MTB specifics
The ARM Micro Trace Buffer (MTB) is an on-chip trace buffer that allows to do post-mortem instruction trace via a regular J-Link with no need of a specific J-Trace unit. The MTB will use a specific amount of the on-chip RAM to store trace data while the core executes instructions. MTB is mainly used on smaller MCUs like Cortex-M0+/M23/M33 based ones.
Features
MTB is a stripped down version of trace that has the following features:
- Instruction backtrace
The following is NOT supported by MTB
- Streaming trace
- Complete code coverage
RAM usage
Most MTBs have a trace buffer between 2 KiB and 8 KiB.
By default, J-Link uses 512 bytes for MTB, starting at the MTB_BASE addr (device specific).
Note: The RAM assigned to the MTB must not be used by the application while MTB tracing is active
Configuration options provided by J-Link
Command strings for MTB configuration
The following J-Link command strings are available for MTB configuration:
| Command string | Min. J-Link software version | Description |
|---|---|---|
| CORESIGHT_SetMTBBaseAddr | V5.10m | Specifies where to find the MTB in the debug address space. Only needed in case the device provides incorrect CoreSight info (like the NXP LPC84x series) |
| CORESIGHT_SetMTBBufBaseAddr | V6.20g | Specifies the base address of the MTB buffer (RAM that may be used by MTB). This is only needed for devices where the MTB_BASE register returns an incorrect address. (E.g. on the NXP KL26Z series devices) |
| CORESIGHT_SetMTBBufUseAddr | V6.33i | Specifies where the MTB shall start using the RAM. This address may be greater than MTB_BASE but must be within the bound of MTB_BASE and MTB_BASE + MaxBufSize |
| CORESIGHT_SetMTBBufUsageSize | V6.33i | Specifies max. RAM usage for MTB (must be a power of 2). This must not exceed MaxBufSize |
Notes:
- For more information about how to use J-Link command strings, please refer to Using J-Link Command Strings
- All command strings from above may only be passed after a connection to the target has been established successfully
Example configurations
In the following, some example configurations for different MTB configurations are given. The examples assume that:
- J-Link can auto-discover the MTB component in the debug address space
- J-Link can detect the base address of the MTB buffer via MTB_BASE register
- J-Link can detect the max. RAM usage of MTB via the MTB_POINTER register
Target RAM = 0x20000000-0x20005FFF (24 KiB)
MTB_BASE = 0x20004000
MTB max. RAM usage = 0x2000
Valid configurations
- MTB use: 0x20004000 - 0x200041FF (Default. CORESIGHT_SetMTBBufUseAddr: 0x20004000, CORESIGHT_SetMTBBufUsageSize: 0x200)
- MTB use: 0x20004000 - 0x2000401F (CORESIGHT_SetMTBBufUseAddr: 0x20004000, CORESIGHT_SetMTBBufUsageSize: 0x10)
- MTB use: 0x20004100 - 0x2000417F (CORESIGHT_SetMTBBufUseAddr: 0x20004100, CORESIGHT_SetMTBBufUsageSize: 0x80)
Invalid configurations
- MTB use: 0x20004000 - 0x20004017 (UsageSize = 0x18 which is not a power of 2)
- MTB use: 0x20004010 - 0x2000402F (UsageSize = 0x20 which is O.K., but buffer start address is not aligned to usage size. Next possible start addresses for a UsageSize of 0x20: 0x20004000 and 0x20004020)
MTB internals
An MTB consists of the following registers / bit fields that allow configuration of the MTB and the amount of RAM it uses:
| Register / Bit field | Description |
|---|---|
| MTB_BASE | 32-bit read-only register that specifies the base address of the MTB buffer |
| MTB_POINTER | 32-bit R/W register that specifies the offset (rel. to BASE) where the next trace packet will be stored by the HW |
| MTB_MASTER.MASK | 5-bit R/W bitfield that specifies the wrap-around point for MTB buffer. |
MTB_MASTER.MASK bit field
Specifies the wrap-around (buffer size) for the MTB buffer to be used. Only power of 2 wrap-around options are supported. The actual value stored in HW is MASK - 4 because 16 bytes is the minimum buffer size anyhow.
C-like logic for this field is as follows:
Bit = (POINTER >> MASK) & 1;
v = POINTER + 8;
BitAfter = (POINTER >> MASK) & 1;
if (Bit == BitAfter) {
POINTER = v;
} else {
v = (1 << MASK) - 1; // Wrap-around
POINTER = ~v;
}
Initial:
BASE = 0x20000000
POINTER = 0x00000000
MASK = 8 => MSB[8] => 0x100
Trace session, POINTER change:
0x00
0x08
0x10
0x18
0x20
0x28
...
0xF0
0xF8 => increment to 0x100 not possible due to MASK. Therefore, POINTER wrapped around
0x00
0x08
Initial:
BASE = 0x20000000
POINTER = 0x00000F00
MASK = 8 => MSB[8] => 0x100
Trace session, POINTER change:
0xF00
0xF08
0xF10
0xF18
0xF20
0xF28
...
0xFF0
0xFF8 => increment to 0x1000 not possible due to MASK. Therefore, POINTER wrapped around
0xF00
0xF08
Default behavior of J-Link
- J-Link reads out MTB_BASE to determine the base addr. of the MTB buffer
- J-Link writes the POINTER register to find out the MTB buffer size
- J-Link sets the POINTER register to 0 to start using the MTB buffer at MTB_BASE
- J-Link sets the MTB_MASTER.MASK to 4 to provide a 512 byte wrap-around (setting the RAM usage to 512 bytes, starting at MTB_BASE)