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sk3wldbg.cpp
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sk3wldbg.cpp
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/*
Source for Sk3wlDbg IdaPro plugin
Copyright (c) 2016 Chris Eagle
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the Free
Software Foundation; either version 2 of the License, or (at your option)
any later version.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.
You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc., 59 Temple
Place, Suite 330, Boston, MA 02111-1307 USA
*/
/*
* This is the Sk3wlDbg plugin module
*
* It is known to compile with
*
* - Visual Studio 2010, Linux g++, OS X - clang
*
*/
#define USE_DANGEROUS_FUNCTIONS
#ifdef __NT__
#ifdef _WIN32
#include <windows.h>
#ifndef _MSC_VER
//#include <windows.h>
#endif
//#include <winsock2.h>
#endif
#include <winnt.h>
#include <wincrypt.h>
#else
//#ifndef __NT__
#include <stdio.h>
#include <fcntl.h>
#include <time.h>
#include <unistd.h>
#include <sys/time.h>
#endif
#ifdef PACKED
#undef PACKED
#endif
#define USE_STANDARD_FILE_FUNCTIONS
#include <unicorn/unicorn.h>
#include <pro.h>
#include <ida.hpp>
#include <idp.hpp>
#include <bytes.hpp>
#include <auto.hpp>
#include <loader.hpp>
#include <kernwin.hpp>
#include <typeinf.hpp>
#include <nalt.hpp>
#include <segment.hpp>
#include <segregs.hpp>
#include <typeinf.hpp>
#include <struct.hpp>
#include <entry.hpp>
#include <dbg.hpp>
#include <idd.hpp>
#include <ua.hpp>
#include "sk3wldbg.h"
#include "loader.h"
#ifdef DEBUG
#undef DEBUG
#else
#undef DEBUG
#endif
//#define DEBUG
static ssize_t idaapi idd_hook(void * /* ud */, int notification_code, va_list va);
struct safe_msg : public exec_request_t {
qstring the_msg;
safe_msg(qstring &msg) : the_msg(msg) {};
int idaapi execute(void);
};
int idaapi safe_msg::execute(void) {
msg("%s", the_msg.c_str());
return 0;
}
//Not certain this is necessary, but included to provide for message printing from
//the unicorn thread
void do_safe_msg(const char *msg) {
qstring m(msg);
safe_msg req(m);
execute_sync(req, MFF_FAST);
}
qstring *get_process_name(void) {
char buf[1024];
ssize_t sz = get_root_filename(buf, sizeof(buf));
return new qstring(buf);
}
static ssize_t idaapi idb_hook(void *user_data, int notification_code, va_list va) {
sk3wldbg *uc = (sk3wldbg*)user_data;
switch (notification_code) {
case idb_event::segm_added: {
segment_t *seg = va_arg(va, segment_t *);
uintptr_t start = seg->start_ea;
uintptr_t end = seg->end_ea;
//msg("idb_hook uc == %p\n", uc);
//msg("offset to uc->memmgr == 0x%x\n", ((char*)&uc->memmgr) - (char*)uc);
//msg("uc->memmgr == %p\n", uc->memmgr);
msg("segm_added mapping, %p:%p\n", (void*)start, (void*)end);
if (uc->memmgr->find_block(start) == NULL) {
msg("segm_added mapping, %p:%p\n", (void*)start, (void*)end);
uc->map_mem_zero(start, end, UC_PROT_READ | UC_PROT_WRITE | UC_PROT_EXEC, SDB_MAP_FIXED);
msg("segm_added mapped, %p:%p\n", (void*)start, (void*)end);
} else {
msg("segm_added already mapped\n");
}
return 1;
}
}
return 0;
}
/// Initialize debugger.
/// This function is called from the main thread.
/// \return success
bool idaapi uni_init_debugger(const char * /*hostname*/, int /*portnum*/, const char * /*password*/, qstring * /*errbuf*/) {
sk3wldbg *uc = (sk3wldbg*)dbg;
#ifdef DEBUG
msg("uni_init_debugger called\n");
#endif
return true;
}
/// Terminate debugger.
/// This function is called from the main thread.
/// \return success
bool idaapi uni_term_debugger(void) {
sk3wldbg *uc = (sk3wldbg*)dbg;
#ifdef DEBUG
msg("uni_term_debugger called\n");
#endif
// safe_msg req("uni_term_debugger called\n");
// execute_sync(req, MFF_FAST);
if (uc->uc) {
uc->emu_state = RS_TERM;
qsem_post(uc->run_sem);
//***synchronize here to make sure execution thread has stopped
qthread_join(uc->process_thread);
// msg("uni_term_debugger thread joined\n");
uc->close();
if (uc->registered_menu) {
detach_action_from_menu("Debugger/Take memory snapshot", "sk3wldbg:mem_map");
// unregister_action("sk3wldbg:mem_map");
uc->registered_menu = false;
}
// uc->uc = NULL;
}
unhook_from_notification_point(::HT_IDB, idb_hook);
// safe_msg req2("uni_term_debugger complete\n");
// execute_sync(req2, MFF_FAST);
return true;
}
bool sk3wldbg::queue_exception_event(uint32_t code, uint64_t mem_addr, const char *errmsg) {
debug_event_t exc;
exc.set_eid(::EXCEPTION);
exc.pid = the_process;
exc.tid = the_threads.front();
exc.ea = (ea_t)get_pc();
#ifdef DEBUG
qstring msgbuf;
msgbuf.sprnt("Exception occurred at: %p\n", (void*)exc.ea);
msg("%s", msgbuf.c_str());
#endif
exc.handled = true;
excinfo_t &xcpt = exc.exc();
xcpt.info = errmsg;
xcpt.code = code;
xcpt.can_cont = false;
xcpt.ea = (ea_t)mem_addr;
enqueue_debug_evt(exc);
return true;
}
void sk3wldbg::queue_step_event(uint64_t _pc) {
debug_event_t cont;
cont.set_eid(::STEP);
cont.pid = the_process;
cont.tid = the_threads.front();
cont.ea = (ea_t)_pc;
cont.handled = true;
enqueue_debug_evt(cont);
}
bool sk3wldbg::queue_bpt_event(bool is_hardware) {
debug_event_t brk;
brk.set_eid(::BREAKPOINT);
bptaddr_t &bpt = brk.bpt();
brk.pid = the_process;
brk.tid = the_threads.front();
brk.ea = (ea_t)get_pc();
#ifdef DEBUG
qstring msgbuf;
msgbuf.sprnt("Breakpoint hit at: %p\n", (void*)brk.ea);
msg("%s", msgbuf.c_str());
#endif
brk.handled = true;
bpt.hea = is_hardware ? brk.ea : BADADDR;
bpt.kea = BADADDR;
enqueue_debug_evt(brk);
return true;
}
struct print_pc : public exec_request_t {
uint64_t pc;
print_pc(uint64_t _pc) : pc(_pc) {};
int idaapi execute(void);
};
int idaapi print_pc::execute(void) {
#ifdef DEBUG
qstring msgbuf;
msgbuf.sprnt("processRunner running from %p\n", (void*)pc);
msg("%s", msgbuf.c_str());
#endif
return 0;
}
int idaapi processRunner(void *unicorn) {
sk3wldbg *uc = (sk3wldbg*)unicorn;
uint64_t pc = uc->get_pc();
if (pc == 0) {
msg("PC was not set previously, going with screen EA\n");
pc = get_screen_ea();
} else {
qstring msgbuf;
msgbuf.sprnt("PC was set previously to %p\n", (void*)pc);
msg("%s", msgbuf.c_str());
}
uc->start(pc);
//unicorn start has returned, process has ended, so tell IDA to detach
debug_event_t detach;
detach.set_eid(PROCESS_DETACHED);
detach.pid = uc->the_process;
detach.tid = uc->the_threads.front();
detach.ea = BADADDR;
detach.handled = true;
uc->enqueue_debug_evt(detach);
return 0;
}
/// Return information about the n-th "compatible" running process.
/// If n is 0, the processes list is reinitialized.
/// This function is called from the main thread.
/// \retval 1 ok
/// \retval 0 failed
/// \retval -1 network error
int idaapi uni_get_processes(procinfo_vec_t *procs, qstring * /*errbuf*/) {
#ifdef DEBUG
msg("uni_get_processes called\n");
#endif
sk3wldbg *uc = (sk3wldbg*)dbg;
process_info_t info;
qstring *procname = get_process_name();
info.name = *procname;
delete procname;
info.pid = uc->the_process;
procs->push_back(info);
return 1;
}
#if IDA_SDK_VERSION < 700
//*** Learn proper way to do this in Ida 7.0
struct install_menu : public exec_request_t {
sk3wldbg *uc;
install_menu(sk3wldbg *_uc) : uc(_uc) {};
int idaapi execute(void);
};
int idaapi install_menu::execute(void) {
attach_action_to_menu("Debugger/Take memory snapshot", "sk3wldbg:mem_map", SETMENU_APP);
enable_menu_item("Debugger/Map memory...", false);
uc->registered_menu = true;
return 0;
}
#endif
/// Start an executable to debug.
/// This function is called from debthread.
/// \param path path to executable
/// \param args arguments to pass to executable
/// \param startdir current directory of new process
/// \param dbg_proc_flags \ref DBG_PROC_
/// \param input_path path to database input file.
/// (not always the same as 'path' - e.g. if you're analyzing
/// a dll and want to launch an executable that loads it)
/// \param input_file_crc32 CRC value for 'input_path'
/// \retval 1 ok
/// \retval 0 failed
/// \retval -2 file not found (ask for process options)
/// \retval 1 | #CRC32_MISMATCH ok, but the input file crc does not match
/// \retval -1 network error
int idaapi uni_start_process(const char * /*path*/,
const char *args,
const char * /*startdir*/,
int /*dbg_proc_flags*/,
const char *input_path,
uint32 /*input_file_crc32*/, qstring * /*errbuf*/) {
int choice = ask_buttons("Cursor", "Entry point", NULL, ASKBTN_YES, "Begin execution from:");
if (choice == ASKBTN_CANCEL) {
return 0;
}
#ifdef DEBUG
msg("uni_start_process called\n");
#endif
sk3wldbg *uc = (sk3wldbg*)dbg;
#if IDA_SDK_VERSION < 700
//*** Learn proper way to do this in Ida 7.0
install_menu req(uc);
execute_sync(req, MFF_FAST);
#endif
ea_t init_pc = BADADDR;
if (choice == ASKBTN_YES) {
init_pc = get_screen_ea();
uc->check_mode(init_pc);
}
if (!uc->open()) {
//failed to open unicorn instance
return 0;
}
qsem_free(uc->run_sem);
uc->run_sem = qsem_create(NULL, 0);
uc->pause_sem = qsem_create(NULL, 0);
qmutex_unlock(uc->evt_mutex);
uc->clear_memory();
uc->dbg_evt_list.clear();
uc->the_threads.clear();
uc->getRandomBytes(&uc->the_process, 2);
uc->the_process = (uc->the_process % 40000) + 1000;
thid_t a_thread = 0;
do {
uc->getRandomBytes(&a_thread, 2);
a_thread = (a_thread % 40000) + 1000;
} while (a_thread == (thid_t)uc->the_process);
uc->the_threads.push_back(a_thread);
FILE *bin = fopen(input_path, "rb");
bool loaded = false;
if (bin != NULL) {
msg("found input file %s\n", input_path);
if (fseek(bin, 0, SEEK_END) != 0) {
//HUH?
msg("SEEK_END fail\n");
} else {
long sz = ftell(bin);
void *img = malloc(sz);
if (img == NULL) {
//OOM
msg("image allocate fail\n");
} else {
msg("reading file of %u bytes\n", (uint32_t)sz);
fseek(bin, 0, SEEK_SET);
if (fread(img, sz, 1, bin) != 1) {
//fail
msg("fread fail\n");
} else {
loaded = loadImage(uc, img, sz, args, init_pc);
}
free(img);
}
}
fclose(bin);
}
void *buf16 = NULL; //memory pointer
if (uc->debug_mode == UC_MODE_16) {
//just map a megabyte
uc->init_memmgr(0, 0x100000);
buf16 = uc->map_mem_zero(0, 0x100000, UC_PROT_READ | UC_PROT_WRITE | UC_PROT_EXEC, SDB_MAP_FIXED);
} else if (uc->get_sp() == 0) {
//need a stack too, just sling it somewhere
//add it to uc->memory
unsigned int stack_top = 0xffffe000;
uc->init_memmgr(0, stack_top);
uc->map_mem_zero(stack_top - 0x100000, stack_top, UC_PROT_READ | UC_PROT_WRITE | UC_PROT_EXEC, SDB_MAP_FIXED);
stack_top -= 16;
uc->set_sp(stack_top);
}
if (!loaded) {
//didn't know format, let's try for what we need from IDA
//init memory, by copying from IDA
//May prefer instead to init from file, in which case we need loaders
//Also need to map in a stack and init stack pointer, this will be
//architecture dependent since each arch has its own SP register
//arch specific unicorns also need to set initial register state
segment_t *seg;
for (seg = get_first_seg(); seg != NULL; seg = get_next_seg(seg->start_ea)) {
void *buf;
ssize_t exact = (ssize_t)(seg->end_ea - seg->start_ea);
if (uc->debug_mode == UC_MODE_16) {
buf = seg->start_ea + (char*)buf16;
} else {
buf = uc->map_mem_zero(seg->start_ea, seg->end_ea, ida_to_uc_perms_map[seg->perm], SDB_MAP_FIXED);
}
get_bytes(buf, exact, seg->start_ea);
}
//need other ways to set PC, from start, user specified
uc->set_pc(init_pc);
} else { // we loaded it, but may need to load any additional segments that exist in IDA
segment_t *seg;
void *buf;
for (seg = get_first_seg(); seg != NULL; seg = get_next_seg(seg->start_ea)) {
if (seg->is_loader_segm()) {
//should have been handled by our loader
continue;
}
ssize_t exact = (ssize_t)(seg->end_ea - seg->start_ea);
buf = uc->map_mem_zero(seg->start_ea, seg->end_ea, ida_to_uc_perms_map[SEGPERM_EXEC | SEGPERM_WRITE | SEGPERM_READ], SDB_MAP_FIXED);
msg("trying to populate new segment\n");
get_bytes(buf, exact, seg->start_ea);
msg("populated new segment\n");
}
}
// need to respond to some idb events
hook_to_notification_point(::HT_IDB, idb_hook, uc);
//init registers
//TODO: each architecture subclass should have its own register state initialization
//register unicorn hooks
//start in break state, RS_RUN will be set in uni_continue_after_event
uc->emu_state = RS_BREAK;
uc->do_suspend = false;
uc->finished = false;
uc->single_step = false;
//this is going to have to run in a separate thread otherwise other
//debthread functions will never get called
uc->process_thread = qthread_create(processRunner, uc);
if (uc->process_thread == NULL) {
//error failed to create thread
msg(PLUGIN_NAME": Failed to start process.\n");
return 0;
}
debug_event_t start;
qstring *procname = get_process_name();
start.set_eid(PROCESS_STARTED);
modinfo_t &mod = start.modinfo();
mod.name = *procname;
delete procname;
start.pid = uc->the_process;
start.tid = uc->the_threads.front();
start.ea = BADADDR;
start.handled = true;
mod.base = inf_get_min_ea();
mod.size = inf_get_max_ea() - inf_get_min_ea();
mod.rebase_to = BADADDR;
uc->enqueue_debug_evt(start);
#ifdef DEBUG
msg("uni_start_process complete\n");
#endif
return 1;
}
/// Attach to an existing running process.
/// event_id should be equal to -1 if not attaching to a crashed process.
/// This function is called from debthread.
/// \retval 1 ok
/// \retval 0 failed
/// \retval -1 network error
int idaapi uni_attach_process(pid_t /*pid*/, int /*event_id*/, int /*dbg_proc_flags*/, qstring * /*errbuf*/) {
//can't do this with unicorn
#ifdef DEBUG
msg("uni_attach_process called\n");
#endif
return 0;
}
/// Detach from the debugged process.
/// May be called while the process is running or suspended.
/// Must detach from the process in any case.
/// The kernel will repeatedly call get_debug_event() and until ::PROCESS_DETACHED.
/// In this mode, all other events will be automatically handled and process will be resumed.
/// This function is called from debthread.
/// \retval 1 ok
/// \retval 0 failed
/// \retval -1 network error
int idaapi uni_detach_process(void) {
#ifdef DEBUG
msg("uni_detach_process called\n");
#endif
//for unicorn we will just terminate session if user wants to detach
sk3wldbg *uc = (sk3wldbg*)dbg;
uc->emu_state = RS_TERM;
qsem_post(uc->run_sem);
//***synchronize here to make sure execution thread has stopped
qthread_join(uc->process_thread);
#ifdef DEBUG
msg("uni_detach_process thread joined\n");
#endif
/*
debug_event_t detach;
detach.set_eid(PROCESS_DETACHED);
detach.pid = uc->the_process;
detach.tid = uc->the_threads.front();
detach.ea = BADADDR;
detach.handled = true;
uc->enqueue_debug_evt(detach);
*/
#ifdef DEBUG
msg("uni_detach_process complete\n");
#endif
return 1;
}
/// Rebase database if the debugged program has been rebased by the system.
/// This function is called from the main thread.
void idaapi uni_rebase_if_required_to(ea_t /*new_base*/) {
#ifdef DEBUG
msg("uni_rebase_if_required_to called: NOT IMPLEMENTED\n");
#endif
}
/// Prepare to pause the process.
/// Normally the next get_debug_event() will pause the process
/// If the process is sleeping then the pause will not occur
/// until the process wakes up. The interface should take care of
/// this situation.
/// If this function is absent, then it won't be possible to pause the program.
/// This function is called from debthread.
/// \retval 1 ok
/// \retval 0 failed
/// \retval -1 network error
int idaapi uni_prepare_to_pause_process(qstring * /*errbuf*/) {
sk3wldbg *uc = (sk3wldbg*)dbg;
#ifdef DEBUG
msg("uni_prepare_to_pause_process called\n");
#endif
uc->pause();
debug_event_t pause;
pause.set_eid(PROCESS_SUSPENDED);
pause.info()[0] = 0;
pause.pid = uc->the_process;
pause.tid = uc->the_threads.front();
#if IDA_SDK_VERSION < 730
pause.ea = inf.min_ea; //??? get pc from unicorn
#else
pause.ea = inf_get_min_ea();
#endif
uc->enqueue_debug_evt(pause);
#ifdef DEBUG
msg("uni_prepare_to_pause_process complete\n");
#endif
return 1;
}
/// Stop the process.
/// May be called while the process is running or suspended.
/// Must terminate the process in any case.
/// The kernel will repeatedly call get_debug_event() and until ::PROCESS_EXITED.
/// In this mode, all other events will be automatically handled and process will be resumed.
/// This function is called from debthread.
/// \retval 1 ok
/// \retval 0 failed
/// \retval -1 network error
int idaapi uni_exit_process(qstring * /*errbuf*/) {
sk3wldbg *uc = (sk3wldbg*)dbg;
#ifdef DEBUG
msg("uni_exit_process called\n");
#endif
uc->emu_state = RS_TERM;
qsem_post(uc->run_sem);
//***synchronize here to make sure execution thread has stopped
qthread_join(uc->process_thread);
#ifdef DEBUG
msg("uni_exit_process thread joined\n");
#endif
debug_event_t stop;
stop.set_exit_code(::PROCESS_EXITED, 0);
stop.pid = uc->the_process;
stop.tid = uc->the_threads.front();
#if IDA_SDK_VERSION < 730
stop.ea = inf.min_ea;
#else
stop.ea = inf_get_min_ea();
#endif
uc->enqueue_debug_evt(stop);
return 1;
}
/// Get a pending debug event and suspend the process.
/// This function will be called regularly by IDA.
/// This function is called from debthread.
/// IMPORTANT: commdbg does not expect immediately after a BPT-related event
/// any other event with the same thread/IP - this can cause erroneous
/// restoring of a breakpoint before resume
/// (the bug was encountered 24.02.2015 in pc_linux_upx.elf)
gdecode_t idaapi uni_get_debug_event(debug_event_t *event, int /*timeout_ms*/) {
sk3wldbg *uc = (sk3wldbg*)dbg;
if (uc->debug_queue_len() == 0) {
return GDE_NO_EVENT;
} else {
uc->dequeue_debug_evt(event);
// msg("uni_get_debug_event called returning: eid = 0x%08x\n", event->eid);
//should we ever act on event->eid here?
return uc->debug_queue_len() > 0 ? GDE_MANY_EVENTS : GDE_ONE_EVENT;
}
}
/// Continue after handling the event.
/// This function is called from debthread.
/// \retval 1 ok
/// \retval 0 failed
/// \retval -1 network error
int idaapi uni_continue_after_event(const debug_event_t *event) {
sk3wldbg *uc = (sk3wldbg*)dbg;
event_id_t eid = event->eid();
#ifdef DEBUG
msg("uni_continue_after_event called: eid = 0x%08x\n", eid);
#endif
if (event == NULL || eid == 2) {// || uc->dbg_evt_list.size() == 0) {
return 1;
}
uc->emu_state = RS_RUN;
switch (eid) {
case PROCESS_STARTED:
#ifdef DEBUG
msg("uni_continue_after_event PROCESS_STARTED\n");
#endif
qsem_post(uc->run_sem);
break;
case PROCESS_EXITED:
#ifdef DEBUG
msg("uni_continue_after_event PROCESS_EXITED\n");
#endif
uc->emu_state = RS_TERM;
qsem_post(uc->run_sem);
break;
case THREAD_STARTED:
#ifdef DEBUG
msg("uni_continue_after_event THREAD_STARTED\n");
#endif
qsem_post(uc->run_sem);
break;
case THREAD_EXITED:
#ifdef DEBUG
msg("uni_continue_after_event THREAD_EXITED\n");
#endif
qsem_post(uc->run_sem);
break;
case BREAKPOINT:
#ifdef DEBUG
msg("uni_continue_after_event BREAKPOINT\n");
#endif
//resume from breakpoint, replace instruction in memory, single step resume again?
//need to honor resume_mode in this case
uc->emu_state = uc->resume_mode;
qsem_post(uc->run_sem);
break;
case STEP:
#ifdef DEBUG
msg("uni_continue_after_event trying to step\n");
#endif
//state should have been set in set_resume_mode
//need to honor resume_mode in this case
uc->emu_state = uc->resume_mode;
qsem_post(uc->run_sem);
break;
case EXCEPTION:
#ifdef DEBUG
msg("uni_continue_after_event EXCEPTION\n");
#endif
//give it a try
qsem_post(uc->run_sem);
break;
case LIB_LOADED:
#ifdef DEBUG
msg("uni_continue_after_event LIB_LOADED\n");
#endif
qsem_post(uc->run_sem);
break;
case LIB_UNLOADED:
#ifdef DEBUG
msg("uni_continue_after_event LIB_UNLOADED\n");
#endif
qsem_post(uc->run_sem);
break;
case INFORMATION:
#ifdef DEBUG
msg("uni_continue_after_event INFORMATION\n");
#endif
break;
case PROCESS_ATTACHED:
#ifdef DEBUG
msg("uni_continue_after_event PRICESS_ATTACH\n");
#endif
break;
case PROCESS_DETACHED:
#ifdef DEBUG
msg("uni_continue_after_event PROCESS_DETACHED\n");
#endif
break;
case PROCESS_SUSPENDED:
#ifdef DEBUG
msg("uni_continue_after_event PROCESS_SUSPENDED\n");
#endif
qsem_post(uc->run_sem);
break;
case TRACE_FULL:
#ifdef DEBUG
msg("uni_continue_after_event TRACE_FULL\n");
#endif
break;
case NO_EVENT:
break;
}
return 1;
}
/// Set exception handling.
/// This function is called from debthread or the main thread.
void idaapi uni_set_exception_info(const exception_info_t *info, int qty) {
#ifdef DEBUG
msg("uni_set_exception_info called\n");
#endif
for (int i = 0; i < qty; i++) {
msg("Exception #%d\n", i);
msg(" Code: 0x%x, flags: 0x%x\n", info[i].code, info[i].flags);
msg(" Name: %s, Desc: %s\n", info[i].name.c_str(), info[i].desc.c_str());
}
}
/// This function will be called by the kernel each time
/// it has stopped the debugger process and refreshed the database.
/// The debugger module may add information to the database if it wants.
///
/// The reason for introducing this function is that when an event line
/// LOAD_DLL happens, the database does not reflect the memory state yet
/// and therefore we can't add information about the dll into the database
/// in the get_debug_event() function.
/// Only when the kernel has adjusted the database we can do it.
/// Example: for imported PE DLLs we will add the exported function
/// names to the database.
///
/// This function pointer may be absent, i.e. NULL.
/// This function is called from the main thread.
void idaapi uni_stopped_at_debug_event(thread_name_vec_t * /*thr_names*/, bool /*dlls_added*/) {
#ifdef DEBUG
msg("uni_stopped_at_debug_event called\n");
#endif
}
/// \name Threads
/// The following functions manipulate threads.
/// These functions are called from debthread.
/// \retval 1 ok
/// \retval 0 failed
/// \retval -1 network error
int idaapi uni_thread_suspend(thid_t /*tid*/) { ///< Suspend a running thread
sk3wldbg *uc = (sk3wldbg*)dbg;
#ifdef DEBUG
msg("uni_thread_suspend called\n");
#endif
uc->pause();
uc->do_suspend = true;
//is there an event we need to post to IDA?
return 1;
}
int idaapi uni_thread_continue(thid_t /*tid*/) { ///< Resume a suspended thread
sk3wldbg *uc = (sk3wldbg*)dbg;
#ifdef DEBUG
msg("uni_thread_continue called\n");
#endif
//this is going to have to run in a separate thread otherwise other
//debthread functions will never get called
if (uc->do_suspend) {
uc->do_suspend = false;
}
uc->resume();
return 1;
}
int idaapi uni_set_resume_mode(thid_t /*tid*/, resume_mode_t resmod) { ///< Specify resume action
sk3wldbg *uc = (sk3wldbg*)dbg;
#ifdef DEBUG
msg("uni_set_resume_mode called. resmod = %d\n", resmod);
#endif
//*** figure out how best to handle all resume modes
switch (resmod) {
case RESMOD_OVER:
uc->resume_mode = RS_STEP_OVER;
break;
case RESMOD_OUT:
uc->resume_mode = RS_STEP_OUT;
break;
case RESMOD_INTO:
uc->resume_mode = RS_STEP_INTO;
uc->set_stepping();
break;
case RESMOD_NONE:
uc->resume_mode = RS_RUN; //????
break;
default:
break;
}
return 1;
}
/// Read thread registers.
/// This function is called from debthread.
/// \param tid thread id
/// \param clsmask bitmask of register classes to read
/// \param regval pointer to vector of regvals for all registers.
/// regval is assumed to have debugger_t::nregs elements
/// \retval 1 ok
/// \retval 0 failed
/// \retval -1 network error
int idaapi uni_read_registers(thid_t /*tid*/, int clsmask, regval_t *values, qstring * /*errbuf*/) {
#ifdef DEBUG
msg("uni_read_registers called\n");
#endif
sk3wldbg *uc = (sk3wldbg*)dbg;
uc_err err = UC_ERR_OK;
//need to figure out how to do this across all unicorn archs
for (int i = 0; i < uc->nregs; i++) {
if (uc->registers[i].register_class & clsmask) {
if (!uc->read_register(i, &values[i])) {
return 0;
}
}
}
return 1;
}
/// Write one thread register.
/// This function is called from debthread.
/// \param tid thread id
/// \param regidx register index
/// \param regval new value of the register
/// \retval 1 ok
/// \retval 0 failed
/// \retval -1 network error
int idaapi uni_write_register(thid_t /*tid*/, int regidx, const regval_t *value, qstring * /*errbuf*/) {
#ifdef DEBUG
msg("uni_write_register called\n");
#endif
//need to figure out how to do this across all unicorn archs
sk3wldbg *uc = (sk3wldbg*)dbg;
uc_err err = uc_reg_write(uc->uc, uc->reg_map[regidx], &value->ival);
return err == UC_ERR_OK;
}
/// Get information about the base of a segment register.
/// Currently used by the IBM PC module to resolve references like fs:0.
/// This function is called from debthread.
/// \param tid thread id
/// \param sreg_value value of the segment register (returned by get_reg_val())
/// \param answer pointer to the answer. can't be NULL.
/// \retval 1 ok
/// \retval 0 failed
/// \retval -1 network error
int idaapi uni_thread_get_sreg_base(ea_t *answer, thid_t /*tid*/, int /*sreg_value*/, qstring * /*errbuf*/) {
#ifdef DEBUG
msg("uni_thread_get_sreg_base called\n");
#endif
//right now unicorn has no way to get this information since base is not a register
//would need to read decide whether seg is local or global, then UC_X86_REG_L/GDTR,
//the uc_read_mem to read correct descriptor, then parse out the base address
*answer = 0;
return 1;
}
/// \name Memory manipulation
/// The following functions manipulate bytes in the memory.
/// Get information on the memory areas.
/// The debugger module fills 'areas'. The returned vector MUST be sorted.
/// This function is called from debthread.
/// \retval -3 use idb segmentation
/// \retval -2 no changes
/// \retval -1 the process does not exist anymore
/// \retval 0 failed
/// \retval 1 new memory layout is returned
int idaapi uni_get_memory_info(meminfo_vec_t &areas, qstring * /*errbuf*/) {
sk3wldbg *uc = (sk3wldbg*)dbg;
#ifdef DEBUG
qstring msgbuf;
msg("uni_get_memory_info called\n");
#endif
uc_mem_region *regions;
uint32_t count;
uc_err err = uc_mem_regions(uc->uc, ®ions, &count);
#ifdef DEBUG
msg("uc_mem_regions returned\n");
#endif
if (err == UC_ERR_OK) {
for (uint32_t i = 0; i < count; i++) {
memory_info_t mem;
mem.start_ea = (ea_t)regions[i].begin;
mem.end_ea = (ea_t)regions[i].end - 1; //-1 because uc_mem_region is inclusive
mem.perm = uc_to_ida_perms_map[regions[i].perms];
mem.bitness = 1; //default to 32
if (uc->debug_mode & UC_MODE_16) {
mem.bitness = 0;
} else if (uc->debug_mode & UC_MODE_64) {
mem.bitness = 2;
}
areas.push_back(mem);
#ifdef DEBUG
msgbuf.sprnt(" region %d: %p-%p (%d-%d:%d)\n", i,
(void*)mem.start_ea, (void*)mem.end_ea, mem.perm, regions[i].perms, mem.bitness);
msg("%s", msgbuf.c_str());
#endif
}
uc_free(regions);
#ifdef DEBUG
msg("uc_mem_regions returned %d regions\n", count);
#endif
} else {
msg("Failed on uc_mem_regions() with error returned %u: %s\n", err, uc_strerror(err));
}
return 1;
}
/// Read process memory.
/// Returns number of read bytes.
/// This function is called from debthread.
/// \retval 0 read error
/// \retval -1 process does not exist anymore
ssize_t idaapi uni_read_memory(ea_t ea, void *buffer, size_t size, qstring * /*errbuf*/) {
sk3wldbg *uc = (sk3wldbg*)dbg;
#ifdef DEBUG
qstring msgbuf;
msgbuf.sprnt("uni_read_memory called for %p:%d\n", (void*)ea, size);
msg("%s", msgbuf.c_str());
#endif
uc_err err = uc_mem_read(uc->uc, ea, buffer, size);
if (err != UC_ERR_OK) {
msg("Failed on uc_mem_read() with error returned %u: %s\n", err, uc_strerror(err));
}
return size;
}
/// Write process memory.
/// This function is called from debthread.
/// \return number of written bytes, -1 if fatal error
ssize_t idaapi uni_write_memory(ea_t ea, const void *buffer, size_t size, qstring * /*errbuf*/) {
sk3wldbg *uc = (sk3wldbg*)dbg;
#ifdef DEBUG
qstring msgbuf;
msgbuf.sprnt("uni_write_memory called for %p:%u\n", (void*)ea, (uint32_t)size);
msg("%s", msgbuf.c_str());
#endif
uc_err err = uc_mem_write(uc->uc, ea, buffer, size);
if (err != UC_ERR_OK) {
msg("Failed on uc_mem_write() with error returned %u: %s\n", err, uc_strerror(err));
}
return size;
}
/// Is it possible to set breakpoint?.