| crypto-API support for z990 Message Security Assist (MSA) instructions |
| ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
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| AUTHOR: Thomas Spatzier (tspat@de.ibm.com) |
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| 1. Introduction crypto-API |
| ~~~~~~~~~~~~~~~~~~~~~~~~~~ |
| See Documentation/crypto/api-intro.txt for an introduction/description of the |
| kernel crypto API. |
| According to api-intro.txt support for z990 crypto instructions has been added |
| in the algorithm api layer of the crypto API. Several files containing z990 |
| optimized implementations of crypto algorithms are placed in the |
| arch/s390/crypto directory. |
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| 2. Probing for availability of MSA |
| ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
| It should be possible to use Kernels with the z990 crypto implementations both |
| on machines with MSA available an on those without MSA (pre z990 or z990 |
| without MSA). Therefore a simple probing mechanisms has been implemented: |
| In the init function of each crypto module the availability of MSA and of the |
| respective crypto algorithm in particular will be tested. If the algorithm is |
| available the module will load and register its algorithm with the crypto API. |
| |
| If the respective crypto algorithm is not available, the init function will |
| return -ENOSYS. In that case a fallback to the standard software implementation |
| of the crypto algorithm must be taken ( -> the standard crypto modules are |
| also build when compiling the kernel). |
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| 3. Ensuring z990 crypto module preference |
| ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
| If z990 crypto instructions are available the optimized modules should be |
| preferred instead of standard modules. |
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| 3.1. compiled-in modules |
| ~~~~~~~~~~~~~~~~~~~~~~~~ |
| For compiled-in modules it has to be ensured that the z990 modules are linked |
| before the standard crypto modules. Then, on system startup the init functions |
| of z990 crypto modules will be called first and query for availability of z990 |
| crypto instructions. If instruction is available, the z990 module will register |
| its crypto algorithm implementation -> the load of the standard module will fail |
| since the algorithm is already registered. |
| If z990 crypto instruction is not available the load of the z990 module will |
| fail -> the standard module will load and register its algorithm. |
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| 3.2. dynamic modules |
| ~~~~~~~~~~~~~~~~~~~~ |
| A system administrator has to take care of giving preference to z990 crypto |
| modules. If MSA is available appropriate lines have to be added to |
| /etc/modprobe.conf. |
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| Example: z990 crypto instruction for SHA1 algorithm is available |
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| add the following line to /etc/modprobe.conf (assuming the |
| z990 crypto modules for SHA1 is called sha1_z990): |
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| alias sha1 sha1_z990 |
| |
| -> when the sha1 algorithm is requested through the crypto API |
| (which has a module autoloader) the z990 module will be loaded. |
| |
| TBD: a userspace module probin mechanism |
| something like 'probe sha1 sha1_z990 sha1' in modprobe.conf |
| -> try module sha1_z990, if it fails to load load standard module sha1 |
| the 'probe' statement is currently not supported in modprobe.conf |
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| 4. Currently implemented z990 crypto algorithms |
| ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
| The following crypto algorithms with z990 MSA support are currently implemented. |
| The name of each algorithm under which it is registered in crypto API and the |
| name of the respective module is given in square brackets. |
| |
| - SHA1 Digest Algorithm [sha1 -> sha1_z990] |
| - DES Encrypt/Decrypt Algorithm (64bit key) [des -> des_z990] |
| - Tripple DES Encrypt/Decrypt Algorithm (128bit key) [des3_ede128 -> des_z990] |
| - Tripple DES Encrypt/Decrypt Algorithm (192bit key) [des3_ede -> des_z990] |
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| In order to load, for example, the sha1_z990 module when the sha1 algorithm is |
| requested (see 3.2.) add 'alias sha1 sha1_z990' to /etc/modprobe.conf. |
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