mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-11-10 08:20:23 +00:00
25e3a961c3
When the initial DeleteVolume times out (as it does on slow clusters due to the low 10 second limit), the external-provisioner calls it again. The CSI standard requires the second call to succeed if the volume has been deleted in the meantime. This didn't work because DeleteVolume returned an error when failing to find the volume info file: rbdplugin: E1008 08:05:35.631783 1 utils.go:100] GRPC error: rbd: open err /var/lib/kubelet/plugins/csi-rbdplugin/controller/csi-rbd-622a252c-cad0-11e8-9112-deadbeef0101.json/open /var/lib/kubelet/plugins/csi-rbdplugin/controller/csi-rbd-622a252c-cad0-11e8-9112-deadbeef0101.json: no such file or directory The fix is to treat a missing volume info file as "volume already deleted" and return success. To detect this, the original os error must be wrapped, otherwise the caller of loadVolInfo cannot determine the root cause. Note that further work may be needed to make the driver really resilient, for example there are probably concurrency issues. But for now this fixes: #82
179 lines
4.3 KiB
Go
179 lines
4.3 KiB
Go
package errors
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import (
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"fmt"
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"io"
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"path"
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"runtime"
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"strings"
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)
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// Frame represents a program counter inside a stack frame.
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type Frame uintptr
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// pc returns the program counter for this frame;
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// multiple frames may have the same PC value.
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func (f Frame) pc() uintptr { return uintptr(f) - 1 }
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// file returns the full path to the file that contains the
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// function for this Frame's pc.
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func (f Frame) file() string {
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fn := runtime.FuncForPC(f.pc())
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if fn == nil {
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return "unknown"
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}
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file, _ := fn.FileLine(f.pc())
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return file
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}
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// line returns the line number of source code of the
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// function for this Frame's pc.
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func (f Frame) line() int {
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fn := runtime.FuncForPC(f.pc())
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if fn == nil {
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return 0
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}
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_, line := fn.FileLine(f.pc())
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return line
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}
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// Format formats the frame according to the fmt.Formatter interface.
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//
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// %s source file
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// %d source line
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// %n function name
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// %v equivalent to %s:%d
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//
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// Format accepts flags that alter the printing of some verbs, as follows:
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//
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// %+s path of source file relative to the compile time GOPATH
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// %+v equivalent to %+s:%d
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func (f Frame) Format(s fmt.State, verb rune) {
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switch verb {
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case 's':
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switch {
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case s.Flag('+'):
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pc := f.pc()
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fn := runtime.FuncForPC(pc)
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if fn == nil {
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io.WriteString(s, "unknown")
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} else {
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file, _ := fn.FileLine(pc)
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fmt.Fprintf(s, "%s\n\t%s", fn.Name(), file)
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}
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default:
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io.WriteString(s, path.Base(f.file()))
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}
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case 'd':
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fmt.Fprintf(s, "%d", f.line())
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case 'n':
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name := runtime.FuncForPC(f.pc()).Name()
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io.WriteString(s, funcname(name))
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case 'v':
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f.Format(s, 's')
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io.WriteString(s, ":")
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f.Format(s, 'd')
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}
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}
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// StackTrace is stack of Frames from innermost (newest) to outermost (oldest).
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type StackTrace []Frame
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func (st StackTrace) Format(s fmt.State, verb rune) {
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switch verb {
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case 'v':
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switch {
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case s.Flag('+'):
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for _, f := range st {
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fmt.Fprintf(s, "\n%+v", f)
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}
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case s.Flag('#'):
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fmt.Fprintf(s, "%#v", []Frame(st))
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default:
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fmt.Fprintf(s, "%v", []Frame(st))
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}
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case 's':
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fmt.Fprintf(s, "%s", []Frame(st))
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}
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}
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// stack represents a stack of program counters.
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type stack []uintptr
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func (s *stack) Format(st fmt.State, verb rune) {
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switch verb {
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case 'v':
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switch {
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case st.Flag('+'):
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for _, pc := range *s {
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f := Frame(pc)
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fmt.Fprintf(st, "\n%+v", f)
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}
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}
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}
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}
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func (s *stack) StackTrace() StackTrace {
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f := make([]Frame, len(*s))
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for i := 0; i < len(f); i++ {
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f[i] = Frame((*s)[i])
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}
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return f
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}
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func callers() *stack {
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const depth = 32
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var pcs [depth]uintptr
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n := runtime.Callers(3, pcs[:])
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var st stack = pcs[0:n]
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return &st
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}
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// funcname removes the path prefix component of a function's name reported by func.Name().
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func funcname(name string) string {
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i := strings.LastIndex(name, "/")
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name = name[i+1:]
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i = strings.Index(name, ".")
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return name[i+1:]
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}
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func trimGOPATH(name, file string) string {
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// Here we want to get the source file path relative to the compile time
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// GOPATH. As of Go 1.6.x there is no direct way to know the compiled
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// GOPATH at runtime, but we can infer the number of path segments in the
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// GOPATH. We note that fn.Name() returns the function name qualified by
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// the import path, which does not include the GOPATH. Thus we can trim
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// segments from the beginning of the file path until the number of path
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// separators remaining is one more than the number of path separators in
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// the function name. For example, given:
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//
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// GOPATH /home/user
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// file /home/user/src/pkg/sub/file.go
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// fn.Name() pkg/sub.Type.Method
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//
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// We want to produce:
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//
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// pkg/sub/file.go
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//
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// From this we can easily see that fn.Name() has one less path separator
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// than our desired output. We count separators from the end of the file
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// path until it finds two more than in the function name and then move
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// one character forward to preserve the initial path segment without a
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// leading separator.
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const sep = "/"
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goal := strings.Count(name, sep) + 2
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i := len(file)
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for n := 0; n < goal; n++ {
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i = strings.LastIndex(file[:i], sep)
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if i == -1 {
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// not enough separators found, set i so that the slice expression
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// below leaves file unmodified
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i = -len(sep)
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break
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}
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}
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// get back to 0 or trim the leading separator
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file = file[i+len(sep):]
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return file
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}
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