Changes in uspace/lib/c/generic/net/modules.c [64d2b10:7880d58] in mainline
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uspace/lib/c/generic/net/modules.c (modified) (9 diffs)
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uspace/lib/c/generic/net/modules.c
r64d2b10 r7880d58 32 32 33 33 /** @file 34 * Generic module functions implementation. 34 * Generic module functions implementation. 35 35 * 36 36 * @todo MAKE IT POSSIBLE TO REMOVE THIS FILE VIA EITHER REPLACING PART OF ITS … … 43 43 #include <errno.h> 44 44 #include <sys/time.h> 45 46 #include <ipc/ipc.h> 45 47 #include <ipc/services.h> 48 46 49 #include <net/modules.h> 47 50 … … 49 52 #define MODULE_WAIT_TIME (10 * 1000) 50 53 51 /** Answer acall.52 * 53 * @param[in] callid Call identifier.54 * @param[in] result Message processing result.55 * @param[in] answer Message processing answer.56 * @param[in] count Number of answer parameters.57 * 58 */ 59 voidanswer_call(ipc_callid_t callid, int result, ipc_call_t *answer,60 size_tcount)61 { 62 / * Choose the most efficient function */63 if ( (answer != NULL) || (count == 0)) {64 switch ( count) {54 /** Answers the call. 55 * 56 * @param[in] callid The call identifier. 57 * @param[in] result The message processing result. 58 * @param[in] answer The message processing answer. 59 * @param[in] answer_count The number of answer parameters. 60 */ 61 void 62 answer_call(ipc_callid_t callid, int result, ipc_call_t *answer, 63 int answer_count) 64 { 65 // choose the most efficient answer function 66 if (answer || (!answer_count)) { 67 switch (answer_count) { 65 68 case 0: 66 async_answer_0(callid, (sysarg_t) result);69 ipc_answer_0(callid, (sysarg_t) result); 67 70 break; 68 71 case 1: 69 async_answer_1(callid, (sysarg_t) result,72 ipc_answer_1(callid, (sysarg_t) result, 70 73 IPC_GET_ARG1(*answer)); 71 74 break; 72 75 case 2: 73 async_answer_2(callid, (sysarg_t) result,76 ipc_answer_2(callid, (sysarg_t) result, 74 77 IPC_GET_ARG1(*answer), IPC_GET_ARG2(*answer)); 75 78 break; 76 79 case 3: 77 async_answer_3(callid, (sysarg_t) result,80 ipc_answer_3(callid, (sysarg_t) result, 78 81 IPC_GET_ARG1(*answer), IPC_GET_ARG2(*answer), 79 82 IPC_GET_ARG3(*answer)); 80 83 break; 81 84 case 4: 82 async_answer_4(callid, (sysarg_t) result,85 ipc_answer_4(callid, (sysarg_t) result, 83 86 IPC_GET_ARG1(*answer), IPC_GET_ARG2(*answer), 84 87 IPC_GET_ARG3(*answer), IPC_GET_ARG4(*answer)); … … 86 89 case 5: 87 90 default: 88 async_answer_5(callid, (sysarg_t) result,91 ipc_answer_5(callid, (sysarg_t) result, 89 92 IPC_GET_ARG1(*answer), IPC_GET_ARG2(*answer), 90 93 IPC_GET_ARG3(*answer), IPC_GET_ARG4(*answer), … … 134 137 sysarg_t arg3, async_client_conn_t client_receiver, suseconds_t timeout) 135 138 { 139 int rc; 140 136 141 /* Connect to the needed service */ 137 142 int phone = connect_to_service_timeout(need, timeout); 138 143 if (phone >= 0) { 139 144 /* Request the bidirectional connection */ 140 int rc = async_connect_to_me(phone, arg1, arg2, arg3, client_receiver); 145 sysarg_t phonehash; 146 147 rc = ipc_connect_to_me(phone, arg1, arg2, arg3, &phonehash); 141 148 if (rc != EOK) { 142 async_hangup(phone);149 ipc_hangup(phone); 143 150 return rc; 144 151 } 152 async_new_connection(phonehash, 0, NULL, client_receiver); 145 153 } 146 154 … … 170 178 int phone; 171 179 172 / * If no timeout is set */180 // if no timeout is set 173 181 if (timeout <= 0) 174 182 return async_connect_me_to_blocking(PHONE_NS, need, 0, 0); … … 179 187 return phone; 180 188 181 / * Abort if no time is left */189 // end if no time is left 182 190 if (timeout <= 0) 183 191 return ETIMEOUT; 184 192 185 / * Wait the minimum of the module wait time and the timeout */193 // wait the minimum of the module wait time and the timeout 186 194 usleep((timeout <= MODULE_WAIT_TIME) ? 187 195 timeout : MODULE_WAIT_TIME); … … 206 214 ipc_callid_t callid; 207 215 208 / * Fetch the request */216 // fetch the request 209 217 if (!async_data_read_receive(&callid, &length)) 210 218 return EINVAL; 211 219 212 / * Check the requested data size */220 // check the requested data size 213 221 if (length < data_length) { 214 222 async_data_read_finalize(callid, data, length); … … 216 224 } 217 225 218 / * Send the data */226 // send the data 219 227 return async_data_read_finalize(callid, data, data_length); 220 228 } 221 229 222 /** Refresh answer structure and argument count. 223 * 224 * Erase all arguments. 225 * 226 * @param[in,out] answer Message processing answer structure. 227 * @param[in,out] count Number of answer arguments. 228 * 229 */ 230 void refresh_answer(ipc_call_t *answer, size_t *count) 231 { 232 if (count != NULL) 233 *count = 0; 234 235 if (answer != NULL) { 230 /** Refreshes answer structure and parameters count. 231 * 232 * Erases all attributes. 233 * 234 * @param[in,out] answer The message processing answer structure. 235 * @param[in,out] answer_count The number of answer parameters. 236 */ 237 void refresh_answer(ipc_call_t *answer, int *answer_count) 238 { 239 if (answer_count) 240 *answer_count = 0; 241 242 if (answer) { 236 243 IPC_SET_RETVAL(*answer, 0); 244 // just to be precize 237 245 IPC_SET_IMETHOD(*answer, 0); 238 246 IPC_SET_ARG1(*answer, 0);
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