apk package
chainguard/crossplane-function-auto-ready-fips-compat
pkg:apk/chainguard/crossplane-function-auto-ready-fips-compat
Vulnerabilities (11)
| CVE | Sev | CVSS | KEV | Affected versions | Fixed in | Published | Description |
|---|---|---|---|---|---|---|---|
| CVE-2025-61725 | Hig | 7.5 | < 0.5.1-r1 | 0.5.1-r1 | Oct 29, 2025 | The ParseAddress function constructs domain-literal address components through repeated string concatenation. When parsing large domain-literal components, this can cause excessive CPU consumption. | |
| CVE-2025-58186 | Med | 5.3 | < 0.5.1-r1 | 0.5.1-r1 | Oct 29, 2025 | Despite HTTP headers having a default limit of 1MB, the number of cookies that can be parsed does not have a limit. By sending a lot of very small cookies such as "a=;", an attacker can make an HTTP server allocate a large amount of structs, causing large memory consumption. | |
| CVE-2025-58183 | Med | 4.3 | < 0.5.1-r1 | 0.5.1-r1 | Oct 29, 2025 | tar.Reader does not set a maximum size on the number of sparse region data blocks in GNU tar pax 1.0 sparse files. A maliciously-crafted archive containing a large number of sparse regions can cause a Reader to read an unbounded amount of data from the archive into memory. When r | |
| CVE-2025-61724 | — | < 0.5.1-r1 | 0.5.1-r1 | Oct 29, 2025 | The Reader.ReadResponse function constructs a response string through repeated string concatenation of lines. When the number of lines in a response is large, this can cause excessive CPU consumption. | ||
| CVE-2025-58188 | — | < 0.5.1-r1 | 0.5.1-r1 | Oct 29, 2025 | Validating certificate chains which contain DSA public keys can cause programs to panic, due to a interface cast that assumes they implement the Equal method. This affects programs which validate arbitrary certificate chains. | ||
| CVE-2025-58185 | — | < 0.5.1-r1 | 0.5.1-r1 | Oct 29, 2025 | Parsing a maliciously crafted DER payload could allocate large amounts of memory, causing memory exhaustion. | ||
| CVE-2025-47912 | — | < 0.5.1-r1 | 0.5.1-r1 | Oct 29, 2025 | The Parse function permits values other than IPv6 addresses to be included in square brackets within the host component of a URL. RFC 3986 permits IPv6 addresses to be included within the host component, enclosed within square brackets. For example: "http://[::1]/". IPv4 addresse | ||
| CVE-2025-61723 | — | < 0.5.1-r1 | 0.5.1-r1 | Oct 29, 2025 | The processing time for parsing some invalid inputs scales non-linearly with respect to the size of the input. This affects programs which parse untrusted PEM inputs. | ||
| CVE-2025-58189 | — | < 0.5.1-r1 | 0.5.1-r1 | Oct 29, 2025 | When Conn.Handshake fails during ALPN negotiation the error contains attacker controlled information (the ALPN protocols sent by the client) which is not escaped. | ||
| CVE-2025-58187 | — | < 0.5.1-r1 | 0.5.1-r1 | Oct 29, 2025 | Due to the design of the name constraint checking algorithm, the processing time of some inputs scale non-linearly with respect to the size of the certificate. This affects programs which validate arbitrary certificate chains. | ||
| CVE-2025-22868 | — | < 0.5.0-r1 | 0.5.0-r1 | Feb 26, 2025 | An attacker can pass a malicious malformed token which causes unexpected memory to be consumed during parsing. |
- affected < 0.5.1-r1fixed 0.5.1-r1
The ParseAddress function constructs domain-literal address components through repeated string concatenation. When parsing large domain-literal components, this can cause excessive CPU consumption.
- affected < 0.5.1-r1fixed 0.5.1-r1
Despite HTTP headers having a default limit of 1MB, the number of cookies that can be parsed does not have a limit. By sending a lot of very small cookies such as "a=;", an attacker can make an HTTP server allocate a large amount of structs, causing large memory consumption.
- affected < 0.5.1-r1fixed 0.5.1-r1
tar.Reader does not set a maximum size on the number of sparse region data blocks in GNU tar pax 1.0 sparse files. A maliciously-crafted archive containing a large number of sparse regions can cause a Reader to read an unbounded amount of data from the archive into memory. When r
- CVE-2025-61724Oct 29, 2025affected < 0.5.1-r1fixed 0.5.1-r1
The Reader.ReadResponse function constructs a response string through repeated string concatenation of lines. When the number of lines in a response is large, this can cause excessive CPU consumption.
- CVE-2025-58188Oct 29, 2025affected < 0.5.1-r1fixed 0.5.1-r1
Validating certificate chains which contain DSA public keys can cause programs to panic, due to a interface cast that assumes they implement the Equal method. This affects programs which validate arbitrary certificate chains.
- CVE-2025-58185Oct 29, 2025affected < 0.5.1-r1fixed 0.5.1-r1
Parsing a maliciously crafted DER payload could allocate large amounts of memory, causing memory exhaustion.
- CVE-2025-47912Oct 29, 2025affected < 0.5.1-r1fixed 0.5.1-r1
The Parse function permits values other than IPv6 addresses to be included in square brackets within the host component of a URL. RFC 3986 permits IPv6 addresses to be included within the host component, enclosed within square brackets. For example: "http://[::1]/". IPv4 addresse
- CVE-2025-61723Oct 29, 2025affected < 0.5.1-r1fixed 0.5.1-r1
The processing time for parsing some invalid inputs scales non-linearly with respect to the size of the input. This affects programs which parse untrusted PEM inputs.
- CVE-2025-58189Oct 29, 2025affected < 0.5.1-r1fixed 0.5.1-r1
When Conn.Handshake fails during ALPN negotiation the error contains attacker controlled information (the ALPN protocols sent by the client) which is not escaped.
- CVE-2025-58187Oct 29, 2025affected < 0.5.1-r1fixed 0.5.1-r1
Due to the design of the name constraint checking algorithm, the processing time of some inputs scale non-linearly with respect to the size of the certificate. This affects programs which validate arbitrary certificate chains.
- CVE-2025-22868Feb 26, 2025affected < 0.5.0-r1fixed 0.5.0-r1
An attacker can pass a malicious malformed token which causes unexpected memory to be consumed during parsing.