dmidecode/dmidecode.spec

Name:	 dmidecode
Version: 3.2
Release: 2
Epoch:   1
Summary: DMI data report tool

License: GPLv2+
URL:	 https://www.nongnu.org/dmidecode/
Source0: http://download.savannah.gnu.org/releases/dmidecode/%{name}-%{version}.tar.xz

Patch6000: bugfix-compat_uuid.patch
Patch6001: dmidecode-Fix-Redfish-Hostname-print-length.patch
Patch6002: dmidecode-Don-t-use-memcpy-on-dev-mem-on-arm64.patch
Patch6003: dmidecode-Use-the-most-appropriate-unit-for-cache-si.patch
Patch6004: dmidecode-Add-Logical-non-volatile-device-to-the-mem.patch

BuildRequires: make gcc xz

ExclusiveArch:  %{ix86} x86_64 ia64 aarch64 amd64

%description
Dmidecode reports information about your system's hardware as described
in your system BIOS according to the SMBIOS/DMI standard (see a sample
output). This information typically includes system manufacturer, model
name, serial number, BIOS version, asset tag as well as a lot of other
details of varying level of interest and reliability depending on the
manufacturer. This will often include usage status for the CPU sockets,
expansion slots (e.g. AGP, PCI, ISA) and memory module slots, and the
list of I/O ports (e.g. serial, parallel, USB).

DMI data can be used to enable or disable specific portions of kernel code
depending on the specific hardware. Thus, one use of dmidecode is for kernel
developers to detect system "signatures" and add them to the kernel source code
when needed.

%prep
%autosetup -n %{name}-%{version} -p1


%build
# biosdecode ownership vpddecode programs are only useful on x86,
# so Makefile atuo compiled target programs depend on arch.
make %{?_smp_mflags} CFLAGS="%{__global_cflags}" LDFLAGS="%{__global_ldflags}"


%install
%make_install prefix=%{_prefix}


%files
%license LICENSE
%{_sbindir}/*
%{_docdir}/%{name}/*
%{_mandir}/man8/*.8.gz

%changelog
* Wed Aug 21  2019 openEuler Buildteam <buildteam@openeuler.org> - 1:3.2-2
- Package init
Package init 2019-09-30 10:37:00 -04:00			`Name: dmidecode`
			`Version: 3.2`
			`Release: 2`
			`Epoch: 1`
			`Summary: DMI data report tool`

			`License: GPLv2+`
			`URL: https://www.nongnu.org/dmidecode/`
			`Source0: http://download.savannah.gnu.org/releases/dmidecode/%{name}-%{version}.tar.xz`

			`Patch6000: bugfix-compat_uuid.patch`
			`Patch6001: dmidecode-Fix-Redfish-Hostname-print-length.patch`
			`Patch6002: dmidecode-Don-t-use-memcpy-on-dev-mem-on-arm64.patch`
			`Patch6003: dmidecode-Use-the-most-appropriate-unit-for-cache-si.patch`
			`Patch6004: dmidecode-Add-Logical-non-volatile-device-to-the-mem.patch`

			`BuildRequires: make gcc xz`

			`ExclusiveArch: %{ix86} x86_64 ia64 aarch64 amd64`

			`%description`
			`Dmidecode reports information about your system's hardware as described`
			`in your system BIOS according to the SMBIOS/DMI standard (see a sample`
			`output). This information typically includes system manufacturer, model`
			`name, serial number, BIOS version, asset tag as well as a lot of other`
			`details of varying level of interest and reliability depending on the`
			`manufacturer. This will often include usage status for the CPU sockets,`
			`expansion slots (e.g. AGP, PCI, ISA) and memory module slots, and the`
			`list of I/O ports (e.g. serial, parallel, USB).`

			`DMI data can be used to enable or disable specific portions of kernel code`
			`depending on the specific hardware. Thus, one use of dmidecode is for kernel`
			`developers to detect system "signatures" and add them to the kernel source code`
			`when needed.`

			`%prep`
			`%autosetup -n %{name}-%{version} -p1`


			`%build`
			`# biosdecode ownership vpddecode programs are only useful on x86,`
			`# so Makefile atuo compiled target programs depend on arch.`
			`make %{?_smp_mflags} CFLAGS="%{__global_cflags}" LDFLAGS="%{__global_ldflags}"`


			`%install`
			`%make_install prefix=%{_prefix}`


			`%files`
			`%license LICENSE`
			`%{_sbindir}/*`
			`%{_docdir}/%{name}/*`
			`%{_mandir}/man8/*.8.gz`

			`%changelog`
			`* Wed Aug 21 2019 openEuler Buildteam <buildteam@openeuler.org> - 1:3.2-2`
			`- Package init`