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JTAG

JTAG allows to perform a boundary scan. The boundary scan analyzes certain circuitry, including embedded boundary-scan cells and registers for each pin.

The JTAG standard defines specific commands for conducting boundary scans, including the following:

  • BYPASS allows you to test a specific chip without the overhead of passing through other chips.
  • SAMPLE/PRELOAD takes a sample of the data entering and leaving the device when its in its normal functioning mode.
  • EXTEST sets and reads pin states.

It can also support other commands such as:

  • IDCODE for identifying a device
  • INTEST for the internal testing of the device

You might come across these instructions when you use a tool like the JTAGulator.

The Test Access Port

Boundary scans include tests of the four-wire Test Access Port (TAP), a general-purpose port that provides access to the JTAG test support functions built into a component. TAP uses the following five signals:

  • Test clock input (TCK) The TCK is the clock that defines how often the TAP controller will take a single action (in other words, jump to the next state in the state machine).
  • Test mode select (TMS) input TMS controls the finite state machine. On each beat of the clock, the devices JTAG TAP controller checks the voltage on the TMS pin. If the voltage is below a certain threshold, the signal is considered low and interpreted as 0, whereas if the voltage is above a certain threshold, the signal is considered high and interpreted as 1.
  • Test data input (TDI) TDI is the pin that sends data into the chip through the scan cells. Each vendor is responsible for defining the communication protocol over this pin, because JTAG doesnt define this.
  • Test data output (TDO) TDO is the pin that sends data out of the chip.
  • Test reset (TRST) input The optional TRST resets the finite state machine to a known good state. Alternatively, if the TMS is held at 1 for five consecutive clock cycles, it invokes a reset, the same way the TRST pin would, which is why TRST is optional.

Sometimes you will be able to find those pins marked in the PCB. In other occasions you might need to find them.

Identifying JTAG pins

The fastest but most expensive way to detect JTAG ports is by using the JTAGulator, a device created specifically for this purpose (although it can also detect UART pinouts).

It has 24 channels you can connect to the boards pins. Then it performs a BF attack of all the possible combinations sending IDCODE and BYPASS boundary scan commands. If it receives a response, it displays the channel corresponding to each JTAG signal

A cheaper but much slower way of identifying JTAG pinouts is by using the JTAGenum loaded on an Arduino-compatible microcontroller.

Using JTAGenum, youd first define the pins of the probing device that youll use for the enumeration.Youd have to reference the devices pinout diagram, and then connect these pins with the test points on your target device.

A third way to identify JTAG pins is by inspecting the PCB for one of the pinouts. In some cases, PCBs might conveniently provide the Tag-Connect interface, which is a clear indication that the board has a JTAG connector, too. You can see what that interface looks like at https://www.tag-connect.com/info/. Additionally, inspecting the datasheets of the chipsets on the PCB might reveal pinout diagrams that point to JTAG interfaces.

SDW

SWD is an ARM-specific protocol designed for debugging.

The SWD interface requires two pins: a bidirectional SWDIO signal, which is the equivalent of JTAGs TDI and TDO pins and a clock, and SWCLK, which is the equivalent of TCK in JTAG. Many devices support the Serial Wire or JTAG Debug Port (SWJ-DP), a combined JTAG and SWD interface that enables you to connect either a SWD or JTAG probe to the target.

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