ULINK DriveMaster

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DriveMaster

DriveMaster 2015 Professional SATA Features | ULINK Technology - http://ulinktech.com/drivemaster-2015-professional-sata-features.php

Help

C:\Program Files (x86)\ULINK DM2012\v980\Help\User Guide.pdf

Basic IO

An LBA (Logical Block Address) size is generally the same size as a sector (512 bytes). An LPAGE (Logical PAGE) is generally 4096 bytes or 8 LBAs.

// write buffer
fillset "write", 4096, 0  // (bytes, offset)
patr "write"  // r for random fill
//patf "write"  // f for FF fill
//patz "write"  // z for 00 fill

// write then read and compare
wdmx 0, 8  // (lba_offset, lbas) write 8 lbas from write buffer, from offset 0 lba
rdmx 0, 8  // (lba_offset, lbas) read 8 lbas to read buffer, from offset 0 lba
cmp  // compare read buffer to original write buffer

basic Traffic Test v3

dim lba, lpage, max_lbas, max_lpages, max_lpage, tsize, lpage_range, lpage_offset, lba_size, lpage_size, lba_per_lpage

HALTERR ON  // halt on error
IDFY  // identify
//identify  // Run the Identify command.
upd on  // Decrease frequency of screen refresh to speed up processing.
fullspeed on  // Speed up processing by turning off command tracing.
echo off  // Don't auto echo every SATA command.  We will log what we want.

prnf "----------------------------------\n"

lba_size = 512
lpage_size = 4096
lba_per_lpage = 8

// TEST CONFIGURATION
// limit read/write range, transfer size
lpage_offset = 0  // starting lpage
//lpage_range = totallba / 8  // do the whole range (totallba macro from IDFY)
//lpage_range = 512  // limit to the first 512 lpages (2MB)
lpage_range = (1024 * 1024 * 2) / 4096  // 512 = 2MB - limit to the first 512 lpages (2MB)
//tsize = 2048  // 2048 for a 1MB transfer size (2048 = 1MB / 512)
//tsize = 8  // 8 for a 4kB transfer size (8 = 4kB / 512)
tsize = 4096 / 512  // 8 = 4kB - for a 4kB transfer size (8 = 4kB / 512)


// Test Details
prnf "Test LPAGE count (lpages): %d", lpage_range
prnf "Test LPAGE range (start/end lpages): %d -", lpage_offset
prnf " %d\n", (lpage_offset + lpage_range)
prnf "Transfer size (lbas | bytes): %d |", tsize
prnf " %d\n", (tsize * lba_size)

// calculations
max_lbas = totallba  // totallba is a macro populated by identify command
max_lpages = max_lbas / lba_per_lpage  // lpages are 4k (or 8 lbas)
max_lba = max_lbas - 1  // last addressable lba
max_lpage = max_lpages - 1  // last addressable lpage

prnf "total lbas: %d ", max_lbas
prnf "total lpages: %d\n", max_lpages
prnf "max lba: %d ", max_lba
prnf "max lpage: %d\n", max_lpage

// fill write buffer with random data
fillset "write", 512 * max_lbas, 0
patr "write"  // r for random fill
//patf "write"  // f for ff fill
//patz "write"  // z for zero fill

// note: random 0-9 =   rand % 10

// loop through range
for (lpage = lpage_offset ; lpage < lpage_range + lpage_offset ; lpage += 1)
    lba = lpage * tsize
    prnf "lba: %d", lba
    prnf " / %d || ", (lpage_range + lpage_offset) * lba_per_lpage
    prnf "lpage: %d", lpage
    prnf " / %d || ", lpage_range + lpage_offset
    prnf "bytes: %d", lpage * lpage_size
    prnf " / %d\n", (lpage_range + lpage_offset) * lpage_size
    wdmx lba, tsize  // write from write buffer
    rdmx lba, tsize  // read to read buffer
    cmp  // compare read buffer to write buffer
endfor

prnf "Done!"
prnf "----------------------------------\n"

basic Traffic Test v2

dim lba, lpage, max_lbas, max_lpages, max_lpage, tsize, lpage_range, 

HALTERR ON  // halt on error
IDFY  // identify

prnf "----------------------------------\n"

// calculations
max_lbas = totallba  // totallba is a macro populated by identify command
max_lpages = max_lbas / 8  // lpages are 4k (or 8 lbas)
max_lba = max_lbas - 1  // last addressable lba
max_lpage = max_lpages - 1  // last addressable lpage

prnf "total lbas: %d ", max_lbas
prnf "total lpages: %d\n", max_lpages
prnf "max lba: %d ", max_lba
prnf "max lpage: %d\n", max_lpage

// limit read/write range, transfer size
//lpage_range = max_lpages  // do the whole range
lpage_range = 512  // limit to the first 512 lpages (2MB)
//tsize = 2048  // 2048 for a 1MB transfer size (2048 = 1MB / 512)
tsize = 8  // 8 for a 4kB transfer size (8 = 4kB / 512)
prnf "limit read/write lpage range (lpages): %d\n", lpage_range
prnf "Transfer size (lbas): %d\n", tsize

// fill write buffer with random data
fillset "write", 512 * max_lbas, 0
patr "write"  // r for random fill
//patf "write"  // f for ff fill
//patz "write"  // z for zero fill

// note: random 0-9 =   rand % 10

// loop through range
for (lpage = 0 ; lpage < lpage_range ; lpage += 1)
    lba = lpage * 8
    prnf "lba: %d", lba
    prnf " / %d - ", max_lba
    prnf "lpage: %d", lpage
    prnf " / %d\n", max_lpage
    wdmx lba, tsize  // write from write buffer
    rdmx lba, tsize  // read to read buffer
    cmp  // compare read buffer to original write buffer
endfor

prnf "Done!"
prnf "----------------------------------\n"

basic Traffic Test v1

dim lba, lpage, maxlbas, maxlpages, tsize, lpage_range

HALTERR ON  // halt on error
IDFY  // identify

maxlbas = totallba  // totallba is a macro populated by identify command
maxlpages = maxlbas / 8  // lpages are 4k (or 8 lbas)
tsize = 4096 / 512  // 4k transfer size 8 = 4k / 512
prnf "total lbas: %d ", maxlbas
prnf "total lpages: %d\n", maxlpages

// limit read/write range
lpage_range = maxlpages
lpage_range = 10
prnf "limit read/write lpage range: %d\n", lpage_range

// fill write buffer with random data
fillset "write", 512 * maxlbas, 0
patr "write"  // r for random fill
//patf "write"  // f for ff fill
//patz "write"  // z for zero fill


// random 0-9 =   rand % 10

// loop through range
for (lpage = 0 ; lpage < lpage_range ; lpage += 1)
    lba = lpage * 8
    prnf "lba: %d /", lba
    prnf "lpage: %d\n", lpage
    wdmx lba, tsize  // write from write buffer
    rdmx lba, tsize  // read to read buffer
    cmp  // compare read buffer to original write buffer
endfor

Simple Read

dim tsize, lpage_range
IDFY
tsize = 4096 / 512  // 4k transfer
lpage_range = totallba / 8  // totallba is macro populated by IDFY
for (lpage = 0 ; lpage < lpage_range ; lpage += 1)
    lba = lpage * 8
    prnf "lba: %d\n", lba
    prnf "lpage: %d\n", lpage
    //wdmx lba, tsize  // write from write buffer
    rdmx lba, tsize  // read to read buffer
    //cmp  // compare read buffer to original write buffer
endfor

TODO Test

dim sector_range, buffer_size, buffer_offset, lba_size, lpage_size, lpage, lpage_range

// Write the first 2 lpages
lba_range = 8  // must be divisible by tsize
buffer_offset = 0  // buffer offset in bytes

// calculations
lba_size = 512  // lba size in bytes
lpage_size = 4096  // lpage size in bytes (4k)
lpage_lba_ratio = lpage_size / lba_size  // 8 lbas per lpage
lba_range = lpage_range * lpage_lba_ratio  // number of lbas in target range
tsize = 8  // lba count transfer size
           //   4k transfer size 8 = 4k / 512 (lpage_size / lba_size)
buffer_size = lba_range * 512  // size in bytes

fillset "write", sector_range, buffer_offset
patr "write"  // r for random fill
//patf "write"  // f for FF fill
//patz "write"  // z for 00 fill

for (lpage = 0 ; lpage < lpage_range ; lpage += 1)
    lba = lpage * 8
    prnf "lba: %d", lba
    prnf " / %d - ", max_lba
    prnf "lpage: %d", lpage
    prnf " / %d\n", max_lpage
    wdmx lba, tsize  // write from write buffer
    rdmx lba, tsize  // read to read buffer
    cmp  // compare read buffer to original write buffer
endfor

Notes

// Hold on Error
HALTERR ON

// set buffer size  [buffername] [buffer in byte size], [offset]
fillset "write", 512 * 8 , 0

// fill buffer with "FF"
patf "write"

// fill buffer with "00"
patz "write"

// fill buffer with random
patr "write"

// write buffer 
wdma 0, 8

// read buffer
rdma 0, 8

// compare buffers, to verify
cmp

// printing
some_number = 100
prns "print string"
prnl  some_number
prnsl "print string", some_number
prnsr  "don't new line"  // 'r' can be added to above



totallba  # total LBAs


for (i=1 ; i<10; i+=1)
endfor







for (i=0 ; i<1000 ; i+=1)
  //prnsl "count: ", i
  rdma 0, 8
endfor

fillset "write", 512 * 64, 0
patr "write"
wdma 1024, 64

rdma 1024, 64
cmp


fillset "write", 512 * 8, 0
patr "write"
wdma 0, 8
rdma 0, 8
cmp



fillset "write", 512 * 8, 0
patr "write"
wdma 0, 8
rdma 0, 8
cmp



for (i=0 ; i<1000 ; i+=1)
  //prnsl "count: ", i
  rdma 0, 1024
  cmp
endfor


h d d - hip debug dump

h d c - clear



// read buffer
//rdma 0, 8


// Uninitialized Reads - size/alignment=4k pattern=0x00000000 sequential entire range.
for (i=0 ; i<totallba ; i+=1)
  prnsl "lba: ", i
  rdma i, 8
endfor

// READ DMA
//   lba - starting address
//   lenght - number of sectors (from 0 to 255)
RDMA lba, length

// LBAMODE
lbamode on  // or off


// read lba 0 - 1000 times
for (i=0 ; i<1000 ; i+=1)
  prnsl "count: ", i
  rdma 0, 8
endfor


got to 32 blocks and died





0x11680300

h d d

h d c




// Uninitialized Reads - size/alignment=4k pattern=0x00000000 sequential entire range.
for (i=0 ; i<totallba/8 ; i+=1)
  prnsl "lba: ", i
  rdma i*8, 8
endfor


for (j=0 ; j<= 10 ; i+=1)
  for (i=0 ; i<=32 ; i+=1)
    prnsl "lba: ", i
    rdma i*8, 8
  endfor
endfor


fillset "write", 512 * 8 * 32, 0
patr "write"
for (i=0 ; i<=32 ; i+=1)
  wdma i*8, 8
endfor





fillset "write", 512 * 8 * 33, 0
patr "write"
for (i=0 ; i<=32 ; i+=1)
  wdma i*8, 8
endfor
for (j=0 ; j<= 10 ; i+=1)
  for (i=0 ; i<=32 ; i+=1)
    //prnsl "lba: ", i
    rdma i*8, 8
    cmp
  endfor
endfor


dim maxlpage, lba
maxlpage=32
for (j=0 ; j<= 1000 ; i+=1)
  i = rand % maxlpage + 1
  lba = i*8
  prnsl "lba: ", lba
  rdma lba, 8
  cmp
endfor

// 4k read
rdma 0, 8

// 8k read
rdma 0, 16

// 128k read from lba 0 - fails as it goes beyond lba 0  (128k/512=256)
rdma 0, 256

// 1M read from lba 0 - fails as it goes beyond lba 0  (1M/512=2048)

// 128k read from lba 256 - fails as it goes beyond lpage 256  (128k/512=256)
rdma 32*8, 256

// extended mode read 4k/512=8
rdmx 0, 8

// 1M from lba 0  1M/512=2048
rdmx 0, 2048







// 1M from lba 0  1M/512=2048
rdmx 0, 2048




# fails to respond
rdmx 33*8, 8

# fails to respond  - max lba 256
rdmx 32*8, 16





// Uninitialized Reads - size/alignment=4k pattern=0x00000000 sequential entire range.
for (i=0 ; i<totallba/8 ; i+=1)
  lba = i*8
  prnsl "lba: ", lba
  rdmx lba, 8
endfor



# success: 4k read to lba 256
rdmx 32*8, 8

# crashes: 4k read to lba 264
rdmx 33*8, 8

# crashes: 16k read to lba 256
rdmx 32*8, 16

# crashes: 4k read to lpage 50
rdma 50*8, 8









HALTERR ON
for (i=1 ; i<1000 ; i+=1)
  fillset "write", 512 * 64, 0
  patr "write"
  prnsl "write: ", i
  wdma 0, 8
  rdma 0, 8
  cmp
endfor

344 - safe
345 - dead


prnf "test %d", 2  // does not put new line
prnf "test %d\n", 2


dim lba, lpage
HALTERR ON
for (lpage=0 ; lpage<1000 ; lpage+=1)
  lba = lpage * 8
  fillset "write", 512 * 8, 0
  patr "write"
  prnf "lba: %d /", lba
  prnf "lpage: %d", lpage
  wdma lba, 8
  rdma lba, 8
  cmp
endfor

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