qemu/hw/ppc/Makefile.objs

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# shared objects
obj-y += ppc.o ppc_booke.o fdt.o
# IBM pSeries (sPAPR)
obj-$(CONFIG_PSERIES) += spapr.o spapr_vio.o spapr_events.o
obj-$(CONFIG_PSERIES) += spapr_hcall.o spapr_iommu.o spapr_rtas.o
obj-$(CONFIG_PSERIES) += spapr_pci.o spapr_rtc.o spapr_drc.o spapr_rng.o
spapr_ovec: initial implementation of option vector helpers PAPR guests advertise their capabilities to the platform by passing an ibm,architecture-vec structure via an ibm,client-architecture-support hcall as described by LoPAPR v11, B.6.2.3. during early boot. Using this information, the platform enables the capabilities it supports, then encodes a subset of those enabled capabilities (the 5th option vector of the ibm,architecture-vec structure passed to ibm,client-architecture-support) into the guest device tree via "/chosen/ibm,architecture-vec-5". The logical format of these these option vectors is a bit-vector, where individual bits are addressed/documented based on the byte-wise offset from the beginning of the bit-vector, followed by the bit-wise index starting from the byte-wise offset. Thus the bits of each of these bytes are stored in reverse order. Additionally, the first byte of each option vector is encodes the length of the option vector, so byte offsets begin at 1, and bit offset at 0. This is not very intuitive for the purposes of mapping these bits to a particular documented capability, so this patch introduces a set of abstractions that encapsulate the work of parsing/encoding these options vectors and testing for individual capabilities. Cc: Bharata B Rao <bharata@linux.vnet.ibm.com> Signed-off-by: Michael Roth <mdroth@linux.vnet.ibm.com> [dwg: Tweaked double-include protection to not trigger a checkpatch false positive] Signed-off-by: David Gibson <david@gibson.dropbear.id.au>
2016-10-25 07:47:27 +03:00
obj-$(CONFIG_PSERIES) += spapr_cpu_core.o spapr_ovec.o
ppc/pnv: add skeleton PowerNV platform The goal is to emulate a PowerNV system at the level of the skiboot firmware, which loads the OS and provides some runtime services. Power Systems have a lower firmware (HostBoot) that does low level system initialization, like DRAM training. This is beyond the scope of what qemu will address in a PowerNV guest. No devices yet, not even an interrupt controller. Just to get started, some RAM to load the skiboot firmware, the kernel and initrd. The device tree is fully created in the machine reset op. Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> [clg: - updated for qemu-2.7 - replaced fprintf by error_report - used a common definition of _FDT macro - removed VMStateDescription as migration is not yet supported - added IBM Copyright statements - reworked kernel_filename handling - merged PnvSystem and sPowerNVMachineState - removed PHANDLE_XICP - added ppc_create_page_sizes_prop helper - removed nmi support - removed kvm support - updated powernv machine to version 2.8 - removed chips and cpus, They will be provided in another patches - added a machine reset routine to initialize the device tree (also) - french has a squelette and english a skeleton. - improved commit log. - reworked prototypes parameters - added a check on the ram size (thanks to Michael Ellerman) - fixed chip-id cell - changed MAX_CPUS to 2048 - simplified memory node creation to one node only - removed machine version - rewrote the device tree creation with the fdt "rw" routines - s/sPowerNVMachineState/PnvMachineState/ - etc.] Signed-off-by: Cédric Le Goater <clg@kaod.org> Reviewed-by: David Gibson <david@gibson.dropbear.id.au> Signed-off-by: David Gibson <david@gibson.dropbear.id.au>
2016-10-22 12:46:35 +03:00
# IBM PowerNV
ppc/pnv: add a LPC controller The LPC (Low Pin Count) interface on a POWER8 is made accessible to the system through the ADU (XSCOM interface). This interface is part of set of units connected together via a local OPB (On-Chip Peripheral Bus) which act as a bridge between the ADU and the off chip LPC endpoints, like external flash modules. The most important units of this OPB are : - OPB Master: contains the ADU slave logic, a set of internal registers and the logic to control the OPB. - LPCHC (LPC HOST Controller): which implements a OPB Slave, a set of internal registers and the LPC HOST Controller to control the LPC interface. Four address spaces are provided to the ADU : - LPC Bus Firmware Memory - LPC Bus Memory - LPC Bus I/O (ISA bus) - and the registers for the OPB Master and the LPC Host Controller On POWER8, an intermediate hop is necessary to reach the OPB, through a unit called the ECCB. OPB commands are simply mangled in ECCB write commands. On POWER9, the OPB master address space can be accessed via MMIO. The logic is same but the code will be simpler as the XSCOM and ECCB hops are not necessary anymore. This version of the LPC controller model doesn't yet implement support for the SerIRQ deserializer present in the Naples version of the chip though some preliminary work is there. Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> [clg: - updated for qemu-2.7 - ported on latest PowerNV patchset - changed the XSCOM interface to fit new model - QOMified the model - moved the ISA hunks in another patch - removed printf logging - added a couple of UNIMP logging - rewrote commit log ] Signed-off-by: Cédric Le Goater <clg@kaod.org> Reviewed-by: David Gibson <david@gibson.dropbear.id.au> Signed-off-by: David Gibson <david@gibson.dropbear.id.au>
2016-10-22 12:46:42 +03:00
obj-$(CONFIG_POWERNV) += pnv.o pnv_xscom.o pnv_core.o pnv_lpc.o
ifeq ($(CONFIG_PCI)$(CONFIG_PSERIES)$(CONFIG_LINUX), yyy)
obj-y += spapr_pci_vfio.o
endif
spapr_pci/spapr_pci_vfio: Support Dynamic DMA Windows (DDW) This adds support for Dynamic DMA Windows (DDW) option defined by the SPAPR specification which allows to have additional DMA window(s) The "ddw" property is enabled by default on a PHB but for compatibility the pseries-2.6 machine and older disable it. This also creates a single DMA window for the older machines to maintain backward migration. This implements DDW for PHB with emulated and VFIO devices. The host kernel support is required. The advertised IOMMU page sizes are 4K and 64K; 16M pages are supported but not advertised by default, in order to enable them, the user has to specify "pgsz" property for PHB and enable huge pages for RAM. The existing linux guests try creating one additional huge DMA window with 64K or 16MB pages and map the entire guest RAM to. If succeeded, the guest switches to dma_direct_ops and never calls TCE hypercalls (H_PUT_TCE,...) again. This enables VFIO devices to use the entire RAM and not waste time on map/unmap later. This adds a "dma64_win_addr" property which is a bus address for the 64bit window and by default set to 0x800.0000.0000.0000 as this is what the modern POWER8 hardware uses and this allows having emulated and VFIO devices on the same bus. This adds 4 RTAS handlers: * ibm,query-pe-dma-window * ibm,create-pe-dma-window * ibm,remove-pe-dma-window * ibm,reset-pe-dma-window These are registered from type_init() callback. These RTAS handlers are implemented in a separate file to avoid polluting spapr_iommu.c with PCI. This changes sPAPRPHBState::dma_liobn to an array to allow 2 LIOBNs and updates all references to dma_liobn. However this does not add 64bit LIOBN to the migration stream as in fact even 32bit LIOBN is rather pointless there (as it is a PHB property and the management software can/should pass LIOBNs via CLI) but we keep it for the backward migration support. Signed-off-by: Alexey Kardashevskiy <aik@ozlabs.ru> Signed-off-by: David Gibson <david@gibson.dropbear.id.au>
2016-07-04 06:33:07 +03:00
obj-$(CONFIG_PSERIES) += spapr_rtas_ddw.o
# PowerPC 4xx boards
obj-y += ppc405_boards.o ppc4xx_devs.o ppc405_uc.o ppc440_bamboo.o
obj-y += ppc4xx_pci.o
# PReP
obj-$(CONFIG_PREP) += prep.o
obj-$(CONFIG_PREP) += prep_systemio.o
obj-${CONFIG_RS6000_MC} += rs6000_mc.o
# OldWorld PowerMac
obj-$(CONFIG_MAC) += mac_oldworld.o
# NewWorld PowerMac
obj-$(CONFIG_MAC) += mac_newworld.o
# e500
obj-$(CONFIG_E500) += e500.o mpc8544ds.o e500plat.o
obj-$(CONFIG_E500) += mpc8544_guts.o ppce500_spin.o
# PowerPC 440 Xilinx ML507 reference board.
obj-$(CONFIG_XILINX) += virtex_ml507.o