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package main
import (
"fmt"
"io"
"path/filepath"
)
func callCompiler(env env, cfg *config, inputCmd *command) int {
exitCode := 0
var compilerErr error
if shouldForwardToOldWrapper(env, inputCmd) {
// TODO: Once this is only checking for bisect, create a command
// that directly calls the bisect driver in calcCompilerCommand.
exitCode, compilerErr = forwardToOldWrapper(env, cfg, inputCmd)
} else if cfg.oldWrapperPath != "" {
exitCode, compilerErr = callCompilerWithRunAndCompareToOldWrapper(env, cfg, inputCmd)
} else {
exitCode, compilerErr = callCompilerInternal(env, cfg, inputCmd)
}
if compilerErr != nil {
printCompilerError(env.stderr(), compilerErr)
exitCode = 1
}
return exitCode
}
func callCompilerWithRunAndCompareToOldWrapper(env env, cfg *config, inputCmd *command) (exitCode int, err error) {
recordingEnv := &commandRecordingEnv{
env: env,
}
// Note: this won't do a real exec as recordingEnv redirects exec to run.
if exitCode, err = callCompilerInternal(recordingEnv, cfg, inputCmd); err != nil {
return 0, err
}
if err = compareToOldWrapper(env, cfg, inputCmd, recordingEnv.cmdResults, exitCode); err != nil {
return exitCode, err
}
return exitCode, nil
}
func callCompilerInternal(env env, cfg *config, inputCmd *command) (exitCode int, err error) {
if err := checkUnsupportedFlags(inputCmd); err != nil {
return 0, err
}
mainBuilder, err := newCommandBuilder(env, cfg, inputCmd)
if err != nil {
return 0, err
}
var compilerCmd *command
clangSyntax := processClangSyntaxFlag(mainBuilder)
if mainBuilder.target.compilerType == clangType {
cSrcFile, useClangTidy := processClangTidyFlags(mainBuilder)
compilerCmd, err = calcClangCommand(useClangTidy, mainBuilder)
if err != nil {
return 0, err
}
if useClangTidy {
if err := runClangTidy(env, compilerCmd, cSrcFile); err != nil {
return 0, err
}
}
} else {
if clangSyntax {
forceLocal := false
clangCmd, err := calcClangCommand(forceLocal, mainBuilder.clone())
if err != nil {
return 0, err
}
exitCode, err = checkClangSyntax(env, clangCmd)
if err != nil || exitCode != 0 {
return exitCode, err
}
}
compilerCmd = calcGccCommand(mainBuilder)
}
if shouldForceDisableWError(env) {
return doubleBuildWithWNoError(env, cfg, compilerCmd)
}
// Note: We return an exit code only if the underlying env is not
// really doing an exec, e.g. commandRecordingEnv.
return wrapSubprocessErrorWithSourceLoc(compilerCmd, env.exec(compilerCmd))
}
func calcClangCommand(forceLocal bool, builder *commandBuilder) (*command, error) {
sysroot := processSysrootFlag(builder)
builder.addPreUserArgs(builder.cfg.clangFlags...)
calcCommonPreUserArgs(builder)
if err := processClangFlags(builder); err != nil {
return nil, err
}
if !forceLocal {
processGomaCCacheFlags(sysroot, builder)
}
return builder.build(), nil
}
func calcGccCommand(builder *commandBuilder) *command {
sysroot := processSysrootFlag(builder)
builder.addPreUserArgs(builder.cfg.gccFlags...)
calcCommonPreUserArgs(builder)
processGccFlags(builder)
processGomaCCacheFlags(sysroot, builder)
return builder.build()
}
func calcCommonPreUserArgs(builder *commandBuilder) {
builder.addPreUserArgs(builder.cfg.commonFlags...)
processPieFlags(builder)
processStackProtectorFlags(builder)
processThumbCodeFlags(builder)
processX86Flags(builder)
processSanitizerFlags(builder)
}
func processGomaCCacheFlags(sysroot string, builder *commandBuilder) {
gomaccUsed := processGomaCccFlags(builder)
if !gomaccUsed {
processCCacheFlag(sysroot, builder)
}
}
func getAbsWrapperDir(env env, wrapperPath string) (string, error) {
if !filepath.IsAbs(wrapperPath) {
wrapperPath = filepath.Join(env.getwd(), wrapperPath)
}
evaledCmdPath, err := filepath.EvalSymlinks(wrapperPath)
if err != nil {
return "", wrapErrorwithSourceLocf(err, "failed to evaluate symlinks for %s", wrapperPath)
}
return filepath.Dir(evaledCmdPath), nil
}
func printCompilerError(writer io.Writer, compilerErr error) {
if _, ok := compilerErr.(userError); ok {
fmt.Fprintf(writer, "%s\n", compilerErr)
} else {
fmt.Fprintf(writer,
"Internal error. Please report to chromeos-toolchain@google.com.\n%s\n",
compilerErr)
}
}
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