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43818f8614
Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
241 lines
18 KiB
Markdown
241 lines
18 KiB
Markdown
Conditional inclusion of cryptographic mechanism through the PSA API in Mbed TLS
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================================================================================
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This document is a proposed interface for deciding at build time which cryptographic mechanisms to include in the PSA Cryptography interface.
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This is currently a proposal for Mbed TLS. It is not currently on track for standardization in PSA.
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Time-stamp: "2020/11/19 10:24:03 GMT"
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## Introduction
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### Purpose of this specification
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The [PSA Cryptography API specification](https://armmbed.github.io/mbed-crypto/psa/#application-programming-interface) specifies the interface between a PSA Cryptography implementation and an application. The interface defines a number of categories of cryptographic algorithms (hashes, MAC, signatures, etc.). In each category, a typical implementation offers many algorithms (e.g. for signatures: RSA-PKCS#1v1.5, RSA-PSS, ECDSA). When building the implementation for a specific use case, it is often desirable to include only a subset of the available cryptographic mechanisms, primarily in order to reduce the code footprint of the compiled system.
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The present document proposes a way for an application using the PSA cryptography interface to declare which mechanisms it requires.
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### Conditional inclusion of legacy cryptography modules
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Mbed TLS offers a way to select which cryptographic mechanisms are included in a build through its configuration file (`config.h`). This mechanism is based on two main sets of symbols: `MBEDTLS_xxx_C` controls the availability of the mechanism to the application, and `MBEDTLS_xxx_ALT` controls the availability of an alternative implementation, so the software implementation is only included if `MBEDTLS_xxx_C` is defined but not `MBEDTLS_xxx_ALT`.
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### PSA evolution
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In the PSA cryptography interface, the **core** (built-in implementations of cryptographic mechanisms) can be augmented with drivers. **Transparent drivers** replace the built-in implementation of a cryptographic mechanism (or, with **fallback**, the built-in implementation is tried if the driver only has partial support for the mechanism). **Opaque drivers** implement cryptographic mechanisms on keys which are stored in a separate domain such as a secure element, for which the core only does key management and dispatch using wrapped key blobs or key identifiers.
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The current model is difficult to adapt to the PSA interface for several reasons. The `MBEDTLS_xxx_ALT` symbols are somewhat inconsistent, and in particular do not work well for asymmetric cryptography. For example, many parts of the ECC code have no `MBEDTLS_xxx_ALT` symbol, so a platform with ECC acceleration that can perform all ECDSA and ECDH operations in the accelerator would still embark the `bignum` module and large parts of the `ecp_curves`, `ecp` and `ecdsa` modules. Also the availability of a transparent driver for a mechanism does not translate directly to `MBEDTLS_xxx` symbols.
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### Requirements
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[Req.interface] The application can declare which cryptographic mechanisms it needs.
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[Req.inclusion] If the application does not require a mechanism, a suitably configured Mbed TLS build must not include it. The granularity of mechanisms must work for typical use cases and has [acceptable limitations](#acceptable-limitations).
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[Req.drivers] If a PSA driver is available in the build, a suitably configured Mbed TLS build must not include the corresponding software code (unless a software fallback is needed).
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[Req.c] The configuration mechanism consists of C preprocessor definitions, and the build does not require tools other than a C compiler. This is necessary to allow building an application and Mbed TLS in development environments that do not allow third-party tools.
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[Req.adaptability] The implementation of the mechanism must be adaptable with future evolution of the PSA cryptography specifications and Mbed TLS. Therefore the interface must remain sufficiently simple and abstract.
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### Acceptable limitations
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[Limitation.matrix] If a mechanism is defined by a combination of algorithms and key types, for example a block cipher mode (CBC, CTR, CFB, …) and a block permutation (AES, CAMELLIA, ARIA, …), there is no requirement to include only specific combinations.
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[Limitation.direction] For mechanisms that have multiple directions (for example encrypt/decrypt, sign/verify), there is no requirement to include only one direction.
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[Limitation.size] There is no requirement to include only support for certain key sizes.
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[Limitation.multipart] Where there are multiple ways to perform an operation, for example single-part and multi-part, there is no mechanism to select only one or a subset of the possible ways.
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## Interface
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### PSA Crypto configuration file
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The PSA Crypto configuration file `psa/crypto_config.h` defines a series of symbols of the form `PSA_WANT_xxx` where `xxx` describes the feature that the symbol enables. The symbols are documented in the section [“PSA Crypto configuration symbols”](#psa-crypto-configuration-symbols) below.
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The symbol `MBEDTLS_PSA_CRYPTO_CONFIG` in `mbedtls/config.h` determines whether `psa/crypto_config.h` is used.
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* If `MBEDTLS_PSA_CRYPTO_CONFIG` is unset, which is the default at least in Mbed TLS 2.x versions, things are as they are today: the PSA subsystem includes generic code unconditionally, and includes support for specific mechanisms conditionally based on the existing `MBEDTLS_xxx_` symbols.
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* If `MBEDTLS_PSA_CRYPTO_CONFIG` is set, the necessary software implementations of cryptographic algorithms are included based on both the content of the PSA Crypto configuration file and the Mbed TLS configuration file. For example, the code in `aes.c` is enabled if either `mbedtls/config.h` contains `MBEDTLS_AES_C` or `psa/crypto_config.h` contains `PSA_WANT_KEY_TYPE_AES`.
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### PSA Crypto configuration symbols
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#### Configuration symbol syntax
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A PSA Crypto configuration symbol is a C preprocessor symbol whose name starts with `PSA_WANT_`.
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* If the symbol is not defined, the corresponding feature is not included.
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* If the symbol is defined to a preprocessor expression with the value `1`, the corresponding feature is included.
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* If the symbol is defined with a different value, the behavior is currently undefined and reserved for future use.
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#### Configuration symbol usage
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The presence of a symbol `PSA_WANT_xxx` in the Mbed TLS configuration determines whether a feature is available through the PSA API. These symbols should be used in any place that requires conditional compilation based on the availability of a cryptographic mechanism through the PSA API, including:
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* In Mbed TLS test code.
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* In Mbed TLS library code using `MBEDTLS_USE_PSA_CRYPTO`, for example in TLS to determine which cipher suites to enable.
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* In application code that provides additional features based on cryptographic capabilities, for example additional key parsing and formatting functions, or cipher suite availability for network protocols.
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#### Configuration symbol semantics
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If a feature is not requested for inclusion in the PSA Crypto configuration file, it may still be included in the build, either because the feature has been requested in some other way, or because the library does not support the exclusion of this feature. Mbed TLS should make a best effort to support the exclusion of all features, but in some cases this may be judged too much effort for too little benefit.
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#### Configuration symbols for key types
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For each constant or constructor macro of the form `PSA_KEY_TYPE_xxx`, the symbol **`PSA_WANT_KEY_TYPE_xxx`** indicates that support for this key type is desired.
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For asymmetric cryptography, `PSA_WANT_KEY_TYPE_xxx_KEY_PAIR` determines whether private-key operations are desired, and `PSA_WANT_KEY_TYPE_xxx_PUBLIC_KEY` determines whether public-key operations are desired. `PSA_WANT_KEY_TYPE_xxx_KEY_PAIR` implicitly enables `PSA_WANT_KEY_TYPE_xxx_PUBLIC_KEY`: there is no way to only include private-key operations (which typically saves little code).
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#### Configuration symbols for curves
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For elliptic curve key types, only the specified curves are included. To include a curve, include a symbol of the form **`PSA_WANT_ECC_family_size`**. For example: `PSA_WANT_ECC_SECP_R1_256` for secp256r1, `PSA_WANT_ECC_MONTGOMERY_CURVE25519`. It is an error to require an ECC key type but no curve, and Mbed TLS will reject this at compile time.
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#### Configuration symbols for algorithms
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For each constant or constructor macro of the form `PSA_ALG_xxx`, the symbol **`PSA_WANT_ALG_xxx`** indicates that support for this algorithm is desired.
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For parametrized algorithms, the `PSA_WANT_ALG_xxx` symbol indicates whether the base mechanism is supported. Parameters must themselves be included through their own `PSA_WANT_ALG_xxx` symbols. It is an error to include a base mechanism without at least one possible parameter, and Mbed TLS will reject this at compile time. For example, `PSA_WANT_ALG_ECDSA` requires the inclusion of randomized ECDSA for all hash algorithms whose corresponding symbol `PSA_WANT_ALG_xxx` is enabled.
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## Implementation
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### Additional non-public symbols
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#### Accounting for transparent drivers
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In addition to the [configuration symbols](#psa-crypto-configuration-symbols), we need two parallel or mostly parallel sets of symbols:
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* **`MBEDTLS_PSA_ACCEL_xxx`** indicates whether a fully-featured, fallback-free transparent driver is available.
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* **`MBEDTLS_PSA_BUILTIN_xxx`** indicates whether the software implementation is needed.
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`MBEDTLS_PSA_ACCEL_xxx` is one of the outputs of the transpilation of a driver description, alongside the glue code for calling the drivers.
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`MBEDTLS_PSA_BUILTIN_xxx` is enabled when `PSA_WANT_xxx` is enabled and `MBEDTLS_PSA_ACCEL_xxx` is disabled.
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These symbols are not part of the public interface of Mbed TLS towards applications or to drivers, regardless of whether the symbols are actually visible.
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### Architecture of symbol definitions
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#### New-style definition of configuration symbols
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When `MBEDTLS_PSA_CRYPTO_CONFIG` is set, the header file `mbedtls/config.h` needs to define all the `MBEDTLS_xxx_C` configuration symbols, including the ones deduced from the PSA Crypto configuration. It does this by including the new header file **`mbedtls/config_psa.h`**, which defines the `MBEDTLS_PSA_BUILTIN_xxx` symbols and deduces the corresponding `MBEDTLS_xxx_C` (and other) symbols.
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`mbedtls/config_psa.h` includes `psa/crypto_config.h`, the user-editable file that defines application requirements.
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#### Old-style definition of configuration symbols
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When `MBEDTLS_PSA_CRYPTO_CONFIG` is not set, the configuration of Mbed TLS works as before, and the inclusion of non-PSA code only depends on `MBEDTLS_xxx` symbols defined (or not) in `mbedtls/config.h`. Furthermore, the new header file **`mbedtls/config_psa.h`** deduces PSA configuration symbols (`PSA_WANT_xxx`, `MBEDTLS_PSA_BUILTIN_xxx`) from classic configuration symbols (`MBEDTLS_xxx`).
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The `PSA_WANT_xxx` definitions in `mbedtls/config_psa.h` are needed not only to build the PSA parts of the library, but also to build code that uses these parts. This includes structure definitions in `psa/crypto_struct.h`, size calculations in `psa/crypto_sizes.h`, and application code that's specific to a given cryptographic mechanism. In Mbed TLS itself, code under `MBEDTLS_USE_PSA_CRYPTO` and conditional compilation guards in tests and sample programs need `PSA_WANT_xxx`.
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Since some existing applications use a handwritten `mbedtls/config.h` or an edited copy of `mbedtls/config.h` from an earlier version of Mbed TLS, `mbedtls/config_psa.h` must be included via an already existing header that is not `mbedtls/config.h`, so it is included via `psa/crypto.h` (for example from `psa/crypto_platform.h`).
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#### Summary of definitions of configuration symbols
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Whether `MBEDTLS_PSA_CRYPTO_CONFIG` is set or not, `mbedtls/config_psa.h` includes `mbedtls/crypto_drivers.h`, a header file generated by the transpilation of the driver descriptions. It defines `MBEDTLS_PSA_ACCEL_xxx` symbols according to the availability of transparent drivers without fallback.
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The following table summarizes where symbols are defined depending on the configuration mode.
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* (U) indicates a symbol that is defined by the user (application).
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* (D) indicates a symbol that is deduced from other symbols by code that ships with Mbed TLS.
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* (G) indicates a symbol that is generated from driver descriptions.
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------------------------------------------------------------------------------------------------
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Symbols With `MBEDTLS_PSA_CRYPTO_CONFIG` Without `MBEDTLS_PSA_CRYPTO_CONFIG`
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------------------------- -------------------------------- -----------------------------------
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`MBEDTLS_xxx_C` `mbedtls/config.h` (U) or `mbedtls/config.h` (U)
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`mbedtls/config_psa.h` (D)
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`PSA_WANT_xxx` `psa/crypto_config.h` (U) `mbedtls/config_psa.h (D)
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`MBEDTLS_PSA_BUILTIN_xxx` `mbedtls/config_psa.h` (D) `mbedtls/config_psa.h` (D)
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`MBEDTLS_PSA_ACCEL_xxx` `mbedtls/crypto_drivers.h` (G) N/A
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------------------------------------------------------------------------------------------------
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#### Visibility of internal symbols
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Ideally, the `MBEDTLS_PSA_ACCEL_xxx` and `MBEDTLS_PSA_BUILTIN_xxx` symbols should not be visible to application code or driver code, since they are not part of the public interface of the library. However these symbols are needed to deduce whether to include library modules (for example `MBEDTLS_AES_C` has to be enabled if `MBEDTLS_PSA_BUILTIN_KEY_TYPE_AES` is enabled), which makes it difficult to keep them private.
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#### Compile-time checks
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The header file **`library/psa_check_config.h`** applies sanity checks to the configuration, throwing `#error` if something is wrong.
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A mechanism similar to `mbedtls/check_config.h` detects errors such as enabling ECDSA but no curve.
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Since configuration symbols must be undefined or 1, any other value should trigger an `#error`.
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#### Automatic generation of preprocessor symbol manipulations
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A lot of the preprocessor symbol manipulation is systematic calculations that analyze the configuration. `mbedtls/config_psa.h` and `library/psa_check_config.h` should be generated automatically, in the same manner as `version_features.c`.
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### Structure of PSA Crypto library code
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#### Conditional inclusion of library entry points
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An entry point can be eliminated entirely if no algorithm requires it.
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#### Conditional inclusion of mechanism-specific code
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Code that is specific to certain key types or to certain algorithms must be guarded by the applicable symbols: `PSA_WANT_xxx` for code that is independent of the application, and `MBEDTLS_PSA_BUILTIN_xxx` for code that calls an Mbed TLS software implementation.
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## PSA standardization
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### JSON configuration mechanism
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At the time of writing, the preferred configuration mechanism for a PSA service is in JSON syntax. The translation from JSON to build instructions is not specified by PSA.
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For PSA Crypto, the preferred configuration mechanism would be similar to capability specifications of transparent drivers. The same JSON properties that are used to mean “this driver can perform that mechanism” in a driver description would be used to mean “the application wants to perform that mechanism” in the application configuration.
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### From JSON to C
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The JSON capability language allows a more fine-grained selection than the C mechanism proposed here. For example, it allows requesting only single-part mechanisms, only certain key sizes, or only certain combinations of algorithms and key types.
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The JSON capability language can be translated approximately to the boolean symbol mechanism proposed here. The approximation considers a feature to be enabled if any part of it is enabled. For example, if there is a capability for AES-CTR and one for CAMELLIA-GCM, the translation to boolean symbols will also include AES-GCM and CAMELLIA-CTR. If there is a capability for AES-128, the translation will also include AES-192 and AES-256.
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The boolean symbol mechanism proposed here can be translated to a list of JSON capabilities: for each included algorithm, include a capability with that algorithm, the key types that apply to that algorithm, no size restriction, and all the entry points that apply to that algorithm.
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## Open questions
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### Open questions about the interface
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#### Naming of symbols
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The names of [elliptic curve symbols](#configuration-symbols-for-curves) are a bit weird: `SECP_R1_256` instead of `SECP256R1`. Should we make them more classical, but less systematic?
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#### Impossible combinations
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What does it mean to have `PSA_WANT_ALG_ECDSA` enabled but with only Curve25519? Is it a mandatory error?
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#### Diffie-Hellman
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Way to request only specific groups? Not a priority: constrained devices don't do FFDH. Specify it as may change in future versions.
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#### Coexistence with the current Mbed TLS configuration
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The two mechanisms have very different designs. Is there serious potential for confusion? Do we understand how the combinations work?
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### Open questions about the design
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#### Algorithms without a key type or vice versa
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Is it realistic to mandate a compile-time error if a key type is required, but no matching algorithm, or vice versa? Is it always the right thing, for example if there is an opaque driver that manipulates this key type?
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#### Opaque-only mechanisms
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If a mechanism should only be supported in an opaque driver, what does the core need to know about it? Do we have all the information we need?
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This is especially relevant to suppress a mechanism completely if there is no matching algorithm. For example, if there is no transparent implementation of RSA or ECDSA, `psa_sign_hash` and `psa_verify_hash` may still be needed if there is an opaque signature driver.
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### Open questions about the implementation
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#### Testability
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Is this proposal decently testable? There are a lot of combinations. What combinations should we test?
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