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  • Google I/O 2010 - Making smart & scalable Wave robots

    Google I/O 2010 - Making smart & scalable Wave robots Google I/O 2010 - Making smart & scalable Wave robots Wave 201 David Byttow, Marcel Prasetya A smart robot must be able to store persistent data. Wave robots can store data in wave structures, like wavelets, datadocs, and annotations, instead of traditional datastores. A scalable robot must perform operations with minimal bandwidth. Wave robots can optimize by selecting the appropriate amount of context, the optimal events, and narrow filters for events. In this talk, we'll share best practices on data storage and scaling. For all I/O 2010 sessions, please go to code.google.com From: GoogleDevelopers Views: 9 0 ratings Time: 58:25 More in Science & Technology

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  • Confirm disk is broken when it passes all diagnostics

    - by Halfgaar
    I have a system with a potentially broken disk, but the disk passes all manner of diagnostics. I have been unable to confirm that the disk is broken. What are my options? I could just replace the disk, but because this situation is very similar to another more severe situation I have (long story), I'd like to actually make a proper diagnosis as opposed to randomly binning hardware. The issue and history is this: I had a Debian Linux PC (500 MHz P3) acting as router, nagios and munin. It crashed every couple of weeks. No logs or dmesg could be obtained (because it's an old Compaq that only boots when you configure it as keyboardless, making connecting a keyboard later, once it's booted, impossible). At the time, I just replaced the computer with another Compaq (P4 2.4 GHz) because I thought the hardware was faulty. However, it still crashed every couple of weeks. the difference is that on this computer, I can still SSH into it. It gives all kinds of errors on hda. I'd like to confirm that the disk is broken, but nothing I do confirms this: SMART error logs shows no errors. Normally when a disk starts acting up, SMART my pass, but it still records a read-error in the error log. SMART self-test (smartctl -t long /dev/sda) completes without errors. re-allocated sector count (a tell-tale parameter) has been 31 all its life, even when the disk was still in use in my desktop PC years ago, and it still is. The figure never changed. dd if=/dev/sda of=/dev/null bs=4096 passes with flying colors. What else can I do to assess the health of the drive? Again, this is not about making this router fully functional again, this is a disk forensic question, because it just so happens that I have another server that potentially has the same problem, and knowing the answer to this will possibly help me greatly. For the record, below are logs and such. This is the smartctl -a output: smartctl 5.40 2010-07-12 r3124 [i686-pc-linux-gnu] (local build) Copyright (C) 2002-10 by Bruce Allen, http://smartmontools.sourceforge.net === START OF INFORMATION SECTION === Model Family: Seagate Barracuda 7200.7 and 7200.7 Plus family Device Model: ST3120026A Serial Number: 5JT1CLQM Firmware Version: 3.06 User Capacity: 120,034,123,776 bytes Device is: In smartctl database [for details use: -P show] ATA Version is: 6 ATA Standard is: ATA/ATAPI-6 T13 1410D revision 2 Local Time is: Mon Jul 1 21:18:33 2013 CEST SMART support is: Available - device has SMART capability. SMART support is: Enabled === START OF READ SMART DATA SECTION === SMART overall-health self-assessment test result: PASSED General SMART Values: Offline data collection status: (0x82) Offline data collection activity was completed without error. Auto Offline Data Collection: Enabled. Self-test execution status: ( 24) The self-test routine was aborted by the host. Total time to complete Offline data collection: ( 430) seconds. Offline data collection capabilities: (0x5b) SMART execute Offline immediate. Auto Offline data collection on/off support. Suspend Offline collection upon new command. Offline surface scan supported. Self-test supported. No Conveyance Self-test supported. Selective Self-test supported. SMART capabilities: (0x0003) Saves SMART data before entering power-saving mode. Supports SMART auto save timer. Error logging capability: (0x01) Error logging supported. No General Purpose Logging support. Short self-test routine recommended polling time: ( 1) minutes. Extended self-test routine recommended polling time: ( 85) minutes. SMART Attributes Data Structure revision number: 10 Vendor Specific SMART Attributes with Thresholds: ID# ATTRIBUTE_NAME FLAG VALUE WORST THRESH TYPE UPDATED WHEN_FAILED RAW_VALUE 1 Raw_Read_Error_Rate 0x000f 050 046 006 Pre-fail Always - 47766662 3 Spin_Up_Time 0x0003 097 096 000 Pre-fail Always - 0 4 Start_Stop_Count 0x0032 100 100 020 Old_age Always - 10 5 Reallocated_Sector_Ct 0x0033 100 100 036 Pre-fail Always - 31 7 Seek_Error_Rate 0x000f 084 060 030 Pre-fail Always - 820305 9 Power_On_Hours 0x0032 048 048 000 Old_age Always - 46373 10 Spin_Retry_Count 0x0013 100 100 097 Pre-fail Always - 0 12 Power_Cycle_Count 0x0032 100 100 020 Old_age Always - 605 194 Temperature_Celsius 0x0022 036 065 000 Old_age Always - 36 195 Hardware_ECC_Recovered 0x001a 050 046 000 Old_age Always - 47766662 197 Current_Pending_Sector 0x0012 100 100 000 Old_age Always - 0 198 Offline_Uncorrectable 0x0010 100 100 000 Old_age Offline - 0 199 UDMA_CRC_Error_Count 0x003e 200 196 000 Old_age Always - 6 200 Multi_Zone_Error_Rate 0x0000 100 253 000 Old_age Offline - 0 202 Data_Address_Mark_Errs 0x0032 100 253 000 Old_age Always - 0 SMART Error Log Version: 1 No Errors Logged SMART Self-test log structure revision number 1 Num Test_Description Status Remaining LifeTime(hours) LBA_of_first_error # 1 Extended offline Aborted by host 80% 46361 - # 2 Extended offline Completed without error 00% 46358 - # 3 Short offline Completed without error 00% 12046 - # 4 Extended offline Completed without error 00% 10472 - # 5 Short offline Completed without error 00% 10471 - # 6 Short offline Completed without error 00% 10471 - # 7 Short offline Completed without error 00% 6770 - # 8 Extended offline Aborted by host 90% 5958 - # 9 Extended offline Aborted by host 90% 5951 - #10 Short offline Completed without error 00% 5024 - #11 Extended offline Aborted by host 80% 5024 - #12 Short offline Completed without error 00% 3697 - #13 Short offline Completed without error 00% 237 - #14 Short offline Completed without error 00% 145 - #15 Short offline Completed without error 00% 69 - #16 Extended offline Completed without error 00% 68 - #17 Short offline Completed without error 00% 66 - #18 Short offline Completed without error 00% 49 - #19 Short offline Completed without error 00% 29 - #20 Short offline Completed without error 00% 29 - SMART Selective self-test log data structure revision number 1 SPAN MIN_LBA MAX_LBA CURRENT_TEST_STATUS 1 0 0 Not_testing 2 0 0 Not_testing 3 0 0 Not_testing 4 0 0 Not_testing 5 0 0 Not_testing Selective self-test flags (0x0): After scanning selected spans, do NOT read-scan remainder of disk. If Selective self-test is pending on power-up, resume after 0 minute delay. And this is the dmesg error when it has crashed (which repeats for a bunch of different sectors): [1755091.211136] sd 0:0:0:0: [sda] Unhandled error code [1755091.211144] sd 0:0:0:0: [sda] Result: hostbyte=DID_BAD_TARGET driverbyte=DRIVER_OK [1755091.211151] sd 0:0:0:0: [sda] CDB: Read(10): 28 00 08 fe ad 38 00 00 08 00 [1755091.211166] end_request: I/O error, dev sda, sector 150908216

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  • [C++] A minimalistic smart array (container) class template

    - by legends2k
    I've written a (array) container class template (lets call it smart array) for using it in the BREW platform (which doesn't allow many C++ constructs like STD library, exceptions, etc. It has a very minimal C++ runtime support); while writing this my friend said that something like this already exists in Boost called MultiArray, I tried it but the ARM compiler (RVCT) cries with 100s of errors. I've not seen Boost.MultiArray's source, I've just started learning template only lately; template meta programming interests me a lot, although am not sure if this is strictly one, which can be categorised thus. So I want all my fellow C++ aficionados to review it ~ point out flaws, potential bugs, suggestions, optimisations, etc.; somthing like "you've not written your own Big Three which might lead to...". Possibly any criticism that'll help me improve this class and thereby my C++ skills. smart_array.h #include <vector> using std::vector; template <typename T, size_t N> class smart_array { vector < smart_array<T, N - 1> > vec; public: explicit smart_array(vector <size_t> &dimensions) { assert(N == dimensions.size()); vector <size_t>::iterator it = ++dimensions.begin(); vector <size_t> dimensions_remaining(it, dimensions.end()); smart_array <T, N - 1> temp_smart_array(dimensions_remaining); vec.assign(dimensions[0], temp_smart_array); } explicit smart_array(size_t dimension_1 = 1, ...) { static_assert(N > 0, "Error: smart_array expects 1 or more dimension(s)"); assert(dimension_1 > 1); va_list dim_list; vector <size_t> dimensions_remaining(N - 1); va_start(dim_list, dimension_1); for(size_t i = 0; i < N - 1; ++i) { size_t dimension_n = va_arg(dim_list, size_t); assert(dimension_n > 0); dimensions_remaining[i] = dimension_n; } va_end(dim_list); smart_array <T, N - 1> temp_smart_array(dimensions_remaining); vec.assign(dimension_1, temp_smart_array); } smart_array<T, N - 1>& operator[](size_t index) { assert(index < vec.size() && index >= 0); return vec[index]; } size_t length() const { return vec.size(); } }; template<typename T> class smart_array<T, 1> { vector <T> vec; public: explicit smart_array(vector <size_t> &dimension) : vec(dimension[0]) { assert(dimension[0] > 0); } explicit smart_array(size_t dimension_1 = 1) : vec(dimension_1) { assert(dimension_1 > 0); } T& operator[](size_t index) { assert(index < vec.size() && index >= 0); return vec[index]; } size_t length() { return vec.size(); } }; Sample Usage: #include <iostream> using std::cout; using std::endl; int main() { // testing 1 dimension smart_array <int, 1> x(3); x[0] = 0, x[1] = 1, x[2] = 2; cout << "x.length(): " << x.length() << endl; // testing 2 dimensions smart_array <float, 2> y(2, 3); y[0][0] = y[0][1] = y[0][2] = 0; y[1][0] = y[1][1] = y[1][2] = 1; cout << "y.length(): " << y.length() << endl; cout << "y[0].length(): " << y[0].length() << endl; // testing 3 dimensions smart_array <char, 3> z(2, 4, 5); cout << "z.length(): " << z.length() << endl; cout << "z[0].length(): " << z[0].length() << endl; cout << "z[0][0].length(): " << z[0][0].length() << endl; z[0][0][4] = 'c'; cout << z[0][0][4] << endl; // testing 4 dimensions smart_array <bool, 4> r(2, 3, 4, 5); cout << "z.length(): " << r.length() << endl; cout << "z[0].length(): " << r[0].length() << endl; cout << "z[0][0].length(): " << r[0][0].length() << endl; cout << "z[0][0][0].length(): " << r[0][0][0].length() << endl; // testing copy constructor smart_array <float, 2> copy_y(y); cout << "copy_y.length(): " << copy_y.length() << endl; cout << "copy_x[0].length(): " << copy_y[0].length() << endl; cout << copy_y[0][0] << "\t" << copy_y[1][0] << "\t" << copy_y[0][1] << "\t" << copy_y[1][1] << "\t" << copy_y[0][2] << "\t" << copy_y[1][2] << endl; return 0; }

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  • A minimalistic smart array (container) class template

    - by legends2k
    I've written a (array) container class template (lets call it smart array) for using it in the BREW platform (which doesn't allow many C++ constructs like STD library, exceptions, etc. It has a very minimal C++ runtime support); while writing this my friend said that something like this already exists in Boost called MultiArray, I tried it but the ARM compiler (RVCT) cries with 100s of errors. I've not seen Boost.MultiArray's source, I've started learning templates only lately; template meta programming interests me a lot, although am not sure if this is strictly one that can be categorized thus. So I want all my fellow C++ aficionados to review it ~ point out flaws, potential bugs, suggestions, optimizations, etc.; something like "you've not written your own Big Three which might lead to...". Possibly any criticism that will help me improve this class and thereby my C++ skills. Edit: I've used std::vector since it's easily understood, later it will be replaced by a custom written vector class template made to work in the BREW platform. Also C++0x related syntax like static_assert will also be removed in the final code. smart_array.h #include <vector> #include <cassert> #include <cstdarg> using std::vector; template <typename T, size_t N> class smart_array { vector < smart_array<T, N - 1> > vec; public: explicit smart_array(vector <size_t> &dimensions) { assert(N == dimensions.size()); vector <size_t>::iterator it = ++dimensions.begin(); vector <size_t> dimensions_remaining(it, dimensions.end()); smart_array <T, N - 1> temp_smart_array(dimensions_remaining); vec.assign(dimensions[0], temp_smart_array); } explicit smart_array(size_t dimension_1 = 1, ...) { static_assert(N > 0, "Error: smart_array expects 1 or more dimension(s)"); assert(dimension_1 > 1); va_list dim_list; vector <size_t> dimensions_remaining(N - 1); va_start(dim_list, dimension_1); for(size_t i = 0; i < N - 1; ++i) { size_t dimension_n = va_arg(dim_list, size_t); assert(dimension_n > 0); dimensions_remaining[i] = dimension_n; } va_end(dim_list); smart_array <T, N - 1> temp_smart_array(dimensions_remaining); vec.assign(dimension_1, temp_smart_array); } smart_array<T, N - 1>& operator[](size_t index) { assert(index < vec.size() && index >= 0); return vec[index]; } size_t length() const { return vec.size(); } }; template<typename T> class smart_array<T, 1> { vector <T> vec; public: explicit smart_array(vector <size_t> &dimension) : vec(dimension[0]) { assert(dimension[0] > 0); } explicit smart_array(size_t dimension_1 = 1) : vec(dimension_1) { assert(dimension_1 > 0); } T& operator[](size_t index) { assert(index < vec.size() && index >= 0); return vec[index]; } size_t length() { return vec.size(); } }; Sample Usage: #include "smart_array.h" #include <iostream> using std::cout; using std::endl; int main() { // testing 1 dimension smart_array <int, 1> x(3); x[0] = 0, x[1] = 1, x[2] = 2; cout << "x.length(): " << x.length() << endl; // testing 2 dimensions smart_array <float, 2> y(2, 3); y[0][0] = y[0][1] = y[0][2] = 0; y[1][0] = y[1][1] = y[1][2] = 1; cout << "y.length(): " << y.length() << endl; cout << "y[0].length(): " << y[0].length() << endl; // testing 3 dimensions smart_array <char, 3> z(2, 4, 5); cout << "z.length(): " << z.length() << endl; cout << "z[0].length(): " << z[0].length() << endl; cout << "z[0][0].length(): " << z[0][0].length() << endl; z[0][0][4] = 'c'; cout << z[0][0][4] << endl; // testing 4 dimensions smart_array <bool, 4> r(2, 3, 4, 5); cout << "z.length(): " << r.length() << endl; cout << "z[0].length(): " << r[0].length() << endl; cout << "z[0][0].length(): " << r[0][0].length() << endl; cout << "z[0][0][0].length(): " << r[0][0][0].length() << endl; // testing copy constructor smart_array <float, 2> copy_y(y); cout << "copy_y.length(): " << copy_y.length() << endl; cout << "copy_x[0].length(): " << copy_y[0].length() << endl; cout << copy_y[0][0] << "\t" << copy_y[1][0] << "\t" << copy_y[0][1] << "\t" << copy_y[1][1] << "\t" << copy_y[0][2] << "\t" << copy_y[1][2] << endl; return 0; }

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  • Testing smart card minidriver

    - by user352792
    when testing smart card minidriver in windows 7, got the following errors: "cmck exec Reconnect" always show that Testing through CAPI calls Submitting CSP PIN for reader \.\DMWZ ESAFE 0\ CryptAcquireContext - CRYPT_NEWKEYSET CryptGenKey Reconnecting CryptAcquireContext - CRYPT_DELETEKEYSET CryptAcquireContext failed unexpectedly d:\5429t\testsrc\dstest\security\core\credentials\smartcard\cmck\cmck\fnreconnect.cpp Line: 264 WIN32 0x80090016 Keyset does not exist. in windows xp, it always passed. i have no idea! this is my log. in XP: /* P:608 T:3380 8-30-203 CardAcquireContext(): BEGIN /* P:608 T:3380 8-30-203 CardAcquireContext(): SUCCESS /* P:608 T:3380 8-30-203 CardAcquireContext(): BEGIN /* P:608 T:3380 8-30-203 CardAcquireContext(): SUCCESS /* P:608 T:3380 8-31-750 CardAcquireContext(): BEGIN /* P:608 T:3380 8-31-765 CardAcquireContext(): SUCCESS /* P:608 T:3380 8-31-765 CardDeleteContext(): BEGIN /* P:608 T:3380 8-31-765 CardDeleteContext(): SUCCESS /* P:608 T:3380 8-31-765 CardAcquireContext(): BEGIN /* P:608 T:3380 8-31-765 CardAcquireContext(): SUCCESS /* P:608 T:3380 8-31-765 CardDeleteContext(): BEGIN /* P:608 T:3380 8-31-781 CardDeleteContext(): SUCCESS /* P:608 T:3380 8-31-781 CardAcquireContext(): BEGIN /* P:608 T:3380 8-31-781 CardAcquireContext(): SUCCESS /* P:608 T:3380 8-31-781 CardGetChallenge(): BEGIN /* P:608 T:3380 CardGetChallenge(): Challenge = CE568537C1BC9318 / / P:608 T:3380 8-31-781 CardGetChallenge(): SUCCESS /* P:608 T:3380 8-31-796 CardAuthenticateChallenge(): BEGIN /* P:608 T:3380 CardAuthenticateChallenge(): Response = B99E85F50E1F5C29 / / P:608 T:3380 8-31-796 CardAuthenticateChallenge(): SUCCESS /* P:608 T:3380 8-31-812 CardDeauthenticate(): BEGIN /* P:608 T:3380 8-31-812 CardDeauthenticate(): SUCCESS /* P:608 T:3380 8-31-812 CardAuthenticatePin(): BEGIN /* P:608 T:3380 CardAuthenticatePin(): User PIN = 0000 / / P:608 T:3380 8-31-828 CardAuthenticatePin(): SUCCESS /* P:608 T:3380 8-31-828 CardDeauthenticate(): BEGIN /* P:608 T:3380 8-31-843 CardDeauthenticate(): SUCCESS /* P:608 T:3380 8-31-843 CardDeleteContext(): BEGIN /* P:608 T:3380 8-31-843 CardDeleteContext(): SUCCESS /* P:608 T:3380 8-31-859 CardAcquireContext(): BEGIN /* P:608 T:3380 8-31-859 CardAcquireContext(): SUCCESS /* P:608 T:3380 8-31-859 CardAuthenticatePin(): BEGIN /* P:608 T:3380 CardAuthenticatePin(): User PIN = 0000 / / P:608 T:3380 8-31-875 CardAuthenticatePin(): SUCCESS /* P:608 T:3380 8-31-875 CardQueryCapabilities(): BEGIN /* P:608 T:3380 8-31-875 CardQueryCapabilities(): SUCCESS /* P:608 T:3380 8-31-890 CardAuthenticatePin(): BEGIN /* P:608 T:3380 CardAuthenticatePin(): User PIN = 0000 / / P:608 T:3380 8-31-906 CardAuthenticatePin(): SUCCESS /* P:608 T:3380 8-31-906 CardDeauthenticate(): BEGIN /* P:608 T:3380 8-31-921 CardDeauthenticate(): SUCCESS /* P:608 T:3380 8-31-921 CardDeleteContext(): BEGIN /* P:608 T:3380 8-31-921 CardDeleteContext(): SUCCESS /* P:608 T:3380 8-32-0 CardAcquireContext(): BEGIN /* P:608 T:3380 8-32-0 CardAcquireContext(): SUCCESS /* P:608 T:3380 8-32-0 CardReadFile(): BEGIN /* P:608 T:3380 CardReadFile(): Dir Name = ROOT, File Name = cardid / / P:608 T:3380 CardReadFile(): cardid = 34646533393531342D643465662D3432 / / P:608 T:3380 8-32-46 CardReadFile(): SUCCESS /* P:608 T:3380 8-32-62 CardReadFile(): BEGIN /* P:608 T:3380 CardReadFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardReadFile(): cardcf = 000000000000 / / P:608 T:3380 8-32-109 CardReadFile(): SUCCESS /* P:608 T:3380 8-32-109 CardReadFile(): BEGIN /* P:608 T:3380 CardReadFile(): Dir Name = mscp, File Name = cmapfile / / P:608 T:3380 8-32-187 CardReadFile(): BEGIN /* P:608 T:3380 CardReadFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardReadFile(): cardcf = 000000000000 / / P:608 T:3380 8-32-234 CardReadFile(): SUCCESS /* P:608 T:3380 8-32-250 CardAuthenticatePin(): BEGIN /* P:608 T:3380 CardAuthenticatePin(): User PIN = 0000 / / P:608 T:3380 8-32-265 CardAuthenticatePin(): SUCCESS /* P:608 T:3380 8-32-265 CardDeauthenticate(): BEGIN /* P:608 T:3380 8-32-281 CardDeauthenticate(): SUCCESS /* P:608 T:3380 8-32-281 CardReadFile(): BEGIN /* P:608 T:3380 CardReadFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardReadFile(): cardcf = 000000000000 / / P:608 T:3380 8-32-328 CardReadFile(): SUCCESS /* P:608 T:3380 8-32-343 CardQueryFreeSpace(): BEGIN /* P:608 T:3380 8-32-359 CardQueryFreeSpace(): SUCCESS /* P:608 T:3380 8-32-375 CardReadFile(): BEGIN /* P:608 T:3380 CardReadFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardReadFile(): cardcf = 000000000000 / / P:608 T:3380 8-32-421 CardReadFile(): SUCCESS /* P:608 T:3380 8-32-421 CardAuthenticatePin(): BEGIN /* P:608 T:3380 CardAuthenticatePin(): User PIN = 0000 / / P:608 T:3380 8-32-453 CardAuthenticatePin(): SUCCESS /* P:608 T:3380 8-32-453 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardWriteFile(): cardcf = 000000000100 / / P:608 T:3380 8-32-531 CardWriteFile(): SUCCESS /* P:608 T:3380 8-32-531 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = mscp, File Name = cmapfile / / P:608 T:3380 CardWriteFile(): cmapfile = 660031006500300035003000300030002D0031003600380038002D0034006200380063002D0039006500300066002D003000310061006200300066006200340062003800660037000000000000000000010000000000 / / P:608 T:3380 8-32-921 CardWriteFile(): SUCCESS /* P:608 T:3380 8-32-921 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardWriteFile(): cardcf = 000000000200 / / P:608 T:3380 8-33-0 CardWriteFile(): SUCCESS /* P:608 T:3380 8-33-0 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = mscp, File Name = cmapfile / / P:608 T:3380 CardWriteFile(): cmapfile = 660031006500300035003000300030002D0031003600380038002D0034006200380063002D0039006500300066002D003000310061006200300066006200340062003800660037000000000000000000030000000000 / / P:608 T:3380 8-33-109 CardWriteFile(): SUCCESS /* P:608 T:3380 8-33-125 CardQueryCapabilities(): BEGIN /* P:608 T:3380 8-33-125 CardQueryCapabilities(): SUCCESS /* P:608 T:3380 8-33-125 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardWriteFile(): cardcf = 000001000200 / / P:608 T:3380 8-33-203 CardWriteFile(): SUCCESS /* P:608 T:3380 8-33-203 CardCreateContainer(): BEGIN /* P:608 T:3380 8-35-515 CardCreateContainer(): SUCCESS /* P:608 T:3380 8-35-531 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardWriteFile(): cardcf = 000001000300 / / P:608 T:3380 8-35-609 CardWriteFile(): SUCCESS /* P:608 T:3380 8-35-609 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = mscp, File Name = cmapfile / / P:608 T:3380 CardWriteFile(): cmapfile = 660031006500300035003000300030002D0031003600380038002D0034006200380063002D0039006500300066002D003000310061006200300066006200340062003800660037000000000000000000030000040000 / / P:608 T:3380 8-35-734 CardWriteFile(): SUCCESS /* P:608 T:3380 8-35-734 CardGetContainerInfo(): BEGIN /* P:608 T:3380 8-35-796 CardGetContainerInfo(): SUCCESS /* P:608 T:5764 8-37-296 CardDeauthenticate(): BEGIN /* P:608 T:5764 8-37-312 CardDeauthenticate(): SUCCESS /* P:608 T:3380 8-37-312 CardReadFile(): BEGIN /* P:608 T:3380 CardReadFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardReadFile(): cardcf = 000001000300 / / P:608 T:3380 8-37-375 CardReadFile(): SUCCESS /* P:608 T:3380 8-37-375 CardReadFile(): BEGIN /* P:608 T:3380 CardReadFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardReadFile(): cardcf = 000001000300 / / P:608 T:3380 8-37-437 CardReadFile(): SUCCESS /* P:608 T:3380 8-37-437 CardAuthenticatePin(): BEGIN /* P:608 T:3380 CardAuthenticatePin(): User PIN = 0000 / / P:608 T:3380 8-37-468 CardAuthenticatePin(): SUCCESS /* P:608 T:3380 8-37-484 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardWriteFile(): cardcf = 000001000400 / / P:608 T:3380 8-37-546 CardWriteFile(): SUCCESS /* P:608 T:3380 8-37-562 CardDeleteFile(): BEGIN /* P:608 T:3380 CardDeleteFile(): Dir Name = mscp, File Name = ksc00 / / P:608 T:3380 8-37-625 CardDeleteFile(): SCARD_E_FILE_NOT_FOUND (0x80100024) /* P:608 T:3380 CardDeleteFile(): FAILED /* P:608 T:3380 8-37-625 CardReadFile(): BEGIN /* P:608 T:3380 CardReadFile(): Dir Name = mscp, File Name = cmapfile / / P:608 T:3380 CardReadFile(): cmapfile = 660031006500300035003000300030002D0031003600380038002D0034006200380063002D0039006500300066002D003000310061006200300066006200340062003800660037000000000000000000030000040000 / / P:608 T:3380 8-37-718 CardReadFile(): SUCCESS /* P:608 T:3380 8-37-718 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardWriteFile(): cardcf = 000001000500 / / P:608 T:3380 8-37-796 CardWriteFile(): SUCCESS /* P:608 T:3380 8-37-796 CardDeleteFile(): BEGIN /* P:608 T:3380 CardDeleteFile(): Dir Name = mscp, File Name = kxc00 / / P:608 T:3380 8-37-875 CardDeleteFile(): SCARD_E_FILE_NOT_FOUND (0x80100024) /* P:608 T:3380 CardDeleteFile(): FAILED /* P:608 T:3380 8-37-875 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardWriteFile(): cardcf = 000002000500 / / P:608 T:3380 8-37-953 CardWriteFile(): SUCCESS /* P:608 T:3380 8-37-953 CardDeleteContainer(): BEGIN /* P:608 T:3380 8-38-578 CardDeleteContainer(): SUCCESS /* P:608 T:3380 8-38-593 CardReadFile(): BEGIN /* P:608 T:3380 CardReadFile(): Dir Name = mscp, File Name = cmapfile / / P:608 T:3380 CardReadFile(): cmapfile = 660031006500300035003000300030002D0031003600380038002D0034006200380063002D0039006500300066002D003000310061006200300066006200340062003800660037000000000000000000030000040000 / / P:608 T:3380 8-38-687 CardReadFile(): SUCCESS /* P:608 T:3380 8-38-687 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:608 T:3380 CardWriteFile(): cardcf = 000002000600 / / P:608 T:3380 8-38-781 CardWriteFile(): SUCCESS /* P:608 T:3380 8-38-781 CardWriteFile(): BEGIN /* P:608 T:3380 CardWriteFile(): Dir Name = mscp, File Name = cmapfile / / P:608 T:3380 CardWriteFile(): cmapfile = 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 / / P:608 T:3380 8-38-906 CardWriteFile(): SUCCESS /* P:608 T:5764 8-40-406 CardDeauthenticate(): BEGIN /* P:608 T:5764 8-40-421 CardDeauthenticate(): SUCCESS /* P:608 T:3380 8-40-671 CardDeleteContext(): BEGIN /* P:608 T:3380 8-40-687 CardDeleteContext(): SUCCESS in windows 7: /* P:3368 T:3800 17-39-515 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-39-515 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-39-515 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-39-515 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-39-531 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-39-531 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-39-531 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-39-531 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-41-187 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-41-187 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-41-187 CardDeleteContext(): BEGIN /* P:3368 T:3800 17-41-187 CardDeleteContext(): SUCCESS /* P:3368 T:3800 17-41-187 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-41-187 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-41-187 CardDeleteContext(): BEGIN /* P:3368 T:3800 17-41-203 CardDeleteContext(): SUCCESS /* P:3368 T:3800 17-41-203 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-41-203 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-41-203 CardDeleteContext(): BEGIN /* P:3368 T:3800 17-41-203 CardDeleteContext(): SUCCESS /* P:3368 T:3800 17-41-203 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-41-203 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-41-218 CardDeleteContext(): BEGIN /* P:3368 T:3800 17-41-218 CardDeleteContext(): SUCCESS /* P:3368 T:3800 17-41-218 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-41-218 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-41-218 CardGetChallenge(): BEGIN /* P:3368 T:3800 CardGetChallenge(): Challenge = BF830855CDCA4F0D / / P:3368 T:3800 17-41-234 CardGetChallenge(): SUCCESS /* P:3368 T:3800 17-41-234 CardAuthenticateChallenge(): BEGIN /* P:3368 T:3800 CardAuthenticateChallenge(): Response = A2DB6F882D402D94 / / P:3368 T:3800 17-41-234 CardAuthenticateChallenge(): SUCCESS /* P:3368 T:3800 17-41-234 CardDeauthenticate(): BEGIN /* P:3368 T:3800 17-41-250 CardDeauthenticate(): SUCCESS /* P:3368 T:3800 17-41-250 CardAuthenticatePin(): BEGIN /* P:3368 T:3800 CardAuthenticatePin(): User PIN = 0000 / / P:3368 T:3800 17-41-265 CardAuthenticatePin(): SUCCESS /* P:3368 T:3800 17-41-265 CardDeauthenticate(): BEGIN /* P:3368 T:3800 17-41-265 CardDeauthenticate(): SUCCESS /* P:3368 T:3800 17-41-265 CardDeleteContext(): BEGIN /* P:3368 T:3800 17-41-281 CardDeleteContext(): SUCCESS /* P:3368 T:3800 17-41-281 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-41-281 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-41-281 CardAuthenticatePin(): BEGIN /* P:3368 T:3800 CardAuthenticatePin(): User PIN = 0000 / / P:3368 T:3800 17-41-296 CardAuthenticatePin(): SUCCESS /* P:3368 T:3800 17-41-296 CardQueryCapabilities(): BEGIN /* P:3368 T:3800 17-41-296 CardQueryCapabilities(): SUCCESS /* P:3368 T:3800 17-41-296 CardAuthenticatePin(): BEGIN /* P:3368 T:3800 CardAuthenticatePin(): User PIN = 0000 / / P:3368 T:3800 17-41-312 CardAuthenticatePin(): SUCCESS /* P:3368 T:3800 17-41-312 CardDeauthenticate(): BEGIN /* P:3368 T:3800 17-41-328 CardDeauthenticate(): SUCCESS /* P:3368 T:3800 17-41-328 CardDeleteContext(): BEGIN /* P:3368 T:3800 17-41-328 CardDeleteContext(): SUCCESS /* P:3368 T:3800 17-41-359 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-41-359 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-41-359 CardReadFile(): BEGIN /* P:3368 T:3800 CardReadFile(): Dir Name = ROOT, File Name = cardid / / P:3368 T:3800 CardReadFile(): cardid = 34363438653733652D346430342D3463 / / P:3368 T:3800 17-41-406 CardReadFile(): SUCCESS /* P:3368 T:3800 17-41-406 CardReadFile(): BEGIN /* P:3368 T:3800 CardReadFile(): Dir Name = ROOT, File Name = cardcf / / P:3368 T:3800 CardReadFile(): cardcf = 000000000000 / / P:3368 T:3800 17-41-453 CardReadFile(): SUCCESS /* P:3368 T:3800 17-41-453 CardReadFile(): BEGIN /* P:3368 T:3800 CardReadFile(): Dir Name = mscp, File Name = cmapfile / / P:3368 T:3800 17-41-531 CardReadFile(): BEGIN /* P:3368 T:3800 CardReadFile(): Dir Name = ROOT, File Name = cardcf / / P:3368 T:3800 CardReadFile(): cardcf = 000000000000 / / P:3368 T:3800 17-41-593 CardReadFile(): SUCCESS /* P:3368 T:3800 17-41-593 CardAuthenticatePin(): BEGIN /* P:3368 T:3800 CardAuthenticatePin(): User PIN = 0000 / / P:3368 T:3800 17-41-609 CardAuthenticatePin(): SUCCESS /* P:3368 T:3800 17-41-609 CardDeauthenticate(): BEGIN /* P:3368 T:3800 17-41-609 CardDeauthenticate(): SUCCESS /* P:3368 T:3800 17-41-609 CardDeleteContext(): BEGIN /* P:3368 T:3800 17-41-625 CardDeleteContext(): SUCCESS /* P:3368 T:3800 17-41-625 CardAcquireContext(): BEGIN /* P:3368 T:3800 17-41-625 CardAcquireContext(): SUCCESS /* P:3368 T:3800 17-41-625 CardReadFile(): BEGIN /* P:3368 T:3800 CardReadFile(): Dir Name = ROOT, File Name = cardid / / P:3368 T:3800 CardReadFile(): cardid = 34363438653733652D346430342D3463 / / P:3368 T:3800 17-41-671 CardReadFile(): SUCCESS /* P:3368 T:3800 17-41-687 CardReadFile(): BEGIN /* P:3368 T:3800 CardReadFile(): Dir Name = ROOT, File Name = cardcf / / P:3368 T:3800 CardReadFile(): cardcf = 000000000000 / / P:3368 T:3800 17-41-734 CardReadFile(): SUCCESS /* P:3368 T:3800 17-41-734 CardQueryFreeSpace(): BEGIN /* P:3368 T:3800 17-41-750 CardQueryFreeSpace(): SUCCESS /* P:3368 T:3800 17-41-750 CardAuthenticatePin(): BEGIN /* P:3368 T:3800 CardAuthenticatePin(): User PIN = 0000 / / P:3368 T:3800 17-41-765 CardAuthenticatePin(): SUCCESS /* P:3368 T:3800 17-41-765 CardWriteFile(): BEGIN /* P:3368 T:3800 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:3368 T:3800 CardWriteFile(): cardcf = 000000000100 / / P:3368 T:3800 17-41-828 CardWriteFile(): SUCCESS /* P:3368 T:3800 17-41-828 CardWriteFile(): BEGIN /* P:3368 T:3800 CardWriteFile(): Dir Name = mscp, File Name = cmapfile / / P:3368 T:3800 CardWriteFile(): cmapfile = 370062003800640030006200390031002D0063003600650064002D0034003000650033002D0062006100610037002D006200620032003800640063003800610035003300330032000000000000000000010000000000 / / P:3368 T:3800 17-42-218 CardWriteFile(): SUCCESS /* P:3368 T:3800 17-42-234 CardWriteFile(): BEGIN /* P:3368 T:3800 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:3368 T:3800 CardWriteFile(): cardcf = 000000000200 / / P:3368 T:3800 17-42-296 CardWriteFile(): SUCCESS /* P:3368 T:3800 17-42-296 CardWriteFile(): BEGIN /* P:3368 T:3800 CardWriteFile(): Dir Name = mscp, File Name = cmapfile / / P:3368 T:3800 CardWriteFile(): cmapfile = 370062003800640030006200390031002D0063003600650064002D0034003000650033002D0062006100610037002D006200620032003800640063003800610035003300330032000000000000000000030000000000 / / P:3368 T:3800 17-42-390 CardWriteFile(): SUCCESS /* P:3368 T:3800 17-42-406 CardQueryCapabilities(): BEGIN /* P:3368 T:3800 17-42-406 CardQueryCapabilities(): SUCCESS /* P:3368 T:3800 17-42-406 CardWriteFile(): BEGIN /* P:3368 T:3800 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:3368 T:3800 CardWriteFile(): cardcf = 000001000200 / / P:3368 T:3800 17-42-468 CardWriteFile(): SUCCESS /* P:3368 T:3800 17-42-468 CardCreateContainer(): BEGIN /* P:3368 T:3800 17-48-421 CardCreateContainer(): SUCCESS /* P:3368 T:3800 17-48-437 CardWriteFile(): BEGIN /* P:3368 T:3800 CardWriteFile(): Dir Name = ROOT, File Name = cardcf / / P:3368 T:3800 CardWriteFile(): cardcf = 000001000300 / / P:3368 T:3800 17-48-484 CardWriteFile(): SUCCESS /* P:3368 T:3800 17-48-500 CardWriteFile(): BEGIN /* P:3368 T:3800 CardWriteFile(): Dir Name = mscp, File Name = cmapfile / / P:3368 T:3800 CardWriteFile(): cmapfile = 370062003800640030006200390031002D0063003600650064002D0034003000650033002D0062006100610037002D006200620032003800640063003800610035003300330032000000000000000000030000040000 / / P:3368 T:3800 17-48-593 CardWriteFile(): SUCCESS /* P:3368 T:3800 17-48-593 CardGetContainerInfo(): BEGIN /* P:3368 T:3800 17-48-640 CardGetContainerInfo(): SUCCESS /* P:3368 T:288 17-50-140 CardDeauthenticate(): BEGIN /* P:3368 T:288 17-50-140 CardDeauthenticate(): SUCCESS /* P:3368 T:3800 17-50-140 CardReadFile(): BEGIN /* P:3368 T:3800 CardReadFile(): Dir Name = ROOT, File Name = cardid / / P:3368 T:3800 CardReadFile(): cardid = 34363438653733652D346430342D3463 / / P:3368 T:3800 17-50-187 CardReadFile(): SUCCESS /* P:3368 T:3800 17-50-187 CardReadFile(): BEGIN /* P:3368 T:3800 CardReadFile(): Dir Name = ROOT, File Name = cardcf / / P:3368 T:3800 CardReadFile(): cardcf = 000001000300 / / P:3368 T:3800 17-50-234 CardReadFile(): SUCCESS /* P:3368 T:3800 17-50-234 CardReadFile(): BEGIN /* P:3368 T:3800 CardReadFile(): Dir Name = ROOT, File Name = cardid / / P:3368 T:3800 CardReadFile(): cardid = 34363438653733652D346430342D3463 / / P:3368 T:3800 17-50-296 CardReadFile(): SUCCESS /* P:3368 T:3800 17-50-296 CardReadFile(): BEGIN /* P:3368 T:3800 CardReadFile(): Dir Name = ROOT, File Name = cardid / / P:3368 T:3800 CardReadFile(): cardid = 34363438653733652D346430342D3463 / / P:3368 T:3800 17-50-343 CardReadFile(): SUCCESS Comparing the two logs, it seems that in win 7 cmck always read file, read file, read file... and fail, never get into CardDeleteContainer or CardWriteFile :( Please help me!!!! Many thanks!

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  • how to cast c++ smart pointer up and down

    - by user217428
    two clients communicate to each other on top of a message layer in the message body, I need include a field pointing to any data type From client A, I send the field as a shared_ptr to the message layer. I define this field as a shared_ptr in the message layer. But how can I convert this field back to shared_ptr in client B? Or should I define shared_ptr in message layer as something else? Thanks

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  • Create a ASP.NET smart gridview

    - by harold-sota
    I wont to create a User Control based in gridview that have the edit add delete incorporate, the problem is these: In the admin part of my web site i have to repeat the same action for view add delete update the data for different datasource. I wont to create a generic gridview that have incorporate these action. The gridview can take a xml file for configure him self dependently of the request for desplay the data. Any ideas how i can do it?

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  • smartctl -t long isn't finishing

    - by xenoterracide
    I been running smartctl -t long on a drive for about 2 days now and it seems to be stalled at 10%. short and conveyance both passed. I have to send 1 of 2 drives purchased back I found badblocks with badblocks (none on this drive and I'ts made over a pass already). I'm just wondering if I should be concerned about this. smartctl 5.39.1 2010-01-28 r3054 [x86_64-unknown-linux-gnu] (local build) Copyright (C) 2002-10 by Bruce Allen, http://smartmontools.sourceforge.net === START OF INFORMATION SECTION === Device Model: WDC WD10EARS-00Y5B1 Serial Number: WD-WMAV51582123 Firmware Version: 80.00A80 User Capacity: 1,000,204,886,016 bytes Device is: Not in smartctl database [for details use: -P showall] ATA Version is: 8 ATA Standard is: Exact ATA specification draft version not indicated Local Time is: Mon May 10 22:19:52 2010 EDT SMART support is: Available - device has SMART capability. SMART support is: Enabled === START OF READ SMART DATA SECTION === SMART overall-health self-assessment test result: PASSED General SMART Values: Offline data collection status: (0x82) Offline data collection activity was completed without error. Auto Offline Data Collection: Enabled. Self-test execution status: ( 241) Self-test routine in progress... 10% of test remaining. Total time to complete Offline data collection: (20100) seconds. Offline data collection capabilities: (0x7b) SMART execute Offline immediate. Auto Offline data collection on/off support. Suspend Offline collection upon new command. Offline surface scan supported. Self-test supported. Conveyance Self-test supported. Selective Self-test supported. SMART capabilities: (0x0003) Saves SMART data before entering power-saving mode. Supports SMART auto save timer. Error logging capability: (0x01) Error logging supported. General Purpose Logging supported. Short self-test routine recommended polling time: ( 2) minutes. Extended self-test routine recommended polling time: ( 231) minutes. Conveyance self-test routine recommended polling time: ( 5) minutes. SCT capabilities: (0x3031) SCT Status supported. SCT Feature Control supported. SCT Data Table supported. SMART Attributes Data Structure revision number: 16 Vendor Specific SMART Attributes with Thresholds: ID# ATTRIBUTE_NAME FLAG VALUE WORST THRESH TYPE UPDATED WHEN_FAILED RAW_VALUE 1 Raw_Read_Error_Rate 0x002f 200 200 051 Pre-fail Always - 2 3 Spin_Up_Time 0x0027 131 131 021 Pre-fail Always - 6408 4 Start_Stop_Count 0x0032 100 100 000 Old_age Always - 12 5 Reallocated_Sector_Ct 0x0033 200 200 140 Pre-fail Always - 0 7 Seek_Error_Rate 0x002e 200 200 000 Old_age Always - 0 9 Power_On_Hours 0x0032 100 100 000 Old_age Always - 148 10 Spin_Retry_Count 0x0032 100 253 000 Old_age Always - 0 11 Calibration_Retry_Count 0x0032 100 253 000 Old_age Always - 0 12 Power_Cycle_Count 0x0032 100 100 000 Old_age Always - 10 192 Power-Off_Retract_Count 0x0032 200 200 000 Old_age Always - 7 193 Load_Cycle_Count 0x0032 200 200 000 Old_age Always - 174 194 Temperature_Celsius 0x0022 106 102 000 Old_age Always - 41 196 Reallocated_Event_Count 0x0032 200 200 000 Old_age Always - 0 197 Current_Pending_Sector 0x0032 200 200 000 Old_age Always - 0 198 Offline_Uncorrectable 0x0030 200 200 000 Old_age Offline - 0 199 UDMA_CRC_Error_Count 0x0032 200 200 000 Old_age Always - 0 200 Multi_Zone_Error_Rate 0x0008 200 200 000 Old_age Offline - 0 SMART Error Log Version: 1 No Errors Logged SMART Self-test log structure revision number 1 Num Test_Description Status Remaining LifeTime(hours) LBA_of_first_error # 1 Conveyance offline Completed without error 00% 99 - # 2 Extended offline Interrupted (host reset) 10% 30 - # 3 Short offline Completed without error 00% 0 - SMART Selective self-test log data structure revision number 1 SPAN MIN_LBA MAX_LBA CURRENT_TEST_STATUS 1 0 0 Not_testing 2 0 0 Not_testing 3 0 0 Not_testing 4 0 0 Not_testing 5 0 0 Not_testing Selective self-test flags (0x0): After scanning selected spans, do NOT read-scan remainder of disk. If Selective self-test is pending on power-up, resume after 0 minute delay.

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  • How to disable “smart quotes” in Windows Live Mail?

    - by Indrek
    Windows Live Mail by default changes straight quotation marks (" and ') to typographic quotation marks, aka "smart quotes" (“, ”, ‘ and ’). This often results in the recipient of the email seeing blank rectangles or other symbols instead of the smart quotes, due to encoding problems. Unlike in most programs, there's doesn't seem to be any built-in option to disable this, and searching online for solutions only leads to workarounds, like hitting Backspace immediately after typing a single or double quote, and switching to "Plain text" mode. Is there any way to disable this behaviour?

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  • Seriousness of a "Smart" disk error. How long will it last?

    - by Workshop Alex
    I have an 1 TB data disk and the bios and Windows are reporting a "Smart" error. At least, I get a Smart event but it doesn't indicate how serious the failure could be. My system is about 6 months old, including the disk so the warranty will cover the damage. Unfortunately, I lack a second disk of 1 TB in size which I can use to make a full backup. The most important data on this disk is safe, but there's a lot of work data which can be regenerated but this would cost a lot of time. So I ordered an USB disk of 1 TB which will arrive in three days. By then I can make a full backup of the data and afterwards, it can crash. But will the disk live that long? (Well, I won't use the PC as long as I can't make a backup.) How serious is such a Smart event? I know it's serious enough to have it replaced, but will it live for another week or could it die any moment?Update: I purchased an 1 TB external disk and spent most of the day making a backup of the 1 TB disk. It survived that. I then received a new disk, since it was still under warranty and replaced the hard disk. Then I had to spend most of a day again to put back the backup. I need to send back the faulty disk and now have an additional external disk, which could always be practical. :-) The Smart Error report did not cause any failures on the original disk. I won't advise to ignore these warnings, but the disk still has enough life in it to last a few more days. (Just make sure you have a good back-up.) And oh, the horror of having to make a complete backup such a huge disk. :-) If your data is important, make sure you have something that supports incremental backups and lots of space. (In my case, the data wasn't very important, just practical to have on-disk together.)

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  • Outlook is looking for a smart card

    - by Sreekumar
    Dell computer with Windows 7 and Outlook 2003. I recently added a smart card reader to my computer for the National Guard so that I can access some military sites that require a smart card to log in. Now, every time Outlook attempts to download any mail from my civilian AT&T account (a pop e-mail server), I get a message asking me to "Insert a smart card". I've traced it to the send/receive feature (specifically receiving e-mails) but can find no reason that Outlook should be looking for a smart card.

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  • Why is Perl's smart-match operator considered broken?

    - by Sean McMillan
    I've seen a number of comments across the web Perl's smart-match operator is broken. I know it originally was part of Perl 6, then was implemented in Perl 5.10 off of an old version of the spec, and was then corrected in 5.10.1 to match the current Perl 6 spec. Is the problem fixed in 5.10.1+, or are there other problems with the smart-match operator that make it troublesome in practice? What are the problems? Is there a yet-more-updated version (Perl 6, perhaps) that fixes the problems?

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  • Skipping scheduled self-tests and predicting drive EOL

    - by Steve Madsen
    For a few weeks now, smartd has been reporting that it is skipping some of its scheduled self-tests on the weekends: Apr 24 18:29:32 calvin smartd[4758]: Device: /dev/sda, skip scheduled Offline Immediate Test; 40% remaining of current Self-Test. Apr 24 18:29:33 calvin smartd[4758]: Device: /dev/sdb, skip scheduled Offline Immediate Test; 50% remaining of current Self-Test. The drives in this RAID-1 array are set to run an offline test four times a day, a short self-test at 2am every day, and a long self-test on Saturdays at 2am. For some reason, it looks like the long self-test is taking longer, causing the other scheduled tests to be skipped. First question: is this a sign of likely drive failure? Then today, smartd reported that a self-test failed. Here is the output of smartctl -a /dev/sdb: smartctl version 5.38 [i686-pc-linux-gnu] Copyright (C) 2002-8 Bruce Allen Home page is http://smartmontools.sourceforge.net/ === START OF INFORMATION SECTION === Model Family: Seagate Barracuda 7200.8 family Device Model: ST3250823AS Serial Number: 3ND1GNBC Firmware Version: 3.03 User Capacity: 250,059,350,016 bytes Device is: In smartctl database [for details use: -P show] ATA Version is: 7 ATA Standard is: Exact ATA specification draft version not indicated Local Time is: Sun Apr 25 13:15:34 2010 EDT SMART support is: Available - device has SMART capability. SMART support is: Enabled === START OF READ SMART DATA SECTION === SMART overall-health self-assessment test result: PASSED General SMART Values: Offline data collection status: (0x82) Offline data collection activity was completed without error. Auto Offline Data Collection: Enabled. Self-test execution status: ( 0) The previous self-test routine completed without error or no self-test has ever been run. Total time to complete Offline data collection: ( 430) seconds. Offline data collection capabilities: (0x5b) SMART execute Offline immediate. Auto Offline data collection on/off support. Suspend Offline collection upon new command. Offline surface scan supported. Self-test supported. No Conveyance Self-test supported. Selective Self-test supported. SMART capabilities: (0x0003) Saves SMART data before entering power-saving mode. Supports SMART auto save timer. Error logging capability: (0x01) Error logging supported. General Purpose Logging supported. Short self-test routine recommended polling time: ( 1) minutes. Extended self-test routine recommended polling time: ( 84) minutes. SMART Attributes Data Structure revision number: 10 Vendor Specific SMART Attributes with Thresholds: ID# ATTRIBUTE_NAME FLAG VALUE WORST THRESH TYPE UPDATED WHEN_FAILED RAW_VALUE 1 Raw_Read_Error_Rate 0x000f 047 039 006 Pre-fail Always - 168450357 3 Spin_Up_Time 0x0003 098 098 000 Pre-fail Always - 0 4 Start_Stop_Count 0x0032 100 100 020 Old_age Always - 33 5 Reallocated_Sector_Ct 0x0033 100 100 036 Pre-fail Always - 9 7 Seek_Error_Rate 0x000f 087 060 030 Pre-fail Always - 654745480 9 Power_On_Hours 0x0032 055 055 000 Old_age Always - 40141 10 Spin_Retry_Count 0x0013 100 100 097 Pre-fail Always - 0 12 Power_Cycle_Count 0x0032 100 100 020 Old_age Always - 51 194 Temperature_Celsius 0x0022 037 062 000 Old_age Always - 37 (0 17 0 0) 195 Hardware_ECC_Recovered 0x001a 047 039 000 Old_age Always - 168450357 197 Current_Pending_Sector 0x0012 100 100 000 Old_age Always - 0 198 Offline_Uncorrectable 0x0010 100 100 000 Old_age Offline - 0 199 UDMA_CRC_Error_Count 0x003e 200 200 000 Old_age Always - 0 200 Multi_Zone_Error_Rate 0x0000 100 253 000 Old_age Offline - 0 202 TA_Increase_Count 0x0032 100 253 000 Old_age Always - 0 SMART Error Log Version: 1 No Errors Logged SMART Self-test log structure revision number 1 Num Test_Description Status Remaining LifeTime(hours) LBA_of_first_error # 1 Short offline Completed without error 00% 40131 - # 2 Extended offline Completed: read failure 30% 40129 379795511 # 3 Short offline Completed without error 00% 40084 - # 4 Short offline Completed without error 00% 40060 - # 5 Short offline Completed without error 00% 40036 - # 6 Short offline Completed without error 00% 40013 - # 7 Short offline Completed without error 00% 39990 - # 8 Extended offline Completed without error 00% 39977 - # 9 Short offline Completed without error 00% 39919 - #10 Short offline Completed without error 00% 39895 - #11 Short offline Completed without error 00% 39872 - #12 Short offline Completed without error 00% 39848 - #13 Short offline Completed without error 00% 39824 - #14 Short offline Completed without error 00% 39801 - #15 Extended offline Completed without error 00% 39789 - #16 Short offline Completed without error 00% 39754 - #17 Short offline Completed without error 00% 39732 - #18 Short offline Completed without error 00% 39707 - #19 Short offline Completed without error 00% 39683 - #20 Short offline Completed without error 00% 39660 - #21 Short offline Completed without error 00% 39636 - SMART Selective self-test log data structure revision number 1 SPAN MIN_LBA MAX_LBA CURRENT_TEST_STATUS 1 0 0 Not_testing 2 0 0 Not_testing 3 0 0 Not_testing 4 0 0 Not_testing 5 0 0 Not_testing Selective self-test flags (0x0): After scanning selected spans, do NOT read-scan remainder of disk. If Selective self-test is pending on power-up, resume after 0 minute delay. Given that this drive is about 4.5 years old, I am probably tempting fate by keeping it in service. SMART doesn't seem to get much respect as a reliable way to predict drive failure. What else can I use to get an early indication of drive failure?

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  • Smart Grid Gateway and New Meter Data Management released

    - by Anthony Shorten
    Two products have just been released and are available from edlivery.oracle.com. Smart Grid Gateway 2.0.0 - A new product to integrate to Smart Grid networks Meter Data Management 2.0.1 - A new version of the Meter Data Management product. These products are the first products to use the brand new version of the Oracle Utilities Applicaton Framework (V4.1). The new framework builds up on FW2.2 and FW4.0.2 to add exciting new features (this is just a subset): Support for Database Vault Enhancements to Business Object Maintenance Batch Statistics Portal for benchmarking Custom template user exit support File permissions now consistent with other Oracle products Use of Universal Connection Pool for all database pool access Ability to manage the batch data cache Over the next few weeks I will be publishing articles and updates to existing whitepapers to highlight all the new features.

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  • On-demand Webcast: Java in the Smart Grid

    - by Jacob Lehrbaum
    The Smart Grid is one of the most significant evolutions of our utility infrastructure in recent history. This innovative grid will soon revolutionize how utilities manage and control the energy in our homes--helping utilities reduce energy usage during peak hours, improve overall energy efficiency, and lower your energy bills. If you'd like to learn more about the Smart Grid and the role that Java is poised to play in this important initiative you can check out our on-demand webcast. We'll show you how Java solutions--including Java ME and Java SE for Embedded --can help build devices and infrastructure that take advantage of this new market. As the world's most popular developer language, Java enables you to work with a wide range of developers and provides access to tools and resources to build smarter devices, faster and more affordably.

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  • Hacking Smart Phones

    Rootkits used to show smart phones can be hacked, hijacked and exploited without their owner's knowledge Operating system - Shopping - Consumer Electronics - Communications - Wireless

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  • When is my View too smart?

    - by Kyle Burns
    In this posting, I will discuss the motivation behind keeping View code as thin as possible when using patterns such as MVC, MVVM, and MVP.  Once the motivation is identified, I will examine some ways to determine whether a View contains logic that belongs in another part of the application.  While the concepts that I will discuss are applicable to most any pattern which favors a thin View, any concrete examples that I present will center on ASP.NET MVC. Design patterns that include a Model, a View, and other components such as a Controller, ViewModel, or Presenter are not new to application development.  These patterns have, in fact, been around since the early days of building applications with graphical interfaces.  The reason that these patterns emerged is simple – the code running closest to the user tends to be littered with logic and library calls that center around implementation details of showing and manipulating user interface widgets and when this type of code is interspersed with application domain logic it becomes difficult to understand and much more difficult to adequately test.  By removing domain logic from the View, we ensure that the View has a single responsibility of drawing the screen which, in turn, makes our application easier to understand and maintain. I was recently asked to take a look at an ASP.NET MVC View because the developer reviewing it thought that it possibly had too much going on in the view.  I looked at the .CSHTML file and the first thing that occurred to me was that it began with 40 lines of code declaring member variables and performing the necessary calculations to populate these variables, which were later either output directly to the page or used to control some conditional rendering action (such as adding a class name to an HTML element or not rendering another element at all).  This exhibited both of what I consider the primary heuristics (or code smells) indicating that the View is too smart: Member variables – in general, variables in View code are an indication that the Model to which the View is being bound is not sufficient for the needs of the View and that the View has had to augment that Model.  Notable exceptions to this guideline include variables used to hold information specifically related to rendering (such as a dynamically determined CSS class name or the depth within a recursive structure for indentation purposes) and variables which are used to facilitate looping through collections while binding. Arithmetic – as with member variables, the presence of arithmetic operators within View code are an indication that the Model servicing the View is insufficient for its needs.  For example, if the Model represents a line item in a sales order, it might seem perfectly natural to “normalize” the Model by storing the quantity and unit price in the Model and multiply these within the View to show the line total.  While this does seem natural, it introduces a business rule to the View code and makes it impossible to test that the rounding of the result meets the requirement of the business without executing the View.  Within View code, arithmetic should only be used for activities such as incrementing loop counters and calculating element widths. In addition to the two characteristics of a “Smart View” that I’ve discussed already, this View also exhibited another heuristic that commonly indicates to me the need to refactor a View and make it a bit less smart.  That characteristic is the existence of Boolean logic that either does not work directly with properties of the Model or works with too many properties of the Model.  Consider the following code and consider how logic that does not work directly with properties of the Model is just another form of the “member variable” heuristic covered earlier: @if(DateTime.Now.Hour < 12) {     <div>Good Morning!</div> } else {     <div>Greetings</div> } This code performs business logic to determine whether it is morning.  A possible refactoring would be to add an IsMorning property to the Model, but in this particular case there is enough similarity between the branches that the entire branching structure could be collapsed by adding a Greeting property to the Model and using it similarly to the following: <div>@Model.Greeting</div> Now let’s look at some complex logic around multiple Model properties: @if (ModelPageNumber + Model.NumbersToDisplay == Model.PageCount         || (Model.PageCount != Model.CurrentPage             && !Model.DisplayValues.Contains(Model.PageCount))) {     <div>There's more to see!</div> } In this scenario, not only is the View code difficult to read (you shouldn’t have to play “human compiler” to determine the purpose of the code), but it also complex enough to be at risk for logical errors that cannot be detected without executing the View.  Conditional logic that requires more than a single logical operator should be looked at more closely to determine whether the condition should be evaluated elsewhere and exposed as a single property of the Model.  Moving the logic above outside of the View and exposing a new Model property would simplify the View code to: @if(Model.HasMoreToSee) {     <div>There’s more to see!</div> } In this posting I have briefly discussed some of the more prominent heuristics that indicate a need to push code from the View into other pieces of the application.  You should now be able to recognize these symptoms when building or maintaining Views (or the Models that support them) in your applications.

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  • Download Microsoft’s Series of ‘Work Smart’ Guides for Windows 8

    - by Asian Angel
    The general release date for Windows 8 is almost here and Microsoft has released a terrific set of free ‘Work Smart’ guides to help you get started with the new operating system. Whether it is an overview of Windows 8 itself, shortcut keys, backups, and more these guides cover a nice range of topics. HTG Explains: How Antivirus Software Works HTG Explains: Why Deleted Files Can Be Recovered and How You Can Prevent It HTG Explains: What Are the Sys Rq, Scroll Lock, and Pause/Break Keys on My Keyboard?

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  • Gmail : arrivée des « Smart Labels », une nouvelle fonctionnalité de tri automatisé des e-mails

    Gmail : arrivée des « Smart Labels » Une nouvelle fonctionnalité de tri automatisé des e-mails Plusieurs mois après le lancement de la boite aux lettres « prioritaire », Gmail s'essaye aux « libellés automatiques », une fonction intelligente de tri automatisé des messages, destinée à faciliter et réduire le temps de gestion des courriel. L'activation de cette fonctionnalité sur la section « Labs » créée trois libellés : Indésirables, Notifications et Forums. « Notifications » redirigera automatiquement les messages en provenance de Facebook, d'Amazon et ceux pouvant contenir des informations importantes sans venir pour autant de contacts réels. Le li...

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  • Google I/O 2011: Smart App Design

    Google I/O 2011: Smart App Design Travis Green, Max Lin, Robert Kaplow, Jóhannes Kristinsson, Ryan McGee Learn how to recommend the unexpected, automate the repetitive, and distill the essential using machine learning. This session will show you how you can easily add smarts to your apps with the Prediction API, and how to create apps that rapidly adapt to new data. From: GoogleDevelopers Views: 10078 47 ratings Time: 01:01:04 More in Science & Technology

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