From f62a16f7f2883ad0dc94fa70c5fcdd9712b943c0 Mon Sep 17 00:00:00 2001 From: Zdenek Styblik Date: Mon, 30 May 2016 06:38:09 +0200 Subject: [PATCH] ID:355 - Fix printf() related warnings in lib/ipmi_delloem.c --- lib/ipmi_delloem.c | 58 +++++++++++++++++++++++----------------------- 1 file changed, 29 insertions(+), 29 deletions(-) diff --git a/lib/ipmi_delloem.c b/lib/ipmi_delloem.c index 9bb0885..b253e3e 100644 --- a/lib/ipmi_delloem.c +++ b/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);