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.\" Automatically generated by Pod::Man 4.11 (Pod::Simple 3.35) .\" .\" Standard preamble: .\" ======================================================================== .de Sp \" Vertical space (when we can't use .PP) .if t .sp .5v .if n .sp .. .de Vb \" Begin verbatim text .ft CW .nf .ne \\$1 .. .de Ve \" End verbatim text .ft R .fi .. .\" Set up some character translations and predefined strings. \*(-- will .\" give an unbreakable dash, \*(PI will give pi, \*(L" will give a left .\" double quote, and \*(R" will give a right double quote. \*(C+ will .\" give a nicer C++. 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No user-serviceable parts. . \" fudge factors for nroff and troff .if n \{\ . ds #H 0 . ds #V .8m . ds #F .3m . ds #[ \f1 . ds #] \fP .\} .if t \{\ . ds #H ((1u-(\\\\n(.fu%2u))*.13m) . ds #V .6m . ds #F 0 . ds #[ \& . ds #] \& .\} . \" simple accents for nroff and troff .if n \{\ . ds ' \& . ds ` \& . ds ^ \& . ds , \& . ds ~ ~ . ds / .\} .if t \{\ . ds ' \\k:\h'-(\\n(.wu*8/10-\*(#H)'\'\h"|\\n:u" . ds ` \\k:\h'-(\\n(.wu*8/10-\*(#H)'\`\h'|\\n:u' . ds ^ \\k:\h'-(\\n(.wu*10/11-\*(#H)'^\h'|\\n:u' . ds , \\k:\h'-(\\n(.wu*8/10)',\h'|\\n:u' . ds ~ \\k:\h'-(\\n(.wu-\*(#H-.1m)'~\h'|\\n:u' . ds / \\k:\h'-(\\n(.wu*8/10-\*(#H)'\z\(sl\h'|\\n:u' .\} . \" troff and (daisy-wheel) nroff accents .ds : \\k:\h'-(\\n(.wu*8/10-\*(#H+.1m+\*(#F)'\v'-\*(#V'\z.\h'.2m+\*(#F'.\h'|\\n:u'\v'\*(#V' .ds 8 \h'\*(#H'\(*b\h'-\*(#H' .ds o \\k:\h'-(\\n(.wu+\w'\(de'u-\*(#H)/2u'\v'-.3n'\*(#[\z\(de\v'.3n'\h'|\\n:u'\*(#] .ds d- \h'\*(#H'\(pd\h'-\w'~'u'\v'-.25m'\f2\(hy\fP\v'.25m'\h'-\*(#H' .ds D- D\\k:\h'-\w'D'u'\v'-.11m'\z\(hy\v'.11m'\h'|\\n:u' .ds th \*(#[\v'.3m'\s+1I\s-1\v'-.3m'\h'-(\w'I'u*2/3)'\s-1o\s+1\*(#] .ds Th \*(#[\s+2I\s-2\h'-\w'I'u*3/5'\v'-.3m'o\v'.3m'\*(#] .ds ae a\h'-(\w'a'u*4/10)'e .ds Ae A\h'-(\w'A'u*4/10)'E . \" corrections for vroff .if v .ds ~ \\k:\h'-(\\n(.wu*9/10-\*(#H)'\s-2\u~\d\s+2\h'|\\n:u' .if v .ds ^ \\k:\h'-(\\n(.wu*10/11-\*(#H)'\v'-.4m'^\v'.4m'\h'|\\n:u' . \" for low resolution devices (crt and lpr) .if \n(.H>23 .if \n(.V>19 \ \{\ . ds : e . ds 8 ss . ds o a . ds d- d\h'-1'\(ga . ds D- D\h'-1'\(hy . ds th \o'bp' . ds Th \o'LP' . ds ae ae . ds Ae AE .\} .rm #[ #] #H #V #F C .\" ======================================================================== .\" .IX Title "CRYPTO_GET_EX_NEW_INDEX 3" .TH CRYPTO_GET_EX_NEW_INDEX 3 "2023-09-11" "1.1.1w" "OpenSSL" .\" For nroff, turn off justification. Always turn off hyphenation; it makes .\" way too many mistakes in technical documents. .if n .ad l .nh .SH "NAME" CRYPTO_EX_new, CRYPTO_EX_free, CRYPTO_EX_dup, CRYPTO_free_ex_index, CRYPTO_get_ex_new_index, CRYPTO_set_ex_data, CRYPTO_get_ex_data, CRYPTO_free_ex_data, CRYPTO_new_ex_data \&\- functions supporting application\-specific data .SH "SYNOPSIS" .IX Header "SYNOPSIS" .Vb 1 \& #include <openssl/crypto.h> \& \& int CRYPTO_get_ex_new_index(int class_index, \& long argl, void *argp, \& CRYPTO_EX_new *new_func, \& CRYPTO_EX_dup *dup_func, \& CRYPTO_EX_free *free_func); \& \& typedef void CRYPTO_EX_new(void *parent, void *ptr, CRYPTO_EX_DATA *ad, \& int idx, long argl, void *argp); \& typedef void CRYPTO_EX_free(void *parent, void *ptr, CRYPTO_EX_DATA *ad, \& int idx, long argl, void *argp); \& typedef int CRYPTO_EX_dup(CRYPTO_EX_DATA *to, const CRYPTO_EX_DATA *from, \& void *from_d, int idx, long argl, void *argp); \& \& int CRYPTO_new_ex_data(int class_index, void *obj, CRYPTO_EX_DATA *ad) \& \& int CRYPTO_set_ex_data(CRYPTO_EX_DATA *r, int idx, void *arg); \& \& void *CRYPTO_get_ex_data(CRYPTO_EX_DATA *r, int idx); \& \& void CRYPTO_free_ex_data(int class_index, void *obj, CRYPTO_EX_DATA *r); \& \& int CRYPTO_free_ex_index(int class_index, int idx); .Ve .SH "DESCRIPTION" .IX Header "DESCRIPTION" Several OpenSSL structures can have application-specific data attached to them, known as \*(L"exdata.\*(R" The specific structures are: .PP .Vb 10 \& APP \& BIO \& DH \& DRBG \& DSA \& EC_KEY \& ENGINE \& RSA \& SSL \& SSL_CTX \& SSL_SESSION \& UI \& UI_METHOD \& X509 \& X509_STORE \& X509_STORE_CTX .Ve .PP Each is identified by an \fBCRYPTO_EX_INDEX_xxx\fR define in the \fBcrypto.h\fR header file. In addition, \fB\s-1CRYPTO_EX_INDEX_APP\s0\fR is reserved for applications to use this facility for their own structures. .PP The \s-1API\s0 described here is used by OpenSSL to manipulate exdata for specific structures. Since the application data can be anything at all it is passed and retrieved as a \fBvoid *\fR type. .PP The \fB\s-1CRYPTO_EX_DATA\s0\fR type is opaque. To initialize the exdata part of a structure, call \fBCRYPTO_new_ex_data()\fR. This is only necessary for \&\fB\s-1CRYPTO_EX_INDEX_APP\s0\fR objects. .PP Exdata types are identified by an \fBindex\fR, an integer guaranteed to be unique within structures for the lifetime of the program. Applications using exdata typically call \fBCRYPTO_get_ex_new_index\fR at startup, and store the result in a global variable, or write a wrapper function to provide lazy evaluation. The \fBclass_index\fR should be one of the \&\fBCRYPTO_EX_INDEX_xxx\fR values. The \fBargl\fR and \fBargp\fR parameters are saved to be passed to the callbacks but are otherwise not used. In order to transparently manipulate exdata, three callbacks must be provided. The semantics of those callbacks are described below. .PP When copying or releasing objects with exdata, the callback functions are called in increasing order of their \fBindex\fR value. .PP If a dynamic library can be unloaded, it should call \fBCRYPTO_free_ex_index()\fR when this is done. This will replace the callbacks with no-ops so that applications don't crash. Any existing exdata will be leaked. .PP To set or get the exdata on an object, the appropriate type-specific routine must be used. This is because the containing structure is opaque and the \fB\s-1CRYPTO_EX_DATA\s0\fR field is not accessible. In both \s-1API\s0's, the \&\fBidx\fR parameter should be an already-created index value. .PP When setting exdata, the pointer specified with a particular index is saved, and returned on a subsequent \*(L"get\*(R" call. If the application is going to release the data, it must make sure to set a \fB\s-1NULL\s0\fR value at the index, to avoid likely double-free crashes. .PP The function \fBCRYPTO_free_ex_data\fR is used to free all exdata attached to a structure. The appropriate type-specific routine must be used. The \fBclass_index\fR identifies the structure type, the \fBobj\fR is a pointer to the actual structure, and \fBr\fR is a pointer to the structure's exdata field. .SS "Callback Functions" .IX Subsection "Callback Functions" This section describes how the callback functions are used. Applications that are defining their own exdata using \fB\s-1CYPRTO_EX_INDEX_APP\s0\fR must call them as described here. .PP When a structure is initially allocated (such as \fBRSA_new()\fR) then the \&\fBnew_func()\fR is called for every defined index. There is no requirement that the entire parent, or containing, structure has been set up. The \fBnew_func()\fR is typically used only to allocate memory to store the exdata, and perhaps an \*(L"initialized\*(R" flag within that memory. The exdata value should be set by calling \fBCRYPTO_set_ex_data()\fR. .PP When a structure is free'd (such as \fBSSL_CTX_free()\fR) then the \&\fBfree_func()\fR is called for every defined index. Again, the state of the parent structure is not guaranteed. The \fBfree_func()\fR may be called with a \&\s-1NULL\s0 pointer. .PP Both \fBnew_func()\fR and \fBfree_func()\fR take the same parameters. The \fBparent\fR is the pointer to the structure that contains the exdata. The \fBptr\fR is the current exdata item; for \fBnew_func()\fR this will typically be \s-1NULL.\s0 The \fBr\fR parameter is a pointer to the exdata field of the object. The \fBidx\fR is the index and is the value returned when the callbacks were initially registered via \fBCRYPTO_get_ex_new_index()\fR and can be used if the same callback handles different types of exdata. .PP \&\fBdup_func()\fR is called when a structure is being copied. This is only done for \fB\s-1SSL\s0\fR, \fB\s-1SSL_SESSION\s0\fR, \fB\s-1EC_KEY\s0\fR objects and \fB\s-1BIO\s0\fR chains via \&\fBBIO_dup_chain()\fR. The \fBto\fR and \fBfrom\fR parameters are pointers to the destination and source \fB\s-1CRYPTO_EX_DATA\s0\fR structures, respectively. The \fBfrom_d\fR parameter needs to be cast to a \fBvoid **pptr\fR as the \s-1API\s0 has currently the wrong signature; that will be changed in a future version. The \fB*pptr\fR is a pointer to the source exdata. When the \fBdup_func()\fR returns, the value in \fB*pptr\fR is copied to the destination ex_data. If the pointer contained in \fB*pptr\fR is not modified by the \fBdup_func()\fR, then both \fBto\fR and \fBfrom\fR will point to the same data. The \fBidx\fR, \fBargl\fR and \fBargp\fR parameters are as described for the other two callbacks. If the \fBdup_func()\fR returns \fB0\fR the whole \fBCRYPTO_dup_ex_data()\fR will fail. .SH "RETURN VALUES" .IX Header "RETURN VALUES" \&\fBCRYPTO_get_ex_new_index()\fR returns a new index or \-1 on failure. .PP \&\fBCRYPTO_free_ex_index()\fR and \&\fBCRYPTO_set_ex_data()\fR return 1 on success or 0 on failure. .PP \&\fBCRYPTO_get_ex_data()\fR returns the application data or \s-1NULL\s0 on failure; note that \s-1NULL\s0 may be a valid value. .PP \&\fBdup_func()\fR should return 0 for failure and 1 for success. .SH "COPYRIGHT" .IX Header "COPYRIGHT" Copyright 2015\-2019 The OpenSSL Project Authors. All Rights Reserved. .PP Licensed under the OpenSSL license (the \*(L"License\*(R"). You may not use this file except in compliance with the License. You can obtain a copy in the file \s-1LICENSE\s0 in the source distribution or at <https://www.openssl.org/source/license.html>.