#include <mach/mach_types.h>
#include <mach/vm_attributes.h>
#include <mach/vm_param.h>
#include <libsa/types.h>
#include <vm/vm_map.h>
#include <i386/pmap.h>
#include <kdp/kdp_core.h>
#include <kdp/kdp_internal.h>
#include <mach-o/loader.h>
#include <mach/vm_map.h>
#include <mach/vm_statistics.h>
#include <mach/thread_status.h>
#include <i386/thread.h>
#include <vm/vm_protos.h>
#include <vm/vm_kern.h>
int kern_dump(void);
int kdp_dump_trap(int type, x86_saved_state32_t *regs);
typedef struct {
int flavor;
mach_msg_type_number_t count;
} mythread_state_flavor_t;
static mythread_state_flavor_t thread_flavor_array [] = {
{x86_THREAD_STATE32, x86_THREAD_STATE32_COUNT}
};
static int kdp_mynum_flavors = 1;
static int MAX_TSTATE_FLAVORS = 1;
typedef struct {
vm_offset_t header;
int hoffset;
mythread_state_flavor_t *flavors;
int tstate_size;
} tir_t;
char command_buffer[512];
static void
kern_collectth_state(thread_t thread, tir_t *t)
{
vm_offset_t header;
int hoffset, i ;
mythread_state_flavor_t *flavors;
struct thread_command *tc;
header = t->header;
hoffset = t->hoffset;
flavors = t->flavors;
tc = (struct thread_command *) (header + hoffset);
tc->cmd = LC_THREAD;
tc->cmdsize = sizeof(struct thread_command) + t->tstate_size;
hoffset += sizeof(struct thread_command);
for (i = 0; i < kdp_mynum_flavors; i++) {
*(mythread_state_flavor_t *)(header+hoffset) =
flavors[i];
hoffset += sizeof(mythread_state_flavor_t);
if (flavors[i].flavor == x86_THREAD_STATE32) {
x86_thread_state32_t *tstate = (x86_thread_state32_t *) (header + hoffset);
vm_offset_t kstack;
bzero(tstate, x86_THREAD_STATE32_COUNT * sizeof(int));
if ((kstack = thread->kernel_stack) != 0){
struct x86_kernel_state *iks = STACK_IKS(kstack);
tstate->ebx = iks->k_ebx;
tstate->esp = iks->k_esp;
tstate->ebp = iks->k_ebp;
tstate->edi = iks->k_edi;
tstate->esi = iks->k_esi;
tstate->eip = iks->k_eip;
}
}
else if (machine_thread_get_kern_state(thread,
flavors[i].flavor, (thread_state_t) (header+hoffset),
&flavors[i].count) != KERN_SUCCESS)
printf ("Failure in machine_thread_get_kern_state()\n");
hoffset += flavors[i].count*sizeof(int);
}
t->hoffset = hoffset;
}
int
kdp_dump_trap(
int type,
__unused x86_saved_state32_t *saved_state)
{
printf ("An unexpected trap (type %d) occurred during the system dump, terminating.\n", type);
kdp_send_crashdump_pkt (KDP_EOF, NULL, 0, ((void *) 0));
abort_panic_transfer();
kdp_flag &= ~KDP_PANIC_DUMP_ENABLED;
kdp_flag &= ~PANIC_CORE_ON_NMI;
kdp_flag &= ~PANIC_LOG_DUMP;
kdp_reset();
kdp_raise_exception(EXC_BAD_ACCESS, 0, 0, kdp.saved_state);
return( 0 );
}
int
kern_dump(void)
{
vm_map_t map;
unsigned int thread_count, segment_count;
unsigned int command_size = 0, header_size = 0, tstate_size = 0;
uint64_t hoffset = 0, foffset = 0, nfoffset = 0, max_header_size;
vm_offset_t header, txstart;
vm_address_t vmoffset;
struct mach_header *mh;
struct segment_command *sc;
vm_size_t size;
vm_prot_t prot = 0;
vm_prot_t maxprot = 0;
mythread_state_flavor_t flavors[MAX_TSTATE_FLAVORS];
vm_size_t nflavors;
vm_size_t i;
uint32_t nesting_depth = 0;
kern_return_t kret = 0;
struct vm_region_submap_info_64 vbr;
mach_msg_type_number_t vbrcount = 0;
tir_t tir1;
int error = 0;
int panic_error = 0;
map = kernel_map;
thread_count = 1;
segment_count = get_vmmap_entries(map);
printf("Kernel map has %d entries\n", segment_count);
nflavors = kdp_mynum_flavors;
bcopy((char *)thread_flavor_array,(char *) flavors,sizeof(thread_flavor_array));
for (i = 0; i < nflavors; i++)
tstate_size += sizeof(mythread_state_flavor_t) +
(flavors[i].count * sizeof(int));
command_size = (segment_count) *
sizeof(struct segment_command) +
thread_count * sizeof(struct thread_command) +
tstate_size * thread_count;
header_size = command_size + sizeof(struct mach_header);
header = (vm_offset_t) command_buffer;
printf ("Generated Mach-O header size was %d\n", header_size);
mh = (struct mach_header *) header;
mh->magic = MH_MAGIC;
mh->cputype = cpu_type();
mh->cpusubtype = cpu_subtype();
mh->filetype = MH_CORE;
mh->ncmds = segment_count + thread_count;
mh->sizeofcmds = command_size;
mh->flags = 0;
hoffset = sizeof(struct mach_header);
foffset = round_page_32(header_size);
if ((foffset - header_size) < (4*sizeof(struct segment_command))) {
foffset += ((4*sizeof(struct segment_command)) - (foffset-header_size));
}
max_header_size = foffset;
vmoffset = VM_MIN_KERNEL_ADDRESS;
if ((panic_error = kdp_send_crashdump_pkt (KDP_SEEK, NULL, sizeof(nfoffset) , &nfoffset)) < 0) {
printf ("kdp_send_crashdump_pkt failed with error %d\n", panic_error);
error = panic_error;
goto out;
}
if ((panic_error = kdp_send_crashdump_data (KDP_DATA, NULL, sizeof(struct mach_header), (caddr_t) mh) < 0)) {
printf ("kdp_send_crashdump_data failed with error %d\n", panic_error);
error = panic_error;
goto out;
}
if ((panic_error = kdp_send_crashdump_pkt (KDP_SEEK, NULL, sizeof(foffset) , &foffset) < 0)) {
printf ("kdp_send_crashdump_pkt failed with error %d\n", panic_error);
error = panic_error;
goto out;
}
printf ("Transmitting kernel state:\n");
while ((segment_count > 0) || (kret == KERN_SUCCESS)) {
while (1) {
vbrcount = VM_REGION_SUBMAP_INFO_COUNT_64;
if((kret = vm_region_recurse_64(map,
&vmoffset, &size, &nesting_depth,
(vm_region_recurse_info_t)&vbr,
&vbrcount)) != KERN_SUCCESS) {
break;
}
if(vbr.is_submap) {
nesting_depth++;
continue;
} else {
break;
}
}
if(kret != KERN_SUCCESS)
break;
prot = vbr.protection;
maxprot = vbr.max_protection;
if (hoffset > max_header_size)
break;
sc = (struct segment_command *) (header);
sc->cmd = LC_SEGMENT;
sc->cmdsize = sizeof(struct segment_command);
sc->segname[0] = 0;
sc->vmaddr = vmoffset;
sc->vmsize = size;
sc->fileoff = (uint32_t) foffset;
sc->filesize = size;
sc->maxprot = maxprot;
sc->initprot = prot;
sc->nsects = 0;
if ((panic_error = kdp_send_crashdump_pkt (KDP_SEEK, NULL, sizeof(hoffset) , &hoffset)) < 0) {
printf ("kdp_send_crashdump_pkt failed with error %d\n", panic_error);
error = panic_error;
goto out;
}
if ((panic_error = kdp_send_crashdump_data (KDP_DATA, NULL, sizeof(struct segment_command) , (caddr_t) sc)) < 0) {
printf ("kdp_send_crashdump_data failed with error %d\n", panic_error);
error = panic_error;
goto out;
}
if ((vbr.user_tag != VM_MEMORY_IOKIT)) {
if ((panic_error = kdp_send_crashdump_pkt (KDP_SEEK, NULL, sizeof(foffset) , &foffset)) < 0) {
printf ("kdp_send_crashdump_pkt failed with error %d\n", panic_error);
error = panic_error;
goto out;
}
txstart = vmoffset;
if ((panic_error = kdp_send_crashdump_data (KDP_DATA, NULL, size, (caddr_t) txstart)) < 0) {
printf ("kdp_send_crashdump_data failed with error %d\n", panic_error);
error = panic_error;
goto out;
}
}
hoffset += sizeof(struct segment_command);
foffset += size;
vmoffset += size;
segment_count--;
}
tir1.header = header;
tir1.hoffset = 0;
tir1.flavors = flavors;
tir1.tstate_size = tstate_size;
kern_collectth_state (current_thread(), &tir1);
if ((panic_error = kdp_send_crashdump_pkt (KDP_SEEK, NULL, sizeof(hoffset) , &hoffset)) < 0) {
printf ("kdp_send_crashdump_pkt failed with error %d\n", panic_error);
error = panic_error;
goto out;
}
if ((panic_error = kdp_send_crashdump_data (KDP_DATA, NULL, tir1.hoffset , (caddr_t) header)) < 0) {
printf ("kdp_send_crashdump_data failed with error %d\n", panic_error);
error = panic_error;
goto out;
}
if ((panic_error = kdp_send_crashdump_pkt (KDP_EOF, NULL, 0, ((void *) 0))) < 0) {
printf ("kdp_send_crashdump_pkt failed with error %d\n", panic_error);
error = panic_error;
goto out;
}
out:
return (error);
}