#!/bin/bash # (c) 2014, Sasha Levin #set -x if [[ $# < 2 ]]; then echo "Usage:" echo " $0 [vmlinux] [base path] [modules path]" exit 1 fi vmlinux=$1 basepath=$2 modpath=$3 declare -A cache declare -A modcache parse_symbol() { # The structure of symbol at this point is: # ([name]+[offset]/[total length]) # # For example: # do_basic_setup+0x9c/0xbf if [[ $module == "" ]] ; then local objfile=$vmlinux elif [[ "${modcache[$module]+isset}" == "isset" ]]; then local objfile=${modcache[$module]} else [[ $modpath == "" ]] && return local objfile=$(find "$modpath" -name $module.ko -print -quit) [[ $objfile == "" ]] && return modcache[$module]=$objfile fi # Remove the englobing parenthesis symbol=${symbol#$} symbol=${symbol%$} # Strip the symbol name so that we could look it up local name=${symbol%+*} # Use 'nm vmlinux' to figure out the base address of said symbol. # It's actually faster to call it every time than to load it # all into bash. if [[ "${cache[$module,$name]+isset}" == "isset" ]]; then local base_addr=${cache[$module,$name]} else local base_addr=$(nm "$objfile" | grep -i ' t ' | awk "/ $name\$/ {print \$1}" | head -n1) cache[$module,$name]="$base_addr" fi # Let's start doing the math to get the exact address into the # symbol. First, strip out the symbol total length. local expr=${symbol%/*} # Now, replace the symbol name with the base address we found # before. expr=${expr/$name/0x$base_addr} # Evaluate it to find the actual address expr=$((expr)) local address=$(printf "%x\n" "$expr") # Pass it to addr2line to get filename and line number # Could get more than one result if [[ "${cache[$module,$address]+isset}" == "isset" ]]; then local code=${cache[$module,$address]} else local code=$(addr2line -i -e "$objfile" "$address") cache[$module,$address]=$code fi # addr2line doesn't return a proper error code if it fails, so # we detect it using the value it prints so that we could preserve # the offset/size into the function and bail out if [[ $code == "??:0" ]]; then return fi # Strip out the base of the path code=${code//$basepath/""} # In the case of inlines, move everything to same line code=${code//$'\n'/' '} # Replace old address with pretty line numbers symbol="$name ($code)" } decode_code() { local scripts=`dirname "${BASH_SOURCE[0]}"` echo "$1" | $scripts/decodecode } handle_line() { local words # Tokenize read -a words <<<"$1" # Remove hex numbers. Do it ourselves until it happens in the # kernel # We need to know the index of the last element before we # remove elements because arrays are sparse local last=$(( ${#words[@]} - 1 )) for i in "${!words[@]}"; do # Remove the address if [[ ${words[$i]} =~ \[\<([^]]+)\>\] ]]; then unset words[$i] fi # Format timestamps with tabs if [[ ${words[$i]} == \[ && ${words[$i+1]} == *\] ]]; then unset words[$i] words[$i+1]=$(printf "[%13s\n" "${words[$i+1]}") fi done if [[ ${words[$last]} =~ \[([^]]+)\] ]]; then module=${words[$last]} module=${module#\[} module=${module%\]} symbol=${words[$last-1]} unset words[$last-1] else # The symbol is the last element, process it symbol=${words[$last]} module= fi unset words[$last] parse_symbol # modifies $symbol # Add up the line number to the symbol echo "${words[@]}" "$symbol $module" } while read line; do # Let's see if we have an address in the line if [[ $line =~ \[\<([^]]+)\>\] ]] || [[ $line =~ [^+\ ]+\+0x[0-9a-f]+/0x[0-9a-f]+ ]]; then # Translate address to line numbers handle_line "$line" # Is it a code line? elif [[ $line == *Code:* ]]; then decode_code "$line" else # Nothing special in this line, show it as is echo "$line" fi done put type='hidden' name='id' value='e6e7b48b295afa5a5ab440de0a94d9ad8b3ce2d0'/>


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author	Daniel Vetter <daniel.vetter@ffwll.ch>	2017-01-12 17:15:56 +0100
committer	Daniel Vetter <daniel.vetter@ffwll.ch>	2017-01-30 10:17:32 +0100
commit	e6e7b48b295afa5a5ab440de0a94d9ad8b3ce2d0 (patch)
tree	77cadb6d8aad1b52c34e4afa8c9deef603bbe2ed /sound/soc/codecs/pcm3168a-i2c.c
parent	4e5b54f127426c82dc2816340c26d951a5bb3429 (diff)

drm: Don't race connector registration

I was under the misconception that the sysfs dev stuff can be fully set up, and then registered all in one step with device_add. That's true for properties and property groups, but not for parents and child devices. Those must be fully registered before you can register a child. Add a bit of tracking to make sure that asynchronous mst connector hotplugging gets this right. For consistency we rely upon the implicit barriers of the connector->mutex, which is taken anyway, to ensure that at least either the connector or device registration call will work out. Mildly tested since I can't reliably reproduce this on my mst box here. Reported-by: Dave Hansen <dave.hansen@intel.com> Cc: Dave Hansen <dave.hansen@intel.com> Acked-by: Chris Wilson <chris@chris-wilson.co.uk> Cc: Chris Wilson <chris@chris-wilson.co.uk> Signed-off-by: Daniel Vetter <daniel.vetter@intel.com> Link: http://patchwork.freedesktop.org/patch/msgid/1484237756-2720-1-git-send-email-daniel.vetter@ffwll.ch

Diffstat (limited to 'sound/soc/codecs/pcm3168a-i2c.c')