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// +linux
package libpod
import (
"path/filepath"
"strings"
securejoin "github.com/cyphar/filepath-securejoin"
"github.com/opencontainers/runtime-spec/specs-go"
"github.com/pkg/errors"
"github.com/sirupsen/logrus"
)
// pathAbs returns an absolute path. If the specified path is
// relative, it will be resolved relative to the container's working dir.
func (c *Container) pathAbs(path string) string {
if !filepath.IsAbs(path) {
// If the containerPath is not absolute, it's relative to the
// container's working dir. To be extra careful, let's first
// join the working dir with "/", and the add the containerPath
// to it.
path = filepath.Join(filepath.Join("/", c.WorkingDir()), path)
}
return path
}
// resolveContainerPaths resolves the container's mount point and the container
// path as specified by the user. Both may resolve to paths outside of the
// container's mount point when the container path hits a volume or bind mount.
//
// It returns a bool, indicating whether containerPath resolves outside of
// mountPoint (e.g., via a mount or volume), the resolved root (e.g., container
// mount, bind mount or volume) and the resolved path on the root (absolute to
// the host).
func (c *Container) resolvePath(mountPoint string, containerPath string) (string, string, error) {
// Let's first make sure we have a path relative to the mount point.
pathRelativeToContainerMountPoint := c.pathAbs(containerPath)
resolvedPathOnTheContainerMountPoint := filepath.Join(mountPoint, pathRelativeToContainerMountPoint)
pathRelativeToContainerMountPoint = strings.TrimPrefix(pathRelativeToContainerMountPoint, mountPoint)
pathRelativeToContainerMountPoint = filepath.Join("/", pathRelativeToContainerMountPoint)
// Now we have an "absolute container Path" but not yet resolved on the
// host (e.g., "/foo/bar/file.txt"). As mentioned above, we need to
// check if "/foo/bar/file.txt" is on a volume or bind mount. To do
// that, we need to walk *down* the paths to the root. Assuming
// volume-1 is mounted to "/foo" and volume-2 is mounted to "/foo/bar",
// we must select "/foo/bar". Once selected, we need to rebase the
// remainder (i.e, "/file.txt") on the volume's mount point on the
// host. Same applies to bind mounts.
searchPath := pathRelativeToContainerMountPoint
for {
volume, err := findVolume(c, searchPath)
if err != nil {
return "", "", err
}
if volume != nil {
logrus.Debugf("Container path %q resolved to volume %q on path %q", containerPath, volume.Name(), searchPath)
// TODO: We really need to force the volume to mount
// before doing this, but that API is not exposed
// externally right now and doing so is beyond the scope
// of this commit.
mountPoint, err := volume.MountPoint()
if err != nil {
return "", "", err
}
if mountPoint == "" {
return "", "", errors.Errorf("volume %s is not mounted, cannot copy into it", volume.Name())
}
// We found a matching volume for searchPath. We now
// need to first find the relative path of our input
// path to the searchPath, and then join it with the
// volume's mount point.
pathRelativeToVolume := strings.TrimPrefix(pathRelativeToContainerMountPoint, searchPath)
absolutePathOnTheVolumeMount, err := securejoin.SecureJoin(mountPoint, pathRelativeToVolume)
if err != nil {
return "", "", err
}
return mountPoint, absolutePathOnTheVolumeMount, nil
}
if mount := findBindMount(c, searchPath); mount != nil {
logrus.Debugf("Container path %q resolved to bind mount %q:%q on path %q", containerPath, mount.Source, mount.Destination, searchPath)
// We found a matching bind mount for searchPath. We
// now need to first find the relative path of our
// input path to the searchPath, and then join it with
// the source of the bind mount.
pathRelativeToBindMount := strings.TrimPrefix(pathRelativeToContainerMountPoint, searchPath)
absolutePathOnTheBindMount, err := securejoin.SecureJoin(mount.Source, pathRelativeToBindMount)
if err != nil {
return "", "", err
}
return mount.Source, absolutePathOnTheBindMount, nil
}
if searchPath == "/" {
// Cannot go beyond "/", so we're done.
break
}
// Walk *down* the path (e.g., "/foo/bar/x" -> "/foo/bar").
searchPath = filepath.Dir(searchPath)
}
// No volume, no bind mount but just a normal path on the container.
return mountPoint, resolvedPathOnTheContainerMountPoint, nil
}
// findVolume checks if the specified containerPath matches the destination
// path of a Volume. Returns a matching Volume or nil.
func findVolume(c *Container, containerPath string) (*Volume, error) {
runtime := c.Runtime()
cleanedContainerPath := filepath.Clean(containerPath)
for _, vol := range c.Config().NamedVolumes {
if cleanedContainerPath == filepath.Clean(vol.Dest) {
return runtime.GetVolume(vol.Name)
}
}
return nil, nil
}
// isPathOnVolume returns true if the specified containerPath is a subdir of any
// Volume's destination.
func isPathOnVolume(c *Container, containerPath string) bool {
cleanedContainerPath := filepath.Clean(containerPath)
for _, vol := range c.Config().NamedVolumes {
if cleanedContainerPath == filepath.Clean(vol.Dest) {
return true
}
for dest := vol.Dest; dest != "/" && dest != "."; dest = filepath.Dir(dest) {
if cleanedContainerPath == dest {
return true
}
}
}
return false
}
// findBindMounts checks if the specified containerPath matches the destination
// path of a Mount. Returns a matching Mount or nil.
func findBindMount(c *Container, containerPath string) *specs.Mount {
cleanedPath := filepath.Clean(containerPath)
for _, m := range c.Config().Spec.Mounts {
if m.Type != "bind" {
continue
}
if cleanedPath == filepath.Clean(m.Destination) {
mount := m
return &mount
}
}
return nil
}
/// isPathOnBindMount returns true if the specified containerPath is a subdir of any
// Mount's destination.
func isPathOnBindMount(c *Container, containerPath string) bool {
cleanedContainerPath := filepath.Clean(containerPath)
for _, m := range c.Config().Spec.Mounts {
if cleanedContainerPath == filepath.Clean(m.Destination) {
return true
}
for dest := m.Destination; dest != "/"; dest = filepath.Dir(dest) {
if cleanedContainerPath == dest {
return true
}
}
}
return false
}
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