/usr/share/pyshared/DroboIOctl.py is in drobo-utils 0.6.1+repack-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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from fcntl import ioctl
import Drobo
import struct
def hexdump(label,data):
i=0
print "%s %03x:" % (label, i),
for bb in data:
print "%02x" % ord(bb),
i=i+1
if (i % 16) == 0:
print
print "%s %03x:" % (label,i),
print
class sg_io_hdr(Structure):
"""
do ioctl's using Linux generic SCSI interface.
all of this comes from /usr/include/scsi/sg.h
"""
SG_DXFER_TO_DEV=-2
SG_DXFER_FROM_DEV=-3
SG_IO = 0x2285
SG_GET_VERSION_NUM = 0x2282
# see include/scsi/scsi.h for more values
SAM_STAT_GOOD = 0x00
SAM_STAT_CHECK_CONDITION = 0x02
_fields_ = [ ("interface_id", c_int ),
("dxfer_direction", c_int),
("cmd_len", c_ubyte),
("mx_sb_len", c_ubyte),
("iovec_count", c_ushort),
("dxfer_len", c_int),
("dxferp", c_char_p), # ought to be void...
("cmdp", c_char_p),
("sbp", c_char_p),
("timeout", c_uint),
("flags", c_uint),
("pack_id", c_int),
("usr_ptr", c_char_p), # ought to be void...
("status", c_ubyte),
("masked_status", c_ubyte),
("msg_status", c_ubyte),
("sb_len_wr", c_ubyte),
("host_status", c_ushort),
("driver_status", c_ushort),
("resid", c_int),
("duration", c_uint),
("info", c_uint) ]
def __init__(self):
self.interface_id=ord('S')
self.dxfer_direction=0
self.cmd_len=0
self.mx_sb_len=0
self.iovec_count=0
self.dxfer_len=0
self.dxferp=None
self.cmdp=None
self.timeout=20000 # milliseconds
#self.timeout=4000 # milliseconds
self.flags=0
self.pack_id=0
self.usr_ptr=None
self.status=0
self.masked_status=0
self.msg_status=0
self.sb_len_wr=0
self.host_status=0
self.driver_status=0
self.resid=0
self.duration=0
self.info=0
class DroboIOctl:
def __init__(self,char_dev_file,readwrite=1,debugflags=1):
self.char_dev_file=char_dev_file
self.sg_fd=open(char_dev_file,'w')
self.debug=debugflags
def version(self):
"""
"""
k=create_string_buffer(8)
if ioctl(self.sg_fd, sg_io_hdr.SG_GET_VERSION_NUM, k) < 0 :
print "%s is not an sg device, or old sg driver\n" % char_dev_file
num=struct.unpack("l",k)
return num
def closefd(self):
if self.sg_fd > 0:
self.sg_fd.close()
self.sg_fd=-1
pass
def identifyLUN(self):
"""
printf("%s: scsi%d channel=%d id=%d lun=%d", file_namep, host_no,
(my_idlun.dev_id >> 16) & 0xff, my_idlun.dev_id & 0xff,
(my_idlun.dev_id >> 8) & 0xff);
"""
SCSI_IOCTL_GET_IDLUN = 0x5382
SCSI_IOCTL_GET_BUS_NUMBER = 0x5386
fmt=">bbbbl"
idlun = create_string_buffer(struct.calcsize(fmt))
i= ioctl( self.sg_fd, SCSI_IOCTL_GET_IDLUN, idlun)
if i < 0:
print "Drobo get_mode_page SG_IO ioctl error"
return None
(channel, lun, id, host, host_unique_id ) = struct.unpack(fmt, idlun)
#print "%s: scsi%d channel=%d id=%d lun=%d" % ( self.char_dev_file, host, \
# channel, id, lun )
#bog standard inquiry mcb
fmt="8s8s16s"
hoholen=struct.calcsize(fmt)
mcb=struct.pack("6B", 0x12, 0, 0, 0, hoholen, 0 )
# len ought to be 96
hoho=self.get_sub_page(hoholen,mcb,0,self.debug)
(dunno1,vendor,product) = struct.unpack(fmt,hoho)
return ( host, channel, id, lun, vendor )
def get_sub_page(self, sz, mcb, out, DEBUG):
"""
ioctl to retrieve a sub-page from the Drobo.
required arguments:
sz : length of buffer to be returned.
if the ioctl indicates a residual amount
control_block : some scsi control block thingum...
pass transparently through to ioctl/SG
out : choose direction of xfer. out= to device.
debug : if 1,then print debugging output (lots of it.)
"""
io_hdr=sg_io_hdr()
if out:
io_hdr.dxfer_direction=sg_io_hdr.SG_DXFER_TO_DEV
else:
io_hdr.dxfer_direction=sg_io_hdr.SG_DXFER_FROM_DEV
if self.debug & Drobo.DBG_HWDialog:
hexdump("mcb", mcb)
io_hdr.cmd_len = len(mcb)
io_hdr.cmdp = mcb
sense_buffer = create_string_buffer(64)
self.mx_sb_len = len(sense_buffer)
#io_hdr.sbp=addressof(sense_buffer)
io_hdr.sbp=cast(sense_buffer,c_char_p)
io_hdr.sb_len_wr = 0 # initialize just in case...
page_buffer=create_string_buffer(sz)
io_hdr.dxfer_len = sz
#io_hdr.dxferp = addressof(page_buffer)
io_hdr.dxferp = cast(page_buffer,c_char_p)
if self.debug & Drobo.DBG_HWDialog:
print "4 before ioctl, sense_buffer_len=", io_hdr.mx_sb_len
i=ioctl(self.sg_fd, sg_io_hdr.SG_IO, io_hdr)
if self.debug & Drobo.DBG_HWDialog:
print "5 after ioctl, result=", i
print "status: ", io_hdr.status
print "driver_status: ", io_hdr.driver_status
print "host_status: ", io_hdr.host_status
print "sb_len_wr: ", io_hdr.sb_len_wr
print "resid: ", io_hdr.resid
if i < 0:
raise IOError("Drobo get_mode_page SG_IO ioctl error")
if io_hdr.status != io_hdr.SAM_STAT_GOOD:
raise IOError("io_hdr status is: %x" % io_hdr.status)
if io_hdr.resid > 0:
retsz = sz - io_hdr.resid
else:
retsz = sz
if self.debug & Drobo.DBG_HWDialog:
hexdump("page_buffer", page_buffer)
print "the length is: ", retsz
return page_buffer[0:retsz]
def put_sub_page(self, mcb, buffer, DEBUG ):
"""
ioctl to write using a sub-page to the Drobo.
required arguments:
modepageblock -
buffer
DEBUG
return the number of bytes written.
"""
io_hdr=sg_io_hdr()
io_hdr.dxfer_direction=sg_io_hdr.SG_DXFER_TO_DEV
io_hdr.status=99;
io_hdr.cmd_len = len(mcb)
io_hdr.cmdp = mcb
sense_buffer = create_string_buffer(32)
io_hdr.mx_sb_len = len(sense_buffer)
#io_hdr.sbp=addressof(sense_buffer)
io_hdr.sbp=cast(sense_buffer,c_char_p)
size = len(buffer)
data2write = create_string_buffer(buffer,size)
io_hdr.dxfer_len = size
#io_hdr.dxferp = addressof(data2write)
io_hdr.dxferp = cast(data2write,c_char_p)
#these are set by ioctl... initializing just in case.
io_hdr.sb_len_wr=0;
io_hdr.resid=0;
io_hdr.status=0;
#iohp = cast(pointer(io_hdr), c_void_ptr).value
i=ioctl(self.sg_fd, sg_io_hdr.SG_IO, io_hdr)
if self.debug & Drobo.DBG_HWDialog:
print "put_sub_page, 5 after ioctl, result=", i
print "status: ", io_hdr.status
print "driver_status: ", io_hdr.driver_status
print "host_status: ", io_hdr.host_status
print "sb_len_wr: ", io_hdr.sb_len_wr
print "resid: ", io_hdr.resid
if (i< 0) :
print " get_mode_page SG_IO ioctl error"
return None
if (io_hdr.status != 0 ) and (io_hdr != 2) :
print "oh no! io_hdr status is: %x\n" % io_hdr.status
return None
if io_hdr.resid > 0:
size = size - io_hdr.resid
return size
import os
def drobolunlist(debugflags=0):
"""
return a list of attached Drobo devices, like so
[ [lun0, lun1, lun2], [lun0, lun1, lun2] ]
inspired by sg_scan.c (part of sg3_utils), sample output line:
/dev/sdh: scsi41 channel=0 id=0 lun=0 [em]
TRUSTED Mass Storage 1.00 [rmb=0 cmdq=0 pqual=0 pdev=0x0]
whose logic is encapsulated in the idenfityLUN call.
"""
devdir="/dev"
devices=[]
lundevs=[]
previousdev=""
p=os.listdir(devdir)
p.sort() # to ensure luns in ascending order.
for potential in p:
if potential.startswith("sd") and len(potential) == 3:
dev_file = devdir + '/' + potential
try:
if debugflags & Drobo.DBG_Detection:
print "examining: ", dev_file
pdio = DroboIOctl( dev_file )
except:
if debugflags & Drobo.DBG_Detection:
print "rejected: failed to construct LUN pdio"
continue
try:
id = pdio.identifyLUN()
except:
if debugflags & Drobo.DBG_Detection:
print "rejected: failed to identify LUN"
pdio.closefd()
continue
if debugflags & Drobo.DBG_Detection:
print "id: ", id
thisdev="%02d%02d%02d" % (id[0], id[1], id[2])
if ( id[4].startswith("TRUSTED") or id[4].startswith("DROBO") ): # you have a Drobo!
if debugflags & Drobo.DBG_Detection:
print "found a Drobo"
if thisdev == previousdev : # multi-lun drobo...
if debugflags & Drobo.DBG_Detection:
print "appending to lundevs..."
lundevs.append( dev_file )
else:
if lundevs != []:
devices.append(lundevs)
if debugflags & Drobo.DBG_Detection:
print "appending new lundevs to devices:", devices
lundevs=[dev_file]
else:
if debugflags & Drobo.DBG_Detection:
print "rejected: vendor is %s (not from DRI)" % id[4]
previousdev=thisdev
pdio.closefd()
if lundevs != []:
devices.append(lundevs)
if debugflags & Drobo.DBG_Detection:
print "returning list: ", devices
return devices
# unit testing...
if __name__ == "__main__":
import struct # only for unit testing...
valid_device="/dev/sdg"
#valid mcb: 5a 00 3a 01 00 00 00 00 14 00
valid_mcb=struct.pack(">BBBBBBBBBB", 0x5a, 0, 0x3a, 1, 0, 0, 0, 0, 0x14, 0 )
dmp = DroboIOctl(valid_device)
print "version", dmp.version()
print "identifyLUN", dmp.identifyLUN()
print "doing a sub_page"
hoho=dmp.get_sub_page(20,valid_mcb,0,4)
# the 4 byte header on the returned sense buffer: (122, 1, 20)
# cfg: (4, 16, 1099511557632)
#hexdump("hoho", hoho)
fmt=">BBHBBBQBHH"
print struct.calcsize(fmt)
print struct.unpack(fmt,hoho)
dmp.closefd()
print 'hunt...'
print drobolunlist()
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