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|
/* $Id: DBGPlugInOS2.cpp $ */
/** @file
* DBGPlugInOS2 - Debugger and Guest OS Digger Plugin For OS/2.
*/
/*
* Copyright (C) 2009-2019 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#define LOG_GROUP LOG_GROUP_DBGF /// @todo add new log group.
#include "DBGPlugIns.h"
#include <VBox/vmm/dbgf.h>
#include <VBox/err.h>
#include <VBox/param.h>
#include <iprt/string.h>
#include <iprt/mem.h>
#include <iprt/stream.h>
/*********************************************************************************************************************************
* Structures and Typedefs *
*********************************************************************************************************************************/
/** @name Internal OS/2 structures */
/** @} */
typedef enum DBGDIGGEROS2VER
{
DBGDIGGEROS2VER_UNKNOWN,
DBGDIGGEROS2VER_1_x,
DBGDIGGEROS2VER_2_x,
DBGDIGGEROS2VER_3_0,
DBGDIGGEROS2VER_4_0,
DBGDIGGEROS2VER_4_5
} DBGDIGGEROS2VER;
/**
* OS/2 guest OS digger instance data.
*/
typedef struct DBGDIGGEROS2
{
/** The user-mode VM handle for use in info handlers. */
PUVM pUVM;
/** Whether the information is valid or not.
* (For fending off illegal interface method calls.) */
bool fValid;
/** 32-bit (true) or 16-bit (false) */
bool f32Bit;
/** The OS/2 guest version. */
DBGDIGGEROS2VER enmVer;
uint8_t OS2MajorVersion;
uint8_t OS2MinorVersion;
/** Guest's Global Info Segment selector. */
uint16_t selGis;
/** The 16:16 address of the LIS. */
RTFAR32 Lis;
/** The kernel virtual address (excluding DOSMVDMINSTDATA & DOSSWAPINSTDATA). */
uint32_t uKernelAddr;
/** The kernel size. */
uint32_t cbKernel;
} DBGDIGGEROS2;
/** Pointer to the OS/2 guest OS digger instance data. */
typedef DBGDIGGEROS2 *PDBGDIGGEROS2;
/**
* 32-bit OS/2 loader module table entry.
*/
typedef struct LDRMTE
{
uint16_t mte_flags2;
uint16_t mte_handle;
uint32_t mte_swapmte; /**< Pointer to LDRSMTE. */
uint32_t mte_link; /**< Pointer to next LDRMTE. */
uint32_t mte_flags1;
uint32_t mte_impmodcnt;
uint16_t mte_sfn;
uint16_t mte_usecnt;
char mte_modname[8];
uint32_t mte_RAS; /**< added later */
uint32_t mte_modver; /**< added even later. */
} LDRMTE;
/** @name LDRMTE::mte_flag2 values
* @{ */
#define MTEFORMATMASK UINT16_C(0x0003)
#define MTEFORMATR1 UINT16_C(0x0000)
#define MTEFORMATNE UINT16_C(0x0001)
#define MTEFORMATLX UINT16_C(0x0002)
#define MTEFORMATR2 UINT16_C(0x0003)
#define MTESYSTEMDLL UINT16_C(0x0004)
#define MTELOADORATTACH UINT16_C(0x0008)
#define MTECIRCLEREF UINT16_C(0x0010)
#define MTEFREEFIXUPS UINT16_C(0x0020) /* had different meaning earlier */
#define MTEPRELOADED UINT16_C(0x0040)
#define MTEGETMTEDONE UINT16_C(0x0080)
#define MTEPACKSEGDONE UINT16_C(0x0100)
#define MTE20LIELIST UINT16_C(0x0200)
#define MTESYSPROCESSED UINT16_C(0x0400)
#define MTEPSDMOD UINT16_C(0x0800)
#define MTEDLLONEXTLST UINT16_C(0x1000)
#define MTEPDUMPCIRCREF UINT16_C(0x2000)
/** @} */
/** @name LDRMTE::mte_flag1 values
* @{ */
#define MTE1_NOAUTODS UINT32_C(0x00000000)
#define MTE1_SOLO UINT32_C(0x00000001)
#define MTE1_INSTANCEDS UINT32_C(0x00000002)
#define MTE1_INSTLIBINIT UINT32_C(0x00000004)
#define MTE1_GINISETUP UINT32_C(0x00000008)
#define MTE1_NOINTERNFIXUPS UINT32_C(0x00000010)
#define MTE1_NOEXTERNFIXUPS UINT32_C(0x00000020)
#define MTE1_CLASS_ALL UINT32_C(0x00000000)
#define MTE1_CLASS_PROGRAM UINT32_C(0x00000040)
#define MTE1_CLASS_GLOBAL UINT32_C(0x00000080)
#define MTE1_CLASS_SPECIFIC UINT32_C(0x000000c0)
#define MTE1_CLASS_MASK UINT32_C(0x000000c0)
#define MTE1_MTEPROCESSED UINT32_C(0x00000100)
#define MTE1_USED UINT32_C(0x00000200)
#define MTE1_DOSLIB UINT32_C(0x00000400)
#define MTE1_DOSMOD UINT32_C(0x00000800) /**< The OS/2 kernel (DOSCALLS).*/
#define MTE1_MEDIAFIXED UINT32_C(0x00001000)
#define MTE1_LDRINVALID UINT32_C(0x00002000)
#define MTE1_PROGRAMMOD UINT32_C(0x00000000)
#define MTE1_DEVDRVMOD UINT32_C(0x00004000)
#define MTE1_LIBRARYMOD UINT32_C(0x00008000)
#define MTE1_VDDMOD UINT32_C(0x00010000)
#define MTE1_MVDMMOD UINT32_C(0x00020000)
#define MTE1_INGRAPH UINT32_C(0x00040000)
#define MTE1_GINIDONE UINT32_C(0x00080000)
#define MTE1_ADDRALLOCED UINT32_C(0x00100000)
#define MTE1_FSDMOD UINT32_C(0x00200000)
#define MTE1_FSHMOD UINT32_C(0x00400000)
#define MTE1_LONGNAMES UINT32_C(0x00800000)
#define MTE1_MEDIACONTIG UINT32_C(0x01000000)
#define MTE1_MEDIA16M UINT32_C(0x02000000)
#define MTE1_SWAPONLOAD UINT32_C(0x04000000)
#define MTE1_PORTHOLE UINT32_C(0x08000000)
#define MTE1_MODPROT UINT32_C(0x10000000)
#define MTE1_NEWMOD UINT32_C(0x20000000)
#define MTE1_DLLTERM UINT32_C(0x40000000)
#define MTE1_SYMLOADED UINT32_C(0x80000000)
/** @} */
/**
* 32-bit OS/2 swappable module table entry.
*/
typedef struct LDRSMTE
{
uint32_t smte_mpages; /**< 0x00: module page count. */
uint32_t smte_startobj; /**< 0x04: Entrypoint segment number. */
uint32_t smte_eip; /**< 0x08: Entrypoint offset value. */
uint32_t smte_stackobj; /**< 0x0c: Stack segment number. */
uint32_t smte_esp; /**< 0x10: Stack offset value*/
uint32_t smte_pageshift; /**< 0x14: Page shift value. */
uint32_t smte_fixupsize; /**< 0x18: Size of the fixup section. */
uint32_t smte_objtab; /**< 0x1c: Pointer to LDROTE array. */
uint32_t smte_objcnt; /**< 0x20: Number of segments. */
uint32_t smte_objmap; /**< 0x20: Address of the object page map. */
uint32_t smte_itermap; /**< 0x20: File offset of the iterated data map*/
uint32_t smte_rsrctab; /**< 0x20: Pointer to resource table? */
uint32_t smte_rsrccnt; /**< 0x30: Number of resource table entries. */
uint32_t smte_restab; /**< 0x30: Pointer to the resident name table. */
uint32_t smte_enttab; /**< 0x30: Possibly entry point table address, if not file offset. */
uint32_t smte_fpagetab; /**< 0x30 */
uint32_t smte_frectab; /**< 0x40 */
uint32_t smte_impmod; /**< 0x44 */
uint32_t smte_impproc; /**< 0x48 */
uint32_t smte_datapage; /**< 0x4c */
uint32_t smte_nrestab; /**< 0x50 */
uint32_t smte_cbnrestab; /**< 0x54 */
uint32_t smte_autods; /**< 0x58 */
uint32_t smte_debuginfo; /**< 0x5c */
uint32_t smte_debuglen; /**< 0x60 */
uint32_t smte_heapsize; /**< 0x64 */
uint32_t smte_path; /**< 0x68 Address of full name string. */
uint16_t smte_semcount; /**< 0x6c */
uint16_t smte_semowner; /**< 0x6e */
uint32_t smte_pfilecache; /**< 0x70: Address of cached data if replace-module is used. */
uint32_t smte_stacksize; /**< 0x74: Stack size for .exe thread 1. */
uint16_t smte_alignshift; /**< 0x78: */
uint16_t smte_NEexpver; /**< 0x7a: */
uint16_t smte_pathlen; /**< 0x7c: Length of smte_path */
uint16_t smte_NEexetype; /**< 0x7e: */
uint16_t smte_csegpack; /**< 0x80: */
uint8_t smte_major_os; /**< 0x82: added later to lie about OS version */
uint8_t smte_minor_os; /**< 0x83: added later to lie about OS version */
} LDRSMTE;
AssertCompileSize(LDRSMTE, 0x84);
typedef struct LDROTE
{
uint32_t ote_size;
uint32_t ote_base;
uint32_t ote_flags;
uint32_t ote_pagemap;
uint32_t ote_mapsize;
union
{
uint32_t ote_vddaddr;
uint32_t ote_krnaddr;
struct
{
uint16_t ote_selector;
uint16_t ote_handle;
} s;
};
} LDROTE;
AssertCompileSize(LDROTE, 24);
/**
* 32-bit system anchor block segment header.
*/
typedef struct SAS
{
uint8_t SAS_signature[4];
uint16_t SAS_tables_data; /**< Offset to SASTABLES. */
uint16_t SAS_flat_sel; /**< 32-bit kernel DS (flat). */
uint16_t SAS_config_data; /**< Offset to SASCONFIG. */
uint16_t SAS_dd_data; /**< Offset to SASDD. */
uint16_t SAS_vm_data; /**< Offset to SASVM. */
uint16_t SAS_task_data; /**< Offset to SASTASK. */
uint16_t SAS_RAS_data; /**< Offset to SASRAS. */
uint16_t SAS_file_data; /**< Offset to SASFILE. */
uint16_t SAS_info_data; /**< Offset to SASINFO. */
uint16_t SAS_mp_data; /**< Offset to SASMP. SMP only. */
} SAS;
#define SAS_SIGNATURE "SAS "
typedef struct SASTABLES
{
uint16_t SAS_tbl_GDT;
uint16_t SAS_tbl_LDT;
uint16_t SAS_tbl_IDT;
uint16_t SAS_tbl_GDTPOOL;
} SASTABLES;
typedef struct SASCONFIG
{
uint16_t SAS_config_table;
} SASCONFIG;
typedef struct SASDD
{
uint16_t SAS_dd_bimodal_chain;
uint16_t SAS_dd_real_chain;
uint16_t SAS_dd_DPB_segment;
uint16_t SAS_dd_CDA_anchor_p;
uint16_t SAS_dd_CDA_anchor_r;
uint16_t SAS_dd_FSC;
} SASDD;
typedef struct SASVM
{
uint32_t SAS_vm_arena;
uint32_t SAS_vm_object;
uint32_t SAS_vm_context;
uint32_t SAS_vm_krnl_mte; /**< Flat address of kernel MTE. */
uint32_t SAS_vm_glbl_mte; /**< Flat address of global MTE list head pointer variable. */
uint32_t SAS_vm_pft;
uint32_t SAS_vm_prt;
uint32_t SAS_vm_swap;
uint32_t SAS_vm_idle_head;
uint32_t SAS_vm_free_head;
uint32_t SAS_vm_heap_info;
uint32_t SAS_vm_all_mte; /**< Flat address of global MTE list head pointer variable. */
} SASVM;
#pragma pack(1)
typedef struct SASTASK
{
uint16_t SAS_task_PTDA; /**< Current PTDA selector. */
uint32_t SAS_task_ptdaptrs; /**< Flat address of process tree root. */
uint32_t SAS_task_threadptrs; /**< Flat address array of thread pointer array. */
uint32_t SAS_task_tasknumber; /**< Flat address of the TaskNumber variable. */
uint32_t SAS_task_threadcount; /**< Flat address of the ThreadCount variable. */
} SASTASK;
#pragma pack()
#pragma pack(1)
typedef struct SASRAS
{
uint16_t SAS_RAS_STDA_p;
uint16_t SAS_RAS_STDA_r;
uint16_t SAS_RAS_event_mask;
uint32_t SAS_RAS_Perf_Buff;
} SASRAS;
#pragma pack()
typedef struct SASFILE
{
uint32_t SAS_file_MFT; /**< Handle. */
uint16_t SAS_file_SFT; /**< Selector. */
uint16_t SAS_file_VPB; /**< Selector. */
uint16_t SAS_file_CDS; /**< Selector. */
uint16_t SAS_file_buffers; /**< Selector. */
} SASFILE;
#pragma pack(1)
typedef struct SASINFO
{
uint16_t SAS_info_global; /**< GIS selector. */
uint32_t SAS_info_local; /**< 16:16 address of LIS for current task. */
uint32_t SAS_info_localRM;
uint16_t SAS_info_CDIB; /**< Selector. */
} SASINFO;
#pragma pack()
typedef struct SASMP
{
uint32_t SAS_mp_PCBFirst; /**< Flat address of PCB head. */
uint32_t SAS_mp_pLockHandles; /**< Flat address of lock handles. */
uint32_t SAS_mp_cProcessors; /**< Flat address of CPU count variable. */
uint32_t SAS_mp_pIPCInfo; /**< Flat address of IPC info pointer variable. */
uint32_t SAS_mp_pIPCHistory; /**< Flat address of IPC history pointer. */
uint32_t SAS_mp_IPCHistoryIdx; /**< Flat address of IPC history index variable. */
uint32_t SAS_mp_pFirstPSA; /**< Flat address of PSA. Added later. */
uint32_t SAS_mp_pPSAPages; /**< Flat address of PSA pages. */
} SASMP;
typedef struct OS2GIS
{
uint32_t time;
uint32_t msecs;
uint8_t hour;
uint8_t minutes;
uint8_t seconds;
uint8_t hundredths;
int16_t timezone;
uint16_t cusecTimerInterval;
uint8_t day;
uint8_t month;
uint16_t year;
uint8_t weekday;
uint8_t uchMajorVersion;
uint8_t uchMinorVersion;
uint8_t chRevisionLetter;
uint8_t sgCurrent;
uint8_t sgMax;
uint8_t cHugeShift;
uint8_t fProtectModeOnly;
uint16_t pidForeground;
uint8_t fDynamicSched;
uint8_t csecMaxWait;
uint16_t cmsecMinSlice;
uint16_t cmsecMaxSlice;
uint16_t bootdrive;
uint8_t amecRAS[32];
uint8_t csgWindowableVioMax;
uint8_t csgPMMax;
uint16_t SIS_Syslog;
uint16_t SIS_MMIOBase;
uint16_t SIS_MMIOAddr;
uint8_t SIS_MaxVDMs;
uint8_t SIS_Reserved;
} OS2GIS;
typedef struct OS2LIS
{
uint16_t pidCurrent;
uint16_t pidParent;
uint16_t prtyCurrent;
uint16_t tidCurrent;
uint16_t sgCurrent;
uint8_t rfProcStatus;
uint8_t bReserved1;
uint16_t fForeground;
uint8_t typeProcess;
uint8_t bReserved2;
uint16_t selEnvironment;
uint16_t offCmdLine;
uint16_t cbDataSegment;
uint16_t cbStack;
uint16_t cbHeap;
uint16_t hmod;
uint16_t selDS;
} OS2LIS;
/*********************************************************************************************************************************
* Defined Constants And Macros *
*********************************************************************************************************************************/
/** The 'SAS ' signature. */
#define DIG_OS2_SAS_SIG RT_MAKE_U32_FROM_U8('S','A','S',' ')
/** OS/2Warp on little endian ASCII systems. */
#define DIG_OS2_MOD_TAG UINT64_C(0x43532f3257617270)
/*********************************************************************************************************************************
* Internal Functions *
*********************************************************************************************************************************/
static DECLCALLBACK(int) dbgDiggerOS2Init(PUVM pUVM, void *pvData);
static int dbgDiggerOS2DisplaySelectorAndInfoEx(PDBGDIGGEROS2 pThis, PCDBGFINFOHLP pHlp, uint16_t uSel, uint32_t off,
int cchWidth, const char *pszMessage, PDBGFSELINFO pSelInfo)
{
RT_ZERO(*pSelInfo);
int rc = DBGFR3SelQueryInfo(pThis->pUVM, 0 /*idCpu*/, uSel, DBGFSELQI_FLAGS_DT_GUEST, pSelInfo);
if (RT_SUCCESS(rc))
{
if (off == UINT32_MAX)
pHlp->pfnPrintf(pHlp, "%*s: %#06x (%RGv LB %#RX64 flags=%#x)\n",
cchWidth, pszMessage, uSel, pSelInfo->GCPtrBase, pSelInfo->cbLimit, pSelInfo->fFlags);
else
pHlp->pfnPrintf(pHlp, "%*s: %04x:%04x (%RGv LB %#RX64 flags=%#x)\n",
cchWidth, pszMessage, uSel, off, pSelInfo->GCPtrBase + off, pSelInfo->cbLimit - off, pSelInfo->fFlags);
}
else if (off == UINT32_MAX)
pHlp->pfnPrintf(pHlp, "%*s: %#06x (%Rrc)\n", cchWidth, pszMessage, uSel, rc);
else
pHlp->pfnPrintf(pHlp, "%*s: %04x:%04x (%Rrc)\n", cchWidth, pszMessage, uSel, off, rc);
return rc;
}
DECLINLINE(int) dbgDiggerOS2DisplaySelectorAndInfo(PDBGDIGGEROS2 pThis, PCDBGFINFOHLP pHlp, uint16_t uSel, uint32_t off,
int cchWidth, const char *pszMessage)
{
DBGFSELINFO SelInfo;
return dbgDiggerOS2DisplaySelectorAndInfoEx(pThis, pHlp, uSel, off, cchWidth, pszMessage, &SelInfo);
}
/**
* @callback_method_impl{FNDBGFHANDLEREXT,
* Display the OS/2 system anchor segment}
*/
static DECLCALLBACK(void) dbgDiggerOS2InfoSas(void *pvUser, PCDBGFINFOHLP pHlp, const char *pszArgs)
{
RT_NOREF(pszArgs);
PDBGDIGGEROS2 pThis = (PDBGDIGGEROS2)pvUser;
DBGFSELINFO SelInfo;
int rc = DBGFR3SelQueryInfo(pThis->pUVM, 0 /*idCpu*/, 0x70, DBGFSELQI_FLAGS_DT_GUEST, &SelInfo);
if (RT_FAILURE(rc))
{
pHlp->pfnPrintf(pHlp, "DBGFR3SelQueryInfo failed on selector 0x70: %Rrc\n", rc);
return;
}
pHlp->pfnPrintf(pHlp, "Selector 0x70: %RGv LB %#RX64 (flags %#x)\n",
SelInfo.GCPtrBase, (uint64_t)SelInfo.cbLimit, SelInfo.fFlags);
/*
* The SAS header.
*/
union
{
SAS Sas;
uint16_t au16Sas[sizeof(SAS) / sizeof(uint16_t)];
};
DBGFADDRESS Addr;
rc = DBGFR3MemRead(pThis->pUVM, 0 /*idCpu*/, DBGFR3AddrFromFlat(pThis->pUVM, &Addr, SelInfo.GCPtrBase), &Sas, sizeof(Sas));
if (RT_FAILURE(rc))
{
pHlp->pfnPrintf(pHlp, "Failed to read SAS header: %Rrc\n", rc);
return;
}
if (memcmp(&Sas.SAS_signature[0], SAS_SIGNATURE, sizeof(Sas.SAS_signature)) != 0)
{
pHlp->pfnPrintf(pHlp, "Invalid SAS signature: %#x %#x %#x %#x (expected %#x %#x %#x %#x)\n",
Sas.SAS_signature[0], Sas.SAS_signature[1], Sas.SAS_signature[2], Sas.SAS_signature[3],
SAS_SIGNATURE[0], SAS_SIGNATURE[1], SAS_SIGNATURE[2], SAS_SIGNATURE[3]);
return;
}
dbgDiggerOS2DisplaySelectorAndInfo(pThis, pHlp, Sas.SAS_flat_sel, UINT32_MAX, 15, "Flat kernel DS");
pHlp->pfnPrintf(pHlp, "SAS_tables_data: %#06x (%#RGv)\n", Sas.SAS_tables_data, SelInfo.GCPtrBase + Sas.SAS_tables_data);
pHlp->pfnPrintf(pHlp, "SAS_config_data: %#06x (%#RGv)\n", Sas.SAS_config_data, SelInfo.GCPtrBase + Sas.SAS_config_data);
pHlp->pfnPrintf(pHlp, " SAS_dd_data: %#06x (%#RGv)\n", Sas.SAS_dd_data, SelInfo.GCPtrBase + Sas.SAS_dd_data);
pHlp->pfnPrintf(pHlp, " SAS_vm_data: %#06x (%#RGv)\n", Sas.SAS_vm_data, SelInfo.GCPtrBase + Sas.SAS_vm_data);
pHlp->pfnPrintf(pHlp, " SAS_task_data: %#06x (%#RGv)\n", Sas.SAS_task_data, SelInfo.GCPtrBase + Sas.SAS_task_data);
pHlp->pfnPrintf(pHlp, " SAS_RAS_data: %#06x (%#RGv)\n", Sas.SAS_RAS_data, SelInfo.GCPtrBase + Sas.SAS_RAS_data);
pHlp->pfnPrintf(pHlp, " SAS_file_data: %#06x (%#RGv)\n", Sas.SAS_file_data, SelInfo.GCPtrBase + Sas.SAS_file_data);
pHlp->pfnPrintf(pHlp, " SAS_info_data: %#06x (%#RGv)\n", Sas.SAS_info_data, SelInfo.GCPtrBase + Sas.SAS_info_data);
bool fIncludeMP = true;
if (Sas.SAS_mp_data < sizeof(Sas))
fIncludeMP = false;
else
for (unsigned i = 2; i < RT_ELEMENTS(au16Sas) - 1; i++)
if (au16Sas[i] < sizeof(SAS))
{
fIncludeMP = false;
break;
}
if (fIncludeMP)
pHlp->pfnPrintf(pHlp, " SAS_mp_data: %#06x (%#RGv)\n", Sas.SAS_mp_data, SelInfo.GCPtrBase + Sas.SAS_mp_data);
/* shared databuf */
union
{
SASINFO Info;
} u;
/*
* Info data.
*/
rc = DBGFR3MemRead(pThis->pUVM, 0 /*idCpu*/, DBGFR3AddrFromFlat(pThis->pUVM, &Addr, SelInfo.GCPtrBase + Sas.SAS_info_data),
&u.Info, sizeof(u.Info));
if (RT_SUCCESS(rc))
{
pHlp->pfnPrintf(pHlp, "SASINFO:\n");
dbgDiggerOS2DisplaySelectorAndInfo(pThis, pHlp, u.Info.SAS_info_global, UINT32_MAX, 28, "Global info segment");
pHlp->pfnPrintf(pHlp, "%28s: %#010x\n", "Local info segment", u.Info.SAS_info_local);
pHlp->pfnPrintf(pHlp, "%28s: %#010x\n", "Local info segment (RM)", u.Info.SAS_info_localRM);
dbgDiggerOS2DisplaySelectorAndInfo(pThis, pHlp, u.Info.SAS_info_CDIB, UINT32_MAX, 28, "SAS_info_CDIB");
}
else
pHlp->pfnPrintf(pHlp, "Failed to read SAS info data: %Rrc\n", rc);
/** @todo more */
}
/**
* @callback_method_impl{FNDBGFHANDLEREXT,
* Display the OS/2 global info segment}
*/
static DECLCALLBACK(void) dbgDiggerOS2InfoGis(void *pvUser, PCDBGFINFOHLP pHlp, const char *pszArgs)
{
RT_NOREF(pszArgs);
PDBGDIGGEROS2 pThis = (PDBGDIGGEROS2)pvUser;
DBGFSELINFO SelInfo;
int rc = dbgDiggerOS2DisplaySelectorAndInfoEx(pThis, pHlp, pThis->selGis, UINT32_MAX, 0, "Global info segment", &SelInfo);
if (RT_FAILURE(rc))
return;
/*
* Read the GIS.
*/
DBGFADDRESS Addr;
OS2GIS Gis;
RT_ZERO(Gis);
rc = DBGFR3MemRead(pThis->pUVM, 0 /*idCpu*/, DBGFR3AddrFromFlat(pThis->pUVM, &Addr, SelInfo.GCPtrBase), &Gis,
RT_MIN(sizeof(Gis), SelInfo.cbLimit + 1));
if (RT_FAILURE(rc))
{
pHlp->pfnPrintf(pHlp, "Failed to read GIS: %Rrc\n", rc);
return;
}
pHlp->pfnPrintf(pHlp, " time: %#010x\n", Gis.time);
pHlp->pfnPrintf(pHlp, " msecs: %#010x\n", Gis.msecs);
pHlp->pfnPrintf(pHlp, " timestamp: %04u-%02u-%02u %02u:%02u:%02u.%02u\n",
Gis.year, Gis.month, Gis.day, Gis.hour, Gis.minutes, Gis.seconds, Gis.hundredths);
pHlp->pfnPrintf(pHlp, " timezone: %+2d (min delta)\n", (int)Gis.timezone);
pHlp->pfnPrintf(pHlp, " weekday: %u\n", Gis.weekday);
pHlp->pfnPrintf(pHlp, " cusecTimerInterval: %u\n", Gis.cusecTimerInterval);
pHlp->pfnPrintf(pHlp, " version: %u.%u\n", Gis.uchMajorVersion, Gis.uchMinorVersion);
pHlp->pfnPrintf(pHlp, " revision: %#04x (%c)\n", Gis.chRevisionLetter, Gis.chRevisionLetter);
pHlp->pfnPrintf(pHlp, " current screen grp: %#04x (%u)\n", Gis.sgCurrent, Gis.sgCurrent);
pHlp->pfnPrintf(pHlp, " max screen groups: %#04x (%u)\n", Gis.sgMax, Gis.sgMax);
pHlp->pfnPrintf(pHlp, "csgWindowableVioMax: %#x (%u)\n", Gis.csgWindowableVioMax, Gis.csgWindowableVioMax);
pHlp->pfnPrintf(pHlp, " csgPMMax: %#x (%u)\n", Gis.csgPMMax, Gis.csgPMMax);
pHlp->pfnPrintf(pHlp, " cHugeShift: %#04x\n", Gis.cHugeShift);
pHlp->pfnPrintf(pHlp, " fProtectModeOnly: %d\n", Gis.fProtectModeOnly);
pHlp->pfnPrintf(pHlp, " pidForeground: %#04x (%u)\n", Gis.pidForeground, Gis.pidForeground);
pHlp->pfnPrintf(pHlp, " fDynamicSched: %u\n", Gis.fDynamicSched);
pHlp->pfnPrintf(pHlp, " csecMaxWait: %u\n", Gis.csecMaxWait);
pHlp->pfnPrintf(pHlp, " cmsecMinSlice: %u\n", Gis.cmsecMinSlice);
pHlp->pfnPrintf(pHlp, " cmsecMaxSlice: %u\n", Gis.cmsecMaxSlice);
pHlp->pfnPrintf(pHlp, " bootdrive: %#x\n", Gis.bootdrive);
pHlp->pfnPrintf(pHlp, " amecRAS: %.32Rhxs\n", &Gis.amecRAS[0]);
pHlp->pfnPrintf(pHlp, " SIS_Syslog: %#06x (%u)\n", Gis.SIS_Syslog, Gis.SIS_Syslog);
pHlp->pfnPrintf(pHlp, " SIS_MMIOBase: %#06x\n", Gis.SIS_MMIOBase);
pHlp->pfnPrintf(pHlp, " SIS_MMIOAddr: %#06x\n", Gis.SIS_MMIOAddr);
pHlp->pfnPrintf(pHlp, " SIS_MaxVDMs: %#04x (%u)\n", Gis.SIS_MaxVDMs, Gis.SIS_MaxVDMs);
pHlp->pfnPrintf(pHlp, " SIS_Reserved: %#04x\n", Gis.SIS_Reserved);
}
/**
* @callback_method_impl{FNDBGFHANDLEREXT,
* Display the OS/2 local info segment}
*/
static DECLCALLBACK(void) dbgDiggerOS2InfoLis(void *pvUser, PCDBGFINFOHLP pHlp, const char *pszArgs)
{
RT_NOREF(pszArgs);
PDBGDIGGEROS2 pThis = (PDBGDIGGEROS2)pvUser;
DBGFSELINFO SelInfo;
int rc = dbgDiggerOS2DisplaySelectorAndInfoEx(pThis, pHlp, pThis->Lis.sel, pThis->Lis.off, 19, "Local info segment", &SelInfo);
if (RT_FAILURE(rc))
return;
/*
* Read the LIS.
*/
DBGFADDRESS Addr;
OS2LIS Lis;
RT_ZERO(Lis);
rc = DBGFR3MemRead(pThis->pUVM, 0 /*idCpu*/, DBGFR3AddrFromFlat(pThis->pUVM, &Addr, SelInfo.GCPtrBase + pThis->Lis.off),
&Lis, sizeof(Lis));
if (RT_FAILURE(rc))
{
pHlp->pfnPrintf(pHlp, "Failed to read LIS: %Rrc\n", rc);
return;
}
pHlp->pfnPrintf(pHlp, " pidCurrent: %#06x (%u)\n", Lis.pidCurrent, Lis.pidCurrent);
pHlp->pfnPrintf(pHlp, " pidParent: %#06x (%u)\n", Lis.pidParent, Lis.pidParent);
pHlp->pfnPrintf(pHlp, " prtyCurrent: %#06x (%u)\n", Lis.prtyCurrent, Lis.prtyCurrent);
pHlp->pfnPrintf(pHlp, " tidCurrent: %#06x (%u)\n", Lis.tidCurrent, Lis.tidCurrent);
pHlp->pfnPrintf(pHlp, " sgCurrent: %#06x (%u)\n", Lis.sgCurrent, Lis.sgCurrent);
pHlp->pfnPrintf(pHlp, " rfProcStatus: %#04x\n", Lis.rfProcStatus);
if (Lis.bReserved1)
pHlp->pfnPrintf(pHlp, " bReserved1: %#04x\n", Lis.bReserved1);
pHlp->pfnPrintf(pHlp, " fForeground: %#04x (%u)\n", Lis.fForeground, Lis.fForeground);
pHlp->pfnPrintf(pHlp, " typeProcess: %#04x (%u)\n", Lis.typeProcess, Lis.typeProcess);
if (Lis.bReserved2)
pHlp->pfnPrintf(pHlp, " bReserved2: %#04x\n", Lis.bReserved2);
dbgDiggerOS2DisplaySelectorAndInfo(pThis, pHlp, Lis.selEnvironment, UINT32_MAX, 19, "selEnvironment");
pHlp->pfnPrintf(pHlp, " offCmdLine: %#06x (%u)\n", Lis.offCmdLine, Lis.offCmdLine);
pHlp->pfnPrintf(pHlp, " cbDataSegment: %#06x (%u)\n", Lis.cbDataSegment, Lis.cbDataSegment);
pHlp->pfnPrintf(pHlp, " cbStack: %#06x (%u)\n", Lis.cbStack, Lis.cbStack);
pHlp->pfnPrintf(pHlp, " cbHeap: %#06x (%u)\n", Lis.cbHeap, Lis.cbHeap);
pHlp->pfnPrintf(pHlp, " hmod: %#06x\n", Lis.hmod); /** @todo look up the name*/
dbgDiggerOS2DisplaySelectorAndInfo(pThis, pHlp, Lis.selDS, UINT32_MAX, 19, "selDS");
}
/**
* @callback_method_impl{FNDBGFHANDLEREXT,
* Display the OS/2 panic message}
*/
static DECLCALLBACK(void) dbgDiggerOS2InfoPanic(void *pvUser, PCDBGFINFOHLP pHlp, const char *pszArgs)
{
RT_NOREF(pszArgs);
PDBGDIGGEROS2 pThis = (PDBGDIGGEROS2)pvUser;
DBGFADDRESS HitAddr;
int rc = DBGFR3MemScan(pThis->pUVM, 0 /*idCpu*/, DBGFR3AddrFromFlat(pThis->pUVM, &HitAddr, pThis->uKernelAddr),
pThis->cbKernel, 1, RT_STR_TUPLE("Exception in module:"), &HitAddr);
if (RT_FAILURE(rc))
rc = DBGFR3MemScan(pThis->pUVM, 0 /*idCpu&*/, DBGFR3AddrFromFlat(pThis->pUVM, &HitAddr, pThis->uKernelAddr),
pThis->cbKernel, 1, RT_STR_TUPLE("Exception in device driver:"), &HitAddr);
/** @todo support pre-2001 kernels w/o the module/drivce name. */
if (RT_SUCCESS(rc))
{
char szMsg[728 + 1];
RT_ZERO(szMsg);
rc = DBGFR3MemRead(pThis->pUVM, 0, &HitAddr, szMsg, sizeof(szMsg) - 1);
if (szMsg[0] != '\0')
{
RTStrPurgeEncoding(szMsg);
char *psz = szMsg;
while (*psz != '\0')
{
char *pszEol = strchr(psz, '\r');
if (pszEol)
*pszEol = '\0';
pHlp->pfnPrintf(pHlp, "%s\n", psz);
if (!pszEol)
break;
psz = ++pszEol;
if (*psz == '\n')
psz++;
}
}
else
pHlp->pfnPrintf(pHlp, "DBGFR3MemRead -> %Rrc\n", rc);
}
else
pHlp->pfnPrintf(pHlp, "Unable to locate OS/2 panic message. (%Rrc)\n", rc);
}
/**
* @copydoc DBGFOSREG::pfnStackUnwindAssist
*/
static DECLCALLBACK(int) dbgDiggerOS2StackUnwindAssist(PUVM pUVM, void *pvData, VMCPUID idCpu, PDBGFSTACKFRAME pFrame,
PRTDBGUNWINDSTATE pState, PCCPUMCTX pInitialCtx, RTDBGAS hAs,
uint64_t *puScratch)
{
RT_NOREF(pUVM, pvData, idCpu, pFrame, pState, pInitialCtx, hAs, puScratch);
return VINF_SUCCESS;
}
/**
* @copydoc DBGFOSREG::pfnQueryInterface
*/
static DECLCALLBACK(void *) dbgDiggerOS2QueryInterface(PUVM pUVM, void *pvData, DBGFOSINTERFACE enmIf)
{
RT_NOREF3(pUVM, pvData, enmIf);
return NULL;
}
/**
* @copydoc DBGFOSREG::pfnQueryVersion
*/
static DECLCALLBACK(int) dbgDiggerOS2QueryVersion(PUVM pUVM, void *pvData, char *pszVersion, size_t cchVersion)
{
RT_NOREF1(pUVM);
PDBGDIGGEROS2 pThis = (PDBGDIGGEROS2)pvData;
Assert(pThis->fValid);
char *achOS2ProductType[32];
char *pszOS2ProductType = (char *)achOS2ProductType;
if (pThis->OS2MajorVersion == 10)
{
RTStrPrintf(pszOS2ProductType, sizeof(achOS2ProductType), "OS/2 1.%02d", pThis->OS2MinorVersion);
pThis->enmVer = DBGDIGGEROS2VER_1_x;
}
else if (pThis->OS2MajorVersion == 20)
{
if (pThis->OS2MinorVersion < 30)
{
RTStrPrintf(pszOS2ProductType, sizeof(achOS2ProductType), "OS/2 2.%02d", pThis->OS2MinorVersion);
pThis->enmVer = DBGDIGGEROS2VER_2_x;
}
else if (pThis->OS2MinorVersion < 40)
{
RTStrPrintf(pszOS2ProductType, sizeof(achOS2ProductType), "OS/2 Warp");
pThis->enmVer = DBGDIGGEROS2VER_3_0;
}
else if (pThis->OS2MinorVersion == 40)
{
RTStrPrintf(pszOS2ProductType, sizeof(achOS2ProductType), "OS/2 Warp 4");
pThis->enmVer = DBGDIGGEROS2VER_4_0;
}
else
{
RTStrPrintf(pszOS2ProductType, sizeof(achOS2ProductType), "OS/2 Warp %d.%d",
pThis->OS2MinorVersion / 10, pThis->OS2MinorVersion % 10);
pThis->enmVer = DBGDIGGEROS2VER_4_5;
}
}
RTStrPrintf(pszVersion, cchVersion, "%u.%u (%s)", pThis->OS2MajorVersion, pThis->OS2MinorVersion, pszOS2ProductType);
return VINF_SUCCESS;
}
/**
* @copydoc DBGFOSREG::pfnTerm
*/
static DECLCALLBACK(void) dbgDiggerOS2Term(PUVM pUVM, void *pvData)
{
RT_NOREF1(pUVM);
PDBGDIGGEROS2 pThis = (PDBGDIGGEROS2)pvData;
Assert(pThis->fValid);
DBGFR3InfoDeregisterExternal(pUVM, "sas");
DBGFR3InfoDeregisterExternal(pUVM, "gis");
DBGFR3InfoDeregisterExternal(pUVM, "lis");
DBGFR3InfoDeregisterExternal(pUVM, "panic");
pThis->fValid = false;
}
/**
* @copydoc DBGFOSREG::pfnRefresh
*/
static DECLCALLBACK(int) dbgDiggerOS2Refresh(PUVM pUVM, void *pvData)
{
PDBGDIGGEROS2 pThis = (PDBGDIGGEROS2)pvData;
NOREF(pThis);
Assert(pThis->fValid);
/*
* For now we'll flush and reload everything.
*/
RTDBGAS hDbgAs = DBGFR3AsResolveAndRetain(pUVM, DBGF_AS_KERNEL);
if (hDbgAs != NIL_RTDBGAS)
{
uint32_t iMod = RTDbgAsModuleCount(hDbgAs);
while (iMod-- > 0)
{
RTDBGMOD hMod = RTDbgAsModuleByIndex(hDbgAs, iMod);
if (hMod != NIL_RTDBGMOD)
{
if (RTDbgModGetTag(hMod) == DIG_OS2_MOD_TAG)
{
int rc = RTDbgAsModuleUnlink(hDbgAs, hMod);
AssertRC(rc);
}
RTDbgModRelease(hMod);
}
}
RTDbgAsRelease(hDbgAs);
}
dbgDiggerOS2Term(pUVM, pvData);
return dbgDiggerOS2Init(pUVM, pvData);
}
/** Buffer shared by dbgdiggerOS2ProcessModule and dbgDiggerOS2Init.*/
typedef union DBGDIGGEROS2BUF
{
uint8_t au8[0x2000];
uint16_t au16[0x2000/2];
uint32_t au32[0x2000/4];
RTUTF16 wsz[0x2000/2];
char ach[0x2000];
LDROTE aOtes[0x2000 / sizeof(LDROTE)];
SAS sas;
SASVM sasvm;
LDRMTE mte;
LDRSMTE smte;
LDROTE ote;
} DBGDIGGEROS2BUF;
/** Arguments dbgdiggerOS2ProcessModule passes to the module open callback. */
typedef struct
{
const char *pszModPath;
const char *pszModName;
LDRMTE const *pMte;
LDRSMTE const *pSwapMte;
} DBGDIGGEROS2OPEN;
/**
* @callback_method_impl{FNRTDBGCFGOPEN, Debug image/image searching callback.}
*/
static DECLCALLBACK(int) dbgdiggerOs2OpenModule(RTDBGCFG hDbgCfg, const char *pszFilename, void *pvUser1, void *pvUser2)
{
DBGDIGGEROS2OPEN *pArgs = (DBGDIGGEROS2OPEN *)pvUser1;
RTDBGMOD hDbgMod = NIL_RTDBGMOD;
int rc = RTDbgModCreateFromImage(&hDbgMod, pszFilename, pArgs->pszModName, RTLDRARCH_WHATEVER, hDbgCfg);
if (RT_SUCCESS(rc))
{
/** @todo Do some info matching before using it? */
*(PRTDBGMOD)pvUser2 = hDbgMod;
return VINF_CALLBACK_RETURN;
}
LogRel(("DbgDiggerOs2: dbgdiggerOs2OpenModule: %Rrc - %s\n", rc, pszFilename));
return rc;
}
static void dbgdiggerOS2ProcessModule(PUVM pUVM, PDBGDIGGEROS2 pThis, DBGDIGGEROS2BUF *pBuf,
const char *pszCacheSubDir, RTDBGAS hAs, RTDBGCFG hDbgCfg)
{
RT_NOREF(pThis);
/*
* Save the MTE.
*/
static const char * const s_apszMteFmts[4] = { "Reserved1", "NE", "LX", "Reserved2" };
LDRMTE const Mte = pBuf->mte;
if ((Mte.mte_flags2 & MTEFORMATMASK) != MTEFORMATLX)
{
LogRel(("DbgDiggerOs2: MTE format not implemented: %s (%d)\n",
s_apszMteFmts[(Mte.mte_flags2 & MTEFORMATMASK)], Mte.mte_flags2 & MTEFORMATMASK));
return;
}
/*
* Don't load program modules into the global address spaces.
*/
if ((Mte.mte_flags1 & MTE1_CLASS_MASK) == MTE1_CLASS_PROGRAM)
{
LogRel(("DbgDiggerOs2: Program module, skipping.\n"));
return;
}
/*
* Try read the swappable MTE. Save it too.
*/
DBGFADDRESS Addr;
int rc = DBGFR3MemRead(pUVM, 0 /*idCpu*/, DBGFR3AddrFromFlat(pUVM, &Addr, Mte.mte_swapmte), &pBuf->smte, sizeof(pBuf->smte));
if (RT_FAILURE(rc))
{
LogRel(("DbgDiggerOs2: Error reading swap mte @ %RX32: %Rrc\n", Mte.mte_swapmte, rc));
return;
}
LDRSMTE const SwapMte = pBuf->smte;
/* Ignore empty modules or modules with too many segments. */
if (SwapMte.smte_objcnt == 0 || SwapMte.smte_objcnt > RT_ELEMENTS(pBuf->aOtes))
{
LogRel(("DbgDiggerOs2: Skipping: smte_objcnt= %#RX32\n", SwapMte.smte_objcnt));
return;
}
/*
* Try read the path name, falling back on module name.
*/
char szModPath[260];
rc = VERR_READ_ERROR;
if (SwapMte.smte_path != 0 && SwapMte.smte_pathlen > 0)
{
uint32_t cbToRead = RT_MIN(SwapMte.smte_path, sizeof(szModPath) - 1);
rc = DBGFR3MemRead(pUVM, 0 /*idCpu*/, DBGFR3AddrFromFlat(pUVM, &Addr, SwapMte.smte_path), szModPath, cbToRead);
szModPath[cbToRead] = '\0';
}
if (RT_FAILURE(rc))
{
memcpy(szModPath, Mte.mte_modname, sizeof(Mte.mte_modname));
szModPath[sizeof(Mte.mte_modname)] = '\0';
RTStrStripR(szModPath);
}
LogRel(("DbgDiggerOS2: szModPath='%s'\n", szModPath));
/*
* Sanitize the module name.
*/
char szModName[16];
memcpy(szModName, Mte.mte_modname, sizeof(Mte.mte_modname));
szModName[sizeof(Mte.mte_modname)] = '\0';
RTStrStripR(szModName);
/*
* Read the object table into the buffer.
*/
rc = DBGFR3MemRead(pUVM, 0 /*idCpu*/, DBGFR3AddrFromFlat(pUVM, &Addr, SwapMte.smte_objtab),
&pBuf->aOtes[0], sizeof(pBuf->aOtes[0]) * SwapMte.smte_objcnt);
if (RT_FAILURE(rc))
{
LogRel(("DbgDiggerOs2: Error reading object table @ %#RX32 LB %#zx: %Rrc\n",
SwapMte.smte_objtab, sizeof(pBuf->aOtes[0]) * SwapMte.smte_objcnt, rc));
return;
}
for (uint32_t i = 0; i < SwapMte.smte_objcnt; i++)
{
LogRel(("DbgDiggerOs2: seg%u: %RX32 LB %#x\n", i, pBuf->aOtes[i].ote_base, pBuf->aOtes[i].ote_size));
/** @todo validate it. */
}
/*
* If it is the kernel, take down the general address range so we can easily search
* it all in one go when looking for panic messages and such.
*/
if (Mte.mte_flags1 & MTE1_DOSMOD)
{
uint32_t uMax = 0;
uint32_t uMin = UINT32_MAX;
for (uint32_t i = 0; i < SwapMte.smte_objcnt; i++)
if (pBuf->aOtes[i].ote_base > _512M)
{
if (pBuf->aOtes[i].ote_base < uMin)
uMin = pBuf->aOtes[i].ote_base;
uint32_t uTmp = pBuf->aOtes[i].ote_base + pBuf->aOtes[i].ote_size;
if (uTmp > uMax)
uMax = uTmp;
}
if (uMax != 0)
{
pThis->uKernelAddr = uMin;
pThis->cbKernel = uMax - uMin;
LogRel(("DbgDiggerOs2: High kernel range: %#RX32 LB %#RX32 (%#RX32)\n", uMin, pThis->cbKernel, uMax));
}
}
/*
* No need to continue without an address space (shouldn't happen).
*/
if (hAs == NIL_RTDBGAS)
return;
/*
* Try find a debug file for this module.
*/
RTDBGMOD hDbgMod = NIL_RTDBGMOD;
if (hDbgCfg != NIL_RTDBGCFG)
{
DBGDIGGEROS2OPEN Args = { szModPath, szModName, &Mte, &SwapMte };
RTDbgCfgOpenEx(hDbgCfg, szModPath, pszCacheSubDir, NULL,
RT_OPSYS_OS2 | RTDBGCFG_O_CASE_INSENSITIVE | RTDBGCFG_O_EXECUTABLE_IMAGE
| RTDBGCFG_O_RECURSIVE | RTDBGCFG_O_NO_SYSTEM_PATHS,
dbgdiggerOs2OpenModule, &Args, &hDbgMod);
}
/*
* Fallback is a simple module into which we insert sections.
*/
uint32_t cSegments = SwapMte.smte_objcnt;
if (hDbgMod == NIL_RTDBGMOD)
{
rc = RTDbgModCreate(&hDbgMod, szModName, 0 /*cbSeg*/, 0 /*fFlags*/);
if (RT_SUCCESS(rc))
{
uint32_t uRva = 0;
for (uint32_t i = 0; i < SwapMte.smte_objcnt; i++)
{
char szSegNm[16];
RTStrPrintf(szSegNm, sizeof(szSegNm), "seg%u", i);
rc = RTDbgModSegmentAdd(hDbgMod, uRva, pBuf->aOtes[i].ote_size, szSegNm, 0 /*fFlags*/, NULL);
if (RT_FAILURE(rc))
{
LogRel(("DbgDiggerOs2: RTDbgModSegmentAdd failed (i=%u, ote_size=%#x): %Rrc\n",
i, pBuf->aOtes[i].ote_size, rc));
cSegments = i;
break;
}
uRva += RT_ALIGN_32(pBuf->aOtes[i].ote_size, _4K);
}
}
else
{
LogRel(("DbgDiggerOs2: RTDbgModCreate failed: %Rrc\n", rc));
return;
}
}
/*
* Tag the module and link its segments.
*/
rc = RTDbgModSetTag(hDbgMod, DIG_OS2_MOD_TAG);
if (RT_SUCCESS(rc))
{
for (uint32_t i = 0; i < SwapMte.smte_objcnt; i++)
if (pBuf->aOtes[i].ote_base != 0)
{
rc = RTDbgAsModuleLinkSeg(hAs, hDbgMod, i, pBuf->aOtes[i].ote_base, RTDBGASLINK_FLAGS_REPLACE /*fFlags*/);
if (RT_FAILURE(rc))
LogRel(("DbgDiggerOs2: RTDbgAsModuleLinkSeg failed (i=%u, ote_base=%#x): %Rrc\n",
i, pBuf->aOtes[i].ote_base, rc));
}
}
else
LogRel(("DbgDiggerOs2: RTDbgModSetTag failed: %Rrc\n", rc));
RTDbgModRelease(hDbgMod);
}
/**
* @copydoc DBGFOSREG::pfnInit
*/
static DECLCALLBACK(int) dbgDiggerOS2Init(PUVM pUVM, void *pvData)
{
PDBGDIGGEROS2 pThis = (PDBGDIGGEROS2)pvData;
Assert(!pThis->fValid);
DBGDIGGEROS2BUF uBuf;
DBGFADDRESS Addr;
int rc;
/*
* Determine the OS/2 version.
*/
/* Version info is at GIS:15h (major/minor/revision). */
rc = DBGFR3AddrFromSelOff(pUVM, 0 /*idCpu*/, &Addr, pThis->selGis, 0x15);
if (RT_FAILURE(rc))
return VERR_NOT_SUPPORTED;
rc = DBGFR3MemRead(pUVM, 0 /*idCpu*/, &Addr, uBuf.au32, sizeof(uint32_t));
if (RT_FAILURE(rc))
return VERR_NOT_SUPPORTED;
pThis->OS2MajorVersion = uBuf.au8[0];
pThis->OS2MinorVersion = uBuf.au8[1];
pThis->fValid = true;
/*
* Try use SAS to find the module list.
*/
rc = DBGFR3AddrFromSelOff(pUVM, 0 /*idCpu*/, &Addr, 0x70, 0x00);
if (RT_SUCCESS(rc))
{
rc = DBGFR3MemRead(pUVM, 0 /*idCpu*/, &Addr, &uBuf.sas, sizeof(uBuf.sas));
if (RT_SUCCESS(rc))
{
rc = DBGFR3AddrFromSelOff(pUVM, 0 /*idCpu*/, &Addr, 0x70, uBuf.sas.SAS_vm_data);
if (RT_SUCCESS(rc))
rc = DBGFR3MemRead(pUVM, 0 /*idCpu*/, &Addr, &uBuf.sasvm, sizeof(uBuf.sasvm));
if (RT_SUCCESS(rc))
{
/*
* Work the module list.
*/
rc = DBGFR3MemRead(pUVM, 0 /*idCpu*/, DBGFR3AddrFromFlat(pUVM, &Addr, uBuf.sasvm.SAS_vm_all_mte),
&uBuf.au32[0], sizeof(uBuf.au32[0]));
if (RT_SUCCESS(rc))
{
uint32_t uOs2Krnl = UINT32_MAX;
RTDBGCFG hDbgCfg = DBGFR3AsGetConfig(pUVM); /* (don't release this) */
RTDBGAS hAs = DBGFR3AsResolveAndRetain(pUVM, DBGF_AS_GLOBAL);
char szCacheSubDir[24];
RTStrPrintf(szCacheSubDir, sizeof(szCacheSubDir), "os2-%u.%u", pThis->OS2MajorVersion, pThis->OS2MinorVersion);
DBGFR3AddrFromFlat(pUVM, &Addr, uBuf.au32[0]);
while (Addr.FlatPtr != 0 && Addr.FlatPtr != UINT32_MAX)
{
rc = DBGFR3MemRead(pUVM, 0 /*idCpu*/, &Addr, &uBuf.mte, sizeof(uBuf.mte));
if (RT_FAILURE(rc))
break;
LogRel(("DbgDiggerOs2: Module @ %#010RX32: %.8s %#x %#x\n", (uint32_t)Addr.FlatPtr,
uBuf.mte.mte_modname, uBuf.mte.mte_flags1, uBuf.mte.mte_flags2));
if (uBuf.mte.mte_flags1 & MTE1_DOSMOD)
uOs2Krnl = (uint32_t)Addr.FlatPtr;
DBGFR3AddrFromFlat(pUVM, &Addr, uBuf.mte.mte_link);
dbgdiggerOS2ProcessModule(pUVM, pThis, &uBuf, szCacheSubDir, hAs, hDbgCfg);
}
/* Load the kernel again. To make sure we didn't drop any segments due
to overlap/conflicts/whatever. */
if (uOs2Krnl != UINT32_MAX)
{
rc = DBGFR3MemRead(pUVM, 0 /*idCpu*/, DBGFR3AddrFromFlat(pUVM, &Addr, uOs2Krnl),
&uBuf.mte, sizeof(uBuf.mte));
if (RT_SUCCESS(rc))
{
LogRel(("DbgDiggerOs2: Module @ %#010RX32: %.8s %#x %#x [again]\n", (uint32_t)Addr.FlatPtr,
uBuf.mte.mte_modname, uBuf.mte.mte_flags1, uBuf.mte.mte_flags2));
dbgdiggerOS2ProcessModule(pUVM, pThis, &uBuf, szCacheSubDir, hAs, hDbgCfg);
}
}
RTDbgAsRelease(hAs);
}
}
}
}
/*
* Register info handlers.
*/
DBGFR3InfoRegisterExternal(pUVM, "sas", "Dumps the OS/2 system anchor block (SAS).", dbgDiggerOS2InfoSas, pThis);
DBGFR3InfoRegisterExternal(pUVM, "gis", "Dumps the OS/2 global info segment (GIS).", dbgDiggerOS2InfoGis, pThis);
DBGFR3InfoRegisterExternal(pUVM, "lis", "Dumps the OS/2 local info segment (current process).", dbgDiggerOS2InfoLis, pThis);
DBGFR3InfoRegisterExternal(pUVM, "panic", "Dumps the OS/2 system panic message.", dbgDiggerOS2InfoPanic, pThis);
return VINF_SUCCESS;
}
/**
* @copydoc DBGFOSREG::pfnProbe
*/
static DECLCALLBACK(bool) dbgDiggerOS2Probe(PUVM pUVM, void *pvData)
{
PDBGDIGGEROS2 pThis = (PDBGDIGGEROS2)pvData;
DBGFADDRESS Addr;
int rc;
uint16_t offInfo;
union
{
uint8_t au8[8192];
uint16_t au16[8192/2];
uint32_t au32[8192/4];
RTUTF16 wsz[8192/2];
} u;
/*
* If the DWORD at 70:0 contains 'SAS ' it's quite unlikely that this wouldn't be OS/2.
* Note: The SAS layout is similar between 16-bit and 32-bit OS/2, but not identical.
* 32-bit OS/2 will have the flat kernel data selector at SAS:06. The selector is 168h
* or similar. For 16-bit OS/2 the field contains a table offset into the SAS which will
* be much smaller. Fun fact: The global infoseg selector in the SAS is bimodal in 16-bit
* OS/2 and will work in real mode as well.
*/
do {
rc = DBGFR3AddrFromSelOff(pUVM, 0 /*idCpu*/, &Addr, 0x70, 0x00);
if (RT_FAILURE(rc))
break;
rc = DBGFR3MemRead(pUVM, 0 /*idCpu*/, &Addr, u.au32, 256);
if (RT_FAILURE(rc))
break;
if (u.au32[0] != DIG_OS2_SAS_SIG)
break;
/* This sure looks like OS/2, but a bit of paranoia won't hurt. */
if (u.au16[2] >= u.au16[4])
break;
/* If 4th word is bigger than 5th, it's the flat kernel mode selector. */
if (u.au16[3] > u.au16[4])
pThis->f32Bit = true;
/* Offset into info table is either at SAS:14h or SAS:16h. */
if (pThis->f32Bit)
offInfo = u.au16[0x14/2];
else
offInfo = u.au16[0x16/2];
/* The global infoseg selector is the first entry in the info table. */
SASINFO const *pInfo = (SASINFO const *)&u.au8[offInfo];
pThis->selGis = pInfo->SAS_info_global;
pThis->Lis.sel = RT_HI_U16(pInfo->SAS_info_local);
pThis->Lis.off = RT_LO_U16(pInfo->SAS_info_local);
return true;
} while (0);
return false;
}
/**
* @copydoc DBGFOSREG::pfnDestruct
*/
static DECLCALLBACK(void) dbgDiggerOS2Destruct(PUVM pUVM, void *pvData)
{
RT_NOREF2(pUVM, pvData);
}
/**
* @copydoc DBGFOSREG::pfnConstruct
*/
static DECLCALLBACK(int) dbgDiggerOS2Construct(PUVM pUVM, void *pvData)
{
RT_NOREF1(pUVM);
PDBGDIGGEROS2 pThis = (PDBGDIGGEROS2)pvData;
pThis->fValid = false;
pThis->f32Bit = false;
pThis->enmVer = DBGDIGGEROS2VER_UNKNOWN;
pThis->pUVM = pUVM;
return VINF_SUCCESS;
}
const DBGFOSREG g_DBGDiggerOS2 =
{
/* .u32Magic = */ DBGFOSREG_MAGIC,
/* .fFlags = */ 0,
/* .cbData = */ sizeof(DBGDIGGEROS2),
/* .szName = */ "OS/2",
/* .pfnConstruct = */ dbgDiggerOS2Construct,
/* .pfnDestruct = */ dbgDiggerOS2Destruct,
/* .pfnProbe = */ dbgDiggerOS2Probe,
/* .pfnInit = */ dbgDiggerOS2Init,
/* .pfnRefresh = */ dbgDiggerOS2Refresh,
/* .pfnTerm = */ dbgDiggerOS2Term,
/* .pfnQueryVersion = */ dbgDiggerOS2QueryVersion,
/* .pfnQueryInterface = */ dbgDiggerOS2QueryInterface,
/* .pfnStackUnwindAssist = */ dbgDiggerOS2StackUnwindAssist,
/* .u32EndMagic = */ DBGFOSREG_MAGIC
};
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