forked from Minki/linux
b29d5c1f05
Signed-off-by: Mathieu Poirier <mathieu.poirier@linaro.org> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
300 lines
15 KiB
Plaintext
300 lines
15 KiB
Plaintext
Coresight - HW Assisted Tracing on ARM
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======================================
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Author: Mathieu Poirier <mathieu.poirier@linaro.org>
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Date: September 11th, 2014
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Introduction
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------------
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Coresight is an umbrella of technologies allowing for the debugging of ARM
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based SoC. It includes solutions for JTAG and HW assisted tracing. This
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document is concerned with the latter.
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HW assisted tracing is becoming increasingly useful when dealing with systems
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that have many SoCs and other components like GPU and DMA engines. ARM has
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developed a HW assisted tracing solution by means of different components, each
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being added to a design at synthesis time to cater to specific tracing needs.
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Compoments are generally categorised as source, link and sinks and are
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(usually) discovered using the AMBA bus.
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"Sources" generate a compressed stream representing the processor instruction
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path based on tracing scenarios as configured by users. From there the stream
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flows through the coresight system (via ATB bus) using links that are connecting
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the emanating source to a sink(s). Sinks serve as endpoints to the coresight
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implementation, either storing the compressed stream in a memory buffer or
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creating an interface to the outside world where data can be transferred to a
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host without fear of filling up the onboard coresight memory buffer.
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At typical coresight system would look like this:
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*****************************************************************
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**************************** AMBA AXI ****************************===||
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***************************************************************** ||
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^ ^ | ||
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0000000 ::::: 0000000 ::::: ::::: @@@@@@@ ||||||||||||
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0 CPU 0<-->: C : 0 CPU 0<-->: C : : C : @ STM @ || System ||
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|->0000000 : T : |->0000000 : T : : T :<--->@@@@@ || Memory ||
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| #######<-->: I : | #######<-->: I : : I : @@@<-| ||||||||||||
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| # ETM # ::::: | # PTM # ::::: ::::: @ |
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| ##### ^ ^ | ##### ^ ! ^ ! . | |||||||||
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| |->### | ! | |->### | ! | ! . | || DAP ||
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| | # | ! | | # | ! | ! . | |||||||||
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| | . | ! | | . | ! | ! . | | |
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| | . | ! | | . | ! | ! . | | *
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| | . | ! | | . | ! | ! . | | SWD/
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| | . | ! | | . | ! | ! . | | JTAG
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*****************************************************************<-|
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*************************** AMBA Debug APB ************************
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*****************************************************************
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| . ! . ! ! . |
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| . * . * * . |
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*****************************************************************
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******************** Cross Trigger Matrix (CTM) *******************
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*****************************************************************
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| . ^ . . |
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| * ! * * |
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*****************************************************************
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****************** AMBA Advanced Trace Bus (ATB) ******************
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*****************************************************************
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| ! =============== |
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| * ===== F =====<---------|
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| ::::::::: ==== U ====
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|-->:: CTI ::<!! === N ===
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| ::::::::: ! == N ==
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| ^ * == E ==
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| ! &&&&&&&&& IIIIIII == L ==
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|------>&& ETB &&<......II I =======
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| ! &&&&&&&&& II I .
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| ! I I .
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| ! I REP I<..........
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| ! I I
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| !!>&&&&&&&&& II I *Source: ARM ltd.
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|------>& TPIU &<......II I DAP = Debug Access Port
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&&&&&&&&& IIIIIII ETM = Embedded Trace Macrocell
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; PTM = Program Trace Macrocell
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; CTI = Cross Trigger Interface
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* ETB = Embedded Trace Buffer
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To trace port TPIU= Trace Port Interface Unit
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SWD = Serial Wire Debug
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While on target configuration of the components is done via the APB bus,
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all trace data are carried out-of-band on the ATB bus. The CTM provides
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a way to aggregate and distribute signals between CoreSight components.
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The coresight framework provides a central point to represent, configure and
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manage coresight devices on a platform. This first implementation centers on
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the basic tracing functionality, enabling components such ETM/PTM, funnel,
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replicator, TMC, TPIU and ETB. Future work will enable more
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intricate IP blocks such as STM and CTI.
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Acronyms and Classification
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---------------------------
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Acronyms:
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PTM: Program Trace Macrocell
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ETM: Embedded Trace Macrocell
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STM: System trace Macrocell
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ETB: Embedded Trace Buffer
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ITM: Instrumentation Trace Macrocell
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TPIU: Trace Port Interface Unit
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TMC-ETR: Trace Memory Controller, configured as Embedded Trace Router
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TMC-ETF: Trace Memory Controller, configured as Embedded Trace FIFO
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CTI: Cross Trigger Interface
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Classification:
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Source:
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ETMv3.x ETMv4, PTMv1.0, PTMv1.1, STM, STM500, ITM
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Link:
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Funnel, replicator (intelligent or not), TMC-ETR
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Sinks:
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ETBv1.0, ETB1.1, TPIU, TMC-ETF
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Misc:
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CTI
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Device Tree Bindings
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----------------------
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See Documentation/devicetree/bindings/arm/coresight.txt for details.
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As of this writing drivers for ITM, STMs and CTIs are not provided but are
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expected to be added as the solution matures.
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Framework and implementation
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----------------------------
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The coresight framework provides a central point to represent, configure and
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manage coresight devices on a platform. Any coresight compliant device can
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register with the framework for as long as they use the right APIs:
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struct coresight_device *coresight_register(struct coresight_desc *desc);
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void coresight_unregister(struct coresight_device *csdev);
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The registering function is taking a "struct coresight_device *csdev" and
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register the device with the core framework. The unregister function takes
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a reference to a "strut coresight_device", obtained at registration time.
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If everything goes well during the registration process the new devices will
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show up under /sys/bus/coresight/devices, as showns here for a TC2 platform:
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root:~# ls /sys/bus/coresight/devices/
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replicator 20030000.tpiu 2201c000.ptm 2203c000.etm 2203e000.etm
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20010000.etb 20040000.funnel 2201d000.ptm 2203d000.etm
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root:~#
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The functions take a "struct coresight_device", which looks like this:
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struct coresight_desc {
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enum coresight_dev_type type;
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struct coresight_dev_subtype subtype;
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const struct coresight_ops *ops;
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struct coresight_platform_data *pdata;
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struct device *dev;
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const struct attribute_group **groups;
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};
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The "coresight_dev_type" identifies what the device is, i.e, source link or
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sink while the "coresight_dev_subtype" will characterise that type further.
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The "struct coresight_ops" is mandatory and will tell the framework how to
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perform base operations related to the components, each component having
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a different set of requirement. For that "struct coresight_ops_sink",
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"struct coresight_ops_link" and "struct coresight_ops_source" have been
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provided.
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The next field, "struct coresight_platform_data *pdata" is acquired by calling
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"of_get_coresight_platform_data()", as part of the driver's _probe routine and
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"struct device *dev" gets the device reference embedded in the "amba_device":
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static int etm_probe(struct amba_device *adev, const struct amba_id *id)
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{
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...
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...
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drvdata->dev = &adev->dev;
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...
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}
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Specific class of device (source, link, or sink) have generic operations
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that can be performed on them (see "struct coresight_ops"). The
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"**groups" is a list of sysfs entries pertaining to operations
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specific to that component only. "Implementation defined" customisations are
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expected to be accessed and controlled using those entries.
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Last but not least, "struct module *owner" is expected to be set to reflect
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the information carried in "THIS_MODULE".
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How to use
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----------
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Before trace collection can start, a coresight sink needs to be identify.
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There is no limit on the amount of sinks (nor sources) that can be enabled at
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any given moment. As a generic operation, all device pertaining to the sink
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class will have an "active" entry in sysfs:
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root:/sys/bus/coresight/devices# ls
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replicator 20030000.tpiu 2201c000.ptm 2203c000.etm 2203e000.etm
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20010000.etb 20040000.funnel 2201d000.ptm 2203d000.etm
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root:/sys/bus/coresight/devices# ls 20010000.etb
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enable_sink status trigger_cntr
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root:/sys/bus/coresight/devices# echo 1 > 20010000.etb/enable_sink
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root:/sys/bus/coresight/devices# cat 20010000.etb/enable_sink
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1
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root:/sys/bus/coresight/devices#
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At boot time the current etm3x driver will configure the first address
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comparator with "_stext" and "_etext", essentially tracing any instruction
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that falls within that range. As such "enabling" a source will immediately
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trigger a trace capture:
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root:/sys/bus/coresight/devices# echo 1 > 2201c000.ptm/enable_source
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root:/sys/bus/coresight/devices# cat 2201c000.ptm/enable_source
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1
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root:/sys/bus/coresight/devices# cat 20010000.etb/status
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Depth: 0x2000
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Status: 0x1
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RAM read ptr: 0x0
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RAM wrt ptr: 0x19d3 <----- The write pointer is moving
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Trigger cnt: 0x0
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Control: 0x1
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Flush status: 0x0
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Flush ctrl: 0x2001
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root:/sys/bus/coresight/devices#
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Trace collection is stopped the same way:
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root:/sys/bus/coresight/devices# echo 0 > 2201c000.ptm/enable_source
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root:/sys/bus/coresight/devices#
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The content of the ETB buffer can be harvested directly from /dev:
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root:/sys/bus/coresight/devices# dd if=/dev/20010000.etb \
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of=~/cstrace.bin
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64+0 records in
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64+0 records out
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32768 bytes (33 kB) copied, 0.00125258 s, 26.2 MB/s
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root:/sys/bus/coresight/devices#
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The file cstrace.bin can be decompressed using "ptm2human", DS-5 or Trace32.
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Following is a DS-5 output of an experimental loop that increments a variable up
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to a certain value. The example is simple and yet provides a glimpse of the
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wealth of possibilities that coresight provides.
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Info Tracing enabled
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Instruction 106378866 0x8026B53C E52DE004 false PUSH {lr}
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Instruction 0 0x8026B540 E24DD00C false SUB sp,sp,#0xc
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Instruction 0 0x8026B544 E3A03000 false MOV r3,#0
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Instruction 0 0x8026B548 E58D3004 false STR r3,[sp,#4]
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Instruction 0 0x8026B54C E59D3004 false LDR r3,[sp,#4]
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Instruction 0 0x8026B550 E3530004 false CMP r3,#4
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Instruction 0 0x8026B554 E2833001 false ADD r3,r3,#1
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Instruction 0 0x8026B558 E58D3004 false STR r3,[sp,#4]
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Instruction 0 0x8026B55C DAFFFFFA true BLE {pc}-0x10 ; 0x8026b54c
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Timestamp Timestamp: 17106715833
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Instruction 319 0x8026B54C E59D3004 false LDR r3,[sp,#4]
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Instruction 0 0x8026B550 E3530004 false CMP r3,#4
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Instruction 0 0x8026B554 E2833001 false ADD r3,r3,#1
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Instruction 0 0x8026B558 E58D3004 false STR r3,[sp,#4]
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Instruction 0 0x8026B55C DAFFFFFA true BLE {pc}-0x10 ; 0x8026b54c
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Instruction 9 0x8026B54C E59D3004 false LDR r3,[sp,#4]
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Instruction 0 0x8026B550 E3530004 false CMP r3,#4
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Instruction 0 0x8026B554 E2833001 false ADD r3,r3,#1
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Instruction 0 0x8026B558 E58D3004 false STR r3,[sp,#4]
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Instruction 0 0x8026B55C DAFFFFFA true BLE {pc}-0x10 ; 0x8026b54c
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Instruction 7 0x8026B54C E59D3004 false LDR r3,[sp,#4]
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Instruction 0 0x8026B550 E3530004 false CMP r3,#4
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Instruction 0 0x8026B554 E2833001 false ADD r3,r3,#1
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Instruction 0 0x8026B558 E58D3004 false STR r3,[sp,#4]
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Instruction 0 0x8026B55C DAFFFFFA true BLE {pc}-0x10 ; 0x8026b54c
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Instruction 7 0x8026B54C E59D3004 false LDR r3,[sp,#4]
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Instruction 0 0x8026B550 E3530004 false CMP r3,#4
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Instruction 0 0x8026B554 E2833001 false ADD r3,r3,#1
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Instruction 0 0x8026B558 E58D3004 false STR r3,[sp,#4]
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Instruction 0 0x8026B55C DAFFFFFA true BLE {pc}-0x10 ; 0x8026b54c
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Instruction 10 0x8026B54C E59D3004 false LDR r3,[sp,#4]
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Instruction 0 0x8026B550 E3530004 false CMP r3,#4
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Instruction 0 0x8026B554 E2833001 false ADD r3,r3,#1
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Instruction 0 0x8026B558 E58D3004 false STR r3,[sp,#4]
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Instruction 0 0x8026B55C DAFFFFFA true BLE {pc}-0x10 ; 0x8026b54c
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Instruction 6 0x8026B560 EE1D3F30 false MRC p15,#0x0,r3,c13,c0,#1
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Instruction 0 0x8026B564 E1A0100D false MOV r1,sp
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Instruction 0 0x8026B568 E3C12D7F false BIC r2,r1,#0x1fc0
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Instruction 0 0x8026B56C E3C2203F false BIC r2,r2,#0x3f
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Instruction 0 0x8026B570 E59D1004 false LDR r1,[sp,#4]
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Instruction 0 0x8026B574 E59F0010 false LDR r0,[pc,#16] ; [0x8026B58C] = 0x80550368
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Instruction 0 0x8026B578 E592200C false LDR r2,[r2,#0xc]
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Instruction 0 0x8026B57C E59221D0 false LDR r2,[r2,#0x1d0]
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Instruction 0 0x8026B580 EB07A4CF true BL {pc}+0x1e9344 ; 0x804548c4
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Info Tracing enabled
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Instruction 13570831 0x8026B584 E28DD00C false ADD sp,sp,#0xc
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Instruction 0 0x8026B588 E8BD8000 true LDM sp!,{pc}
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Timestamp Timestamp: 17107041535
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