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1 // Copyright (c) 1999-2009 Nokia Corporation and/or its subsidiary(-ies). |
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2 // All rights reserved. |
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3 // This component and the accompanying materials are made available |
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4 // under the terms of "Eclipse Public License v1.0" |
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5 // which accompanies this distribution, and is available |
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6 // at the URL "http://www.eclipse.org/legal/epl-v10.html". |
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7 // |
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8 // Initial Contributors: |
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9 // Nokia Corporation - initial contribution. |
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10 // |
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11 // Contributors: |
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12 // |
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13 // Description: |
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14 // |
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15 |
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16 // System includes |
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17 #include <e32base.h> |
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18 #include <e32test.h> |
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19 #include <f32file.h> |
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20 |
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21 // User includes |
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22 #include <asshdalarm.h> |
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23 #include <asclisession.h> |
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24 #include <consolealarmalertservermain.h> |
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25 #include <consolealarmalertservermain.h> |
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26 #include "testserver.h" |
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27 #include "ASTstAlarmTest.h" |
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28 #include <asclisoundplay.h> |
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29 #ifdef __WINS__ |
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30 #include "ConsoleANTestClient.h" |
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31 #endif |
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32 |
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33 |
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34 // Type definitions |
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35 typedef void (*ThreadTestL)(void); |
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36 typedef CArrayFixFlat<TASCliSoundPlayDefinition> CPlayIntervalArray; |
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37 |
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38 // Constants |
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39 const TUid KServerUid2={0x1000008D}; |
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40 const TUid KServerUid3={0x101F502A}; |
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41 const TUidType serverUid(KNullUid,KServerUid2,KServerUid3); |
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42 |
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43 #define KNewAlarmCycleStartOffsetMinutes {0,1,2,3,KErrNotFound}; |
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44 |
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45 _LIT(KTestIniFile, "c:\\private\\101f5027\\AlarmServer.ini"); |
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46 |
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47 // Globals |
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48 static RASCliSession TheAlarmServerSession; |
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49 |
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50 #if defined(_DEBUG) && defined(__WINS__) |
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51 _LIT(KDateTimeFormat, "%F %*E %*N %D %Y %J:%T:%S%B"); |
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52 |
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53 static void PrintTimeL(const TTime& aTime, const TDesC& aPrefix) |
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54 { |
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55 TBuf<30> dateTimeString; |
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56 aTime.FormatL(dateTimeString, KDateTimeFormat); |
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57 TheAlarmTest.Test().Printf(_L("%S %S\n"), &aPrefix, &dateTimeString); |
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58 } |
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59 #endif |
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60 |
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61 static void TestClearStoreL() |
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62 { |
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63 // Delete all alarms |
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64 RArray<TAlarmCategory> categories; |
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65 TheAlarmServerSession.GetAvailableCategoryListL(categories); |
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66 TInt count = categories.Count(); |
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67 for(TInt i=0; i<count; i++) |
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68 { |
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69 const TAlarmCategory category = categories[i]; |
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70 TheAlarmTest(TheAlarmServerSession.AlarmDeleteAllByCategory(category, EFalse) == KErrNone, __LINE__); |
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71 } |
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72 categories.Close(); |
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73 } |
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74 |
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75 void WaitForNotificationBufferToBeEmptied() |
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76 { |
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77 TRequestStatus status = KErrNone; |
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78 TAlarmId alarmId; |
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79 if (status == KRequestPending) |
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80 return; |
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81 |
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82 TheAlarmServerSession.NotifyChange(status, alarmId); |
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83 User::After(1000000); |
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84 if (status == KRequestPending) |
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85 return; |
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86 User::WaitForRequest(status); |
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87 |
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88 // Because of event buffering inside the Alarm Server |
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89 // We need to wait until there aren't any more events |
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90 // in the buffer, and then attempt to cancel the request. |
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91 // |
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92 // Trying to cancel a request when the server has |
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93 // already completed the message (because something |
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94 // was in the buffer) results in the server panicing |
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95 // the client. |
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96 FOREVER |
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97 { |
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98 TheAlarmTest(status >= EAlarmChangeEventState && status <= EAlarmChangeEventLast); |
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99 TheAlarmServerSession.NotifyChange(status, alarmId); |
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100 // |
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101 // Wait a second so that we can tell if this really is |
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102 // waiting for an event, or just for the Alarm Server |
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103 // process to be given some scheduling time by the |
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104 // kernel |
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105 User::After(1000000); |
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106 |
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107 // If its still pending, then we should attempt |
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108 // to cancel the request. Otherwise, if its not |
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109 // pending, then the Alarm Server probably just |
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110 // completed the request based upon the contents |
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111 // of the event buffer. |
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112 if (status == KRequestPending) |
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113 break; |
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114 else |
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115 { |
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116 // Eat the request and try again |
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117 User::WaitForRequest(status); |
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118 } |
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119 } |
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120 } |
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121 |
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122 void testTimesEqual(const TTime& aTime1, const TTime& aTime2) |
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123 { |
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124 // determine the difference, in seconds |
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125 TTimeIntervalSeconds timeDiffSeconds; |
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126 const TInt error = aTime2.SecondsFrom(aTime1, timeDiffSeconds); |
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127 TheAlarmTest(error == KErrNone); |
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128 // check the times are within 1 second |
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129 // as the tolerance for notifying alarms should be bigger than 1 second |
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130 const TTimeIntervalSeconds maxDiff(1); |
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131 const TTimeIntervalSeconds minDiff(-1); |
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132 TheAlarmTest(((timeDiffSeconds <= maxDiff) && (timeDiffSeconds >= minDiff))); |
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133 } |
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134 |
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135 |
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136 /** |
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137 @SYMTestCaseID PIM-TBASICALARMS-INC092682-0002 |
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138 @SYMTestType UT |
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139 @SYMTestPriority High |
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140 @SYMDEF INC092682 |
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141 @SYMTestCaseDesc Tests that re-enabling of a repeating alarm correctly maintains |
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142 the next due alarm ID (the head alarm in the alarm queue). |
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143 |
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144 @SYMTestActions |
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145 1. Create a workday alarm due to activate in 30 minutes time. |
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146 2. Create a once only alarm due to activate in 90 minutes time. |
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147 3. Check that their are 2 active alarms in the queue. |
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148 4. Check that workday alarm is due to expire before once only alarm. |
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149 5. Disable workday alarm and check that once only alarm is the next due alarm. |
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150 6. Advance current time by 1 hour. The repeating (workday) alarm should be |
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151 rescheduled for the next workday, leaving the once only alarm as the next due |
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152 alarm. |
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153 7. Enable workday alarm. |
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154 8. Check that once only alarm is next due alarm - workday alarm should be due |
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155 next day now since time was advanced past today's workday alarm time. |
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156 |
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157 @SYMTestExpectedResults The next due alarm is as expected. |
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158 */ |
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159 |
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160 |
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161 static void TestINC092682L() |
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162 { |
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163 TheAlarmTest.Next(_L("@SYMTestCaseID PIM-TBASICALARMS-INC092682-0002 Testing fix for INC092682.")); |
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164 |
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165 // |
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166 // Make sure we start with no alarms. |
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167 // |
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168 TestClearStoreL(); |
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169 |
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170 // |
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171 // 1. Create a workday alarm due to activate in 30 minutes time. |
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172 // |
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173 TASShdAlarm alarm; |
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174 alarm.RepeatDefinition() = EAlarmRepeatDefintionRepeatWorkday; |
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175 alarm.Message() = _L("This is workday alarm message"); |
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176 alarm.NextDueTime().HomeTime(); |
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177 alarm.NextDueTime() += TTimeIntervalMinutes(30); |
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178 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
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179 const TAlarmId workdayId = alarm.Id(); |
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180 |
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181 // |
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182 // 2. Create a once only alarm due to activate in 90 minutes time. |
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183 // |
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184 alarm.RepeatDefinition() = EAlarmRepeatDefintionRepeatOnce; |
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185 alarm.Message() = _L("This is once only alarm message"); |
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186 alarm.NextDueTime().HomeTime(); |
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187 alarm.NextDueTime() += TTimeIntervalMinutes(90); |
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188 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
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189 const TAlarmId onceOnlyId = alarm.Id(); |
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190 |
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191 // |
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192 // 3. Check that their are 2 active alarms in the queue. |
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193 // |
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194 TheAlarmTest(TheAlarmServerSession.NumberOfAlarmsActiveInQueue() == 2, __LINE__); |
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195 |
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196 // |
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197 // 4. Check that workday alarm is due to expire before once only alarm. |
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198 // |
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199 TAlarmId nextAlarmId; |
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200 TInt r = TheAlarmServerSession.GetNextDueAlarmId(nextAlarmId); |
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201 TheAlarmTest(r == KErrNone, __LINE__); |
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202 TheAlarmTest(nextAlarmId == workdayId, __LINE__); |
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203 |
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204 // |
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205 // 5. Disable workday alarm and check that once only alarm is the next due |
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206 // alarm. |
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207 // |
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208 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(workdayId, EAlarmStatusDisabled) == KErrNone, __LINE__); |
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209 r = TheAlarmServerSession.GetNextDueAlarmId(nextAlarmId); |
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210 TheAlarmTest(r == KErrNone, __LINE__); |
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211 TheAlarmTest(nextAlarmId == onceOnlyId, __LINE__); |
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212 |
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213 // |
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214 // 6. Advance current time by 1 hour. The repeating (workday) alarm should |
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215 // be rescheduled for the next workday, leaving the once only alarm as the |
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216 // next due alarm. |
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217 // |
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218 TTime oneHourLater; |
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219 oneHourLater.HomeTime(); |
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220 oneHourLater += TTimeIntervalHours(1); |
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221 RPIMTestServer serv; |
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222 User::LeaveIfError(serv.Connect()); |
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223 serv.SetHomeTime(oneHourLater); |
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224 // Wait for time change notifications to occur. |
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225 User::After(10000); |
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226 // Set again to ensure time value is correct when update occurs. |
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227 serv.SetHomeTime(oneHourLater); |
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228 serv.Close(); |
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229 |
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230 // |
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231 // 7. Enable workday alarm. |
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232 // |
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233 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(workdayId, EAlarmStatusEnabled) == KErrNone, __LINE__); |
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234 |
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235 // |
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236 // 8. Check that once only alarm is next due alarm - workday alarm should be |
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237 // due next day now since time was advanced past today's workday alarm |
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238 // time. |
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239 // |
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240 r = TheAlarmServerSession.GetNextDueAlarmId(nextAlarmId); |
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241 TheAlarmTest(r == KErrNone, __LINE__); |
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242 TheAlarmTest(nextAlarmId == onceOnlyId, __LINE__); |
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243 |
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244 // |
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245 // Tidy up. |
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246 // |
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247 TestClearStoreL(); |
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248 WaitForNotificationBufferToBeEmptied(); |
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249 } |
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250 |
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251 |
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252 //************************************************************************************* |
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253 static void CreateSingleAlarmL() |
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254 { |
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255 #ifdef __WINS__ |
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256 |
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257 |
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258 TheAlarmTest.Next(_L("Adding disabled alarm")); |
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259 // |
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260 TASShdAlarm alarm; |
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261 alarm.Category() = KASCliCategoryClock; |
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262 alarm.RepeatDefinition() = EAlarmRepeatDefintionRepeatDaily; |
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263 alarm.Message() = _L("This is an alarm message - alarm 1"); |
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264 alarm.NextDueTime().HomeTime(); |
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265 alarm.NextDueTime() += TTimeIntervalMinutes(1); |
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266 alarm.SoundName() = _L("Arf Arf Woop"); |
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267 // |
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268 TTime now; |
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269 now.HomeTime(); |
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270 // |
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271 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
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272 const TAlarmId id = alarm.Id(); |
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273 TheAlarmTest(id != KNullAlarmId, __LINE__); |
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274 |
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275 |
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276 |
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277 TheAlarmTest.Next(_L("Get alarm details")); |
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278 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
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279 |
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280 |
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281 |
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282 TheAlarmTest.Next(_L("Enabling a disabled alarm")); |
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283 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(id, EAlarmStatusEnabled) == KErrNone, __LINE__); |
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284 |
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285 |
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286 |
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287 TheAlarmTest.Next(_L("Waiting for alarm to expire...")); |
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288 |
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289 TAlarmId alarmId; |
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290 TRequestStatus status; |
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291 FOREVER |
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292 { |
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293 TheAlarmServerSession.NotifyChange(status, alarmId); |
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294 User::WaitForRequest(status); |
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295 if (status.Int() == EAlarmChangeEventTimerExpired) |
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296 { |
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297 TheAlarmTest(id == alarmId, __LINE__); |
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298 break; |
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299 } |
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300 } |
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301 #endif |
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302 } |
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303 |
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304 |
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305 //************************************************************************************* |
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306 static void CreateAlarmAndIgnoreL() |
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307 { |
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308 #ifdef __WINS__ |
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309 |
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310 TheAlarmTest.Next(_L("Adding disabled alarm")); |
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311 // |
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312 TASShdAlarm alarm; |
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313 alarm.Category() = KASCliCategoryClock; |
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314 alarm.RepeatDefinition() = EAlarmRepeatDefintionRepeatDaily; |
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315 alarm.Message() = _L("This is an alarm message - alarm 1"); |
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316 alarm.NextDueTime().HomeTime(); |
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317 alarm.NextDueTime() += TTimeIntervalMinutes(1); |
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318 alarm.SoundName() = _L("Arf Arf Woop"); |
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319 |
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320 // |
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321 TTime now; |
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322 now.HomeTime(); |
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323 // |
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324 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
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325 const TAlarmId id = alarm.Id(); |
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326 TheAlarmTest(id != KNullAlarmId, __LINE__); |
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327 |
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328 // copy the current soundsettings |
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329 CPlayIntervalArray* originalSoundArray = new(ELeave) CPlayIntervalArray(20); |
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330 CleanupStack::PushL(originalSoundArray); |
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331 |
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332 TheAlarmServerSession.GetAlarmPlayIntervalsL(*originalSoundArray); |
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333 |
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334 // use shorted one |
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335 CPlayIntervalArray* newSoundArray = new(ELeave) CPlayIntervalArray(10); |
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336 CleanupStack::PushL(newSoundArray); |
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337 const TInt minuteCycle[]=KNewAlarmCycleStartOffsetMinutes; |
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338 TInt i(0); |
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339 TInt offset(minuteCycle[i]); |
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340 while (offset != KErrNotFound) |
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341 { |
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342 const TASCliSoundPlayDefinition item(offset, KDefaultSoundPlayDurationInSeconds); |
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343 newSoundArray->AppendL(item); |
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344 offset = minuteCycle[++i]; |
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345 } |
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346 TheAlarmServerSession.SetAlarmPlayIntervalsL(*newSoundArray); |
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347 |
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348 |
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349 TheAlarmTest.Next(_L("Get alarm details")); |
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350 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
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351 |
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352 |
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353 TheAlarmTest.Next(_L("Enabling a disabled alarm")); |
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354 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(id, EAlarmStatusEnabled) == KErrNone, __LINE__); |
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355 |
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356 |
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357 TheAlarmTest.Next(_L("Waiting for alarm to expire...")); |
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358 TInt numberOfIntervals(newSoundArray->Count()); |
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359 TInt count(0); |
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360 |
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361 TAlarmId alarmId; |
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362 TRequestStatus status; |
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363 FOREVER |
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364 { |
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365 TheAlarmServerSession.NotifyChange(status, alarmId); |
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366 User::WaitForRequest(status); |
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367 if (status.Int() == EAlarmChangeEventSoundPlaying) |
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368 { |
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369 if(count > numberOfIntervals) |
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370 break; |
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371 count++; |
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372 } |
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373 } |
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374 // this to check that we have gone through all the time intervals in array |
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375 TheAlarmTest(count > newSoundArray->Count(), __LINE__); |
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376 // restore original sound settings |
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377 |
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378 TheAlarmTest.Test().Next(_L("reset default sound intervals")); |
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379 TheAlarmServerSession.SetAlarmPlayIntervalsL(*originalSoundArray); |
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380 CleanupStack::PopAndDestroy(2);// originalSoundArray, newSoundArray |
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381 |
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382 #endif |
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383 } |
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384 |
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385 //************************************************************************************* |
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386 |
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387 |
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388 static void CreateNotificationAlarmL() |
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389 { |
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390 TheAlarmTest.Next(_L("Creating notification alarm")); |
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391 |
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392 // AlarmAddWithNotification |
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393 TASShdAlarm alarm; |
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394 alarm.NextDueTime().HomeTime(); |
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395 alarm.NextDueTime() += TTimeIntervalMinutes(1); |
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396 TRequestStatus status; |
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397 TheAlarmServerSession.AlarmAddWithNotification(status, alarm); |
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398 TAlarmId id = alarm.Id(); |
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399 TheAlarmTest(id != KNullAlarmId, __LINE__); |
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400 TheAlarmTest(status == KRequestPending, __LINE__); |
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401 |
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402 // Wait for completion |
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403 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(id, EAlarmStatusEnabled) == KErrNone, __LINE__); |
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404 User::WaitForRequest(status); |
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405 |
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406 // AlarmNotificationCancel |
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407 alarm.NextDueTime().HomeTime(); |
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408 alarm.NextDueTime() += TTimeIntervalMinutes(1); |
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409 TheAlarmServerSession.AlarmAddWithNotification(status, alarm); |
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410 id = alarm.Id(); |
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411 TheAlarmTest(id != KNullAlarmId, __LINE__); |
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412 TheAlarmTest(status == KRequestPending, __LINE__); |
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413 TheAlarmServerSession.AlarmNotificationCancelAndDequeue(id); |
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414 |
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415 // Eat request |
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416 User::WaitForRequest(status); |
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417 TheAlarmTest(status == KErrCancel, __LINE__); |
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418 } |
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419 |
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420 |
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421 //************************************************************************************* |
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422 |
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423 |
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424 static void CreateDailyRepeatingAlarmL() |
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425 { |
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426 TheAlarmTest.Next(_L("Creating daily repeating alarm")); |
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427 |
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428 // AlarmAddWithNotification |
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429 TASShdAlarm alarm; |
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430 alarm.NextDueTime().HomeTime(); |
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431 alarm.NextDueTime() += TTimeIntervalMinutes(1); |
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432 alarm.RepeatDefinition() = EAlarmRepeatDefintionRepeatDaily; |
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433 |
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434 TheAlarmServerSession.AlarmAdd(alarm); |
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435 TAlarmId id = alarm.Id(); |
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436 TheAlarmTest(id != KNullAlarmId, __LINE__); |
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437 |
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438 TAlarmId alarmId; |
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439 TRequestStatus status; |
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440 TheAlarmServerSession.NotifyChange(status, alarmId); |
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441 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(id, EAlarmStatusEnabled) == KErrNone, __LINE__); |
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442 User::WaitForRequest(status); |
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443 } |
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444 |
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445 |
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446 static void CreateAlarmsForPausingL() |
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447 { |
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448 #ifdef __WINS__ |
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449 |
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450 TestClearStoreL(); |
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451 |
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452 TheAlarmTest.Next(_L("Test pausing alarm sounds")); |
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453 // |
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454 // Add an alarm, due in 3 seconds |
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455 TASShdAlarm alarm; |
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456 alarm.NextDueTime().HomeTime(); |
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457 alarm.NextDueTime() += TTimeIntervalSeconds(1); |
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458 |
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459 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
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460 const TAlarmId id = alarm.Id(); |
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461 TheAlarmTest(id != KNullAlarmId, __LINE__); |
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462 // Wait for the alarm to go off, and be paused |
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463 User::After(5 * 1000000); |
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464 |
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465 // The alarm should still be notifying |
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466 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
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467 TheAlarmTest(alarm.State() == EAlarmStateNotifying, __LINE__); |
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468 TheAlarmTest(TheAlarmServerSession.AlarmDelete(id) == KErrNone, __LINE__); |
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469 |
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470 // Add 2 alarms, due in 3 and 13 seconds |
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471 TTime alarm1time; |
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472 TTime alarm2time; |
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473 alarm1time.HomeTime(); |
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474 alarm1time += TTimeIntervalSeconds(3); |
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475 alarm2time = alarm1time + TTimeIntervalSeconds(10); |
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476 |
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477 TASShdAlarm alarm1; |
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478 alarm1.NextDueTime() = alarm1time; |
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479 alarm1.Message() = _L("alarm 1"); |
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480 TASShdAlarm alarm2; |
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481 alarm2.NextDueTime() = alarm2time; |
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482 alarm2.Message() = _L("alarm 2"); |
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483 |
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484 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm1) == KErrNone, __LINE__); |
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485 const TAlarmId id1 = alarm1.Id(); |
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486 TheAlarmTest(id1 != KNullAlarmId, __LINE__); |
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487 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm2) == KErrNone, __LINE__); |
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488 const TAlarmId id2 = alarm2.Id(); |
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489 TheAlarmTest(id2 != KNullAlarmId, __LINE__); |
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490 // |
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491 // Wait for the 1st alarm to go off, and be paused |
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492 User::After(5 * 1000000); |
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493 |
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494 // The 1st alarm should still be notifying |
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495 alarm1.Reset(); |
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496 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id1, alarm1) == KErrNone, __LINE__); |
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497 TheAlarmTest(alarm1.State() == EAlarmStateNotifying, __LINE__); |
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498 |
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499 // Wait for the time the 2nd alarm is due |
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500 User::After(10 * 1000000); |
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501 // The 1st alarm should be moved to snoozed, so as not to block the 2nd one |
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502 alarm1.Reset(); |
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503 alarm2.Reset(); |
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504 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id1, alarm1) == KErrNone, __LINE__); |
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505 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id2, alarm2) == KErrNone, __LINE__); |
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506 TheAlarmTest.Test().Printf(_L("\tALARM1 State => %u \n"),alarm1.State()); |
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507 TheAlarmTest.Test().Printf(_L("\tALARM2 State => %u \n"),alarm2.State()); |
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508 TheAlarmTest(alarm1.State() == EAlarmStateSnoozed, __LINE__); |
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509 TheAlarmTest(alarm2.State() == EAlarmStateNotified, __LINE__); |
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510 // the 1st alarm was paused, so the next due time is updated to |
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511 // the end of the pause period (1 minute for console alarm alert server) |
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512 testTimesEqual(alarm1.NextDueTime(), alarm1time + TTimeIntervalMinutes(1)); |
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513 TheAlarmTest(alarm2.NextDueTime() == alarm2time, __LINE__); |
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514 |
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515 // tidy up |
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516 TheAlarmTest(TheAlarmServerSession.AlarmDelete(id1) == KErrNone, __LINE__); |
|
517 TheAlarmTest(TheAlarmServerSession.AlarmDelete(id2) == KErrNone, __LINE__); |
|
518 WaitForNotificationBufferToBeEmptied(); |
|
519 #endif |
|
520 } |
|
521 |
|
522 // |
|
523 |
|
524 |
|
525 static void CreateUtcAlarmsForPausingL() |
|
526 { |
|
527 #ifdef __WINS__ |
|
528 TestClearStoreL(); |
|
529 |
|
530 TheAlarmTest.Next(_L("Test pausing alarm sounds")); |
|
531 // |
|
532 // Add an alarm, due in 3 seconds |
|
533 TASShdAlarm alarm; |
|
534 TTime time; |
|
535 time.UniversalTime(); |
|
536 time += TTimeIntervalSeconds(3); |
|
537 /* |
|
538 _LIT(KFormatTime,"%D %H:%T:%S. "); |
|
539 TBuf<128> timeTxt; |
|
540 time.FormatL(timeTxt,KFormatTime); |
|
541 */ |
|
542 alarm.SetUtcNextDueTime(time); |
|
543 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
|
544 const TAlarmId id = alarm.Id(); |
|
545 TheAlarmTest(id != KNullAlarmId, __LINE__); |
|
546 // Wait for the alarm to go off, and be paused |
|
547 User::After(5 * 1000000); |
|
548 |
|
549 // The alarm should still be notifying |
|
550 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
551 TheAlarmTest(alarm.State() == EAlarmStateNotifying, __LINE__); |
|
552 TheAlarmTest(TheAlarmServerSession.AlarmDelete(id) == KErrNone, __LINE__); |
|
553 |
|
554 // Add 2 alarms, due in 3 and 13 seconds |
|
555 TTime alarm1time; |
|
556 TTime alarm2time; |
|
557 alarm1time.UniversalTime(); |
|
558 alarm1time += TTimeIntervalSeconds(3); |
|
559 alarm2time = alarm1time + TTimeIntervalSeconds(10); |
|
560 |
|
561 TASShdAlarm alarm1; |
|
562 alarm1.SetUtcNextDueTime(alarm1time); |
|
563 alarm1.Message()=(_L("alarm 1")); |
|
564 TASShdAlarm alarm2; |
|
565 alarm2.SetUtcNextDueTime(alarm2time); |
|
566 alarm2.Message()=(_L("alarm 2")); |
|
567 |
|
568 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm1) == KErrNone, __LINE__); |
|
569 const TAlarmId id1 = alarm1.Id(); |
|
570 TheAlarmTest(id1 != KNullAlarmId, __LINE__); |
|
571 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm2) == KErrNone, __LINE__); |
|
572 const TAlarmId id2 = alarm2.Id(); |
|
573 TheAlarmTest(id2 != KNullAlarmId, __LINE__); |
|
574 // |
|
575 // Wait for the 1st alarm to go off, and be paused |
|
576 User::After(5 * 1000000); |
|
577 |
|
578 // The 1st alarm should still be notifying |
|
579 alarm1.Reset(); |
|
580 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id1, alarm1) == KErrNone, __LINE__); |
|
581 // delete below |
|
582 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id2, alarm2) == KErrNone, __LINE__); |
|
583 TheAlarmTest(alarm1.State() == EAlarmStateNotifying, __LINE__); |
|
584 |
|
585 // Wait for the time the 2nd alarm is due |
|
586 User::After(10 * 1000000); |
|
587 // The 1st alarm should be moved to snoozed, so as not to block the 2nd one |
|
588 alarm1.Reset(); |
|
589 alarm2.Reset(); |
|
590 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id1, alarm1) == KErrNone, __LINE__); |
|
591 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id2, alarm2) == KErrNone, __LINE__); |
|
592 TheAlarmTest.Test().Printf(_L("\tALARM1 State => %u \n"),alarm1.State()); |
|
593 TheAlarmTest.Test().Printf(_L("\tALARM2 State => %u \n"),alarm2.State()); |
|
594 TheAlarmTest(alarm1.State() == EAlarmStateSnoozed, __LINE__); |
|
595 TheAlarmTest(alarm2.State() == EAlarmStateNotified, __LINE__); |
|
596 // the 1st alarm was paused, so the next due time is updated to |
|
597 // the end of the pause period (1 minute for console alarm alert server) |
|
598 testTimesEqual(alarm1.NextDueTime(), alarm1time + TTimeIntervalMinutes(1)); |
|
599 TheAlarmTest(alarm2.NextDueTime() == alarm2time, __LINE__); |
|
600 |
|
601 // tidy up |
|
602 TheAlarmTest(TheAlarmServerSession.AlarmDelete(id1) == KErrNone, __LINE__); |
|
603 TheAlarmTest(TheAlarmServerSession.AlarmDelete(id2) == KErrNone, __LINE__); |
|
604 WaitForNotificationBufferToBeEmptied(); |
|
605 #endif |
|
606 } |
|
607 |
|
608 |
|
609 static void CreateSingleUtcAlarmL() |
|
610 { |
|
611 #ifdef __WINS__ |
|
612 |
|
613 |
|
614 TheAlarmTest.Next(_L("Adding disabled alarm")); |
|
615 // |
|
616 TASShdAlarm alarm; |
|
617 alarm.Category()=KASCliCategoryClock; |
|
618 alarm.RepeatDefinition()=EAlarmRepeatDefintionRepeatDaily; |
|
619 alarm.Message()=(_L("This is an alarm message - alarm 1")); |
|
620 TTime time; |
|
621 time.UniversalTime(); |
|
622 time += TTimeIntervalMinutes(1); |
|
623 alarm.SetUtcNextDueTime(time); |
|
624 alarm.SoundName()=(_L("Arf Arf Woop")); |
|
625 // |
|
626 TTime now; |
|
627 now.HomeTime(); |
|
628 // TDateTime nowDT = now.DateTime(); |
|
629 // TDateTime dueDT = alarm.NextDueTime().DateTime(); |
|
630 // |
|
631 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
|
632 const TAlarmId id = alarm.Id(); |
|
633 TheAlarmTest(id != KNullAlarmId, __LINE__); |
|
634 |
|
635 // |
|
636 |
|
637 TheAlarmTest.Next(_L("Get alarm details")); |
|
638 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
639 |
|
640 // |
|
641 |
|
642 |
|
643 TheAlarmTest.Next(_L("Enabling a disabled alarm")); |
|
644 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(id, EAlarmStatusEnabled) == KErrNone, __LINE__); |
|
645 |
|
646 // |
|
647 |
|
648 |
|
649 TheAlarmTest.Next(_L("Waiting for alarm to expire...")); |
|
650 |
|
651 TAlarmId alarmId; |
|
652 TRequestStatus status; |
|
653 FOREVER |
|
654 { |
|
655 TheAlarmServerSession.NotifyChange(status, alarmId); |
|
656 User::WaitForRequest(status); |
|
657 if (status.Int() == EAlarmChangeEventTimerExpired) |
|
658 { |
|
659 TheAlarmTest(id == alarmId, __LINE__); |
|
660 break; |
|
661 } |
|
662 } |
|
663 #endif |
|
664 } |
|
665 |
|
666 |
|
667 static void CreateNotificationUtcAlarmL() |
|
668 { |
|
669 TheAlarmTest.Next(_L("Creating notification alarm")); |
|
670 |
|
671 // AlarmAddWithNotification |
|
672 TASShdAlarm alarm; |
|
673 TTime time; |
|
674 time.UniversalTime(); |
|
675 time += TTimeIntervalMinutes(1); |
|
676 alarm.SetUtcNextDueTime(time); |
|
677 TRequestStatus status; |
|
678 TheAlarmServerSession.AlarmAddWithNotification(status, alarm); |
|
679 TAlarmId id = alarm.Id(); |
|
680 TheAlarmTest(id != KNullAlarmId, __LINE__); |
|
681 TheAlarmTest(status == KRequestPending, __LINE__); |
|
682 |
|
683 // Wait for completion |
|
684 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(id, EAlarmStatusEnabled) == KErrNone, __LINE__); |
|
685 User::WaitForRequest(status); |
|
686 |
|
687 // AlarmNotificationCancel |
|
688 time.UniversalTime(); |
|
689 time += TTimeIntervalMinutes(1); |
|
690 alarm.SetUtcNextDueTime(time); |
|
691 TheAlarmServerSession.AlarmAddWithNotification(status, alarm); |
|
692 id = alarm.Id(); |
|
693 TheAlarmTest(id != KNullAlarmId, __LINE__); |
|
694 TheAlarmTest(status == KRequestPending, __LINE__); |
|
695 TheAlarmServerSession.AlarmNotificationCancelAndDequeue(id); |
|
696 |
|
697 // Eat request |
|
698 User::WaitForRequest(status); |
|
699 TheAlarmTest(status == KErrCancel, __LINE__); |
|
700 } |
|
701 |
|
702 |
|
703 static void CreateDailyRepeatingUtcAlarmL() |
|
704 { |
|
705 TheAlarmTest.Next(_L("Creating daily repeating alarm")); |
|
706 |
|
707 // AlarmAddWithNotification |
|
708 TASShdAlarm alarm; |
|
709 TTime time; |
|
710 time.UniversalTime(); |
|
711 time += TTimeIntervalMinutes(1); |
|
712 alarm.SetUtcNextDueTime(time); |
|
713 alarm.RepeatDefinition()=EAlarmRepeatDefintionRepeatDaily; |
|
714 |
|
715 TheAlarmServerSession.AlarmAdd(alarm); |
|
716 TAlarmId id = alarm.Id(); |
|
717 TheAlarmTest(id != KNullAlarmId, __LINE__); |
|
718 |
|
719 TAlarmId alarmId; |
|
720 TRequestStatus status; |
|
721 TheAlarmServerSession.NotifyChange(status, alarmId); |
|
722 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(id, EAlarmStatusEnabled) == KErrNone, __LINE__); |
|
723 User::WaitForRequest(status); |
|
724 } |
|
725 |
|
726 |
|
727 //************************************************************************************* |
|
728 // defect INC082426 |
|
729 |
|
730 #if defined(_DEBUG) && defined(__WINS__) |
|
731 static void CreateAlarmAndSnoozeL(TAlarmRepeatDefinition aRepeatDef) |
|
732 { |
|
733 TestClearStoreL(); |
|
734 |
|
735 |
|
736 TheAlarmTest.Next(_L("Adding alarm and snooze it")); |
|
737 |
|
738 |
|
739 // |
|
740 TASShdAlarm alarm; |
|
741 alarm.Category() = KASCliCategoryClock; |
|
742 alarm.RepeatDefinition() = aRepeatDef; |
|
743 alarm.Message() = _L("This is an alarm message - alarm to snooze"); |
|
744 |
|
745 TTime now1; |
|
746 now1.UniversalTime(); |
|
747 now1 += TTimeIntervalMinutes(1); |
|
748 alarm.SetUtcNextDueTime(now1); |
|
749 alarm.SoundName() = _L("Hic hic"); |
|
750 |
|
751 // |
|
752 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
|
753 const TAlarmId id = alarm.Id(); |
|
754 TheAlarmTest(id != KNullAlarmId, __LINE__); |
|
755 |
|
756 |
|
757 TheAlarmTest.Next(_L("Get alarm details")); |
|
758 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
759 |
|
760 // |
|
761 |
|
762 TheAlarmTest.Next(_L("Enabling a disabled alarm")); |
|
763 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(id, EAlarmStatusEnabled) == KErrNone, __LINE__); |
|
764 |
|
765 |
|
766 TheAlarmTest.Next(_L("Waiting for alarm to expire...")); |
|
767 |
|
768 TAlarmId alarmId; |
|
769 TRequestStatus status; |
|
770 |
|
771 |
|
772 FOREVER |
|
773 { |
|
774 TheAlarmServerSession.NotifyChange(status, alarmId); |
|
775 User::WaitForRequest(status); |
|
776 |
|
777 if (status.Int() == EAlarmChangeEventTimerExpired) |
|
778 { |
|
779 TheAlarmTest(id == alarmId, __LINE__); |
|
780 break; |
|
781 } |
|
782 } |
|
783 |
|
784 |
|
785 |
|
786 TheAlarmTest.Next(_L("Alarm expired")); |
|
787 |
|
788 TBuf<100> buf; |
|
789 |
|
790 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
791 TheAlarmTest(alarm.State() == EAlarmStateNotifying, __LINE__); |
|
792 alarm.OriginalExpiryTime().FormatL(buf, _L("OriginalExpiryTime: %D %H:%T:%S\n")); |
|
793 TheAlarmTest.Test().Printf(buf); |
|
794 alarm.NextDueTime().FormatL(buf, _L("NextDueTime: %D %H:%T:%S\n")); |
|
795 TheAlarmTest.Test().Printf(buf); |
|
796 |
|
797 TheAlarmTest.Next(_L("Snooze alarm")); |
|
798 |
|
799 TTime snooze(alarm.NextDueTime()); |
|
800 snooze += TTimeIntervalMinutes(2); |
|
801 TInt r = TheAlarmServerSession.__DbgSnoozeAlarm(id, snooze); |
|
802 TheAlarmTest(r == KErrNone, __LINE__); |
|
803 |
|
804 |
|
805 // check the state is the correct one |
|
806 |
|
807 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
808 TheAlarmTest(alarm.State() == EAlarmStateSnoozed, __LINE__); |
|
809 alarm.OriginalExpiryTime().FormatL(buf, _L("OriginalExpiryTime: %D %H:%T:%S\n")); |
|
810 TheAlarmTest.Test().Printf(buf); |
|
811 alarm.NextDueTime().FormatL(buf, _L("NextDueTime: %D %H:%T:%S\n")); |
|
812 TheAlarmTest.Test().Printf(buf); |
|
813 |
|
814 TheAlarmTest((alarm.OriginalExpiryTime() + TTimeIntervalMinutes(2)) == alarm.NextDueTime(), __LINE__); |
|
815 |
|
816 |
|
817 FOREVER |
|
818 { |
|
819 TheAlarmServerSession.NotifyChange(status, alarmId); |
|
820 User::WaitForRequest(status); |
|
821 |
|
822 if (status.Int() == EAlarmChangeEventSoundStopped) |
|
823 { |
|
824 TheAlarmTest(id == alarmId, __LINE__); |
|
825 break; |
|
826 } |
|
827 } |
|
828 |
|
829 |
|
830 // check the state is the correct one |
|
831 |
|
832 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
833 |
|
834 alarm.OriginalExpiryTime().FormatL(buf, _L("OriginalExpiryTime: %D %H:%T:%S\n")); |
|
835 TheAlarmTest.Test().Printf(buf); |
|
836 alarm.NextDueTime().FormatL(buf, _L("NextDueTime: %D %H:%T:%S\n")); |
|
837 TheAlarmTest.Test().Printf(buf); |
|
838 |
|
839 TheAlarmTest(alarm.State() == EAlarmStateSnoozed, __LINE__); |
|
840 TheAlarmTest((alarm.OriginalExpiryTime() + TTimeIntervalMinutes(2)) == alarm.NextDueTime(), __LINE__); |
|
841 |
|
842 //wait for the alarm to expire |
|
843 FOREVER |
|
844 { |
|
845 TheAlarmServerSession.NotifyChange(status, alarmId); |
|
846 User::WaitForRequest(status); |
|
847 |
|
848 if (status.Int() == EAlarmChangeEventTimerExpired) |
|
849 { |
|
850 TheAlarmTest(id == alarmId, __LINE__); |
|
851 break; |
|
852 } |
|
853 } |
|
854 |
|
855 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
856 |
|
857 alarm.OriginalExpiryTime().FormatL(buf, _L("OriginalExpiryTime: %D %H:%T:%S\n")); |
|
858 TheAlarmTest.Test().Printf(buf); |
|
859 alarm.NextDueTime().FormatL(buf, _L("NextDueTime: %D %H:%T:%S\n")); |
|
860 TheAlarmTest.Test().Printf(buf); |
|
861 |
|
862 TheAlarmTest(alarm.State() == EAlarmStateNotifying, __LINE__); |
|
863 TheAlarmTest((alarm.OriginalExpiryTime() + TTimeIntervalMinutes(2)) == alarm.NextDueTime(), __LINE__); |
|
864 } |
|
865 #endif |
|
866 |
|
867 //************************************************************************************* |
|
868 // |
|
869 // Using the RepeatDefinition passed in aRepeatDef, |
|
870 // |
|
871 // Create an alarm |
|
872 // Use NextDueTime() to set the expiry time |
|
873 // Add alarm to server |
|
874 // Wait for alarm to expire |
|
875 // Snooze alarm using __DbgSnoozeAlarm() API |
|
876 // Retrieve alarm details from server |
|
877 // Test that the alarm snooze time was set correctly |
|
878 // Delete the alarm |
|
879 // |
|
880 // Repeat this using SetUtcNextDueTime() to set the original |
|
881 // expiry time |
|
882 // |
|
883 // NOTE: __DbgSnoozeAlarm expects time to be passed as UTC, |
|
884 // depending how NextDueTime() was set, the time may have to be |
|
885 // adjusted by removing the UTC offset |
|
886 // |
|
887 // Instigated by DEF083031 |
|
888 // |
|
889 //************************************************************************************* |
|
890 #if defined(_DEBUG) && defined(__WINS__) |
|
891 |
|
892 static void DbgSnoozeAlarmSetsTimeCorrectlyL(TAlarmRepeatDefinition aRepeatDef) |
|
893 { |
|
894 |
|
895 |
|
896 TheAlarmTest.Next(_L("Checking DbgSnoozeTime with NextDueTime")); |
|
897 TASShdAlarm alarm; |
|
898 alarm.RepeatDefinition() = aRepeatDef; |
|
899 TTime now; |
|
900 now.HomeTime(); //using local time representation |
|
901 |
|
902 // eliminate secs and usecs -- simplifies TTime comparison |
|
903 now.RoundUpToNextMinute(); |
|
904 |
|
905 alarm.NextDueTime() = now; |
|
906 |
|
907 // set alarm time one minute in future |
|
908 alarm.NextDueTime()+= TTimeIntervalMinutes(1); |
|
909 |
|
910 // server adds alarm |
|
911 AlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone); |
|
912 |
|
913 // wait for alarm to expire |
|
914 TAlarmId checkID; |
|
915 TRequestStatus status; |
|
916 |
|
917 FOREVER |
|
918 { |
|
919 TheAlarmServerSession.NotifyChange(status, checkID); |
|
920 User::WaitForRequest(status); |
|
921 if (status.Int() == EAlarmChangeEventTimerExpired) |
|
922 { |
|
923 AlarmTest(alarm.Id() == checkID); |
|
924 break; |
|
925 } |
|
926 } |
|
927 |
|
928 TTime snoozeTime = alarm.NextDueTime(); |
|
929 |
|
930 // set snooze for two minutes in future |
|
931 snoozeTime+= TTimeIntervalMinutes(2); |
|
932 |
|
933 // *** important bit *** |
|
934 //===================================================== |
|
935 // snooze alarm |
|
936 // |
|
937 // NOTE: time passed to __DbgSnoozeAlarm must be UTC |
|
938 // must 'undo' the offset within local time first |
|
939 //===================================================== |
|
940 AlarmTest(TheAlarmServerSession.__DbgSnoozeAlarm(alarm.Id(), snoozeTime - User::UTCOffset()) == KErrNone); |
|
941 |
|
942 // server's view of alarm retrieved |
|
943 AlarmTest(TheAlarmServerSession.GetAlarmDetails(alarm.Id(), alarm) == KErrNone); |
|
944 |
|
945 // check the time for the alarm |
|
946 AlarmTest(alarm.NextDueTime() == snoozeTime); |
|
947 |
|
948 // cleanup |
|
949 AlarmTest(TheAlarmServerSession.AlarmDelete(alarm.Id()) == KErrNone); |
|
950 |
|
951 |
|
952 TheAlarmTest.Next(_L("Checking DbgSnoozeTime with SetUtcNextDueTime")); |
|
953 now.UniversalTime(); //using UTC time representation |
|
954 now.RoundUpToNextMinute(); |
|
955 |
|
956 alarm.SetUtcNextDueTime(now); |
|
957 |
|
958 // set alarm time one minute in future |
|
959 alarm.NextDueTime() += TTimeIntervalMinutes(1); |
|
960 |
|
961 // server adds alarm |
|
962 AlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone); |
|
963 |
|
964 // wait for alarm to expire |
|
965 FOREVER |
|
966 { |
|
967 TheAlarmServerSession.NotifyChange(status, checkID); |
|
968 User::WaitForRequest(status); |
|
969 if (status.Int() == EAlarmChangeEventTimerExpired) |
|
970 { |
|
971 AlarmTest(alarm.Id() == checkID); |
|
972 break; |
|
973 } |
|
974 } |
|
975 |
|
976 snoozeTime = alarm.NextDueTime(); |
|
977 |
|
978 // set snooze for one hour and four minutes in future |
|
979 snoozeTime+= TTimeIntervalMinutes(4); |
|
980 snoozeTime+= TTimeIntervalHours(1); |
|
981 |
|
982 // *** important bit *** |
|
983 //===================================================== |
|
984 // snooze alarm |
|
985 // |
|
986 // NOTE: time passed to __DbgSnoozeAlarm must be UTC |
|
987 //===================================================== |
|
988 AlarmTest(TheAlarmServerSession.__DbgSnoozeAlarm(alarm.Id(), snoozeTime) == KErrNone); |
|
989 |
|
990 // server's view of alarm retrieved |
|
991 AlarmTest(TheAlarmServerSession.GetAlarmDetails(alarm.Id(), alarm) == KErrNone); |
|
992 |
|
993 // check the time for the alarm |
|
994 AlarmTest(alarm.NextDueTime() == snoozeTime); |
|
995 |
|
996 // cleanup |
|
997 AlarmTest(TheAlarmServerSession.AlarmDelete(alarm.Id()) == KErrNone); |
|
998 |
|
999 }// end DbgSnoozeAlarmSetsTimeCorrectlyL |
|
1000 |
|
1001 #endif |
|
1002 |
|
1003 static void TestWorkdaysRepeatingAlarmL() |
|
1004 { |
|
1005 const TInt KGmtOffset = 3600;//London summer offset |
|
1006 _LIT(KBaselineTime, "20060416:225900.000000"); //In summer time |
|
1007 User::SetUTCTimeAndOffset(TTime(KBaselineTime), KGmtOffset); |
|
1008 |
|
1009 TestClearStoreL(); |
|
1010 |
|
1011 |
|
1012 TheAlarmTest.Next(_L("Adding repeating alarm")); |
|
1013 |
|
1014 // |
|
1015 TASShdAlarm alarm; |
|
1016 alarm.Category() = KASCliCategoryClock; |
|
1017 alarm.RepeatDefinition() = EAlarmRepeatDefintionRepeatWorkday; |
|
1018 alarm.Message() = _L("This is an alarm message"); |
|
1019 |
|
1020 TTime now1; |
|
1021 now1.UniversalTime(); |
|
1022 now1 += TTimeIntervalMinutes(2);//step over the midnight |
|
1023 alarm.SetUtcNextDueTime(now1); |
|
1024 alarm.SoundName() = _L("Hic hic"); |
|
1025 |
|
1026 // |
|
1027 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
|
1028 const TAlarmId id = alarm.Id(); |
|
1029 TheAlarmTest(id != KNullAlarmId, __LINE__); |
|
1030 |
|
1031 |
|
1032 TheAlarmTest.Next(_L("Get alarm details")); |
|
1033 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
1034 |
|
1035 |
|
1036 TheAlarmTest.Next(_L("Enabling a disabled alarm")); |
|
1037 TheAlarmTest(TheAlarmServerSession.SetAlarmStatus(id, EAlarmStatusEnabled) == KErrNone, __LINE__); |
|
1038 |
|
1039 |
|
1040 TheAlarmTest.Next(_L("Waiting for alarm to expire...")); |
|
1041 |
|
1042 TAlarmId alarmId; |
|
1043 TRequestStatus status; |
|
1044 |
|
1045 |
|
1046 FOREVER |
|
1047 { |
|
1048 TheAlarmServerSession.NotifyChange(status, alarmId); |
|
1049 User::WaitForRequest(status); |
|
1050 #ifdef __PRINTDEBUGGING__ |
|
1051 PrintEventDetails(status.Int()); |
|
1052 #endif |
|
1053 if (status.Int() == EAlarmChangeEventTimerExpired) |
|
1054 { |
|
1055 TheAlarmTest(id == alarmId, __LINE__); |
|
1056 break; |
|
1057 } |
|
1058 } |
|
1059 |
|
1060 |
|
1061 |
|
1062 TheAlarmTest.Next(_L("Alarm expired")); |
|
1063 |
|
1064 TBuf<100> buf; |
|
1065 |
|
1066 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
1067 TheAlarmTest(alarm.State() == EAlarmStateNotifying, __LINE__); |
|
1068 TTime dueTime = alarm.NextDueTime(); |
|
1069 alarm.OriginalExpiryTime().FormatL(buf, _L("OriginalExpiryTime: %D %H:%T:%S\n")); |
|
1070 TheAlarmTest.Test().Printf(buf); |
|
1071 alarm.NextDueTime().FormatL(buf, _L("NextDueTime: %D %H:%T:%S\n")); |
|
1072 TheAlarmTest.Test().Printf(buf); |
|
1073 |
|
1074 //Press 'Done' |
|
1075 TheAlarmServerSession.SetAlarmStatus(alarm.Id(), EAlarmStatusDisabled); |
|
1076 TheAlarmServerSession.SetAlarmStatus(alarm.Id(), EAlarmStatusEnabled); |
|
1077 |
|
1078 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
1079 TTime newDueTime = alarm.NextDueTime(); |
|
1080 |
|
1081 TheAlarmTest(newDueTime > dueTime);//the alarm was rescheduled |
|
1082 |
|
1083 } |
|
1084 |
|
1085 /** |
|
1086 Create an alarm that repeats on given days of the week. |
|
1087 Change the days on which a repeating alarm expires. |
|
1088 |
|
1089 @SYMTestCaseID PIM-APPSRV-ALARMSERVER-WEEKLYGIVENDAYS-0001 |
|
1090 |
|
1091 @SYMTestCaseDesc To verify that is possible to create an |
|
1092 alarm that repeats on the same days every week. |
|
1093 |
|
1094 To verify that is possible to change the days |
|
1095 on which an alarm that repeats on the same |
|
1096 days every week will expire after it has been |
|
1097 created. |
|
1098 |
|
1099 @SYMTestActions |
|
1100 For PIM-APPSRV-ALARMSERVER-WEEKLYGIVENDAYS-0001: |
|
1101 1. Create an alarm that repeats on Tuesday and Wednesday every week. [1] |
|
1102 |
|
1103 For PIM-APPSRV-ALARMSERVER-WEEKLYGIVENDAYS-0002: |
|
1104 1. Create an alarm that repeats on Tuesday and Wednesday every week. |
|
1105 2. Update the days on which it expires to Friday. [2] |
|
1106 |
|
1107 @SYMTestExpectedResults [1] The alarm is created and expires on the |
|
1108 given days each week. |
|
1109 |
|
1110 [2] The alarm is updated and expires on the |
|
1111 expected days each week. |
|
1112 |
|
1113 @SYMTestType CT |
|
1114 @SYMTestPriority 1 |
|
1115 */ |
|
1116 void TestDailyOnGivenDaysAlarmExpiryL(void) |
|
1117 { |
|
1118 #ifdef SYMBIAN_ALARM_REPEAT_EXTENSIONS |
|
1119 #if defined(_DEBUG) && defined(__WINS__) |
|
1120 TheAlarmTest.Next(_L("@SYMTestCaseID PIM-APPSRV-ALARMSERVER-WEEKLYGIVENDAYS-0001 Test 'Daily On Given Days' Alarm Expiry")); |
|
1121 |
|
1122 RANTestClient conAlarmAlertSrvSession; |
|
1123 User::LeaveIfError(conAlarmAlertSrvSession.Connect()); |
|
1124 User::LeaveIfError(conAlarmAlertSrvSession.SetExtendedMode()); |
|
1125 CleanupClosePushL(conAlarmAlertSrvSession); |
|
1126 |
|
1127 // Set baseline time. This date/time falls on a Tuesday. |
|
1128 _LIT(KBaselineTime, "20080000:120055"); |
|
1129 TheAlarmTest(User::SetUTCTimeAndOffset(TTime(KBaselineTime), 0) == KErrNone, __LINE__); |
|
1130 |
|
1131 TTime now; |
|
1132 now.HomeTime(); |
|
1133 PrintTimeL(now, _L("Current date/time is: ")); |
|
1134 |
|
1135 // Create a 'daily on given days' alarm that is active on Tuesday and |
|
1136 // Wednesday of each week and that expires at 12:01pm (5 seconds from |
|
1137 // baseline time). |
|
1138 TASShdAlarm alarm; |
|
1139 alarm.RepeatDefinition() = EAlarmRepeatDefinitionRepeatDailyOnGivenDays; |
|
1140 alarm.SetAlarmDays(EAlarmDayTuesday | EAlarmDayWednesday); |
|
1141 alarm.NextDueTime() = TTime(KBaselineTime) + TTimeIntervalSeconds(5); |
|
1142 |
|
1143 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
|
1144 const TAlarmId id = alarm.Id(); |
|
1145 TheAlarmTest(id != KNullAlarmId, __LINE__); |
|
1146 |
|
1147 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
1148 PrintTimeL(alarm.NextDueTime(), _L("Alarm's next due date/time is: ")); |
|
1149 |
|
1150 TheAlarmTest.Next(_L("Waiting for Tuesday alarm to expire...")); |
|
1151 TRequestStatus status; |
|
1152 conAlarmAlertSrvSession.NotifyOnAlarm(alarm, status); |
|
1153 User::WaitForRequest(status); |
|
1154 now.HomeTime(); |
|
1155 PrintTimeL(now, _L("Date/time of alarm expiry: ")); |
|
1156 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
1157 TheAlarmTest(alarm.NextDueTime().DayNoInWeek() == ETuesday); |
|
1158 conAlarmAlertSrvSession.AcknowledgeAlarm(id); |
|
1159 |
|
1160 // Advance baseline time by 1 day to Wednesday. |
|
1161 TheAlarmTest(User::SetUTCTimeAndOffset(TTime(KBaselineTime) + |
|
1162 TTimeIntervalDays(1), 0) == KErrNone, __LINE__); |
|
1163 now.HomeTime(); |
|
1164 PrintTimeL(now, _L("Current date/time is: ")); |
|
1165 |
|
1166 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, |
|
1167 __LINE__); |
|
1168 PrintTimeL(alarm.NextDueTime(), _L("Alarm's next due date/time is: ")); |
|
1169 |
|
1170 TheAlarmTest.Next(_L("Waiting for Wednesday alarm to expire...")); |
|
1171 conAlarmAlertSrvSession.NotifyOnAlarm(alarm, status); |
|
1172 User::WaitForRequest(status); |
|
1173 now.HomeTime(); |
|
1174 PrintTimeL(now, _L("Date/time of alarm expiry: ")); |
|
1175 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, |
|
1176 __LINE__); |
|
1177 TheAlarmTest(alarm.NextDueTime().DayNoInWeek() == EWednesday); |
|
1178 conAlarmAlertSrvSession.AcknowledgeAlarm(id); |
|
1179 |
|
1180 // Advance baseline time by 7 days to the following Tuesday to check that |
|
1181 // subsequent repeat of the first active alarm day works. |
|
1182 TheAlarmTest(User::SetUTCTimeAndOffset(TTime(KBaselineTime) + |
|
1183 TTimeIntervalDays(7), 0) == KErrNone, __LINE__); |
|
1184 now.HomeTime(); |
|
1185 PrintTimeL(now, _L("Current date/time is: ")); |
|
1186 |
|
1187 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, |
|
1188 __LINE__); |
|
1189 PrintTimeL(alarm.NextDueTime(), _L("Alarm's next due date/time is: ")); |
|
1190 |
|
1191 TheAlarmTest.Next(_L("Waiting for following Tuesday alarm to expire...")); |
|
1192 conAlarmAlertSrvSession.NotifyOnAlarm(alarm, status); |
|
1193 User::WaitForRequest(status); |
|
1194 now.HomeTime(); |
|
1195 PrintTimeL(now, _L("Date/time of alarm expiry: ")); |
|
1196 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, |
|
1197 __LINE__); |
|
1198 TheAlarmTest(alarm.NextDueTime().DayNoInWeek() == ETuesday); |
|
1199 conAlarmAlertSrvSession.AcknowledgeAlarm(id); |
|
1200 |
|
1201 // Update alarm's active days to Friday only and check that the next day |
|
1202 // that the alarm expires on is Friday not Wednesday. |
|
1203 TheAlarmTest(TheAlarmServerSession.SetAlarmDays(id, EAlarmDayFriday) == |
|
1204 KErrNone, __LINE__); |
|
1205 |
|
1206 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, |
|
1207 __LINE__); |
|
1208 PrintTimeL(alarm.NextDueTime(), _L("Alarm's next due date/time is: ")); |
|
1209 |
|
1210 // Advance baseline time by 10 days to the following Friday to check that |
|
1211 // the previous active day of Wednesday does not cause an alarm to expire |
|
1212 // on that day and the expiry happens on Friday. |
|
1213 TheAlarmTest(User::SetUTCTimeAndOffset(TTime(KBaselineTime) + |
|
1214 TTimeIntervalDays(10), 0) == KErrNone, __LINE__); |
|
1215 now.HomeTime(); |
|
1216 PrintTimeL(now, _L("Current date/time is: ")); |
|
1217 |
|
1218 TheAlarmTest.Next(_L(" @SYMTestCaseID Waiting for Friday's alarm to expire...")); |
|
1219 conAlarmAlertSrvSession.NotifyOnAlarm(alarm, status); |
|
1220 User::WaitForRequest(status); |
|
1221 now.HomeTime(); |
|
1222 PrintTimeL(now, _L("Date/time of alarm expiry: ")); |
|
1223 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, |
|
1224 __LINE__); |
|
1225 TheAlarmTest(alarm.NextDueTime().DayNoInWeek() == EFriday); |
|
1226 conAlarmAlertSrvSession.AcknowledgeAlarm(id); |
|
1227 |
|
1228 conAlarmAlertSrvSession.UnsetExtendedMode(); |
|
1229 CleanupStack::PopAndDestroy(); |
|
1230 #else |
|
1231 TheAlarmTest.Test().Printf(_L("THIS TEST IS A DEBUG, WINS TEST ONLY\r\n")); |
|
1232 #endif |
|
1233 #endif |
|
1234 } |
|
1235 |
|
1236 /** Create an alarm that plays continuously. |
|
1237 @SYMTestCaseID PIM-APPSRV-ALARMSERVER-CONTINUOUS-0001 |
|
1238 @SYMTestCaseDesc To verify that it is possible to |
|
1239 create an alarm that plays continuously. |
|
1240 |
|
1241 @SYMTestActions |
|
1242 1. Create an alarm that plays continuously. |
|
1243 |
|
1244 @SYMTestExpectedResults The alarm plays continuously when it expires. |
|
1245 |
|
1246 @SYMTestType CT |
|
1247 @SYMTestPriority 1 |
|
1248 */ |
|
1249 static void TestCreateAndSnoozeContinuousAlarmL() |
|
1250 { |
|
1251 #ifdef SYMBIAN_ALARM_REPEAT_EXTENSIONS |
|
1252 #if defined(_DEBUG) && defined(__WINS__) |
|
1253 TheAlarmTest.Next(_L(" @SYMTestCaseID PIM-APPSRV-ALARMSERVER-CONTINUOUS-0001 Test creating and snoozing continuous alarms \r\n")); |
|
1254 TestClearStoreL(); |
|
1255 |
|
1256 TASShdAlarm alarm; |
|
1257 alarm.NextDueTime().HomeTime(); |
|
1258 alarm.NextDueTime() += TTimeIntervalMinutes(1); |
|
1259 alarm.SetContinuous(ETrue); |
|
1260 // Add an alarm due in a minute |
|
1261 TheAlarmTest.Test().Printf(_L("Add an alarm to go off in one minute \r\n")); |
|
1262 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
|
1263 const TAlarmId id = alarm.Id(); |
|
1264 TheAlarmTest(id != KNullAlarmId, __LINE__); |
|
1265 TheAlarmTest.Test().Printf(_L("Check if the alarm is continuous \r\n")); |
|
1266 TBool isContinuous = alarm.Continuous(); |
|
1267 TheAlarmTest(isContinuous, __LINE__); |
|
1268 |
|
1269 // For an existing alarm, verify that continuous state can be obtained and |
|
1270 // set. |
|
1271 TheAlarmTest(TheAlarmServerSession.GetContinuous(id, isContinuous) == |
|
1272 KErrNone, __LINE__); |
|
1273 TheAlarmTest(isContinuous, __LINE__); |
|
1274 TheAlarmTest(TheAlarmServerSession.SetContinuous(id, EFalse) == KErrNone, |
|
1275 __LINE__); |
|
1276 TheAlarmTest(TheAlarmServerSession.GetContinuous(id, isContinuous) == |
|
1277 KErrNone, __LINE__); |
|
1278 TheAlarmTest(!isContinuous, __LINE__); |
|
1279 TheAlarmTest(TheAlarmServerSession.SetContinuous(id, ETrue) == KErrNone, |
|
1280 __LINE__); |
|
1281 |
|
1282 TTime snoozeTime; |
|
1283 snoozeTime.HomeTime(); |
|
1284 snoozeTime += TTimeIntervalMinutes(1); |
|
1285 TheAlarmTest.Test().Printf(_L("Snooze the alarm for a minute and get the alarm details \r\n")); |
|
1286 TheAlarmTest(TheAlarmServerSession.__DbgSnoozeAlarm(id, snoozeTime) == KErrNone); |
|
1287 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
1288 TheAlarmTest(alarm.State() == EAlarmStateSnoozed, __LINE__); |
|
1289 |
|
1290 TheAlarmTest.Test().Printf(_L("Delete the alarm from server's list \r\n")); |
|
1291 TheAlarmTest(TheAlarmServerSession.AlarmDelete(id) == KErrNone, __LINE__); |
|
1292 #else |
|
1293 TheAlarmTest.Test().Printf(_L("THIS TEST IS A DEBUG, WINS TEST ONLY\r\n")); |
|
1294 #endif |
|
1295 #endif |
|
1296 } |
|
1297 |
|
1298 /** Alarm that expires when a continuous alarm is played. |
|
1299 @SYMTestCaseID PIM-APPSRV-ALARMSERVER-CONTINUOUS-0002 |
|
1300 @SYMTestCaseDesc To verify that the alarm that expires |
|
1301 when the continuous alarm is playing |
|
1302 will be played when the continuous |
|
1303 alarm is stopped. |
|
1304 |
|
1305 @SYMTestActions |
|
1306 1. Create an alarm that plays continuously. |
|
1307 2. Create an alarm that expires 1 minute after the continuous alarm |
|
1308 |
|
1309 @SYMTestExpectedResults The second alarm will play after the continuous |
|
1310 alarm is stopped. |
|
1311 |
|
1312 @SYMTestType CT |
|
1313 @SYMTestPriority 1 |
|
1314 */ |
|
1315 |
|
1316 static void TestTwoAlarmsExpirySequenceL() |
|
1317 { |
|
1318 #ifdef SYMBIAN_ALARM_REPEAT_EXTENSIONS |
|
1319 #if defined(_DEBUG) && defined(__WINS__) |
|
1320 TheAlarmTest.Next(_L(" @SYMTestCaseID PIM-APPSRV-ALARMSERVER-CONTINUOUS-0002 Test expiry of two alarms, one being continuous")); |
|
1321 TestClearStoreL(); |
|
1322 |
|
1323 RANTestClient consoleAlarmAlertSrvSession; |
|
1324 User::LeaveIfError(consoleAlarmAlertSrvSession.Connect()); |
|
1325 User::LeaveIfError(consoleAlarmAlertSrvSession.SetExtendedMode()); |
|
1326 CleanupClosePushL(consoleAlarmAlertSrvSession); |
|
1327 |
|
1328 TASShdAlarm alarmContinuous; |
|
1329 alarmContinuous.NextDueTime().HomeTime(); |
|
1330 alarmContinuous.NextDueTime() += TTimeIntervalSeconds(30); |
|
1331 alarmContinuous.SetContinuous(ETrue); |
|
1332 |
|
1333 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarmContinuous) == KErrNone, __LINE__); |
|
1334 TAlarmId idContinuous = alarmContinuous.Id(); |
|
1335 TheAlarmTest(idContinuous != KNullAlarmId, __LINE__); |
|
1336 |
|
1337 TASShdAlarm alarm; |
|
1338 alarm.NextDueTime().HomeTime(); |
|
1339 alarm.NextDueTime() += TTimeIntervalSeconds(30); |
|
1340 TheAlarmTest(TheAlarmServerSession.AlarmAdd(alarm) == KErrNone, __LINE__); |
|
1341 TAlarmId id = alarm.Id(); |
|
1342 TheAlarmTest(id != KNullAlarmId, __LINE__); |
|
1343 |
|
1344 TheAlarmTest(alarmContinuous.State() == EAlarmStateQueued); |
|
1345 TheAlarmTest(alarm.State() == EAlarmStateQueued); |
|
1346 |
|
1347 TheAlarmTest.Test().Printf(_L("Wait for the first alarm to expire \r\n")); |
|
1348 TRequestStatus status; |
|
1349 consoleAlarmAlertSrvSession.NotifyOnAlarm(alarm, status); |
|
1350 User::WaitForRequest(status); |
|
1351 |
|
1352 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(idContinuous, alarmContinuous) == KErrNone, __LINE__); |
|
1353 TheAlarmTest(alarmContinuous.State() == EAlarmStateNotifying); |
|
1354 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
1355 TheAlarmTest(alarm.State() == EAlarmStateWaitingToNotify); |
|
1356 |
|
1357 TheAlarmTest.Test().Printf(_L("Acknowledge the first alarm \r\n")); |
|
1358 consoleAlarmAlertSrvSession.AcknowledgeAlarm(idContinuous); |
|
1359 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(idContinuous, alarmContinuous) == KErrNone, __LINE__); |
|
1360 TheAlarmTest(alarmContinuous.State() == EAlarmStateNotified); |
|
1361 TheAlarmTest.Test().Printf(_L("The second alarm should immediately expire, check the alarm details \r\n")); |
|
1362 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
1363 TheAlarmTest(alarm.State() == EAlarmStateNotifying); |
|
1364 |
|
1365 consoleAlarmAlertSrvSession.AcknowledgeAlarm(id); |
|
1366 TheAlarmTest(TheAlarmServerSession.GetAlarmDetails(id, alarm) == KErrNone, __LINE__); |
|
1367 TheAlarmTest(alarm.State() == EAlarmStateNotified); |
|
1368 |
|
1369 consoleAlarmAlertSrvSession.UnsetExtendedMode(); |
|
1370 CleanupStack::PopAndDestroy(); |
|
1371 TestClearStoreL(); |
|
1372 #else |
|
1373 TheAlarmTest.Test().Printf(_L("THIS TEST IS A DEBUG, WINS TEST ONLY\r\n")); |
|
1374 #endif |
|
1375 #endif |
|
1376 } |
|
1377 |
|
1378 |
|
1379 static void TestDoNotNotifyAlarmAlertServerL() |
|
1380 { |
|
1381 TheAlarmTest.Test().Next(_L("Test that EAlarmCharacteristicsDoNotNotifyAlarmAlertServer do not panic the alarm server when they expire")); |
|
1382 |
|
1383 TheAlarmTest.Test().Printf(_L("Set the system time to 1 second before the alarm time")); |
|
1384 TTime alarmTime(TTime(TDateTime(2008, EApril, 1, 12, 0, 0, 0))); |
|
1385 User::SetHomeTime(alarmTime - TTimeIntervalSeconds(1)); |
|
1386 |
|
1387 TheAlarmTest.Test().Printf(_L("Add an alarm with EAlarmCharacteristicsDoNotNotifyAlarmAlertServer set")); |
|
1388 TASShdAlarm alarm; |
|
1389 alarm.Message() = _L("Do not notify the alarm alert server!!!"); |
|
1390 alarm.NextDueTime() = alarmTime; |
|
1391 alarm.Characteristics().Set(EAlarmCharacteristicsDoNotNotifyAlarmAlertServer); |
|
1392 alarm.RepeatDefinition() = EAlarmRepeatDefintionRepeatOnce; |
|
1393 |
|
1394 User::LeaveIfError(TheAlarmServerSession.AlarmAdd(alarm)); |
|
1395 |
|
1396 TheAlarmTest.Test().Printf(_L("wait until the alarm sounds starts playing")); |
|
1397 FOREVER |
|
1398 { |
|
1399 TRequestStatus status; |
|
1400 TAlarmId id; |
|
1401 TheAlarmServerSession.NotifyChange(status, id); |
|
1402 User::WaitForRequest(status); |
|
1403 |
|
1404 TheAlarmTest.Test().Printf(_L("alarms event = %d\n"), status.Int()); |
|
1405 User::LeaveIfError(status.Int()); |
|
1406 |
|
1407 if (status.Int() == EAlarmChangeEventSoundPlaying) |
|
1408 { |
|
1409 // the sound is now playing which is where the panic would have happened |
|
1410 // so we can stop waiting now |
|
1411 break; |
|
1412 } |
|
1413 } |
|
1414 |
|
1415 TheAlarmTest.Test().Printf(_L("delete the alarm")); |
|
1416 |
|
1417 // delete the alarm |
|
1418 User::LeaveIfError(TheAlarmServerSession.AlarmDelete(alarm.Id())); |
|
1419 } |
|
1420 |
|
1421 //************************************************************************************* |
|
1422 |
|
1423 |
|
1424 static void RunTestsL() |
|
1425 { |
|
1426 //get the initial time |
|
1427 TTime homeTime; |
|
1428 homeTime.HomeTime(); |
|
1429 |
|
1430 CActiveScheduler* scheduler = new (ELeave) CActiveScheduler; |
|
1431 CleanupStack::PushL(scheduler); |
|
1432 CActiveScheduler::Install(scheduler); |
|
1433 |
|
1434 RPIMTestServer serv; |
|
1435 User::LeaveIfError(serv.Connect()); |
|
1436 serv.DeleteFileL(KTestIniFile); |
|
1437 |
|
1438 // Set time before starting Alarm Server |
|
1439 const TInt KGmtOffset = 3600; |
|
1440 _LIT(KBaselineTime, "20040730:050000.000000"); //In summer time |
|
1441 TInt err = User::SetUTCTimeAndOffset(TTime(KBaselineTime), KGmtOffset); |
|
1442 TheAlarmTest(err == KErrNone, __LINE__); |
|
1443 |
|
1444 #ifdef __WINS__ |
|
1445 _LIT(KConsoleAlarmAlertServerImg,"ConsoleAlarmAlertServer"); |
|
1446 TBuf<256> cmdline; |
|
1447 cmdline.Append('p'); |
|
1448 cmdline.Append('p'); |
|
1449 cmdline.Append(EKeyEscape); |
|
1450 cmdline.Append(0); |
|
1451 cmdline.Append('p'); |
|
1452 cmdline.Append('p'); |
|
1453 cmdline.Append(EKeyEscape); |
|
1454 cmdline.Append(0); |
|
1455 RProcess server; |
|
1456 server.Create(KConsoleAlarmAlertServerImg,cmdline,serverUid); |
|
1457 TRequestStatus stat; |
|
1458 server.Rendezvous(stat); |
|
1459 if (stat!=KRequestPending) |
|
1460 { |
|
1461 server.Kill(0); // abort startup |
|
1462 } |
|
1463 else |
|
1464 { |
|
1465 server.Resume(); // logon OK - start the server |
|
1466 } |
|
1467 #endif // __WINS__ |
|
1468 // Connect to the alarm server |
|
1469 TheAlarmTest.Next(_L("Creating alarm server")); |
|
1470 User::LeaveIfError(TheAlarmServerSession.Connect()); |
|
1471 |
|
1472 TestDailyOnGivenDaysAlarmExpiryL(); |
|
1473 TestCreateAndSnoozeContinuousAlarmL(); |
|
1474 TestTwoAlarmsExpirySequenceL(); |
|
1475 |
|
1476 // The real tests |
|
1477 // The following 2 tests are only for WINS and WINSCW for console interface |
|
1478 |
|
1479 CreateAlarmsForPausingL(); |
|
1480 CreateSingleAlarmL(); |
|
1481 CreateNotificationAlarmL(); |
|
1482 CreateDailyRepeatingAlarmL(); |
|
1483 |
|
1484 CreateUtcAlarmsForPausingL(); |
|
1485 CreateSingleUtcAlarmL(); |
|
1486 CreateNotificationUtcAlarmL(); |
|
1487 CreateDailyRepeatingUtcAlarmL(); |
|
1488 |
|
1489 CreateAlarmAndIgnoreL(); |
|
1490 TestWorkdaysRepeatingAlarmL(); |
|
1491 |
|
1492 #if defined(_DEBUG) && defined(__WINS__) |
|
1493 |
|
1494 CreateAlarmAndSnoozeL(EAlarmRepeatDefintionRepeatDaily); |
|
1495 CreateAlarmAndSnoozeL(EAlarmRepeatDefintionRepeatWorkday); |
|
1496 CreateAlarmAndSnoozeL(EAlarmRepeatDefintionRepeatWeekly); |
|
1497 |
|
1498 DbgSnoozeAlarmSetsTimeCorrectlyL(EAlarmRepeatDefintionRepeatOnce); |
|
1499 DbgSnoozeAlarmSetsTimeCorrectlyL(EAlarmRepeatDefintionRepeatNext24Hours); |
|
1500 DbgSnoozeAlarmSetsTimeCorrectlyL(EAlarmRepeatDefintionRepeatDaily); |
|
1501 DbgSnoozeAlarmSetsTimeCorrectlyL(EAlarmRepeatDefintionRepeatWorkday); |
|
1502 DbgSnoozeAlarmSetsTimeCorrectlyL(EAlarmRepeatDefintionRepeatWeekly); |
|
1503 |
|
1504 #endif // __WINS__ |
|
1505 |
|
1506 TestINC092682L(); |
|
1507 TestDoNotNotifyAlarmAlertServerL(); |
|
1508 |
|
1509 TestClearStoreL(); |
|
1510 |
|
1511 //Set back the time to the initial time |
|
1512 serv.SetHomeTime(homeTime); |
|
1513 serv.Close(); |
|
1514 CleanupStack::PopAndDestroy(scheduler); |
|
1515 } |
|
1516 |
|
1517 |
|
1518 |
|
1519 |
|
1520 // |
|
1521 // -----> Global Exports |
|
1522 // |
|
1523 |
|
1524 //************************************************************************************* |
|
1525 |
|
1526 /** |
|
1527 @SYMTestCaseID PIM-TBASICALARMS-0001 |
|
1528 */ |
|
1529 TInt E32Main() |
|
1530 { |
|
1531 __UHEAP_MARK; |
|
1532 // |
|
1533 TInt ret = KErrNone; |
|
1534 TheAlarmTest.Title(); |
|
1535 CTrapCleanup* cleanup = CTrapCleanup::New(); |
|
1536 if (!cleanup) |
|
1537 { |
|
1538 return KErrNoMemory; |
|
1539 } |
|
1540 // |
|
1541 TheAlarmTest.Start(_L("@SYMTestCaseID PIM-TBASICALARMS-0001")); |
|
1542 // |
|
1543 TRAPD(err, RunTestsL()); |
|
1544 TheAlarmTest(err == KErrNone, __LINE__); |
|
1545 |
|
1546 delete cleanup; |
|
1547 TRAP(ret,TheAlarmTest.EndL()); |
|
1548 TheAlarmTest.Test().Close(); |
|
1549 ASTstAlarmTest::Close(); |
|
1550 |
|
1551 __UHEAP_MARKEND; |
|
1552 return ret; |
|
1553 } |