ID:355 - Fix printf() related warnings in lib/ipmi_delloem.c

lib/ipmi_delloem.c

@@ -3061,9 +3061,9 @@ ipmi_get_power_headroom_command(struct ipmi_intf * intf,uint8_t unit)
 	if (unit == btuphr) {
 		peakpowerheadroombtuphr = watt_to_btuphr_conversion(powerheadroom.peakheadroom);
 		instantpowerhearoom = watt_to_btuphr_conversion(powerheadroom.instheadroom);
-		printf("System Instantaneous Headroom : %lld BTU/hr\n",
+		printf("System Instantaneous Headroom : %" PRId64 " BTU/hr\n",
 				instantpowerhearoom);
-		printf("System Peak Headroom          : %lld BTU/hr\n",
+		printf("System Peak Headroom          : %" PRId64 " BTU/hr\n",
 				peakpowerheadroombtuphr);
 	} else {
 		printf("System Instantaneous Headroom : %d W\n",
@@ -3452,63 +3452,63 @@ ipmi_print_power_consmpt_history(struct ipmi_intf * intf, int unit)
 	if (unit == btuphr) {
 		printf("Average Power Consumption  ");
 		tempbtuphrconv = watt_to_btuphr_conversion(avgpower.lastminutepower);
-		printf("%4lld BTU/hr     ", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr     ", tempbtuphrconv);
 		tempbtuphrconv = watt_to_btuphr_conversion(avgpower.lasthourpower);
-		printf("%4lld BTU/hr   ", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr   ", tempbtuphrconv);
 		tempbtuphrconv = watt_to_btuphr_conversion(avgpower.lastdaypower);
-		printf("%4lld BTU/hr  ", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr  ", tempbtuphrconv);
 		tempbtuphrconv = watt_to_btuphr_conversion(avgpower.lastweakpower);
-		printf("%4lld BTU/hr\n", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr\n", tempbtuphrconv);
 
 		printf("Max Power Consumption      ");
 		tempbtuphrconv = watt_to_btuphr_conversion(stPeakpower.lastminutepower);
-		printf("%4lld BTU/hr     ", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr     ", tempbtuphrconv);
 		tempbtuphrconv = watt_to_btuphr_conversion(stPeakpower.lasthourpower);
-		printf("%4lld BTU/hr   ", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr   ", tempbtuphrconv);
 		tempbtuphrconv = watt_to_btuphr_conversion(stPeakpower.lastdaypower);
-		printf("%4lld BTU/hr  ", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr  ", tempbtuphrconv);
 		tempbtuphrconv = watt_to_btuphr_conversion(stPeakpower.lastweakpower);
-		printf("%4lld BTU/hr\n", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr\n", tempbtuphrconv);
 
 		printf("Min Power Consumption      ");
 		tempbtuphrconv = watt_to_btuphr_conversion(stMinpower.lastminutepower);
-		printf("%4lld BTU/hr     ", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr     ", tempbtuphrconv);
 		tempbtuphrconv = watt_to_btuphr_conversion(stMinpower.lasthourpower);
-		printf("%4lld BTU/hr   ", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr   ", tempbtuphrconv);
 		tempbtuphrconv = watt_to_btuphr_conversion(stMinpower.lastdaypower);
-		printf("%4lld BTU/hr  ", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr  ", tempbtuphrconv);
 		tempbtuphrconv = watt_to_btuphr_conversion(stMinpower.lastweakpower);
-		printf("%4lld BTU/hr\n\n", tempbtuphrconv);
+		printf("%4" PRId64 " BTU/hr\n\n", tempbtuphrconv);
 	} else {
 		printf("Average Power Consumption  ");
 		tempbtuphrconv = (avgpower.lastminutepower);
-		printf("%4lld W          ", tempbtuphrconv);
+		printf("%4" PRId64 " W          ", tempbtuphrconv);
 		tempbtuphrconv = (avgpower.lasthourpower);
-		printf("%4lld W        ", tempbtuphrconv);
+		printf("%4" PRId64 " W        ", tempbtuphrconv);
 		tempbtuphrconv = (avgpower.lastdaypower);
-		printf("%4lld W       ", tempbtuphrconv);
+		printf("%4" PRId64 " W       ", tempbtuphrconv);
 		tempbtuphrconv=(avgpower.lastweakpower);
-		printf("%4lld W   \n", tempbtuphrconv);
+		printf("%4" PRId64 " W   \n", tempbtuphrconv);
 
 		printf("Max Power Consumption      ");
 		tempbtuphrconv = (stPeakpower.lastminutepower);
-		printf("%4lld W          ", tempbtuphrconv);
+		printf("%4" PRId64 " W          ", tempbtuphrconv);
 		tempbtuphrconv = (stPeakpower.lasthourpower);
-		printf("%4lld W        ", tempbtuphrconv);
+		printf("%4" PRId64 " W        ", tempbtuphrconv);
 		tempbtuphrconv = (stPeakpower.lastdaypower);
-		printf("%4lld W       ", tempbtuphrconv);
+		printf("%4" PRId64 " W       ", tempbtuphrconv);
 		tempbtuphrconv = (stPeakpower.lastweakpower);
-		printf("%4lld W   \n", tempbtuphrconv);
+		printf("%4" PRId64 " W   \n", tempbtuphrconv);
 
 		printf("Min Power Consumption      ");
 		tempbtuphrconv = (stMinpower.lastminutepower);
-		printf("%4lld W          ", tempbtuphrconv);
+		printf("%4" PRId64 " W          ", tempbtuphrconv);
 		tempbtuphrconv = (stMinpower.lasthourpower);
-		printf("%4lld W        ", tempbtuphrconv);
+		printf("%4" PRId64 " W        ", tempbtuphrconv);
 		tempbtuphrconv = (stMinpower.lastdaypower);
-		printf("%4lld W       ", tempbtuphrconv);
+		printf("%4" PRId64 " W       ", tempbtuphrconv);
 		tempbtuphrconv = (stMinpower.lastweakpower);
-		printf("%4lld W   \n\n", tempbtuphrconv);
+		printf("%4" PRId64 " W   \n\n", tempbtuphrconv);
 	}
 
 	lastminutepeakpower = stPeakpower.lastminutepowertime;
@@ -3612,11 +3612,11 @@ ipmi_print_power_cap(struct ipmi_intf * intf,uint8_t unit)
 	if (rc == 0) {
 		if (unit == btuphr) {
 			tempbtuphrconv = watt_to_btuphr_conversion(ipmipowercap.MaximumPowerConsmp);
-			printf("Maximum power: %lld  BTU/hr\n", tempbtuphrconv);
+			printf("Maximum power: %" PRId64 "  BTU/hr\n", tempbtuphrconv);
 			tempbtuphrconv = watt_to_btuphr_conversion(ipmipowercap.MinimumPowerConsmp);
-			printf("Minimum power: %lld  BTU/hr\n", tempbtuphrconv);
+			printf("Minimum power: %" PRId64 "  BTU/hr\n", tempbtuphrconv);
 			tempbtuphrconv = watt_to_btuphr_conversion(ipmipowercap.PowerCap);
-			printf("Power cap    : %lld  BTU/hr\n", tempbtuphrconv);
+			printf("Power cap    : %" PRId64 "  BTU/hr\n", tempbtuphrconv);
 		} else {
 			printf("Maximum power: %d Watt\n", ipmipowercap.MaximumPowerConsmp);
 			printf("Minimum power: %d Watt\n", ipmipowercap.MinimumPowerConsmp);