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-rw-r--r--server/resty/openssl/pkey.lua942
1 files changed, 0 insertions, 942 deletions
diff --git a/server/resty/openssl/pkey.lua b/server/resty/openssl/pkey.lua
deleted file mode 100644
index 69c5aae..0000000
--- a/server/resty/openssl/pkey.lua
+++ /dev/null
@@ -1,942 +0,0 @@
-local ffi = require "ffi"
-local C = ffi.C
-local ffi_gc = ffi.gc
-local ffi_new = ffi.new
-local ffi_str = ffi.string
-local ffi_cast = ffi.cast
-local ffi_copy = ffi.copy
-
-local rsa_macro = require "resty.openssl.include.rsa"
-local dh_macro = require "resty.openssl.include.dh"
-require "resty.openssl.include.bio"
-require "resty.openssl.include.pem"
-require "resty.openssl.include.x509"
-require "resty.openssl.include.evp.pkey"
-local evp_macro = require "resty.openssl.include.evp"
-local pkey_macro = require "resty.openssl.include.evp.pkey"
-local bio_util = require "resty.openssl.auxiliary.bio"
-local digest_lib = require "resty.openssl.digest"
-local rsa_lib = require "resty.openssl.rsa"
-local dh_lib = require "resty.openssl.dh"
-local ec_lib = require "resty.openssl.ec"
-local ecx_lib = require "resty.openssl.ecx"
-local objects_lib = require "resty.openssl.objects"
-local jwk_lib = require "resty.openssl.auxiliary.jwk"
-local ctx_lib = require "resty.openssl.ctx"
-local ctypes = require "resty.openssl.auxiliary.ctypes"
-local format_error = require("resty.openssl.err").format_error
-
-local OPENSSL_11_OR_LATER = require("resty.openssl.version").OPENSSL_11_OR_LATER
-local OPENSSL_111_OR_LATER = require("resty.openssl.version").OPENSSL_111_OR_LATER
-local OPENSSL_3X = require("resty.openssl.version").OPENSSL_3X
-local BORINGSSL = require("resty.openssl.version").BORINGSSL
-
-local ptr_of_uint = ctypes.ptr_of_uint
-local ptr_of_size_t = ctypes.ptr_of_size_t
-local ptr_of_int = ctypes.ptr_of_int
-
-local null = ctypes.null
-local load_pem_args = { null, null, null }
-local load_der_args = { null }
-
-local get_pkey_key
-if OPENSSL_11_OR_LATER then
- get_pkey_key = {
- [evp_macro.EVP_PKEY_RSA] = function(ctx) return C.EVP_PKEY_get0_RSA(ctx) end,
- [evp_macro.EVP_PKEY_EC] = function(ctx) return C.EVP_PKEY_get0_EC_KEY(ctx) end,
- [evp_macro.EVP_PKEY_DH] = function(ctx) return C.EVP_PKEY_get0_DH(ctx) end
- }
-else
- get_pkey_key = {
- [evp_macro.EVP_PKEY_RSA] = function(ctx) return ctx.pkey and ctx.pkey.rsa end,
- [evp_macro.EVP_PKEY_EC] = function(ctx) return ctx.pkey and ctx.pkey.ec end,
- [evp_macro.EVP_PKEY_DH] = function(ctx) return ctx.pkey and ctx.pkey.dh end,
- }
-end
-
-local load_rsa_key_funcs
-
-if not OPENSSL_3X then
- load_rsa_key_funcs= {
- ['PEM_read_bio_RSAPrivateKey'] = true,
- ['PEM_read_bio_RSAPublicKey'] = true,
- } -- those functions return RSA* instead of EVP_PKEY*
-end
-
-local function load_pem_der(txt, opts, funcs)
- local fmt = opts.format or '*'
- if fmt ~= 'PEM' and fmt ~= 'DER' and fmt ~= "JWK" and fmt ~= '*' then
- return nil, "expecting 'DER', 'PEM', 'JWK' or '*' as \"format\""
- end
-
- local typ = opts.type or '*'
- if typ ~= 'pu' and typ ~= 'pr' and typ ~= '*' then
- return nil, "expecting 'pr', 'pu' or '*' as \"type\""
- end
-
- if fmt == "JWK" and (typ == "pu" or type == "pr") then
- return nil, "explictly load private or public key from JWK format is not supported"
- end
-
- ngx.log(ngx.DEBUG, "load key using fmt: ", fmt, ", type: ", typ)
-
- local bio = C.BIO_new_mem_buf(txt, #txt)
- if bio == nil then
- return nil, "BIO_new_mem_buf() failed"
- end
- ffi_gc(bio, C.BIO_free)
-
- local ctx
-
- local fs = funcs[fmt][typ]
- local passphrase_cb
- for f, arg in pairs(fs) do
- -- don't need BIO when loading JWK key: we parse it in Lua land
- if f == "load_jwk" then
- local err
- ctx, err = jwk_lib[f](txt)
- if ctx == nil then
- -- if fmt is explictly set to JWK, we should return an error now
- if fmt == "JWK" then
- return nil, err
- end
- ngx.log(ngx.DEBUG, "jwk decode failed: ", err, ", continuing")
- end
- else
- -- #define BIO_CTRL_RESET 1
- local code = C.BIO_ctrl(bio, 1, 0, nil)
- if code ~= 1 then
- return nil, "BIO_ctrl() failed"
- end
-
- -- only pass in passphrase/passphrase_cb to PEM_* functions
- if fmt == "PEM" or (fmt == "*" and arg == load_pem_args) then
- if opts.passphrase then
- local passphrase = opts.passphrase
- if type(passphrase) ~= "string" then
- -- clear errors occur when trying
- C.ERR_clear_error()
- return nil, "passphrase must be a string"
- end
- arg = { null, nil, passphrase }
- elseif opts.passphrase_cb then
- passphrase_cb = passphrase_cb or ffi_cast("pem_password_cb", function(buf, size)
- local p = opts.passphrase_cb()
- local len = #p -- 1 byte for \0
- if len > size then
- ngx.log(ngx.WARN, "pkey:load_pem_der: passphrase truncated from ", len, " to ", size)
- len = size
- end
- ffi_copy(buf, p, len)
- return len
- end)
- arg = { null, passphrase_cb, null }
- end
- end
-
- ctx = C[f](bio, unpack(arg))
- end
-
- if ctx ~= nil then
- ngx.log(ngx.DEBUG, "pkey:load_pem_der: loaded pkey using function ", f)
-
- -- pkcs1 functions create a rsa rather than evp_pkey
- -- disable the checking in openssl 3.0 for sail safe
- if not OPENSSL_3X and load_rsa_key_funcs[f] then
- local rsa = ctx
- ctx = C.EVP_PKEY_new()
- if ctx == null then
- return nil, format_error("pkey:load_pem_der: EVP_PKEY_new")
- end
-
- if C.EVP_PKEY_assign(ctx, evp_macro.EVP_PKEY_RSA, rsa) ~= 1 then
- C.RSA_free(rsa)
- C.EVP_PKEY_free(ctx)
- return nil, "pkey:load_pem_der: EVP_PKEY_assign() failed"
- end
- end
-
- break
- end
- end
- if passphrase_cb ~= nil then
- passphrase_cb:free()
- end
-
- if ctx == nil then
- return nil, format_error()
- end
- -- clear errors occur when trying
- C.ERR_clear_error()
- return ctx, nil
-end
-
-local function generate_param(key_type, config)
- if key_type == evp_macro.EVP_PKEY_DH then
- local dh_group = config.group
- if dh_group then
- local get_group_func = dh_macro.dh_groups[dh_group]
- if not get_group_func then
- return nil, "unknown pre-defined group " .. dh_group
- end
- local ctx = get_group_func()
- if ctx == nil then
- return nil, format_error("DH_get_x")
- end
- local params = C.EVP_PKEY_new()
- if not params then
- return nil, format_error("EVP_PKEY_new")
- end
- ffi_gc(params, C.EVP_PKEY_free)
- if C.EVP_PKEY_assign(params, key_type, ctx) ~= 1 then
- return nil, format_error("EVP_PKEY_assign")
- end
- return params
- end
- end
-
- local pctx = C.EVP_PKEY_CTX_new_id(key_type, nil)
- if pctx == nil then
- return nil, format_error("EVP_PKEY_CTX_new_id")
- end
- ffi_gc(pctx, C.EVP_PKEY_CTX_free)
-
- if C.EVP_PKEY_paramgen_init(pctx) ~= 1 then
- return nil, format_error("EVP_PKEY_paramgen_init")
- end
-
- if key_type == evp_macro.EVP_PKEY_EC then
- local curve = config.curve or 'prime192v1'
- local nid = C.OBJ_ln2nid(curve)
- if nid == 0 then
- return nil, "unknown curve " .. curve
- end
- if pkey_macro.EVP_PKEY_CTX_set_ec_paramgen_curve_nid(pctx, nid) <= 0 then
- return nil, format_error("EVP_PKEY_CTX_ctrl: EC: curve_nid")
- end
- if not BORINGSSL then
- -- use the named-curve encoding for best backward-compatibilty
- -- and for playing well with go:crypto/x509
- -- # define OPENSSL_EC_NAMED_CURVE 0x001
- if pkey_macro.EVP_PKEY_CTX_set_ec_param_enc(pctx, 1) <= 0 then
- return nil, format_error("EVP_PKEY_CTX_ctrl: EC: param_enc")
- end
- end
- elseif key_type == evp_macro.EVP_PKEY_DH then
- local bits = config.bits
- if not config.param and not bits then
- bits = 2048
- end
- if bits and pkey_macro.EVP_PKEY_CTX_set_dh_paramgen_prime_len(pctx, bits) <= 0 then
- return nil, format_error("EVP_PKEY_CTX_ctrl: DH: bits")
- end
- end
-
- local ctx_ptr = ffi_new("EVP_PKEY*[1]")
- if C.EVP_PKEY_paramgen(pctx, ctx_ptr) ~= 1 then
- return nil, format_error("EVP_PKEY_paramgen")
- end
-
- local params = ctx_ptr[0]
- ffi_gc(params, C.EVP_PKEY_free)
-
- return params
-end
-
-local load_param_funcs = {
- [evp_macro.EVP_PKEY_EC] = {
- ["*"] = {
- ["*"] = {
- ['PEM_read_bio_ECPKParameters'] = load_pem_args,
- -- ['d2i_ECPKParameters_bio'] = load_der_args,
- }
- },
- },
- [evp_macro.EVP_PKEY_DH] = {
- ["*"] = {
- ["*"] = {
- ['PEM_read_bio_DHparams'] = load_pem_args,
- -- ['d2i_DHparams_bio'] = load_der_args,
- }
- },
- },
-}
-
-local function generate_key(config)
- local typ = config.type or 'RSA'
- local key_type
-
- if typ == "RSA" then
- key_type = evp_macro.EVP_PKEY_RSA
- elseif typ == "EC" then
- key_type = evp_macro.EVP_PKEY_EC
- elseif typ == "DH" then
- key_type = evp_macro.EVP_PKEY_DH
- elseif evp_macro.ecx_curves[typ] then
- key_type = evp_macro.ecx_curves[typ]
- else
- return nil, "unsupported type " .. typ
- end
- if key_type == 0 then
- return nil, "the linked OpenSSL library doesn't support " .. typ .. " key"
- end
-
- local pctx
-
- if key_type == evp_macro.EVP_PKEY_EC or key_type == evp_macro.EVP_PKEY_DH then
- local params, err
- if config.param then
- -- HACK
- config.type = nil
- local ctx, err = load_pem_der(config.param, config, load_param_funcs[key_type])
- if err then
- return nil, "load_pem_der: " .. err
- end
- if key_type == evp_macro.EVP_PKEY_EC then
- local ec_group = ctx
- ffi_gc(ec_group, C.EC_GROUP_free)
- ctx = C.EC_KEY_new()
- if ctx == nil then
- return nil, "EC_KEY_new() failed"
- end
- if C.EC_KEY_set_group(ctx, ec_group) ~= 1 then
- return nil, format_error("EC_KEY_set_group")
- end
- end
- params = C.EVP_PKEY_new()
- if not params then
- return nil, format_error("EVP_PKEY_new")
- end
- ffi_gc(params, C.EVP_PKEY_free)
- if C.EVP_PKEY_assign(params, key_type, ctx) ~= 1 then
- return nil, format_error("EVP_PKEY_assign")
- end
- else
- params, err = generate_param(key_type, config)
- if err then
- return nil, "generate_param: " .. err
- end
- end
- pctx = C.EVP_PKEY_CTX_new(params, nil)
- if pctx == nil then
- return nil, format_error("EVP_PKEY_CTX_new")
- end
- else
- pctx = C.EVP_PKEY_CTX_new_id(key_type, nil)
- if pctx == nil then
- return nil, format_error("EVP_PKEY_CTX_new_id")
- end
- end
-
- ffi_gc(pctx, C.EVP_PKEY_CTX_free)
-
- if C.EVP_PKEY_keygen_init(pctx) ~= 1 then
- return nil, format_error("EVP_PKEY_keygen_init")
- end
- -- RSA key parameters are set for keygen ctx not paramgen
- if key_type == evp_macro.EVP_PKEY_RSA then
- local bits = config.bits or 2048
- if bits > 4294967295 then
- return nil, "bits out of range"
- end
-
- if pkey_macro.EVP_PKEY_CTX_set_rsa_keygen_bits(pctx, bits) <= 0 then
- return nil, format_error("EVP_PKEY_CTX_ctrl: RSA: bits")
- end
-
- if config.exp then
- -- don't free exp as it's used internally in key
- local exp = C.BN_new()
- if exp == nil then
- return nil, "BN_new() failed"
- end
- C.BN_set_word(exp, config.exp)
-
- if pkey_macro.EVP_PKEY_CTX_set_rsa_keygen_pubexp(pctx, exp) <= 0 then
- return nil, format_error("EVP_PKEY_CTX_ctrl: RSA: exp")
- end
- end
- end
- local ctx_ptr = ffi_new("EVP_PKEY*[1]")
- -- TODO: move to use EVP_PKEY_gen after drop support for <1.1.1
- if C.EVP_PKEY_keygen(pctx, ctx_ptr) ~= 1 then
- return nil, format_error("EVP_PKEY_gen")
- end
- return ctx_ptr[0]
-end
-
-local load_key_try_funcs = {} do
- -- TODO: pkcs1 load functions are not required in openssl 3.0
- local _load_key_try_funcs = {
- PEM = {
- -- Note: make sure we always try load priv key first
- pr = {
- ['PEM_read_bio_PrivateKey'] = load_pem_args,
- -- disable in openssl3.0, PEM_read_bio_PrivateKey can read pkcs1 in 3.0
- ['PEM_read_bio_RSAPrivateKey'] = not OPENSSL_3X and load_pem_args or nil,
- },
- pu = {
- ['PEM_read_bio_PUBKEY'] = load_pem_args,
- -- disable in openssl3.0, PEM_read_bio_PrivateKey can read pkcs1 in 3.0
- ['PEM_read_bio_RSAPublicKey'] = not OPENSSL_3X and load_pem_args or nil,
- },
- },
- DER = {
- pr = { ['d2i_PrivateKey_bio'] = load_der_args, },
- pu = { ['d2i_PUBKEY_bio'] = load_der_args, },
- },
- JWK = {
- pr = { ['load_jwk'] = {}, },
- }
- }
- -- populate * funcs
- local all_funcs = {}
- local typ_funcs = {}
- for fmt, ffs in pairs(_load_key_try_funcs) do
- load_key_try_funcs[fmt] = ffs
-
- local funcs = {}
- for typ, fs in pairs(ffs) do
- for f, arg in pairs(fs) do
- funcs[f] = arg
- all_funcs[f] = arg
- if not typ_funcs[typ] then
- typ_funcs[typ] = {}
- end
- typ_funcs[typ] = arg
- end
- end
- load_key_try_funcs[fmt]["*"] = funcs
- end
- load_key_try_funcs["*"] = {}
- load_key_try_funcs["*"]["*"] = all_funcs
- for typ, fs in pairs(typ_funcs) do
- load_key_try_funcs[typ] = fs
- end
-end
-
-local function __tostring(self, is_priv, fmt, is_pkcs1)
- if fmt == "JWK" then
- return jwk_lib.dump_jwk(self, is_priv)
- elseif is_pkcs1 then
- if fmt ~= "PEM" or self.key_type ~= evp_macro.EVP_PKEY_RSA then
- return nil, "PKCS#1 format is only supported to encode RSA key in \"PEM\" format"
- elseif OPENSSL_3X then -- maybe possible with OSSL_ENCODER_CTX_new_for_pkey though
- return nil, "writing out RSA key in PKCS#1 format is not supported in OpenSSL 3.0"
- end
- end
- if is_priv then
- if fmt == "DER" then
- return bio_util.read_wrap(C.i2d_PrivateKey_bio, self.ctx)
- end
- -- PEM
- if is_pkcs1 then
- local rsa = get_pkey_key[evp_macro.EVP_PKEY_RSA](self.ctx)
- if rsa == nil then
- return nil, "unable to read RSA key for writing"
- end
- return bio_util.read_wrap(C.PEM_write_bio_RSAPrivateKey,
- rsa,
- nil, nil, 0, nil, nil)
- end
- return bio_util.read_wrap(C.PEM_write_bio_PrivateKey,
- self.ctx,
- nil, nil, 0, nil, nil)
- else
- if fmt == "DER" then
- return bio_util.read_wrap(C.i2d_PUBKEY_bio, self.ctx)
- end
- -- PEM
- if is_pkcs1 then
- local rsa = get_pkey_key[evp_macro.EVP_PKEY_RSA](self.ctx)
- if rsa == nil then
- return nil, "unable to read RSA key for writing"
- end
- return bio_util.read_wrap(C.PEM_write_bio_RSAPublicKey, rsa)
- end
- return bio_util.read_wrap(C.PEM_write_bio_PUBKEY, self.ctx)
- end
-
-end
-
-local _M = {}
-local mt = { __index = _M, __tostring = __tostring }
-
-local empty_table = {}
-local evp_pkey_ptr_ct = ffi.typeof('EVP_PKEY*')
-
-function _M.new(s, opts)
- local ctx, err
- s = s or {}
- if type(s) == 'table' then
- ctx, err = generate_key(s)
- if err then
- err = "pkey.new:generate_key: " .. err
- end
- elseif type(s) == 'string' then
- ctx, err = load_pem_der(s, opts or empty_table, load_key_try_funcs)
- if err then
- err = "pkey.new:load_key: " .. err
- end
- elseif type(s) == 'cdata' then
- if ffi.istype(evp_pkey_ptr_ct, s) then
- ctx = s
- else
- return nil, "pkey.new: expect a EVP_PKEY* cdata at #1"
- end
- else
- return nil, "pkey.new: unexpected type " .. type(s) .. " at #1"
- end
-
- if err then
- return nil, err
- end
-
- ffi_gc(ctx, C.EVP_PKEY_free)
-
- local key_type = OPENSSL_3X and C.EVP_PKEY_get_base_id(ctx) or C.EVP_PKEY_base_id(ctx)
- if key_type == 0 then
- return nil, "pkey.new: cannot get key_type"
- end
- local key_type_is_ecx = (key_type == evp_macro.EVP_PKEY_ED25519) or
- (key_type == evp_macro.EVP_PKEY_X25519) or
- (key_type == evp_macro.EVP_PKEY_ED448) or
- (key_type == evp_macro.EVP_PKEY_X448)
-
- -- although OpenSSL discourages to use this size for digest/verify
- -- but this is good enough for now
- local buf_size = OPENSSL_3X and C.EVP_PKEY_get_size(ctx) or C.EVP_PKEY_size(ctx)
-
- local self = setmetatable({
- ctx = ctx,
- pkey_ctx = nil,
- rsa_padding = nil,
- key_type = key_type,
- key_type_is_ecx = key_type_is_ecx,
- buf = ctypes.uchar_array(buf_size),
- buf_size = buf_size,
- }, mt)
-
- return self, nil
-end
-
-function _M.istype(l)
- return l and l.ctx and ffi.istype(evp_pkey_ptr_ct, l.ctx)
-end
-
-function _M:get_key_type()
- return objects_lib.nid2table(self.key_type)
-end
-
-function _M:get_default_digest_type()
- if BORINGSSL then
- return nil, "BoringSSL doesn't have default digest for pkey"
- end
-
- local nid = ptr_of_int()
- local code = C.EVP_PKEY_get_default_digest_nid(self.ctx, nid)
- if code == -2 then
- return nil, "operation is not supported by the public key algorithm"
- elseif code <= 0 then
- return nil, format_error("get_default_digest", code)
- end
-
- local ret = objects_lib.nid2table(nid[0])
- ret.mandatory = code == 2
- return ret
-end
-
-function _M:get_provider_name()
- if not OPENSSL_3X then
- return false, "pkey:get_provider_name is not supported"
- end
- local p = C.EVP_PKEY_get0_provider(self.ctx)
- if p == nil then
- return nil
- end
- return ffi_str(C.OSSL_PROVIDER_get0_name(p))
-end
-
-if OPENSSL_3X then
- local param_lib = require "resty.openssl.param"
- _M.settable_params, _M.set_params, _M.gettable_params, _M.get_param = param_lib.get_params_func("EVP_PKEY", "key_type")
-end
-
-function _M:get_parameters()
- if not self.key_type_is_ecx then
- local getter = get_pkey_key[self.key_type]
- if not getter then
- return nil, "key getter not defined"
- end
- local key = getter(self.ctx)
- if key == nil then
- return nil, format_error("EVP_PKEY_get0_{key}")
- end
-
- if self.key_type == evp_macro.EVP_PKEY_RSA then
- return rsa_lib.get_parameters(key)
- elseif self.key_type == evp_macro.EVP_PKEY_EC then
- return ec_lib.get_parameters(key)
- elseif self.key_type == evp_macro.EVP_PKEY_DH then
- return dh_lib.get_parameters(key)
- end
- else
- return ecx_lib.get_parameters(self.ctx)
- end
-end
-
-function _M:set_parameters(opts)
- if not self.key_type_is_ecx then
- local getter = get_pkey_key[self.key_type]
- if not getter then
- return nil, "key getter not defined"
- end
- local key = getter(self.ctx)
- if key == nil then
- return nil, format_error("EVP_PKEY_get0_{key}")
- end
-
- if self.key_type == evp_macro.EVP_PKEY_RSA then
- return rsa_lib.set_parameters(key, opts)
- elseif self.key_type == evp_macro.EVP_PKEY_EC then
- return ec_lib.set_parameters(key, opts)
- elseif self.key_type == evp_macro.EVP_PKEY_DH then
- return dh_lib.set_parameters(key, opts)
- end
- else
- -- for ecx keys we always create a new EVP_PKEY and release the old one
- local ctx, err = ecx_lib.set_parameters(self.key_type, self.ctx, opts)
- if err then
- return false, err
- end
- self.ctx = ctx
- end
-end
-
-function _M:is_private()
- local params = self:get_parameters()
- if self.key_type == evp_macro.EVP_PKEY_RSA then
- return params.d ~= nil
- else
- return params.private ~= nil
- end
-end
-
-local ASYMMETRIC_OP_ENCRYPT = 0x1
-local ASYMMETRIC_OP_DECRYPT = 0x2
-local ASYMMETRIC_OP_SIGN_RAW = 0x4
-local ASYMMETRIC_OP_VERIFY_RECOVER = 0x8
-
-local function asymmetric_routine(self, s, op, padding)
- local pkey_ctx
-
- if self.key_type == evp_macro.EVP_PKEY_RSA then
- if padding then
- padding = tonumber(padding)
- if not padding then
- return nil, "invalid padding: " .. __tostring(padding)
- end
- else
- padding = rsa_macro.paddings.RSA_PKCS1_PADDING
- end
- end
-
- if self.pkey_ctx ~= nil and
- (self.key_type ~= evp_macro.EVP_PKEY_RSA or self.rsa_padding == padding) then
- pkey_ctx = self.pkey_ctx
- else
- pkey_ctx = C.EVP_PKEY_CTX_new(self.ctx, nil)
- if pkey_ctx == nil then
- return nil, format_error("pkey:asymmetric_routine EVP_PKEY_CTX_new()")
- end
- ffi_gc(pkey_ctx, C.EVP_PKEY_CTX_free)
- self.pkey_ctx = pkey_ctx
- end
-
- local f, fint, op_name
- if op == ASYMMETRIC_OP_ENCRYPT then
- fint = C.EVP_PKEY_encrypt_init
- f = C.EVP_PKEY_encrypt
- op_name = "encrypt"
- elseif op == ASYMMETRIC_OP_DECRYPT then
- fint = C.EVP_PKEY_decrypt_init
- f = C.EVP_PKEY_decrypt
- op_name = "decrypt"
- elseif op == ASYMMETRIC_OP_SIGN_RAW then
- fint = C.EVP_PKEY_sign_init
- f = C.EVP_PKEY_sign
- op_name = "sign"
- elseif op == ASYMMETRIC_OP_VERIFY_RECOVER then
- fint = C.EVP_PKEY_verify_recover_init
- f = C.EVP_PKEY_verify_recover
- op_name = "verify_recover"
- else
- error("bad \"op\", got " .. op, 2)
- end
-
- local code = fint(pkey_ctx)
- if code < 1 then
- return nil, format_error("pkey:asymmetric_routine EVP_PKEY_" .. op_name .. "_init", code)
- end
-
- -- EVP_PKEY_CTX_ctrl must be called after *_init
- if self.key_type == evp_macro.EVP_PKEY_RSA and padding then
- if pkey_macro.EVP_PKEY_CTX_set_rsa_padding(pkey_ctx, padding) ~= 1 then
- return nil, format_error("pkey:asymmetric_routine EVP_PKEY_CTX_set_rsa_padding")
- end
- self.rsa_padding = padding
- end
-
- local length = ptr_of_size_t(self.buf_size)
-
- if f(pkey_ctx, self.buf, length, s, #s) <= 0 then
- return nil, format_error("pkey:asymmetric_routine EVP_PKEY_" .. op_name)
- end
-
- return ffi_str(self.buf, length[0]), nil
-end
-
-_M.PADDINGS = rsa_macro.paddings
-
-function _M:encrypt(s, padding)
- return asymmetric_routine(self, s, ASYMMETRIC_OP_ENCRYPT, padding)
-end
-
-function _M:decrypt(s, padding)
- return asymmetric_routine(self, s, ASYMMETRIC_OP_DECRYPT, padding)
-end
-
-function _M:sign_raw(s, padding)
- -- TODO: temporary hack before OpenSSL has proper check for existence of private key
- if self.key_type_is_ecx and not self:is_private() then
- return nil, "pkey:sign_raw: missing private key"
- end
-
- return asymmetric_routine(self, s, ASYMMETRIC_OP_SIGN_RAW, padding)
-end
-
-function _M:verify_recover(s, padding)
- return asymmetric_routine(self, s, ASYMMETRIC_OP_VERIFY_RECOVER, padding)
-end
-
-local evp_pkey_ctx_ptr_ptr_ct = ffi.typeof('EVP_PKEY_CTX*[1]')
-
-local function sign_verify_prepare(self, fint, md_alg, padding, opts)
- local pkey_ctx
-
- if self.key_type == evp_macro.EVP_PKEY_RSA and padding then
- pkey_ctx = C.EVP_PKEY_CTX_new(self.ctx, nil)
- if pkey_ctx == nil then
- return nil, format_error("pkey:sign_verify_prepare EVP_PKEY_CTX_new()")
- end
- ffi_gc(pkey_ctx, C.EVP_PKEY_CTX_free)
- end
-
- local md_ctx = C.EVP_MD_CTX_new()
- if md_ctx == nil then
- return nil, "pkey:sign_verify_prepare: EVP_MD_CTX_new() failed"
- end
- ffi_gc(md_ctx, C.EVP_MD_CTX_free)
-
- local algo
- if md_alg then
- if OPENSSL_3X then
- algo = C.EVP_MD_fetch(ctx_lib.get_libctx(), md_alg, nil)
- else
- algo = C.EVP_get_digestbyname(md_alg)
- end
- if algo == nil then
- return nil, string.format("pkey:sign_verify_prepare: invalid digest type \"%s\"", md_alg)
- end
- end
-
- local ppkey_ctx = evp_pkey_ctx_ptr_ptr_ct()
- ppkey_ctx[0] = pkey_ctx
- if fint(md_ctx, ppkey_ctx, algo, nil, self.ctx) ~= 1 then
- return nil, format_error("pkey:sign_verify_prepare: Init failed")
- end
-
- if self.key_type == evp_macro.EVP_PKEY_RSA then
- if padding then
- if pkey_macro.EVP_PKEY_CTX_set_rsa_padding(ppkey_ctx[0], padding) ~= 1 then
- return nil, format_error("pkey:sign_verify_prepare EVP_PKEY_CTX_set_rsa_padding")
- end
- end
- if opts and opts.pss_saltlen and padding ~= rsa_macro.paddings.RSA_PKCS1_PSS_PADDING then
- if pkey_macro.EVP_PKEY_CTX_set_rsa_pss_saltlen(ppkey_ctx[0], opts.pss_saltlen) ~= 1 then
- return nil, format_error("pkey:sign_verify_prepare EVP_PKEY_CTX_set_rsa_pss_saltlen")
- end
- end
- end
-
- return md_ctx
-end
-
-function _M:sign(digest, md_alg, padding, opts)
- -- TODO: temporary hack before OpenSSL has proper check for existence of private key
- if self.key_type_is_ecx and not self:is_private() then
- return nil, "pkey:sign: missing private key"
- end
-
- if digest_lib.istype(digest) then
- local length = ptr_of_uint()
- if C.EVP_SignFinal(digest.ctx, self.buf, length, self.ctx) ~= 1 then
- return nil, format_error("pkey:sign: EVP_SignFinal")
- end
- return ffi_str(self.buf, length[0]), nil
- elseif type(digest) == "string" then
- if not OPENSSL_111_OR_LATER and not BORINGSSL then
- -- we can still support earilier version with *Update and *Final
- -- but we choose to not relying on the legacy interface for simplicity
- return nil, "pkey:sign: new-style sign only available in OpenSSL 1.1.1 (or BoringSSL 1.1.0) or later"
- elseif BORINGSSL and not md_alg and not self.key_type_is_ecx then
- return nil, "pkey:sign: BoringSSL doesn't provide default digest, md_alg must be specified"
- end
-
- local md_ctx, err = sign_verify_prepare(self, C.EVP_DigestSignInit, md_alg, padding, opts)
- if err then
- return nil, err
- end
-
- local length = ptr_of_size_t(self.buf_size)
- if C.EVP_DigestSign(md_ctx, self.buf, length, digest, #digest) ~= 1 then
- return nil, format_error("pkey:sign: EVP_DigestSign")
- end
- return ffi_str(self.buf, length[0]), nil
- else
- return nil, "pkey:sign: expect a digest instance or a string at #1"
- end
-end
-
-function _M:verify(signature, digest, md_alg, padding, opts)
- if type(signature) ~= "string" then
- return nil, "pkey:verify: expect a string at #1"
- end
-
- local code
- if digest_lib.istype(digest) then
- code = C.EVP_VerifyFinal(digest.ctx, signature, #signature, self.ctx)
- elseif type(digest) == "string" then
- if not OPENSSL_111_OR_LATER and not BORINGSSL then
- -- we can still support earilier version with *Update and *Final
- -- but we choose to not relying on the legacy interface for simplicity
- return nil, "pkey:verify: new-style verify only available in OpenSSL 1.1.1 (or BoringSSL 1.1.0) or later"
- elseif BORINGSSL and not md_alg and not self.key_type_is_ecx then
- return nil, "pkey:verify: BoringSSL doesn't provide default digest, md_alg must be specified"
- end
-
- local md_ctx, err = sign_verify_prepare(self, C.EVP_DigestVerifyInit, md_alg, padding, opts)
- if err then
- return nil, err
- end
-
- code = C.EVP_DigestVerify(md_ctx, signature, #signature, digest, #digest)
- else
- return nil, "pkey:verify: expect a digest instance or a string at #2"
- end
-
- if code == 0 then
- return false, nil
- elseif code == 1 then
- return true, nil
- end
- return false, format_error("pkey:verify")
-end
-
-function _M:derive(peerkey)
- if not self.istype(peerkey) then
- return nil, "pkey:derive: expect a pkey instance at #1"
- end
- local pctx = C.EVP_PKEY_CTX_new(self.ctx, nil)
- if pctx == nil then
- return nil, "pkey:derive: EVP_PKEY_CTX_new() failed"
- end
- ffi_gc(pctx, C.EVP_PKEY_CTX_free)
- local code = C.EVP_PKEY_derive_init(pctx)
- if code <= 0 then
- return nil, format_error("pkey:derive: EVP_PKEY_derive_init", code)
- end
-
- code = C.EVP_PKEY_derive_set_peer(pctx, peerkey.ctx)
- if code <= 0 then
- return nil, format_error("pkey:derive: EVP_PKEY_derive_set_peer", code)
- end
-
- local buflen = ptr_of_size_t()
- code = C.EVP_PKEY_derive(pctx, nil, buflen)
- if code <= 0 then
- return nil, format_error("pkey:derive: EVP_PKEY_derive check buffer size", code)
- end
-
- local buf = ctypes.uchar_array(buflen[0])
- code = C.EVP_PKEY_derive(pctx, buf, buflen)
- if code <= 0 then
- return nil, format_error("pkey:derive: EVP_PKEY_derive", code)
- end
-
- return ffi_str(buf, buflen[0])
-end
-
-local function pub_or_priv_is_pri(pub_or_priv)
- if pub_or_priv == 'private' or pub_or_priv == 'PrivateKey' then
- return true
- elseif not pub_or_priv or pub_or_priv == 'public' or pub_or_priv == 'PublicKey' then
- return false
- else
- return nil, string.format("can only export private or public key, not %s", pub_or_priv)
- end
-end
-
-function _M:tostring(pub_or_priv, fmt, pkcs1)
- local is_priv, err = pub_or_priv_is_pri(pub_or_priv)
- if err then
- return nil, "pkey:tostring: " .. err
- end
- return __tostring(self, is_priv, fmt, pkcs1)
-end
-
-function _M:to_PEM(pub_or_priv, pkcs1)
- return self:tostring(pub_or_priv, "PEM", pkcs1)
-end
-
-function _M.paramgen(config)
- local typ = config.type
- local key_type, write_func, get_ctx_func
- if typ == "EC" then
- key_type = evp_macro.EVP_PKEY_EC
- if key_type == 0 then
- return nil, "pkey.paramgen: the linked OpenSSL library doesn't support EC key"
- end
- write_func = C.PEM_write_bio_ECPKParameters
- get_ctx_func = function(ctx)
- local ctx = get_pkey_key[key_type](ctx)
- if ctx == nil then
- error(format_error("pkey.paramgen: EVP_PKEY_get0_{key}"))
- end
- return C.EC_KEY_get0_group(ctx)
- end
- elseif typ == "DH" then
- key_type = evp_macro.EVP_PKEY_DH
- if key_type == 0 then
- return nil, "pkey.paramgen: the linked OpenSSL library doesn't support DH key"
- end
- write_func = C.PEM_write_bio_DHparams
- get_ctx_func = get_pkey_key[key_type]
- else
- return nil, "pkey.paramgen: unsupported type " .. type
- end
-
- local params, err = generate_param(key_type, config)
- if err then
- return nil, "pkey.paramgen: generate_param: " .. err
- end
-
- local ctx = get_ctx_func(params)
- if ctx == nil then
- return nil, format_error("pkey.paramgen: EVP_PKEY_get0_{key}")
- end
-
- return bio_util.read_wrap(write_func, ctx)
-end
-
-return _M