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--- dyld/dyld-45.1/src/dyldInitialization.cpp
+++ dyld/dyld-97.1/src/dyldInitialization.cpp
@@ -22,8 +22,11 @@
* @APPLE_LICENSE_HEADER_END@
*/
+#define __STDC_LIMIT_MACROS
+#include <stdint.h>
#include <stddef.h>
#include <string.h>
+#include <stdlib.h>
#include <mach/mach.h>
#include <mach-o/loader.h>
#include <mach-o/ldsyms.h>
@@ -31,7 +34,15 @@
#if __ppc__ || __ppc64__
#include <mach-o/ppc/reloc.h>
#endif
+#if __x86_64__
+ #include <mach-o/x86_64/reloc.h>
+#endif
#include "dyld.h"
+
+#ifndef MH_PIE
+ #define MH_PIE 0x200000
+#endif
+
#if __LP64__
#define macho_header mach_header_64
@@ -47,7 +58,15 @@
#define RELOC_SIZE 2
#endif
+#if __x86_64__
+ #define POINTER_RELOC X86_64_RELOC_UNSIGNED
+#else
#define POINTER_RELOC GENERIC_RELOC_VANILLA
+#endif
+
+// from dyld.cpp
+namespace dyld { extern bool isRosetta(); };
+
//
// Code to bootstrap dyld into a runnable state
@@ -107,6 +126,9 @@
const struct load_command* const cmds = (struct load_command*)(((char*)mh)+sizeof(macho_header));
const struct load_command* cmd = cmds;
const struct macho_segment_command* linkEditSeg = NULL;
+#if __x86_64__
+ const struct macho_segment_command* firstWritableSeg = NULL;
+#endif
const struct dysymtab_command* dynamicSymbolTable = NULL;
for (uint32_t i = 0; i < cmd_count; ++i) {
switch (cmd->cmd) {
@@ -128,6 +150,10 @@
}
}
}
+#if __x86_64__
+ if ( (firstWritableSeg == NULL) && (seg->initprot & VM_PROT_WRITE) )
+ firstWritableSeg = seg;
+#endif
}
break;
case LC_DYSYMTAB:
@@ -138,7 +164,11 @@
}
// use reloc's to rebase all random data pointers
+#if __x86_64__
+ const uintptr_t relocBase = firstWritableSeg->vmaddr + slide;
+#else
const uintptr_t relocBase = (uintptr_t)mh;
+#endif
const relocation_info* const relocsStart = (struct relocation_info*)(linkEditSeg->vmaddr + slide + dynamicSymbolTable->locreloff - linkEditSeg->fileoff);
const relocation_info* const relocsEnd = &relocsStart[dynamicSymbolTable->nlocrel];
for (const relocation_info* reloc=relocsStart; reloc < relocsEnd; ++reloc) {
@@ -176,7 +206,7 @@
vm_size_t size = seg->vmsize;
const bool setCurrentPermissions = false;
vm_protect(mach_task_self(), addr, size, setCurrentPermissions, seg->initprot);
- //fprintf(stderr, "dyld: segment %s, 0x%08X -> 0x%08X, set to %d\n", seg->segname, addr, addr+size-1, seg->initprot);
+ //dyld::log("dyld: segment %s, 0x%08X -> 0x%08X, set to %d\n", seg->segname, addr, addr+size-1, seg->initprot);
}
break;
}
@@ -185,8 +215,113 @@
}
+
+//
+// re-map the main executable to a new random address
+//
+static const struct mach_header* randomizeExecutableLoadAddress(const struct mach_header* orgMH, uintptr_t* appsSlide)
+{
+#if __ppc__
+ // don't slide PIE programs running under rosetta
+ if ( dyld::isRosetta() )
+ return orgMH;
+#endif
+ // count segments
+ uint32_t segCount = 0;
+ const uint32_t cmd_count = orgMH->ncmds;
+ const struct load_command* const cmds = (struct load_command*)(((char*)orgMH)+sizeof(macho_header));
+ const struct load_command* cmd = cmds;
+ for (uint32_t i = 0; i < cmd_count; ++i) {
+ if ( cmd->cmd == LC_SEGMENT_COMMAND ) {
+ const struct macho_segment_command* segCmd = (struct macho_segment_command*)cmd;
+ // page-zero and custom stacks don't move
+ if ( (strcmp(segCmd->segname, "__PAGEZERO") != 0) && (strcmp(segCmd->segname, "__UNIXSTACK") != 0) )
+ ++segCount;
+ }
+ cmd = (const struct load_command*)(((char*)cmd)+cmd->cmdsize);
+ }
+
+ // make copy of segment info
+ macho_segment_command segs[segCount];
+ uint32_t index = 0;
+ uintptr_t highestAddressUsed = 0;
+ uintptr_t lowestAddressUsed = UINTPTR_MAX;
+ cmd = cmds;
+ for (uint32_t i = 0; i < cmd_count; ++i) {
+ if ( cmd->cmd == LC_SEGMENT_COMMAND ) {
+ const struct macho_segment_command* segCmd = (struct macho_segment_command*)cmd;
+ if ( (strcmp(segCmd->segname, "__PAGEZERO") != 0) && (strcmp(segCmd->segname, "__UNIXSTACK") != 0) ) {
+ segs[index++] = *segCmd;
+ if ( (segCmd->vmaddr + segCmd->vmsize) > highestAddressUsed )
+ highestAddressUsed = ((segCmd->vmaddr + segCmd->vmsize) + 4095) & -4096;
+ if ( segCmd->vmaddr < lowestAddressUsed )
+ lowestAddressUsed = segCmd->vmaddr;
+ // do nothing if kernel has already randomized load address
+ if ( (strcmp(segCmd->segname, "__TEXT") == 0) && (segCmd->vmaddr != (uintptr_t)orgMH) )
+ return orgMH;
+ }
+ }
+ cmd = (const struct load_command*)(((char*)cmd)+cmd->cmdsize);
+ }
+
+ // choose a random new base address
+#if __LP64__
+ uintptr_t highestAddressPossible = highestAddressUsed + 0x100000000ULL;
+#else
+ uintptr_t highestAddressPossible = 0x80000000;
+#endif
+ uintptr_t sizeNeeded = highestAddressUsed-lowestAddressUsed;
+ if ( (highestAddressPossible-sizeNeeded) < highestAddressUsed ) {
+ // new and old segments will overlap
+ // need better algorithm for remapping
+ // punt and don't re-map
+ return orgMH;
+ }
+ uintptr_t possibleRange = (highestAddressPossible-sizeNeeded) - highestAddressUsed;
+ uintptr_t newBaseAddress = highestAddressUsed + ((arc4random() % possibleRange) & -4096);
+
+ vm_address_t addr = newBaseAddress;
+ // reserve new address range
+ if ( vm_allocate(mach_task_self(), &addr, sizeNeeded, VM_FLAGS_FIXED) == KERN_SUCCESS ) {
+ // copy each segment to new address
+ for (uint32_t i = 0; i < segCount; ++i) {
+ uintptr_t newSegAddress = segs[i].vmaddr - lowestAddressUsed + newBaseAddress;
+ if ( (vm_copy(mach_task_self(), segs[i].vmaddr, segs[i].vmsize, newSegAddress) != KERN_SUCCESS)
+ || (vm_protect(mach_task_self(), newSegAddress, segs[i].vmsize, true, segs[i].maxprot) != KERN_SUCCESS)
+ || (vm_protect(mach_task_self(), newSegAddress, segs[i].vmsize, false, segs[i].initprot) != KERN_SUCCESS) ) {
+ // can't copy so dealloc new region and run with original base address
+ vm_deallocate(mach_task_self(), newBaseAddress, sizeNeeded);
+ dyld::warn("could not relocate position independent exectable\n");
+ return orgMH;
+ }
+ }
+ // unmap original segments
+ vm_deallocate(mach_task_self(), lowestAddressUsed, highestAddressUsed-lowestAddressUsed);
+
+ // run with newly mapped executable
+ *appsSlide = newBaseAddress - lowestAddressUsed;
+ return (const struct mach_header*)newBaseAddress;
+ }
+
+ // can't get new range, so don't slide to random address
+ return orgMH;
+}
+
+
extern "C" void dyld_exceptions_init(const struct macho_header*, uintptr_t slide); // in dyldExceptions.cpp
extern "C" void mach_init();
+
+//
+// _pthread_keys is partitioned in a lower part that dyld will use; libSystem
+// will use the upper part. We set __pthread_tsd_first to 1 as the start of
+// the lower part. Libc will take #1 and c++ exceptions will take #2. There
+// is one free key=3 left.
+//
+extern "C" {
+ extern int __pthread_tsd_first;
+ extern void _pthread_keys_init();
+}
+
//
// This is code to bootstrap dyld. This work in normally done for a program by dyld and crt.
@@ -203,6 +338,12 @@
rebaseDyld(dyldsMachHeader, slide);
}
+ uintptr_t appsSlide = 0;
+
+ // set pthread keys to dyld range
+ __pthread_tsd_first = 1;
+ _pthread_keys_init();
+
// enable C++ exceptions to work inside dyld
dyld_exceptions_init(dyldsMachHeader, slide);
@@ -223,8 +364,12 @@
// run all C++ initializers inside dyld
runDyldInitializers(dyldsMachHeader, slide, argc, argv, envp, apple);
+ // if main executable was linked -pie, then randomize its load address
+ if ( appsMachHeader->flags & MH_PIE )
+ appsMachHeader = randomizeExecutableLoadAddress(appsMachHeader, &appsSlide);
+
// now that we are done bootstrapping dyld, call dyld's main
- return dyld::_main(appsMachHeader, argc, argv, envp, apple);
+ return dyld::_main(appsMachHeader, appsSlide, argc, argv, envp, apple);
}