=pod =head1 NAME evp_generic_fetch, evp_generic_fetch_by_number - generic algorithm fetchers and method creators for EVP =head1 SYNOPSIS /* Only for EVP source */ #include "evp_local.h" void *evp_generic_fetch(OSSL_LIB_CTX *libctx, int operation_id, const char *name, const char *properties, void *(*new_method)(int name_id, const OSSL_DISPATCH *fns, OSSL_PROVIDER *prov, void *method_data), void *method_data, int (*up_ref_method)(void *), void (*free_method)(void *)); void *evp_generic_fetch_by_number(OSSL_LIB_CTX *ctx, int operation_id, int name_id, const char *properties, void *(*new_method)(int name_id, const OSSL_DISPATCH *fns, OSSL_PROVIDER *prov, void *method_data), void *method_data, int (*up_ref_method)(void *), void (*free_method)(void *)); =head1 DESCRIPTION evp_generic_fetch() calls ossl_method_construct() with the given I, I, I, and I and uses it to create an EVP method with the help of the functions I, I, and I. evp_generic_fetch_by_number() does the same thing as evp_generic_fetch(), but takes a numeric I instead of a name. I must always be nonzero; as a matter of fact, it being zero is considered a programming error. This is meant to be used when one method needs to fetch an associated other method, and is typically called from inside the given function I. The three functions I, I, and I are supposed to: =over 4 =item new_method() creates an internal method from function pointers found in the dispatch table I, with name identity I. The provider I and I are also passed to be used as new_method() sees fit. =item up_ref_method() increments the reference counter for the given method, if there is one. =item free_method() frees the given method. =back =head1 RETURN VALUES evp_generic_fetch() returns a method on success, or NULL on error. =head1 EXAMPLES This is a short example of the fictitious EVP API and operation called B. To begin with, let's assume something like this in F: #define OSSL_OP_FOO 100 #define OSSL_FUNC_FOO_NEWCTX_FUNC 2001 #define OSSL_FUNC_FOO_INIT 2002 #define OSSL_FUNC_FOO_OPERATE 2003 #define OSSL_FUNC_FOO_CLEANCTX_FUNC 2004 #define OSSL_FUNC_FOO_FREECTX_FUNC 2005 OSSL_CORE_MAKE_FUNC(void *, foo_newctx, (void)) OSSL_CORE_MAKE_FUNC(int, foo_init, (void *vctx)) OSSL_CORE_MAKE_FUNC(int, foo_operate, (void *vctx, unsigned char *out, size_t *out_l, unsigned char *in, size_t in_l)) OSSL_CORE_MAKE_FUNC(void, foo_cleanctx, (void *vctx)) OSSL_CORE_MAKE_FUNC(void, foo_freectx, (void *vctx)) And here's the implementation of the FOO method fetcher: /* typedef struct evp_foo_st EVP_FOO */ struct evp_foo_st { OSSL_PROVIDER *prov; int name_id; CRYPTO_REF_COUNT refcnt; OSSL_FUNC_foo_newctx_fn *newctx; OSSL_FUNC_foo_init_fn *init; OSSL_FUNC_foo_operate_fn *operate; OSSL_FUNC_foo_cleanctx_fn *cleanctx; OSSL_FUNC_foo_freectx_fn *freectx; }; /* * In this example, we have a public method creator and destructor. * It's not absolutely necessary, but is in the spirit of OpenSSL. */ EVP_FOO *EVP_FOO_meth_from_algorithm(int name_id, const OSSL_DISPATCH *fns, OSSL_PROVIDER *prov, void *data) { EVP_FOO *foo = NULL; if ((foo = OPENSSL_zalloc(sizeof(*foo))) == NULL) return NULL; foo->name_id = name_id; for (; fns->function_id != 0; fns++) { switch (fns->function_id) { case OSSL_FUNC_FOO_NEWCTX: foo->newctx = OSSL_FUNC_foo_newctx(fns); break; case OSSL_FUNC_FOO_INIT: foo->init = OSSL_FUNC_foo_init(fns); break; case OSSL_FUNC_FOO_OPERATE: foo->operate = OSSL_FUNC_foo_operate(fns); break; case OSSL_FUNC_FOO_CLEANCTX: foo->cleanctx = OSSL_FUNC_foo_cleanctx(fns); break; case OSSL_FUNC_FOO_FREECTX: foo->freectx = OSSL_FUNC_foo_freectx(fns); break; } } foo->prov = prov; if (prov) ossl_provider_up_ref(prov); return foo; } EVP_FOO_meth_free(EVP_FOO *foo) { if (foo != NULL) { OSSL_PROVIDER *prov = foo->prov; OPENSSL_free(foo); ossl_provider_free(prov); } } static void *foo_from_algorithm(const OSSL_DISPATCH *fns, OSSL_PROVIDER *prov) { return EVP_FOO_meth_from_algorithm(fns, prov); } static int foo_up_ref(void *vfoo) { EVP_FOO *foo = vfoo; int ref = 0; CRYPTO_UP_REF(&foo->refcnt, &ref, foo_lock); return 1; } static void foo_free(void *vfoo) { EVP_FOO_meth_free(vfoo); } EVP_FOO *EVP_FOO_fetch(OSSL_LIB_CTX *ctx, const char *name, const char *properties) { EVP_FOO *foo = evp_generic_fetch(ctx, OSSL_OP_FOO, name, properties, foo_from_algorithm, foo_up_ref, foo_free); /* * If this method exists in legacy form, with a constant NID for the * given |name|, this is the spot to find that NID and set it in * the newly constructed EVP_FOO instance. */ return foo; } And finally, the library functions: /* typedef struct evp_foo_st EVP_FOO_CTX */ struct evp_foo_ctx_st { const EVP_FOO *foo; void *provctx; /* corresponding provider context */ }; int EVP_FOO_CTX_reset(EVP_FOO_CTX *c) { if (c == NULL) return 1; if (c->foo != NULL && c->foo->cleanctx != NULL) c->foo->cleanctx(c->provctx); return 1; } EVP_FOO_CTX *EVP_FOO_CTX_new(void) { return OPENSSL_zalloc(sizeof(EVP_FOO_CTX)); } void EVP_FOO_CTX_free(EVP_FOO_CTX *c) { EVP_FOO_CTX_reset(c); c->foo->freectx(c->provctx); OPENSSL_free(c); } int EVP_FooInit(EVP_FOO_CTX *c, const EVP_FOO *foo) { int ok = 1; c->foo = foo; if (c->provctx == NULL) c->provctx = c->foo->newctx(); ok = c->foo->init(c->provctx); return ok; } int EVP_FooOperate(EVP_FOO_CTX *c, unsigned char *out, size_t *outl, const unsigned char *in, size_t inl) { int ok = 1; ok = c->foo->update(c->provctx, out, inl, &outl, in, inl); return ok; } =head1 SEE ALSO L =head1 HISTORY The functions described here were all added in OpenSSL 3.0. =head1 COPYRIGHT Copyright 2019-2021 The OpenSSL Project Authors. All Rights Reserved. Licensed under the Apache License 2.0 (the "License"). You may not use this file except in compliance with the License. You can obtain a copy in the file LICENSE in the source distribution or at L. =cut