scattered_relocation_info *pair =
+ (struct scattered_relocation_info*) &relocs[i+1];
+
+ if(!pair->r_scattered || pair->r_type != PPC_RELOC_PAIR)
+ barf("Invalid Mach-O file: "
+ "PPC_RELOC_*_SECTDIFF not followed by PPC_RELOC_PAIR");
+
+ word = (unsigned long)
+ (relocateAddress(oc, nSections, sections, scat->r_value)
+ - relocateAddress(oc, nSections, sections, pair->r_value));
+ i++;
+ }
+ else if(scat->r_type == PPC_RELOC_HI16
+ || scat->r_type == PPC_RELOC_LO16
+ || scat->r_type == PPC_RELOC_HA16
+ || scat->r_type == PPC_RELOC_LO14)
+ { // these are generated by label+offset things
+ struct relocation_info *pair = &relocs[i+1];
+ if((pair->r_address & R_SCATTERED) || pair->r_type != PPC_RELOC_PAIR)
+ barf("Invalid Mach-O file: "
+ "PPC_RELOC_* not followed by PPC_RELOC_PAIR");
+
+ if(scat->r_type == PPC_RELOC_LO16)
+ {
+ word = ((unsigned short*) wordPtr)[1];
+ word |= ((unsigned long) relocs[i+1].r_address & 0xFFFF) << 16;
+ }
+ else if(scat->r_type == PPC_RELOC_LO14)
+ {
+ barf("Unsupported Relocation: PPC_RELOC_LO14");
+ word = ((unsigned short*) wordPtr)[1] & 0xFFFC;
+ word |= ((unsigned long) relocs[i+1].r_address & 0xFFFF) << 16;
+ }
+ else if(scat->r_type == PPC_RELOC_HI16)
+ {
+ word = ((unsigned short*) wordPtr)[1] << 16;
+ word |= ((unsigned long) relocs[i+1].r_address & 0xFFFF);
+ }
+ else if(scat->r_type == PPC_RELOC_HA16)
+ {
+ word = ((unsigned short*) wordPtr)[1] << 16;
+ word += ((short)relocs[i+1].r_address & (short)0xFFFF);
+ }
+
+
+ word += (unsigned long) relocateAddress(oc, nSections, sections, scat->r_value)
+ - scat->r_value;
+
+ i++;
+ }
+ else
+ continue; // ignore the others
+
+ if(scat->r_type == GENERIC_RELOC_VANILLA
+ || scat->r_type == PPC_RELOC_SECTDIFF)
+ {
+ *wordPtr = word;
+ }
+ else if(scat->r_type == PPC_RELOC_LO16_SECTDIFF || scat->r_type == PPC_RELOC_LO16)
+ {
+ ((unsigned short*) wordPtr)[1] = word & 0xFFFF;
+ }
+ else if(scat->r_type == PPC_RELOC_HI16_SECTDIFF || scat->r_type == PPC_RELOC_HI16)
+ {
+ ((unsigned short*) wordPtr)[1] = (word >> 16) & 0xFFFF;
+ }
+ else if(scat->r_type == PPC_RELOC_HA16_SECTDIFF || scat->r_type == PPC_RELOC_HA16)
+ {
+ ((unsigned short*) wordPtr)[1] = ((word >> 16) & 0xFFFF)
+ + ((word & (1<<15)) ? 1 : 0);
+ }
}
}
-
+
continue; // FIXME: I hope it's OK to ignore all the others.
}
else
struct relocation_info *reloc = &relocs[i];
if(reloc->r_pcrel && !reloc->r_extern)
continue;
-
+
if(reloc->r_length == 2)
{
unsigned long word = 0;
+ unsigned long jumpIsland = 0;
+ long offsetToJumpIsland;
unsigned long* wordPtr = (unsigned long*) (image + sect->offset + reloc->r_address);
-
+ checkProddableBlock(oc,wordPtr);
+
if(reloc->r_type == GENERIC_RELOC_VANILLA)
{
word = *wordPtr;
else if(reloc->r_type == PPC_RELOC_BR24)
{
word = *wordPtr;
- word = (word & 0x03FFFFFC) | (word & 0x02000000) ? 0xFC000000 : 0;
+ word = (word & 0x03FFFFFC) | ((word & 0x02000000) ? 0xFC000000 : 0);
}
if(!reloc->r_extern)
{
- long delta =
+ long delta =
sections[reloc->r_symbolnum-1].offset
- sections[reloc->r_symbolnum-1].addr
+ ((long) image);
-
+
word += delta;
}
else
{
struct nlist *symbol = &nlist[reloc->r_symbolnum];
char *nm = image + symLC->stroff + symbol->n_un.n_strx;
- word = (unsigned long) (lookupSymbol(nm));
- if(!word)
+ unsigned long symbolAddress = (unsigned long) (lookupSymbol(nm));
+ if(!symbolAddress)
{
- belch("\nunknown symbol `%s'", nm);
+ errorBelch("\nunknown symbol `%s'", nm);
return 0;
}
-
+
if(reloc->r_pcrel)
+ {
+ // In the .o file, this should be a relative jump to NULL
+ // and we'll change it to a jump to a relative jump to the symbol
+ ASSERT(-word == reloc->r_address);
+ word = symbolAddress;
+ jumpIsland = makeJumpIsland(oc,reloc->r_symbolnum,word);
word -= ((long)image) + sect->offset + reloc->r_address;
+ if(jumpIsland != 0)
+ {
+ offsetToJumpIsland = jumpIsland
+ - (((long)image) + sect->offset + reloc->r_address);
+ }
+ }
+ else
+ {
+ word += symbolAddress;
+ }
}
-
+
if(reloc->r_type == GENERIC_RELOC_VANILLA)
{
*wordPtr = word;
}
else if(reloc->r_type == PPC_RELOC_BR24)
{
+ if((long)word > (long)0x01FFFFFF || (long)word < (long)0xFFE00000)
+ {
+ // The branch offset is too large.
+ // Therefore, we try to use a jump island.
+ if(jumpIsland == 0)
+ barf("unconditional relative branch out of range: "
+ "no jump island available");
+
+ word = offsetToJumpIsland;
+ if((long)word > (long)0x01FFFFFF || (long)word < (long)0xFFE00000)
+ barf("unconditional relative branch out of range: "
+ "jump island out of range");
+ }
*wordPtr = (*wordPtr & 0xFC000003) | (word & 0x03FFFFFC);
continue;
}
struct load_command *lc = (struct load_command*) (image + sizeof(struct mach_header));
unsigned i,curSymbol;
struct segment_command *segLC = NULL;
- struct section *sections, *la_ptrs = NULL, *nl_ptrs = NULL;
+ struct section *sections;
struct symtab_command *symLC = NULL;
struct dysymtab_command *dsymLC = NULL;
struct nlist *nlist;
lc = (struct load_command *) ( ((char*)lc) + lc->cmdsize );
}
- sections = (struct section*) (segLC+1);
+ sections = (struct section*) (segLC+1);
nlist = (struct nlist*) (image + symLC->symoff);
for(i=0;i<segLC->nsects;i++)
{
- if(!strcmp(sections[i].sectname,"__la_symbol_ptr"))
- la_ptrs = §ions[i];
- else if(!strcmp(sections[i].sectname,"__nl_symbol_ptr"))
- nl_ptrs = §ions[i];
-
- // for now, only add __text and __const to the sections table
- else if(!strcmp(sections[i].sectname,"__text"))
- addSection(oc, SECTIONKIND_CODE_OR_RODATA,
+ if(sections[i].size == 0)
+ continue;
+
+ if((sections[i].flags & SECTION_TYPE) == S_ZEROFILL)
+ {
+ char * zeroFillArea = stgCallocBytes(1,sections[i].size,
+ "ocGetNames_MachO(common symbols)");
+ sections[i].offset = zeroFillArea - image;
+ }
+
+ if(!strcmp(sections[i].sectname,"__text"))
+ addSection(oc, SECTIONKIND_CODE_OR_RODATA,
(void*) (image + sections[i].offset),
(void*) (image + sections[i].offset + sections[i].size));
else if(!strcmp(sections[i].sectname,"__const"))
- addSection(oc, SECTIONKIND_RWDATA,
+ addSection(oc, SECTIONKIND_RWDATA,
(void*) (image + sections[i].offset),
(void*) (image + sections[i].offset + sections[i].size));
else if(!strcmp(sections[i].sectname,"__data"))
- addSection(oc, SECTIONKIND_RWDATA,
+ addSection(oc, SECTIONKIND_RWDATA,
+ (void*) (image + sections[i].offset),
+ (void*) (image + sections[i].offset + sections[i].size));
+ else if(!strcmp(sections[i].sectname,"__bss")
+ || !strcmp(sections[i].sectname,"__common"))
+ addSection(oc, SECTIONKIND_RWDATA,
(void*) (image + sections[i].offset),
(void*) (image + sections[i].offset + sections[i].size));
+
+ addProddableBlock(oc, (void*) (image + sections[i].offset),
+ sections[i].size);
}
// count external symbols defined here
}
oc->symbols = stgMallocBytes(oc->n_symbols * sizeof(char*),
"ocGetNames_MachO(oc->symbols)");
-
+
// insert symbols into hash table
for(i=dsymLC->iextdefsym,curSymbol=0;i<dsymLC->iextdefsym+dsymLC->nextdefsym;i++)
{
if((nlist[i].n_type & N_TYPE) == N_SECT)
{
char *nm = image + symLC->stroff + nlist[i].n_un.n_strx;
- ghciInsertStrHashTable(oc->fileName, symhash, nm, image +
+ ghciInsertStrHashTable(oc->fileName, symhash, nm, image +
sections[nlist[i].n_sect-1].offset
- sections[nlist[i].n_sect-1].addr
+ nlist[i].n_value);
oc->symbols[curSymbol++] = nm;
}
}
-
+
// insert local symbols into lochash
for(i=dsymLC->ilocalsym;i<dsymLC->ilocalsym+dsymLC->nlocalsym;i++)
{
if((nlist[i].n_type & N_TYPE) == N_SECT)
{
char *nm = image + symLC->stroff + nlist[i].n_un.n_strx;
- ghciInsertStrHashTable(oc->fileName, oc->lochash, nm, image +
+ ghciInsertStrHashTable(oc->fileName, oc->lochash, nm, image +
sections[nlist[i].n_sect-1].offset
- sections[nlist[i].n_sect-1].addr
+ nlist[i].n_value);
}
}
-
+
commonStorage = stgCallocBytes(1,commonSize,"ocGetNames_MachO(common symbols)");
commonCounter = (unsigned long)commonStorage;
for(i=0;i<symLC->nsyms;i++)
{
char *nm = image + symLC->stroff + nlist[i].n_un.n_strx;
unsigned long sz = nlist[i].n_value;
-
+
nlist[i].n_value = commonCounter;
-
+
ghciInsertStrHashTable(oc->fileName, symhash, nm, (void*)commonCounter);
oc->symbols[curSymbol++] = nm;
-
+
commonCounter += sz;
}
}
dsymLC = (struct dysymtab_command*) lc;
lc = (struct load_command *) ( ((char*)lc) + lc->cmdsize );
}
-
- sections = (struct section*) (segLC+1);
+
+ sections = (struct section*) (segLC+1);
nlist = (struct nlist*) (image + symLC->symoff);
for(i=0;i<segLC->nsects;i++)
else if(!strcmp(sections[i].sectname,"__nl_symbol_ptr"))
nl_ptrs = §ions[i];
}
-
+
indirectSyms = (unsigned long*) (image + dsymLC->indirectsymoff);
if(la_ptrs)
if(nl_ptrs)
if(!resolveImports(oc,image,symLC,nl_ptrs,indirectSyms,nlist))
return 0;
-
+
for(i=0;i<segLC->nsects;i++)
{
- if(!relocateSection(image,symLC,nlist,sections,§ions[i]))
+ if(!relocateSection(oc,image,symLC,nlist,segLC->nsects,sections,§ions[i]))
return 0;
}
/* Free the local symbol table; we won't need it again. */
freeHashTable(oc->lochash, NULL);
oc->lochash = NULL;
+
+#if defined (powerpc_TARGET_ARCH)
+ ocFlushInstructionCache( oc );
+#endif
+
return 1;
}
{
void *p;
-#undef Sym
+#undef Sym
#define Sym(x) \
__asm__ ("lis %0,hi16(" #x ")\n\tori %0,%0,lo16(" #x ")" : "=r" (p)); \
ghciInsertStrHashTable("(GHCi built-in symbols)", symhash, #x, p);
-
+
RTS_MACHO_NOUNDERLINE_SYMBOLS
}