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| projects:acb8300 [2016/01/03 00:18] – Andreas Böhler | projects:acb8300 [2016/01/25 23:20] (current) – [Wait for button inpurt] Andreas Böhler | ||
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| ===== Debugging the LG_ACB8300.dll ===== | ===== Debugging the LG_ACB8300.dll ===== | ||
| - | I traced parts of the LG_ACB8300.dll with OllyDBG. I built a small C wrapper around the library in order to have access to the funtions and their parameters. The wrapper simply loads the DLL entry points and calls DeviceOpen, Get_ADC, Get_XYZ, etc. in order to reverse engineer the functionality. | + | I traced parts of the LG_ACB8300.dll with OllyDBG. I built a Python and a small C wrapper around the library in order to have access to the funtions and their parameters. The wrapper simply loads the DLL entry points and calls DeviceOpen, Get_ADC, Get_XYZ, etc. in order to reverse engineer the functionality. |
| Inside the Get_XYZ function, a lot of floating point magic is going on. After reversing all the floating point assembly, it turns out that the conversion from ADC to XYZ is performing as follows: | Inside the Get_XYZ function, a lot of floating point magic is going on. After reversing all the floating point assembly, it turns out that the conversion from ADC to XYZ is performing as follows: | ||
| - Read ADC value from device | - Read ADC value from device | ||
| - | - Do an offset correction (can be read from calibration) | + | - Do an offset correction (can be read from calibration, **subract** A from the USB protocol) |
| - | - Apply a correction matrix (can be read from calibration) | + | - Apply a correction matrix (can be read from calibration, **multiply** by M from the USB protocol) |
| - | - Do an offset correction (can be read from calibration) | + | - Do an offset correction (can be read from calibration, **add** X from the USB protocol) |
| - | - Apply a monitor correction matrix | + | - Apply a monitor correction matrix |
| The monitor correction matrix is hardcoded in the DLL. The SetMonitorType() function simply loads a different matrix into memory. | The monitor correction matrix is hardcoded in the DLL. The SetMonitorType() function simply loads a different matrix into memory. | ||
| Line 62: | Line 62: | ||
| ===== Hacking the USB protocol ===== | ===== Hacking the USB protocol ===== | ||
| - | The USB protocol consists of input reports and output reports, with a fixed length of 43 bytes. The host speaks first, the device responds (most of the time). The first byte is always the command byte, the remaining bytes are either payload or junk. | + | The USB protocol consists of input reports and output reports, with a fixed length of 43 bytes. The host speaks first, the device responds (most of the time). The first byte is always the command byte, the remaining bytes are either payload or junk. The byte numbers of the table start with the payload, so you have to strip the first byte anyway. |
| + | |||
| + | They seem to not clear the send buffer before responding to a command. Thus, you always get the remaining bytes of the previous commands as well! | ||
| ==== Initialisation ==== | ==== Initialisation ==== | ||
| Send: '' | Send: '' | ||
| - | Response: '' | + | Response: '' |
| This seems to initialise the device. The bytes in the response are yet unknown. | This seems to initialise the device. The bytes in the response are yet unknown. | ||
| Line 73: | Line 75: | ||
| ==== Read Calibration ==== | ==== Read Calibration ==== | ||
| - | Get the different calibration matrices and offset values from the device. | + | Get the different calibration matrices and offset values from the device. M is a 3x3 matrix for the ADC to XYZ conversion, A is the first ADC offset, X is the second XYZ offset (both being a vector of length 3). |
| Send: '' | Send: '' | ||
| Response: '' | Response: '' | ||
| + | |||
| + | ^ Bytes ^ Format ^ Description ^ | ||
| + | | 0-7 | double | M[0][0] | | ||
| + | | 8-15 | double | M[0][1] | | ||
| + | | 16-23 | double | M[0][2] | | ||
| + | | 24-31 | double | M[1][0] | | ||
| + | | 32-39 | double | M[1][1] | | ||
| + | |||
| Send: '' | Send: '' | ||
| Response: '' | Response: '' | ||
| + | |||
| + | ^ Bytes ^ Format ^ Description ^ | ||
| + | | 0-7 | double | M[1][2] | | ||
| + | | 8-15 | double | M[2][0] | | ||
| + | | 16-23 | double | M[2][1] | | ||
| + | | 24-31 | double | M[2][2] | | ||
| Send: '' | Send: '' | ||
| Response: '' | Response: '' | ||
| + | |||
| + | ^ Bytes ^ Format ^ Description ^ | ||
| + | | 0-7 | double | A[0] | | ||
| + | | 8-15 | double | A[1] | | ||
| + | | 16-23 | double | A[2] | | ||
| + | | 24-31 | double | X[0] | | ||
| + | | 32-39 | double | X[1] | | ||
| Send: '' | Send: '' | ||
| - | Response: '' | + | Response: '' |
| + | |||
| + | ^ Bytes ^ Format ^ Description ^ | ||
| + | | 0-7 | double | X[2] | | ||
| ==== Read ADC values ==== | ==== Read ADC values ==== | ||
| Line 96: | Line 122: | ||
| ^ Bytes ^ Format ^ Description ^ | ^ Bytes ^ Format ^ Description ^ | ||
| | 1-2 | int | unknown | | | 1-2 | int | unknown | | ||
| - | | 3-4 | int | X value | | + | | 3-4 | int | Z value | |
| | 5-6 | int | Y value | | | 5-6 | int | Y value | | ||
| - | | 7-8 | int | Z value | | + | | 7-8 | int | X value | |
| ==== Read Firmware version ==== | ==== Read Firmware version ==== | ||
| Line 110: | Line 136: | ||
| In order to derive the firmware version, divide the value by 100. My device reports '' | In order to derive the firmware version, divide the value by 100. My device reports '' | ||
| - | ==== Wait for button | + | ==== Wait for button |
| Send: '' | Send: '' | ||
| Line 116: | Line 142: | ||
| Whenever the button is pressed, the device sends '' | Whenever the button is pressed, the device sends '' | ||
| + | |||
| + | ===== ArgyllCMS support ===== | ||
| + | |||
| + | Although the device will probably be never officially supported by ArgyllCMS, I developed an initial driver for the device. You can find the patch for Argyll 1.8.3 {{: | ||