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Kernel mode debugger From Wikipedia, the free encyclopedia
SoftICE is a kernel mode debugger for DOS and Windows up to Windows XP. It is designed to run underneath Windows, so that the operating system is unaware of its presence. Unlike an application debugger, SoftICE is capable of suspending all operations in Windows when instructed. Due to its low-level capabilities, SoftICE is also popular as a software cracking tool.
This article's tone or style may not reflect the encyclopedic tone used on Wikipedia. (January 2009) |
Original author(s) | NuMega |
---|---|
Developer(s) | Compuware |
Initial release | 1987 | (DOS)
Final release | v4.05
/ 2000[1] |
Operating system | Microsoft Windows |
Type | Debugger |
License | Proprietary |
Microsoft offers two kernel-mode debuggers, WinDbg and KD, without charges. However, the full capabilities of WinDbg and KD are available only when two interlinked computers are used. SoftICE, therefore, is an exceptionally useful tool for difficult driver-related development. The last released version was for Windows XP.
Older versions exist for DOS and compatible operating systems. SoftICE was originally produced by the company NuMega, and was subsequently acquired by Compuware in 1997, which in turn sold the property to Micro Focus in 2009. Currently, Micro Focus owns the source code and patents, but is not actively maintaining SoftICE.
"Soft" refers to software, and "ICE" is an allusion to in-circuit emulator.
The original SoftICE for DOS was written in 1987 by NuMega founders Frank Grossman and Jim Moskun. The program, written in 80386 assembly language, played the role of an operating system and ran software in virtual 8086 mode. It sold for $386.
SoftICE/W (for Windows) was developed in the 1990s, and was instrumental in the Writing of "Undocumented Windows", by Andrew Schulman, David Maxey and Matt Pietrek. SoftICE/W was derived from an earlier, lesser known product, SoftICE for NetWare (32-bit protected mode). One of the key advantages it had over Microsoft's debuggers is that it enabled single machine debugging, rather than requiring a second machine to be connected over a serial port.
The principal developers of SoftICE were Dom Basile ('Mr. SoftICE'), Tom Guinther (Kitchen Sink, Symbol Engine), Gerald Ryckman (Video drivers and Kitchen Sink), Ray Hsu (Video drivers for Windows 95), and Dan Babcock (SoftICE/NT 3.1/3.5: Universal video driver, symbol engine), with contributions by a variety of NuMega developers including Frank Grossman, Jim Moskun and Matt Pietrek.
In 1998, the codebase for SoftICE/95 was ported to run on the Windows NT platform.
Newer versions of SoftICE patch deep into Microsoft Windows. As such, old versions of SoftICE are rarely compatible with new versions of Windows. Compuware therefore offered SoftICE as a subscription so that it could be kept up to date and in sync with the latest Microsoft Windows version.
SoftICE was previously offered as part of Compuware's DriverStudio package, but was discontinued in April 2006.
As of April 3, 2006, the DriverStudio product family has been discontinued because of "a variety of technical and business issues as well as general market conditions". Maintenance support was offered until March 31, 2007.
Software vendors have put in place a wide range of countermeasures to protect themselves from people employing SoftICE as a tool to analyse software.
For example, here is code some vendors used to detect the presence of SoftICE running in the same machine as an early countermeasure:
mov eax, dword ptr [pIDT+2]; eax -> IDT
add eax, 8 ; eax -> int 1 vector
mov ebx, [eax] ; ebx == int 1 vector
add eax, 16 ; eax -> int 3 vector
mov eax, [eax] ; eax == int 3 vector
and eax, 0FFFFh ; strip the selector
and ebx, 0FFFFh ; part of it
sub eax, ebx ; find displacement
cmp eax, 10h
jne HackedVector ; not equal, then chances are
; SoftICE had tampered with these vectors
More and better such measures have evolved since. While most of them can only deter the less experienced and determined hackers, SoftICE is no longer a tool of choice for someone new to analysing software.
Modern software anti-analysis methods are based on more sophisticated packers/protectors, e.g. Themida, Armadillo or ASProtect which pack the program code and tamper with entry point addresses so it is hard to find the program's original entry point (OEP). That is also true for the program's import address table (IAT). However, tools for hiding SoftICE are also available, such as IceStealth and IceExt for Windows NT, or Icedump and IcePatch for Windows 9x.[2]
In 1989, BYTE listed Soft-ICE among the "Distinction" winners of the BYTE Awards, stating that, "If you're developing 8086-based applications on an 80386 machine, this is an essential and affordable tool".[3]
A commercial kernel-level debugger called Syser claims to continue where SoftICE left off.
A shareware debugger, but free to use, OllyDbg is a 32-bit assembler-level debugger from Oleh Yuschuk. However, it can only be used for user-mode debugging.
An open source kernel debugger similar to SoftICE named Rasta Ring 0 Debugger (RR0D) is available.[4][5] It provides low-level debugging for Microsoft Windows, Linux, OpenBSD, NetBSD, and FreeBSD. This project does not seem to be actively maintained. As of June 2016[update], the last change in its GitHub source code repository occurred in December 2008.[6]
A debugger called BugChecker is a 32-bit single-host kernel debugger for Windows 2000 and XP, developed and made available as open source for educational purposes. BugChecker allows users to trace into both user and kernel code, both on uniprocessor and multiprocessor versions of Windows 2000 and XP.[7]
A modern successor to SoftICE named BugChecker (unrelated to the one mentioned above) was released by Vito Plantamura in 2023. Unlike the other local kernel debuggers, it supports Windows XP to Windows 11, both 32-bit and 64-bit. To achieve this, the debugger spoofs the machine as being debugged by a second system by intercepting serial cable communication, and then and draws its display directly to the framebuffer. This method significantly improves stability and compatibility compared to previous approaches, including that of SoftICE itself.[8]
Many hypervisors allow debugging the kernel running in the virtual machine through exposing some kind of debugger interface that can control the virtualized processor directly. This allows debugging even if the kernel does not have native debugging facilities.
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