90 lines
3.7 KiB
C
90 lines
3.7 KiB
C
#ifndef HEADER_OPENSSLV_H
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#define HEADER_OPENSSLV_H
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/* Numeric release version identifier:
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* MNNFFPPS: major minor fix patch status
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* The status nibble has one of the values 0 for development, 1 to e for betas
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* 1 to 14, and f for release. The patch level is exactly that.
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* For example:
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* 0.9.3-dev 0x00903000
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* 0.9.3-beta1 0x00903001
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* 0.9.3-beta2-dev 0x00903002
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* 0.9.3-beta2 0x00903002 (same as ...beta2-dev)
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* 0.9.3 0x0090300f
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* 0.9.3a 0x0090301f
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* 0.9.4 0x0090400f
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* 1.2.3z 0x102031af
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*
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* For continuity reasons (because 0.9.5 is already out, and is coded
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* 0x00905100), between 0.9.5 and 0.9.6 the coding of the patch level
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* part is slightly different, by setting the highest bit. This means
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* that 0.9.5a looks like this: 0x0090581f. At 0.9.6, we can start
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* with 0x0090600S...
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*
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* (Prior to 0.9.3-dev a different scheme was used: 0.9.2b is 0x0922.)
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* (Prior to 0.9.5a beta1, a different scheme was used: MMNNFFRBB for
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* major minor fix final patch/beta)
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*/
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#define OPENSSL_VERSION_NUMBER 0x1000007fL
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#ifdef OPENSSL_FIPS
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#define OPENSSL_VERSION_TEXT "OpenSSL 1.0.0g-fips 18 Jan 2012"
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#else
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#define OPENSSL_VERSION_TEXT "OpenSSL 1.0.0g 18 Jan 2012"
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#endif
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#define OPENSSL_VERSION_PTEXT " part of " OPENSSL_VERSION_TEXT
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/* The macros below are to be used for shared library (.so, .dll, ...)
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* versioning. That kind of versioning works a bit differently between
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* operating systems. The most usual scheme is to set a major and a minor
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* number, and have the runtime loader check that the major number is equal
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* to what it was at application link time, while the minor number has to
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* be greater or equal to what it was at application link time. With this
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* scheme, the version number is usually part of the file name, like this:
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*
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* libcrypto.so.0.9
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*
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* Some unixen also make a softlink with the major verson number only:
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*
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* libcrypto.so.0
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*
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* On Tru64 and IRIX 6.x it works a little bit differently. There, the
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* shared library version is stored in the file, and is actually a series
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* of versions, separated by colons. The rightmost version present in the
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* library when linking an application is stored in the application to be
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* matched at run time. When the application is run, a check is done to
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* see if the library version stored in the application matches any of the
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* versions in the version string of the library itself.
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* This version string can be constructed in any way, depending on what
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* kind of matching is desired. However, to implement the same scheme as
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* the one used in the other unixen, all compatible versions, from lowest
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* to highest, should be part of the string. Consecutive builds would
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* give the following versions strings:
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*
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* 3.0
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* 3.0:3.1
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* 3.0:3.1:3.2
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* 4.0
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* 4.0:4.1
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*
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* Notice how version 4 is completely incompatible with version, and
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* therefore give the breach you can see.
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*
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* There may be other schemes as well that I haven't yet discovered.
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*
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* So, here's the way it works here: first of all, the library version
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* number doesn't need at all to match the overall OpenSSL version.
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* However, it's nice and more understandable if it actually does.
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* The current library version is stored in the macro SHLIB_VERSION_NUMBER,
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* which is just a piece of text in the format "M.m.e" (Major, minor, edit).
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* For the sake of Tru64, IRIX, and any other OS that behaves in similar ways,
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* we need to keep a history of version numbers, which is done in the
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* macro SHLIB_VERSION_HISTORY. The numbers are separated by colons and
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* should only keep the versions that are binary compatible with the current.
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*/
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#define SHLIB_VERSION_HISTORY ""
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#define SHLIB_VERSION_NUMBER "1.0.0"
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#endif /* HEADER_OPENSSLV_H */
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