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VCID-jwrn-5t32-3fbq
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Cosign malicious artifacts can cause machine-wide DoS
Maliciously-crafted software artifacts can cause denial of service of the machine running Cosign, thereby impacting all services on the machine. The root cause is that Cosign creates slices based on the number of signatures, manifests or attestations in untrusted artifacts. As such, the untrusted artifact can control the amount of memory that Cosign allocates.
As an example, these lines demonstrate the problem:
https://github.com/sigstore/cosign/blob/286a98a4a99c1b2f32f84b0d560e324100312280/pkg/oci/remote/signatures.go#L56-L70
This `Get()` method gets the manifest of the image, allocates a slice equal to the length of the layers in the manifest, loops through the layers and adds a new signature to the slice.
The exact issue is Cosign allocates excessive memory on the lines that creates a slice of the same length as the manifests.
## Remediation
Update to the latest version of Cosign, where the number of attestations, signatures and manifests has been limited to a reasonable value.
## Cosign PoC
In the case of this API (also referenced above):
https://github.com/sigstore/cosign/blob/286a98a4a99c1b2f32f84b0d560e324100312280/pkg/oci/remote/signatures.go#L56-L70
… The first line can contain a length that is safe for the system and will not throw a runtime panic or be blocked by other safety mechanisms. For the sake of argument, let’s say that the length of `m, err := s.Manifest()` is the max allowed (by the machine without throwing OOM panics) manifests minus 1. When Cosign then allocates a new slice on this line: `signatures := make([]oci.Signature, 0, len(m.Layers))`, Cosign will allocate more memory than is available and the machine will be denied of service, causing Cosign and all other services on the machine to be unavailable.
To illustrate the issue here, we run a modified version of `TestSignedImageIndex()` in `pkg/oci/remote`:
https://github.com/sigstore/cosign/blob/14795db16417579fac0c00c11e166868d7976b61/pkg/oci/remote/index_test.go#L31-L57
Here, `wantLayers` is the number of manifests from these lines:
https://github.com/sigstore/cosign/blob/286a98a4a99c1b2f32f84b0d560e324100312280/pkg/oci/remote/signatures.go#L56-L60
To test this, we want to make `wantLayers` high enough to not cause a memory on its own but still trigger the machine-wide OOM when a slice gets create with the same length. On my local machine, it would take hours to create a slice of layers that fulfils that criteria, so instead I modify the Cosign production code to reflect a long list of manifests:
```golang
// Get implements oci.Signatures
func (s *sigs) Get() ([]oci.Signature, error) {
m, err := s.Manifest()
if err != nil {
return nil, err
}
// Here we imitate a long list of manifests
ms := make([]byte, 2600000000) // imitate a long list of manifests
signatures := make([]oci.Signature, 0, len(ms))
panic("Done")
//signatures := make([]oci.Signature, 0, len(m.Layers))
for _, desc := range m.Layers {
```
With this modified code, if we can cause an OOM without triggering the `panic("Done")`, we have succeeded.
|
CVE-2024-29903
GHSA-95pr-fxf5-86gv
|
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VCID-q1ze-sun1-xkah
|
Cosign malicious attachments can cause system-wide denial of service
### Summary
A remote image with a malicious attachment can cause denial of service of the host machine running Cosign. This can impact other services on the machine that rely on having memory available such as a Redis database which can result in data loss. It can also impact the availability of other services on the machine that will not be available for the duration of the machine denial.
### Details
The root cause of this issue is that Cosign reads the attachment from a remote image entirely into memory without checking the size of the attachment first. As such, a large attachment can make Cosign read a large attachment into memory; If the attachments size is larger than the machine has memory available, the machine will be denied of service. The Go runtime will make a `SIGKILL` after a few seconds of system-wide denial.
The root cause is that Cosign reads the contents of the attachments entirely into memory on line 238 below:
https://github.com/sigstore/cosign/blob/9bc3ee309bf35d2f6e17f5d23f231a3d8bf580bc/pkg/oci/remote/remote.go#L228-L239
...and prior to that, neither Cosign nor go-containerregistry checks the size of the attachment and enforces a max cap. In the case of a remote layer of `f *attached`, go-containerregistry will invoke this API:
https://github.com/google/go-containerregistry/blob/a0658aa1d0cc7a7f1bcc4a3af9155335b6943f40/pkg/v1/remote/layer.go#L36-L40
```golang
func (rl *remoteLayer) Compressed() (io.ReadCloser, error) {
// We don't want to log binary layers -- this can break terminals.
ctx := redact.NewContext(rl.ctx, "omitting binary blobs from logs")
return rl.fetcher.fetchBlob(ctx, verify.SizeUnknown, rl.digest)
}
```
Notice that the second argument to `rl.fetcher.fetchBlob` is `verify.SizeUnknown` which results in not using the `io.LimitReader` in `verify.ReadCloser`:
https://github.com/google/go-containerregistry/blob/a0658aa1d0cc7a7f1bcc4a3af9155335b6943f40/internal/verify/verify.go#L82-L100
```golang
func ReadCloser(r io.ReadCloser, size int64, h v1.Hash) (io.ReadCloser, error) {
w, err := v1.Hasher(h.Algorithm)
if err != nil {
return nil, err
}
r2 := io.TeeReader(r, w) // pass all writes to the hasher.
if size != SizeUnknown {
r2 = io.LimitReader(r2, size) // if we know the size, limit to that size.
}
return &and.ReadCloser{
Reader: &verifyReader{
inner: r2,
hasher: w,
expected: h,
wantSize: size,
},
CloseFunc: r.Close,
}, nil
}
```
### Impact
This issue can allow a supply-chain escalation from a compromised registry to the Cosign user: If an attacher has compromised a registry or the account of an image vendor, they can include a malicious attachment and hurt the image consumer.
### Remediation
Update to the latest version of Cosign, which limits the number of attachments. An environment variable can override this value.
|
CVE-2024-29902
GHSA-88jx-383q-w4qc
|