Hxc Dongle Smart Card Driver 34
the latest version of the hxc dongle smart card driver is 34.0.2 and it is available for download. i’ve been using the driver and it’s compatible with the latest versions of zte, mediatek, and android. the drivers uses a usb to serial converter so you don’t have to mess around with the port settings on your pc. the driver is quite simple to use. after you install the driver, you can select the hxc dongle you’d like to use. if your smartphone has a hxc dongle, you should be able to flash the card. you can also wipe your phone using the hxc dongle. one thing to note is that you have to find a linux kernel version that supports the card in order to use the hxc dongle. the driver doesn’t work for all versions of the linux kernel. if you can’t find a version that supports your card, use the driver from the earlier version.
i’ve had a lot of troubles with the serial port settings on the rpi. i’ve had to re-install the os several times and things didn’t always work. the latest version of the driver solved this problem. it works great for connecting the dongle to a pc. i was able to connect the dongle to the pc with only 2 issues. one was that my rpi had to be in a different location than the dongle. i put the dongle on a different usb port and my rpi was plugged into the same port. the other problem was that the driver didn’t like the smd pinouts i was using.
i wish i had the time to write one. i’d be sitting at my desk with my hands outstretched, clawing at the air while i shouted “more! give me more! i want more!” but unfortunately, i don’t have the time to create a whole new driver for a new operating system. i did what i could though, and i hope it’s helpful enough that someone else can create a driver and fill in some of the gaps. i tried to cover everything that i could think of (and i know there’s lots of stuff i didn’t think of). i’m positive that there’s more out there that will be helpful, but for now that’s all i have.
i started by rewriting the entire slave driver to use 16 bits instead of 9. this seemed like a good idea because the address is only 16 bits instead of 32, and the slave can handle a chunk of data in a single transfer. i also had to rewrite the entire mark/space code to use 16 bits as well. this code was originally written as a way to help with reading data from a uart into the spi master. since the slave code is now 16 bits, i decided to just re-use it. this allows for a much cleaner and simpler design.
here is the readme for the master driver. this is what the 8 bit slave used to be based on. note that the 8 bit slave uses the spi master’s clock and data lines to communicate to it. this isn’t as safe as the 16 bit slave because the 8 bit slave doesnt have any initialization code to help it know what to do with incoming data. this is why we need to start the slave code every time it is initialized by the spi master. here is the readme for the 16 bit slave. in this case we only need to initialize the slave once and it can handle the spi master during its initialization phase.
i removed all of the 24 bit slave code. i replaced it with a single 16 bit slave. in this case, the slave now handles all of the spi master initialization tasks as well as handling any data being sent to it. this is just a matter of getting used to 16 bits instead of 24 and then manipulating the data properly. the slave driver also uses a single 16 bit register to handle the entire address space of the spi master. this means that all the commands and features of the spi master can be used in the same way. the slave driver also handles bytes being sent to it. this allows for much cleaner code than the 24 bit slave. for instance the slave can understand the spi masters commands such as spi write, spi read, spi write eeprom. the slave can also understand the spi masters commands such as spi write eeprom, spi write. it also can understand the commands to read/write 4 bits at a time. in the 24 bit slave, the master had to have to have a specific command format. instead, it now supports any number of bytes being sent to it. this means that the slave can read/write 4 bytes at once, or 8 bytes, or 12 bytes. this is much cleaner as well as being more powerful.
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