File: | s/lib/libpkix/pkix/util/pkix_list.c |
Warning: | line 1520, column 9 Access to field 'item' results in a dereference of a null pointer (loaded from variable 'element') |
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1 | /* This Source Code Form is subject to the terms of the Mozilla Public | |||
2 | * License, v. 2.0. If a copy of the MPL was not distributed with this | |||
3 | * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ | |||
4 | /* | |||
5 | * pkix_list.c | |||
6 | * | |||
7 | * List Object Functions | |||
8 | * | |||
9 | */ | |||
10 | ||||
11 | #include "pkix_list.h" | |||
12 | ||||
13 | /* --Private-Functions-------------------------------------------- */ | |||
14 | ||||
15 | /* | |||
16 | * FUNCTION: pkix_List_Create_Internal | |||
17 | * DESCRIPTION: | |||
18 | * | |||
19 | * Creates a new List, using the Boolean value of "isHeader" to determine | |||
20 | * whether the new List should be a header, and stores it at "pList". The | |||
21 | * List is initially empty and holds no items. To initially add items to | |||
22 | * the List, use PKIX_List_AppendItem. | |||
23 | * | |||
24 | * PARAMETERS: | |||
25 | * "isHeader" | |||
26 | * Boolean value indicating whether new List should be a header. | |||
27 | * "pList" | |||
28 | * Address where object pointer will be stored. Must be non-NULL. | |||
29 | * "plContext" | |||
30 | * Platform-specific context pointer. | |||
31 | * THREAD SAFETY: | |||
32 | * Thread Safe (see Thread Safety Definitions in Programmer's Guide) | |||
33 | * RETURNS: | |||
34 | * Returns NULL if the function succeeds. | |||
35 | * Returns a Fatal Error if the function fails in an unrecoverable way. | |||
36 | */ | |||
37 | static PKIX_Error * | |||
38 | pkix_List_Create_Internal( | |||
39 | PKIX_Boolean isHeader, | |||
40 | PKIX_List **pList, | |||
41 | void *plContext) | |||
42 | { | |||
43 | PKIX_List *list = NULL((void*)0); | |||
44 | ||||
45 | PKIX_ENTER(LIST, "pkix_List_Create_Internal")static const char cMyFuncName[] = {"pkix_List_Create_Internal" }; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName ; stdVars.aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
46 | PKIX_NULLCHECK_ONE(pList)do { if ((pList) == ((void*)0)){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
47 | ||||
48 | PKIX_CHECK(PKIX_PL_Object_Allocdo { stdVars.aPkixErrorResult = (PKIX_PL_Object_Alloc (PKIX_LIST_TYPE , ((PKIX_UInt32)(sizeof (PKIX_List))), (PKIX_PL_Object **)& list, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGLISTITEM; goto cleanup; } } while (0) | |||
49 | (PKIX_LIST_TYPE,do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Alloc (PKIX_LIST_TYPE , ((PKIX_UInt32)(sizeof (PKIX_List))), (PKIX_PL_Object **)& list, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGLISTITEM; goto cleanup; } } while (0) | |||
50 | ((PKIX_UInt32)(sizeof (PKIX_List))),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Alloc (PKIX_LIST_TYPE , ((PKIX_UInt32)(sizeof (PKIX_List))), (PKIX_PL_Object **)& list, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGLISTITEM; goto cleanup; } } while (0) | |||
51 | (PKIX_PL_Object **)&list, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Alloc (PKIX_LIST_TYPE , ((PKIX_UInt32)(sizeof (PKIX_List))), (PKIX_PL_Object **)& list, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGLISTITEM; goto cleanup; } } while (0) | |||
52 | PKIX_ERRORCREATINGLISTITEM)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Alloc (PKIX_LIST_TYPE , ((PKIX_UInt32)(sizeof (PKIX_List))), (PKIX_PL_Object **)& list, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGLISTITEM; goto cleanup; } } while (0); | |||
53 | ||||
54 | list->item = NULL((void*)0); | |||
55 | list->next = NULL((void*)0); | |||
56 | list->immutable = PKIX_FALSE((PKIX_Boolean) 0); | |||
57 | list->length = 0; | |||
58 | list->isHeader = isHeader; | |||
59 | ||||
60 | *pList = list; | |||
61 | ||||
62 | cleanup: | |||
63 | ||||
64 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
65 | } | |||
66 | ||||
67 | /* | |||
68 | * FUNCTION: pkix_List_Destroy | |||
69 | * (see comments for PKIX_PL_DestructorCallback in pkix_pl_system.h) | |||
70 | */ | |||
71 | static PKIX_Error * | |||
72 | pkix_List_Destroy( | |||
73 | PKIX_PL_Object *object, | |||
74 | void *plContext) | |||
75 | { | |||
76 | PKIX_List *list = NULL((void*)0); | |||
77 | PKIX_List *nextItem = NULL((void*)0); | |||
78 | ||||
79 | PKIX_ENTER(LIST, "pkix_List_Destroy")static const char cMyFuncName[] = {"pkix_List_Destroy"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
80 | PKIX_NULLCHECK_ONE(object)do { if ((object) == ((void*)0)){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
81 | ||||
82 | /* Check that this object is a list */ | |||
83 | PKIX_CHECK(pkix_CheckType(object, PKIX_LIST_TYPE, plContext),do { stdVars.aPkixErrorResult = (pkix_CheckType(object, PKIX_LIST_TYPE , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTNOTLIST; goto cleanup; } } while (0) | |||
84 | PKIX_OBJECTNOTLIST)do { stdVars.aPkixErrorResult = (pkix_CheckType(object, PKIX_LIST_TYPE , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTNOTLIST; goto cleanup; } } while (0); | |||
85 | ||||
86 | list = (PKIX_List *)object; | |||
87 | ||||
88 | /* We have a valid list. DecRef its item and recurse on next */ | |||
89 | PKIX_DECREF(list->item)do { if (list->item){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(list->item), plContext); if (stdVars. aPkixTempResult) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult , plContext); stdVars.aPkixTempResult = ((void*)0); } list-> item = ((void*)0); } } while (0); | |||
90 | while ((nextItem = list->next) != NULL((void*)0)) { | |||
91 | list->next = nextItem->next; | |||
92 | nextItem->next = NULL((void*)0); | |||
93 | PKIX_DECREF(nextItem)do { if (nextItem){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(nextItem), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } nextItem = ((void* )0); } } while (0); | |||
94 | } | |||
95 | list->immutable = PKIX_FALSE((PKIX_Boolean) 0); | |||
96 | list->length = 0; | |||
97 | list->isHeader = PKIX_FALSE((PKIX_Boolean) 0); | |||
98 | ||||
99 | cleanup: | |||
100 | ||||
101 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
102 | } | |||
103 | ||||
104 | /* | |||
105 | * FUNCTION: pkix_List_ToString_Helper | |||
106 | * DESCRIPTION: | |||
107 | * | |||
108 | * Helper function that creates a string representation of the List pointed | |||
109 | * to by "list" and stores its address in the object pointed to by "pString". | |||
110 | * | |||
111 | * PARAMETERS | |||
112 | * "list" | |||
113 | * Address of List whose string representation is desired. | |||
114 | * Must be non-NULL. | |||
115 | * "pString" | |||
116 | * Address of object pointer's destination. Must be non-NULL. | |||
117 | * "plContext" | |||
118 | * Platform-specific context pointer. | |||
119 | * THREAD SAFETY: | |||
120 | * Conditionally Thread Safe | |||
121 | * (see Thread Safety Definitions in Programmer's Guide) | |||
122 | * RETURNS: | |||
123 | * Returns NULL if the function succeeds. | |||
124 | * Returns a List Error if the function fails in a non-fatal way. | |||
125 | * Returns a Fatal Error if the function fails in an unrecoverable way. | |||
126 | */ | |||
127 | static PKIX_Error * | |||
128 | pkix_List_ToString_Helper( | |||
129 | PKIX_List *list, | |||
130 | PKIX_PL_String **pString, | |||
131 | void *plContext) | |||
132 | { | |||
133 | PKIX_PL_String *itemString = NULL((void*)0); | |||
134 | PKIX_PL_String *nextString = NULL((void*)0); | |||
135 | PKIX_PL_String *format = NULL((void*)0); | |||
136 | PKIX_Boolean empty; | |||
137 | ||||
138 | PKIX_ENTER(LIST, "pkix_List_ToString_Helper")static const char cMyFuncName[] = {"pkix_List_ToString_Helper" }; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName ; stdVars.aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
139 | PKIX_NULLCHECK_TWO(list, pString)do { if (((list) == ((void*)0)) || ((pString) == ((void*)0))) { stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR ), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
140 | ||||
141 | /* special case when list is the header */ | |||
142 | if (list->isHeader){ | |||
143 | ||||
144 | PKIX_CHECK(PKIX_List_IsEmpty(list, &empty, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_IsEmpty(list, & empty, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTISEMPTYFAILED; goto cleanup; } } while (0) | |||
145 | PKIX_LISTISEMPTYFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_IsEmpty(list, & empty, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTISEMPTYFAILED; goto cleanup; } } while (0); | |||
146 | ||||
147 | if (empty){ | |||
148 | PKIX_CHECK(PKIX_PL_String_Createdo { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "EMPTY" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGITEMSTRING; goto cleanup; } } while (0) | |||
149 | (PKIX_ESCASCII,do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "EMPTY" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGITEMSTRING; goto cleanup; } } while (0) | |||
150 | "EMPTY",do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "EMPTY" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGITEMSTRING; goto cleanup; } } while (0) | |||
151 | 0,do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "EMPTY" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGITEMSTRING; goto cleanup; } } while (0) | |||
152 | &itemString,do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "EMPTY" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGITEMSTRING; goto cleanup; } } while (0) | |||
153 | plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "EMPTY" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGITEMSTRING; goto cleanup; } } while (0) | |||
154 | PKIX_ERRORCREATINGITEMSTRING)do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "EMPTY" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_ERRORCREATINGITEMSTRING; goto cleanup; } } while (0); | |||
155 | (*pString) = itemString; | |||
156 | PKIX_DEBUG_EXIT(LIST); | |||
157 | return (NULL((void*)0)); | |||
158 | } else { | |||
159 | PKIX_CHECK(pkix_List_ToString_Helperdo { stdVars.aPkixErrorResult = (pkix_List_ToString_Helper (list ->next, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTTOSTRINGHELPERFAILED; goto cleanup; } } while (0) | |||
160 | (list->next, &itemString, plContext),do { stdVars.aPkixErrorResult = (pkix_List_ToString_Helper (list ->next, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTTOSTRINGHELPERFAILED; goto cleanup; } } while (0) | |||
161 | PKIX_LISTTOSTRINGHELPERFAILED)do { stdVars.aPkixErrorResult = (pkix_List_ToString_Helper (list ->next, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTTOSTRINGHELPERFAILED; goto cleanup; } } while (0); | |||
162 | } | |||
163 | ||||
164 | /* Create a string object from the format */ | |||
165 | PKIX_CHECK(PKIX_PL_String_Createdo { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "%s" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
166 | (PKIX_ESCASCII, "%s", 0, &format, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "%s" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
167 | PKIX_STRINGCREATEFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "%s" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0); | |||
168 | ||||
169 | PKIX_CHECK(PKIX_PL_Sprintfdo { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf (pString, plContext , format, itemString)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0) | |||
170 | (pString, plContext, format, itemString),do { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf (pString, plContext , format, itemString)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0) | |||
171 | PKIX_SPRINTFFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf (pString, plContext , format, itemString)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0); | |||
172 | } else { | |||
173 | /* Get a string for this list's item */ | |||
174 | if (list->item == NULL((void*)0)) { | |||
175 | PKIX_CHECK(PKIX_PL_String_Createdo { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "(null)" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
176 | (PKIX_ESCASCII,do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "(null)" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
177 | "(null)",do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "(null)" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
178 | 0,do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "(null)" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
179 | &itemString,do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "(null)" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
180 | plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "(null)" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
181 | PKIX_STRINGCREATEFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "(null)" , 0, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0); | |||
182 | } else { | |||
183 | PKIX_CHECK(PKIX_PL_Object_ToStringdo { stdVars.aPkixErrorResult = (PKIX_PL_Object_ToString ((PKIX_PL_Object *)list->item, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTTOSTRINGFAILED; goto cleanup ; } } while (0) | |||
184 | ((PKIX_PL_Object*)list->item,do { stdVars.aPkixErrorResult = (PKIX_PL_Object_ToString ((PKIX_PL_Object *)list->item, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTTOSTRINGFAILED; goto cleanup ; } } while (0) | |||
185 | &itemString,do { stdVars.aPkixErrorResult = (PKIX_PL_Object_ToString ((PKIX_PL_Object *)list->item, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTTOSTRINGFAILED; goto cleanup ; } } while (0) | |||
186 | plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_ToString ((PKIX_PL_Object *)list->item, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTTOSTRINGFAILED; goto cleanup ; } } while (0) | |||
187 | PKIX_OBJECTTOSTRINGFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_ToString ((PKIX_PL_Object *)list->item, &itemString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTTOSTRINGFAILED; goto cleanup ; } } while (0); | |||
188 | } | |||
189 | if (list->next == NULL((void*)0)) { | |||
190 | /* Just return the itemstring */ | |||
191 | (*pString) = itemString; | |||
192 | PKIX_DEBUG_EXIT(LIST); | |||
193 | return (NULL((void*)0)); | |||
194 | } | |||
195 | ||||
196 | /* Recursive call to get string for this list's next pointer */ | |||
197 | PKIX_CHECK(pkix_List_ToString_Helperdo { stdVars.aPkixErrorResult = (pkix_List_ToString_Helper (list ->next, &nextString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTTOSTRINGHELPERFAILED; goto cleanup; } } while (0) | |||
198 | (list->next, &nextString, plContext),do { stdVars.aPkixErrorResult = (pkix_List_ToString_Helper (list ->next, &nextString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTTOSTRINGHELPERFAILED; goto cleanup; } } while (0) | |||
199 | PKIX_LISTTOSTRINGHELPERFAILED)do { stdVars.aPkixErrorResult = (pkix_List_ToString_Helper (list ->next, &nextString, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTTOSTRINGHELPERFAILED; goto cleanup; } } while (0); | |||
200 | ||||
201 | /* Create a string object from the format */ | |||
202 | PKIX_CHECK(PKIX_PL_String_Createdo { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "%s, %s" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
203 | (PKIX_ESCASCII,do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "%s, %s" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
204 | "%s, %s",do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "%s, %s" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
205 | 0,do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "%s, %s" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
206 | &format,do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "%s, %s" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
207 | plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "%s, %s" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
208 | PKIX_STRINGCREATEFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "%s, %s" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0); | |||
209 | ||||
210 | PKIX_CHECK(PKIX_PL_Sprintfdo { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf (pString, plContext , format, itemString, nextString)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0) | |||
211 | (pString,do { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf (pString, plContext , format, itemString, nextString)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0) | |||
212 | plContext,do { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf (pString, plContext , format, itemString, nextString)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0) | |||
213 | format,do { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf (pString, plContext , format, itemString, nextString)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0) | |||
214 | itemString,do { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf (pString, plContext , format, itemString, nextString)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0) | |||
215 | nextString),do { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf (pString, plContext , format, itemString, nextString)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0) | |||
216 | PKIX_SPRINTFFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf (pString, plContext , format, itemString, nextString)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0); | |||
217 | } | |||
218 | ||||
219 | cleanup: | |||
220 | ||||
221 | PKIX_DECREF(itemString)do { if (itemString){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(itemString), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } itemString = ((void *)0); } } while (0); | |||
222 | PKIX_DECREF(nextString)do { if (nextString){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(nextString), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } nextString = ((void *)0); } } while (0); | |||
223 | PKIX_DECREF(format)do { if (format){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(format), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } format = ((void*)0 ); } } while (0); | |||
224 | ||||
225 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
226 | } | |||
227 | ||||
228 | /* | |||
229 | * FUNCTION: pkix_List_ToString | |||
230 | * (see comments for PKIX_PL_ToStringCallback in pkix_pl_system.h) | |||
231 | */ | |||
232 | static PKIX_Error * | |||
233 | pkix_List_ToString( | |||
234 | PKIX_PL_Object *object, | |||
235 | PKIX_PL_String **pString, | |||
236 | void *plContext) | |||
237 | { | |||
238 | PKIX_List *list = NULL((void*)0); | |||
239 | PKIX_PL_String *listString = NULL((void*)0); | |||
240 | PKIX_PL_String *format = NULL((void*)0); | |||
241 | ||||
242 | PKIX_ENTER(LIST, "pkix_List_ToString")static const char cMyFuncName[] = {"pkix_List_ToString"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
243 | PKIX_NULLCHECK_TWO(object, pString)do { if (((object) == ((void*)0)) || ((pString) == ((void*)0) )){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars. aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(& stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
244 | ||||
245 | PKIX_CHECK(pkix_CheckType(object, PKIX_LIST_TYPE, plContext),do { stdVars.aPkixErrorResult = (pkix_CheckType(object, PKIX_LIST_TYPE , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTNOTLIST; goto cleanup; } } while (0) | |||
246 | PKIX_OBJECTNOTLIST)do { stdVars.aPkixErrorResult = (pkix_CheckType(object, PKIX_LIST_TYPE , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTNOTLIST; goto cleanup; } } while (0); | |||
247 | ||||
248 | list = (PKIX_List *)object; | |||
249 | ||||
250 | if (!list->isHeader){ | |||
251 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
252 | } | |||
253 | ||||
254 | PKIX_CHECK(pkix_List_ToString_Helper(list, &listString, plContext),do { stdVars.aPkixErrorResult = (pkix_List_ToString_Helper(list , &listString, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTTOSTRINGHELPERFAILED; goto cleanup; } } while (0) | |||
255 | PKIX_LISTTOSTRINGHELPERFAILED)do { stdVars.aPkixErrorResult = (pkix_List_ToString_Helper(list , &listString, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTTOSTRINGHELPERFAILED; goto cleanup; } } while (0); | |||
256 | ||||
257 | PKIX_CHECK(PKIX_PL_String_Createdo { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "(%s)" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
258 | (PKIX_ESCASCII, "(%s)", 0, &format, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "(%s)" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0) | |||
259 | PKIX_STRINGCREATEFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_String_Create (0, "(%s)" , 0, &format, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_STRINGCREATEFAILED; goto cleanup ; } } while (0); | |||
260 | ||||
261 | PKIX_CHECK(PKIX_PL_Sprintf(pString, plContext, format, listString),do { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf(pString, plContext , format, listString)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0) | |||
262 | PKIX_SPRINTFFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Sprintf(pString, plContext , format, listString)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_SPRINTFFAILED; goto cleanup; } } while (0); | |||
263 | ||||
264 | cleanup: | |||
265 | ||||
266 | PKIX_DECREF(listString)do { if (listString){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(listString), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } listString = ((void *)0); } } while (0); | |||
267 | PKIX_DECREF(format)do { if (format){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(format), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } format = ((void*)0 ); } } while (0); | |||
268 | ||||
269 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
270 | } | |||
271 | ||||
272 | /* | |||
273 | * FUNCTION: pkix_List_Equals | |||
274 | * (see comments for PKIX_PL_EqualsCallback in pkix_pl_system.h) | |||
275 | */ | |||
276 | static PKIX_Error * | |||
277 | pkix_List_Equals( | |||
278 | PKIX_PL_Object *first, | |||
279 | PKIX_PL_Object *second, | |||
280 | PKIX_Boolean *pResult, | |||
281 | void *plContext) | |||
282 | { | |||
283 | PKIX_UInt32 secondType; | |||
284 | PKIX_Boolean cmpResult; | |||
285 | PKIX_List *firstList = NULL((void*)0); | |||
286 | PKIX_List *secondList = NULL((void*)0); | |||
287 | PKIX_UInt32 firstLength = 0; | |||
288 | PKIX_UInt32 secondLength = 0; | |||
289 | PKIX_PL_Object *firstItem = NULL((void*)0); | |||
290 | PKIX_PL_Object *secondItem = NULL((void*)0); | |||
291 | PKIX_UInt32 i = 0; | |||
292 | ||||
293 | PKIX_ENTER(LIST, "pkix_List_Equals")static const char cMyFuncName[] = {"pkix_List_Equals"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
294 | PKIX_NULLCHECK_THREE(first, second, pResult)do { if (((first) == ((void*)0)) || ((second) == ((void*)0)) || ((pResult) == ((void*)0))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn (&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean) 1), plContext );; } } while (0); | |||
295 | ||||
296 | /* test that first is a List */ | |||
297 | PKIX_CHECK(pkix_CheckType(first, PKIX_LIST_TYPE, plContext),do { stdVars.aPkixErrorResult = (pkix_CheckType(first, PKIX_LIST_TYPE , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_FIRSTOBJECTNOTLIST; goto cleanup; } } while (0) | |||
298 | PKIX_FIRSTOBJECTNOTLIST)do { stdVars.aPkixErrorResult = (pkix_CheckType(first, PKIX_LIST_TYPE , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_FIRSTOBJECTNOTLIST; goto cleanup; } } while (0); | |||
299 | ||||
300 | /* | |||
301 | * Since we know first is a List, if both references are | |||
302 | * identical, they must be equal | |||
303 | */ | |||
304 | if (first == second){ | |||
305 | *pResult = PKIX_TRUE((PKIX_Boolean) 1); | |||
306 | goto cleanup; | |||
307 | } | |||
308 | ||||
309 | /* | |||
310 | * If second isn't a List, we don't throw an error. | |||
311 | * We simply return a Boolean result of FALSE | |||
312 | */ | |||
313 | *pResult = PKIX_FALSE((PKIX_Boolean) 0); | |||
314 | PKIX_CHECK(PKIX_PL_Object_GetType(second, &secondType, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_GetType(second , &secondType, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_COULDNOTGETTYPEOFSECONDARGUMENT ; goto cleanup; } } while (0) | |||
315 | PKIX_COULDNOTGETTYPEOFSECONDARGUMENT)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_GetType(second , &secondType, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_COULDNOTGETTYPEOFSECONDARGUMENT ; goto cleanup; } } while (0); | |||
316 | if (secondType != PKIX_LIST_TYPE) goto cleanup; | |||
317 | ||||
318 | firstList = (PKIX_List *)first; | |||
319 | secondList = (PKIX_List *)second; | |||
320 | ||||
321 | if ((!firstList->isHeader) && (!secondList->isHeader)){ | |||
322 | PKIX_ERROR(PKIX_INPUTLISTSMUSTBELISTHEADERS){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTSMUSTBELISTHEADERS, ((void*)0), stdVars.aPkixType , 2, plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTSMUSTBELISTHEADERS ; goto cleanup; }; | |||
323 | } | |||
324 | ||||
325 | firstLength = firstList->length; | |||
326 | secondLength = secondList->length; | |||
327 | ||||
328 | cmpResult = PKIX_FALSE((PKIX_Boolean) 0); | |||
329 | if (firstLength == secondLength){ | |||
330 | for (i = 0, cmpResult = PKIX_TRUE((PKIX_Boolean) 1); | |||
331 | ((i < firstLength) && cmpResult); | |||
332 | i++){ | |||
333 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (firstList , i, &firstItem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
334 | (firstList, i, &firstItem, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (firstList , i, &firstItem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
335 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (firstList , i, &firstItem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0); | |||
336 | ||||
337 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (secondList , i, &secondItem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
338 | (secondList, i, &secondItem, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (secondList , i, &secondItem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
339 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (secondList , i, &secondItem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0); | |||
340 | ||||
341 | if ((!firstItem && secondItem) || | |||
342 | (firstItem && !secondItem)){ | |||
343 | cmpResult = PKIX_FALSE((PKIX_Boolean) 0); | |||
344 | } else if (!firstItem && !secondItem){ | |||
345 | continue; | |||
346 | } else { | |||
347 | PKIX_CHECK(PKIX_PL_Object_Equalsdo { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (firstItem , secondItem, &cmpResult, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0) | |||
348 | (firstItem,do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (firstItem , secondItem, &cmpResult, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0) | |||
349 | secondItem,do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (firstItem , secondItem, &cmpResult, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0) | |||
350 | &cmpResult,do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (firstItem , secondItem, &cmpResult, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0) | |||
351 | plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (firstItem , secondItem, &cmpResult, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0) | |||
352 | PKIX_OBJECTEQUALSFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (firstItem , secondItem, &cmpResult, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0); | |||
353 | ||||
354 | PKIX_DECREF(firstItem)do { if (firstItem){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(firstItem), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } firstItem = ((void *)0); } } while (0); | |||
355 | PKIX_DECREF(secondItem)do { if (secondItem){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(secondItem), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } secondItem = ((void *)0); } } while (0); | |||
356 | } | |||
357 | } | |||
358 | } | |||
359 | ||||
360 | *pResult = cmpResult; | |||
361 | ||||
362 | cleanup: | |||
363 | ||||
364 | PKIX_DECREF(firstItem)do { if (firstItem){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(firstItem), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } firstItem = ((void *)0); } } while (0); | |||
365 | PKIX_DECREF(secondItem)do { if (secondItem){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(secondItem), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } secondItem = ((void *)0); } } while (0); | |||
366 | ||||
367 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
368 | } | |||
369 | ||||
370 | /* | |||
371 | * FUNCTION: pkix_List_Hashcode | |||
372 | * (see comments for PKIX_PL_HashcodeCallback in pkix_pl_system.h) | |||
373 | */ | |||
374 | static PKIX_Error * | |||
375 | pkix_List_Hashcode( | |||
376 | PKIX_PL_Object *object, | |||
377 | PKIX_UInt32 *pHashcode, | |||
378 | void *plContext) | |||
379 | { | |||
380 | PKIX_List *list = NULL((void*)0); | |||
381 | PKIX_PL_Object *element = NULL((void*)0); | |||
382 | PKIX_UInt32 hash = 0; | |||
383 | PKIX_UInt32 tempHash = 0; | |||
384 | PKIX_UInt32 length, i; | |||
385 | ||||
386 | PKIX_ENTER(LIST, "pkix_List_Hashcode")static const char cMyFuncName[] = {"pkix_List_Hashcode"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
387 | PKIX_NULLCHECK_TWO(object, pHashcode)do { if (((object) == ((void*)0)) || ((pHashcode) == ((void*) 0))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars .aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(& stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
388 | ||||
389 | PKIX_CHECK(pkix_CheckType(object, PKIX_LIST_TYPE, plContext),do { stdVars.aPkixErrorResult = (pkix_CheckType(object, PKIX_LIST_TYPE , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTNOTLIST; goto cleanup; } } while (0) | |||
390 | PKIX_OBJECTNOTLIST)do { stdVars.aPkixErrorResult = (pkix_CheckType(object, PKIX_LIST_TYPE , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTNOTLIST; goto cleanup; } } while (0); | |||
391 | ||||
392 | list = (PKIX_List *)object; | |||
393 | ||||
394 | if (!list->isHeader){ | |||
395 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
396 | } | |||
397 | ||||
398 | length = list->length; | |||
399 | ||||
400 | for (i = 0; i < length; i++){ | |||
401 | PKIX_CHECK(PKIX_List_GetItem(list, i, &element, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem(list, i, & element, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0) | |||
402 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem(list, i, & element, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0); | |||
403 | ||||
404 | if (!element){ | |||
405 | tempHash = 100; | |||
406 | } else { | |||
407 | PKIX_CHECK(PKIX_PL_Object_Hashcodedo { stdVars.aPkixErrorResult = (PKIX_PL_Object_Hashcode (element , &tempHash, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTHASHCODEFAILED; goto cleanup ; } } while (0) | |||
408 | (element, &tempHash, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Hashcode (element , &tempHash, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTHASHCODEFAILED; goto cleanup ; } } while (0) | |||
409 | PKIX_LISTHASHCODEFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Hashcode (element , &tempHash, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTHASHCODEFAILED; goto cleanup ; } } while (0); | |||
410 | } | |||
411 | ||||
412 | hash = 31 * hash + tempHash; | |||
413 | ||||
414 | PKIX_DECREF(element)do { if (element){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(element), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } element = ((void*) 0); } } while (0); | |||
415 | } | |||
416 | ||||
417 | *pHashcode = hash; | |||
418 | ||||
419 | cleanup: | |||
420 | ||||
421 | PKIX_DECREF(element)do { if (element){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(element), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } element = ((void*) 0); } } while (0); | |||
422 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
423 | } | |||
424 | ||||
425 | /* | |||
426 | * FUNCTION: pkix_List_Duplicate | |||
427 | * (see comments for PKIX_PL_DuplicateCallback in pkix_pl_system.h) | |||
428 | */ | |||
429 | static PKIX_Error * | |||
430 | pkix_List_Duplicate( | |||
431 | PKIX_PL_Object *object, | |||
432 | PKIX_PL_Object **pNewObject, | |||
433 | void *plContext) | |||
434 | { | |||
435 | PKIX_List *list = NULL((void*)0); | |||
436 | PKIX_List *listDuplicate = NULL((void*)0); | |||
437 | ||||
438 | PKIX_ENTER(LIST, "pkix_List_Duplicate")static const char cMyFuncName[] = {"pkix_List_Duplicate"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
439 | PKIX_NULLCHECK_TWO(object, pNewObject)do { if (((object) == ((void*)0)) || ((pNewObject) == ((void* )0))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars .aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(& stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
440 | ||||
441 | PKIX_CHECK(pkix_CheckType(object, PKIX_LIST_TYPE, plContext),do { stdVars.aPkixErrorResult = (pkix_CheckType(object, PKIX_LIST_TYPE , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTNOTLIST; goto cleanup; } } while (0) | |||
442 | PKIX_OBJECTNOTLIST)do { stdVars.aPkixErrorResult = (pkix_CheckType(object, PKIX_LIST_TYPE , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTNOTLIST; goto cleanup; } } while (0); | |||
443 | ||||
444 | list = (PKIX_List *)object; | |||
445 | ||||
446 | if (list->immutable){ | |||
447 | PKIX_CHECK(pkix_duplicateImmutabledo { stdVars.aPkixErrorResult = (pkix_duplicateImmutable (object , pNewObject, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_DUPLICATEIMMUTABLEFAILED; goto cleanup ; } } while (0) | |||
448 | (object, pNewObject, plContext),do { stdVars.aPkixErrorResult = (pkix_duplicateImmutable (object , pNewObject, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_DUPLICATEIMMUTABLEFAILED; goto cleanup ; } } while (0) | |||
449 | PKIX_DUPLICATEIMMUTABLEFAILED)do { stdVars.aPkixErrorResult = (pkix_duplicateImmutable (object , pNewObject, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_DUPLICATEIMMUTABLEFAILED; goto cleanup ; } } while (0); | |||
450 | } else { | |||
451 | ||||
452 | PKIX_CHECK(pkix_List_Create_Internaldo { stdVars.aPkixErrorResult = (pkix_List_Create_Internal (list ->isHeader, &listDuplicate, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED; goto cleanup; } } while (0) | |||
453 | (list->isHeader, &listDuplicate, plContext),do { stdVars.aPkixErrorResult = (pkix_List_Create_Internal (list ->isHeader, &listDuplicate, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED; goto cleanup; } } while (0) | |||
454 | PKIX_LISTCREATEINTERNALFAILED)do { stdVars.aPkixErrorResult = (pkix_List_Create_Internal (list ->isHeader, &listDuplicate, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED; goto cleanup; } } while (0); | |||
455 | ||||
456 | listDuplicate->length = list->length; | |||
457 | ||||
458 | PKIX_INCREF(list->item)do { if (list->item){ stdVars.aPkixTempResult = PKIX_PL_Object_IncRef ((PKIX_PL_Object *)(list->item), plContext); if (stdVars. aPkixTempResult) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult , plContext); stdVars.aPkixTempResult = ((void*)0); goto cleanup ; } } } while (0); | |||
459 | listDuplicate->item = list->item; | |||
460 | ||||
461 | if (list->next == NULL((void*)0)){ | |||
462 | listDuplicate->next = NULL((void*)0); | |||
463 | } else { | |||
464 | /* Recursively Duplicate list */ | |||
465 | PKIX_CHECK(pkix_List_Duplicatedo { stdVars.aPkixErrorResult = (pkix_List_Duplicate ((PKIX_PL_Object *)list->next, (PKIX_PL_Object **)&listDuplicate->next , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED; goto cleanup; } } while (0) | |||
466 | ((PKIX_PL_Object *)list->next,do { stdVars.aPkixErrorResult = (pkix_List_Duplicate ((PKIX_PL_Object *)list->next, (PKIX_PL_Object **)&listDuplicate->next , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED; goto cleanup; } } while (0) | |||
467 | (PKIX_PL_Object **)&listDuplicate->next,do { stdVars.aPkixErrorResult = (pkix_List_Duplicate ((PKIX_PL_Object *)list->next, (PKIX_PL_Object **)&listDuplicate->next , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED; goto cleanup; } } while (0) | |||
468 | plContext),do { stdVars.aPkixErrorResult = (pkix_List_Duplicate ((PKIX_PL_Object *)list->next, (PKIX_PL_Object **)&listDuplicate->next , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED; goto cleanup; } } while (0) | |||
469 | PKIX_LISTDUPLICATEFAILED)do { stdVars.aPkixErrorResult = (pkix_List_Duplicate ((PKIX_PL_Object *)list->next, (PKIX_PL_Object **)&listDuplicate->next , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED; goto cleanup; } } while (0); | |||
470 | } | |||
471 | ||||
472 | *pNewObject = (PKIX_PL_Object *)listDuplicate; | |||
473 | } | |||
474 | ||||
475 | cleanup: | |||
476 | ||||
477 | if (PKIX_ERROR_RECEIVED(stdVars.aPkixErrorReceived || stdVars.aPkixErrorResult || stdVars .aPkixTempErrorReceived || stdVars.aPkixErrorList)){ | |||
478 | PKIX_DECREF(listDuplicate)do { if (listDuplicate){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(listDuplicate), plContext); if (stdVars. aPkixTempResult) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult , plContext); stdVars.aPkixTempResult = ((void*)0); } listDuplicate = ((void*)0); } } while (0); | |||
479 | } | |||
480 | ||||
481 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
482 | } | |||
483 | ||||
484 | ||||
485 | /* | |||
486 | * FUNCTION: pkix_List_GetElement | |||
487 | * DESCRIPTION: | |||
488 | * | |||
489 | * Copies the "list"'s element at "index" into "element". The input List must | |||
490 | * be the header of the List (as opposed to being an element of the List). The | |||
491 | * index counts from zero and must be less than the List's length. This | |||
492 | * function does NOT increment the reference count of the List element since | |||
493 | * the returned element's reference will not be stored by the calling | |||
494 | * function. | |||
495 | * | |||
496 | * PARAMETERS: | |||
497 | * "list" | |||
498 | * Address of List (must be header) to get element from. Must be non-NULL. | |||
499 | * "index" | |||
500 | * Index of list to get element from. Must be less than List's length. | |||
501 | * "pElement" | |||
502 | * Address where object pointer will be stored. Must be non-NULL. | |||
503 | * "plContext" | |||
504 | * Platform-specific context pointer. | |||
505 | * THREAD SAFETY: | |||
506 | * Conditionally Thread Safe | |||
507 | * (see Thread Safety Definitions in Programmer's Guide) | |||
508 | * RETURNS: | |||
509 | * Returns NULL if the function succeeds. | |||
510 | * Returns a Fatal Error if the function fails in an unrecoverable way. | |||
511 | */ | |||
512 | static PKIX_Error * | |||
513 | pkix_List_GetElement( | |||
514 | PKIX_List *list, | |||
515 | PKIX_UInt32 index, | |||
516 | PKIX_List **pElement, | |||
517 | void *plContext) | |||
518 | { | |||
519 | PKIX_List *iterator = NULL((void*)0); | |||
520 | PKIX_UInt32 length; | |||
521 | PKIX_UInt32 position = 0; | |||
522 | ||||
523 | PKIX_ENTER(LIST, "pkix_List_GetElement")static const char cMyFuncName[] = {"pkix_List_GetElement"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
524 | PKIX_NULLCHECK_TWO(list, pElement)do { if (((list) == ((void*)0)) || ((pElement) == ((void*)0)) ){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR ), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
525 | ||||
526 | if (!list->isHeader
| |||
527 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
528 | } | |||
529 | ||||
530 | length = list->length; | |||
531 | ||||
532 | if (index >= length) { | |||
533 | PKIX_ERROR(PKIX_INDEXOUTOFBOUNDS){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INDEXOUTOFBOUNDS, ((void*)0), stdVars.aPkixType, 2, plContext ); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars .aPkixErrorCode = PKIX_INDEXOUTOFBOUNDS; goto cleanup; }; | |||
534 | } | |||
535 | ||||
536 | for (iterator = list; position++ <= index; iterator = iterator->next) | |||
537 | ; | |||
538 | ||||
539 | (*pElement) = iterator; | |||
540 | ||||
541 | cleanup: | |||
542 | ||||
543 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
544 | } | |||
545 | ||||
546 | ||||
547 | /* | |||
548 | * FUNCTION: pkix_List_RegisterSelf | |||
549 | * DESCRIPTION: | |||
550 | * Registers PKIX_LIST_TYPE and its related functions with systemClasses[] | |||
551 | * THREAD SAFETY: | |||
552 | * Not Thread Safe - for performance and complexity reasons | |||
553 | * | |||
554 | * Since this function is only called by PKIX_PL_Initialize, which should | |||
555 | * only be called once, it is acceptable that this function is not | |||
556 | * thread-safe. | |||
557 | */ | |||
558 | PKIX_Error * | |||
559 | pkix_List_RegisterSelf(void *plContext) | |||
560 | { | |||
561 | extern pkix_ClassTable_Entry systemClasses[PKIX_NUMTYPES]; | |||
562 | pkix_ClassTable_Entry entry; | |||
563 | ||||
564 | PKIX_ENTER(LIST, "pkix_List_RegisterSelf")static const char cMyFuncName[] = {"pkix_List_RegisterSelf"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName ; stdVars.aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
565 | ||||
566 | entry.description = "List"; | |||
567 | entry.objCounter = 0; | |||
568 | entry.typeObjectSize = sizeof(PKIX_List); | |||
569 | entry.destructor = pkix_List_Destroy; | |||
570 | entry.equalsFunction = pkix_List_Equals; | |||
571 | entry.hashcodeFunction = pkix_List_Hashcode; | |||
572 | entry.toStringFunction = pkix_List_ToString; | |||
573 | entry.comparator = NULL((void*)0); | |||
574 | entry.duplicateFunction = pkix_List_Duplicate; | |||
575 | ||||
576 | systemClasses[PKIX_LIST_TYPE] = entry; | |||
577 | ||||
578 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
579 | } | |||
580 | ||||
581 | /* | |||
582 | * FUNCTION: pkix_List_Contains | |||
583 | * DESCRIPTION: | |||
584 | * | |||
585 | * Checks a List pointed to by "list", to determine whether it includes | |||
586 | * an entry that is equal to the Object pointed to by "object", and stores | |||
587 | * the result in "pFound". | |||
588 | * | |||
589 | * PARAMETERS: | |||
590 | * "list" | |||
591 | * List to be searched; may be empty; must be non-NULL | |||
592 | * "object" | |||
593 | * Object to be checked for; must be non-NULL | |||
594 | * "pFound" | |||
595 | * Address where the result of the search will be stored. Must | |||
596 | * be non-NULL | |||
597 | * "plContext" | |||
598 | * platform-specific context pointer | |||
599 | * THREAD SAFETY: | |||
600 | * Thread Safe (see Thread Safety Definitions in Programmer's Guide) | |||
601 | * RETURNS: | |||
602 | * Returns NULL if the function succeeds | |||
603 | * Returns a Fatal Error if the function fails in an unrecoverable way | |||
604 | */ | |||
605 | PKIX_Error * | |||
606 | pkix_List_Contains( | |||
607 | PKIX_List *list, | |||
608 | PKIX_PL_Object *object, | |||
609 | PKIX_Boolean *pFound, | |||
610 | void *plContext) | |||
611 | { | |||
612 | PKIX_PL_Object *current = NULL((void*)0); | |||
613 | PKIX_UInt32 numEntries = 0; | |||
614 | PKIX_UInt32 index = 0; | |||
615 | PKIX_Boolean match = PKIX_FALSE((PKIX_Boolean) 0); | |||
616 | ||||
617 | PKIX_ENTER(LIST, "pkix_List_Contains")static const char cMyFuncName[] = {"pkix_List_Contains"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
618 | PKIX_NULLCHECK_THREE(list, object, pFound)do { if (((list) == ((void*)0)) || ((object) == ((void*)0)) || ((pFound) == ((void*)0))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn (&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean) 1), plContext );; } } while (0); | |||
619 | ||||
620 | PKIX_CHECK(PKIX_List_GetLength(list, &numEntries, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(list, & numEntries, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0) | |||
621 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(list, & numEntries, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0); | |||
622 | ||||
623 | for (index = 0; index < numEntries; index++) { | |||
624 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (list, index , ¤t, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0) | |||
625 | (list, index, ¤t, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (list, index , ¤t, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0) | |||
626 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (list, index , ¤t, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0); | |||
627 | ||||
628 | if (current) { | |||
629 | PKIX_CHECK(PKIX_PL_Object_Equalsdo { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (object , current, &match, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0) | |||
630 | (object, current, &match, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (object , current, &match, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0) | |||
631 | PKIX_OBJECTEQUALSFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (object , current, &match, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0); | |||
632 | ||||
633 | PKIX_DECREF(current)do { if (current){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(current), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } current = ((void*) 0); } } while (0); | |||
634 | } | |||
635 | ||||
636 | if (match) { | |||
637 | break; | |||
638 | } | |||
639 | } | |||
640 | ||||
641 | *pFound = match; | |||
642 | ||||
643 | cleanup: | |||
644 | ||||
645 | PKIX_DECREF(current)do { if (current){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(current), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } current = ((void*) 0); } } while (0); | |||
646 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
647 | } | |||
648 | ||||
649 | /* | |||
650 | * FUNCTION: pkix_List_Remove | |||
651 | * DESCRIPTION: | |||
652 | * | |||
653 | * Traverses the List pointed to by "list", to find and delete an entry | |||
654 | * that is equal to the Object pointed to by "object". If no such entry | |||
655 | * is found the function does not return an error. | |||
656 | * | |||
657 | * PARAMETERS: | |||
658 | * "list" | |||
659 | * List to be searched; may be empty; must be non-NULL | |||
660 | * "object" | |||
661 | * Object to be checked for and deleted, if found; must be non-NULL | |||
662 | * "plContext" | |||
663 | * platform-specific context pointer | |||
664 | * THREAD SAFETY: | |||
665 | * Thread Safe (see Thread Safety Definitions in Programmer's Guide) | |||
666 | * RETURNS: | |||
667 | * Returns NULL if the function succeeds | |||
668 | * Returns a Validate Error if the functions fails in a non-fatal way | |||
669 | * Returns a Fatal Error if the function fails in an unrecoverable way | |||
670 | */ | |||
671 | PKIX_Error * | |||
672 | pkix_List_Remove( | |||
673 | PKIX_List *list, | |||
674 | PKIX_PL_Object *object, | |||
675 | void *plContext) | |||
676 | { | |||
677 | PKIX_PL_Object *current = NULL((void*)0); | |||
678 | PKIX_UInt32 numEntries = 0; | |||
679 | PKIX_UInt32 index = 0; | |||
680 | PKIX_Boolean match = PKIX_FALSE((PKIX_Boolean) 0); | |||
681 | ||||
682 | PKIX_ENTER(LIST, "pkix_List_Remove")static const char cMyFuncName[] = {"pkix_List_Remove"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
683 | PKIX_NULLCHECK_TWO(list, object)do { if (((list) == ((void*)0)) || ((object) == ((void*)0))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR ), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
684 | ||||
685 | PKIX_CHECK(PKIX_List_GetLength(list, &numEntries, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(list, & numEntries, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0) | |||
686 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(list, & numEntries, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0); | |||
687 | ||||
688 | for (index = 0; index < numEntries; index++) { | |||
689 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (list, index , ¤t, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0) | |||
690 | (list, index, ¤t, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (list, index , ¤t, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0) | |||
691 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (list, index , ¤t, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0); | |||
692 | ||||
693 | if (current) { | |||
694 | PKIX_CHECK(PKIX_PL_Object_Equalsdo { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (object , current, &match, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0) | |||
695 | (object, current, &match, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (object , current, &match, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0) | |||
696 | PKIX_OBJECTEQUALSFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Equals (object , current, &match, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup ; } } while (0); | |||
697 | ||||
698 | PKIX_DECREF(current)do { if (current){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(current), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } current = ((void*) 0); } } while (0); | |||
699 | } | |||
700 | ||||
701 | if (match) { | |||
702 | PKIX_CHECK(PKIX_List_DeleteItemdo { stdVars.aPkixErrorResult = (PKIX_List_DeleteItem (list, index , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDELETEITEMFAILED; goto cleanup; } } while (0) | |||
703 | (list, index, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_DeleteItem (list, index , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDELETEITEMFAILED; goto cleanup; } } while (0) | |||
704 | PKIX_LISTDELETEITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_DeleteItem (list, index , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDELETEITEMFAILED; goto cleanup; } } while (0); | |||
705 | break; | |||
706 | } | |||
707 | } | |||
708 | ||||
709 | cleanup: | |||
710 | ||||
711 | PKIX_DECREF(current)do { if (current){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(current), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } current = ((void*) 0); } } while (0); | |||
712 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
713 | } | |||
714 | ||||
715 | /* | |||
716 | * FUNCTION: pkix_List_RemoveItems | |||
717 | * DESCRIPTION: | |||
718 | * | |||
719 | * Traverses the List pointed to by "list", to find and delete an entry | |||
720 | * that is equal to the Object in the "deleteList". If no such entry | |||
721 | * is found the function does not return an error. | |||
722 | * | |||
723 | * PARAMETERS: | |||
724 | * "list" | |||
725 | * Object in "list" is checked for object in "deleteList" and deleted if | |||
726 | * found; may be empty; must be non-NULL | |||
727 | * "deleteList" | |||
728 | * List of objects to be searched ; may be empty; must be non-NULL | |||
729 | * "plContext" | |||
730 | * platform-specific context pointer | |||
731 | * THREAD SAFETY: | |||
732 | * Thread Safe (see Thread Safety Definitions in Programmer's Guide) | |||
733 | * RETURNS: | |||
734 | * Returns NULL if the function succeeds | |||
735 | * Returns a Validate Error if the functions fails in a non-fatal way | |||
736 | * Returns a Fatal Error if the function fails in an unrecoverable way | |||
737 | */ | |||
738 | PKIX_Error * | |||
739 | pkix_List_RemoveItems( | |||
740 | PKIX_List *list, | |||
741 | PKIX_List *deleteList, | |||
742 | void *plContext) | |||
743 | { | |||
744 | PKIX_PL_Object *current = NULL((void*)0); | |||
745 | PKIX_UInt32 numEntries = 0; | |||
746 | PKIX_UInt32 index = 0; | |||
747 | ||||
748 | PKIX_ENTER(LIST, "pkix_List_RemoveItems")static const char cMyFuncName[] = {"pkix_List_RemoveItems"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
749 | PKIX_NULLCHECK_TWO(list, deleteList)do { if (((list) == ((void*)0)) || ((deleteList) == ((void*)0 ))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars .aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(& stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
750 | ||||
751 | PKIX_CHECK(PKIX_List_GetLength(deleteList, &numEntries, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(deleteList , &numEntries, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0) | |||
752 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(deleteList , &numEntries, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0); | |||
753 | ||||
754 | for (index = 0; index < numEntries; index++) { | |||
755 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (deleteList , index, ¤t, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
756 | (deleteList, index, ¤t, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (deleteList , index, ¤t, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
757 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (deleteList , index, ¤t, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0); | |||
758 | ||||
759 | if (current) { | |||
760 | PKIX_CHECK(pkix_List_Removedo { stdVars.aPkixErrorResult = (pkix_List_Remove (list, current , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup; } } while (0) | |||
761 | (list, current, plContext),do { stdVars.aPkixErrorResult = (pkix_List_Remove (list, current , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup; } } while (0) | |||
762 | PKIX_OBJECTEQUALSFAILED)do { stdVars.aPkixErrorResult = (pkix_List_Remove (list, current , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_OBJECTEQUALSFAILED; goto cleanup; } } while (0); | |||
763 | ||||
764 | PKIX_DECREF(current)do { if (current){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(current), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } current = ((void*) 0); } } while (0); | |||
765 | } | |||
766 | } | |||
767 | ||||
768 | cleanup: | |||
769 | ||||
770 | PKIX_DECREF(current)do { if (current){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(current), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } current = ((void*) 0); } } while (0); | |||
771 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
772 | } | |||
773 | ||||
774 | /* | |||
775 | * FUNCTION: pkix_List_MergeLists | |||
776 | * DESCRIPTION: | |||
777 | * | |||
778 | * Creates a new list consisting of the items from "firstList", followed by | |||
779 | * the items on "secondList", returns the new list at "pMergedList". If | |||
780 | * both input lists are NULL or empty, the result is an empty list. If an error | |||
781 | * occurs, the result is NULL. | |||
782 | * | |||
783 | * PARAMETERS: | |||
784 | * "firstList" | |||
785 | * Address of list to be merged from. May be NULL or empty. | |||
786 | * "secondList" | |||
787 | * Address of list to be merged from. May be NULL or empty. | |||
788 | * "pMergedList" | |||
789 | * Address where returned object is stored. | |||
790 | * "plContext" | |||
791 | * platform-specific context pointer * THREAD SAFETY: | |||
792 | * Thread Safe (see Thread Safety Definitions in Programmer's Guide) | |||
793 | * RETURNS: | |||
794 | * Returns NULL if the function succeeds | |||
795 | * Returns a List Error if the functions fails in a non-fatal way | |||
796 | * Returns a Fatal Error if the function fails in an unrecoverable way | |||
797 | */ | |||
798 | PKIX_Error * | |||
799 | pkix_List_MergeLists( | |||
800 | PKIX_List *firstList, | |||
801 | PKIX_List *secondList, | |||
802 | PKIX_List **pMergedList, | |||
803 | void *plContext) | |||
804 | { | |||
805 | PKIX_List *list = NULL((void*)0); | |||
806 | PKIX_PL_Object *item = NULL((void*)0); | |||
807 | PKIX_UInt32 numItems = 0; | |||
808 | PKIX_UInt32 i; | |||
809 | ||||
810 | PKIX_ENTER(LIST, "pkix_List_MergeLists")static const char cMyFuncName[] = {"pkix_List_MergeLists"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
811 | PKIX_NULLCHECK_ONE(pMergedList)do { if ((pMergedList) == ((void*)0)){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
812 | ||||
813 | *pMergedList = NULL((void*)0); | |||
814 | ||||
815 | PKIX_CHECK(PKIX_List_Create(&list, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_Create(&list, plContext )); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEFAILED; goto cleanup; } } while (0) | |||
816 | PKIX_LISTCREATEFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_Create(&list, plContext )); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEFAILED; goto cleanup; } } while (0); | |||
817 | ||||
818 | if (firstList != NULL((void*)0)) { | |||
819 | ||||
820 | PKIX_CHECK(PKIX_List_GetLength(firstList, &numItems, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(firstList , &numItems, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0) | |||
821 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(firstList , &numItems, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0); | |||
822 | } | |||
823 | ||||
824 | for (i = 0; i < numItems; i++) { | |||
825 | ||||
826 | PKIX_CHECK(PKIX_List_GetItem(firstList, i, &item, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem(firstList, i, &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0) | |||
827 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem(firstList, i, &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0); | |||
828 | ||||
829 | PKIX_CHECK(PKIX_List_AppendItem(list, item, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem(list, item , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0) | |||
830 | PKIX_LISTAPPENDITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem(list, item , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0); | |||
831 | ||||
832 | PKIX_DECREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } item = ((void*)0); } } while (0); | |||
833 | } | |||
834 | ||||
835 | numItems = 0; | |||
836 | if (secondList != NULL((void*)0)) { | |||
837 | ||||
838 | PKIX_CHECK(PKIX_List_GetLengthdo { stdVars.aPkixErrorResult = (PKIX_List_GetLength (secondList , &numItems, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0) | |||
839 | (secondList,do { stdVars.aPkixErrorResult = (PKIX_List_GetLength (secondList , &numItems, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0) | |||
840 | &numItems,do { stdVars.aPkixErrorResult = (PKIX_List_GetLength (secondList , &numItems, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0) | |||
841 | plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength (secondList , &numItems, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0) | |||
842 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength (secondList , &numItems, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0); | |||
843 | ||||
844 | } | |||
845 | ||||
846 | for (i = 0; i < numItems; i++) { | |||
847 | ||||
848 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (secondList , i, &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0) | |||
849 | (secondList, i, &item, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (secondList , i, &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0) | |||
850 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (secondList , i, &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0); | |||
851 | ||||
852 | PKIX_CHECK(PKIX_List_AppendItemdo { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (list, item , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0) | |||
853 | (list, item, plContext), PKIX_LISTAPPENDITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (list, item , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0); | |||
854 | ||||
855 | PKIX_DECREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } item = ((void*)0); } } while (0); | |||
856 | } | |||
857 | ||||
858 | *pMergedList = list; | |||
859 | list = NULL((void*)0); | |||
860 | ||||
861 | cleanup: | |||
862 | PKIX_DECREF(list)do { if (list){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(list), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } list = ((void*)0); } } while (0); | |||
863 | PKIX_DECREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } item = ((void*)0); } } while (0); | |||
864 | ||||
865 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
866 | } | |||
867 | ||||
868 | /* | |||
869 | * FUNCTION: pkix_List_AppendList | |||
870 | * DESCRIPTION: | |||
871 | * | |||
872 | * Append items on "fromList" to the "toList". Item reference count on | |||
873 | * "toList" is not incremented, but items appended from "fromList" are | |||
874 | * incremented. | |||
875 | * | |||
876 | * PARAMETERS: | |||
877 | * "toList" | |||
878 | * Address of list to be appended to. Must be non-NULL. | |||
879 | * "fromList" | |||
880 | * Address of list to be appended from. May be NULL or empty. | |||
881 | * "plContext" | |||
882 | * platform-specific context pointer | |||
883 | * THREAD SAFETY: | |||
884 | * Thread Safe (see Thread Safety Definitions in Programmer's Guide) | |||
885 | * RETURNS: | |||
886 | * Returns NULL if the function succeeds | |||
887 | * Returns a List Error if the functions fails in a non-fatal way | |||
888 | * Returns a Fatal Error if the function fails in an unrecoverable way | |||
889 | */ | |||
890 | PKIX_Error * | |||
891 | pkix_List_AppendList( | |||
892 | PKIX_List *toList, | |||
893 | PKIX_List *fromList, | |||
894 | void *plContext) | |||
895 | { | |||
896 | PKIX_PL_Object *item = NULL((void*)0); | |||
897 | PKIX_UInt32 numItems = 0; | |||
898 | PKIX_UInt32 i; | |||
899 | ||||
900 | PKIX_ENTER(LIST, "pkix_List_AppendList")static const char cMyFuncName[] = {"pkix_List_AppendList"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
901 | PKIX_NULLCHECK_ONE(toList)do { if ((toList) == ((void*)0)){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
902 | ||||
903 | /* if fromList is NULL or is an empty list, no action */ | |||
904 | ||||
905 | if (fromList == NULL((void*)0)) { | |||
906 | goto cleanup; | |||
907 | } | |||
908 | ||||
909 | PKIX_CHECK(PKIX_List_GetLength(fromList, &numItems, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(fromList , &numItems, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0) | |||
910 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(fromList , &numItems, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup ; } } while (0); | |||
911 | ||||
912 | if (numItems == 0) { | |||
913 | goto cleanup; | |||
914 | } | |||
915 | ||||
916 | for (i = 0; i < numItems; i++) { | |||
917 | ||||
918 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, i, &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0) | |||
919 | (fromList, i, &item, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, i, &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0) | |||
920 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, i, &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup; } } while (0); | |||
921 | ||||
922 | PKIX_CHECK(PKIX_List_AppendItem(toList, item, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem(toList, item, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0) | |||
923 | PKIX_LISTAPPENDITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem(toList, item, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0); | |||
924 | ||||
925 | PKIX_DECREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } item = ((void*)0); } } while (0); | |||
926 | } | |||
927 | ||||
928 | cleanup: | |||
929 | ||||
930 | PKIX_DECREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } item = ((void*)0); } } while (0); | |||
931 | ||||
932 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
933 | } | |||
934 | ||||
935 | /* | |||
936 | * FUNCTION: pkix_List_AppendUnique | |||
937 | * DESCRIPTION: | |||
938 | * | |||
939 | * Adds each Object in the List pointed to by "fromList" to the List pointed | |||
940 | * to by "toList", if it is not already a member of that List. In other words, | |||
941 | * "toList" becomes the union of the two sets. | |||
942 | * | |||
943 | * PARAMETERS: | |||
944 | * "toList" | |||
945 | * Address of a List of Objects to be augmented by "fromList". Must be | |||
946 | * non-NULL, but may be empty. | |||
947 | * "fromList" | |||
948 | * Address of a List of Objects to be added, if not already present, to | |||
949 | * "toList". Must be non-NULL, but may be empty. | |||
950 | * "plContext" | |||
951 | * Platform-specific context pointer. | |||
952 | * THREAD SAFETY: | |||
953 | * Not Thread Safe - assumes exclusive access to "toList" | |||
954 | * (see Thread Safety Definitions in Programmer's Guide) | |||
955 | * RETURNS: | |||
956 | * Returns NULL if the function succeeds | |||
957 | * Returns a Fatal Error if the function fails in an unrecoverable way | |||
958 | */ | |||
959 | PKIX_Error * | |||
960 | pkix_List_AppendUnique( | |||
961 | PKIX_List *toList, | |||
962 | PKIX_List *fromList, | |||
963 | void *plContext) | |||
964 | { | |||
965 | PKIX_Boolean isContained = PKIX_FALSE((PKIX_Boolean) 0); | |||
966 | PKIX_UInt32 listLen = 0; | |||
967 | PKIX_UInt32 listIx = 0; | |||
968 | PKIX_PL_Object *object = NULL((void*)0); | |||
969 | ||||
970 | PKIX_ENTER(BUILD, "pkix_List_AppendUnique")static const char cMyFuncName[] = {"pkix_List_AppendUnique"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName ; stdVars.aPkixType = PKIX_BUILD_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
971 | PKIX_NULLCHECK_TWO(fromList, toList)do { if (((fromList) == ((void*)0)) || ((toList) == ((void*)0 ))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars .aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(& stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
972 | ||||
973 | PKIX_CHECK(PKIX_List_GetLength(fromList, &listLen, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(fromList , &listLen, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0) | |||
974 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(fromList , &listLen, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0); | |||
975 | ||||
976 | for (listIx = 0; listIx < listLen; listIx++) { | |||
977 | ||||
978 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, listIx, &object, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
979 | (fromList, listIx, &object, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, listIx, &object, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
980 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, listIx, &object, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0); | |||
981 | ||||
982 | PKIX_CHECK(pkix_List_Containsdo { stdVars.aPkixErrorResult = (pkix_List_Contains (toList, object , &isContained, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTCONTAINSFAILED; goto cleanup ; } } while (0) | |||
983 | (toList, object, &isContained, plContext),do { stdVars.aPkixErrorResult = (pkix_List_Contains (toList, object , &isContained, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTCONTAINSFAILED; goto cleanup ; } } while (0) | |||
984 | PKIX_LISTCONTAINSFAILED)do { stdVars.aPkixErrorResult = (pkix_List_Contains (toList, object , &isContained, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTCONTAINSFAILED; goto cleanup ; } } while (0); | |||
985 | ||||
986 | if (isContained == PKIX_FALSE((PKIX_Boolean) 0)) { | |||
987 | PKIX_CHECK(PKIX_List_AppendItemdo { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (toList , object, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0) | |||
988 | (toList, object, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (toList , object, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0) | |||
989 | PKIX_LISTAPPENDITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (toList , object, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0); | |||
990 | } | |||
991 | ||||
992 | PKIX_DECREF(object)do { if (object){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(object), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } object = ((void*)0 ); } } while (0); | |||
993 | } | |||
994 | ||||
995 | cleanup: | |||
996 | ||||
997 | PKIX_DECREF(object)do { if (object){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(object), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } object = ((void*)0 ); } } while (0); | |||
998 | ||||
999 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1000 | } | |||
1001 | ||||
1002 | /* | |||
1003 | * FUNCTION: pkix_List_QuickSort | |||
1004 | * DESCRIPTION: | |||
1005 | * | |||
1006 | * Sorts List of Objects "fromList" using "comparatorCallback"'s result as | |||
1007 | * comasrison key and returns the sorted List at "pSortedList". The sorting | |||
1008 | * algorithm used is quick sort (n*logn). | |||
1009 | * | |||
1010 | * PARAMETERS: | |||
1011 | * "fromList" | |||
1012 | * Address of a List of Objects to be sorted. Must be non-NULL, but may be | |||
1013 | * empty. | |||
1014 | * "comparatorCallback" | |||
1015 | * Address of callback function that will compare two Objects on the List. | |||
1016 | * It should return -1 for less, 0 for equal and 1 for greater. The | |||
1017 | * callback implementation chooses what in Objects to be compared. Must be | |||
1018 | * non-NULL. | |||
1019 | * "pSortedList" | |||
1020 | * Address of a List of Objects that shall be sorted and returned. Must be | |||
1021 | * non-NULL, but may be empty. | |||
1022 | * "plContext" | |||
1023 | * Platform-specific context pointer. | |||
1024 | * THREAD SAFETY: | |||
1025 | * Not Thread Safe - assumes exclusive access to "toList" | |||
1026 | * (see Thread Safety Definitions in Programmer's Guide) | |||
1027 | * RETURNS: | |||
1028 | * Returns NULL if the function succeeds | |||
1029 | * Returns a Fatal Error if the function fails in an unrecoverable way | |||
1030 | */ | |||
1031 | PKIX_Error * | |||
1032 | pkix_List_QuickSort( | |||
1033 | PKIX_List *fromList, | |||
1034 | PKIX_List_SortComparatorCallback comparator, | |||
1035 | PKIX_List **pSortedList, | |||
1036 | void *plContext) | |||
1037 | { | |||
1038 | PKIX_List *sortedList = NULL((void*)0); | |||
1039 | PKIX_List *lessList = NULL((void*)0); | |||
1040 | PKIX_List *greaterList = NULL((void*)0); | |||
1041 | PKIX_List *sortedLessList = NULL((void*)0); | |||
1042 | PKIX_List *sortedGreaterList = NULL((void*)0); | |||
1043 | PKIX_PL_Object *object = NULL((void*)0); | |||
1044 | PKIX_PL_Object *cmpObj = NULL((void*)0); | |||
1045 | PKIX_Int32 cmpResult = 0; | |||
1046 | PKIX_UInt32 size = 0; | |||
1047 | PKIX_UInt32 i; | |||
1048 | ||||
1049 | PKIX_ENTER(BUILD, "pkix_List_QuickSort")static const char cMyFuncName[] = {"pkix_List_QuickSort"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_BUILD_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1050 | PKIX_NULLCHECK_THREE(fromList, comparator, pSortedList)do { if (((fromList) == ((void*)0)) || ((comparator) == ((void *)0)) || ((pSortedList) == ((void*)0))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
1051 | ||||
1052 | PKIX_CHECK(PKIX_List_GetLength(fromList, &size, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(fromList , &size, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0) | |||
1053 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(fromList , &size, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0); | |||
1054 | ||||
1055 | PKIX_CHECK(PKIX_List_Create(&lessList, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_Create(&lessList , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEFAILED; goto cleanup; } } while (0) | |||
1056 | PKIX_LISTCREATEFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_Create(&lessList , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEFAILED; goto cleanup; } } while (0); | |||
1057 | ||||
1058 | PKIX_CHECK(PKIX_List_Create(&greaterList, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_Create(&greaterList , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEFAILED; goto cleanup; } } while (0) | |||
1059 | PKIX_LISTCREATEFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_Create(&greaterList , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEFAILED; goto cleanup; } } while (0); | |||
1060 | ||||
1061 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, 0, &object, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
1062 | (fromList, 0, &object, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, 0, &object, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
1063 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, 0, &object, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0); | |||
1064 | ||||
1065 | /* | |||
1066 | * Pick the first item on the list as the one to be compared. | |||
1067 | * Separate rest of the itmes into two lists: less-than or greater- | |||
1068 | * than lists. Sort those two lists recursively. Insert sorted | |||
1069 | * less-than list before the picked item and append the greater- | |||
1070 | * than list after the picked item. | |||
1071 | */ | |||
1072 | for (i = 1; i < size; i++) { | |||
1073 | ||||
1074 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, i, &cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
1075 | (fromList, i, &cmpObj, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, i, &cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
1076 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (fromList, i, &cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0); | |||
1077 | ||||
1078 | PKIX_CHECK(comparator(object, cmpObj, &cmpResult, plContext),do { stdVars.aPkixErrorResult = (comparator(object, cmpObj, & cmpResult, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_COMPARATORCALLBACKFAILED; goto cleanup ; } } while (0) | |||
1079 | PKIX_COMPARATORCALLBACKFAILED)do { stdVars.aPkixErrorResult = (comparator(object, cmpObj, & cmpResult, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_COMPARATORCALLBACKFAILED; goto cleanup ; } } while (0); | |||
1080 | ||||
1081 | if (cmpResult >= 0) { | |||
1082 | PKIX_CHECK(PKIX_List_AppendItemdo { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (lessList , cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0) | |||
1083 | (lessList, cmpObj, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (lessList , cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0) | |||
1084 | PKIX_LISTAPPENDITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (lessList , cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0); | |||
1085 | } else { | |||
1086 | PKIX_CHECK(PKIX_List_AppendItemdo { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (greaterList , cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0) | |||
1087 | (greaterList, cmpObj, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (greaterList , cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0) | |||
1088 | PKIX_LISTAPPENDITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (greaterList , cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup; } } while (0); | |||
1089 | } | |||
1090 | PKIX_DECREF(cmpObj)do { if (cmpObj){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(cmpObj), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } cmpObj = ((void*)0 ); } } while (0); | |||
1091 | } | |||
1092 | ||||
1093 | PKIX_CHECK(PKIX_List_Create(&sortedList, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_Create(&sortedList , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEFAILED; goto cleanup; } } while (0) | |||
1094 | PKIX_LISTCREATEFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_Create(&sortedList , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEFAILED; goto cleanup; } } while (0); | |||
1095 | ||||
1096 | PKIX_CHECK(PKIX_List_GetLength(lessList, &size, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(lessList , &size, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0) | |||
1097 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(lessList , &size, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0); | |||
1098 | ||||
1099 | if (size > 1) { | |||
1100 | ||||
1101 | PKIX_CHECK(pkix_List_QuickSortdo { stdVars.aPkixErrorResult = (pkix_List_QuickSort (lessList , comparator, &sortedLessList, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTQUICKSORTFAILED; goto cleanup ; } } while (0) | |||
1102 | (lessList, comparator, &sortedLessList, plContext),do { stdVars.aPkixErrorResult = (pkix_List_QuickSort (lessList , comparator, &sortedLessList, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTQUICKSORTFAILED; goto cleanup ; } } while (0) | |||
1103 | PKIX_LISTQUICKSORTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_QuickSort (lessList , comparator, &sortedLessList, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTQUICKSORTFAILED; goto cleanup ; } } while (0); | |||
1104 | ||||
1105 | PKIX_CHECK(pkix_List_AppendListdo { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , sortedLessList, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup ; } } while (0) | |||
1106 | (sortedList, sortedLessList, plContext),do { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , sortedLessList, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup ; } } while (0) | |||
1107 | PKIX_LISTAPPENDLISTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , sortedLessList, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup ; } } while (0); | |||
1108 | } else { | |||
1109 | PKIX_CHECK(pkix_List_AppendListdo { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , lessList, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup; } } while (0) | |||
1110 | (sortedList, lessList, plContext),do { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , lessList, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup; } } while (0) | |||
1111 | PKIX_LISTAPPENDLISTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , lessList, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup; } } while (0); | |||
1112 | } | |||
1113 | ||||
1114 | PKIX_CHECK(PKIX_List_AppendItem(sortedList, object, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem(sortedList , object, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDFAILED; goto cleanup; } } while (0) | |||
1115 | PKIX_LISTAPPENDFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem(sortedList , object, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDFAILED; goto cleanup; } } while (0); | |||
1116 | ||||
1117 | PKIX_CHECK(PKIX_List_GetLength(greaterList, &size, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(greaterList , &size, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0) | |||
1118 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(greaterList , &size, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0); | |||
1119 | ||||
1120 | if (size > 1) { | |||
1121 | ||||
1122 | PKIX_CHECK(pkix_List_QuickSortdo { stdVars.aPkixErrorResult = (pkix_List_QuickSort (greaterList , comparator, &sortedGreaterList, plContext)); if (stdVars .aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult ->errClass; stdVars.aPkixErrorCode = PKIX_LISTQUICKSORTFAILED ; goto cleanup; } } while (0) | |||
1123 | (greaterList, comparator, &sortedGreaterList, plContext),do { stdVars.aPkixErrorResult = (pkix_List_QuickSort (greaterList , comparator, &sortedGreaterList, plContext)); if (stdVars .aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult ->errClass; stdVars.aPkixErrorCode = PKIX_LISTQUICKSORTFAILED ; goto cleanup; } } while (0) | |||
1124 | PKIX_LISTQUICKSORTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_QuickSort (greaterList , comparator, &sortedGreaterList, plContext)); if (stdVars .aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult ->errClass; stdVars.aPkixErrorCode = PKIX_LISTQUICKSORTFAILED ; goto cleanup; } } while (0); | |||
1125 | ||||
1126 | PKIX_CHECK(pkix_List_AppendListdo { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , sortedGreaterList, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup ; } } while (0) | |||
1127 | (sortedList, sortedGreaterList, plContext),do { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , sortedGreaterList, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup ; } } while (0) | |||
1128 | PKIX_LISTAPPENDLISTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , sortedGreaterList, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup ; } } while (0); | |||
1129 | } else { | |||
1130 | PKIX_CHECK(pkix_List_AppendListdo { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , greaterList, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup; } } while (0) | |||
1131 | (sortedList, greaterList, plContext),do { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , greaterList, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup; } } while (0) | |||
1132 | PKIX_LISTAPPENDLISTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_AppendList (sortedList , greaterList, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTAPPENDLISTFAILED; goto cleanup; } } while (0); | |||
1133 | } | |||
1134 | ||||
1135 | *pSortedList = sortedList; | |||
1136 | ||||
1137 | cleanup: | |||
1138 | ||||
1139 | PKIX_DECREF(cmpObj)do { if (cmpObj){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(cmpObj), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } cmpObj = ((void*)0 ); } } while (0); | |||
1140 | PKIX_DECREF(object)do { if (object){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(object), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } object = ((void*)0 ); } } while (0); | |||
1141 | PKIX_DECREF(sortedGreaterList)do { if (sortedGreaterList){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(sortedGreaterList), plContext); if (stdVars .aPkixTempResult) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult , plContext); stdVars.aPkixTempResult = ((void*)0); } sortedGreaterList = ((void*)0); } } while (0); | |||
1142 | PKIX_DECREF(sortedLessList)do { if (sortedLessList){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(sortedLessList), plContext); if (stdVars .aPkixTempResult) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult , plContext); stdVars.aPkixTempResult = ((void*)0); } sortedLessList = ((void*)0); } } while (0); | |||
1143 | PKIX_DECREF(greaterList)do { if (greaterList){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(greaterList), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } greaterList = ((void *)0); } } while (0); | |||
1144 | PKIX_DECREF(lessList)do { if (lessList){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(lessList), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } lessList = ((void* )0); } } while (0); | |||
1145 | ||||
1146 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1147 | } | |||
1148 | ||||
1149 | /* | |||
1150 | * FUNCTION: pkix_List_BubbleSort | |||
1151 | * DESCRIPTION: | |||
1152 | * | |||
1153 | * Sorts List of Objects "fromList" using "comparatorCallback"'s result as | |||
1154 | * comasrison key and returns the sorted List at "pSortedList". The sorting | |||
1155 | * algorithm used is bubble sort (n*n). | |||
1156 | * | |||
1157 | * PARAMETERS: | |||
1158 | * "fromList" | |||
1159 | * Address of a List of Objects to be sorted. Must be non-NULL, but may be | |||
1160 | * empty. | |||
1161 | * "comparatorCallback" | |||
1162 | * Address of callback function that will compare two Objects on the List. | |||
1163 | * It should return -1 for less, 0 for equal and 1 for greater. The | |||
1164 | * callback implementation chooses what in Objects to be compared. Must be | |||
1165 | * non-NULL. | |||
1166 | * "pSortedList" | |||
1167 | * Address of a List of Objects that shall be sorted and returned. Must be | |||
1168 | * non-NULL, but may be empty. | |||
1169 | * "plContext" | |||
1170 | * Platform-specific context pointer. | |||
1171 | * THREAD SAFETY: | |||
1172 | * Not Thread Safe - assumes exclusive access to "toList" | |||
1173 | * (see Thread Safety Definitions in Programmer's Guide) | |||
1174 | * RETURNS: | |||
1175 | * Returns NULL if the function succeeds | |||
1176 | * Returns a Fatal Error if the function fails in an unrecoverable way | |||
1177 | */ | |||
1178 | PKIX_Error * | |||
1179 | pkix_List_BubbleSort( | |||
1180 | PKIX_List *fromList, | |||
1181 | PKIX_List_SortComparatorCallback comparator, | |||
1182 | PKIX_List **pSortedList, | |||
1183 | void *plContext) | |||
1184 | { | |||
1185 | PKIX_List *sortedList = NULL((void*)0); | |||
1186 | PKIX_PL_Object *cmpObj = NULL((void*)0); | |||
1187 | PKIX_PL_Object *leastObj = NULL((void*)0); | |||
1188 | PKIX_Int32 cmpResult = 0; | |||
1189 | PKIX_UInt32 size = 0; | |||
1190 | PKIX_UInt32 i, j; | |||
1191 | ||||
1192 | PKIX_ENTER(BUILD, "pkix_List_BubbleSort")static const char cMyFuncName[] = {"pkix_List_BubbleSort"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_BUILD_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1193 | PKIX_NULLCHECK_THREE(fromList, comparator, pSortedList)do { if (((fromList) == ((void*)0)) || ((comparator) == ((void *)0)) || ((pSortedList) == ((void*)0))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
1194 | ||||
1195 | if (fromList->immutable) { | |||
1196 | PKIX_ERROR(PKIX_CANNOTSORTIMMUTABLELIST){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_CANNOTSORTIMMUTABLELIST, ((void*)0), stdVars.aPkixType , 2, plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_CANNOTSORTIMMUTABLELIST; goto cleanup; }; | |||
1197 | } | |||
1198 | PKIX_CHECK(pkix_List_Duplicatedo { stdVars.aPkixErrorResult = (pkix_List_Duplicate ((PKIX_PL_Object *) fromList, (PKIX_PL_Object **) &sortedList, plContext) ); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars .aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED ; goto cleanup; } } while (0) | |||
1199 | ((PKIX_PL_Object *) fromList,do { stdVars.aPkixErrorResult = (pkix_List_Duplicate ((PKIX_PL_Object *) fromList, (PKIX_PL_Object **) &sortedList, plContext) ); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars .aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED ; goto cleanup; } } while (0) | |||
1200 | (PKIX_PL_Object **) &sortedList,do { stdVars.aPkixErrorResult = (pkix_List_Duplicate ((PKIX_PL_Object *) fromList, (PKIX_PL_Object **) &sortedList, plContext) ); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars .aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED ; goto cleanup; } } while (0) | |||
1201 | plContext),do { stdVars.aPkixErrorResult = (pkix_List_Duplicate ((PKIX_PL_Object *) fromList, (PKIX_PL_Object **) &sortedList, plContext) ); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars .aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED ; goto cleanup; } } while (0) | |||
1202 | PKIX_LISTDUPLICATEFAILED)do { stdVars.aPkixErrorResult = (pkix_List_Duplicate ((PKIX_PL_Object *) fromList, (PKIX_PL_Object **) &sortedList, plContext) ); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars .aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED ; goto cleanup; } } while (0); | |||
1203 | ||||
1204 | PKIX_CHECK(PKIX_List_GetLength(sortedList, &size, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(sortedList , &size, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0) | |||
1205 | PKIX_LISTGETLENGTHFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetLength(sortedList , &size, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETLENGTHFAILED; goto cleanup; } } while (0); | |||
1206 | ||||
1207 | if (size > 1) { | |||
1208 | ||||
1209 | /* | |||
1210 | * Move from the first of the item on the list, For each iteration, | |||
1211 | * compare and swap the least value to the head of the comparisoning | |||
1212 | * sub-list. | |||
1213 | */ | |||
1214 | for (i = 0; i < size - 1; i++) { | |||
1215 | ||||
1216 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (sortedList , i, &leastObj, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
1217 | (sortedList, i, &leastObj, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (sortedList , i, &leastObj, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
1218 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (sortedList , i, &leastObj, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0); | |||
1219 | ||||
1220 | for (j = i + 1; j < size; j++) { | |||
1221 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (sortedList , j, &cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
1222 | (sortedList, j, &cmpObj, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (sortedList , j, &cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
1223 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (sortedList , j, &cmpObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0); | |||
1224 | PKIX_CHECK(comparatordo { stdVars.aPkixErrorResult = (comparator (leastObj, cmpObj , &cmpResult, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_COMPARATORCALLBACKFAILED; goto cleanup; } } while (0) | |||
1225 | (leastObj, cmpObj, &cmpResult, plContext),do { stdVars.aPkixErrorResult = (comparator (leastObj, cmpObj , &cmpResult, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_COMPARATORCALLBACKFAILED; goto cleanup; } } while (0) | |||
1226 | PKIX_COMPARATORCALLBACKFAILED)do { stdVars.aPkixErrorResult = (comparator (leastObj, cmpObj , &cmpResult, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_COMPARATORCALLBACKFAILED; goto cleanup; } } while (0); | |||
1227 | if (cmpResult > 0) { | |||
1228 | PKIX_CHECK(PKIX_List_SetItemdo { stdVars.aPkixErrorResult = (PKIX_List_SetItem (sortedList , j, leastObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTSETITEMFAILED; goto cleanup; } } while (0) | |||
1229 | (sortedList, j, leastObj, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_SetItem (sortedList , j, leastObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTSETITEMFAILED; goto cleanup; } } while (0) | |||
1230 | PKIX_LISTSETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_SetItem (sortedList , j, leastObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTSETITEMFAILED; goto cleanup; } } while (0); | |||
1231 | ||||
1232 | PKIX_DECREF(leastObj)do { if (leastObj){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(leastObj), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } leastObj = ((void* )0); } } while (0); | |||
1233 | leastObj = cmpObj; | |||
1234 | cmpObj = NULL((void*)0); | |||
1235 | } else { | |||
1236 | PKIX_DECREF(cmpObj)do { if (cmpObj){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(cmpObj), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } cmpObj = ((void*)0 ); } } while (0); | |||
1237 | } | |||
1238 | } | |||
1239 | PKIX_CHECK(PKIX_List_SetItemdo { stdVars.aPkixErrorResult = (PKIX_List_SetItem (sortedList , i, leastObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTSETITEMFAILED; goto cleanup; } } while (0) | |||
1240 | (sortedList, i, leastObj, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_SetItem (sortedList , i, leastObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTSETITEMFAILED; goto cleanup; } } while (0) | |||
1241 | PKIX_LISTSETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_SetItem (sortedList , i, leastObj, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTSETITEMFAILED; goto cleanup; } } while (0); | |||
1242 | ||||
1243 | PKIX_DECREF(leastObj)do { if (leastObj){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(leastObj), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } leastObj = ((void* )0); } } while (0); | |||
1244 | } | |||
1245 | ||||
1246 | } | |||
1247 | ||||
1248 | *pSortedList = sortedList; | |||
1249 | sortedList = NULL((void*)0); | |||
1250 | cleanup: | |||
1251 | ||||
1252 | PKIX_DECREF(sortedList)do { if (sortedList){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(sortedList), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } sortedList = ((void *)0); } } while (0); | |||
1253 | PKIX_DECREF(leastObj)do { if (leastObj){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(leastObj), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } leastObj = ((void* )0); } } while (0); | |||
1254 | PKIX_DECREF(cmpObj)do { if (cmpObj){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(cmpObj), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } cmpObj = ((void*)0 ); } } while (0); | |||
1255 | ||||
1256 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1257 | } | |||
1258 | ||||
1259 | /* --Public-List-Functions--------------------------------------------- */ | |||
1260 | ||||
1261 | /* | |||
1262 | * FUNCTION: PKIX_List_Create (see comments in pkix_util.h) | |||
1263 | */ | |||
1264 | PKIX_Error * | |||
1265 | PKIX_List_Create( | |||
1266 | PKIX_List **pList, | |||
1267 | void *plContext) | |||
1268 | { | |||
1269 | PKIX_List *list = NULL((void*)0); | |||
1270 | ||||
1271 | PKIX_ENTER(LIST, "PKIX_List_Create")static const char cMyFuncName[] = {"PKIX_List_Create"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1272 | PKIX_NULLCHECK_ONE(pList)do { if ((pList) == ((void*)0)){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
1273 | ||||
1274 | PKIX_CHECK(pkix_List_Create_Internal(PKIX_TRUE, &list, plContext),do { stdVars.aPkixErrorResult = (pkix_List_Create_Internal((( PKIX_Boolean) 1), &list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED; goto cleanup; } } while (0) | |||
1275 | PKIX_LISTCREATEINTERNALFAILED)do { stdVars.aPkixErrorResult = (pkix_List_Create_Internal((( PKIX_Boolean) 1), &list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED; goto cleanup; } } while (0); | |||
1276 | ||||
1277 | *pList = list; | |||
1278 | ||||
1279 | cleanup: | |||
1280 | ||||
1281 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1282 | } | |||
1283 | ||||
1284 | /* | |||
1285 | * FUNCTION: PKIX_List_SetImmutable (see comments in pkix_util.h) | |||
1286 | */ | |||
1287 | PKIX_Error * | |||
1288 | PKIX_List_SetImmutable( | |||
1289 | PKIX_List *list, | |||
1290 | void *plContext) | |||
1291 | { | |||
1292 | PKIX_ENTER(LIST, "PKIX_List_SetImmutable")static const char cMyFuncName[] = {"PKIX_List_SetImmutable"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName ; stdVars.aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1293 | PKIX_NULLCHECK_ONE(list)do { if ((list) == ((void*)0)){ stdVars.aPkixErrorReceived = ( (PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
1294 | ||||
1295 | if (!list->isHeader){ | |||
1296 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
1297 | } | |||
1298 | ||||
1299 | list->immutable = PKIX_TRUE((PKIX_Boolean) 1); | |||
1300 | ||||
1301 | cleanup: | |||
1302 | ||||
1303 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1304 | } | |||
1305 | ||||
1306 | /* | |||
1307 | * FUNCTION: PKIX_List_IsImmutable (see comments in pkix_util.h) | |||
1308 | */ | |||
1309 | PKIX_Error * | |||
1310 | PKIX_List_IsImmutable( | |||
1311 | PKIX_List *list, | |||
1312 | PKIX_Boolean *pImmutable, | |||
1313 | void *plContext) | |||
1314 | { | |||
1315 | PKIX_ENTER(LIST, "PKIX_List_IsImmutable")static const char cMyFuncName[] = {"PKIX_List_IsImmutable"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1316 | PKIX_NULLCHECK_TWO(list, pImmutable)do { if (((list) == ((void*)0)) || ((pImmutable) == ((void*)0 ))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars .aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(& stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
1317 | ||||
1318 | if (!list->isHeader){ | |||
1319 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
1320 | } | |||
1321 | ||||
1322 | *pImmutable = list->immutable; | |||
1323 | ||||
1324 | cleanup: | |||
1325 | ||||
1326 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1327 | } | |||
1328 | ||||
1329 | /* | |||
1330 | * FUNCTION: PKIX_List_GetLength (see comments in pkix_util.h) | |||
1331 | */ | |||
1332 | PKIX_Error * | |||
1333 | PKIX_List_GetLength( | |||
1334 | PKIX_List *list, | |||
1335 | PKIX_UInt32 *pLength, | |||
1336 | void *plContext) | |||
1337 | { | |||
1338 | PKIX_ENTER(LIST, "PKIX_List_GetLength")static const char cMyFuncName[] = {"PKIX_List_GetLength"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1339 | PKIX_NULLCHECK_TWO(list, pLength)do { if (((list) == ((void*)0)) || ((pLength) == ((void*)0))) { stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR ), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
1340 | ||||
1341 | if (!list->isHeader){ | |||
1342 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
1343 | } | |||
1344 | ||||
1345 | *pLength = list->length; | |||
1346 | ||||
1347 | cleanup: | |||
1348 | ||||
1349 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1350 | } | |||
1351 | ||||
1352 | /* | |||
1353 | * FUNCTION: PKIX_List_IsEmpty (see comments in pkix_util.h) | |||
1354 | */ | |||
1355 | PKIX_Error * | |||
1356 | PKIX_List_IsEmpty( | |||
1357 | PKIX_List *list, | |||
1358 | PKIX_Boolean *pEmpty, | |||
1359 | void *plContext) | |||
1360 | { | |||
1361 | PKIX_UInt32 length; | |||
1362 | ||||
1363 | PKIX_ENTER(LIST, "PKIX_List_IsEmpty")static const char cMyFuncName[] = {"PKIX_List_IsEmpty"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1364 | PKIX_NULLCHECK_TWO(list, pEmpty)do { if (((list) == ((void*)0)) || ((pEmpty) == ((void*)0))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR ), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
1365 | ||||
1366 | if (!list->isHeader){ | |||
1367 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
1368 | } | |||
1369 | ||||
1370 | length = list->length; | |||
1371 | ||||
1372 | if (length == 0){ | |||
1373 | *pEmpty = PKIX_TRUE((PKIX_Boolean) 1); | |||
1374 | } else { | |||
1375 | *pEmpty = PKIX_FALSE((PKIX_Boolean) 0); | |||
1376 | } | |||
1377 | ||||
1378 | cleanup: | |||
1379 | ||||
1380 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1381 | } | |||
1382 | ||||
1383 | /* | |||
1384 | * FUNCTION: PKIX_List_AppendItem (see comments in pkix_util.h) | |||
1385 | */ | |||
1386 | PKIX_Error * | |||
1387 | PKIX_List_AppendItem( | |||
1388 | PKIX_List *list, | |||
1389 | PKIX_PL_Object *item, | |||
1390 | void *plContext) | |||
1391 | { | |||
1392 | PKIX_List *lastElement = NULL((void*)0); | |||
1393 | PKIX_List *newElement = NULL((void*)0); | |||
1394 | PKIX_UInt32 length, i; | |||
1395 | ||||
1396 | PKIX_ENTER(LIST, "PKIX_List_AppendItem")static const char cMyFuncName[] = {"PKIX_List_AppendItem"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1397 | PKIX_NULLCHECK_ONE(list)do { if ((list) == ((void*)0)){ stdVars.aPkixErrorReceived = ( (PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
1398 | ||||
1399 | if (list->immutable){ | |||
1400 | PKIX_ERROR(PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST, ((void*)0), stdVars .aPkixType, 2, plContext); } } stdVars.aPkixErrorReceived = ( (PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST ; goto cleanup; }; | |||
1401 | } | |||
1402 | ||||
1403 | if (!list->isHeader){ | |||
1404 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
1405 | } | |||
1406 | ||||
1407 | length = list->length; | |||
1408 | ||||
1409 | /* find last element of list and create new element there */ | |||
1410 | ||||
1411 | lastElement = list; | |||
1412 | for (i = 0; i < length; i++){ | |||
1413 | lastElement = lastElement->next; | |||
1414 | } | |||
1415 | ||||
1416 | PKIX_CHECK(pkix_List_Create_Internaldo { stdVars.aPkixErrorResult = (pkix_List_Create_Internal (( (PKIX_Boolean) 0), &newElement, plContext)); if (stdVars. aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult ->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED ; goto cleanup; } } while (0) | |||
1417 | (PKIX_FALSE, &newElement, plContext),do { stdVars.aPkixErrorResult = (pkix_List_Create_Internal (( (PKIX_Boolean) 0), &newElement, plContext)); if (stdVars. aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult ->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED ; goto cleanup; } } while (0) | |||
1418 | PKIX_LISTCREATEINTERNALFAILED)do { stdVars.aPkixErrorResult = (pkix_List_Create_Internal (( (PKIX_Boolean) 0), &newElement, plContext)); if (stdVars. aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult ->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED ; goto cleanup; } } while (0); | |||
1419 | ||||
1420 | PKIX_INCREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_IncRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); goto cleanup; } } } while (0); | |||
1421 | newElement->item = item; | |||
1422 | ||||
1423 | PKIX_CHECK(PKIX_PL_Object_InvalidateCachedo { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0) | |||
1424 | ((PKIX_PL_Object *)list, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0) | |||
1425 | PKIX_OBJECTINVALIDATECACHEFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0); | |||
1426 | ||||
1427 | lastElement->next = newElement; | |||
1428 | newElement = NULL((void*)0); | |||
1429 | list->length += 1; | |||
1430 | ||||
1431 | cleanup: | |||
1432 | ||||
1433 | PKIX_DECREF(newElement)do { if (newElement){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(newElement), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } newElement = ((void *)0); } } while (0); | |||
1434 | ||||
1435 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1436 | } | |||
1437 | ||||
1438 | /* | |||
1439 | * FUNCTION: PKIX_List_InsertItem (see comments in pkix_util.h) | |||
1440 | */ | |||
1441 | PKIX_Error * | |||
1442 | PKIX_List_InsertItem( | |||
1443 | PKIX_List *list, | |||
1444 | PKIX_UInt32 index, | |||
1445 | PKIX_PL_Object *item, | |||
1446 | void *plContext) | |||
1447 | { | |||
1448 | PKIX_List *element = NULL((void*)0); | |||
1449 | PKIX_List *newElem = NULL((void*)0); | |||
1450 | ||||
1451 | PKIX_ENTER(LIST, "PKIX_List_InsertItem")static const char cMyFuncName[] = {"PKIX_List_InsertItem"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1452 | PKIX_NULLCHECK_ONE(list)do { if ((list) == ((void*)0)){ stdVars.aPkixErrorReceived = ( (PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
1453 | ||||
1454 | ||||
1455 | if (list->immutable){ | |||
1456 | PKIX_ERROR(PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST, ((void*)0), stdVars .aPkixType, 2, plContext); } } stdVars.aPkixErrorReceived = ( (PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST ; goto cleanup; }; | |||
1457 | } | |||
1458 | ||||
1459 | if (!list->isHeader){ | |||
1460 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
1461 | } | |||
1462 | ||||
1463 | /* Create a new list object */ | |||
1464 | PKIX_CHECK(pkix_List_Create_Internal(PKIX_FALSE, &newElem, plContext),do { stdVars.aPkixErrorResult = (pkix_List_Create_Internal((( PKIX_Boolean) 0), &newElem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED; goto cleanup; } } while (0) | |||
1465 | PKIX_LISTCREATEINTERNALFAILED)do { stdVars.aPkixErrorResult = (pkix_List_Create_Internal((( PKIX_Boolean) 0), &newElem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED; goto cleanup; } } while (0); | |||
1466 | ||||
1467 | if (list->length) { | |||
1468 | PKIX_CHECK(pkix_List_GetElement(list, index, &element, plContext),do { stdVars.aPkixErrorResult = (pkix_List_GetElement(list, index , &element, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup; } } while (0) | |||
1469 | PKIX_LISTGETELEMENTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_GetElement(list, index , &element, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup; } } while (0); | |||
1470 | /* Copy the old element's contents into the new element */ | |||
1471 | newElem->item = element->item; | |||
1472 | /* Add new item to the list */ | |||
1473 | PKIX_INCREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_IncRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); goto cleanup; } } } while (0); | |||
1474 | element->item = item; | |||
1475 | /* Set the new element's next pointer to the old element's next */ | |||
1476 | newElem->next = element->next; | |||
1477 | /* Set the old element's next pointer to the new element */ | |||
1478 | element->next = newElem; | |||
1479 | newElem = NULL((void*)0); | |||
1480 | } else { | |||
1481 | PKIX_INCREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_IncRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); goto cleanup; } } } while (0); | |||
1482 | newElem->item = item; | |||
1483 | newElem->next = NULL((void*)0); | |||
1484 | list->next = newElem; | |||
1485 | newElem = NULL((void*)0); | |||
1486 | } | |||
1487 | list->length++; | |||
1488 | ||||
1489 | PKIX_CHECK(PKIX_PL_Object_InvalidateCachedo { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0) | |||
1490 | ((PKIX_PL_Object *)list, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0) | |||
1491 | PKIX_OBJECTINVALIDATECACHEFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0); | |||
1492 | cleanup: | |||
1493 | PKIX_DECREF(newElem)do { if (newElem){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(newElem), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } newElem = ((void*) 0); } } while (0); | |||
1494 | ||||
1495 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1496 | } | |||
1497 | ||||
1498 | /* | |||
1499 | * FUNCTION: PKIX_List_GetItem (see comments in pkix_util.h) | |||
1500 | */ | |||
1501 | PKIX_Error * | |||
1502 | PKIX_List_GetItem( | |||
1503 | PKIX_List *list, | |||
1504 | PKIX_UInt32 index, | |||
1505 | PKIX_PL_Object **pItem, | |||
1506 | void *plContext) | |||
1507 | { | |||
1508 | PKIX_List *element = NULL((void*)0); | |||
1509 | ||||
1510 | PKIX_ENTER(LIST, "PKIX_List_GetItem")static const char cMyFuncName[] = {"PKIX_List_GetItem"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1511 | PKIX_NULLCHECK_TWO(list, pItem)do { if (((list) == ((void*)0)) || ((pItem) == ((void*)0))){ stdVars .aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR ), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
1512 | ||||
1513 | if (!list->isHeader
| |||
1514 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
1515 | } | |||
1516 | ||||
1517 | PKIX_CHECK(pkix_List_GetElement(list, index, &element, plContext),do { stdVars.aPkixErrorResult = (pkix_List_GetElement(list, index , &element, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup; } } while (0) | |||
1518 | PKIX_LISTGETELEMENTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_GetElement(list, index , &element, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup; } } while (0); | |||
1519 | ||||
1520 | PKIX_INCREF(element->item)do { if (element->item){ stdVars.aPkixTempResult = PKIX_PL_Object_IncRef ((PKIX_PL_Object *)(element->item), plContext); if (stdVars .aPkixTempResult) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult , plContext); stdVars.aPkixTempResult = ((void*)0); goto cleanup ; } } } while (0); | |||
| ||||
1521 | *pItem = element->item; | |||
1522 | ||||
1523 | cleanup: | |||
1524 | ||||
1525 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1526 | } | |||
1527 | ||||
1528 | /* | |||
1529 | * FUNCTION: PKIX_List_SetItem (see comments in pkix_util.h) | |||
1530 | */ | |||
1531 | PKIX_Error * | |||
1532 | PKIX_List_SetItem( | |||
1533 | PKIX_List *list, | |||
1534 | PKIX_UInt32 index, | |||
1535 | PKIX_PL_Object *item, | |||
1536 | void *plContext) | |||
1537 | { | |||
1538 | PKIX_List *element; | |||
1539 | ||||
1540 | PKIX_ENTER(LIST, "PKIX_List_SetItem")static const char cMyFuncName[] = {"PKIX_List_SetItem"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1541 | PKIX_NULLCHECK_ONE(list)do { if ((list) == ((void*)0)){ stdVars.aPkixErrorReceived = ( (PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
1542 | ||||
1543 | if (list->immutable){ | |||
1544 | PKIX_ERROR(PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST, ((void*)0), stdVars .aPkixType, 2, plContext); } } stdVars.aPkixErrorReceived = ( (PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST ; goto cleanup; }; | |||
1545 | } | |||
1546 | ||||
1547 | if (!list->isHeader){ | |||
1548 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
1549 | } | |||
1550 | ||||
1551 | PKIX_CHECK(pkix_List_GetElement(list, index, &element, plContext),do { stdVars.aPkixErrorResult = (pkix_List_GetElement(list, index , &element, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup; } } while (0) | |||
1552 | PKIX_LISTGETELEMENTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_GetElement(list, index , &element, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup; } } while (0); | |||
1553 | ||||
1554 | /* DecRef old contents */ | |||
1555 | PKIX_DECREF(element->item)do { if (element->item){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(element->item), plContext); if (stdVars .aPkixTempResult) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult , plContext); stdVars.aPkixTempResult = ((void*)0); } element ->item = ((void*)0); } } while (0); | |||
1556 | ||||
1557 | /* Set New Contents */ | |||
1558 | PKIX_INCREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_IncRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); goto cleanup; } } } while (0); | |||
1559 | element->item = item; | |||
1560 | ||||
1561 | PKIX_CHECK(PKIX_PL_Object_InvalidateCachedo { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0) | |||
1562 | ((PKIX_PL_Object *)list, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0) | |||
1563 | PKIX_OBJECTINVALIDATECACHEFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0); | |||
1564 | ||||
1565 | cleanup: | |||
1566 | ||||
1567 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1568 | } | |||
1569 | ||||
1570 | /* | |||
1571 | * FUNCTION: PKIX_List_DeleteItem (see comments in pkix_util.h) | |||
1572 | */ | |||
1573 | PKIX_Error * | |||
1574 | PKIX_List_DeleteItem( | |||
1575 | PKIX_List *list, | |||
1576 | PKIX_UInt32 index, | |||
1577 | void *plContext) | |||
1578 | { | |||
1579 | PKIX_List *element = NULL((void*)0); | |||
1580 | PKIX_List *prevElement = NULL((void*)0); | |||
1581 | PKIX_List *nextElement = NULL((void*)0); | |||
1582 | ||||
1583 | PKIX_ENTER(LIST, "PKIX_List_DeleteItem")static const char cMyFuncName[] = {"PKIX_List_DeleteItem"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
1584 | PKIX_NULLCHECK_ONE(list)do { if ((list) == ((void*)0)){ stdVars.aPkixErrorReceived = ( (PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_NULLARGUMENT ; return PKIX_DoReturn(&stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean ) 1), plContext);; } } while (0); | |||
1585 | ||||
1586 | if (list->immutable){ | |||
1587 | PKIX_ERROR(PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST, ((void*)0), stdVars .aPkixType, 2, plContext); } } stdVars.aPkixErrorReceived = ( (PKIX_Boolean) 1); stdVars.aPkixErrorCode = PKIX_OPERATIONNOTPERMITTEDONIMMUTABLELIST ; goto cleanup; }; | |||
1588 | } | |||
1589 | ||||
1590 | if (!list->isHeader){ | |||
1591 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
1592 | } | |||
1593 | ||||
1594 | PKIX_CHECK(pkix_List_GetElement(list, index, &element, plContext),do { stdVars.aPkixErrorResult = (pkix_List_GetElement(list, index , &element, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup; } } while (0) | |||
1595 | PKIX_LISTGETELEMENTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_GetElement(list, index , &element, plContext)); if (stdVars.aPkixErrorResult) { stdVars .aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars .aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup; } } while (0); | |||
1596 | ||||
1597 | /* DecRef old contents */ | |||
1598 | PKIX_DECREF(element->item)do { if (element->item){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(element->item), plContext); if (stdVars .aPkixTempResult) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult , plContext); stdVars.aPkixTempResult = ((void*)0); } element ->item = ((void*)0); } } while (0); | |||
1599 | ||||
1600 | nextElement = element->next; | |||
1601 | ||||
1602 | if (nextElement != NULL((void*)0)) { | |||
1603 | /* If the next element exists, splice it out. */ | |||
1604 | ||||
1605 | /* Don't need to change ref counts for targets of next */ | |||
1606 | element->item = nextElement->item; | |||
1607 | nextElement->item = NULL((void*)0); | |||
1608 | ||||
1609 | /* Don't need to change ref counts for targets of next */ | |||
1610 | element->next = nextElement->next; | |||
1611 | nextElement->next = NULL((void*)0); | |||
1612 | ||||
1613 | PKIX_DECREF(nextElement)do { if (nextElement){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(nextElement), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } nextElement = ((void *)0); } } while (0); | |||
1614 | ||||
1615 | } else { /* The element is at the tail of the list */ | |||
1616 | if (index != 0) { | |||
1617 | PKIX_CHECK(pkix_List_GetElementdo { stdVars.aPkixErrorResult = (pkix_List_GetElement (list, index -1, &prevElement, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup ; } } while (0) | |||
1618 | (list, index-1, &prevElement, plContext),do { stdVars.aPkixErrorResult = (pkix_List_GetElement (list, index -1, &prevElement, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup ; } } while (0) | |||
1619 | PKIX_LISTGETELEMENTFAILED)do { stdVars.aPkixErrorResult = (pkix_List_GetElement (list, index -1, &prevElement, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETELEMENTFAILED; goto cleanup ; } } while (0); | |||
1620 | } else if (index == 0){ /* prevElement must be header */ | |||
1621 | prevElement = list; | |||
1622 | } | |||
1623 | prevElement->next = NULL((void*)0); | |||
1624 | ||||
1625 | /* Delete the element */ | |||
1626 | PKIX_DECREF(element)do { if (element){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(element), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } element = ((void*) 0); } } while (0); | |||
1627 | } | |||
1628 | ||||
1629 | PKIX_CHECK(PKIX_PL_Object_InvalidateCachedo { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0) | |||
1630 | ((PKIX_PL_Object *)list, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0) | |||
1631 | PKIX_OBJECTINVALIDATECACHEFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_InvalidateCache ((PKIX_PL_Object *)list, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_OBJECTINVALIDATECACHEFAILED; goto cleanup; } } while (0); | |||
1632 | ||||
1633 | list->length = list->length - 1; | |||
1634 | ||||
1635 | cleanup: | |||
1636 | ||||
1637 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1638 | } | |||
1639 | ||||
1640 | /* | |||
1641 | * FUNCTION: PKIX_List_ReverseList (see comments in pkix_util.h) | |||
1642 | */ | |||
1643 | PKIX_Error * | |||
1644 | PKIX_List_ReverseList( | |||
1645 | PKIX_List *list, | |||
1646 | PKIX_List **pReversedList, | |||
1647 | void *plContext) | |||
1648 | { | |||
1649 | PKIX_List *reversedList = NULL((void*)0); | |||
1650 | PKIX_PL_Object *item = NULL((void*)0); | |||
1651 | PKIX_PL_Object *duplicateItem = NULL((void*)0); | |||
1652 | PKIX_UInt32 length, i; | |||
1653 | ||||
1654 | PKIX_ENTER(LIST, "pkix_List_ReverseList")static const char cMyFuncName[] = {"pkix_List_ReverseList"}; PKIX_StdVars stdVars = zeroStdVars; stdVars.aMyFuncName = cMyFuncName; stdVars .aPkixType = PKIX_LIST_ERROR; ; do { if (pkixLoggersDebugTrace ) { pkix_Logger_Check(pkixLoggersDebugTrace, stdVars.aMyFuncName , ">>>", stdVars.aPkixType, 5, plContext); } } while (0);; | |||
| ||||
1655 | PKIX_NULLCHECK_TWO(list, pReversedList)do { if (((list) == ((void*)0)) || ((pReversedList) == ((void *)0))){ stdVars.aPkixErrorReceived = ((PKIX_Boolean) 1); stdVars .aPkixErrorCode = PKIX_NULLARGUMENT; return PKIX_DoReturn(& stdVars, (PKIX_FATAL_ERROR), ((PKIX_Boolean) 1), plContext);; } } while (0); | |||
1656 | ||||
1657 | if (!list->isHeader){ | |||
1658 | PKIX_ERROR(PKIX_INPUTLISTMUSTBEHEADER){ { if (pkixLoggersErrors) { pkix_Logger_CheckWithCode(pkixLoggersErrors , PKIX_INPUTLISTMUSTBEHEADER, ((void*)0), stdVars.aPkixType, 2 , plContext); } } stdVars.aPkixErrorReceived = ((PKIX_Boolean ) 1); stdVars.aPkixErrorCode = PKIX_INPUTLISTMUSTBEHEADER; goto cleanup; }; | |||
1659 | } | |||
1660 | ||||
1661 | length = list->length; | |||
1662 | ||||
1663 | /* Create a new list object */ | |||
1664 | PKIX_CHECK(PKIX_List_Create(&reversedList, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_Create(&reversedList , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED; goto cleanup; } } while (0) | |||
1665 | PKIX_LISTCREATEINTERNALFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_Create(&reversedList , plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass; stdVars.aPkixErrorCode = PKIX_LISTCREATEINTERNALFAILED; goto cleanup; } } while (0); | |||
1666 | ||||
1667 | /* | |||
1668 | * Starting with the last item and traversing backwards (from | |||
1669 | * the original list), append each item to the reversed list | |||
1670 | */ | |||
1671 | ||||
1672 | for (i = 1; i <= length; i++){ | |||
1673 | PKIX_CHECK(PKIX_List_GetItemdo { stdVars.aPkixErrorResult = (PKIX_List_GetItem (list, (length - i), &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
1674 | (list, (length - i), &item, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (list, (length - i), &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0) | |||
1675 | PKIX_LISTGETITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_GetItem (list, (length - i), &item, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTGETITEMFAILED; goto cleanup ; } } while (0); | |||
1676 | ||||
1677 | PKIX_CHECK(PKIX_PL_Object_Duplicatedo { stdVars.aPkixErrorResult = (PKIX_PL_Object_Duplicate (item , &duplicateItem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED; goto cleanup ; } } while (0) | |||
1678 | (item, &duplicateItem, plContext),do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Duplicate (item , &duplicateItem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED; goto cleanup ; } } while (0) | |||
1679 | PKIX_LISTDUPLICATEFAILED)do { stdVars.aPkixErrorResult = (PKIX_PL_Object_Duplicate (item , &duplicateItem, plContext)); if (stdVars.aPkixErrorResult ) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTDUPLICATEFAILED; goto cleanup ; } } while (0); | |||
1680 | ||||
1681 | PKIX_CHECK(PKIX_List_AppendItemdo { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (reversedList , duplicateItem, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup ; } } while (0) | |||
1682 | (reversedList, duplicateItem, plContext),do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (reversedList , duplicateItem, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup ; } } while (0) | |||
1683 | PKIX_LISTAPPENDITEMFAILED)do { stdVars.aPkixErrorResult = (PKIX_List_AppendItem (reversedList , duplicateItem, plContext)); if (stdVars.aPkixErrorResult) { stdVars.aPkixErrorClass = stdVars.aPkixErrorResult->errClass ; stdVars.aPkixErrorCode = PKIX_LISTAPPENDITEMFAILED; goto cleanup ; } } while (0); | |||
1684 | ||||
1685 | PKIX_DECREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } item = ((void*)0); } } while (0); | |||
1686 | PKIX_DECREF(duplicateItem)do { if (duplicateItem){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(duplicateItem), plContext); if (stdVars. aPkixTempResult) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult , plContext); stdVars.aPkixTempResult = ((void*)0); } duplicateItem = ((void*)0); } } while (0); | |||
1687 | } | |||
1688 | ||||
1689 | *pReversedList = reversedList; | |||
1690 | ||||
1691 | cleanup: | |||
1692 | ||||
1693 | PKIX_DECREF(item)do { if (item){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(item), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } item = ((void*)0); } } while (0); | |||
1694 | PKIX_DECREF(duplicateItem)do { if (duplicateItem){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(duplicateItem), plContext); if (stdVars. aPkixTempResult) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult , plContext); stdVars.aPkixTempResult = ((void*)0); } duplicateItem = ((void*)0); } } while (0); | |||
1695 | ||||
1696 | if (PKIX_ERROR_RECEIVED(stdVars.aPkixErrorReceived || stdVars.aPkixErrorResult || stdVars .aPkixTempErrorReceived || stdVars.aPkixErrorList)){ | |||
1697 | PKIX_DECREF(reversedList)do { if (reversedList){ stdVars.aPkixTempResult = PKIX_PL_Object_DecRef ((PKIX_PL_Object *)(reversedList), plContext); if (stdVars.aPkixTempResult ) { PKIX_DoAddError(&stdVars, stdVars.aPkixTempResult, plContext ); stdVars.aPkixTempResult = ((void*)0); } reversedList = ((void *)0); } } while (0); | |||
1698 | } | |||
1699 | ||||
1700 | PKIX_RETURN(LIST)return PKIX_DoReturn(&stdVars, (PKIX_LIST_ERROR), ((PKIX_Boolean ) 1), plContext);; | |||
1701 | } |