/* * security.c: Security internal calls * * Author: * Sebastien Pouliot * * Copyright 2004-2009 Novell, Inc (http://www.novell.com) * Licensed under the MIT license. See LICENSE file in the project root for full license information. */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include #ifdef HOST_WIN32 #include #include #ifndef PROTECTED_DACL_SECURITY_INFORMATION #define PROTECTED_DACL_SECURITY_INFORMATION 0x80000000L #endif #else #include #ifdef HAVE_GRP_H #include #endif #ifdef HAVE_PWD_H #include #endif #include #include #include #include /* Disclaimers */ #if defined(__GNUC__) #ifndef HAVE_GETGRGID_R #warning Non-thread safe getgrgid being used! #endif #ifndef HAVE_GETGRNAM_R #warning Non-thread safe getgrnam being used! #endif #ifndef HAVE_GETPWNAM_R #warning Non-thread safe getpwnam being used! #endif #ifndef HAVE_GETPWUID_R #warning Non-thread safe getpwuid being used! #endif #endif /* defined(__GNUC__) */ #endif /* not HOST_WIN32 */ /* internal functions - reuse driven */ #ifdef HOST_WIN32 /* ask a server to translate a SID into a textual representation */ static gunichar2* GetSidName (gunichar2 *server, PSID sid, gint32 *size) { gunichar2 *uniname = NULL; DWORD cchName = 0; DWORD cchDomain = 0; SID_NAME_USE peUse; /* out */ LookupAccountSid (server, sid, NULL, &cchName, NULL, &cchDomain, &peUse); if ((cchName > 0) && (cchDomain > 0)) { gunichar2 *user = g_malloc0 ((cchName + 1) * 2); gunichar2 *domain = g_malloc0 ((cchDomain + 1) * 2); LookupAccountSid (server, sid, user, &cchName, domain, &cchDomain, &peUse); if (cchName > 0) { if (cchDomain > 0) { /* domain/machine name included (+ sepearator) */ *size = cchName + cchDomain + 1; uniname = g_malloc0 ((*size + 1) * 2); memcpy (uniname, domain, cchDomain * 2); *(uniname + cchDomain) = '\\'; memcpy (uniname + cchDomain + 1, user, cchName * 2); g_free (user); } else { /* no domain / machine */ *size = cchName; uniname = user; } } else { /* nothing -> return NULL */ g_free (user); } g_free (domain); } return uniname; } #else /* not HOST_WIN32 */ #define MONO_SYSCONF_DEFAULT_SIZE ((size_t) 1024) /* * Ensure we always get a valid (usable) value from sysconf. * In case of error, we return the default value. */ static size_t mono_sysconf (int name) { size_t size = (size_t) sysconf (name); /* default value */ return (size == -1) ? MONO_SYSCONF_DEFAULT_SIZE : size; } static gchar* GetTokenName (uid_t uid) { gchar *uname = NULL; #ifdef HAVE_GETPWUID_R struct passwd pwd; size_t fbufsize; gchar *fbuf; gint32 retval; #endif struct passwd *p = NULL; gboolean result; #ifdef HAVE_GETPWUID_R #ifdef _SC_GETPW_R_SIZE_MAX fbufsize = mono_sysconf (_SC_GETPW_R_SIZE_MAX); #else fbufsize = MONO_SYSCONF_DEFAULT_SIZE; #endif fbuf = (gchar *)g_malloc0 (fbufsize); retval = getpwuid_r (uid, &pwd, fbuf, fbufsize, &p); result = ((retval == 0) && (p == &pwd)); #else /* default to non thread-safe but posix compliant function */ p = getpwuid (uid); result = (p != NULL); #endif if (result) { uname = g_strdup (p->pw_name); } #ifdef HAVE_GETPWUID_R g_free (fbuf); #endif return uname; } static gboolean IsMemberInList (uid_t user, struct group *g) { gboolean result = FALSE; gchar *utf8_username = GetTokenName (user); if (!utf8_username) return FALSE; if (g) { gchar **users = g->gr_mem; while (*users) { gchar *u = *(users); if (strcmp (utf8_username, u) == 0) { result = TRUE; break; } users++; } } g_free (utf8_username); return result; } static gboolean IsDefaultGroup (uid_t user, gid_t group) { #ifdef HAVE_GETPWUID_R struct passwd pwd; size_t fbufsize; gchar *fbuf; gint32 retval; #endif struct passwd *p = NULL; gboolean result; #ifdef HAVE_GETPWUID_R #ifdef _SC_GETPW_R_SIZE_MAX fbufsize = mono_sysconf (_SC_GETPW_R_SIZE_MAX); #else fbufsize = MONO_SYSCONF_DEFAULT_SIZE; #endif fbuf = (gchar *)g_malloc0 (fbufsize); retval = getpwuid_r (user, &pwd, fbuf, fbufsize, &p); result = ((retval == 0) && (p == &pwd)); #else /* default to non thread-safe but posix compliant function */ p = getpwuid (user); result = (p != NULL); #endif if (result) { result = (p->pw_gid == group); } #ifdef HAVE_GETPWUID_R g_free (fbuf); #endif return result; } static gboolean IsMemberOf (gid_t user, struct group *g) { if (!g) return FALSE; /* is it the user default group */ if (IsDefaultGroup (user, g->gr_gid)) return TRUE; /* is the user in the group list */ return IsMemberInList (user, g); } #endif /* ICALLS */ /* System.Security.Principal.WindowsIdentity */ gpointer ves_icall_System_Security_Principal_WindowsIdentity_GetCurrentToken (void) { gpointer token = NULL; #ifdef HOST_WIN32 /* Note: This isn't a copy of the Token - we must not close it!!! * http://www.develop.com/kbrown/book/html/whatis_windowsprincipal.html */ /* thread may be impersonating somebody */ if (OpenThreadToken (GetCurrentThread (), TOKEN_QUERY, 1, &token) == 0) { /* if not take the process identity */ OpenProcessToken (GetCurrentProcess (), TOKEN_QUERY, &token); } #else token = GINT_TO_POINTER (geteuid ()); #endif return token; } MonoString* ves_icall_System_Security_Principal_WindowsIdentity_GetTokenName (gpointer token) { MonoError error; MonoString *result = NULL; gunichar2 *uniname = NULL; gint32 size = 0; mono_error_init (&error); #ifdef HOST_WIN32 GetTokenInformation (token, TokenUser, NULL, size, (PDWORD)&size); if (size > 0) { TOKEN_USER *tu = g_malloc0 (size); if (GetTokenInformation (token, TokenUser, tu, size, (PDWORD)&size)) { uniname = GetSidName (NULL, tu->User.Sid, &size); } g_free (tu); } #else gchar *uname = GetTokenName ((uid_t) GPOINTER_TO_INT (token)); if (uname) { size = strlen (uname); uniname = g_utf8_to_utf16 (uname, size, NULL, NULL, NULL); g_free (uname); } #endif /* HOST_WIN32 */ if (size > 0) { result = mono_string_new_utf16_checked (mono_domain_get (), uniname, size, &error); } else result = mono_string_new (mono_domain_get (), ""); if (uniname) g_free (uniname); mono_error_set_pending_exception (&error); return result; } gpointer ves_icall_System_Security_Principal_WindowsIdentity_GetUserToken (MonoString *username) { #ifdef HOST_WIN32 gpointer token = NULL; /* TODO: MS has something like this working in Windows 2003 (client and * server) but works only for domain accounts (so it's quite limiting). * http://www.develop.com/kbrown/book/html/howto_logonuser.html */ g_warning ("Unsupported on Win32 (anyway requires W2K3 minimum)"); #else /* HOST_WIN32*/ #ifdef HAVE_GETPWNAM_R struct passwd pwd; size_t fbufsize; gchar *fbuf; gint32 retval; #endif gpointer token = (gpointer) -2; struct passwd *p; gchar *utf8_name; gboolean result; utf8_name = mono_unicode_to_external (mono_string_chars (username)); #ifdef HAVE_GETPWNAM_R #ifdef _SC_GETPW_R_SIZE_MAX fbufsize = mono_sysconf (_SC_GETPW_R_SIZE_MAX); #else fbufsize = MONO_SYSCONF_DEFAULT_SIZE; #endif fbuf = (gchar *)g_malloc0 (fbufsize); retval = getpwnam_r (utf8_name, &pwd, fbuf, fbufsize, &p); result = ((retval == 0) && (p == &pwd)); #else /* default to non thread-safe but posix compliant function */ p = getpwnam (utf8_name); result = (p != NULL); #endif if (result) { token = GINT_TO_POINTER (p->pw_uid); } #ifdef HAVE_GETPWNAM_R g_free (fbuf); #endif g_free (utf8_name); #endif return token; } /* http://www.dotnet247.com/247reference/msgs/39/195403.aspx // internal static string[] WindowsIdentity._GetRoles (IntPtr token) */ MonoArray* ves_icall_System_Security_Principal_WindowsIdentity_GetRoles (gpointer token) { MonoArray *array = NULL; MonoDomain *domain = mono_domain_get (); #ifdef HOST_WIN32 MonoError error; gint32 size = 0; GetTokenInformation (token, TokenGroups, NULL, size, (PDWORD)&size); if (size > 0) { TOKEN_GROUPS *tg = g_malloc0 (size); if (GetTokenInformation (token, TokenGroups, tg, size, (PDWORD)&size)) { int i=0; int num = tg->GroupCount; array = mono_array_new (domain, mono_get_string_class (), num); for (i=0; i < num; i++) { gint32 size = 0; gunichar2 *uniname = GetSidName (NULL, tg->Groups [i].Sid, &size); if (uniname) { MonoString *str = mono_string_new_utf16_checked (domain, uniname, size, &error); if (!is_ok (&error)) { g_free (uniname); g_free (tg); mono_error_set_pending_exception (&error); return NULL; } mono_array_setref (array, i, str); g_free (uniname); } } } g_free (tg); } #else /* POSIX-compliant systems should use IsMemberOfGroupId or IsMemberOfGroupName */ g_warning ("WindowsIdentity._GetRoles should never be called on POSIX"); #endif if (!array) { /* return empty array of string, i.e. string [0] */ array = mono_array_new (domain, mono_get_string_class (), 0); } return array; } /* System.Security.Principal.WindowsImpersonationContext */ gboolean ves_icall_System_Security_Principal_WindowsImpersonationContext_CloseToken (gpointer token) { gboolean result = TRUE; #ifdef HOST_WIN32 result = (CloseHandle (token) != 0); #endif return result; } gpointer ves_icall_System_Security_Principal_WindowsImpersonationContext_DuplicateToken (gpointer token) { gpointer dupe = NULL; #ifdef HOST_WIN32 if (DuplicateToken (token, SecurityImpersonation, &dupe) == 0) { dupe = NULL; } #else dupe = token; #endif return dupe; } gboolean ves_icall_System_Security_Principal_WindowsImpersonationContext_SetCurrentToken (gpointer token) { /* Posix version implemented in /mono/mono/io-layer/security.c */ return (ImpersonateLoggedOnUser (token) != 0); } gboolean ves_icall_System_Security_Principal_WindowsImpersonationContext_RevertToSelf (void) { /* Posix version implemented in /mono/mono/io-layer/security.c */ return (RevertToSelf () != 0); } /* System.Security.Principal.WindowsPrincipal */ gboolean ves_icall_System_Security_Principal_WindowsPrincipal_IsMemberOfGroupId (gpointer user, gpointer group) { gboolean result = FALSE; #ifdef HOST_WIN32 /* The convertion from an ID to a string is done in managed code for Windows */ g_warning ("IsMemberOfGroupId should never be called on Win32"); #else /* HOST_WIN32 */ #ifdef HAVE_GETGRGID_R struct group grp; size_t fbufsize; gchar *fbuf; gint32 retval; #endif struct group *g = NULL; #ifdef HAVE_GETGRGID_R #ifdef _SC_GETGR_R_SIZE_MAX fbufsize = mono_sysconf (_SC_GETGR_R_SIZE_MAX); #else fbufsize = MONO_SYSCONF_DEFAULT_SIZE; #endif fbuf = (gchar *)g_malloc0 (fbufsize); retval = getgrgid_r ((gid_t) GPOINTER_TO_INT (group), &grp, fbuf, fbufsize, &g); result = ((retval == 0) && (g == &grp)); #else /* default to non thread-safe but posix compliant function */ g = getgrgid ((gid_t) GPOINTER_TO_INT (group)); result = (g != NULL); #endif if (result) { result = IsMemberOf ((uid_t) GPOINTER_TO_INT (user), g); } #ifdef HAVE_GETGRGID_R g_free (fbuf); #endif #endif /* HOST_WIN32 */ return result; } gboolean ves_icall_System_Security_Principal_WindowsPrincipal_IsMemberOfGroupName (gpointer user, MonoString *group) { gboolean result = FALSE; #ifdef HOST_WIN32 /* Windows version use a cache built using WindowsIdentity._GetRoles */ g_warning ("IsMemberOfGroupName should never be called on Win32"); #else /* HOST_WIN32 */ gchar *utf8_groupname; utf8_groupname = mono_unicode_to_external (mono_string_chars (group)); if (utf8_groupname) { struct group *g = NULL; #ifdef HAVE_GETGRNAM_R struct group grp; gchar *fbuf; gint32 retval; #ifdef _SC_GETGR_R_SIZE_MAX size_t fbufsize = mono_sysconf (_SC_GETGR_R_SIZE_MAX); #else size_t fbufsize = MONO_SYSCONF_DEFAULT_SIZE; #endif fbuf = (gchar *)g_malloc0 (fbufsize); retval = getgrnam_r (utf8_groupname, &grp, fbuf, fbufsize, &g); result = ((retval == 0) && (g == &grp)); #else /* default to non thread-safe but posix compliant function */ g = getgrnam (utf8_groupname); result = (g != NULL); #endif if (result) { result = IsMemberOf ((uid_t) GPOINTER_TO_INT (user), g); } #ifdef HAVE_GETGRNAM_R g_free (fbuf); #endif g_free (utf8_groupname); } #endif /* HOST_WIN32 */ return result; } /* Mono.Security.Cryptography IO related internal calls */ #ifdef HOST_WIN32 static PSID GetAdministratorsSid (void) { SID_IDENTIFIER_AUTHORITY admins = SECURITY_NT_AUTHORITY; PSID pSid = NULL; if (!AllocateAndInitializeSid (&admins, 2, SECURITY_BUILTIN_DOMAIN_RID, DOMAIN_ALIAS_RID_ADMINS, 0, 0, 0, 0, 0, 0, &pSid)) return NULL; /* Note: this SID must be freed with FreeSid () */ return pSid; } static PSID GetEveryoneSid (void) { SID_IDENTIFIER_AUTHORITY everyone = SECURITY_WORLD_SID_AUTHORITY; PSID pSid = NULL; if (!AllocateAndInitializeSid (&everyone, 1, SECURITY_WORLD_RID, 0, 0, 0, 0, 0, 0, 0, &pSid)) return NULL; /* Note: this SID must be freed with FreeSid () */ return pSid; } static PSID GetCurrentUserSid (void) { PSID sid = NULL; guint32 size = 0; gpointer token = ves_icall_System_Security_Principal_WindowsIdentity_GetCurrentToken (); GetTokenInformation (token, TokenUser, NULL, size, (PDWORD)&size); if (size > 0) { TOKEN_USER *tu = g_malloc0 (size); if (GetTokenInformation (token, TokenUser, tu, size, (PDWORD)&size)) { DWORD length = GetLengthSid (tu->User.Sid); sid = (PSID) g_malloc0 (length); if (!CopySid (length, sid, tu->User.Sid)) { g_free (sid); sid = NULL; } } g_free (tu); } /* Note: this SID must be freed with g_free () */ return sid; } static ACCESS_MASK GetRightsFromSid (PSID sid, PACL acl) { ACCESS_MASK rights = 0; TRUSTEE trustee; BuildTrusteeWithSidW (&trustee, sid); if (GetEffectiveRightsFromAcl (acl, &trustee, &rights) != ERROR_SUCCESS) return 0; return rights; } static gboolean IsMachineProtected (gunichar2 *path) { gboolean success = FALSE; PACL pDACL = NULL; PSID pEveryoneSid = NULL; DWORD dwRes = GetNamedSecurityInfoW (path, SE_FILE_OBJECT, DACL_SECURITY_INFORMATION, NULL, NULL, &pDACL, NULL, NULL); if (dwRes != ERROR_SUCCESS) return FALSE; /* We check that Everyone is still limited to READ-ONLY - but not if new entries have been added by an Administrator */ pEveryoneSid = GetEveryoneSid (); if (pEveryoneSid) { ACCESS_MASK rights = GetRightsFromSid (pEveryoneSid, pDACL); /* http://msdn.microsoft.com/library/en-us/security/security/generic_access_rights.asp?frame=true */ success = (rights == (READ_CONTROL | SYNCHRONIZE | FILE_READ_DATA | FILE_READ_EA | FILE_READ_ATTRIBUTES)); FreeSid (pEveryoneSid); } /* Note: we don't need to check our own access - we'll know soon enough when reading the file */ if (pDACL) LocalFree (pDACL); return success; } static gboolean IsUserProtected (gunichar2 *path) { gboolean success = FALSE; PACL pDACL = NULL; PSID pEveryoneSid = NULL; PSECURITY_DESCRIPTOR pSecurityDescriptor = NULL; DWORD dwRes = GetNamedSecurityInfoW (path, SE_FILE_OBJECT, DACL_SECURITY_INFORMATION, NULL, NULL, &pDACL, NULL, &pSecurityDescriptor); if (dwRes != ERROR_SUCCESS) return FALSE; /* We check that our original entries in the ACL are in place - but not if new entries have been added by the user */ /* Everyone should be denied */ pEveryoneSid = GetEveryoneSid (); if (pEveryoneSid) { ACCESS_MASK rights = GetRightsFromSid (pEveryoneSid, pDACL); success = (rights == 0); FreeSid (pEveryoneSid); } /* Note: we don't need to check our own access - we'll know soon enough when reading the file */ if (pSecurityDescriptor) LocalFree (pSecurityDescriptor); return success; } static gboolean ProtectMachine (gunichar2 *path) { PSID pEveryoneSid = GetEveryoneSid (); PSID pAdminsSid = GetAdministratorsSid (); DWORD retval = -1; if (pEveryoneSid && pAdminsSid) { PACL pDACL = NULL; EXPLICIT_ACCESS ea [2]; ZeroMemory (&ea, 2 * sizeof (EXPLICIT_ACCESS)); /* grant all access to the BUILTIN\Administrators group */ BuildTrusteeWithSidW (&ea [0].Trustee, pAdminsSid); ea [0].grfAccessPermissions = GENERIC_ALL; ea [0].grfAccessMode = SET_ACCESS; ea [0].grfInheritance = SUB_CONTAINERS_AND_OBJECTS_INHERIT; ea [0].Trustee.TrusteeForm = TRUSTEE_IS_SID; ea [0].Trustee.TrusteeType = TRUSTEE_IS_WELL_KNOWN_GROUP; /* read-only access everyone */ BuildTrusteeWithSidW (&ea [1].Trustee, pEveryoneSid); ea [1].grfAccessPermissions = GENERIC_READ; ea [1].grfAccessMode = SET_ACCESS; ea [1].grfInheritance = SUB_CONTAINERS_AND_OBJECTS_INHERIT; ea [1].Trustee.TrusteeForm = TRUSTEE_IS_SID; ea [1].Trustee.TrusteeType = TRUSTEE_IS_WELL_KNOWN_GROUP; retval = SetEntriesInAcl (2, ea, NULL, &pDACL); if (retval == ERROR_SUCCESS) { /* with PROTECTED_DACL_SECURITY_INFORMATION we */ /* remove any existing ACL (like inherited ones) */ retval = SetNamedSecurityInfo (path, SE_FILE_OBJECT, DACL_SECURITY_INFORMATION | PROTECTED_DACL_SECURITY_INFORMATION, NULL, NULL, pDACL, NULL); } if (pDACL) LocalFree (pDACL); } if (pEveryoneSid) FreeSid (pEveryoneSid); if (pAdminsSid) FreeSid (pAdminsSid); return (retval == ERROR_SUCCESS); } static gboolean ProtectUser (gunichar2 *path) { DWORD retval = -1; PSID pCurrentSid = GetCurrentUserSid (); if (pCurrentSid) { PACL pDACL = NULL; EXPLICIT_ACCESS ea; ZeroMemory (&ea, sizeof (EXPLICIT_ACCESS)); /* grant exclusive access to the current user */ BuildTrusteeWithSidW (&ea.Trustee, pCurrentSid); ea.grfAccessPermissions = GENERIC_ALL; ea.grfAccessMode = SET_ACCESS; ea.grfInheritance = SUB_CONTAINERS_AND_OBJECTS_INHERIT; ea.Trustee.TrusteeForm = TRUSTEE_IS_SID; ea.Trustee.TrusteeType = TRUSTEE_IS_USER; retval = SetEntriesInAcl (1, &ea, NULL, &pDACL); if (retval == ERROR_SUCCESS) { /* with PROTECTED_DACL_SECURITY_INFORMATION we remove any existing ACL (like inherited ones) */ retval = SetNamedSecurityInfo (path, SE_FILE_OBJECT, DACL_SECURITY_INFORMATION | PROTECTED_DACL_SECURITY_INFORMATION, NULL, NULL, pDACL, NULL); } if (pDACL) LocalFree (pDACL); g_free (pCurrentSid); /* g_malloc0 */ } return (retval == ERROR_SUCCESS); } #else static gboolean IsProtected (MonoString *path, gint32 protection) { gboolean result = FALSE; gchar *utf8_name = mono_unicode_to_external (mono_string_chars (path)); if (utf8_name) { struct stat st; if (stat (utf8_name, &st) == 0) { result = (((st.st_mode & 0777) & protection) == 0); } g_free (utf8_name); } return result; } static gboolean Protect (MonoString *path, gint32 file_mode, gint32 add_dir_mode) { gboolean result = FALSE; gchar *utf8_name = mono_unicode_to_external (mono_string_chars (path)); if (utf8_name) { struct stat st; if (stat (utf8_name, &st) == 0) { int mode = file_mode; if (st.st_mode & S_IFDIR) mode |= add_dir_mode; result = (chmod (utf8_name, mode) == 0); } g_free (utf8_name); } return result; } #endif /* not HOST_WIN32 */ MonoBoolean ves_icall_Mono_Security_Cryptography_KeyPairPersistence_CanSecure (MonoString *root) { #if HOST_WIN32 gint32 flags; /* ACL are nice... unless you have FAT or other uncivilized filesystem */ if (!GetVolumeInformation (mono_string_chars (root), NULL, 0, NULL, NULL, (LPDWORD)&flags, NULL, 0)) return FALSE; return ((flags & FS_PERSISTENT_ACLS) == FS_PERSISTENT_ACLS); #else /* we assume some kind of security is applicable outside Windows */ return TRUE; #endif } MonoBoolean ves_icall_Mono_Security_Cryptography_KeyPairPersistence_IsMachineProtected (MonoString *path) { gboolean ret = FALSE; /* no one, but the owner, should have write access to the directory */ #ifdef HOST_WIN32 ret = IsMachineProtected (mono_string_chars (path)); #else ret = IsProtected (path, (S_IWGRP | S_IWOTH)); #endif return ret; } MonoBoolean ves_icall_Mono_Security_Cryptography_KeyPairPersistence_IsUserProtected (MonoString *path) { gboolean ret = FALSE; /* no one, but the user, should have access to the directory */ #ifdef HOST_WIN32 ret = IsUserProtected (mono_string_chars (path)); #else ret = IsProtected (path, (S_IRGRP | S_IWGRP | S_IXGRP | S_IROTH | S_IWOTH | S_IXOTH)); #endif return ret; } MonoBoolean ves_icall_Mono_Security_Cryptography_KeyPairPersistence_ProtectMachine (MonoString *path) { gboolean ret = FALSE; /* read/write to owner, read to everyone else */ #ifdef HOST_WIN32 ret = ProtectMachine (mono_string_chars (path)); #else ret = Protect (path, (S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH), (S_IXUSR | S_IXGRP | S_IXOTH)); #endif return ret; } MonoBoolean ves_icall_Mono_Security_Cryptography_KeyPairPersistence_ProtectUser (MonoString *path) { gboolean ret = FALSE; /* read/write to user, no access to everyone else */ #ifdef HOST_WIN32 ret = ProtectUser (mono_string_chars (path)); #else ret = Protect (path, (S_IRUSR | S_IWUSR), S_IXUSR); #endif return ret; } /* * Returns TRUE if there is "something" where the Authenticode signature is * normally located. Returns FALSE is data directory is empty. * * Note: Neither the structure nor the signature is verified by this function. */ MonoBoolean ves_icall_System_Security_Policy_Evidence_IsAuthenticodePresent (MonoReflectionAssembly *refass) { if (refass && refass->assembly && refass->assembly->image) { return mono_image_has_authenticode_entry (refass->assembly->image); } return FALSE; } /* System.Security.SecureString related internal calls */ static MonoImage *system_security_assembly = NULL; void ves_icall_System_Security_SecureString_DecryptInternal (MonoArray *data, MonoObject *scope) { MonoError error; invoke_protected_memory_method (data, scope, FALSE, &error); mono_error_set_pending_exception (&error); } void ves_icall_System_Security_SecureString_EncryptInternal (MonoArray* data, MonoObject *scope) { MonoError error; invoke_protected_memory_method (data, scope, TRUE, &error); mono_error_set_pending_exception (&error); } void invoke_protected_memory_method (MonoArray *data, MonoObject *scope, gboolean encrypt, MonoError *error) { MonoClass *klass; MonoMethod *method; void *params [2]; mono_error_init (error); if (system_security_assembly == NULL) { system_security_assembly = mono_image_loaded ("System.Security"); if (!system_security_assembly) { MonoAssembly *sa = mono_assembly_open ("System.Security.dll", NULL); if (!sa) g_assert_not_reached (); system_security_assembly = mono_assembly_get_image (sa); } } klass = mono_class_load_from_name (system_security_assembly, "System.Security.Cryptography", "ProtectedMemory"); method = mono_class_get_method_from_name (klass, encrypt ? "Protect" : "Unprotect", 2); params [0] = data; params [1] = scope; /* MemoryProtectionScope.SameProcess */ mono_runtime_invoke_checked (method, NULL, params, error); }