On Mon, Apr 12, 2021 at 12:29:05PM -0700, Stephen Boyd wrote: > Quoting Andy Shevchenko (2021-04-12 04:58:02) > > On Fri, Apr 09, 2021 at 06:52:52PM -0700, Stephen Boyd wrote: > > > Let's make kernel stacktraces easier to identify by including the build > > > ID[1] of a module if the stacktrace is printing a symbol from a module. > > > This makes it simpler for developers to locate a kernel module's full > > > debuginfo for a particular stacktrace. Combined with > > > scripts/decode_stracktrace.sh, a developer can download the matching > > > debuginfo from a debuginfod[2] server and find the exact file and line > > > number for the functions plus offsets in a stacktrace that match the > > > module. This is especially useful for pstore crash debugging where the > > > kernel crashes are recorded in something like console-ramoops and the > > > recovery kernel/modules are different or the debuginfo doesn't exist on > > > the device due to space concerns (the debuginfo can be too large for > > > space limited devices). > > > > > > Originally, I put this on the %pS format, but that was quickly rejected > > > given that %pS is used in other places such as ftrace where build IDs > > > aren't meaningful. There was some discussions on the list to put every > > > module build ID into the "Modules linked in:" section of the stacktrace > > > message but that quickly becomes very hard to read once you have more > > > than three or four modules linked in. It also provides too much > > > information when we don't expect each module to be traversed in a > > > stacktrace. Having the build ID for modules that aren't important just > > > makes things messy. Splitting it to multiple lines for each module > > > quickly explodes the number of lines printed in an oops too, possibly > > > wrapping the warning off the console. And finally, trying to stash away > > > each module used in a callstack to provide the ID of each symbol printed > > > is cumbersome and would require changes to each architecture to stash > > > away modules and return their build IDs once unwinding has completed. > > > > > > Instead, we opt for the simpler approach of introducing new printk > > > formats '%pS[R]b' for "pointer symbolic backtrace with module build ID" > > > and '%pBb' for "pointer backtrace with module build ID" and then > > > updating the few places in the architecture layer where the stacktrace > > > is printed to use this new format. > > > > > > Example: > > > > Can you trim a bit the example, so we will see only important lines. > > In such case you may provide "before" and "after" variants. > > > > ... > > > > > - if (modname) > > > - len += sprintf(buffer + len, " [%s]", modname); > > > + if (modname) { > > > + len += sprintf(buffer + len, " [%s", modname); > > > > > + /* build ID should match length of sprintf below */ > > > + BUILD_BUG_ON(BUILD_ID_SIZE_MAX != 20); > > > > First of all, why not static_assert() defined near to the actual macro? > > Which macro? BUILD_ID_SIZE_MAX?
Yes. > I tried static_assert() and it didn't > work for me but maybe I missed something. Sounds weird. static_assert() is a good one. Check, for example, lib/vsprintf.c on how to use it. > Why is static_assert() > preferred? Because it's cleaner way to achieve it and as a bonus it can be put outside of the functions (be in the header or so). > > > + if (IS_ENABLED(CONFIG_STACKTRACE_BUILD_ID) && add_buildid > > > && buildid) > > > + len += sprintf(buffer + len, " %20phN", buildid); > > > > len += sprintf(buffer + len, " %*phN", > > BUILD_ID_SIZE_MAX, buildid); > > > > Are you suggesting to use sprintf format here so that the size is part > of the printf? Sounds good to me. Thanks. I prefer %20phN when the size is carved in stone (for example by specification), but if you are really expecting that it may be changed in the future, use variadic approach as I showed above. -- With Best Regards, Andy Shevchenko