60 lines
2.9 KiB
Markdown
60 lines
2.9 KiB
Markdown
# gdbstub Module
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| Since | Origin / Contributor | Maintainer | Source |
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| :----- | :-------------------- | :---------- | :------ |
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| 2016-09-18 | [Philip Gladstone](https://github.com/pjsg) | [Philip Gladstone](https://github.com/pjsg) | [gdbstub.c](../../../app/modules/gdbstub.c)|
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This module provides basic source code debugging of the firmware when used in conjunction with a version of gdb built for the lx106. If you
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enable this module, then fatal errors (like invalid memory reads) will trap into the gdbstub. This uses UART0 to talk to GDB. If
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this happens while the UART0 is connected to a terminal (or some IDE like esplorer) then you will see a string starting with `$T` and a few
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more characters after that. This is the signal that a trap has happened, and control should be passed to gdb.
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`GDB` can then be started at connected to the nodemcu platform. If this is connected to the host system via a serial port, then the following
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(or close variant) ought to work:
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```
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gdb bin/firmwarefile.bin
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target remote /dev/ttyUSB0
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```
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At this point, you can just poke around and see what happened, but you cannot continue execution.
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In order to do interactive debugging, add a call to `gdbstub.brk()` in your lua code. This will trigger a break instruction and
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will trap into gdb as above. However, continuation is supported from a break instruction and so you can single step, set breakpoints, etc.
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Note that the lx106 processor as configured by Espressif only supports a single hardware breakpoint -- so this means that you
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can only put a single breakpoint in flash code. You can single step as much as you like.
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## gdbstub.brk()
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Enters gdb by executing a `break 0,0` instruction.
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#### Syntax
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`gdbstub.brk()`
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## gdbstub.gdboutput()
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Controls whether system output is encapsulated in gdb remote debugging protocol. This turns out not to be as useful as you
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would hope -- mostly because you can't send input to the nodemcu board. Also because you really only should make this call
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*after* you get gdb running and connected to the nodemcu. The example below first does the break and then switches to
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redirect the output. This works (but you are unable to send any more console input).
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#### Syntax
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`gdbstub.gdboutput(enable)`
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#### Parameters
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- `enable` If true, then output is wrapped in gdb remote debugging protocol. If false, then it is sent straight to the Uart.
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#### Example
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function entergdb()
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gdbstub.brk()
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gdbstub.gdboutput(1)
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print("Active")
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end
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entergdb()
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#### Notes
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Once you attach gdb to the nodemcu, then any further output from the nodemcu will be discarded (as it does not
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match the gdb remote debugging protocol). This may (or may not) be a problem. If you want to run under gdb and see
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the output from the nodemcu, then call `gdbstub.gdboutput(1)` and then output will be wrapped in the gdb protocol and display
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on the gdb console. You don't want to do this until gdb is attached as each packet requires an explicit ack in order to continue.
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