|
1 // Copyright (c) 2008-2009 Nokia Corporation and/or its subsidiary(-ies). |
|
2 // All rights reserved. |
|
3 // This component and the accompanying materials are made available |
|
4 // under the terms of "Eclipse Public License v1.0" |
|
5 // which accompanies this distribution, and is available |
|
6 // at the URL "http://www.eclipse.org/legal/epl-v10.html". |
|
7 // |
|
8 // Initial Contributors: |
|
9 // Nokia Corporation - initial contribution. |
|
10 // |
|
11 // Contributors: |
|
12 // |
|
13 // Description: |
|
14 // Name : tclockserver.cpp |
|
15 // |
|
16 // |
|
17 |
|
18 #include <c32comm.h> |
|
19 |
|
20 #if defined (__WINS__) |
|
21 #define PDD_NAME _L("ECDRV") |
|
22 #else |
|
23 #define PDD_NAME _L("EUART1") |
|
24 #define PDD2_NAME _L("EUART2") |
|
25 #define PDD3_NAME _L("EUART3") |
|
26 #define PDD4_NAME _L("EUART4") |
|
27 #endif |
|
28 |
|
29 #define LDD_NAME _L("ECOMM") |
|
30 |
|
31 #include "tclockserver.h" |
|
32 #include "tclock.h" |
|
33 |
|
34 |
|
35 _LIT(KServerName, "tclock"); |
|
36 |
|
37 CClockTestServer* CClockTestServer::NewL() |
|
38 { |
|
39 CClockTestServer *server = new(ELeave) CClockTestServer(); |
|
40 CleanupStack::PushL(server); |
|
41 server->ConstructL(KServerName); |
|
42 CleanupStack::Pop(server); |
|
43 return server; |
|
44 } |
|
45 |
|
46 static void InitCommsL() |
|
47 { |
|
48 TInt ret = User::LoadPhysicalDevice(PDD_NAME); |
|
49 User::LeaveIfError(ret == KErrAlreadyExists?KErrNone:ret); |
|
50 |
|
51 #ifndef __WINS__ |
|
52 ret = User::LoadPhysicalDevice(PDD2_NAME); |
|
53 ret = User::LoadPhysicalDevice(PDD3_NAME); |
|
54 ret = User::LoadPhysicalDevice(PDD4_NAME); |
|
55 #endif |
|
56 |
|
57 ret = User::LoadLogicalDevice(LDD_NAME); |
|
58 User::LeaveIfError(ret == KErrAlreadyExists?KErrNone:ret); |
|
59 ret = StartC32(); |
|
60 User::LeaveIfError(ret == KErrAlreadyExists?KErrNone:ret); |
|
61 } |
|
62 |
|
63 LOCAL_C void MainL() |
|
64 { |
|
65 // Leave the hooks in for platform security |
|
66 #if (defined __DATA_CAGING__) |
|
67 RProcess().DataCaging(RProcess::EDataCagingOn); |
|
68 RProcess().SecureApi(RProcess::ESecureApiOn); |
|
69 #endif |
|
70 InitCommsL(); |
|
71 |
|
72 CActiveScheduler* sched=NULL; |
|
73 sched=new(ELeave) CActiveScheduler; |
|
74 CActiveScheduler::Install(sched); |
|
75 CClockTestServer* server = NULL; |
|
76 // Create the CTestServer derived server |
|
77 TRAPD(err, server = CClockTestServer::NewL()); |
|
78 if(!err) |
|
79 { |
|
80 // Sync with the client and enter the active scheduler |
|
81 RProcess::Rendezvous(KErrNone); |
|
82 sched->Start(); |
|
83 } |
|
84 delete server; |
|
85 delete sched; |
|
86 } |
|
87 |
|
88 /** |
|
89 * Server entry point |
|
90 * @return Standard Epoc error code on exit |
|
91 */ |
|
92 TInt main() |
|
93 { |
|
94 __UHEAP_MARK; |
|
95 CTrapCleanup* cleanup = CTrapCleanup::New(); |
|
96 if(cleanup == NULL) |
|
97 { |
|
98 return KErrNoMemory; |
|
99 } |
|
100 TRAP_IGNORE(MainL()); |
|
101 delete cleanup; |
|
102 __UHEAP_MARKEND; |
|
103 |
|
104 return KErrNone; |
|
105 } |
|
106 |
|
107 CTestStep* CClockTestServer::CreateTestStep(const TDesC& aStepName) |
|
108 { |
|
109 CTestStep* testStep = NULL; |
|
110 |
|
111 if(aStepName == KTestgetclockid1) |
|
112 { |
|
113 testStep = new CTestclock(aStepName); |
|
114 } |
|
115 if(aStepName == KTestgetclockid2) |
|
116 { |
|
117 testStep = new CTestclock(aStepName); |
|
118 } |
|
119 if(aStepName == KTestgetclockid3) |
|
120 { |
|
121 testStep = new CTestclock(aStepName); |
|
122 } |
|
123 if(aStepName == KTestgetclockid4) |
|
124 { |
|
125 testStep = new CTestclock(aStepName); |
|
126 } |
|
127 if(aStepName == KTestgetclockid5) |
|
128 { |
|
129 testStep = new CTestclock(aStepName); |
|
130 } |
|
131 if(aStepName == KTestclockresolution1) |
|
132 { |
|
133 testStep = new CTestclock(aStepName); |
|
134 } |
|
135 if(aStepName == KTestclockresolution2) |
|
136 { |
|
137 testStep = new CTestclock(aStepName); |
|
138 } |
|
139 if(aStepName == KTestclockresolution3) |
|
140 { |
|
141 testStep = new CTestclock(aStepName); |
|
142 } |
|
143 if(aStepName == KTestclocknanosleep1) |
|
144 { |
|
145 testStep = new CTestclock(aStepName); |
|
146 } |
|
147 if(aStepName == KTestclocknanosleep2) |
|
148 { |
|
149 testStep = new CTestclock(aStepName); |
|
150 } |
|
151 if(aStepName == KTestclocknanosleep3) |
|
152 { |
|
153 testStep = new CTestclock(aStepName); |
|
154 } |
|
155 if(aStepName == KTestclocknanosleep4) |
|
156 { |
|
157 testStep = new CTestclock(aStepName); |
|
158 } |
|
159 if(aStepName == KTestclocknanosleep5) |
|
160 { |
|
161 testStep = new CTestclock(aStepName); |
|
162 } |
|
163 if(aStepName == KTestclocknanosleep6) |
|
164 { |
|
165 testStep = new CTestclock(aStepName); |
|
166 } |
|
167 if(aStepName == KTestclockgettime1) |
|
168 { |
|
169 testStep = new CTestclock(aStepName); |
|
170 } |
|
171 if(aStepName == KTestclockgettime2) |
|
172 { |
|
173 testStep = new CTestclock(aStepName); |
|
174 } |
|
175 if(aStepName == KTestclockgettime3) |
|
176 { |
|
177 testStep = new CTestclock(aStepName); |
|
178 } |
|
179 if(aStepName == KTestclocksettime1) |
|
180 { |
|
181 testStep = new CTestclock(aStepName); |
|
182 } |
|
183 if(aStepName == KTestclocksettime2) |
|
184 { |
|
185 testStep = new CTestclock(aStepName); |
|
186 } |
|
187 if(aStepName == KTestclocksettime3) |
|
188 { |
|
189 testStep = new CTestclock(aStepName); |
|
190 } |
|
191 return testStep; |
|
192 } |
|
193 |