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|
#include "Rts.h"
#if defined(darwin_HOST_OS) || defined(ios_HOST_OS)
/* for roundUpToPage */
#include "sm/OSMem.h"
#include "RtsUtils.h"
#include "GetEnv.h"
#include "LinkerInternals.h"
#include "linker/MachO.h"
#include "linker/CacheFlush.h"
#include "linker/SymbolExtras.h"
#include "linker/MMap.h"
#include <string.h>
#include <regex.h>
#include <mach/machine.h>
#include <mach-o/fat.h>
#include <mach-o/loader.h>
#include <mach-o/nlist.h>
#include <mach-o/reloc.h>
#if defined(HAVE_SYS_MMAN_H) && RTS_LINKER_USE_MMAP
# include <sys/mman.h>
#endif
#if defined(x86_64_HOST_ARCH)
# include <mach-o/x86_64/reloc.h>
#endif
#if defined(aarch64_HOST_ARCH)
# include <mach-o/arm64/reloc.h>
#endif
/*
Support for MachO linking on Darwin/MacOS X
by Wolfgang Thaller (wolfgang.thaller@gmx.net)
I hereby formally apologize for the hackish nature of this code.
Things that need to be done:
*) implement ocVerifyImage_MachO
*) add still more sanity checks.
*/
#if defined(aarch64_HOST_ARCH)
# define NEED_PLT
# include "macho/plt.h"
/* aarch64 linker by moritz angermann <moritz@lichtzwerge.de> */
/* often times we need to extend some value of certain number of bits
* int an int64_t for e.g. relative offsets.
*/
int64_t signExtend(uint64_t val, uint8_t bits);
/* Helper functions to check some instruction properties */
static bool isVectorOp(uint32_t *p);
static bool isLoadStore(uint32_t *p);
/* aarch64 relocations may contain an addend already in the position
* where we want to write the address offset to. Thus decoding as well
* as encoding is needed.
*/
bool fitsBits(size_t bits, int64_t value);
int64_t decodeAddend(ObjectCode * oc, Section * section,
MachORelocationInfo * ri);
void encodeAddend(ObjectCode * oc, Section * section,
MachORelocationInfo * ri, int64_t addend);
/* Global Offset Table logic */
bool isGotLoad(MachORelocationInfo * ri);
bool needGotSlot(MachONList * symbol);
bool makeGot(ObjectCode * oc);
void freeGot(ObjectCode * oc);
#endif /* aarch64_HOST_ARCH */
/*
* Initialize some common data in the object code so we don't have to
* continuously look up the addresses.
*/
void
ocInit_MachO(ObjectCode * oc)
{
ocDeinit_MachO(oc);
oc->info = (struct ObjectCodeFormatInfo*)stgCallocBytes(
1, sizeof *oc->info,
"ocInit_MachO(ObjectCodeFormatInfo)");
oc->info->header = (MachOHeader *) oc->image;
oc->info->symCmd = NULL;
oc->info->segCmd = NULL;
oc->info->dsymCmd = NULL;
MachOLoadCommand *lc = (MachOLoadCommand*)(oc->image + sizeof(MachOHeader));
for(size_t i = 0; i < oc->info->header->ncmds; i++) {
if (lc->cmd == LC_SEGMENT || lc->cmd == LC_SEGMENT_64) {
oc->info->segCmd = (MachOSegmentCommand*) lc;
}
else if (lc->cmd == LC_SYMTAB) {
oc->info->symCmd = (MachOSymtabCommand*) lc;
}
else if (lc->cmd == LC_DYSYMTAB) {
oc->info->dsymCmd = (MachODsymtabCommand*) lc;
}
lc = (MachOLoadCommand *) ( ((char*)lc) + lc->cmdsize );
}
if (NULL == oc->info->segCmd) {
barf("ocGetNames_MachO: no segment load command");
}
oc->info->macho_sections = (MachOSection*) (oc->info->segCmd+1);
oc->n_sections = oc->info->segCmd->nsects;
oc->info->nlist = oc->info->symCmd == NULL
? NULL
: (MachONList *)(oc->image + oc->info->symCmd->symoff);
oc->info->names = oc->info->symCmd == NULL
? NULL
: (oc->image + oc->info->symCmd->stroff);
/* If we have symbols, allocate and fill the macho_symbols
* This will make relocation easier.
*/
oc->info->n_macho_symbols = 0;
oc->info->macho_symbols = NULL;
if(NULL != oc->info->nlist) {
oc->info->n_macho_symbols = oc->info->symCmd->nsyms;
oc->info->macho_symbols = (MachOSymbol*)stgCallocBytes(
oc->info->symCmd->nsyms,
sizeof(MachOSymbol),
"ocInit_MachO(MachOSymbol)");
for(uint32_t i = 0; i < oc->info->symCmd->nsyms; i++) {
oc->info->macho_symbols[i].name = oc->info->names
+ oc->info->nlist[i].n_un.n_strx;
oc->info->macho_symbols[i].nlist = &oc->info->nlist[i];
/* We don't have an address for this symbol yet; this
* will be populated during ocGetNames_MachO. Hence init
* with NULL
*/
oc->info->macho_symbols[i].addr = NULL;
oc->info->macho_symbols[i].got_addr = NULL;
}
}
}
void
ocDeinit_MachO(ObjectCode * oc) {
if (oc->info != NULL) {
if(oc->info->n_macho_symbols > 0) {
stgFree(oc->info->macho_symbols);
}
#if defined(aarch64_HOST_ARCH)
freeGot(oc);
if(oc->sections != NULL) {
for(int i = 0; i < oc->n_sections; i++) {
freeStubs(&oc->sections[i]);
}
}
#endif
stgFree(oc->info);
oc->info = NULL;
}
}
static int
resolveImports(
ObjectCode* oc,
MachOSection *sect, // ptr to lazy or non-lazy symbol pointer section
unsigned long *indirectSyms);
#if NEED_SYMBOL_EXTRAS
#if defined(x86_64_HOST_ARCH) || defined(aarch64_HOST_ARCH)
int
ocAllocateExtras_MachO(ObjectCode* oc)
{
IF_DEBUG(linker, debugBelch("ocAllocateExtras_MachO: start\n"));
if (NULL != oc->info->symCmd) {
IF_DEBUG(linker,
debugBelch("ocAllocateExtras_MachO: allocate %d symbols\n",
oc->info->symCmd->nsyms));
IF_DEBUG(linker, debugBelch("ocAllocateExtras_MachO: done\n"));
return ocAllocateExtras(oc, oc->info->symCmd->nsyms, 0, 0);
}
IF_DEBUG(linker,
debugBelch("ocAllocateExtras_MachO: allocated no symbols\n"));
IF_DEBUG(linker, debugBelch("ocAllocateExtras_MachO: done\n"));
return ocAllocateExtras(oc, 0, 0, 0);
}
#else
#error Unknown MachO architecture
#endif /* HOST_ARCH */
#endif /* NEED_SYMBOL_EXTRAS */
int
ocVerifyImage_MachO(ObjectCode * oc)
{
char *image = (char*) oc->image;
MachOHeader *header = (MachOHeader*) image;
IF_DEBUG(linker, debugBelch("ocVerifyImage_MachO: start\n"));
if(header->magic != MH_MAGIC_64) {
errorBelch("Could not load image %s: bad magic!\n"
" Expected %08x (64bit), got %08x%s\n",
oc->fileName, MH_MAGIC_64, header->magic,
header->magic == MH_MAGIC ? " (32bit)." : ".");
return 0;
}
// FIXME: do some more verifying here
IF_DEBUG(linker, debugBelch("ocVerifyImage_MachO: done\n"));
return 1;
}
static int
resolveImports(
ObjectCode* oc,
MachOSection *sect, // ptr to lazy or non-lazy symbol pointer section
unsigned long *indirectSyms)
{
size_t itemSize = 4;
IF_DEBUG(linker, debugBelch("resolveImports: start\n"));
for(unsigned i = 0; i * itemSize < sect->size; i++)
{
// according to otool, reserved1 contains the first index into the
// indirect symbol table
unsigned long indirectSymbolIndex = indirectSyms[sect->reserved1+i];
MachOSymbol *symbol = &oc->info->macho_symbols[indirectSymbolIndex];
SymbolAddr* addr = NULL;
IF_DEBUG(linker, debugBelch("resolveImports: resolving %s\n", symbol->name));
if ((symbol->nlist->n_type & N_TYPE) == N_UNDF
&& (symbol->nlist->n_type & N_EXT) && (symbol->nlist->n_value != 0)) {
addr = (SymbolAddr*) (symbol->nlist->n_value);
IF_DEBUG(linker, debugBelch("resolveImports: undefined external %s has value %p\n", symbol->name, addr));
} else {
addr = lookupDependentSymbol(symbol->name, oc, NULL);
IF_DEBUG(linker, debugBelch("resolveImports: looking up %s, %p\n", symbol->name, addr));
}
if (addr == NULL)
{
errorBelch("\nlookupSymbol failed in resolveImports\n"
"%s: unknown symbol `%s'", oc->fileName, symbol->name);
return 0;
}
checkProddableBlock(oc,
((void**)(oc->image + sect->offset)) + i,
sizeof(void *));
((void**)(oc->image + sect->offset))[i] = addr;
}
IF_DEBUG(linker, debugBelch("resolveImports: done\n"));
return 1;
}
#if defined(aarch64_HOST_ARCH)
/* aarch64 linker by moritz angermann <moritz@lichtzwerge.de> */
int64_t
signExtend(uint64_t val, uint8_t bits) {
return (int64_t)(val << (64-bits)) >> (64-bits);
}
static bool
isVectorOp(uint32_t *p) {
return (*p & 0x04800000) == 0x04800000;
}
static bool
isLoadStore(uint32_t *p) {
return (*p & 0x3B000000) == 0x39000000;
}
int64_t
decodeAddend(ObjectCode * oc, Section * section, MachORelocationInfo * ri) {
/* the instruction. It is 32bit wide */
uint32_t * p = (uint32_t*)((uint8_t*)section->start + ri->r_address);
checkProddableBlock(oc, (void*)p, 1 << ri->r_length);
switch(ri->r_type) {
case ARM64_RELOC_UNSIGNED: {
switch (ri->r_length) {
case 0: return signExtend(*(uint8_t*)p, 8 << ri->r_length);
case 1: return signExtend(*(uint16_t*)p, 8 << ri->r_length);
case 2: return signExtend(*(uint32_t*)p, 8 << ri->r_length);
case 3: return signExtend(*(uint64_t*)p, 8 << ri->r_length);
default:
barf("Unsupported r_length (%d) for UNSIGNED relocation",
ri->r_length);
}
}
case ARM64_RELOC_SUBTRACTOR: {
switch (ri->r_length) {
case 0: return signExtend(*(uint8_t*)p, 8 << ri->r_length);
case 1: return signExtend(*(uint16_t*)p, 8 << ri->r_length);
case 2: return signExtend(*(uint32_t*)p, 8 << ri->r_length);
case 3: return signExtend(*(uint64_t*)p, 8 << ri->r_length);
default:
barf("Unsupported r_length (%d) for SUBTRACTOR relocation",
ri->r_length);
}
}
case ARM64_RELOC_BRANCH26:
/* take the lower 26 bits and shift them by 2. The last two are
* implicitly 0 (as the instructions must be aligned!) and sign
* extend to 64 bits.
*/
return signExtend( (*p & 0x03FFFFFF) << 2, 28 );
case ARM64_RELOC_PAGE21:
case ARM64_RELOC_GOT_LOAD_PAGE21:
/* take the instruction bits masked with 0x6 (0110), and push them
* down. into the last two bits, and mask in the
*
* the 21 bits are encoded as follows in the instruction
*
* -**- ---* **** **** **** **** ***-- ----
* ^^
* ''-- these are the low two bits.
*/
return signExtend( (*p & 0x60000000) >> 29
| ((*p & 0x01FFFFE0) >> 3) << 12, 33);
case ARM64_RELOC_PAGEOFF12:
case ARM64_RELOC_GOT_LOAD_PAGEOFF12: {
/* the 12 bits for the page offset are encoded from bit 11 onwards
*
* ---- ---- --** **** **** **-- ---- ----
*/
int64_t a = (*p & 0x003FFC00) >> 10;
int shift = 0;
if (isLoadStore(p)) {
shift = (*p >> 30) & 0x3;
if(0 == shift && isVectorOp(p)) {
shift = 4;
}
}
return a << shift;
}
}
barf("unsupported relocation type: %d\n", ri->r_type);
}
inline bool
fitsBits(size_t bits, int64_t value) {
if(bits == 64) return true;
if(bits > 64) barf("fits_bits with %zu bits and an 64bit integer!", bits);
return 0 == (value >> bits) // All bits off: 0
|| -1 == (value >> bits); // All bits on: -1
}
void
encodeAddend(ObjectCode * oc, Section * section,
MachORelocationInfo * ri, int64_t addend) {
uint32_t * p = (uint32_t*)((uint8_t*)section->start + ri->r_address);
checkProddableBlock(oc, (void*)p, 1 << ri->r_length);
switch (ri->r_type) {
case ARM64_RELOC_UNSIGNED: {
if(!fitsBits(8 << ri->r_length, addend))
barf("Relocation out of range for UNSIGNED");
switch (ri->r_length) {
case 0: *(uint8_t*)p = (uint8_t)addend; break;
case 1: *(uint16_t*)p = (uint16_t)addend; break;
case 2: *(uint32_t*)p = (uint32_t)addend; break;
case 3: *(uint64_t*)p = (uint64_t)addend; break;
default:
barf("Unsupported r_length (%d) for UNSIGNED relocation",
ri->r_length);
}
return;
}
case ARM64_RELOC_SUBTRACTOR: {
if(!fitsBits(8 << ri->r_length, addend))
barf("Relocation out of range for SUBTRACTOR");
switch (ri->r_length) {
case 0: *(uint8_t*)p = (uint8_t)addend; break;
case 1: *(uint16_t*)p = (uint16_t)addend; break;
case 2: *(uint32_t*)p = (uint32_t)addend; break;
case 3: *(uint64_t*)p = (uint64_t)addend; break;
default:
barf("Unsupported r_length (%d) for SUBTRACTOR relocation",
ri->r_length);
}
return;
}
case ARM64_RELOC_BRANCH26: {
/* We can only store 26 bits in the instruction, due to alignment we
* do not need the last two bits of the value. If the value >> 2
* still exceeds 26bits, we won't be able to reach it.
*/
if(!fitsBits(26, addend >> 2))
barf("Relocation target for BRACH26 out of range.");
*p = (*p & 0xFC000000) | ((uint32_t)(addend >> 2) & 0x03FFFFFF);
return;
}
case ARM64_RELOC_PAGE21:
case ARM64_RELOC_GOT_LOAD_PAGE21: {
/* We store 21bits, in bits 6 to 24, and bits 30 and 31.
* The encoded value describes a multiple of 4k pages, and together
* with the PAGEOFF12 relocation allows to address a relative range
* of +-4GB.
*/
if(!fitsBits(21, addend >> 12))
barf("Relocation target for PAGE21 out of range.");
*p = (*p & 0x9F00001F) | (uint32_t)((addend << 17) & 0x60000000)
| (uint32_t)((addend >> 9) & 0x00FFFFE0);
return;
}
case ARM64_RELOC_PAGEOFF12:
case ARM64_RELOC_GOT_LOAD_PAGEOFF12: {
/* Store an offset into a page (4k). Depending on the instruction
* the bits are stored at slightly different positions.
*/
if(!fitsBits(12, addend))
barf("Relocation target for PAGEOFF12 out or range.");
int shift = 0;
if(isLoadStore(p)) {
shift = (*p >> 30) & 0x3;
if(0 == shift && isVectorOp(p)) {
shift = 4;
}
}
*p = (*p & 0xFFC003FF)
| ((uint32_t)(addend >> shift << 10) & 0x003FFC00);
return;
}
}
barf("unsupported relocation type: %d\n", ri->r_type);
}
bool
isGotLoad(struct relocation_info * ri) {
return ri->r_type == ARM64_RELOC_GOT_LOAD_PAGE21
|| ri->r_type == ARM64_RELOC_GOT_LOAD_PAGEOFF12;
}
/*
* Check if we need a global offset table slot for a
* given symbol
*/
bool
needGotSlot(MachONList * symbol) {
return (symbol->n_type & N_EXT) /* is an external symbol */
&& (N_UNDF == (symbol->n_type & N_TYPE) /* and is undefined */
|| NO_SECT != symbol->n_sect); /* or is defined in a
* different section */
}
bool
makeGot(ObjectCode * oc) {
size_t got_slots = 0;
for(size_t i=0; i < oc->info->n_macho_symbols; i++)
if(needGotSlot(oc->info->macho_symbols[i].nlist))
got_slots += 1;
if(got_slots > 0) {
oc->info->got_size = got_slots * sizeof(void*);
oc->info->got_start = mmapAnonForLinker(oc->info->got_size);
if( oc->info->got_start == NULL ) {
barf("MAP_FAILED. errno=%d", errno );
return EXIT_FAILURE;
}
/* update got_addr */
size_t slot = 0;
for(size_t i=0; i < oc->info->n_macho_symbols; i++)
if(needGotSlot(oc->info->macho_symbols[i].nlist))
oc->info->macho_symbols[i].got_addr
= ((uint8_t*)oc->info->got_start)
+ (slot++ * sizeof(void *));
}
return EXIT_SUCCESS;
}
void
freeGot(ObjectCode * oc) {
/* sanity check */
if(NULL != oc->info->got_start && oc->info->got_size > 0) {
munmapForLinker(oc->info->got_start, oc->info->got_size, "freeGot");
}
oc->info->got_start = NULL;
oc->info->got_size = 0;
}
// Retrieve symbol value
static uint64_t symbol_value(ObjectCode* oc, MachOSymbol* symbol) {
uint64_t value = 0;
if(symbol->nlist->n_type & N_EXT) {
/* external symbols should be able to be
* looked up via the lookupDependentSymbol function.
* Either through the global symbol hashmap
* or asking the system, if not found
* in the symbol hashmap
*/
value = (uint64_t)lookupDependentSymbol((char*)symbol->name, oc, NULL);
if(!value)
barf("Could not lookup symbol: %s!", symbol->name);
} else {
value = (uint64_t)symbol->addr; // address of the symbol.
}
return value;
}
static int
relocateSectionAarch64(ObjectCode * oc, Section * section)
{
if(section->size == 0)
return 1;
/* at this point, we have:
*
* - loaded the sections (potentially into non-contiguous memory),
* (in ocGetNames_MachO)
* - registered exported symbols
* (in ocGetNames_MachO)
* - and fixed the nlist[i].n_value for common storage symbols (N_UNDF,
* N_EXT and n_value != 0) so that they point into the common storage.
* (in ocGetNames_MachO)
* - All oc->symbols however should now point at the right place.
*/
/* we need to care about the explicit addend */
int64_t explicit_addend = 0;
size_t nreloc = section->info->macho_section->nreloc;
for(size_t i = 0; i < nreloc; i++) {
MachORelocationInfo * ri = §ion->info->relocation_info[i];
switch (ri->r_type) {
case ARM64_RELOC_UNSIGNED: {
MachOSymbol* symbol = &oc->info->macho_symbols[ri->r_symbolnum];
int64_t addend = decodeAddend(oc, section, ri);
uint64_t value = symbol_value(oc, symbol);
encodeAddend(oc, section, ri, value + addend);
break;
}
case ARM64_RELOC_SUBTRACTOR:
{
// subtractor and unsigned are called in tandem:
// first pc <- pc - symbol address (SUBTRACTOR)
// second pc <- pc + symbol address (UNSIGNED)
// to achieve pc <- pc + target - base.
// check that the following relocation exists and has the
// expected ARM64_RELOC_UNSIGNED type
if(!(i+1 < nreloc)
|| !(section->info->relocation_info[i+1].r_type
== ARM64_RELOC_UNSIGNED))
barf("SUBTRACTOR relocation *must* be followed by UNSIGNED relocation.");
// we *know* that the next relocation is ARM64_RELOC_UNSIGNED
// (see above). So let's process both relocations and write the
// combined result in the target location. This prevents
// overflow. (Compared to trying to store the intermediate
// result which may not fit in the target bits).
// sub part (ARM64_RELOC_SUBTRACTOR)
MachOSymbol* symbol1 = &oc->info->macho_symbols[ri->r_symbolnum];
uint64_t sub_value = symbol_value(oc, symbol1);
// add part (ARM64_RELOC_UNSIGNED)
MachORelocationInfo * ri2 = §ion->info->relocation_info[i+1];
MachOSymbol* symbol2 = &oc->info->macho_symbols[ri2->r_symbolnum];
uint64_t add_value = symbol_value(oc, symbol2);
// combine with addend and store
int64_t addend = decodeAddend(oc, section, ri);
encodeAddend(oc, section, ri, addend - sub_value + add_value);
// skip next relocation: we've already handled it
i += 1;
break;
}
case ARM64_RELOC_BRANCH26: {
MachOSymbol* symbol = &oc->info->macho_symbols[ri->r_symbolnum];
// pre-existing addend
int64_t addend = decodeAddend(oc, section, ri);
// address of the branch (b/bl) instruction.
uint64_t pc = (uint64_t)section->start + ri->r_address;
uint64_t value = 0;
if(symbol->nlist->n_type & N_EXT) {
value = (uint64_t)lookupDependentSymbol((char*)symbol->name, oc, NULL);
if(!value)
barf("Could not lookup symbol: %s!", symbol->name);
} else {
value = (uint64_t)symbol->addr; // address of the symbol.
}
// We've got:
// + 2 bits, for alignment
// + 26 bits for for the relocation value
// - 1 bit for signage.
//
// Thus we can encode 26 bits for relocation, including the sign
// bit. However as branches need to be 4-byte aligned, we only
// need 26 bits to address a 28 bit range. Thus discarding the
// sign bit, we can encode a range of +/- 27bits.
//
if((value - pc + addend) >> (2 + 26 - 1)) {
/* we need a stub */
/* check if we already have that stub */
if(findStub(section, (void**)&value, 0)) {
/* did not find it. Crete a new stub. */
if(makeStub(section, (void**)&value, 0)) {
barf("could not find or make stub");
}
}
}
encodeAddend(oc, section, ri, value - pc + addend);
break;
}
case ARM64_RELOC_PAGE21:
case ARM64_RELOC_GOT_LOAD_PAGE21: {
MachOSymbol* symbol = &oc->info->macho_symbols[ri->r_symbolnum];
int64_t addend = decodeAddend(oc, section, ri);
if(!(explicit_addend == 0 || addend == 0))
barf("explicit_addend and addend can't be set at the same time.");
uint64_t pc = (uint64_t)section->start + ri->r_address;
uint64_t value = (uint64_t)(isGotLoad(ri) ? symbol->got_addr : symbol->addr);
encodeAddend(oc, section, ri, ((value + addend + explicit_addend) & (-4096)) - (pc & (-4096)));
// reset, just in case.
explicit_addend = 0;
break;
}
case ARM64_RELOC_PAGEOFF12:
case ARM64_RELOC_GOT_LOAD_PAGEOFF12: {
MachOSymbol* symbol = &oc->info->macho_symbols[ri->r_symbolnum];
int64_t addend = decodeAddend(oc, section, ri);
if(!(explicit_addend == 0 || addend == 0))
barf("explicit_addend and addend can't be set at the same time.");
uint64_t value = (uint64_t)(isGotLoad(ri) ? symbol->got_addr : symbol->addr);
encodeAddend(oc, section, ri, 0xFFF & (value + addend + explicit_addend));
// reset, just in case.
explicit_addend = 0;
break;
}
case ARM64_RELOC_ADDEND: {
explicit_addend = signExtend(ri->r_symbolnum, 24);
if(!(i+1 < nreloc)
|| !(section->info->relocation_info[i+1].r_type == ARM64_RELOC_PAGE21
|| section->info->relocation_info[i+1].r_type == ARM64_RELOC_PAGEOFF12))
barf("ADDEND relocation *must* be followed by PAGE or PAGEOFF relocation");
break;
}
default: {
barf("Relocation of type: %d not (yet) supported!\n", ri->r_type);
}
}
}
return 1;
}
#endif /* aarch64_HOST_ARCH */
#if defined(x86_64_HOST_ARCH)
static int
relocateSection(ObjectCode* oc, int curSection)
{
Section * sect = &oc->sections[curSection];
IF_DEBUG(linker, debugBelch("relocateSection %d, info: %p\n", curSection, (void*)sect->info));
// empty sections (without segments), won't have their info filled.
// there is no relocation to be done for them.
if(sect->info == NULL)
return 1;
MachOSection * msect = sect->info->macho_section; // for access convenience
MachORelocationInfo * relocs = sect->info->relocation_info;
MachOSymbol * symbols = oc->info->macho_symbols;
IF_DEBUG(linker, debugBelch("relocateSection %d (%s, %s): start\n",
curSection, msect->segname, msect->sectname));
if(!strcmp(msect->sectname,"__la_symbol_ptr"))
return 1;
else if(!strcmp(msect->sectname,"__nl_symbol_ptr"))
return 1;
else if(!strcmp(msect->sectname,"__la_sym_ptr2"))
return 1;
else if(!strcmp(msect->sectname,"__la_sym_ptr3"))
return 1;
IF_DEBUG(linker, debugBelch("relocateSection: number of relocations: %d\n", msect->nreloc));
for(uint32_t i = 0; i < msect->nreloc; i++)
{
MachORelocationInfo *reloc = &relocs[i];
char *thingPtr = (char *) sect->start + reloc->r_address;
uint64_t thing;
/* We shouldn't need to initialise this, but gcc on OS X 64 bit
complains that it may be used uninitialized if we don't */
uint64_t value = 0;
uint64_t baseValue;
int type = reloc->r_type;
int relocLenBytes;
int nextInstrAdj = 0;
IF_DEBUG(linker_verbose, debugBelch("relocateSection: relocation %d\n", i));
IF_DEBUG(linker_verbose, debugBelch(" : type = %d\n", reloc->r_type));
IF_DEBUG(linker_verbose, debugBelch(" : address = %d\n", reloc->r_address));
IF_DEBUG(linker_verbose, debugBelch(" : symbolnum = %u\n", reloc->r_symbolnum));
IF_DEBUG(linker_verbose, debugBelch(" : pcrel = %d\n", reloc->r_pcrel));
IF_DEBUG(linker_verbose, debugBelch(" : length = %d\n", reloc->r_length));
IF_DEBUG(linker_verbose, debugBelch(" : extern = %d\n", reloc->r_extern));
IF_DEBUG(linker_verbose, debugBelch(" : type = %d\n", reloc->r_type));
switch(reloc->r_length)
{
case 0:
thing = *(uint8_t*)thingPtr;
relocLenBytes = 1;
break;
case 1:
thing = *(uint16_t*)thingPtr;
relocLenBytes = 2;
break;
case 2:
thing = *(uint32_t*)thingPtr;
relocLenBytes = 4;
break;
case 3:
thing = *(uint64_t*)thingPtr;
relocLenBytes = 8;
break;
default:
barf("Unknown size.");
}
checkProddableBlock(oc,thingPtr,relocLenBytes);
/*
* With SIGNED_N the relocation is not at the end of the
* instruction and baseValue needs to be adjusted accordingly.
*/
switch (type) {
case X86_64_RELOC_SIGNED_1:
nextInstrAdj = 1;
break;
case X86_64_RELOC_SIGNED_2:
nextInstrAdj = 2;
break;
case X86_64_RELOC_SIGNED_4:
nextInstrAdj = 4;
break;
}
baseValue = (uint64_t)thingPtr + relocLenBytes + nextInstrAdj;
IF_DEBUG(linker_verbose,
debugBelch("relocateSection: length = %d, thing = %" PRId64 ", baseValue = %p\n",
reloc->r_length, thing, (char *)baseValue));
if (type == X86_64_RELOC_GOT
|| type == X86_64_RELOC_GOT_LOAD)
{
MachOSymbol *symbol = &symbols[reloc->r_symbolnum];
SymbolName* nm = symbol->name;
SymbolAddr* addr = NULL;
IF_DEBUG(linker_verbose, debugBelch("relocateSection: making jump island for %s, extern = %d, X86_64_RELOC_GOT\n",
nm, reloc->r_extern));
if (reloc->r_extern == 0) {
errorBelch("\nrelocateSection: global offset table relocation for symbol with r_extern == 0\n");
}
if (symbol->nlist->n_type & N_EXT) {
// The external bit is set, meaning the symbol is exported,
// and therefore can be looked up in this object module's
// symtab, or it is undefined, meaning dlsym must be used
// to resolve it.
addr = lookupDependentSymbol(nm, oc, NULL);
IF_DEBUG(linker_verbose,
debugBelch("relocateSection: looked up %s, "
"external X86_64_RELOC_GOT or X86_64_RELOC_GOT_LOAD\n"
" : addr = %p\n", nm, addr));
if (addr == NULL) {
errorBelch("\nlookupSymbol failed in relocateSection (RELOC_GOT)\n"
"%s: unknown symbol `%s'", oc->fileName, nm);
return 0;
}
} else {
IF_DEBUG(linker_verbose, debugBelch("relocateSection: %s is not an exported symbol\n", nm));
// The symbol is not exported, or defined in another
// module, so it must be in the current object module,
// at the location given by the section index and
// symbol address (symbol->n_value)
if ((symbol->nlist->n_type & N_TYPE) == N_SECT) {
if (symbol->addr == NULL) {
errorBelch("relocateSection: address of internal symbol %s was not resolved\n", nm);
return 0;
}
addr = symbol->addr;
IF_DEBUG(linker_verbose,
debugBelch("relocateSection: calculated relocation of "
"non-external X86_64_RELOC_GOT or X86_64_RELOC_GOT_LOAD\n"));
IF_DEBUG(linker_verbose,
debugBelch(" : addr = %p\n", addr));
} else {
errorBelch("\nrelocateSection: %s is not exported,"
" and should be defined in a section, but isn't!\n", nm);
return 0;
}
}
// creates a jump island for every relocation entry for a symbol
// TODO (AP): use got_addr to store the loc. of a jump island to reuse later
value = (uint64_t) &makeSymbolExtra(oc, reloc->r_symbolnum, (unsigned long)addr)->addr;
type = X86_64_RELOC_SIGNED;
}
else if (reloc->r_extern)
{
MachOSymbol *symbol = &symbols[reloc->r_symbolnum];
SymbolName* nm = symbol->name;
SymbolAddr* addr = NULL;
IF_DEBUG(linker_verbose, debugBelch("relocateSection: looking up external symbol %s\n", nm));
IF_DEBUG(linker_verbose, debugBelch(" : type = %d\n", symbol->nlist->n_type));
IF_DEBUG(linker_verbose, debugBelch(" : sect = %d\n", symbol->nlist->n_sect));
IF_DEBUG(linker_verbose, debugBelch(" : desc = %d\n", symbol->nlist->n_desc));
IF_DEBUG(linker_verbose, debugBelch(" : value = %p\n", (void *)symbol->nlist->n_value));
if ((symbol->nlist->n_type & N_TYPE) == N_SECT) {
CHECK(symbol->addr != NULL);
value = (uint64_t) symbol->addr;
IF_DEBUG(linker_verbose,
debugBelch("relocateSection, defined external symbol %s, relocated address %p\n",
nm, (void *)value));
}
else {
addr = lookupDependentSymbol(nm, oc, NULL);
if (addr == NULL)
{
errorBelch("\nlookupSymbol failed in relocateSection (relocate external)\n"
"%s: unknown symbol `%s'", oc->fileName, nm);
return 0;
}
value = (uint64_t) addr;
IF_DEBUG(linker_verbose,
debugBelch("relocateSection: external symbol %s, address %p\n",
nm, (void *)value));
}
}
else
{
/* Since the relocation is internal, r_symbolnum contains a section
* number relative to which the relocation is. Depending on whether
* the relocation is unsigned or signed, the given displacement is
* relative to the image or the section respectively.
*
* For instance, in a signed case:
* thing = <displ. to to section r_symbolnum *in the image*> (1)
* + <offset within r_symbolnum section>
* (1) needs to be updated due to different section placement in memory.
*/
CHECKM(reloc->r_symbolnum > 0,
"relocateSection: unsupported r_symbolnum = %" PRIu32 " < 1 for internal relocation",
reloc->r_symbolnum);
int targetSecNum = reloc->r_symbolnum - 1; // sec numbers start with 1
Section * targetSec = &oc->sections[targetSecNum];
MachOSection * targetMacho = targetSec->info->macho_section;
IF_DEBUG(linker_verbose,
debugBelch("relocateSection: internal relocation relative to section %d (%s, %s)\n",
targetSecNum, targetMacho->segname, targetMacho->sectname));
switch (type) {
case X86_64_RELOC_UNSIGNED: {
CHECKM(thing >= targetMacho->addr,
"relocateSection: unsigned displacement %" PRIx64 "before target section start address %" PRIx64 "\n",
thing, (uint64_t) targetMacho->addr);
uint64_t thingRelativeOffset = thing - targetMacho->addr;
IF_DEBUG(linker_verbose,
debugBelch(" "
"unsigned displacement %" PRIx64 " with section relative offset %" PRIx64 "\n",
thing, thingRelativeOffset));
thing = (uint64_t) targetSec->start + thingRelativeOffset;
IF_DEBUG(linker_verbose,
debugBelch(" "
"relocated address is %p\n", (void *) thing));
/* Compared to external relocation we don't need to adjust value
* any further since thing already has absolute address.
*/
value = 0;
break;
}
case X86_64_RELOC_SIGNED:
case X86_64_RELOC_SIGNED_1:
case X86_64_RELOC_SIGNED_2:
case X86_64_RELOC_SIGNED_4: {
uint32_t baseValueOffset = reloc->r_address + relocLenBytes + nextInstrAdj;
uint64_t imThingLoc = msect->addr + baseValueOffset + (int64_t) thing;
CHECKM(imThingLoc >= targetMacho->addr,
"relocateSection: target location %p in image before target section start address %p\n",
(void *) imThingLoc, (void *) targetMacho->addr);
int64_t thingRelativeOffset = imThingLoc - targetMacho->addr;
IF_DEBUG(linker_verbose,
debugBelch(" "
"original displacement %" PRId64 " to %p with section relative offset %" PRIu64 "\n",
thing, (void *) imThingLoc, thingRelativeOffset));
thing = (int64_t) ((uint64_t) targetSec->start + thingRelativeOffset)
- ((uint64_t) sect->start + baseValueOffset);
value = baseValue; // so that it further cancels out with baseValue
IF_DEBUG(linker_verbose,
debugBelch(" "
"relocated displacement %" PRId64 " to %p\n",
(int64_t) thing, (void *) (baseValue + thing)));
break;
}
default:
barf("relocateSection: unexpected internal relocation type %d\n", type);
return 0;
}
}
IF_DEBUG(linker_verbose, debugBelch("relocateSection: value = %p\n", (void *) value));
if (type == X86_64_RELOC_BRANCH)
{
if((int32_t)(value - baseValue) != (int64_t)(value - baseValue))
{
CHECK(reloc->r_extern);
value = (uint64_t) &makeSymbolExtra(oc, reloc->r_symbolnum, value)
-> jumpIsland;
}
CHECK((int32_t)(value - baseValue) == (int64_t)(value - baseValue));
type = X86_64_RELOC_SIGNED;
}
switch(type)
{
case X86_64_RELOC_UNSIGNED:
CHECK(!reloc->r_pcrel);
thing += value;
break;
case X86_64_RELOC_SIGNED:
case X86_64_RELOC_SIGNED_1:
case X86_64_RELOC_SIGNED_2:
case X86_64_RELOC_SIGNED_4:
CHECK(reloc->r_pcrel);
thing += value - baseValue;
break;
case X86_64_RELOC_SUBTRACTOR:
CHECK(!reloc->r_pcrel);
thing -= value;
break;
default:
barf("unknown relocation");
}
IF_DEBUG(linker_verbose, debugBelch("relocateSection: thing = %p\n", (void *) thing));
/* Thing points to memory within one of the relocated sections. We can
* probe the first byte to sanity check internal relocations.
*/
if (0 == reloc->r_extern) {
if (reloc->r_pcrel) {
checkProddableBlock(oc, (void *)((char *)thing + baseValue), 1);
} else {
checkProddableBlock(oc, (void *)thing, 1);
}
}
switch(reloc->r_length)
{
case 0:
*(uint8_t*)thingPtr = thing;
break;
case 1:
*(uint16_t*)thingPtr = thing;
break;
case 2:
*(uint32_t*)thingPtr = thing;
break;
case 3:
*(uint64_t*)thingPtr = thing;
break;
}
}
IF_DEBUG(linker, debugBelch("relocateSection: done\n"));
return 1;
}
#endif /* x86_64_HOST_ARCH */
SectionKind
getSectionKind_MachO(MachOSection *section)
{
uint8_t s_type = section->flags & SECTION_TYPE;
if (s_type == S_MOD_INIT_FUNC_POINTERS) {
return SECTIONKIND_INIT_ARRAY;
} else if (s_type == S_MOD_TERM_FUNC_POINTERS) {
return SECTIONKIND_FINI_ARRAY;
} else if (0==strcmp(section->segname,"__TEXT")) {
return SECTIONKIND_CODE_OR_RODATA;
} else if (0==strcmp(section->segname,"__DATA")) {
return SECTIONKIND_RWDATA;
} else {
return SECTIONKIND_OTHER;
}
}
/* Calculate the # of active segments and their sizes based on section
* sizes and alignments. This is done in 2 passes over sections:
* 1. Calculate how many sections is going to be in each segment and
* the total segment size.
* 2. Fill in segment's sections_idx arrays.
*
* gbZerofillSegment is there because of this comment in mach-o/loader.h:
* The gigabyte zero fill sections, those with the section type
* S_GB_ZEROFILL, can only be in a segment with sections of this
* type. These segments are then placed after all other segments.
*/
int
ocBuildSegments_MachO(ObjectCode *oc)
{
int n_rxSections = 0;
size_t size_rxSegment = 0;
Segment *rxSegment = NULL;
int n_rwSections = 0;
size_t size_rwSegment = 0;
Segment *rwSegment = NULL;
int n_gbZerofills = 0;
size_t size_gbZerofillSegment = 0;
Segment *gbZerofillSegment = NULL;
int n_activeSegments = 0;
int curSegment = 0;
size_t size_compound;
Segment *segments = NULL;
void *mem = NULL, *curMem = NULL;
for (int i = 0; i < oc->n_sections; i++) {
MachOSection *macho = &oc->info->macho_sections[i];
if (0 == macho->size) {
IF_DEBUG(linker, debugBelch("ocBuildSegments_MachO: found a zero length section, skipping\n"));
continue;
}
size_t alignment = 1 << macho->align;
if (S_GB_ZEROFILL == (macho->flags & SECTION_TYPE)) {
size_gbZerofillSegment = roundUpToAlign(size_gbZerofillSegment, alignment);
size_gbZerofillSegment += macho->size;
n_gbZerofills++;
} else if (getSectionKind_MachO(macho) == SECTIONKIND_CODE_OR_RODATA) {
size_rxSegment = roundUpToAlign(size_rxSegment, alignment);
size_rxSegment += macho->size;
n_rxSections++;
} else {
size_rwSegment = roundUpToAlign(size_rwSegment, alignment);
size_rwSegment += macho->size;
n_rwSections++;
}
}
size_compound = roundUpToPage(size_rxSegment) +
roundUpToPage(size_rwSegment) +
roundUpToPage(size_gbZerofillSegment);
if (n_rxSections > 0) {
n_activeSegments++;
}
if (n_rwSections > 0) {
n_activeSegments++;
}
if (n_gbZerofills > 0) {
n_activeSegments++;
}
// N.B. it's possible that there is nothing mappable in an object. In this
// case we avoid the mmap call and segment allocation/building since it will
// fail either here or further down the road, e.g. on size > 0 assert in
// addProddableBlock. See #16701.
if (0 == size_compound) {
IF_DEBUG(linker, debugBelch("ocBuildSegments_MachO: all segments are empty, skipping\n"));
return 1;
}
mem = mmapAnonForLinker(size_compound);
if (NULL == mem) return 0;
IF_DEBUG(linker, debugBelch("ocBuildSegments: allocating %d segments\n", n_activeSegments));
segments = (Segment*)stgCallocBytes(n_activeSegments, sizeof(Segment),
"ocBuildSegments_MachO(segments)");
curMem = mem;
/* Allocate space for RX segment */
if (n_rxSections > 0) {
rxSegment = &segments[curSegment];
initSegment(rxSegment,
curMem,
roundUpToPage(size_rxSegment),
SEGMENT_PROT_RX,
n_rxSections);
IF_DEBUG(linker, debugBelch("ocBuildSegments_MachO: init segment %d (RX) at %p size %zu\n",
curSegment, rxSegment->start, rxSegment->size));
curMem = (char *)curMem + rxSegment->size;
curSegment++;
}
/* Allocate space for RW segment */
if (n_rwSections > 0) {
rwSegment = &segments[curSegment];
initSegment(rwSegment,
curMem,
roundUpToPage(size_rwSegment),
SEGMENT_PROT_RWO,
n_rwSections);
IF_DEBUG(linker, debugBelch("ocBuildSegments_MachO: init segment %d (RWO) at %p size %zu\n",
curSegment, rwSegment->start, rwSegment->size));
curMem = (char *)curMem + rwSegment->size;
curSegment++;
}
/* Allocate space for GB_ZEROFILL segment */
if (n_gbZerofills > 0) {
gbZerofillSegment = &segments[curSegment];
initSegment(gbZerofillSegment,
curMem,
roundUpToPage(size_gbZerofillSegment),
SEGMENT_PROT_RWO,
n_gbZerofills);
IF_DEBUG(linker, debugBelch("ocBuildSegments_MachO: init segment %d (GB_ZEROFILL) at %p size %zu\n",
curSegment, gbZerofillSegment->start, gbZerofillSegment->size));
curMem = (char *)curMem + gbZerofillSegment->size;
curSegment++;
}
/* Second pass over sections to fill in sections_idx arrays */
for (int i = 0, rx = 0, rw = 0, gb = 0;
i < oc->n_sections;
i++)
{
MachOSection *macho = &oc->info->macho_sections[i];
// Skip zero size sections here as well since there was no place
// allocated for them in Segment's sections_idx array
if (0 == macho->size) {
continue;
}
if (S_GB_ZEROFILL == (macho->flags & SECTION_TYPE)) {
gbZerofillSegment->sections_idx[gb++] = i;
} else if (getSectionKind_MachO(macho) == SECTIONKIND_CODE_OR_RODATA) {
rxSegment->sections_idx[rx++] = i;
} else {
rwSegment->sections_idx[rw++] = i;
}
}
oc->segments = segments;
oc->n_segments = n_activeSegments;
return 1;
}
int
ocGetNames_MachO(ObjectCode* oc)
{
unsigned curSymbol = 0;
unsigned long commonSize = 0;
SymbolAddr* commonStorage = NULL;
unsigned long commonCounter;
IF_DEBUG(linker,debugBelch("ocGetNames_MachO: %s start\n", OC_INFORMATIVE_FILENAME(oc)));
Section *secArray;
secArray = (Section*)stgCallocBytes(
oc->info->segCmd->nsects,
sizeof(Section),
"ocGetNames_MachO(sections)");
oc->sections = secArray;
IF_DEBUG(linker, debugBelch("ocGetNames_MachO: will load %d sections\n",
oc->n_sections));
CHECKM(ocBuildSegments_MachO(oc), "ocGetNames_MachO: failed to build segments\n");
for (int seg_n = 0; seg_n < oc->n_segments; seg_n++) {
Segment *segment = &oc->segments[seg_n];
void *curMem = segment->start;
IF_DEBUG(linker,
debugBelch("ocGetNames_MachO: loading segment %d "
"(address = %p, size = %zu) "
"with %d sections\n",
seg_n, segment->start, segment->size, segment->n_sections));
for (int sec_n = 0; sec_n < segment->n_sections; sec_n++) {
int sec_idx = segment->sections_idx[sec_n];
MachOSection *section = &oc->info->macho_sections[sec_idx];
size_t alignment = 1 << section->align;
SectionKind kind = getSectionKind_MachO(section);
SectionAlloc alloc = SECTION_NOMEM;
void *start = NULL, *mapped_start = NULL;
StgWord mapped_size = 0, mapped_offset = 0;
StgWord size = section->size;
void *secMem = (void *)roundUpToAlign((size_t)curMem, alignment);
start = secMem;
IF_DEBUG(linker,
debugBelch("ocGetNames_MachO: loading section %d in segment %d "
"(#%d, %s %s)\n"
" skipped %zu bytes due to alignment of %zu\n",
sec_n, seg_n, sec_idx, section->segname, section->sectname,
(char *)secMem - (char *)curMem, alignment));
switch (section->flags & SECTION_TYPE) {
case S_ZEROFILL:
case S_GB_ZEROFILL:
IF_DEBUG(linker, debugBelch("ocGetNames_MachO: memset to 0 a ZEROFILL section\n"));
memset(secMem, 0, section->size);
addSection(&secArray[sec_idx], kind, alloc, start, size,
mapped_offset, mapped_start, mapped_size);
break;
default:
IF_DEBUG(linker,
debugBelch("ocGetNames_MachO: copying from %p to %p"
" a block of %" PRIu64 " bytes\n",
(void *) (oc->image + section->offset), secMem, section->size));
#if defined(NEED_PLT)
unsigned nstubs = numberOfStubsForSection(oc, sec_idx);
unsigned stub_space = STUB_SIZE * nstubs;
void * mem = mmapForLinker(section->size+stub_space, MEM_READ_WRITE, MAP_ANON, -1, 0);
if( mem == MAP_FAILED ) {
sysErrorBelch("failed to mmap allocated memory to load section %d. "
"errno = %d", sec_idx, errno);
}
/* copy only the image part over; we don't want to copy data
* into the stub part.
*/
memcpy( mem, oc->image + section->offset, size );
alloc = SECTION_MMAP;
mapped_offset = 0;
mapped_size = roundUpToPage(size+stub_space);
start = mem;
mapped_start = mem;
#else
memcpy(secMem, oc->image + section->offset, section->size);
#endif
addSection(&secArray[sec_idx], kind, alloc, start, size,
mapped_offset, mapped_start, mapped_size);
/* SECTION_NOMEM since memory is already allocated in segments */
#if defined(NEED_PLT)
secArray[sec_idx].info->nstubs = 0;
secArray[sec_idx].info->stub_offset = (uint8_t*)mem + size;
secArray[sec_idx].info->stub_size = stub_space;
secArray[sec_idx].info->stubs = NULL;
#else
secArray[sec_idx].info->nstubs = 0;
secArray[sec_idx].info->stub_offset = NULL;
secArray[sec_idx].info->stub_size = 0;
secArray[sec_idx].info->stubs = NULL;
#endif
addProddableBlock(oc, start, section->size);
}
curMem = (char*) secMem + section->size;
secArray[sec_idx].info->macho_section = section;
secArray[sec_idx].info->relocation_info
= (MachORelocationInfo*)(oc->image + section->reloff);
}
}
/* now, as all sections have been loaded, we can resolve the absolute
* address of symbols defined in those sections.
*/
for(size_t i=0; i < oc->info->n_macho_symbols; i++) {
MachOSymbol * s = &oc->info->macho_symbols[i];
if( N_SECT == (s->nlist->n_type & N_TYPE) ) {
if( NO_SECT == s->nlist->n_sect )
barf("Symbol with N_SECT type, but no section.");
/* section is given, and n_sect is >0 */
uint8_t n = s->nlist->n_sect - 1;
if(0 == oc->info->macho_sections[n].size) {
continue;
}
/* addr <- address in memory where the relocated section resides | (a)
* - section's address in the image | (b)
* + symbol's address in the image | (c)
* (c) - (b) gives symbol's offset relative to section start
* (a) - (b) + (c) gives symbol's address for the relocated section
*
* (c) and (b) are not _real_ addresses and not equal
* to file offsets in the image.
* Rather they are (virtual) aligned addresses within
* a single segment of MH_OBJECT object file.
*/
s->addr = (uint8_t*)oc->sections[n].start
- oc->info->macho_sections[n].addr
+ s->nlist->n_value;
if(NULL == s->addr)
barf("Failed to compute address for symbol %s", s->name);
}
}
// count external symbols defined here
oc->n_symbols = 0;
if (oc->info->symCmd) {
for (size_t i = 0; i < oc->info->n_macho_symbols; i++) {
if (oc->info->nlist[i].n_type & N_STAB) {
;
}
else if(oc->info->nlist[i].n_type & N_EXT)
{
if((oc->info->nlist[i].n_type & N_TYPE) == N_UNDF
&& (oc->info->nlist[i].n_value != 0))
{
commonSize += oc->info->nlist[i].n_value;
oc->n_symbols++;
}
else if((oc->info->nlist[i].n_type & N_TYPE) == N_SECT)
oc->n_symbols++;
}
}
}
/* allocate space for the exported symbols
* in the object code. This is used to track
* which symbols will have to be removed when
* this object code is unloaded
*/
IF_DEBUG(linker, debugBelch("ocGetNames_MachO: %d external symbols\n",
oc->n_symbols));
oc->symbols = stgMallocBytes(oc->n_symbols * sizeof(Symbol_t),
"ocGetNames_MachO(oc->symbols)");
if (oc->info->symCmd) {
for (size_t i = 0; i < oc->info->n_macho_symbols; i++) {
SymbolName* nm = oc->info->macho_symbols[i].name;
if (oc->info->nlist[i].n_type & N_STAB)
{
IF_DEBUG(linker_verbose, debugBelch("ocGetNames_MachO: Skip STAB: %s\n", nm));
}
else if ((oc->info->nlist[i].n_type & N_TYPE) == N_SECT)
{
if (oc->info->nlist[i].n_type & N_EXT)
{
if ( (oc->info->nlist[i].n_desc & N_WEAK_DEF)
&& lookupDependentSymbol(nm, oc, NULL)) {
// weak definition, and we already have a definition
IF_DEBUG(linker_verbose, debugBelch(" weak: %s\n", nm));
}
else
{
IF_DEBUG(linker_verbose, debugBelch("ocGetNames_MachO: inserting %s\n", nm));
SymbolAddr* addr = oc->info->macho_symbols[i].addr;
// TODO: Make figure out how to determine this from the object file
SymType sym_type = SYM_TYPE_CODE;
ghciInsertSymbolTable( oc->fileName
, symhash
, nm
, addr
, HS_BOOL_FALSE
, sym_type
, oc);
oc->symbols[curSymbol].name = nm;
oc->symbols[curSymbol].addr = addr;
oc->symbols[curSymbol].type = sym_type;
curSymbol++;
}
}
else
{
IF_DEBUG(linker_verbose, debugBelch("ocGetNames_MachO: \t...not external, skipping %s\n", nm));
}
}
else
{
IF_DEBUG(linker_verbose, debugBelch("ocGetNames_MachO: \t...not defined in this section, skipping %s\n", nm));
}
}
}
/* setup the common storage */
commonStorage = stgCallocBytes(1,commonSize,"ocGetNames_MachO(common symbols)");
commonCounter = (unsigned long)commonStorage;
if (oc->info->symCmd) {
for (size_t i = 0; i < oc->info->n_macho_symbols; i++) {
SymbolName* nm = oc->info->macho_symbols[i].name;
MachONList *nlist = &oc->info->nlist[i];
if((nlist->n_type & N_TYPE) == N_UNDF
&& (nlist->n_type & N_EXT)
&& (nlist->n_value != 0)) {
unsigned long sz = nlist->n_value;
nlist->n_value = commonCounter;
/* also set the final address to the macho_symbol */
oc->info->macho_symbols[i].addr = (void*)commonCounter;
/* TODO: Figure out how to determine this from object */
SymType sym_type = SYM_TYPE_CODE;
IF_DEBUG(linker_verbose, debugBelch("ocGetNames_MachO: inserting common symbol: %s\n", nm));
ghciInsertSymbolTable(oc->fileName, symhash, nm,
(void*)commonCounter, HS_BOOL_FALSE, sym_type, oc);
oc->symbols[curSymbol].name = nm;
oc->symbols[curSymbol].addr = oc->info->macho_symbols[i].addr;
curSymbol++;
commonCounter += sz;
}
}
}
#if defined(aarch64_HOST_ARCH)
/* Setup the global offset table
* This is for symbols that are external, and not defined here.
* So that we can load their address indirectly.
*
* We will get GOT request for any symbol that is
* - EXT and UNDF
* - EXT and not in the same section.
*
* As sections are not necessarily contiguous and can live
* anywhere in the addressable space. This obviously makes
* sense. However it took me a while to figure this out.
*/
makeGot(oc);
/* at this point, macho_symbols, should know the addresses for
* all symbols defined by this object code.
* - those that are defined in sections.
* - those that are undefined, but have a value (common storage).
*/
#endif
IF_DEBUG(linker, debugBelch("ocGetNames_MachO: done\n"));
return 1;
}
static bool
ocMprotect_MachO( ObjectCode *oc )
{
for(int i=0; i < oc->n_segments; i++) {
Segment *segment = &oc->segments[i];
if(segment->size == 0) continue;
if(segment->prot == SEGMENT_PROT_RX) {
mprotectForLinker(segment->start, segment->size, MEM_READ_EXECUTE);
}
}
// Also mark mmaped, sections executable. Those are not part of the
// segments anymore and have been mapped separately.
for(int i=0; i < oc->n_sections; i++) {
Section *section = &oc->sections[i];
if(section->size == 0) continue;
if(section->alloc != SECTION_MMAP) continue;
// N.B. m32 handles protection of its allocations during
// flushing.
if(section->alloc == SECTION_M32) continue;
switch (section->kind) {
case SECTIONKIND_CODE_OR_RODATA: {
mprotectForLinker(section->mapped_start, section->mapped_size, MEM_READ_EXECUTE);
break;
}
default:
break;
}
}
return true;
}
int
ocResolve_MachO(ObjectCode* oc)
{
IF_DEBUG(linker, debugBelch("ocResolve_MachO: %s start\n", OC_INFORMATIVE_FILENAME(oc)));
if(NULL != oc->info->dsymCmd)
{
unsigned long *indirectSyms
= (unsigned long*) (oc->image + oc->info->dsymCmd->indirectsymoff);
IF_DEBUG(linker, debugBelch("ocResolve_MachO: resolving dsymLC\n"));
for (int i = 0; i < oc->n_sections; i++)
{
const char * sectionName = oc->info->macho_sections[i].sectname;
IF_DEBUG(linker, debugBelch("ocResolve_MachO: section %d/%d: %s\n", i, oc->n_sections, sectionName));
if( !strcmp(sectionName,"__la_symbol_ptr")
|| !strcmp(sectionName,"__la_sym_ptr2")
|| !strcmp(sectionName,"__la_sym_ptr3"))
{
if(!resolveImports(oc,&oc->info->macho_sections[i],
indirectSyms))
return 0;
}
else if(!strcmp(sectionName,"__nl_symbol_ptr")
|| !strcmp(sectionName,"__pointers"))
{
if(!resolveImports(oc,&oc->info->macho_sections[i],
indirectSyms))
return 0;
}
else if(!strcmp(sectionName,"__jump_table"))
{
if(!resolveImports(oc,&oc->info->macho_sections[i],
indirectSyms))
return 0;
}
else
{
IF_DEBUG(linker, debugBelch("ocResolve_MachO: unknown section %d/%d\n", i, oc->n_sections));
}
}
}
#if defined(aarch64_HOST_ARCH)
/* fill the GOT table */
for(size_t i = 0; i < oc->info->n_macho_symbols; i++) {
MachOSymbol * symbol = &oc->info->macho_symbols[i];
if(needGotSlot(symbol->nlist)) {
if(N_UNDF == (symbol->nlist->n_type & N_TYPE)) {
/* an undefined symbol. So we need to ensure we
* have the address.
*/
if(NULL == symbol->addr) {
symbol->addr = lookupDependentSymbol((char*)symbol->name, oc, NULL);
if(NULL == symbol->addr) {
errorBelch("Failed to lookup symbol: %s", symbol->name);
return 0;
}
} else {
// we already have the address.
}
} /* else it was defined in the same object,
* just a different section. We should have
* the address as well already
*/
if(NULL == symbol->addr) {
errorBelch("Symbol %s has no address!\n", (char*)symbol->name);
return 0;
}
if(NULL == symbol->got_addr) {
errorBelch("Symbol %s has no Global Offset Table address!\n", (char*)symbol->name);
return 0;
}
*(uint64_t*)symbol->got_addr = (uint64_t)symbol->addr;
}
}
#endif
for(int i = 0; i < oc->n_sections; i++)
{
IF_DEBUG(linker, debugBelch("ocResolve_MachO: relocating section %d/%d\n", i, oc->n_sections));
#if defined(aarch64_HOST_ARCH)
if (!relocateSectionAarch64(oc, &oc->sections[i]))
return 0;
#else
if (!relocateSection(oc, i))
return 0;
#endif
}
if(!ocMprotect_MachO ( oc ))
return 0;
return 1;
}
int
ocRunInit_MachO ( ObjectCode *oc )
{
if (NULL == oc->info->segCmd) {
barf("ocRunInit_MachO: no segment load command");
}
int argc, envc;
char **argv, **envv;
getProgArgv(&argc, &argv);
getProgEnvv(&envc, &envv);
for (int i = 0; i < oc->n_sections; i++) {
IF_DEBUG(linker, debugBelch("ocRunInit_MachO: checking section %d\n", i));
if (oc->sections[i].kind == SECTIONKIND_INIT_ARRAY) {
IF_DEBUG(linker, debugBelch("ocRunInit_MachO: running mod init functions\n"));
void *init_startC = oc->sections[i].start;
init_t *init = (init_t*)init_startC;
init_t *init_end = (init_t*)((uint8_t*)init_startC
+ oc->sections[i].info->macho_section->size);
for (int pn = 0; init < init_end; init++, pn++) {
IF_DEBUG(linker, debugBelch("ocRunInit_MachO: function pointer %d at %p to %p\n",
pn, (void *) init, (void *) *init));
(*init)(argc, argv, envv);
}
}
}
freeProgEnvv(envc, envv);
return 1;
}
/*
* Figure out by how much to shift the entire Mach-O file in memory
* when loading so that its single segment ends up 16-byte-aligned
*/
int
machoGetMisalignment( FILE * f )
{
MachOHeader header;
int misalignment;
{
size_t n = fread(&header, sizeof(header), 1, f);
if (n != 1) {
barf("machoGetMisalignment: can't read the Mach-O header");
}
}
fseek(f, -sizeof(header), SEEK_CUR);
if(header.magic != MH_MAGIC_64) {
barf("Bad magic. Expected: %08x, got: %08x.",
MH_MAGIC_64, header.magic);
}
misalignment = (header.sizeofcmds + sizeof(header))
& 0xF;
IF_DEBUG(linker, debugBelch("mach-o misalignment %d\n", misalignment));
return misalignment ? (16 - misalignment) : 0;
}
#endif /* darwin_HOST_OS || ios_HOST_OS */
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