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package main
import (
"debug/elf"
"sort"
"strings"
)
// Statistics about code size in a program.
type ProgramSize struct {
Packages map[string]*PackageSize
Sum *PackageSize
Code uint64
Data uint64
BSS uint64
}
// Return the list of package names (ProgramSize.Packages) sorted
// alphabetically.
func (ps *ProgramSize) SortedPackageNames() []string {
names := make([]string, 0, len(ps.Packages))
for name := range ps.Packages {
names = append(names, name)
}
sort.Strings(names)
return names
}
// The size of a package, calculated from the linked object file.
type PackageSize struct {
Code uint64
ROData uint64
Data uint64
BSS uint64
}
// Flash usage in regular microcontrollers.
func (ps *PackageSize) Flash() uint64 {
return ps.Code + ps.ROData + ps.Data
}
// Static RAM usage in regular microcontrollers.
func (ps *PackageSize) RAM() uint64 {
return ps.Data + ps.BSS
}
type symbolList []elf.Symbol
func (l symbolList) Len() int {
return len(l)
}
func (l symbolList) Less(i, j int) bool {
bind_i := elf.ST_BIND(l[i].Info)
bind_j := elf.ST_BIND(l[j].Info)
if l[i].Value == l[j].Value && bind_i != elf.STB_WEAK && bind_j == elf.STB_WEAK {
// sort weak symbols after non-weak symbols
return true
}
return l[i].Value < l[j].Value
}
func (l symbolList) Swap(i, j int) {
l[i], l[j] = l[j], l[i]
}
// Calculate program/data size breakdown of each package for a given ELF file.
func Sizes(path string) (*ProgramSize, error) {
file, err := elf.Open(path)
if err != nil {
return nil, err
}
defer file.Close()
var sumCode uint64
var sumData uint64
var sumBSS uint64
for _, section := range file.Sections {
if section.Flags&elf.SHF_ALLOC == 0 {
continue
}
if section.Type != elf.SHT_PROGBITS && section.Type != elf.SHT_NOBITS {
continue
}
if section.Type == elf.SHT_NOBITS {
sumBSS += section.Size
} else if section.Flags&elf.SHF_EXECINSTR != 0 {
sumCode += section.Size
} else if section.Flags&elf.SHF_WRITE != 0 {
sumData += section.Size
}
}
allSymbols, err := file.Symbols()
if err != nil {
return nil, err
}
symbols := make([]elf.Symbol, 0, len(allSymbols))
for _, symbol := range allSymbols {
symType := elf.ST_TYPE(symbol.Info)
if symbol.Size == 0 {
continue
}
if symType != elf.STT_FUNC && symType != elf.STT_OBJECT && symType != elf.STT_NOTYPE {
continue
}
if symbol.Section >= elf.SectionIndex(len(file.Sections)) {
continue
}
section := file.Sections[symbol.Section]
if section.Flags&elf.SHF_ALLOC == 0 {
continue
}
symbols = append(symbols, symbol)
}
sort.Sort(symbolList(symbols))
sizes := map[string]*PackageSize{}
var lastSymbolValue uint64
for _, symbol := range symbols {
symType := elf.ST_TYPE(symbol.Info)
//bind := elf.ST_BIND(symbol.Info)
section := file.Sections[symbol.Section]
pkgName := "(bootstrap)"
symName := strings.TrimLeft(symbol.Name, "(*")
dot := strings.IndexByte(symName, '.')
if dot > 0 {
pkgName = symName[:dot]
}
pkgSize := sizes[pkgName]
if pkgSize == nil {
pkgSize = &PackageSize{}
sizes[pkgName] = pkgSize
}
if lastSymbolValue != symbol.Value || lastSymbolValue == 0 {
if symType == elf.STT_FUNC {
pkgSize.Code += symbol.Size
} else if section.Flags&elf.SHF_WRITE != 0 {
if section.Type == elf.SHT_NOBITS {
pkgSize.BSS += symbol.Size
} else {
pkgSize.Data += symbol.Size
}
} else {
pkgSize.ROData += symbol.Size
}
}
lastSymbolValue = symbol.Value
}
sum := &PackageSize{}
for _, pkg := range sizes {
sum.Code += pkg.Code
sum.ROData += pkg.ROData
sum.Data += pkg.Data
sum.BSS += pkg.BSS
}
return &ProgramSize{Packages: sizes, Code: sumCode, Data: sumData, BSS: sumBSS, Sum: sum}, nil
}
|