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BRANCH=none BUG=chromium:648840 TEST=make BOARD=hammer analyzestack Change-Id: Id05fee7e085a02dd4c2d36880f6891c3eb86b404 Signed-off-by: Nicolas Boichat <drinkcat@chromium.org> Reviewed-on: https://chromium-review.googlesource.com/637550 Reviewed-by: Che-yu Wu <cheyuw@google.com> Reviewed-by: Vincent Palatin <vpalatin@chromium.org>
75 lines
2.7 KiB
Markdown
75 lines
2.7 KiB
Markdown
Stack Size Analysis Tool for EC Firmware
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========================================
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This tool does static analysis on EC firmwares to get the maximum stack usage of
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each function and task. The maximum stack usage of a function includes the stack
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used by itself and the functions it calls.
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Usage
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-----
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Make sure the firmware of your target board has been built.
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In `src/platform/ec`, run
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```
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make BOARD=${BOARD} SECTION=${SECTION} ANNOTATION=${ANNOTATION} analyzestack
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```
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The `${SECTION}` can be `RO` or `RW`. The `${ANNOTATION}` is a optional
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annotation file, see the example_annotation.yaml, by default,
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board/$BOARD/analyzestack.yaml is used.
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Output
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------
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For each task, it will output the result like below,
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```
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Task: PD_C1, Max size: 1156 (932 + 224), Allocated size: 640
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Call Trace:
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pd_task (160) [common/usb_pd_protocol.c:1644] 1008a6e8
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-> pd_task[common/usb_pd_protocol.c:1808] 1008ac8a
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- handle_request[common/usb_pd_protocol.c:1191]
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- handle_data_request[common/usb_pd_protocol.c:798]
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-> pd_task[common/usb_pd_protocol.c:2672] 1008c222
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-> [annotation]
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pd_send_request_msg.lto_priv.263 (56) [common/usb_pd_protocol.c:653] 1009a0b4
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-> pd_send_request_msg.lto_priv.263[common/usb_pd_protocol.c:712] 1009a22e0
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```
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The `pd_task` uses 160 bytes on the stack and calls `pd_send_request_msg.lto_priv.263`.
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The callsites to the next function will be shown like below,
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```
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-> pd_task[common/usb_pd_protocol.c:1808] 1008ac8a
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- handle_request[common/usb_pd_protocol.c:1191]
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- handle_data_request[common/usb_pd_protocol.c:798]
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-> pd_task[common/usb_pd_protocol.c:2672] 1008c222
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-> [annotation]
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```
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This means one callsite to the next function is at `usb_pd_protocol.c:798`,
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but it is inlined to the current function and you can follow the trace:
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`usb_pd_protocol.c:1808 -> usb_pd_protocol.c:1191 -> usb_pd_protocol.c:798` to
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find the callsite. The second callsite is at `usb_pd_protocol.c:2672`. And the
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third one is added by annotation.
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The unresolved indirect callsites have the similar format to the above.
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Annotating Indirect Call
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------------------------
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To annotate an indirect call like this,
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```
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Unresolved indirect callsites:
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pd_transmit
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-> pd_transmit[common/usb_pd_protocol.c:407] 802c9c8
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- tcpm_transmit[driver/tcpm/tcpm.h:142]
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```
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It is an indirect call in the `tcpm_transmit`, which is inlined to the `pd_transmit`.
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You can add a annotation like the below to eliminate it.
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```
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add:
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tcpm_transmit[driver/tcpm/tcpm.h:142]:
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- anx74xx_tcpm_transmit
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```
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The source `tcpm_transmit[driver/tcpm/tcpm.h:142]` must be a full signature (function_name[path:line number]).
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So the resolver can know which indirect call you want to annotate and eliminate (even if it is inlined).
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