?> // CSIRO Manufacturing Science and Technology, Preston Lab // contains mysql user id and password - keep secret require("config.php"); if (isset($_REQUEST['logout'])) { Header("status: 401 Unauthorized"); Header("HTTP/1.0 401 Unauthorized"); Header("WWW-authenticate: basic realm=\"$bddb_label\""); echo "" . "Access to '$bddb_label' Denied" . "\n"; echo "



" . "You must be an Authorised User " . "to access the '$bddb_label'" . "

\n
\n"; exit; } // contents of the various enumerated types - if first item is // empty ('') then the enum is allowed to be null (ie "not null" // is not set on the column) // all column names in the database table $columns = array( 'serno','ethaddr','date','batch', 'type','rev','location','comments', 'sdram0','sdram1','sdram2','sdram3', 'flash0','flash1','flash2','flash3', 'zbt0','zbt1','zbt2','zbt3','zbt4','zbt5','zbt6','zbt7', 'zbt8','zbt9','zbta','zbtb','zbtc','zbtd','zbte','zbtf', 'xlxtyp0','xlxtyp1','xlxtyp2','xlxtyp3', 'xlxspd0','xlxspd1','xlxspd2','xlxspd3', 'xlxtmp0','xlxtmp1','xlxtmp2','xlxtmp3', 'xlxgrd0','xlxgrd1','xlxgrd2','xlxgrd3', 'cputyp','cpuspd','cpmspd','busspd', 'hstype','hschin','hschout' ); // board type $type_vals = array('IO','CLP','DSP','INPUT','ALT-INPUT','DISPLAY'); // Xilinx fpga types $xlxtyp_vals = array('','XCV300E','XCV400E','XCV600E','XC2V2000','XC2V3000','XC2V4000','XC2V6000','XC2VP2','XC2VP4','XC2VP7','XC2VP20','XC2VP30','XC2VP50','XC4VFX20','XC4VFX40','XC4VFX60','XC4VFX100','XC4VFX140'); // Xilinx fpga speeds $xlxspd_vals = array('','6','7','8','4','5','9','10','11','12'); // Xilinx fpga temperatures (commercial or industrial) $xlxtmp_vals = array('','COM','IND'); // Xilinx fpga grades (normal or engineering sample) $xlxgrd_vals = array('','NORMAL','ENGSAMP'); // CPU types $cputyp_vals = array('','MPC8260(HIP3)','MPC8260A(HIP4)','MPC8280(HIP7)','MPC8560'); // CPU/BUS/CPM clock speeds $clk_vals = array('','33MHZ','66MHZ','100MHZ','133MHZ','166MHZ','200MHZ','233MHZ','266MHZ','300MHZ','333MHZ','366MHZ','400MHZ','433MHZ','466MHZ','500MHZ','533MHZ','566MHZ','600MHZ','633MHZ','666MHZ','700MHZ','733MHZ','766MHZ','800MHZ','833MHZ','866MHZ','900MHZ','933MHZ','966MHZ','1000MHZ','1033MHZ','1066MHZ','1100MHZ','1133MHZ','1166MHZ','1200MHZ','1233MHZ','1266MHZ','1300MHZ','1333MHZ'); // sdram sizes (nbits array is for eeprom config file) $sdram_vals = array('','32M','64M','128M','256M','512M','1G','2G','4G'); $sdram_nbits = array(0,25,26,27,28,29,30,31,32); // flash sizes (nbits array is for eeprom config file) $flash_vals = array('','4M','8M','16M','32M','64M','128M','256M','512M','1G'); $flash_nbits = array(0,22,23,24,25,26,27,28,29,30); // zbt ram sizes (nbits array is for write into eeprom config file) $zbt_vals = array('','512K','1M','2M','4M','8M','16M'); $zbt_nbits = array(0,19,20,21,22,23,24); // high-speed serial attributes $hstype_vals = array('','AMCC-S2064A','Xilinx-Rockets'); $hschin_vals = array('0','1','2','3','4','5','6','7','8','9','10','11','12','13','14','15','16'); $hschout_vals = array('0','1','2','3','4','5','6','7','8','9','10','11','12','13','14','15','16'); // value filters - used when outputting html function rev_filter($num) { if ($num == 0) return "001"; else return sprintf("%03d", $num); } function text_filter($str) { return urldecode($str); } mt_srand(time() | getmypid()); // set up MySQL connection mysql_connect("", $mysql_user, $mysql_pw) || die("cannot connect"); mysql_select_db($mysql_db) || die("cannot select db"); // page header function pg_head($title) { echo "\n\n"; echo "\n"; echo "$title\n"; echo "\n"; echo "\n"; echo "

$title

\n"; echo "
\n"; } // page footer function pg_foot() { echo "
\n"; echo "
\n
" . "If you have any problems, email " . "" . "Murray Jensen" . "
\n" . "
\n" . "logout\n" . "
\n"; echo "

Made with " . "" . "Kyber phpMyBuilder

\n"; echo "\n"; echo "\n"; } // some support functions if (!function_exists('array_search')) { function array_search($needle, $haystack, $strict = false) { if (is_array($haystack) && count($haystack)) { $ntype = gettype($needle); foreach ($haystack as $key => $value) { if ($value == $needle && (!$strict || gettype($value) == $ntype)) return $key; } } return false; } } if (!function_exists('in_array')) { function in_array($needle, $haystack, $strict = false) { if (is_array($haystack) && count($haystack)) { $ntype = gettype($needle); foreach ($haystack as $key => $value) { if ($value == $needle && (!$strict || gettype($value) == $ntype)) return true; } } return false; } } function key_in_array($key, $array) { return in_array($key, array_keys($array), true); } function enum_to_index($name, $vals) { $index = array_search($GLOBALS[$name], $vals); if ($vals[0] != '') $index++; return $index; } // fetch a value from an array - return empty string is not present function get_key_value($key, $array) { if (key_in_array($key, $array)) return $array[$key]; else return ''; } function fprintf() { $n = func_num_args(); if ($n < 2) return FALSE; $a = func_get_args(); $fp = array_shift($a); $x = "\$s = sprintf"; $sep = '('; foreach ($a as $z) { $x .= "$sep'$z'"; $sep = ','; } $x .= ');'; eval($x); $l = strlen($s); $r = fwrite($fp, $s, $l); if ($r != $l) return FALSE; else return TRUE; } // functions to display (print) a database table and its columns function begin_table($ncols) { global $table_ncols; $table_ncols = $ncols; echo "\n"; } function begin_field($name, $span = 0) { global $table_ncols; echo "\n"; echo "\t\n"; if ($span <= 0) $span = $table_ncols - 1; if ($span > 1) echo "\t\n"; if ($span > 1) echo "\t\n"; echo "\n"; } function end_table() { echo "
$name\n"; else echo "\t\n"; } function cont_field($span = 1) { echo "\t\n"; else echo "\t\n"; } function end_field() { echo "\t
\n"; } function print_field($name, $array, $size = 0, $filt='') { begin_field($name); if (key_in_array($name, $array)) $value = $array[$name]; else $value = ''; if ($filt != '') $value = $filt($value); echo "\t\t 0) echo " size=$size maxlength=$size"; echo ">\n"; end_field(); } function print_field_multiline($name, $array, $cols, $rows, $filt='') { begin_field($name); if (key_in_array($name, $array)) $value = $array[$name]; else $value = ''; if ($filt != '') $value = $filt($value); echo "\t\t\n"; end_field(); } // print a mysql ENUM as an html RADIO INPUT function print_enum($name, $array, $vals, $def = -1) { begin_field($name); if (key_in_array($name, $array)) $chk = array_search($array[$name], $vals, FALSE); else $chk = $def; $nval = count($vals); for ($i = 0; $i < $nval; $i++) { $val = $vals[$i]; if ($val == '') $pval = "none"; else $pval = "$val"; printf("\t\t$pval\n", $i == $chk ? " checked" : ""); } end_field(); } // print a mysql ENUM as an html SELECT INPUT function print_enum_select($name, $array, $vals, $def = -1) { begin_field($name); echo "\t\t\n"; end_field(); } // print a group of mysql ENUMs (e.g. name0,name1,...) as an html SELECT function print_enum_multi($base, $array, $vals, $cnt, $defs, $grp = 0) { global $table_ncols; if ($grp <= 0) $grp = $cnt; $ncell = $cnt / $grp; $span = ($table_ncols - 1) / $ncell; begin_field($base, $span); $nval = count($vals); for ($i = 0; $i < $cnt; $i++) { if ($i > 0 && ($i % $grp) == 0) cont_field($span); $name = sprintf("%s%x", $base, $i); echo "\t\t\n"; } end_field(); } // functions to handle the form input // fetch all the parts of an "enum_multi" into a string suitable // for a MySQL query function gather_enum_multi_query($base, $cnt) { $retval = ''; for ($i = 0; $i < $cnt; $i++) { $name = sprintf("%s%x", $base, $i); if (isset($_REQUEST[$name])) { $retval .= sprintf(", %s='%s'", $name, $_REQUEST[$name]); } } return $retval; } // fetch all the parts of an "enum_multi" into a string suitable // for a display e.g. in an html table cell function gather_enum_multi_print($base, $cnt, $array) { $retval = ''; for ($i = 0; $i < $cnt; $i++) { $name = sprintf("%s%x", $base, $i); if ($array[$name] != '') { if ($retval != '') $retval .= ','; $retval .= $array[$name]; } } return $retval; } // fetch all the parts of an "enum_multi" into a string suitable // for writing to the eeprom data file function gather_enum_multi_write($base, $cnt, $vals, $xfrm = array()) { $retval = ''; for ($i = 0; $i < $cnt; $i++) { $name = sprintf("%s%x", $base, $i); if ($GLOBALS[$name] != '') { if ($retval != '') $retval .= ','; $index = enum_to_index($name, $vals); if ($xfrm != array()) $retval .= $xfrm[$index]; else $retval .= $index; } } return $retval; } // count how many parts of an "enum_multi" are actually set function count_enum_multi($base, $cnt) { $retval = 0; for ($i = 0; $i < $cnt; $i++) { $name = sprintf("%s%x", $base, $i); if (isset($_REQUEST[$name])) $retval++; } return $retval; } // ethernet address functions // generate a (possibly not unique) random vendor ethernet address // (setting bit 6 in the ethernet address - motorola wise i.e. bit 0 // is the most significant bit - means it is not an assigned ethernet // address - it is a "locally administered" address). Also, make sure // it is NOT a multicast ethernet address (by setting bit 7 to 0). // e.g. the first byte of all ethernet addresses generated here will // have 2 in the bottom two bits (incidentally, these are the first // two bits transmitted on the wire, since the octets in ethernet // addresses are transmitted LSB first). function gen_eth_addr($serno) { $ethaddr_hgh = (mt_rand(0, 65535) & 0xfeff) | 0x0200; $ethaddr_mid = mt_rand(0, 65535); $ethaddr_low = mt_rand(0, 65535); return sprintf("%02lx:%02lx:%02lx:%02lx:%02lx:%02lx", $ethaddr_hgh >> 8, $ethaddr_hgh & 0xff, $ethaddr_mid >> 8, $ethaddr_mid & 0xff, $ethaddr_low >> 8, $ethaddr_low & 0xff); } // check that an ethernet address is valid function eth_addr_is_valid($ethaddr) { $ethbytes = split(':', $ethaddr); if (count($ethbytes) != 6) return FALSE; for ($i = 0; $i < 6; $i++) { $ethbyte = $ethbytes[$i]; if (!ereg('^[0-9a-f][0-9a-f]$', $ethbyte)) return FALSE; } return TRUE; } // write a simple eeprom configuration file function write_eeprom_cfg_file() { global $sernos, $nsernos, $bddb_cfgdir, $numerrs, $cfgerrs; global $date, $batch, $type_vals, $rev; global $sdram_vals, $sdram_nbits; global $flash_vals, $flash_nbits; global $zbt_vals, $zbt_nbits; global $xlxtyp_vals, $xlxspd_vals, $xlxtmp_vals, $xlxgrd_vals; global $cputyp, $cputyp_vals, $clk_vals; global $hstype, $hstype_vals, $hschin, $hschout; $numerrs = 0; $cfgerrs = array(); for ($i = 0; $i < $nsernos; $i++) { $serno = sprintf("%010d", $sernos[$i]); $wfp = @fopen($bddb_cfgdir . "/$serno.cfg", "w"); if (!$wfp) { $cfgerrs[$i] = 'file create fail'; $numerrs++; continue; } set_file_buffer($wfp, 0); if (!fprintf($wfp, "serno=%d\n", $sernos[$i])) { $cfgerrs[$i] = 'cfg wr fail (serno)'; fclose($wfp); $numerrs++; continue; } if (!fprintf($wfp, "date=%s\n", $date)) { $cfgerrs[$i] = 'cfg wr fail (date)'; fclose($wfp); $numerrs++; continue; } if ($batch != '') { if (!fprintf($wfp, "batch=%s\n", $batch)) { $cfgerrs[$i] = 'cfg wr fail (batch)'; fclose($wfp); $numerrs++; continue; } } $typei = enum_to_index("type", $type_vals); if (!fprintf($wfp, "type=%d\n", $typei)) { $cfgerrs[$i] = 'cfg wr fail (type)'; fclose($wfp); $numerrs++; continue; } if (!fprintf($wfp, "rev=%d\n", $rev)) { $cfgerrs[$i] = 'cfg wr fail (rev)'; fclose($wfp); $numerrs++; continue; } $s = gather_enum_multi_write("sdram", 4, $sdram_vals, $sdram_nbits); if ($s != '') { $b = fprintf($wfp, "sdram=%s\n", $s); if (!$b) { $cfgerrs[$i] = 'cfg wr fail (sdram)'; fclose($wfp); $numerrs++; continue; } } $s = gather_enum_multi_write("flash", 4, $flash_vals, $flash_nbits); if ($s != '') { $b = fprintf($wfp, "flash=%s\n", $s); if (!$b) { $cfgerrs[$i] = 'cfg wr fail (flash)'; fclose($wfp); $numerrs++; continue; } } $s = gather_enum_multi_write("zbt", 16, $zbt_vals, $zbt_nbits); if ($s != '') { $b = fprintf($wfp, "zbt=%s\n", $s); if (!$b) { $cfgerrs[$i] = 'cfg wr fail (zbt)'; fclose($wfp); $numerrs++; continue; } } $s = gather_enum_multi_write("xlxtyp", 4, $xlxtyp_vals); if ($s != '') { $b = fprintf($wfp, "xlxtyp=%s\n", $s); if (!$b) { $cfgerrs[$i] = 'cfg wr fail (xlxtyp)'; fclose($wfp); $numerrs++; continue; } } $s = gather_enum_multi_write("xlxspd", 4, $xlxspd_vals); if ($s != '') { $b = fprintf($wfp, "xlxspd=%s\n", $s); if (!$b) { $cfgerrs[$i] = 'cfg wr fail (xlxspd)'; fclose($wfp); $numerrs++; continue; } } $s = gather_enum_multi_write("xlxtmp", 4, $xlxtmp_vals); if ($s != '') { $b = fprintf($wfp, "xlxtmp=%s\n", $s); if (!$b) { $cfgerrs[$i] = 'cfg wr fail (xlxtmp)'; fclose($wfp); $numerrs++; continue; } } $s = gather_enum_multi_write("xlxgrd", 4, $xlxgrd_vals); if ($s != '') { $b = fprintf($wfp, "xlxgrd=%s\n", $s); if (!$b) { $cfgerrs[$i] = 'cfg wr fail (xlxgrd)'; fclose($wfp); $numerrs++; continue; } } if ($cputyp != '') { $cputypi = enum_to_index("cputyp",$cputyp_vals); $cpuspdi = enum_to_index("cpuspd", $clk_vals); $busspdi = enum_to_index("busspd", $clk_vals); $cpmspdi = enum_to_index("cpmspd", $clk_vals); $b = fprintf($wfp, "cputyp=%d\ncpuspd=%d\n" . "busspd=%d\ncpmspd=%d\n", $cputypi, $cpuspdi, $busspdi, $cpmspdi); if (!$b) { $cfgerrs[$i] = 'cfg wr fail (cputyp)'; fclose($wfp); $numerrs++; continue; } } if ($hstype != '') { $hstypei = enum_to_index("hstype",$hstype_vals); $b = fprintf($wfp, "hstype=%d\n" . "hschin=%s\nhschout=%s\n", $hstypei, $hschin, $hschout); if (!$b) { $cfgerrs[$i] = 'cfg wr fail (hstype)'; fclose($wfp); $numerrs++; continue; } } if (!fclose($wfp)) { $cfgerrs[$i] = 'file cls fail'; $numerrs++; } } return $numerrs; } ?>