// Copyright (c) 2015 Marshall A. Greenblatt. All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the name Chromium Embedded // Framework nor the names of its contributors may be used to endorse // or promote products derived from this software without specific prior // written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // --------------------------------------------------------------------------- // // This file was generated by the CEF translator tool and should not be edited // by hand. See the translator.README.txt file in the tools directory for // more information. // #![allow(non_snake_case, unused_imports)] use eutil; use interfaces; use types; use wrappers::CefWrap; use libc; use std::collections::HashMap; use std::mem; use std::ptr; // // Structure representing the issuer or subject field of an X.509 certificate. // #[repr(C)] pub struct _cef_sslcert_principal_t { // // Base structure. // pub base: types::cef_base_t, // // Returns a name that can be used to represent the issuer. It tries in this // order: CN, O and OU and returns the first non-NULL one found. // // The resulting string must be freed by calling cef_string_userfree_free(). pub get_display_name: Option types::cef_string_userfree_t>, // // Returns the common name. // // The resulting string must be freed by calling cef_string_userfree_free(). pub get_common_name: Option types::cef_string_userfree_t>, // // Returns the locality name. // // The resulting string must be freed by calling cef_string_userfree_free(). pub get_locality_name: Option types::cef_string_userfree_t>, // // Returns the state or province name. // // The resulting string must be freed by calling cef_string_userfree_free(). pub get_state_or_province_name: Option types::cef_string_userfree_t>, // // Returns the country name. // // The resulting string must be freed by calling cef_string_userfree_free(). pub get_country_name: Option types::cef_string_userfree_t>, // // Retrieve the list of street addresses. // pub get_street_addresses: Option ()>, // // Retrieve the list of organization names. // pub get_organization_names: Option ( )>, // // Retrieve the list of organization unit names. // pub get_organization_unit_names: Option ( )>, // // Retrieve the list of domain components. // pub get_domain_components: Option ()>, // // The reference count. This will only be present for Rust instances! // pub ref_count: u32, // // Extra data. This will only be present for Rust instances! // pub extra: u8, } pub type cef_sslcert_principal_t = _cef_sslcert_principal_t; // // Structure representing the issuer or subject field of an X.509 certificate. // pub struct CefSSLCertPrincipal { c_object: *mut cef_sslcert_principal_t, } impl Clone for CefSSLCertPrincipal { fn clone(&self) -> CefSSLCertPrincipal{ unsafe { if !self.c_object.is_null() { ((*self.c_object).base.add_ref.unwrap())(&mut (*self.c_object).base); } CefSSLCertPrincipal { c_object: self.c_object, } } } } impl Drop for CefSSLCertPrincipal { fn drop(&mut self) { unsafe { if !self.c_object.is_null() { ((*self.c_object).base.release.unwrap())(&mut (*self.c_object).base); } } } } impl CefSSLCertPrincipal { pub unsafe fn from_c_object(c_object: *mut cef_sslcert_principal_t) -> CefSSLCertPrincipal { CefSSLCertPrincipal { c_object: c_object, } } pub unsafe fn from_c_object_addref(c_object: *mut cef_sslcert_principal_t) -> CefSSLCertPrincipal { if !c_object.is_null() { ((*c_object).base.add_ref.unwrap())(&mut (*c_object).base); } CefSSLCertPrincipal { c_object: c_object, } } pub fn c_object(&self) -> *mut cef_sslcert_principal_t { self.c_object } pub fn c_object_addrefed(&self) -> *mut cef_sslcert_principal_t { unsafe { if !self.c_object.is_null() { eutil::add_ref(self.c_object as *mut types::cef_base_t); } self.c_object } } pub fn is_null_cef_object(&self) -> bool { self.c_object.is_null() } pub fn is_not_null_cef_object(&self) -> bool { !self.c_object.is_null() } // // Returns a name that can be used to represent the issuer. It tries in this // order: CN, O and OU and returns the first non-NULL one found. // // The resulting string must be freed by calling cef_string_userfree_free(). pub fn get_display_name(&self) -> String { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_display_name.unwrap())( self.c_object)) } } // // Returns the common name. // // The resulting string must be freed by calling cef_string_userfree_free(). pub fn get_common_name(&self) -> String { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_common_name.unwrap())( self.c_object)) } } // // Returns the locality name. // // The resulting string must be freed by calling cef_string_userfree_free(). pub fn get_locality_name(&self) -> String { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_locality_name.unwrap())( self.c_object)) } } // // Returns the state or province name. // // The resulting string must be freed by calling cef_string_userfree_free(). pub fn get_state_or_province_name(&self) -> String { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_state_or_province_name.unwrap())( self.c_object)) } } // // Returns the country name. // // The resulting string must be freed by calling cef_string_userfree_free(). pub fn get_country_name(&self) -> String { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_country_name.unwrap())( self.c_object)) } } // // Retrieve the list of street addresses. // pub fn get_street_addresses(&self, addresses: &Vec) -> () { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_street_addresses.unwrap())( self.c_object, CefWrap::to_c(addresses))) } } // // Retrieve the list of organization names. // pub fn get_organization_names(&self, names: &Vec) -> () { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_organization_names.unwrap())( self.c_object, CefWrap::to_c(names))) } } // // Retrieve the list of organization unit names. // pub fn get_organization_unit_names(&self, names: &Vec) -> () { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_organization_unit_names.unwrap())( self.c_object, CefWrap::to_c(names))) } } // // Retrieve the list of domain components. // pub fn get_domain_components(&self, components: &Vec) -> () { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_domain_components.unwrap())( self.c_object, CefWrap::to_c(components))) } } } impl CefWrap<*mut cef_sslcert_principal_t> for CefSSLCertPrincipal { fn to_c(rust_object: CefSSLCertPrincipal) -> *mut cef_sslcert_principal_t { rust_object.c_object_addrefed() } unsafe fn to_rust(c_object: *mut cef_sslcert_principal_t) -> CefSSLCertPrincipal { CefSSLCertPrincipal::from_c_object_addref(c_object) } } impl CefWrap<*mut cef_sslcert_principal_t> for Option { fn to_c(rust_object: Option) -> *mut cef_sslcert_principal_t { match rust_object { None => ptr::null_mut(), Some(rust_object) => rust_object.c_object_addrefed(), } } unsafe fn to_rust(c_object: *mut cef_sslcert_principal_t) -> Option { if c_object.is_null() { None } else { Some(CefSSLCertPrincipal::from_c_object_addref(c_object)) } } } // // Structure representing SSL information. // #[repr(C)] pub struct _cef_sslinfo_t { // // Base structure. // pub base: types::cef_base_t, // // Returns the subject of the X.509 certificate. For HTTPS server certificates // this represents the web server. The common name of the subject should // match the host name of the web server. // pub get_subject: Option *mut interfaces::cef_sslcert_principal_t>, // // Returns the issuer of the X.509 certificate. // pub get_issuer: Option *mut interfaces::cef_sslcert_principal_t>, // // Returns the DER encoded serial number for the X.509 certificate. The value // possibly includes a leading 00 byte. // pub get_serial_number: Option *mut interfaces::cef_binary_value_t>, // // Returns the date before which the X.509 certificate is invalid. // CefTime.GetTimeT() will return 0 if no date was specified. // pub get_valid_start: Option types::cef_time_t>, // // Returns the date after which the X.509 certificate is invalid. // CefTime.GetTimeT() will return 0 if no date was specified. // pub get_valid_expiry: Option types::cef_time_t>, // // Returns the DER encoded data for the X.509 certificate. // pub get_derencoded: Option *mut interfaces::cef_binary_value_t>, // // Returns the PEM encoded data for the X.509 certificate. // pub get_pemencoded: Option *mut interfaces::cef_binary_value_t>, // // The reference count. This will only be present for Rust instances! // pub ref_count: u32, // // Extra data. This will only be present for Rust instances! // pub extra: u8, } pub type cef_sslinfo_t = _cef_sslinfo_t; // // Structure representing SSL information. // pub struct CefSSLInfo { c_object: *mut cef_sslinfo_t, } impl Clone for CefSSLInfo { fn clone(&self) -> CefSSLInfo{ unsafe { if !self.c_object.is_null() { ((*self.c_object).base.add_ref.unwrap())(&mut (*self.c_object).base); } CefSSLInfo { c_object: self.c_object, } } } } impl Drop for CefSSLInfo { fn drop(&mut self) { unsafe { if !self.c_object.is_null() { ((*self.c_object).base.release.unwrap())(&mut (*self.c_object).base); } } } } impl CefSSLInfo { pub unsafe fn from_c_object(c_object: *mut cef_sslinfo_t) -> CefSSLInfo { CefSSLInfo { c_object: c_object, } } pub unsafe fn from_c_object_addref(c_object: *mut cef_sslinfo_t) -> CefSSLInfo { if !c_object.is_null() { ((*c_object).base.add_ref.unwrap())(&mut (*c_object).base); } CefSSLInfo { c_object: c_object, } } pub fn c_object(&self) -> *mut cef_sslinfo_t { self.c_object } pub fn c_object_addrefed(&self) -> *mut cef_sslinfo_t { unsafe { if !self.c_object.is_null() { eutil::add_ref(self.c_object as *mut types::cef_base_t); } self.c_object } } pub fn is_null_cef_object(&self) -> bool { self.c_object.is_null() } pub fn is_not_null_cef_object(&self) -> bool { !self.c_object.is_null() } // // Returns the subject of the X.509 certificate. For HTTPS server certificates // this represents the web server. The common name of the subject should // match the host name of the web server. // pub fn get_subject(&self) -> interfaces::CefSSLCertPrincipal { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_subject.unwrap())( self.c_object)) } } // // Returns the issuer of the X.509 certificate. // pub fn get_issuer(&self) -> interfaces::CefSSLCertPrincipal { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_issuer.unwrap())( self.c_object)) } } // // Returns the DER encoded serial number for the X.509 certificate. The value // possibly includes a leading 00 byte. // pub fn get_serial_number(&self) -> interfaces::CefBinaryValue { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_serial_number.unwrap())( self.c_object)) } } // // Returns the date before which the X.509 certificate is invalid. // CefTime.GetTimeT() will return 0 if no date was specified. // pub fn get_valid_start(&self) -> types::cef_time_t { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_valid_start.unwrap())( self.c_object)) } } // // Returns the date after which the X.509 certificate is invalid. // CefTime.GetTimeT() will return 0 if no date was specified. // pub fn get_valid_expiry(&self) -> types::cef_time_t { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_valid_expiry.unwrap())( self.c_object)) } } // // Returns the DER encoded data for the X.509 certificate. // pub fn get_derencoded(&self) -> interfaces::CefBinaryValue { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_derencoded.unwrap())( self.c_object)) } } // // Returns the PEM encoded data for the X.509 certificate. // pub fn get_pemencoded(&self) -> interfaces::CefBinaryValue { if self.c_object.is_null() { panic!("called a CEF method on a null object") } unsafe { CefWrap::to_rust( ((*self.c_object).get_pemencoded.unwrap())( self.c_object)) } } } impl CefWrap<*mut cef_sslinfo_t> for CefSSLInfo { fn to_c(rust_object: CefSSLInfo) -> *mut cef_sslinfo_t { rust_object.c_object_addrefed() } unsafe fn to_rust(c_object: *mut cef_sslinfo_t) -> CefSSLInfo { CefSSLInfo::from_c_object_addref(c_object) } } impl CefWrap<*mut cef_sslinfo_t> for Option { fn to_c(rust_object: Option) -> *mut cef_sslinfo_t { match rust_object { None => ptr::null_mut(), Some(rust_object) => rust_object.c_object_addrefed(), } } unsafe fn to_rust(c_object: *mut cef_sslinfo_t) -> Option { if c_object.is_null() { None } else { Some(CefSSLInfo::from_c_object_addref(c_object)) } } }