func (s *ZipSuite) TestExtractAllSymlinkErrors(c *gc.C) {
for i, test := range []struct {
content []ft.Entry
error string
}{{
content: []ft.Entry{
ft.Symlink{"symlink", "/blah"},
},
error: `cannot extract "symlink": symlink "/blah" is absolute`,
}, {
content: []ft.Entry{
ft.Symlink{"symlink", "../blah"},
},
error: `cannot extract "symlink": symlink "../blah" leads out of scope`,
}, {
content: []ft.Entry{
ft.Dir{"dir", 0755},
ft.Symlink{"dir/symlink", "../../blah"},
},
error: `cannot extract "dir/symlink": symlink "../../blah" leads out of scope`,
}} {
c.Logf("test %d: %s", i, test.error)
targetPath := c.MkDir()
reader := s.makeZip(c, test.content...)
err := zip.ExtractAll(reader, targetPath)
c.Check(err, gc.ErrorMatches, test.error)
}
}
func (s *ZipSuite) TestExtractAllMergeDirs(c *gc.C) {
targetPath := c.MkDir()
ft.Dir{"dir", 0755}.Create(c, targetPath)
originals := []ft.Entry{
ft.Dir{"dir/original-dir", 0751},
ft.File{"dir/original-file", "content 1", 0600},
ft.Symlink{"dir/original-symlink", "original-file"},
}
for _, entry := range originals {
entry.Create(c, targetPath)
}
merges := []ft.Entry{
ft.Dir{"dir", 0751},
ft.Dir{"dir/merge-dir", 0750},
ft.File{"dir/merge-file", "content 2", 0640},
ft.Symlink{"dir/merge-symlink", "merge-file"},
}
reader := s.makeZip(c, merges...)
err := zip.ExtractAll(reader, targetPath)
c.Assert(err, gc.IsNil)
for i, test := range append(originals, merges...) {
c.Logf("test %d: %#v", i, test)
test.Check(c, targetPath)
}
}
func (s *ZipSuite) TestClosesFile(c *gc.C) {
reader := s.makeZip(c, ft.File{"f", "echo hullo!", 0755})
targetPath := c.MkDir()
err := zip.ExtractAll(reader, targetPath)
c.Assert(err, gc.IsNil)
cmd := exec.Command("/bin/sh", "-c", filepath.Join(targetPath, "f"))
var buffer bytes.Buffer
cmd.Stdout = &buffer
err = cmd.Run()
c.Assert(err, gc.IsNil)
c.Assert(buffer.String(), gc.Equals, "hullo!\n")
}
func (s *ZipSuite) TestExtractAllOverwriteDirs(c *gc.C) {
name := "some-dir"
for i, test := range []ft.Entry{
ft.File{name, "content", 0644},
ft.Dir{name, 0751},
ft.Symlink{name, "wherever"},
} {
c.Logf("test %d: %#v", i, test)
targetPath := c.MkDir()
ft.Dir{name, 0}.Create(c, targetPath)
reader := s.makeZip(c, test)
err := zip.ExtractAll(reader, targetPath)
c.Check(err, gc.IsNil)
test.Check(c, targetPath)
}
}
func (s *ZipSuite) TestExtractAll(c *gc.C) {
entries := []ft.Entry{
ft.File{"some-file", "content 1", 0644},
ft.File{"another-file", "content 2", 0640},
ft.Symlink{"some-symlink", "some-file"},
ft.Dir{"some-dir", 0750},
ft.File{"some-dir/another-file", "content 3", 0644},
ft.Dir{"some-dir/another-dir", 0755},
ft.Symlink{"some-dir/another-dir/another-symlink", "../../another-file"},
}
reader := s.makeZip(c, entries...)
targetPath := c.MkDir()
err := zip.ExtractAll(reader, targetPath)
c.Assert(err, gc.IsNil)
for i, entry := range entries {
c.Logf("test %d: %#v", i, entry)
entry.Check(c, targetPath)
}
}
// ExpandTo expands the charm bundle into dir, creating it if necessary.
// If any errors occur during the expansion procedure, the process will
// abort.
func (b *Bundle) ExpandTo(dir string) (err error) {
zipr, err := b.zipOpen()
if err != nil {
return err
}
defer zipr.Close()
if err := ziputil.ExtractAll(zipr.Reader, dir); err != nil {
return err
}
hooksDir := filepath.Join(dir, "hooks")
fixHook := fixHookFunc(hooksDir, b.meta.Hooks())
if err := filepath.Walk(hooksDir, fixHook); err != nil {
if !os.IsNotExist(err) {
return err
}
}
revFile, err := os.Create(filepath.Join(dir, "revision"))
if err != nil {
return err
}
_, err = revFile.Write([]byte(strconv.Itoa(b.revision)))
revFile.Close()
return err
}