/
atactl.cpp
1943 lines (1795 loc) · 59.2 KB
/
atactl.cpp
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#include <stdarg.h>
#include <windef.h>
#include <winbase.h>
#include <winreg.h>
#include <winioctl.h>
#include <stdlib.h>
//#include <ntdddisk.h>
//#include <ntddscsi.h>
#include <ntddscsi.h>
#include <atapi.h>
#include <bm_devs.h>
#include <uata_ctl.h>
#include <tools.h>
#include <uniata_ver.h>
#include "helper.h"
#define DEFAULT_REMOVAL_LOCK_TIMEOUT 20
#define MOV_DW_SWP(a,b) \
do \
{ \
*(unsigned short *)&(a) = _byteswap_ushort(*(unsigned short *)&(b)); \
} \
while (0)
#define MOV_DD_SWP(a,b) \
{ \
PFOUR_BYTE _from_, _to_; \
_from_ = ((PFOUR_BYTE)&(b)); \
_to_ = ((PFOUR_BYTE)&(a)); \
__asm mov ebx,_from_ \
__asm mov eax,[ebx] \
__asm bswap eax \
__asm mov ebx,_to_ \
__asm mov [ebx],eax \
}
int g_extended = 0;
int g_adapter_info = 0;
char* g_bb_list = NULL;
int gRadix = 16;
PADAPTERINFO g_AdapterInfo = NULL;
BOOLEAN
ata_power_mode(
int bus_id,
int dev_id,
int power_mode
);
void print_help() {
printf("Usage:\n"
" atactl -<switches> c|s<controller id>:b<bus id>:d<device id>[:l<lun>]\n"
"Switches:\n"
" l (L)ist devices on SCSI and ATA controllers bus(es)\n"
" Note: ATA Pri/Sec controller are usually represented\n"
" as Scsi0/Scsi1 under NT-family OSes\n"
" x show e(X)tended info\n"
" a show (A)dapter info\n"
" s (S)can for new devices on ATA/SATA bus(es) (experimental)\n"
" S (S)can for new devices on ATA/SATA bus(es) (experimental)\n"
" device, hidden with 'H' can be redetected\n"
" h (H)ide device on ATA/SATA bus for removal (experimental)\n"
" device can be redetected\n"
" H (H)ide device on ATA/SATA bus (experimental)\n"
" device can not be redetected until 'h' or 'S' is issued\n"
" m [MODE] set i/o (M)ode for device or revert to default\n"
" available MODEs are PIO, PIO0-PIO5, DMA, WDMA0-WDMA2,\n"
" UDMA33/44/66/100/133, UDMA0-UDMA5\n"
" d [XXX] lock ATA/SATA bus for device removal for XXX seconds or\n"
" for %d seconds if no lock timeout specified.\n"
" can be used with -h, -m or standalone.\n"
" D [XXX] disable device (turn into sleep mode) and lock ATA/SATA bus \n"
" for device removal for XXX seconds or\n"
" for %d seconds if no lock timeout specified.\n"
" can be used with -h, -m or standalone.\n"
" pX change power state to X, where X is\n"
" 0 - active, 1 - idle, 2 - standby, 3 - sleep\n"
" r (R)eset device\n"
" ba (A)ssign (B)ad-block list\n"
" bl get assigned (B)ad-block (L)ist\n"
" br (R)eset assigned (B)ad-block list\n"
" f specify (F)ile for bad-block list\n"
" n XXX block (n)ubmering radix. XXX can be hex or dec\n"
"------\n"
"Examples:\n"
" atactl -l\n"
" will list all scsi buses and all connected devices\n"
" atactl -m udma0 s2:b1:d1\n"
" will switch device at Scsi2, bus 1, taget_id 1 to UDMA0 mode\n"
" atactl -h -d 30 c1:b0:d0:l0 \n"
" will hide Master (d0:l0) device on secondary (c1:b0) IDE channel\n"
" and lock i/o on this channel for 30 seconds to ensure safety\n"
" of removal process"
"------\n"
"Device address format:\n"
"\n"
"s<controller id> number of controller in system. Is assigned during hardware\n"
" detection. Usually s0/s1 are ATA Pri/Sec.\n"
" Note, due do NT internal design ATA controllers are represented\n"
" as SCSI controllers.\n"
"b<bus id> For ATA controllers it is channel number.\n"
" Note, usually onboard controller is represented as 2 legacy\n"
" ISA-compatible single-channel controllers (Scsi9/Scsi1). Additional\n"
" ATA, ATA-RAID and some specific onboard controllers are represented\n"
" as multichannel controllers.\n"
"d<device id> For ATA controllers d0 is Master, d1 is Slave.\n"
"l<lun> Not used in ATA controller drivers, alway 0\n"
"------\n"
"Bad-block list format:\n"
"\n"
"# Comment\n"
"; Still one comment\n"
"hex: switch to hexadecimal mode\n"
"<Bad Area 1 Start LBA, e.g. FD50> <Block count 1, e.g. 60>\n"
"<Bad Area 2 Start LBA> <Block count 2>\n"
"...\n"
"dec: switch to decimal mode\n"
"<Bad Area N Start LBA, e.g. 16384> <Block count N, e.g. 48>\n"
"...\n"
"------\n"
"",
DEFAULT_REMOVAL_LOCK_TIMEOUT,
DEFAULT_REMOVAL_LOCK_TIMEOUT
);
exit(0);
}
#define CMD_ATA_LIST 0x01
#define CMD_ATA_FIND 0x02
#define CMD_ATA_HIDE 0x03
#define CMD_ATA_MODE 0x04
#define CMD_ATA_RESET 0x05
#define CMD_ATA_BBLK 0x06
#define CMD_ATA_POWER 0x07
HANDLE
ata_open_dev(
char* Name
)
{
ULONG i;
HANDLE h;
for(i=0; i<4; i++) {
h = CreateFile(Name,
READ_CONTROL | GENERIC_READ | GENERIC_WRITE ,
((i & 1) ? 0 : FILE_SHARE_READ) | ((i & 2) ? 0 : FILE_SHARE_WRITE),
NULL,
OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL,
NULL);
if(h && (h != ((HANDLE)(-1))) ) {
return h;
}
}
for(i=0; i<4; i++) {
h = CreateFile(Name,
GENERIC_READ | GENERIC_WRITE ,
((i & 1) ? 0 : FILE_SHARE_READ) | ((i & 2) ? 0 : FILE_SHARE_WRITE),
NULL,
OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL,
NULL);
if(h && (h != ((HANDLE)(-1))) ) {
return h;
}
}
for(i=0; i<4; i++) {
h = CreateFile(Name,
GENERIC_READ,
((i & 1) ? 0 : FILE_SHARE_READ) | ((i & 2) ? 0 : FILE_SHARE_WRITE),
NULL,
OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL,
NULL);
if(h && (h != ((HANDLE)(-1))) ) {
return h;
}
}
for(i=0; i<4; i++) {
h = CreateFile(Name,
READ_CONTROL,
((i & 1) ? 0 : FILE_SHARE_READ) | ((i & 2) ? 0 : FILE_SHARE_WRITE),
NULL,
OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL,
NULL);
if(h && (h != ((HANDLE)(-1))) ) {
return h;
}
}
return NULL;
} // end ata_open_dev()
HANDLE
ata_open_file(
char* Name,
BOOLEAN create
)
{
ULONG i;
HANDLE h;
if(!Name) {
if(create) {
return GetStdHandle(STD_OUTPUT_HANDLE);
} else {
return GetStdHandle(STD_INPUT_HANDLE);
}
}
for(i=0; i<4; i++) {
h = CreateFile(Name,
create ? GENERIC_WRITE : GENERIC_READ ,
((i & 1) ? 0 : FILE_SHARE_READ) | ((i & 2) ? 0 : FILE_SHARE_WRITE),
NULL,
create ? CREATE_NEW : OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL,
NULL);
if(h && (h != ((HANDLE)(-1))) ) {
return h;
}
}
return NULL;
} // end ata_open_file()
void
ata_close_dev(
HANDLE h
)
{
CloseHandle(h);
} // end ata_close_dev()
int
ata_send_ioctl(
HANDLE h,
PSCSI_ADDRESS addr,
PCCH Signature,
ULONG Ioctl,
PVOID inBuffer,
ULONG inBufferLength,
PVOID outBuffer,
ULONG outBufferLength,
PULONG returned
)
{
ULONG status;
PUNIATA_CTL AtaCtl;
ULONG data_len = max(inBufferLength, outBufferLength);
ULONG len;
if(addr) {
len = data_len + offsetof(UNIATA_CTL, RawData);
} else {
len = data_len + sizeof(AtaCtl->hdr);
}
AtaCtl = (PUNIATA_CTL)GlobalAlloc(GMEM_FIXED, len);
AtaCtl->hdr.HeaderLength = sizeof(SRB_IO_CONTROL);
if(addr) {
AtaCtl->hdr.Length = data_len + offsetof(UNIATA_CTL, RawData) - sizeof(AtaCtl->hdr);
} else {
AtaCtl->hdr.Length = data_len;
}
memcpy(&AtaCtl->hdr.Signature, Signature, 8);
AtaCtl->hdr.Timeout = 10000;
AtaCtl->hdr.ControlCode = Ioctl;
AtaCtl->hdr.ReturnCode = 0;
if(addr) {
AtaCtl->addr = *addr;
AtaCtl->addr.Length = sizeof(AtaCtl->addr);
}
if(outBufferLength) {
if(addr) {
memset(&AtaCtl->RawData, 0, outBufferLength);
} else {
memset(&AtaCtl->addr, 0, outBufferLength);
}
}
if(inBuffer && inBufferLength) {
if(addr) {
memcpy(&AtaCtl->RawData, inBuffer, inBufferLength);
} else {
memcpy(&AtaCtl->addr, inBuffer, inBufferLength);
}
}
status = DeviceIoControl(h,
IOCTL_SCSI_MINIPORT,
AtaCtl,
len,
AtaCtl,
len,
returned,
FALSE);
if(outBuffer && outBufferLength) {
if(addr) {
memcpy(outBuffer, &AtaCtl->RawData, outBufferLength);
} else {
memcpy(outBuffer, &AtaCtl->addr, outBufferLength);
}
}
GlobalFree(AtaCtl);
if(!status) {
status = GetLastError();
return FALSE;
}
return TRUE;
} // end ata_send_ioctl()
int
ata_send_scsi(
HANDLE h,
PSCSI_ADDRESS addr,
PCDB cdb,
UCHAR cdbLength,
PVOID Buffer,
ULONG BufferLength,
BOOLEAN DataIn,
PSENSE_DATA senseData,
PULONG returned
)
{
ULONG status;
PSCSI_PASS_THROUGH_WITH_BUFFERS sptwb;
//ULONG data_len = BufferLength;
ULONG len;
len = BufferLength + offsetof(SCSI_PASS_THROUGH_WITH_BUFFERS, ucDataBuf);
sptwb = (PSCSI_PASS_THROUGH_WITH_BUFFERS)GlobalAlloc(GMEM_FIXED, len);
if(!sptwb) {
return FALSE;
}
memset(sptwb, 0, offsetof(SCSI_PASS_THROUGH_WITH_BUFFERS, ucDataBuf));
sptwb->spt.Length = sizeof(SCSI_PASS_THROUGH);
sptwb->spt.PathId = addr->PathId;
sptwb->spt.TargetId = addr->TargetId;
sptwb->spt.Lun = addr->Lun;
sptwb->spt.CdbLength = cdbLength;
sptwb->spt.SenseInfoLength = 24;
sptwb->spt.DataIn = Buffer ? (DataIn ? SCSI_IOCTL_DATA_IN : SCSI_IOCTL_DATA_OUT) : 0;
sptwb->spt.DataTransferLength = BufferLength;
sptwb->spt.TimeOutValue = 10;
sptwb->spt.DataBufferOffset =
offsetof(SCSI_PASS_THROUGH_WITH_BUFFERS,ucDataBuf);
sptwb->spt.SenseInfoOffset =
offsetof(SCSI_PASS_THROUGH_WITH_BUFFERS,ucSenseBuf);
memcpy(&sptwb->spt.Cdb, cdb, cdbLength);
if(Buffer && !DataIn) {
memcpy(&sptwb->ucSenseBuf, Buffer, BufferLength);
}
status = DeviceIoControl(h,
IOCTL_SCSI_PASS_THROUGH,
sptwb,
(Buffer && !DataIn) ? len : sizeof(SCSI_PASS_THROUGH),
sptwb,
(Buffer && DataIn) ? len : offsetof(SCSI_PASS_THROUGH_WITH_BUFFERS, ucDataBuf),
returned,
FALSE);
if(Buffer && DataIn) {
memcpy(Buffer, &sptwb->ucDataBuf, BufferLength);
}
if(senseData) {
memcpy(senseData, &sptwb->ucSenseBuf, sizeof(sptwb->ucSenseBuf));
}
GlobalFree(sptwb);
if(!status) {
status = GetLastError();
return FALSE;
}
return TRUE;
} // end ata_send_scsi()
IO_SCSI_CAPABILITIES g_capabilities;
UCHAR g_inquiry_buffer[2048];
void
ata_mode_to_str(
char* str,
int mode
)
{
if(mode > ATA_SA600) {
sprintf(str, "SATA-600+");
} else
if(mode >= ATA_SA600) {
sprintf(str, "SATA-600");
} else
if(mode >= ATA_SA300) {
sprintf(str, "SATA-300");
} else
if(mode >= ATA_SA150) {
sprintf(str, "SATA-150");
} else
if(mode >= ATA_UDMA0) {
sprintf(str, "UDMA%d", mode-ATA_UDMA0);
} else
if(mode >= ATA_WDMA0) {
sprintf(str, "WDMA%d", mode-ATA_WDMA0);
} else
if(mode >= ATA_SDMA0) {
sprintf(str, "SDMA%d", mode-ATA_SDMA0);
} else
if(mode >= ATA_PIO0) {
sprintf(str, "PIO%d", mode-ATA_PIO0);
} else
if(mode == ATA_PIO_NRDY) {
sprintf(str, "PIO nRDY");
} else
{
sprintf(str, "PIO");
}
} // end ata_mode_to_str()
#define check_atamode_str(str, mode) \
(!_stricmp(str, "UDMA" #mode) || \
!_stricmp(str, "UDMA-" #mode) || \
!_stricmp(str, "ATA-" #mode) || \
!_stricmp(str, "ATA#" #mode))
int
ata_str_to_mode(
char* str
)
{
int mode;
int len;
if(!_stricmp(str, "SATA600"))
return ATA_SA600;
if(!_stricmp(str, "SATA300"))
return ATA_SA300;
if(!_stricmp(str, "SATA150"))
return ATA_SA150;
if(!_stricmp(str, "SATA"))
return ATA_SA150;
if(check_atamode_str(str, 16))
return ATA_UDMA0;
if(check_atamode_str(str, 25))
return ATA_UDMA1;
if(check_atamode_str(str, 33))
return ATA_UDMA2;
if(check_atamode_str(str, 44))
return ATA_UDMA3;
if(check_atamode_str(str, 66))
return ATA_UDMA4;
if(check_atamode_str(str, 100))
return ATA_UDMA5;
if(check_atamode_str(str, 122))
return ATA_UDMA6;
len = strlen(str);
if(len >= 4 && !_memicmp(str, "UDMA", 4)) {
if(len == 4)
return ATA_UDMA0;
if(len > 5)
return -1;
mode = str[4] - '0';
if(mode < 0 || mode > 7)
return -1;
return ATA_UDMA0+mode;
}
if(len >= 4 && !_memicmp(str, "WDMA", 4)) {
if(len == 4)
return ATA_WDMA0;
if(len > 5)
return -1;
mode = str[4] - '0';
if(mode < 0 || mode > 2)
return -1;
return ATA_WDMA0+mode;
}
if(len >= 4 && !_memicmp(str, "SDMA", 4)) {
if(len == 4)
return ATA_SDMA0;
if(len > 5)
return -1;
mode = str[4] - '0';
if(mode < 0 || mode > 2)
return -1;
return ATA_SDMA0+mode;
}
if(len == 4 && !_memicmp(str, "DMA", 4)) {
return ATA_SDMA0;
}
if(len >= 3 && !_memicmp(str, "PIO", 3)) {
if(len == 3)
return ATA_PIO;
if(len > 4)
return -1;
mode = str[3] - '0';
if(mode < 0 || mode > 5)
return -1;
return ATA_PIO0+mode;
}
return -1;
} // end ata_str_to_mode()
ULONG
EncodeVendorStr(
OUT char* Buffer,
IN PUCHAR Str,
IN ULONG Length,
IN ULONG Xorer
)
{
ULONG i,j;
UCHAR a;
for(i=0, j=0; i<Length; i++, j++) {
a = Str[i ^ Xorer];
if(!a) {
Buffer[j] = 0;
return j;
} else
if(a == ' ') {
Buffer[j] = '_';
} else
if((a == '_') ||
(a == '#') ||
(a == '\\') ||
(a == '\"') ||
(a == '\'') ||
(a < ' ') ||
(a >= 127)) {
Buffer[j] = '#';
j++;
sprintf(Buffer+j, "%2.2x", a);
j++;
} else {
Buffer[j] = a;
}
}
Buffer[j] = 0;
return j;
} // end EncodeVendorStr()
HKEY
ata_get_bblist_regh(
IN PIDENTIFY_DATA ident,
OUT char* DevSerial,
BOOLEAN read_only
)
{
HKEY hKey = NULL;
HKEY hKey2 = NULL;
ULONG Length;
REGSAM access = read_only ? KEY_READ : KEY_ALL_ACCESS;
Length = EncodeVendorStr(DevSerial, (PUCHAR)ident->ModelNumber, sizeof(ident->ModelNumber), 0x01);
DevSerial[Length] = '-';
Length++;
Length += EncodeVendorStr(DevSerial+Length, ident->SerialNumber, sizeof(ident->SerialNumber), 0x01);
if(RegOpenKeyEx(HKEY_LOCAL_MACHINE, "SYSTEM\\CurrentControlSet\\Services\\UniATA", NULL, access, &hKey) != ERROR_SUCCESS) {
hKey = NULL;
goto exit;
}
if(RegOpenKey(hKey, "Parameters", &hKey2) != ERROR_SUCCESS) {
hKey2 = NULL;
if(read_only || (RegCreateKey(hKey, "Parameters", &hKey2) != ERROR_SUCCESS)) {
hKey2 = NULL;
goto exit;
}
}
RegCloseKey(hKey2);
if(RegOpenKey(hKey, "Parameters\\BadBlocks", &hKey2) != ERROR_SUCCESS) {
hKey2 = NULL;
if(read_only || (RegCreateKey(hKey, "Parameters\\BadBlocks", &hKey2) != ERROR_SUCCESS)) {
hKey2 = NULL;
goto exit;
}
}
exit:
if(hKey)
RegCloseKey(hKey);
return hKey2;
} // end ata_get_bblist_regh()
IDENTIFY_DATA g_ident;
int
ata_check_unit(
HANDLE h, // handle to ScsiXXX:
int dev_id
)
{
ULONG status;
ULONG returned;
PSCSI_ADAPTER_BUS_INFO adapterInfo;
PSCSI_INQUIRY_DATA inquiryData;
SCSI_ADDRESS addr;
ULONG i, j;
int l_dev_id;
ULONG len;
GETTRANSFERMODE IoMode;
PSENDCMDOUTPARAMS pout;
PIDENTIFY_DATA ident;
PINQUIRYDATA scsi_ident;
char buff[sizeof(SENDCMDOUTPARAMS)+/*sizeof(IDENTIFY_DATA)*/2048];
char mode_str[12];
//ULONG bus_id = (dev_id >> 24) & 0xff;
BOOLEAN found = FALSE;
SENDCMDINPARAMS pin;
int io_mode = -1;
char SerNum[128];
char DevSerial[128];
char lun_str[10];
HKEY hKey2;
ULONGLONG max_lba = -1;
USHORT chs[3] = { 0 };
if(dev_id != -1) {
dev_id &= 0x00ffffff;
}
if(dev_id == 0x007f7f7f) {
return TRUE;
}
pout = (PSENDCMDOUTPARAMS)buff;
ident = (PIDENTIFY_DATA)&(pout->bBuffer);
status = DeviceIoControl(h,
IOCTL_SCSI_GET_INQUIRY_DATA,
NULL,
0,
g_inquiry_buffer,
sizeof(g_inquiry_buffer),
&returned,
FALSE);
if(!status) {
printf("Can't get device info\n");
return FALSE;
}
// Note: adapterInfo->NumberOfBuses is 1 greater than g_AdapterInfo->NumberChannels
// because of virtual communication port
adapterInfo = (PSCSI_ADAPTER_BUS_INFO)g_inquiry_buffer;
for (i = 0; i+1 < adapterInfo->NumberOfBuses; i++) {
inquiryData = (PSCSI_INQUIRY_DATA) (g_inquiry_buffer +
adapterInfo->BusData[i].InquiryDataOffset);
if(g_extended && g_AdapterInfo && g_AdapterInfo->ChanHeaderLengthValid &&
g_AdapterInfo->NumberChannels < i) {
PCHANINFO ChanInfo;
ChanInfo = (PCHANINFO)
(((PCHAR)g_AdapterInfo)+
sizeof(ADAPTERINFO)+
g_AdapterInfo->ChanHeaderLength*i);
io_mode = ChanInfo->MaxTransferMode;
if(io_mode != -1) {
ata_mode_to_str(mode_str, io_mode);
} else {
mode_str[0] = 0;
}
printf(" b%lu [%s]\n",
i,
mode_str
);
}
while (adapterInfo->BusData[i].InquiryDataOffset) {
/*
if(dev_id/adapterInfo->BusData[i].NumberOfLogicalUnits ==
inquiryData->TargetId &&
dev_id%adapterInfo->BusData[i].NumberOfLogicalUnits ==
inquiryData->Lun) {
printf(" %d %d %3d %s %.28s ",
i,
inquiryData->TargetId,
inquiryData->Lun,
(inquiryData->DeviceClaimed) ? "Y" : "N",
&inquiryData->InquiryData[8]);
}*/
l_dev_id = (i << 16) | ((ULONG)(inquiryData->TargetId) << 8) | inquiryData->Lun;
if(l_dev_id == dev_id || dev_id == -1) {
scsi_ident = (PINQUIRYDATA)&(inquiryData->InquiryData);
if(!memcmp(&(scsi_ident->VendorId[0]), UNIATA_COMM_PORT_VENDOR_STR, 24)) {
// skip communication port
goto next_dev;
}
found = TRUE;
if(inquiryData->Lun) {
sprintf(lun_str, ":l%d", inquiryData->Lun);
} else {
sprintf(lun_str, " ");
}
/*
for (j = 0; j < 8; j++) {
printf("%02X ", inquiryData->InquiryData[j]);
}
*/
addr.Length = sizeof(addr);
addr.PortNumber = -1;
addr.PathId = inquiryData->PathId;
addr.TargetId = inquiryData->TargetId;
addr.Lun = inquiryData->Lun;
status = ata_send_ioctl(h, &addr, "-UNIATA-",
IOCTL_SCSI_MINIPORT_UNIATA_GET_MODE,
NULL, 0,
&IoMode, sizeof(IoMode),
&returned);
if(status) {
//io_mode = min(IoMode.CurrentMode, IoMode.MaxMode);
io_mode = IoMode.PhyMode;
if(!io_mode) {
io_mode = min(max(IoMode.CurrentMode,IoMode.OrigMode),IoMode.MaxMode);
}
} else {
io_mode = -1;
}
memset(&pin, 0, sizeof(pin));
memset(buff, 0, sizeof(buff));
pin.irDriveRegs.bCommandReg = ID_CMD;
// this is valid for IDE/ATA, where only 2 devices can be attached to the bus.
// probably, we shall change this in future to support SATA splitters
pin.bDriveNumber = inquiryData->PathId*2+inquiryData->TargetId;
status = ata_send_ioctl(h, NULL, "SCSIDISK",
IOCTL_SCSI_MINIPORT_IDENTIFY,
&pin, sizeof(pin),
buff, sizeof(buff),
&returned);
if(!status) {
memset(&pin, 0, sizeof(pin));
memset(buff, 0, sizeof(buff));
pin.irDriveRegs.bCommandReg = ATAPI_ID_CMD;
// this is valid for IDE/ATA, where only 2 devices can be attached to the bus.
// probably, we shall change this in future to support SATA splitters
pin.bDriveNumber = inquiryData->PathId*2+inquiryData->TargetId;
status = ata_send_ioctl(h, NULL, "SCSIDISK",
IOCTL_SCSI_MINIPORT_IDENTIFY,
&pin, sizeof(pin),
buff, sizeof(buff),
&returned);
}
if(!g_extended) {
printf(" b%lu:d%d%s %24.24s %4.4s ",
i,
inquiryData->TargetId,
lun_str,
/*(inquiryData->DeviceClaimed) ? "Y" : "N",*/
(g_extended ? (PUCHAR)"" : &scsi_ident->VendorId[0]),
(g_extended ? (PUCHAR)"" : &scsi_ident->ProductRevisionLevel[0])
);
} else {
printf(" b%lu:d%d%s ",
i,
inquiryData->TargetId,
lun_str
);
}
if(status) {
if(io_mode == -1) {
io_mode = ata_cur_mode_from_ident(ident, IDENT_MODE_ACTIVE);
}
}
if(io_mode != -1) {
ata_mode_to_str(mode_str, io_mode);
}
if(!g_extended || !status) {
if(g_extended) {
printf(" %24.24s %4.4s ",
(&inquiryData->InquiryData[8]),
(&inquiryData->InquiryData[8+24])
);
}
if(io_mode != -1) {
printf(" %.12s ", mode_str);
}
}
printf("\n");
if(g_extended) {
if(status) {
BOOLEAN BlockMode_valid = TRUE;
BOOLEAN print_geom = FALSE;
switch(ident->DeviceType) {
case ATAPI_TYPE_DIRECT:
if(ident->Removable) {
printf(" Floppy ");
} else {
printf(" Hard Drive ");
}
break;
case ATAPI_TYPE_TAPE:
printf(" Tape Drive ");
break;
case ATAPI_TYPE_CDROM:
printf(" CD/DVD Drive ");
BlockMode_valid = FALSE;
break;
case ATAPI_TYPE_OPTICAL:
printf(" Optical Drive ");
BlockMode_valid = FALSE;
break;
default:
printf(" Hard Drive ");
print_geom = TRUE;
//MOV_DD_SWP(max_lba, ident->UserAddressableSectors);
max_lba = ident->UserAddressableSectors;
if(ident->FeaturesSupport.Address48) {
max_lba = ident->UserAddressableSectors48;
}
//MOV_DW_SWP(chs[0], ident->NumberOfCylinders);
//MOV_DW_SWP(chs[1], ident->NumberOfHeads);
//MOV_DW_SWP(chs[2], ident->SectorsPerTrack);
chs[0] = ident->NumberOfCylinders;
chs[1] = ident->NumberOfHeads;
chs[2] = ident->SectorsPerTrack;
if(!max_lba) {
max_lba = (ULONG)(chs[0])*(ULONG)(chs[1])*(ULONG)(chs[2]);
}
}
if(io_mode != -1) {
printf(" %.12s\n", mode_str);
}
for (j = 0; j < 40; j += 2) {
MOV_DW_SWP(SerNum[j], ((PUCHAR)ident->ModelNumber)[j]);
}
printf(" Mod: %40.40s\n", SerNum);
for (j = 0; j < 8; j += 2) {
MOV_DW_SWP(SerNum[j], ((PUCHAR)ident->FirmwareRevision)[j]);
}
printf(" Rev: %8.8s\n", SerNum);
for (j = 0; j < 20; j += 2) {
MOV_DW_SWP(SerNum[j], ((PUCHAR)ident->SerialNumber)[j]);
}
printf(" S/N: %20.20s\n", SerNum);
if(BlockMode_valid) {
if(ident->MaximumBlockTransfer) {
printf(" Multi-block mode: %u block%s\n", ident->MaximumBlockTransfer, ident->MaximumBlockTransfer == 1 ? "" : "s");
} else {
printf(" Multi-block mode: N/A\n");
}
}
if(print_geom) {
printf(" C/H/S: %u/%u/%u \n", chs[0], chs[1], chs[2]);
printf(" LBA: %I64u \n", max_lba);
if(max_lba < 2) {
printf(" Size: %lu kb\n", (ULONG)(max_lba/2));
} else
if(max_lba < 2*1024*1024) {
printf(" Size: %lu Mb\n", (ULONG)(max_lba/2048));
} else
if(max_lba < (ULONG)2*1024*1024*1024) {
printf(" Size: %lu.%lu (%lu) Gb\n", (ULONG)(max_lba/2048/1024),
(ULONG)(((max_lba/2048)%1024)/10),
(ULONG)(max_lba*512/1000/1000/1000)
);
} else {
printf(" Size: %lu.%lu (%lu) Tb\n", (ULONG)(max_lba/2048/1024/1024),
(ULONG)((max_lba/2048/1024)%1024)/10,
(ULONG)(max_lba*512/1000/1000/1000)
);
}
}
len = 0;
if((hKey2 = ata_get_bblist_regh(ident, DevSerial, TRUE))) {
if(RegQueryValueEx(hKey2, DevSerial, NULL, NULL, NULL, &len) == ERROR_SUCCESS) {
printf(" !!! Assigned bad-block list !!!\n");
}
RegCloseKey(hKey2);
}
} else {
switch(scsi_ident->DeviceType) {
case DIRECT_ACCESS_DEVICE:
if(scsi_ident->RemovableMedia) {
printf(" Floppy ");
} else {
printf(" Hard Drive ");
}
break;
case SEQUENTIAL_ACCESS_DEVICE:
printf(" Tape Drive ");
break;
case PRINTER_DEVICE:
printf(" Printer ");
break;
case PROCESSOR_DEVICE:
printf(" Processor ");
break;
case WRITE_ONCE_READ_MULTIPLE_DEVICE:
printf(" WORM Drive ");
break;
case READ_ONLY_DIRECT_ACCESS_DEVICE:
printf(" CDROM Drive ");
break;
case SCANNER_DEVICE:
printf(" Scanner ");
break;
case OPTICAL_DEVICE:
printf(" Optical Drive ");
break;
case MEDIUM_CHANGER:
printf(" Changer ");
break;
case COMMUNICATION_DEVICE:
printf(" Comm. device ");
break;
}
printf("\n");
}
}
memcpy(&g_ident, ident, sizeof(IDENTIFY_DATA));
}
next_dev:
if (inquiryData->NextInquiryDataOffset == 0) {
break;
}
inquiryData = (PSCSI_INQUIRY_DATA) (g_inquiry_buffer +
inquiryData->NextInquiryDataOffset);
}
}
if(!found) {
printf(" No device(s) found.\n");
return FALSE;
}
return TRUE;
} // end ata_check_unit()
BOOLEAN
ata_adapter_info(
int bus_id,
int print_info
)
{
char dev_name[64];
HANDLE h;
PADAPTERINFO AdapterInfo;
ULONG status;
ULONG returned;
SCSI_ADDRESS addr;
PCI_SLOT_NUMBER slotData;
char mode_str[12];
ULONG len;
sprintf(dev_name, "\\\\.\\Scsi%d:", bus_id);
h = ata_open_dev(dev_name);
if(!h)
return FALSE;
addr.Length = sizeof(addr);
addr.PortNumber = bus_id;
len = sizeof(ADAPTERINFO)+sizeof(CHANINFO)*AHCI_MAX_PORT;
if(!g_AdapterInfo) {
AdapterInfo = (PADAPTERINFO)GlobalAlloc(GMEM_FIXED, len);
if(!AdapterInfo) {
ata_close_dev(h);
return FALSE;
}
} else {