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teensy-usbhost/serial.cpp

serial.cpp 42KB
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Begin FTDI serial driver
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
Fix print() & println() conflict with Arduino Print class
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
String buffers - Devices contribute buffers instead of having each HUB have 7 buffers, which can eat up space. We have each main object contribute currently one string buffer, which than when we initialize a Device_t we try to allocate one for it, likewise we release it when the Device is released. Hopefully less memory needed. Also updated such that the HIDInput classes can not retrieve these strings. Changed test program to now also have list of HIDInput objects and when I detect a new one, I again print out info on it...
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
Serial CP210x support for more boards Updated some of the init code for the CP210x. Before it worked with the one USB to serial adapter I had, but we foudn it id did not work with Adafruit USB adaptor nor with their metro boards
5 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
Serial CP210x support for more boards Updated some of the init code for the CP210x. Before it worked with the one USB to serial adapter I had, but we foudn it id did not work with Adafruit USB adaptor nor with their metro boards
5 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
Serial CP210x support for more boards Updated some of the init code for the CP210x. Before it worked with the one USB to serial adapter I had, but we foudn it id did not work with Adafruit USB adaptor nor with their metro boards
5 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
Serial CP210x support for more boards Updated some of the init code for the CP210x. Before it worked with the one USB to serial adapter I had, but we foudn it id did not work with Adafruit USB adaptor nor with their metro boards
5 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
Serial CP210x support for more boards Updated some of the init code for the CP210x. Before it worked with the one USB to serial adapter I had, but we foudn it id did not work with Adafruit USB adaptor nor with their metro boards
5 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
Serial CP210x support for more boards Updated some of the init code for the CP210x. Before it worked with the one USB to serial adapter I had, but we foudn it id did not work with Adafruit USB adaptor nor with their metro boards
5 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
Serial CP210x support for more boards Updated some of the init code for the CP210x. Before it worked with the one USB to serial adapter I had, but we foudn it id did not work with Adafruit USB adaptor nor with their metro boards
5 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
PL2303 support This commit should start to allow some Prolific PL2303 devices to work. Tis device has a rather more complex initialization process than some of the other devices. I have tested this some with one device that I used to use to program some older RS232 based boards plus talk to an SSC-32 device. Test case is I am able to talk to SSC-32 and if I type in ver<cr> It does properly return the version number. The data I am seeing is pretty close to what was documented in: https://gist.github.com/tommie/89011c5ac06553d5cdb8 as well as what the Linux driver outputs. I also incorperated Frank's configuration options.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
FTDI transmit, full packets only
7 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
FTDI transmit, full packets only
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
FTDI transmit, full packets only
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
FTDI transmit, full packets only
7 vuotta sitten
FTDI transmit, improve performance for fast output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
CDCACM - Serial support Have some support in place for the CDCACM serial class code. It appears to be working for talking to a Teensy that is programmed USB=Serial or USB=Serial+... Also test with an USB2AX board which is a Servo controller for Dynamixel servos (AX-12), that is an Atmega32u2 board programmed using LUFA as the USB library.
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
Support for Silicon labs: CP210x Did a quick add of support for the Slicon Labs CP210x drivers. Did similar like messages as FTDI, based on their documents on line: https://www.silabs.com/documents/public/application-notes/AN571.pdf
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
This commit has a few different parts. It is still a WIP This commit adds support for at least some of the Serial boards with the CH341 chipset, tested using a board from sparkfun as well as one from Amazon.com The code was rearranged some of the Claim code and added a VID:DID to Serial Type table that I use to map, such that I know some of these devices have multiple valid setups. Support Begin/End/Begin - Change baud Added code to support switching baud rates, or more particular be able to call end() and then call begin(...) with same or different baud rate. Hopefully some support for also releasing DTR when the end is called. WIP - Start support for the begin(baud, format) Adding some support to the code to handle some of the different possible format capabilities. In particualar trying to handle the parity, number of bits and number of stop bits. hacked up test app, such that if you type in command line like: "#9600, 7e1" It will extract the 9600 as the new baud and try to use format 7e1. I only hard coded a few of these in the test app (8n1, 7e1, 7e2, 8n2)... Again work in progress. Took me awhile tofigure out how to do this for ch341 boards as I did not see any documents or code that handled this. So had to deduce it from differences in USB packets.
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
USBSerial fix add USBSerialEmu I was workign on some other USBHost extensions and found I needed debug information that was being generated by a Teensy plugged into the USB host port that was output using Serial Emulation to be available. Likewise I wanted the ability to feed data back to that other Teensy. So I decided to create USBHost_t36 implemention to handle the USB types that include Serial Emulation USBSerialEmu class. The USBSerialEmu code was based on the USBSerial code as well as RAWHID. I found that there was a bug in the Receiving of data that was sent by the remote SEREMU output, I would miss the first character Fixed. USBSerial fixed same bug in reading first character
3 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
USBSerial fix add USBSerialEmu I was workign on some other USBHost extensions and found I needed debug information that was being generated by a Teensy plugged into the USB host port that was output using Serial Emulation to be available. Likewise I wanted the ability to feed data back to that other Teensy. So I decided to create USBHost_t36 implemention to handle the USB types that include Serial Emulation USBSerialEmu class. The USBSerialEmu code was based on the USBSerial code as well as RAWHID. I found that there was a bug in the Receiving of data that was sent by the remote SEREMU output, I would miss the first character Fixed. USBSerial fixed same bug in reading first character
3 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
USBSerial fix add USBSerialEmu I was workign on some other USBHost extensions and found I needed debug information that was being generated by a Teensy plugged into the USB host port that was output using Serial Emulation to be available. Likewise I wanted the ability to feed data back to that other Teensy. So I decided to create USBHost_t36 implemention to handle the USB types that include Serial Emulation USBSerialEmu class. The USBSerialEmu code was based on the USBSerial code as well as RAWHID. I found that there was a bug in the Receiving of data that was sent by the remote SEREMU output, I would miss the first character Fixed. USBSerial fixed same bug in reading first character
3 vuotta sitten
FTDI serial receive working, still no transmit
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
USBSerial_BigBuffer - T4.x (multi devices) This delta originated to do the work similar to what was done for the MIDI code base and support two versions of the object. All of the code was renamed to a new base class USBSerialBase which has everything, except the main buffer. Two sub-classes were made that the only difference is the size of the buffer to hold all of the USB RX and TX information. This started off to try to support an FT2232H device which transers 512 bytes at a time instead of what most of our devices were transfering which is 64 bytes. While doing this, I found that we have a similar issue with the T4.x boards which now transfer 512 bytes as well and our Serial object would not handle it. So there are two sublasses: ``` USBSerial - for those up to 64 byte transfers USBSerial_BigBuffer - for up to 512 bytes ``` Note: by default the biguffer version will only handle those devices > 64 bytes, but you can pass in an optional parameter of the minimum size, so doing something like: ``` USBSerial_BigBuffer userial(myusb, 1); ``` Will handle all up to 512. Also the FTDI2232H supports two USB to Serial objects, and our code was setup that in most cases including when we put in VID:PID pair in our table, the code would claim would claim the object at device level so only one USB Serial adapter. So changed table to support saying for this VID:PID claim at interface level. It now works, but not sure for the device I have as it is a USB to Serial and JTAG and not sure how to test 2nd one. But while doing this created a test sketch for Multiple Host USB Serial objects and the two are claimed by this. I also created a new version of the Teensy USBToSerial example sketch that if you configure USB type to Dual Serial or Triple Serial will output SerialUSB1 to Serial2 and SerialUSB2 to Serial3, which works, and then tried T4 configured for Dual plugged into T4.1 with above sketch and could talk to both USB Serial adapters. The Claim code was rearranged a lot, so hopefully did not break anything. But tested with T4 as mentioned, both Single and Dual Serial T3.2 with Single Serial, plus: Serial, Joystick, Keyboard... FTDI - USB to Serial adapter (Sparkfun) CP2104 - Adafruit PL2303 - some clones ... So hopefully most things are still working
4 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
FTDI serial config & receive (still work in progress)
7 vuotta sitten
FTDI transmit, full packets only
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, full packets only
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, full packets only
7 vuotta sitten
FTDI transmit, add partial packet output
7 vuotta sitten
Serial cleanup - flush, timeout As per the forum posts, worked on combining the claim code for extracting which endpoints are RX and TX and create the pipes and the like. Also worked on live cases. Reading and writing to AX servos... Found some issues Probably more to find. I left in some debug code to help find cases of deleting a pipe may hang. Also macros in serial.cpp to set or toggle IO pins (when in debug mode). This helps find where things are happing using Logic Analyzer as a way to find the approriate USB packets.
7 vuotta sitten
FTDI transmit, full packets only
7 vuotta sitten
Begin FTDI serial driver
7 vuotta sitten
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  1. /* USB EHCI Host for Teensy 3.6

  2.  * Copyright 2017 Paul Stoffregen (paul@pjrc.com)

  3.  *

  4.  * Permission is hereby granted, free of charge, to any person obtaining a

  5.  * copy of this software and associated documentation files (the

  6.  * "Software"), to deal in the Software without restriction, including

  7.  * without limitation the rights to use, copy, modify, merge, publish,

  8.  * distribute, sublicense, and/or sell copies of the Software, and to

  9.  * permit persons to whom the Software is furnished to do so, subject to

  10.  * the following conditions:

  11.  *

  12.  * The above copyright notice and this permission notice shall be included

  13.  * in all copies or substantial portions of the Software.

  14.  *

  15.  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS

  16.  * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF

  17.  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.

  18.  * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY

  19.  * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,

  20.  * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE

  21.  * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

  22.  *

  23.  * Note: special thanks to the Linux kernel for the CH341's method of operation, particularly how the baud rate is encoded.

  24.  */

  25. 

  26. #include <Arduino.h>

  27. #include "USBHost_t36.h"  // Read this header first for key info

  28. 

  29. #define print   USBHost::print_

  30. #define println USBHost::println_

  31. 

  32. //#define ENABLE_DEBUG_PINS

  33. 

  34. #ifdef ENABLE_DEBUG_PINS

  35. #define debugDigitalToggle(pin)  {digitalWriteFast(pin, !digitalReadFast(pin));}

  36. #define debugDigitalWrite(pin, state) {digitalWriteFast(pin, state);}

  37. #else

  38. #define debugDigitalToggle(pin)  {;}

  39. #define debugDigitalWrite(pin, state) {;}

  40. #endif

  41. 

  42. /************************************************************/

  43. //  Define mapping VID/PID - to Serial Device type.

  44. /************************************************************/

  45. USBSerialBase::product_vendor_mapping_t USBSerialBase::pid_vid_mapping[] = {

  46. 	// FTDI mappings. 

  47. 	{0x0403, 0x6001, USBSerialBase::FTDI, 0},

  48. 	{0x0403, 0x8088, USBSerialBase::FTDI, 1},  // 2 devices try to claim at interface level

  49. 

  50. 	// PL2303

  51. 	{0x67B,0x2303, USBSerialBase::PL2303, 0}, 

  52. 

  53. 	// CH341

  54. 	{0x4348, 0x5523, USBSerialBase::CH341, 0},

  55. 	{0x1a86, 0x7523, USBSerialBase::CH341, 0 },

  56. 	{0x1a86, 0x5523, USBSerialBase::CH341, 0 },

  57. 

  58. 	// Silex CP210...

  59. 	{0x10c4, 0xea60, USBSerialBase::CP210X, 0 }

  60. };

  61. 

  62. 

  63. /************************************************************/

  64. //  Initialization and claiming of devices & interfaces

  65. /************************************************************/

  66. 

  67. void USBSerialBase::init()

  68. {

  69. 	contribute_Pipes(mypipes, sizeof(mypipes)/sizeof(Pipe_t));

  70. 	contribute_Transfers(mytransfers, sizeof(mytransfers)/sizeof(Transfer_t));

  71. 	contribute_String_Buffers(mystring_bufs, sizeof(mystring_bufs)/sizeof(strbuf_t));

  72. 	driver_ready_for_device(this);

  73. 	format_ = USBHOST_SERIAL_8N1;

  74. }

  75. 

  76. bool USBSerialBase::claim(Device_t *dev, int type, const uint8_t *descriptors, uint32_t len)

  77. {

  78. 	print("USBSerial(", _max_rxtx, DEC);

  79. 	println(")claim this=", (uint32_t)this, HEX);

  80. 	print("vid=", dev->idVendor, HEX);

  81. 	print(", pid=", dev->idProduct, HEX);

  82. 	print(", bDeviceClass = ", dev->bDeviceClass);

  83.    	print(", bDeviceSubClass = ", dev->bDeviceSubClass);

  84.    	println(", bDeviceProtocol = ", dev->bDeviceProtocol);

  85. 	print_hexbytes(descriptors, len);

  86. 

  87. 	//---------------------------------------------------------------------------

  88. 	// Lets try to map CDCACM devices only at device level

  89. 	if ((dev->bDeviceClass == 2) && (dev->bDeviceSubClass == 0)) {

  90. 		if (type != 0) return false;

  91. 

  92. 		// It is a communication device see if we can extract the data... 

  93. 		// Try some ttyACM types? 

  94. 		// This code may be similar to MIDI code. 

  95. 		// But first pass see if we can simply look at the interface...

  96. 		// Lets walk through end points and see if we 

  97. 		// can find an RX and TX bulk transfer end point.

  98. 		// 0  1  2  3  4  5  6  7  8 *9 10  1  2  3 *4  5  6  7 *8  9 20  1  2 *3  4  5  6  7  8  9*30  1  2  3  4  5  6  7  8 *9 40  1  2  3  4  5 *6  7  8  9 50  1  2 

  99. 		// USB2AX

  100. 		//09 04 00 00 01 02 02 01 00 05 24 00 10 01 04 24 02 06 05 24 06 00 01 07 05 82 03 08 00 FF 09 04 01 00 02 0A 00 00 00 07 05 04 02 10 00 01 07 05 83 02 10 00 01

  101. 		//09 04 01 00 02 0A 00 00 00 07 05 04 02 10 00 01 07 05 83 02 10 00 01 

  102. 	    // Teensy 3.6

  103. 	    //09 04 00 00 01 02 02 01 00 05 24 00 10 01 05 24 01 01 01 04 24 02 06 05 24 06 00 01 07 05 82 03 10 00 40 09 04 01 00 02 0A 00 00 00 07 05 03 02 40 00 00 07 05 84 02 40 00 00  

  104. 	    //09 04 01 00 02 0A 00 00 00 07 05 03 02 40 00 00 07 05 84 02 40 00 00 

  105. 		const uint8_t *p = descriptors;

  106. 		const uint8_t *end = p + len;

  107. 

  108. 		if (p[0] != 9 || p[1] != 4) return false; // interface descriptor

  109. 		//println("  bInterfaceClass=", p[5]);

  110. 		//println("  bInterfaceSubClass=", p[6]);

  111. 		if (p[5] != 2) return false; // bInterfaceClass: 2 Communications

  112. 		if (p[6] != 2) return false; // bInterfaceSubClass: 2 serial 

  113. 		p += 9;

  114. 		println("  Interface is Serial");

  115. 		uint8_t rx_ep = 0;

  116. 		uint8_t tx_ep = 0;

  117. 		uint16_t rx_size = 0;

  118. 		uint16_t tx_size = 0;

  119. 		interface = 0;	// clear out any interface numbers passed in. 

  120. 

  121. 		while (p < end) {

  122. 			len = *p;

  123. 			if (len < 4) return false; 

  124. 			if (p + len > end) return false; // reject if beyond end of data

  125. 			uint32_t type = p[1];

  126. 			//println("type: ", type);

  127. 			// Unlike Audio, we need to look at Interface as our endpoints are after them...

  128. 			if (type == 4 ) { // Interface - lets remember it's number...

  129. 				interface = p[2];

  130. 				println("    Interface: ", interface);

  131. 			}

  132. 			else if (type == 0x24) {  // 0x24 = CS_INTERFACE, 

  133. 				uint32_t subtype = p[2];

  134. 				print("    CS_INTERFACE - subtype: ", subtype);

  135. 				if (len >= 4) print(" ", p[3], HEX);

  136. 				if (len >= 5) print(" ", p[4], HEX);

  137. 				if (len >= 6) print(" ", p[5], HEX);

  138. 				switch (subtype) {

  139. 					case 0: println(" - Header Functional Descriptor"); break;

  140. 					case 1: println(" - Call Management Functional"); break;

  141. 					case 2: println(" - Abstract Control Management"); break;

  142. 					case 4: println(" - Telephone Ringer"); break;

  143. 					case 6: println("  - union Functional"); break;

  144. 					default: println(" - ??? other"); break; 

  145. 				}

  146. 				// First pass ignore...

  147. 			} else if (type == 5) {

  148. 				// endpoint descriptor

  149. 				if (p[0] < 7) return false; // at least 7 bytes

  150. 				if (p[3] == 2) {  // First try ignore the first one which is interrupt...

  151. 					println("     Endpoint: ", p[2], HEX);

  152. 					switch (p[2] & 0xF0) {

  153. 					case 0x80:

  154. 						// IN endpoint

  155. 						if (rx_ep == 0) {

  156. 							rx_ep = p[2] & 0x0F;

  157. 							rx_size = p[4] | (p[5] << 8);

  158. 							println("      rx_size = ", rx_size);

  159. 						}

  160. 						break;

  161. 					case 0x00:

  162. 						// OUT endpoint

  163. 						if (tx_ep == 0) {

  164. 							tx_ep = p[2];

  165. 							tx_size = p[4] | (p[5] << 8);

  166. 							println("      tx_size = ", tx_size);

  167. 						}

  168. 						break;

  169. 					default:

  170. 						println("  invalid end point: ", p[2]);

  171. 						return false;

  172. 					}

  173. 				}

  174. 			} else {

  175. 				println("  Unknown type: ", type);

  176. 				return false; // unknown

  177. 			}

  178. 			p += len;

  179. 		}

  180. 		print("  exited loop rx:", rx_ep);

  181. 		println(", tx:", tx_ep);

  182. 		if (!rx_ep || !tx_ep) return false; 	// did not get our two end points

  183. 		if (!init_buffers(rx_size, tx_size)) return false;

  184. 		println("  rx buffer size:", rxsize);

  185. 		println("  tx buffer size:", txsize);

  186. 		rxpipe = new_Pipe(dev, 2, rx_ep & 15, 1, rx_size);

  187. 		if (!rxpipe) return false;

  188. 		txpipe = new_Pipe(dev, 2, tx_ep, 0, tx_size);

  189. 		if (!txpipe) {

  190. 			// TODO: free rxpipe

  191. 			return false;

  192. 		}

  193. 		sertype = CDCACM;

  194. 		rxpipe->callback_function = rx_callback;

  195. 		queue_Data_Transfer(rxpipe, rx1, (rx_size < 64)? rx_size : 64, this);

  196. 		rxstate = 1;

  197. 		if (rx_size > 128) {

  198. 			queue_Data_Transfer(rxpipe, rx2, rx_size, this);

  199. 			rxstate = 3;

  200. 		}

  201. 		txstate = 0;

  202. 		txpipe->callback_function = tx_callback;

  203. 		baudrate = 115200;

  204. 		// Wish I could just call Control to do the output... Maybe can defer until the user calls begin()

  205. 		// control requires that device is setup which is not until this call completes...

  206. 		println("Control - CDCACM DTR...");

  207. 		// Need to setup  the data the line coding data

  208. 		mk_setup(setup, 0x21, 0x22, 3, 0, 0);

  209. 		queue_Control_Transfer(dev, &setup, NULL, this);

  210. 		control_queued = true;

  211. 		pending_control = 0x0;	// Maybe don't need to do...

  212. 		return true;

  213. 	}

  214. 

  215. 	//---------------------------------------------------------------------------

  216. 	// Else lets see if this is a PID/VID we know something about.

  217. 	// See if the vendor_id:product_id is in our list of products.

  218. 	sertype = UNKNOWN;

  219. 	for (uint8_t i = 0; i < (sizeof(pid_vid_mapping)/sizeof(pid_vid_mapping[0])); i++) {

  220. 		if ((dev->idVendor == pid_vid_mapping[i].idVendor) && (dev->idProduct == pid_vid_mapping[i].idProduct)) {

  221. 			sertype = pid_vid_mapping[i].sertype;

  222. 			if (pid_vid_mapping[i].claim_at_type != type) {

  223. 				println("Serial device wants to map at interface level");

  224. 				return false;

  225. 			}

  226. 			break;

  227. 		}

  228. 	}  

  229. 	if (sertype == UNKNOWN) {

  230. 		// Not in our list see if CDCACM type...

  231. 		// only at the Interface level

  232. 		if (type != 1) return false;

  233. 		// TTYACM: <Composit device> 

  234. 		// 

  235. 		// We first tried to claim a simple ttyACM device like a teensy who is configured

  236. 		// only as Serial at the device level like what was done for midi

  237. 		//

  238. 		// However some devices are a compisit of multiple Interfaces, so see if this Interface

  239. 		// is of the CDC Interface class and 0 for SubClass and protocol

  240. 		// Todo: some of this can maybe be combined with the Whole device code above. 

  241. 		

  242. 		if (descriptors[0] != 9 || descriptors[1] != 4) return false; // interface descriptor

  243. 		if (descriptors[4] < 2) return false; 		// less than 2 end points

  244. 		if (descriptors[5] != 0xA) return false; // bInterfaceClass, 0xa = CDC data

  245. 		if (descriptors[6] != 0) return false; // bInterfaceSubClass

  246. 		if (descriptors[7] != 0) return false; // bInterfaceProtocol

  247. 		sertype = CDCACM;

  248. 		// Lets see if we can fold in the ACM stuff here...

  249. 	}

  250. 	// Lets try to locate the end points.  Code is common across these devices

  251. 	println("len = ", len);

  252. 	uint8_t count_end_points = descriptors[4];

  253. 	if (count_end_points < 2) return false; // not enough end points

  254. 	if (len < 23) return false;

  255. 	if (descriptors[0] != 9) return false; // length 9

  256. 

  257. 	// Lets walk through end points and see if we 

  258. 	// can find an RX and TX bulk transfer end point.

  259. 	//Example vid=67B, pid=2303

  260. 	// 0  1  2  3  4  5  6  7  8  9 10  1  2  3  4  5  6  7  8  9 20  1  2  3  4  5  6  7  8  9

  261. 	//09 04 00 00 03 FF 00 00 00 07 05 81 03 0A 00 01 07 05 02 02 40 00 00 07 05 83 02 40 00 00 

  262. 

  263. 	// lets see about FTD2232H

  264.     //09 04 00 00 02 FF FF FF 02 07 05 81 02 00 02 00 07 05 02 02 00 02 00 09 04 01 00 02 FF FF FF 02 07 05 83 02 00 02 00 07 05 04 02 00 02 00 

  265. 	//09 04 01 00 02 FF FF FF 02 07 05 83 02 00 02 00 07 05 04 02 00 02 00 

  266. 

  267. 

  268. 	uint32_t rxep = 0;

  269. 	uint32_t txep = 0;

  270. 	uint16_t rx_size = 0;

  271. 	uint16_t tx_size = 0;

  272. 	uint32_t descriptor_index = 9; 

  273. 	while (count_end_points-- && ((rxep == 0) || txep == 0)) {

  274. 		if (descriptors[descriptor_index] != 7) return false; // length 7

  275. 		if (descriptors[descriptor_index+1] != 5) return false; // ep desc

  276. 		uint16_t ep_size = descriptors[descriptor_index+4] + (uint16_t)(descriptors[descriptor_index+5] << 8);

  277. 		if ((descriptors[descriptor_index+3] == 2) 

  278. 			&& (ep_size <= _max_rxtx) && (ep_size >= _min_rxtx)) {

  279. 			// have a bulk EP size 

  280. 			if (descriptors[descriptor_index+2] & 0x80 ) {

  281. 				rxep = descriptors[descriptor_index+2];

  282. 				rx_size = ep_size;

  283. 			} else {

  284. 				txep = descriptors[descriptor_index+2]; 

  285. 				tx_size = ep_size;

  286. 			}

  287. 		}

  288. 		descriptor_index += 7;  // setup to look at next one...

  289. 	}

  290. 	// Try to verify the end points. 

  291. 	if (!check_rxtx_ep(rxep, txep)) return false;

  292. 	print("USBSerial, rxep=", rxep & 15);

  293. 	print("(", rx_size);

  294. 	print("), txep=", txep);

  295. 	print("(", tx_size);

  296. 	println(")");

  297. 

  298. 	if (!init_buffers(rx_size, tx_size)) return false;

  299. 	println("  rx buffer size:", rxsize);

  300. 	println("  tx buffer size:", txsize);

  301. 

  302. 	rxpipe = new_Pipe(dev, 2, rxep & 15, 1, rx_size);

  303. 	if (!rxpipe) return false;

  304. 	txpipe = new_Pipe(dev, 2, txep, 0, tx_size);

  305. 	if (!txpipe) {

  306. 		//free_Pipe(rxpipe);

  307. 		return false;

  308. 	}

  309. 	rxpipe->callback_function = rx_callback;

  310. 	queue_Data_Transfer(rxpipe, rx1, rx_size, this);

  311. 	rxstate = 1;

  312. 	txstate = 0;

  313. 	txpipe->callback_function = tx_callback;

  314. 	baudrate = 115200;

  315. 

  316. 	// Now do specific setup per type

  317. 	switch (sertype) {

  318. 	//---------------------------------------------------------------------

  319. 	// FTDI

  320. 	case FTDI:

  321. 		{

  322. 			pending_control = 0x0F;

  323. 			mk_setup(setup, 0x40, 0, 0, 0, 0); // reset port

  324. 			queue_Control_Transfer(dev, &setup, NULL, this);

  325. 			control_queued = true;

  326. 			return true;

  327. 		}

  328. 	//------------------------------------------------------------------------

  329. 	// Prolific

  330. 	// TODO: Note: there are probably more vendor/product pairs.. Maybe should create table of them

  331. 	case PL2303: 

  332. 		{

  333. 			//  First attempt keep it simple... 

  334. 			println("PL2303: readRegister(0x04)");

  335. 			// Need to setup  the data the line coding data

  336. 			mk_setup(setup, 0xC0, 0x1, 0x8484, 0, 1);  

  337. 			queue_Control_Transfer(dev, &setup, setupdata, this); 

  338. 			control_queued = true;

  339. 			setup_state = 1; 	// We are at step one of setup... 

  340. 			pending_control = 0x3f;

  341. 			return true;

  342. 		}

  343. 	//------------------------------------------------------------------------

  344. 	// CH341

  345. 	case CH341:

  346. 		{

  347. 			println("CH341:  0xC0, 0x5f, 0, 0, 8");

  348. 			// Need to setup  the data the line coding data

  349. 			mk_setup(setup, 0xC0, 0x5f, 0, 0, sizeof(setupdata));  

  350. 			queue_Control_Transfer(dev, &setup, setupdata, this); 

  351. 			control_queued = true;

  352. 			setup_state = 1; 	// We are at step one of setup... 

  353. 			pending_control = 0x7f;	

  354. 			return true;

  355. 		}

  356. 	//------------------------------------------------------------------------

  357. 	// CP210X

  358. 	case CP210X:

  359. 		{

  360. 			println("CP210X:  0x41, 0x11, 0, 0, 0 - reset port");

  361. 			// Need to setup  the data the line coding data

  362. 			mk_setup(setup, 0x41, 0x11, 0, 0, 0);  

  363. 			queue_Control_Transfer(dev, &setup, NULL, this); 

  364. 			control_queued = true;

  365. 			setup_state = 1; 	// We are at step one of setup... 

  366. 			pending_control = 0xf;	

  367. 			return true;

  368. 		}

  369. 	case CDCACM:

  370. 		{

  371. 			println("Control - CDCACM LINE_CODING");

  372. 			setupdata[0] = 0;  // Setup baud rate 115200 - 0x1C200

  373. 			setupdata[1] = 0xc2;

  374. 			setupdata[2] = 0x1;

  375. 			setupdata[3] = 0;

  376. 		    setupdata[4] = 0; // 0 - 1 stop bit, 1 - 1.5 stop bits, 2 - 2 stop bits

  377. 		    setupdata[5] = 0; // 0 - None, 1 - Odd, 2 - Even, 3 - Mark, 4 - Space

  378. 		    setupdata[6] = 8; // Data bits (5, 6, 7, 8 or 16)

  379. 			mk_setup(setup, 0x21, 0x20, 0, 0, 7);

  380. 			queue_Control_Transfer(dev, &setup, setupdata, this);

  381. 			pending_control = 0x04;	// Maybe don't need to do...

  382. 			control_queued = true;

  383. 			return true;

  384. 		}		

  385. 	//------------------------------------------------------------------------

  386. 	// PID:VID - not in our product list. 

  387. 	default:

  388. 		break;

  389. 	}

  390. 	return false;

  391. }

  392. 

  393. // check if two legal endpoints, 1 receive & 1 transmit

  394. bool USBSerialBase::check_rxtx_ep(uint32_t &rxep, uint32_t &txep)

  395. {

  396. 	if ((rxep & 0x0F) == 0) return false;

  397. 	if ((txep & 0x0F) == 0) return false;

  398. 	uint32_t rxdir = rxep & 0xF0;

  399. 	uint32_t txdir = txep & 0xF0;

  400. 	if (rxdir == 0x80 && txdir == 0x00) {

  401. 		return true;

  402. 	}

  403. 	if (rxdir == 0x00 && txdir == 0x80) {

  404. 		std::swap(rxep, txep);

  405. 		return true;

  406. 	}

  407. 	return false;

  408. }

  409. 

  410. // initialize buffer sizes and pointers

  411. bool USBSerialBase::init_buffers(uint32_t rsize, uint32_t tsize)

  412. {

  413. 	// buffer must be able to hold 2 of each packet, plus buffer

  414. 	// space to hold RX and TX data. 

  415. 	if (_big_buffer_size < (rsize + tsize) * 3 + 2) return false;

  416. 	rx1 = (uint8_t *)_bigBuffer;

  417. 	rx2 = rx1 + rsize;

  418. 	tx1 = rx2 + rsize;

  419. 	tx2 = tx1 + tsize;

  420. 	rxbuf = tx2 + tsize;

  421. 	// FIXME: this assume 50-50 split - not true when rsize != tsize

  422. 	rxsize = (_big_buffer_size - (rsize + tsize) * 2) / 2;

  423. 	txsize = rxsize;

  424. 	txbuf = rxbuf + rxsize;

  425. 	rxhead = 0;

  426. 	rxtail = 0;

  427. 	txhead = 0;

  428. 	txtail = 0;

  429. 	rxstate = 0;

  430. 	return true;

  431. }

  432. 

  433. void USBSerialBase::disconnect()

  434. {

  435. }

  436. 

  437. 

  438. 

  439. void USBSerialBase::control(const Transfer_t *transfer)

  440. {

  441. 	println("control callback (serial) ", pending_control, HEX);

  442. 	control_queued = false;

  443. 

  444. 	// We will split this up by Serial type, maybe different functions? 

  445. 

  446. 	//-------------------------------------------------------------------------

  447. 	// First FTDI

  448. 	if (sertype == FTDI) {

  449. 		if (pending_control & 1) {

  450. 			pending_control &= ~1;

  451. 			// set data format

  452. 			uint16_t ftdi_format = format_ & 0xf;	// This should give us the number of bits.

  453. 

  454. 			// now lets extract the parity from our encoding

  455. 			ftdi_format |= (format_ & 0xe0) << 3;	// they encode bits 9-11

  456. 

  457. 			// See if two stop bits

  458. 			if (format_ & 0x100) ftdi_format |= (0x2 << 11);

  459. 

  460. 			mk_setup(setup, 0x40, 4, ftdi_format, 0, 0); // data format 8N1

  461. 			queue_Control_Transfer(device, &setup, NULL, this);

  462. 			control_queued = true;

  463. 			return;

  464. 		}

  465. 		// set baud rate

  466. 		if (pending_control & 2) {

  467. 			pending_control &= ~2;

  468. 			uint32_t baudval = 3000000 / baudrate;

  469. 			mk_setup(setup, 0x40, 3, baudval, 0, 0);

  470. 			queue_Control_Transfer(device, &setup, NULL, this);

  471. 			control_queued = true;

  472. 			return;

  473. 		}

  474. 		// configure flow control

  475. 		if (pending_control & 4) {

  476. 			pending_control &= ~4;

  477. 			mk_setup(setup, 0x40, 2, 0, 1, 0);

  478. 			queue_Control_Transfer(device, &setup, NULL, this);

  479. 			control_queued = true; 

  480. 			return;

  481. 		}

  482. 		// set DTR

  483. 		if (pending_control & 8) {

  484. 			pending_control &= ~8;

  485. 			mk_setup(setup, 0x40, 1, 0x0101, 0, 0);

  486. 			queue_Control_Transfer(device, &setup, NULL, this);

  487. 			control_queued = true;

  488. 			return;

  489. 		}

  490. 		// clear DTR

  491. 		if (pending_control & 0x80) {

  492. 			pending_control &= ~0x80;

  493. 			println("FTDI clear DTR");

  494. 			mk_setup(setup, 0x40, 1, 0x0100, 0, 0);

  495. 			queue_Control_Transfer(device, &setup, NULL, this);

  496. 			control_queued = true;

  497. 			return;

  498. 		}

  499. 

  500. 	}

  501. 

  502. 	//-------------------------------------------------------------------------

  503. 	// Now CDCACM

  504. 	if (sertype == CDCACM) {

  505. 		if (pending_control & 2) {

  506. 			pending_control &= ~2;

  507. 			// Should probably use data structure, but that may depend on byte ordering...

  508. 			setupdata[0] = (baudrate) & 0xff;  // Setup baud rate 115200 - 0x1C200

  509. 			setupdata[1] = (baudrate >> 8) & 0xff;

  510. 			setupdata[2] = (baudrate >> 16) & 0xff;

  511. 			setupdata[3] = (baudrate >> 24) & 0xff;

  512. 	        setupdata[4] = (format_ & 0x100)? 2 : 0; 	// 0 - 1 stop bit, 1 - 1.5 stop bits, 2 - 2 stop bits

  513. 	        setupdata[5] = (format_ & 0xe0) >> 5; 		// 0 - None, 1 - Odd, 2 - Even, 3 - Mark, 4 - Space

  514. 	        setupdata[6] = format_ & 0x1f;				// Data bits (5, 6, 7, 8 or 16)

  515. 	        print("CDCACM setup: ");

  516. 	        print_hexbytes(&setupdata, 7);

  517. 			mk_setup(setup, 0x21, 0x20, 0, 0, 7);

  518. 			queue_Control_Transfer(device, &setup, setupdata, this);

  519. 			control_queued = true;

  520. 			return;

  521. 		}

  522. 		// configure flow control

  523. 		if (pending_control & 4) {

  524. 			pending_control &= ~4;

  525. 			println("Control - 0x21,0x22, 0x3");

  526. 			// Need to setup  the data the line coding data

  527. 			mk_setup(setup, 0x21, 0x22, 3, 0, 0);

  528. 			queue_Control_Transfer(device, &setup, NULL, this);

  529. 			control_queued = true;

  530. 			return;

  531. 		}

  532. 		if (pending_control & 0x80) {

  533. 			pending_control &= ~0x80;

  534. 			println("Control - 0x21,0x22, 0x0 - clear DTR");

  535. 			// Need to setup  the data the line coding data

  536. 			mk_setup(setup, 0x21, 0x22, 0, 0, 0);

  537. 			queue_Control_Transfer(device, &setup, NULL, this);

  538. 			control_queued = true;

  539. 			return;

  540. 		}

  541. 	}

  542. 

  543. 	//-------------------------------------------------------------------------

  544. 	// Now PL2303 - Which appears to be a little more complicated

  545. 	if (sertype == PL2303) {

  546. 		if (pending_control & 1) {

  547. 			// Still in larger setup state mode

  548. 			switch (setup_state) {

  549. 				case 1:

  550. 					println("PL2303: writeRegister(0x04, 0x00)");

  551. 					mk_setup(setup, 0x40, 1, 0x0404, 0, 0); // 

  552. 					queue_Control_Transfer(device, &setup, NULL, this);

  553. 					setup_state = 2; 

  554. 					control_queued = true;

  555. 					return;

  556. 				case 2:

  557. 					println("PL2303: readRegister(0x04)");

  558. 					mk_setup(setup, 0xC0, 0x1, 0x8484, 0, 1);  

  559. 					queue_Control_Transfer(device, &setup, setupdata, this); 

  560. 					control_queued = true;

  561. 					setup_state = 3; 

  562. 					return;

  563. 				case 3:

  564. 					println("PL2303: v1 = readRegister(0x03)");

  565. 					mk_setup(setup, 0xC0, 0x1, 0x8383, 0, 1);  

  566. 					queue_Control_Transfer(device, &setup, setupdata, this); 

  567. 					control_queued = true;

  568. 					setup_state = 4; 

  569. 					return;

  570. 				case 4:

  571. 					println("PL2303: readRegister(0x04)");

  572. 					// Do we need this value long term or we could just leave in setup data? 

  573. 					pl2303_v1 = setupdata[0];	// save the first bye of version

  574. 					mk_setup(setup, 0xC0, 0x1, 0x8484, 0, 1);  

  575. 					queue_Control_Transfer(device, &setup, setupdata, this); 

  576. 					control_queued = true;

  577. 					setup_state = 5; 

  578. 					return;

  579. 				case 5:

  580. 					println("PL2303: writeRegister(0x04, 0x01)");

  581. 					mk_setup(setup, 0x40, 1, 0x0404, 1, 0); // 

  582. 					queue_Control_Transfer(device, &setup, NULL, this);

  583. 					setup_state = 6; 

  584. 					control_queued = true;

  585. 					return;

  586. 				case 6:

  587. 					println("PL2303: readRegister(0x04)");

  588. 					mk_setup(setup, 0xC0, 0x1, 0x8484, 0, 1);  

  589. 					queue_Control_Transfer(device, &setup, setupdata, this); 

  590. 					control_queued = true;

  591. 					setup_state = 7; 

  592. 					return;

  593. 				case 7:

  594. 					println("PL2303: v2 = readRegister(0x03)");

  595. 					mk_setup(setup, 0xC0, 0x1, 0x8383, 0, 1);  

  596. 					queue_Control_Transfer(device, &setup, setupdata, this); 

  597. 					control_queued = true;

  598. 					setup_state = 8; 

  599. 					return;

  600. 				case 8:

  601. 					pl2303_v2 = setupdata[0];	// save the first bye of version

  602. 					print(" PL2303 Version ", pl2303_v1, HEX);

  603. 					println(":", pl2303_v2, HEX);

  604. 					println("PL2303: writeRegister(0, 1)");

  605. 					mk_setup(setup, 0x40, 1, 0, 1, 0); // 

  606. 					queue_Control_Transfer(device, &setup, NULL, this);

  607. 					setup_state = 9; 

  608. 					control_queued = true;

  609. 					return;

  610. 				case 9:

  611. 					println("PL2303: writeRegister(1, 0)");

  612. 					mk_setup(setup, 0x40, 1, 1, 0, 0); // 

  613. 					queue_Control_Transfer(device, &setup, NULL, this);

  614. 					setup_state = 10; 

  615. 					control_queued = true;

  616. 					return;

  617. 				case 10:

  618. 					println("PL2303: writeRegister(2, 44)");

  619. 					mk_setup(setup, 0x40, 1, 2, 0x44, 0); // 

  620. 					queue_Control_Transfer(device, &setup, NULL, this);

  621. 					setup_state = 11; 

  622. 					control_queued = true;

  623. 					return;

  624. 				case 11:

  625. 					println("PL2303: writeRegister(8, 0)");

  626. 					mk_setup(setup, 0x40, 1, 8, 0, 0); // 

  627. 					queue_Control_Transfer(device, &setup, NULL, this);

  628. 					setup_state = 12; 

  629. 					control_queued = true;

  630. 					return;

  631. 				case 12:

  632. 					println("PL2303: writeRegister(9, 0)");

  633. 					mk_setup(setup, 0x40, 1, 9, 0, 0); // 

  634. 					queue_Control_Transfer(device, &setup, NULL, this);

  635. 					setup_state = 13; 

  636. 					control_queued = true;

  637. 					return;

  638. 				case 13:

  639. 					println("PL2303: Read current Baud/control");

  640. 					mk_setup(setup, 0xA1, 0x21, 0, 0, 7);

  641. 					queue_Control_Transfer(device, &setup, setupdata, this);

  642. 					control_queued = true;

  643. 					break;

  644. 			}

  645. 			pending_control &= ~1;  // We are finally going to leave this list and join the rest

  646. 			if (control_queued) return;

  647. 		}

  648. 

  649. 		// set baud rate

  650. 		if (pending_control & 2) {

  651. 			pending_control &= ~2;

  652. 			// See what the read returned earlier

  653. 			print("PL2303: Returned configuration data: ");

  654. 			print_hexbytes(setupdata, 7);

  655. 

  656. 			// Should probably use data structure, but that may depend on byte ordering...

  657. 			setupdata[0] = (baudrate) & 0xff;  // Setup baud rate 115200 - 0x1C200

  658. 			setupdata[1] = (baudrate >> 8) & 0xff;

  659. 			setupdata[2] = (baudrate >> 16) & 0xff;

  660. 			setupdata[3] = (baudrate >> 24) & 0xff;

  661. 	        setupdata[4] = (format_ & 0x100)? 2 : 0; 	// 0 - 1 stop bit, 1 - 1.5 stop bits, 2 - 2 stop bits

  662. 	        setupdata[5] = (format_ & 0xe0) >> 5; 		// 0 - None, 1 - Odd, 2 - Even, 3 - Mark, 4 - Space

  663. 	        setupdata[6] = format_ & 0x1f;				// Data bits (5, 6, 7, 8 or 16)

  664. 	        print("PL2303: Set baud/control: ", baudrate, HEX);

  665. 	        print(" = ");

  666. 	        print_hexbytes(&setupdata, 7);

  667. 			mk_setup(setup, 0x21, 0x20, 0, 0, 7);

  668. 			queue_Control_Transfer(device, &setup, setupdata, this);

  669. 			control_queued = true;

  670. 			return;

  671. 		}

  672. 		if (pending_control & 4) {

  673. 			pending_control &= ~4;

  674. 			println("PL2303: writeRegister(0, 0)");

  675. 			mk_setup(setup, 0x40, 1, 0, 0, 0); // 

  676. 			queue_Control_Transfer(device, &setup, NULL, this);

  677. 			control_queued = true;

  678. 			return; 

  679. 		}

  680. 		if (pending_control & 8) {

  681. 			pending_control &= ~8;

  682. 			println("PL2303: Read current Baud/control");

  683. 			memset(setupdata, 0, sizeof(setupdata));	// clear it to see if we read it...

  684. 			mk_setup(setup, 0xA1, 0x21, 0, 0, 7);

  685. 			queue_Control_Transfer(device, &setup, setupdata, this);

  686. 			control_queued = true;

  687. 		}

  688. 		if (pending_control & 0x10) {

  689. 			pending_control &= ~0x10;

  690. 			print("PL2303: Returned configuration data: ");

  691. 			print_hexbytes(setupdata, 7);

  692. 

  693. 			// This sets the control lines (0x1=DTR, 0x2=RTS)

  694. 			println("PL2303: 0x21, 0x22, 0x3");

  695. 			mk_setup(setup, 0x21, 0x22, 3, 0, 0); // 

  696. 			queue_Control_Transfer(device, &setup, NULL, this);

  697. 			control_queued = true;

  698. 			return;

  699. 		}

  700. 		if (pending_control & 0x20) {

  701. 			pending_control &= ~0x20;

  702. 			println("PL2303: 0x21, 0x22, 0x3");

  703. 			mk_setup(setup, 0x21, 0x22, 3, 0, 0); // 

  704. 			queue_Control_Transfer(device, &setup, NULL, this);

  705. 			control_queued = true;

  706. 		}

  707. 		if (pending_control & 0x80) {

  708. 			pending_control &= ~0x80;

  709. 			println("PL2303: 0x21, 0x22, 0x0");  // Clear DTR/RTS

  710. 			mk_setup(setup, 0x21, 0x22, 0, 0, 0); // 

  711. 			queue_Control_Transfer(device, &setup, NULL, this);

  712. 			control_queued = true;

  713. 		}

  714. 	}

  715. 

  716. 	if (sertype == CH341) {

  717. #if 0

  718. 		print("  Transfer: ");

  719. 		print_hexbytes(&transfer->setup, sizeof(setup_t));

  720. 		if (transfer->length) {

  721. 			print("  data: ");

  722. 			print_hexbytes(transfer->buffer, transfer->length);

  723. 		}

  724. #endif

  725. 		if (pending_control & 1) {

  726. 			// Still in larger setup state mode

  727. 			switch (setup_state) {

  728. 				case 1:

  729. 					print("  Returned: ");

  730. 					print_hexbytes(transfer->buffer, transfer->length);

  731. 					println("CH341: 40, a1, 0, 0, 0");

  732. 					mk_setup(setup, 0x40, 0xa1, 0, 0, 0); // 

  733. 					queue_Control_Transfer(device, &setup, NULL, this);

  734. 					setup_state = 2; 

  735. 					control_queued = true;

  736. 					return;

  737. 				case 2:

  738. 					ch341_setBaud(0);	// send the first byte of the baud rate

  739. 					control_queued = true;

  740. 					setup_state = 3;

  741. 					return;

  742. 				case 3:

  743. 					ch341_setBaud(1);	// send the second byte of the baud rate

  744. 					control_queued = true;

  745. 					setup_state = 4;

  746. 					return;

  747. 				case 4:

  748. 					println("CH341: c0, 95, 2518, 0, 8");

  749. 					mk_setup(setup, 0xc0, 0x95, 0x2518, 0, sizeof(setup)); // 

  750. 					queue_Control_Transfer(device, &setup, setupdata, this);

  751. 					setup_state = 5; 

  752. 					control_queued = true;

  753. 					return;

  754. 				case 5:

  755. 					print("  Returned: ");

  756. 					print_hexbytes(transfer->buffer, transfer->length);

  757. 					println("CH341: 40, 0x9a, 0x2518, 0x0050, 0");

  758. 					mk_setup(setup, 0x40, 0x9a, 0x2518, 0x0050, 0); // 

  759. 					queue_Control_Transfer(device, &setup, NULL, this);

  760. 					setup_state = 6; 

  761. 					control_queued = true;

  762. 					return;

  763. 				case 6:

  764. 					println("CH341: c0, 95, 0x706, 0, 8 - get status");

  765. 					mk_setup(setup, 0xc0, 0x95, 0x706, 0, sizeof(setup)); // 

  766. 					queue_Control_Transfer(device, &setup, setupdata, this);

  767. 					setup_state = 7; 

  768. 					control_queued = true;

  769. 					return;

  770. 				case 7:

  771. 					print("  Returned: ");

  772. 					print_hexbytes(transfer->buffer, transfer->length);

  773. 					println("CH341: 40, 0xa1, 0x501f, 0xd90a, 0");

  774. 					mk_setup(setup, 0x40, 0xa1, 0x501f, 0xd90a, 0); // 

  775. 					queue_Control_Transfer(device, &setup, NULL, this);

  776. 					setup_state = 8; 

  777. 					control_queued = true;

  778. 					break;

  779. 			}

  780. 			pending_control &= ~1;  // We are finally going to leave this list and join the rest

  781. 			if (control_queued) return;

  782. 		}

  783. 		// set baud rate

  784. 		if (pending_control & 2) {

  785. 			pending_control &= ~2;

  786. 			ch341_setBaud(0);	// send the first byte of the baud rate

  787. 			control_queued = true;

  788. 			return;

  789. 		}

  790. 		if (pending_control & 4) {

  791. 			pending_control &= ~4;

  792. 			ch341_setBaud(1);	// send the first byte of the baud rate

  793. 			control_queued = true;

  794. 			return;

  795. 		}

  796. 

  797. 		if (pending_control & 8) {

  798. 			pending_control &= ~8;

  799. 			uint16_t ch341_format;

  800. 			switch (format_) {

  801. 				default:

  802. 				// These values were observed when used on PC... Need to flush out others. 

  803. 				case USBHOST_SERIAL_8N1: ch341_format = 0xc3; break;

  804. 				case USBHOST_SERIAL_7E1: ch341_format = 0xda; break;

  805. 				case USBHOST_SERIAL_7O1: ch341_format = 0xca; break;

  806. 				case USBHOST_SERIAL_8N2: ch341_format = 0xc7; break;

  807. 			}

  808. 			println("CH341: 40, 0x9a, 0x2518: ", ch341_format, HEX);

  809. 			mk_setup(setup, 0x40, 0x9a, 0x2518, ch341_format, 0); // 

  810. 			queue_Control_Transfer(device, &setup, NULL, this);

  811. 			control_queued = true;

  812. 			return;

  813. 		}

  814. 		if (pending_control & 0x10) {

  815. 			pending_control &= ~0x10;

  816. 			// This is setting handshake need to figure out what...

  817. 			// 0x20=DTR, 0x40=RTS send ~ of values. 

  818. 			println("CH341: 0x40, 0xa4, 0xff9f, 0, 0 - Handshake");

  819. 			mk_setup(setup, 0x40, 0xa4, 0xff9f, 0, 0); // 

  820. 			queue_Control_Transfer(device, &setup, NULL, this);

  821. 			control_queued = true;

  822. 			return;

  823. 		}

  824. 		if (pending_control & 0x20) {

  825. 			pending_control &= ~0x20;

  826. 			// This is setting handshake need to figure out what...

  827. 			println("CH341: c0, 95, 0x706, 0, 8 - get status");

  828. 			mk_setup(setup, 0xc0, 0x95, 0x706, 0, sizeof(setup)); // 

  829. 			queue_Control_Transfer(device, &setup, setupdata, this);

  830. 			control_queued = true;

  831. 			return;

  832. 		}

  833. 		if (pending_control & 0x40) {

  834. 			pending_control &= ~0x40;

  835. 			print("  Returned: ");

  836. 			print_hexbytes(transfer->buffer, transfer->length);

  837. 			println("CH341: 0x40, 0x9a, 0x2727, 0, 0");

  838. 			mk_setup(setup, 0x40, 0x9a, 0x2727, 0, 0); // 

  839. 			queue_Control_Transfer(device, &setup, NULL, this);

  840. 

  841. 			return;

  842. 		}

  843. 

  844. 		if (pending_control & 0x80) {

  845. 			pending_control &= ~0x80;

  846. 			println("CH341: 0x40, 0xa4, 0xffff, 0, 0 - Handshake");

  847. 			mk_setup(setup, 0x40, 0xa4, 0xffff, 0, 0); // 

  848. 			queue_Control_Transfer(device, &setup, NULL, this);

  849. 			control_queued = true;

  850. 			return;

  851. 		}

  852. 	}

  853. 	//-------------------------------------------------------------------------

  854. 	// First CP210X

  855. 	if (sertype == CP210X) {

  856. 		if (pending_control & 1) {

  857. 			pending_control &= ~1;

  858. 			// set data format

  859. 			uint16_t cp210x_format = (format_ & 0xf) << 8;	// This should give us the number of bits.

  860. 

  861. 			// now lets extract the parity from our encoding bits 5-7 and in theres 4-7

  862. 			cp210x_format |= (format_ & 0xe0) >> 1;	// they encode bits 9-11

  863. 

  864. 			// See if two stop bits

  865. 			if (format_ & 0x100) cp210x_format |= 2;

  866. 

  867. 			mk_setup(setup, 0x41, 3, cp210x_format, 0, 0); // data format 8N1

  868. 			println("CP210x setup, 0x41, 3, cp210x_format ",cp210x_format, HEX);

  869. 			queue_Control_Transfer(device, &setup, NULL, this);

  870. 			control_queued = true;

  871. 			return;

  872. 		}

  873. 		// set baud rate

  874. 		if (pending_control & 2) {

  875. 			pending_control &= ~2;

  876. 			setupdata[0] = (baudrate) & 0xff;  // Setup baud rate 115200 - 0x1C200

  877. 			setupdata[1] = (baudrate >> 8) & 0xff;

  878. 			setupdata[2] = (baudrate >> 16) & 0xff;

  879. 			setupdata[3] = (baudrate >> 24) & 0xff;

  880. 			mk_setup(setup, 0x40, 0x1e, 0, 0, 4);

  881. 			println("CP210x Set Baud  0x40, 0x1e");

  882. 			queue_Control_Transfer(device, &setup, setupdata, this);

  883. 			control_queued = true;

  884. 			return;

  885. 		}

  886. 		// Appears to be an enable command

  887. 		if (pending_control & 4) {

  888. 			pending_control &= ~4;

  889. 			memset(setupdata, 0, sizeof(setupdata));	// clear out the data

  890. 			println("CP210x 0x41, 0, 1");

  891. 			mk_setup(setup, 0x41, 0, 1, 0, 0);

  892. 			queue_Control_Transfer(device, &setup, NULL, this);

  893. 			control_queued = true; 

  894. 			return;

  895. 		}

  896. 

  897. 		// MHS_REQUEST

  898. 		if (pending_control & 8) {

  899. 			pending_control &= ~0x88;

  900. 			mk_setup(setup, 0x41, 7, 0x0303, 0, 0);

  901. 			queue_Control_Transfer(device, &setup, NULL, this);

  902. 			control_queued = true;

  903. 			println("CP210x 0x41, 7, 0x0303");

  904. 			return;

  905. 		}

  906. 	}

  907. }

  908. 

  909. #define CH341_BAUDBASE_FACTOR 1532620800

  910. #define CH341_BAUDBASE_DIVMAX 3

  911. void USBSerialBase::ch341_setBaud(uint8_t byte_index) {

  912. 	if (byte_index == 0) {

  913. 		uint32_t factor;

  914. 		uint16_t divisor;

  915. 

  916. 		factor = (CH341_BAUDBASE_FACTOR / baudrate);

  917. 		divisor = CH341_BAUDBASE_DIVMAX;

  918. 

  919. 		while ((factor > 0xfff0) && divisor) {

  920. 			factor >>= 3;

  921. 			divisor--;

  922. 		}

  923. 

  924. 		factor = 0x10000 - factor;

  925. 

  926. 		factor = (factor & 0xff00) | divisor;

  927. 		setupdata[0] = factor & 0xff;  // save away the low byte for 2nd message

  928. 

  929. 

  930. 		println("CH341: 40, 0x9a, 0x1312... (Baud word 0):", factor, HEX);

  931. 		mk_setup(setup, 0x40, 0x9a, 0x1312, factor, 0); // 

  932. 	} else {

  933. 		// Second packet use the byte we saved away during the calculation above

  934. 		println("CH341: 40, 0x9a, 0x0f2c... (Baud word 1):", setupdata[0], HEX);

  935. 		mk_setup(setup, 0x40, 0x9a, 0x0f2c, setupdata[0], 0); // 

  936. 	}

  937. 	queue_Control_Transfer(device, &setup, setupdata, this);

  938. 	control_queued = true;

  939. }

  940. 

  941. 

  942. /************************************************************/

  943. //  Interrupt-based Data Movement

  944. /************************************************************/

  945. 

  946. void USBSerialBase::rx_callback(const Transfer_t *transfer)

  947. {

  948. 	if (!transfer->driver) return;

  949. 	((USBSerial *)(transfer->driver))->rx_data(transfer);

  950. }

  951. 

  952. void USBSerialBase::tx_callback(const Transfer_t *transfer)

  953. {

  954. 	if (!transfer->driver) return;

  955. 	((USBSerial *)(transfer->driver))->tx_data(transfer);

  956. }

  957. 

  958. 

  959. void USBSerialBase::rx_data(const Transfer_t *transfer)

  960. {

  961. 	uint32_t len = transfer->length - ((transfer->qtd.token >> 16) & 0x7FFF);

  962. 

  963. 	debugDigitalToggle(6);

  964. 	// first update rxstate bitmask, since buffer is no longer queued

  965. 	if (transfer->buffer == rx1) {

  966. 		rxstate &= 0xFE;

  967. 	} else if (transfer->buffer == rx2) {

  968. 		rxstate &= 0xFD;

  969. 	}

  970. 	// get start of data and actual length

  971. 	const uint8_t *p = (const uint8_t *)transfer->buffer;

  972. 	if (sertype == FTDI) {

  973. 		if (len >= 2) {

  974. 			p += 2;

  975. 			len -= 2;

  976. 		} else {

  977. 			len = 0;

  978. 		}

  979. 	}

  980. 	if (len > 0) {

  981. 		print("rx token: ", transfer->qtd.token, HEX);

  982. 		print(" transfer length: ", transfer->length, DEC);

  983. 		print(" len:", len, DEC);

  984. 		print(" - ", *p, HEX);

  985. 		println(" ", *(p+1), HEX);

  986. 		print("rx: ");

  987. 		print_hexbytes(p, len);

  988. 	}

  989. 	// Copy data from packet buffer to circular buffer.

  990. 	// Assume the buffer will always have space, since we

  991. 	// check before queuing the buffers

  992. 	uint32_t head = rxhead;

  993. 	uint32_t tail = rxtail;

  994. 	if (++head >= rxsize) head = 0;

  995. 	uint32_t avail;

  996. 	if (len > 0) {

  997. 		//print("head=", head);

  998. 		//print(", tail=", tail);

  999. 		avail = rxsize - head;

  1000. 		//print(", avail=", avail);

  1001. 		//println(", rxsize=", rxsize);

  1002. 		if (avail > len) avail = len;

  1003. 		memcpy(rxbuf + head, p, avail);

  1004. 		if (len <= avail) {

  1005. 			head += avail - 1;

  1006. 			if (head >= rxsize) head = 0;

  1007. 		} else {

  1008. 			head = len - avail - 1;

  1009. 			memcpy(rxbuf, p + avail, head + 1);

  1010. 		}

  1011. 		rxhead = head;

  1012. 	}

  1013. 	// TODO: can be this more efficient?  We know from above which

  1014. 	// buffer is no longer queued, so possible skip most of this work?

  1015. 	rx_queue_packets(head, tail);

  1016. }

  1017. 

  1018. // re-queue packet buffer(s) if possible

  1019. void USBSerialBase::rx_queue_packets(uint32_t head, uint32_t tail)

  1020. {

  1021. 	uint32_t avail;

  1022. 	if (head >= tail) {

  1023. 		avail = rxsize - 1 - head + tail;

  1024. 	} else {

  1025. 		avail = tail - head - 1;

  1026. 	}

  1027. 	uint32_t packetsize = rx2 - rx1;

  1028. 	if (avail >= packetsize) {

  1029. 		if ((rxstate & 0x01) == 0) {

  1030. 			queue_Data_Transfer(rxpipe, rx1, packetsize, this);

  1031. 			rxstate |= 0x01;

  1032. 		} else if ((rxstate & 0x02) == 0) {

  1033. 			queue_Data_Transfer(rxpipe, rx2, packetsize, this);

  1034. 			rxstate |= 0x02;

  1035. 		}

  1036. 		if ((rxstate & 0x03) != 0x03 && avail >= packetsize * 2) {

  1037. 			if ((rxstate & 0x01) == 0) {

  1038. 				queue_Data_Transfer(rxpipe, rx1, packetsize, this);

  1039. 				rxstate |= 0x01;

  1040. 			} else if ((rxstate & 0x02) == 0) {

  1041. 				queue_Data_Transfer(rxpipe, rx2, packetsize, this);

  1042. 				rxstate |= 0x02;

  1043. 			}

  1044. 		}

  1045. 	}

  1046. }

  1047. 

  1048. void USBSerialBase::tx_data(const Transfer_t *transfer)

  1049. {

  1050. 	uint32_t mask;

  1051. 	uint8_t *p = (uint8_t *)transfer->buffer;

  1052. 	debugDigitalWrite(5, HIGH);

  1053. 	if (p == tx1) {

  1054. 		println("tx1:");

  1055. 		mask = 1;

  1056. 		//txstate &= 0xFE;

  1057. 	} else if (p == tx2) {

  1058. 		println("tx2:");

  1059. 		mask = 2;

  1060. 		//txstate &= 0xFD;

  1061. 	} else {

  1062. 		debugDigitalWrite(5, LOW);

  1063. 		return; // should never happen

  1064. 	}

  1065. 	// check how much more data remains in the transmit buffer

  1066. 	uint32_t head = txhead;

  1067. 	uint32_t tail = txtail;

  1068. 	uint32_t count;

  1069. 	if (head >= tail) {

  1070. 		count = head - tail;

  1071. 	} else {

  1072. 		count = txsize + head - tail;

  1073. 	}

  1074. 	uint32_t packetsize = tx2 - tx1;

  1075. 	// Only output full packets unless the flush bit was set.

  1076. 	if ((count == 0) || ((count < packetsize) && ((txstate & 0x4) == 0) )) {

  1077. 		// not enough data in buffer to fill a full packet

  1078. 		txstate &= ~(mask | 4);	// turn off that transfer and make sure the flush bit is not set

  1079. 		debugDigitalWrite(5, LOW);

  1080. 		return;

  1081. 	}

  1082. 	// immediately transmit another full packet, if we have enough data

  1083. 	if (count >= packetsize) count = packetsize;

  1084. 	else txstate &= ~(mask | 4); // This packet will complete any outstanding flush

  1085. 

  1086. 	println("TX:moar data!!!!");

  1087. 	if (++tail >= txsize) tail = 0;

  1088. 	uint32_t n = txsize - tail;

  1089. 	if (n > count) n = count;

  1090. 	memcpy(p, txbuf + tail, n);

  1091. 	if (n >= count) {

  1092. 		tail += n - 1;

  1093. 		if (tail >= txsize) tail = 0;

  1094. 	} else {

  1095. 		uint32_t len = count - n;

  1096. 		memcpy(p + n, txbuf, len);

  1097. 		tail = len - 1;

  1098. 	}

  1099. 	txtail = tail;

  1100. 	queue_Data_Transfer(txpipe, p, count, this);

  1101. 	debugDigitalWrite(5, LOW);

  1102. }

  1103. 

  1104. void USBSerialBase::flush()

  1105. {

  1106. 	print("USBSerialBase::flush");

  1107.  	if (txhead == txtail) {

  1108.  		println(" - Empty");

  1109.  		return;  // empty.

  1110.  	}

  1111.  	debugDigitalWrite(32, HIGH);

  1112. 	NVIC_DISABLE_IRQ(IRQ_USBHS);

  1113. 	txtimer.stop();  		// Stop longer timer.

  1114. 	txtimer.start(100);		// Start a mimimal timeout

  1115. //	timer_event(nullptr);   // Try calling direct - fails to work 

  1116. 	NVIC_ENABLE_IRQ(IRQ_USBHS);

  1117. 	while (txstate & 3) ; // wait for all of the USB packets to be sent. 

  1118. 	println(" completed");

  1119.  	debugDigitalWrite(32, LOW);

  1120. }

  1121. 

  1122. 

  1123. 

  1124. void USBSerialBase::timer_event(USBDriverTimer *whichTimer)

  1125. {

  1126. 	debugDigitalWrite(7, HIGH);

  1127. 	println("txtimer");

  1128. 	uint32_t count;

  1129. 	uint32_t head = txhead;

  1130. 	uint32_t tail = txtail;

  1131. 	if (head == tail) {

  1132. 		println("  *** Empty ***");

  1133. 		debugDigitalWrite(7, LOW);

  1134. 		return; // nothing to transmit

  1135. 	} else if (head > tail) {

  1136. 		count = head - tail;

  1137. 	} else {

  1138. 		count = txsize + head - tail;

  1139. 	}

  1140. 

  1141. 	uint8_t *p;

  1142. 	if ((txstate & 0x01) == 0) {

  1143. 		p = tx1;

  1144. 		txstate |= 0x01;

  1145. 	} else if ((txstate & 0x02) == 0) {

  1146. 		p = tx2;

  1147. 		txstate |= 0x02;

  1148. 	} else {

  1149. 		txstate |= 4; 	// Tell the TX code to do flush code. 

  1150. 		println(" *** No buffers ***");

  1151. 		debugDigitalWrite(7, LOW);

  1152. 		return; // no outgoing buffers available, try again later

  1153. 	}

  1154. 

  1155. 	uint32_t packetsize = tx2 - tx1;

  1156. 

  1157. 	// Possible for remaining ? packet size and not have both? 

  1158. 	if (count > packetsize) {

  1159. 		txstate |= 4;	// One of the active transfers will handle the remaining parts

  1160. 		count = packetsize;

  1161. 	}

  1162. 

  1163. 	if (++tail >= txsize) tail = 0;

  1164. 	uint32_t n = txsize - tail;

  1165. 	if (n > count) n = count;

  1166. 	memcpy(p, txbuf + tail, n);

  1167. 	if (n >= count) {

  1168. 		tail += n - 1;

  1169. 		if (tail >= txsize) tail = 0;

  1170. 	} else {

  1171. 		uint32_t len = count - n;

  1172. 		memcpy(p + n, txbuf, len);

  1173. 		tail = len - 1;

  1174. 	}

  1175. 	txtail = tail;

  1176. 	print("  TX data (", count);

  1177. 	print(") ");

  1178. 	print_hexbytes(p, count);

  1179. 	queue_Data_Transfer(txpipe, p, count, this);

  1180. 	debugDigitalWrite(7, LOW);

  1181. }

  1182. 

  1183. 

  1184. 

  1185. /************************************************************/

  1186. //  User Functions - must disable USBHQ IRQ for EHCI access

  1187. /************************************************************/

  1188. 

  1189. void USBSerialBase::begin(uint32_t baud, uint32_t format)

  1190. {

  1191. 	NVIC_DISABLE_IRQ(IRQ_USBHS);

  1192. 	baudrate = baud;

  1193. 	bool format_changed = format != format_;

  1194. 	format_ = format; 

  1195. 	switch (sertype) {

  1196. 		default:

  1197. 		case CDCACM: pending_control |= 0x6; break;

  1198. 		case FTDI: pending_control |= (format_changed? 0xf : 0xe); break;	// Set BAUD, FLOW, DTR

  1199. 		case PL2303: pending_control |= 0x1e; break;  // set more stuff...

  1200. 		case CH341: pending_control |= 0x1e; break;

  1201. 		case CP210X: pending_control |= 0xf; break;

  1202. 	}

  1203. 	if (!control_queued) control(NULL);

  1204. 	NVIC_ENABLE_IRQ(IRQ_USBHS);

  1205. 	// Wait until all packets have been queued before we return to caller. 

  1206. 	while (pending_control) {

  1207. 		yield();	// not sure if we want to yield or what? 

  1208. 	}

  1209. }

  1210. 

  1211. void USBSerialBase::end(void)

  1212. {

  1213. 	NVIC_DISABLE_IRQ(IRQ_USBHS);

  1214. 	switch (sertype) {

  1215. 		default:

  1216. 		case CDCACM: pending_control |= 0x80; break;

  1217. 		case FTDI: pending_control |= 0x80; break;	// clear DTR

  1218. 		case PL2303: pending_control |= 0x80; break;

  1219. 		case CH341: pending_control |= 0x80; break;

  1220. 	}

  1221. 	if (!control_queued) control(NULL);

  1222. 	NVIC_ENABLE_IRQ(IRQ_USBHS);

  1223. 

  1224. 	// Wait until all packets have been queued before we return to caller. 

  1225. 	while (pending_control) {

  1226. 		yield();	// not sure if we want to yield or what? 

  1227. 	}

  1228. }

  1229. 

  1230. int USBSerialBase::available(void)

  1231. {

  1232. 	if (!device) return 0;

  1233. 	uint32_t head = rxhead;

  1234. 	uint32_t tail = rxtail;

  1235. 	if (head >= tail) return head - tail;

  1236. 	return rxsize + head - tail;

  1237. }

  1238. 

  1239. int USBSerialBase::peek(void)

  1240. {

  1241. 	if (!device) return -1;

  1242. 	if (rxhead == rxtail) return -1;

  1243. 	return rxbuf[rxtail];

  1244. }

  1245. 

  1246. int USBSerialBase::read(void)

  1247. {

  1248. 	if (!device) return -1;

  1249. 	if (rxhead == rxtail) return -1;

  1250. 	int c = rxbuf[rxtail];

  1251. 	if (++rxtail >= rxsize) rxtail = 0;

  1252. 	if ((rxstate & 0x03) != 0x03) {

  1253. 		NVIC_DISABLE_IRQ(IRQ_USBHS);

  1254. 		rx_queue_packets(rxhead, rxtail);

  1255. 		NVIC_ENABLE_IRQ(IRQ_USBHS);

  1256. 	}

  1257. 	return c;

  1258. }

  1259. 

  1260. int USBSerialBase::availableForWrite()

  1261. {

  1262. 	if (!device) return 0;

  1263. 	uint32_t head = txhead;

  1264. 	uint32_t tail = txtail;

  1265. 	if (head >= tail) return txsize - 1 - head + tail;

  1266. 	return tail - head - 1;

  1267. }

  1268. 

  1269. size_t USBSerialBase::write(uint8_t c)

  1270. {

  1271. 	if (!device) return 0;

  1272. 	uint32_t head = txhead;

  1273. 	if (++head >= txsize) head = 0;

  1274. 	while (txtail == head) {

  1275. 		// wait...

  1276. 	}

  1277. 	txbuf[head] = c;

  1278. 	txhead = head;

  1279. 	//print("head=", head);

  1280. 	//println(", tail=", txtail);

  1281. 

  1282. 	// if full packet in buffer and tx packet ready, queue it

  1283. 	NVIC_DISABLE_IRQ(IRQ_USBHS);

  1284. 	uint32_t tail = txtail;

  1285. 	if ((txstate & 0x03) != 0x03) {

  1286. 		// at least one packet buffer is ready to transmit

  1287. 		uint32_t count;

  1288. 		if (head >= tail) {

  1289. 			count = head - tail;

  1290. 		} else {

  1291. 			count = txsize + head - tail;

  1292. 		}

  1293. 		uint32_t packetsize = tx2 - tx1;

  1294. 		if (count >= packetsize) {

  1295. 			//println("txsize=", txsize);

  1296. 			uint8_t *p;

  1297. 			if ((txstate & 0x01) == 0) {

  1298. 				p = tx1;

  1299. 				txstate |= 0x01;

  1300. 			} else /* if ((txstate & 0x02) == 0) */ {

  1301. 				p = tx2;

  1302. 				txstate |= 0x02;

  1303. 			}

  1304. 			// copy data to packet buffer

  1305. 			if (++tail >= txsize) tail = 0;

  1306. 			uint32_t n = txsize - tail;

  1307. 			if (n > packetsize) n = packetsize;

  1308. 			//print("memcpy, offset=", tail);

  1309. 			//println(", len=", n);

  1310. 			memcpy(p, txbuf + tail, n);

  1311. 			if (n >= packetsize) {

  1312. 				tail += n - 1;

  1313. 				if (tail >= txsize) tail = 0;

  1314. 			} else {

  1315. 				//n = txsize - n;

  1316. 				uint32_t len = packetsize - n;

  1317. 				//println("memcpy, offset=0, len=", len);

  1318. 				memcpy(p + n, txbuf, len);

  1319. 				tail = len - 1;

  1320. 			}

  1321. 			txtail = tail;

  1322. 			//println("queue tx packet, newtail=", tail);

  1323. 			debugDigitalWrite(7, HIGH);

  1324. 			queue_Data_Transfer(txpipe, p, packetsize, this);

  1325. 			debugDigitalWrite(7, LOW);

  1326. 			NVIC_ENABLE_IRQ(IRQ_USBHS);

  1327. 			return 1;

  1328. 		}

  1329. 	}

  1330. 	// otherwise, set a latency timer to later transmit partial packet

  1331. 	txtimer.stop();

  1332. 	txtimer.start(write_timeout_);

  1333. 	NVIC_ENABLE_IRQ(IRQ_USBHS);

  1334. 	return 1;

  1335. }

  1336. 

  1337. 

  1338.