/* SPDX-License-Identifier: MIT */ /* * Copyright (c) 2016, Citrix Systems Inc * */ #ifndef __XEN_PUBLIC_HVM_DM_OP_H__ #define __XEN_PUBLIC_HVM_DM_OP_H__ #include "../xen.h" #include "../event_channel.h" #ifndef uint64_aligned_t #define uint64_aligned_t uint64_t #endif /* * IOREQ Servers * * The interface between an I/O emulator and Xen is called an IOREQ Server. * A domain supports a single 'legacy' IOREQ Server which is instantiated if * parameter... * * HVM_PARAM_IOREQ_PFN is read (to get the gfn containing the synchronous * ioreq structures), or... * HVM_PARAM_BUFIOREQ_PFN is read (to get the gfn containing the buffered * ioreq ring), or... * HVM_PARAM_BUFIOREQ_EVTCHN is read (to get the event channel that Xen uses * to request buffered I/O emulation). * * The following hypercalls facilitate the creation of IOREQ Servers for * 'secondary' emulators which are invoked to implement port I/O, memory, or * PCI config space ranges which they explicitly register. */ typedef uint16_t ioservid_t; /* * XEN_DMOP_create_ioreq_server: Instantiate a new IOREQ Server for a * secondary emulator. * * The <id> handed back is unique for target domain. The valur of * <handle_bufioreq> should be one of HVM_IOREQSRV_BUFIOREQ_* defined in * hvm_op.h. If the value is HVM_IOREQSRV_BUFIOREQ_OFF then the buffered * ioreq ring will not be allocated and hence all emulation requests to * this server will be synchronous. */ #define XEN_DMOP_create_ioreq_server 1 struct xen_dm_op_create_ioreq_server { /* IN - should server handle buffered ioreqs */ uint8_t handle_bufioreq; uint8_t pad[3]; /* OUT - server id */ ioservid_t id; }; typedef struct xen_dm_op_create_ioreq_server xen_dm_op_create_ioreq_server_t; /* * XEN_DMOP_get_ioreq_server_info: Get all the information necessary to * access IOREQ Server <id>. * * If the IOREQ Server is handling buffered emulation requests, the * emulator needs to bind to event channel <bufioreq_port> to listen for * them. (The event channels used for synchronous emulation requests are * specified in the per-CPU ioreq structures). * In addition, if the XENMEM_acquire_resource memory op cannot be used, * the emulator will need to map the synchronous ioreq structures and * buffered ioreq ring (if it exists) from guest memory. If <flags> does * not contain XEN_DMOP_no_gfns then these pages will be made available and * the frame numbers passed back in gfns <ioreq_gfn> and <bufioreq_gfn> * respectively. (If the IOREQ Server is not handling buffered emulation * only <ioreq_gfn> will be valid). * * NOTE: To access the synchronous ioreq structures and buffered ioreq * ring, it is preferable to use the XENMEM_acquire_resource memory * op specifying resource type XENMEM_resource_ioreq_server. */ #define XEN_DMOP_get_ioreq_server_info 2 struct xen_dm_op_get_ioreq_server_info { /* IN - server id */ ioservid_t id; /* IN - flags */ uint16_t flags; #define _XEN_DMOP_no_gfns 0 #define XEN_DMOP_no_gfns (1u << _XEN_DMOP_no_gfns) /* OUT - buffered ioreq port */ evtchn_port_t bufioreq_port; /* OUT - sync ioreq gfn (see block comment above) */ uint64_aligned_t ioreq_gfn; /* OUT - buffered ioreq gfn (see block comment above)*/ uint64_aligned_t bufioreq_gfn; }; typedef struct xen_dm_op_get_ioreq_server_info xen_dm_op_get_ioreq_server_info_t; /* * XEN_DMOP_map_io_range_to_ioreq_server: Register an I/O range for * emulation by the client of * IOREQ Server <id>. * XEN_DMOP_unmap_io_range_from_ioreq_server: Deregister an I/O range * previously registered for * emulation by the client of * IOREQ Server <id>. * * There are three types of I/O that can be emulated: port I/O, memory * accesses and PCI config space accesses. The <type> field denotes which * type of range* the <start> and <end> (inclusive) fields are specifying. * PCI config space ranges are specified by segment/bus/device/function * values which should be encoded using the DMOP_PCI_SBDF helper macro * below. * * NOTE: unless an emulation request falls entirely within a range mapped * by a secondary emulator, it will not be passed to that emulator. */ #define XEN_DMOP_map_io_range_to_ioreq_server 3 #define XEN_DMOP_unmap_io_range_from_ioreq_server 4 struct xen_dm_op_ioreq_server_range { /* IN - server id */ ioservid_t id; uint16_t pad; /* IN - type of range */ uint32_t type; # define XEN_DMOP_IO_RANGE_PORT 0 /* I/O port range */ # define XEN_DMOP_IO_RANGE_MEMORY 1 /* MMIO range */ # define XEN_DMOP_IO_RANGE_PCI 2 /* PCI segment/bus/dev/func range */ /* IN - inclusive start and end of range */ uint64_aligned_t start, end; }; typedef struct xen_dm_op_ioreq_server_range xen_dm_op_ioreq_server_range_t; #define XEN_DMOP_PCI_SBDF(s,b,d,f) \ ((((s) & 0xffff) << 16) | \ (((b) & 0xff) << 8) | \ (((d) & 0x1f) << 3) | \ ((f) & 0x07)) /* * XEN_DMOP_set_ioreq_server_state: Enable or disable the IOREQ Server <id> * * The IOREQ Server will not be passed any emulation requests until it is * in the enabled state. * Note that the contents of the ioreq_gfn and bufioreq_gfn (see * XEN_DMOP_get_ioreq_server_info) are not meaningful until the IOREQ Server * is in the enabled state. */ #define XEN_DMOP_set_ioreq_server_state 5 struct xen_dm_op_set_ioreq_server_state { /* IN - server id */ ioservid_t id; /* IN - enabled? */ uint8_t enabled; uint8_t pad; }; typedef struct xen_dm_op_set_ioreq_server_state xen_dm_op_set_ioreq_server_state_t; /* * XEN_DMOP_destroy_ioreq_server: Destroy the IOREQ Server <id>. * * Any registered I/O ranges will be automatically deregistered. */ #define XEN_DMOP_destroy_ioreq_server 6 struct xen_dm_op_destroy_ioreq_server { /* IN - server id */ ioservid_t id; uint16_t pad; }; typedef struct xen_dm_op_destroy_ioreq_server xen_dm_op_destroy_ioreq_server_t; /* * XEN_DMOP_track_dirty_vram: Track modifications to the specified pfn * range. * * NOTE: The bitmap passed back to the caller is passed in a * secondary buffer. */ #define XEN_DMOP_track_dirty_vram 7 struct xen_dm_op_track_dirty_vram { /* IN - number of pages to be tracked */ uint32_t nr; uint32_t pad; /* IN - first pfn to track */ uint64_aligned_t first_pfn; }; typedef struct xen_dm_op_track_dirty_vram xen_dm_op_track_dirty_vram_t; /* * XEN_DMOP_set_pci_intx_level: Set the logical level of one of a domain's * PCI INTx pins. */ #define XEN_DMOP_set_pci_intx_level 8 struct xen_dm_op_set_pci_intx_level { /* IN - PCI INTx identification (domain:bus:device:intx) */ uint16_t domain; uint8_t bus, device, intx; /* IN - Level: 0 -> deasserted, 1 -> asserted */ uint8_t level; }; typedef struct xen_dm_op_set_pci_intx_level xen_dm_op_set_pci_intx_level_t; /* * XEN_DMOP_set_isa_irq_level: Set the logical level of a one of a domain's * ISA IRQ lines. */ #define XEN_DMOP_set_isa_irq_level 9 struct xen_dm_op_set_isa_irq_level { /* IN - ISA IRQ (0-15) */ uint8_t isa_irq; /* IN - Level: 0 -> deasserted, 1 -> asserted */ uint8_t level; }; typedef struct xen_dm_op_set_isa_irq_level xen_dm_op_set_isa_irq_level_t; /* * XEN_DMOP_set_pci_link_route: Map a PCI INTx line to an IRQ line. */ #define XEN_DMOP_set_pci_link_route 10 struct xen_dm_op_set_pci_link_route { /* PCI INTx line (0-3) */ uint8_t link; /* ISA IRQ (1-15) or 0 -> disable link */ uint8_t isa_irq; }; typedef struct xen_dm_op_set_pci_link_route xen_dm_op_set_pci_link_route_t; /* * XEN_DMOP_modified_memory: Notify that a set of pages were modified by * an emulator. * * DMOP buf 1 contains an array of xen_dm_op_modified_memory_extent with * @nr_extents entries. * * On error, @nr_extents will contain the index+1 of the extent that * had the error. It is not defined if or which pages may have been * marked as dirty, in this event. */ #define XEN_DMOP_modified_memory 11 struct xen_dm_op_modified_memory { /* * IN - Number of extents to be processed * OUT -returns n+1 for failing extent */ uint32_t nr_extents; /* IN/OUT - Must be set to 0 */ uint32_t opaque; }; typedef struct xen_dm_op_modified_memory xen_dm_op_modified_memory_t; struct xen_dm_op_modified_memory_extent { /* IN - number of contiguous pages modified */ uint32_t nr; uint32_t pad; /* IN - first pfn modified */ uint64_aligned_t first_pfn; }; /* * XEN_DMOP_set_mem_type: Notify that a region of memory is to be treated * in a specific way. (See definition of * hvmmem_type_t). * * NOTE: In the event of a continuation (return code -ERESTART), the * @first_pfn is set to the value of the pfn of the remaining * region and @nr reduced to the size of the remaining region. */ #define XEN_DMOP_set_mem_type 12 struct xen_dm_op_set_mem_type { /* IN - number of contiguous pages */ uint32_t nr; /* IN - new hvmmem_type_t of region */ uint16_t mem_type; uint16_t pad; /* IN - first pfn in region */ uint64_aligned_t first_pfn; }; typedef struct xen_dm_op_set_mem_type xen_dm_op_set_mem_type_t; /* * XEN_DMOP_inject_event: Inject an event into a VCPU, which will * get taken up when it is next scheduled. * * Note that the caller should know enough of the state of the CPU before * injecting, to know what the effect of injecting the event will be. */ #define XEN_DMOP_inject_event 13 struct xen_dm_op_inject_event { /* IN - index of vCPU */ uint32_t vcpuid; /* IN - interrupt vector */ uint8_t vector; /* IN - event type (DMOP_EVENT_* ) */ uint8_t type; /* NB. This enumeration precisely matches x86-defns.h:X86_ET_* */ # define XEN_DMOP_EVENT_ext_int 0 /* external interrupt */ # define XEN_DMOP_EVENT_nmi 2 /* nmi */ # define XEN_DMOP_EVENT_hw_exc 3 /* hardware exception */ # define XEN_DMOP_EVENT_sw_int 4 /* software interrupt (CD nn) */ # define XEN_DMOP_EVENT_pri_sw_exc 5 /* ICEBP (F1) */ # define XEN_DMOP_EVENT_sw_exc 6 /* INT3 (CC), INTO (CE) */ /* IN - instruction length */ uint8_t insn_len; uint8_t pad0; /* IN - error code (or ~0 to skip) */ uint32_t error_code; uint32_t pad1; /* IN - type-specific extra data (%cr2 for #PF, pending_dbg for #DB) */ uint64_aligned_t cr2; }; typedef struct xen_dm_op_inject_event xen_dm_op_inject_event_t; /* * XEN_DMOP_inject_msi: Inject an MSI for an emulated device. */ #define XEN_DMOP_inject_msi 14 struct xen_dm_op_inject_msi { /* IN - MSI data (lower 32 bits) */ uint32_t data; uint32_t pad; /* IN - MSI address (0xfeexxxxx) */ uint64_aligned_t addr; }; typedef struct xen_dm_op_inject_msi xen_dm_op_inject_msi_t; /* * XEN_DMOP_map_mem_type_to_ioreq_server : map or unmap the IOREQ Server <id> * to specific memory type <type> * for specific accesses <flags> * * For now, flags only accept the value of XEN_DMOP_IOREQ_MEM_ACCESS_WRITE, * which means only write operations are to be forwarded to an ioreq server. * Support for the emulation of read operations can be added when an ioreq * server has such requirement in future. */ #define XEN_DMOP_map_mem_type_to_ioreq_server 15 struct xen_dm_op_map_mem_type_to_ioreq_server { ioservid_t id; /* IN - ioreq server id */ uint16_t type; /* IN - memory type */ uint32_t flags; /* IN - types of accesses to be forwarded to the ioreq server. flags with 0 means to unmap the ioreq server */ #define XEN_DMOP_IOREQ_MEM_ACCESS_READ (1u << 0) #define XEN_DMOP_IOREQ_MEM_ACCESS_WRITE (1u << 1) uint64_t opaque; /* IN/OUT - only used for hypercall continuation, has to be set to zero by the caller */ }; typedef struct xen_dm_op_map_mem_type_to_ioreq_server xen_dm_op_map_mem_type_to_ioreq_server_t; /* * XEN_DMOP_remote_shutdown : Declare a shutdown for another domain * Identical to SCHEDOP_remote_shutdown */ #define XEN_DMOP_remote_shutdown 16 struct xen_dm_op_remote_shutdown { uint32_t reason; /* SHUTDOWN_* => enum sched_shutdown_reason */ /* (Other reason values are not blocked) */ }; typedef struct xen_dm_op_remote_shutdown xen_dm_op_remote_shutdown_t; /* * XEN_DMOP_relocate_memory : Relocate GFNs for the specified guest. * Identical to XENMEM_add_to_physmap with * space == XENMAPSPACE_gmfn_range. */ #define XEN_DMOP_relocate_memory 17 struct xen_dm_op_relocate_memory { /* All fields are IN/OUT, with their OUT state undefined. */ /* Number of GFNs to process. */ uint32_t size; uint32_t pad; /* Starting GFN to relocate. */ uint64_aligned_t src_gfn; /* Starting GFN where GFNs should be relocated. */ uint64_aligned_t dst_gfn; }; typedef struct xen_dm_op_relocate_memory xen_dm_op_relocate_memory_t; /* * XEN_DMOP_pin_memory_cacheattr : Pin caching type of RAM space. * Identical to XEN_DOMCTL_pin_mem_cacheattr. */ #define XEN_DMOP_pin_memory_cacheattr 18 struct xen_dm_op_pin_memory_cacheattr { uint64_aligned_t start; /* Start gfn. */ uint64_aligned_t end; /* End gfn. */ /* Caching types: these happen to be the same as x86 MTRR/PAT type codes. */ #define XEN_DMOP_MEM_CACHEATTR_UC 0 #define XEN_DMOP_MEM_CACHEATTR_WC 1 #define XEN_DMOP_MEM_CACHEATTR_WT 4 #define XEN_DMOP_MEM_CACHEATTR_WP 5 #define XEN_DMOP_MEM_CACHEATTR_WB 6 #define XEN_DMOP_MEM_CACHEATTR_UCM 7 #define XEN_DMOP_DELETE_MEM_CACHEATTR (~(uint32_t)0) uint32_t type; /* XEN_DMOP_MEM_CACHEATTR_* */ uint32_t pad; }; typedef struct xen_dm_op_pin_memory_cacheattr xen_dm_op_pin_memory_cacheattr_t; /* * XEN_DMOP_set_irq_level: Set the logical level of a one of a domain's * IRQ lines (currently Arm only). * Only SPIs are supported. */ #define XEN_DMOP_set_irq_level 19 struct xen_dm_op_set_irq_level { uint32_t irq; /* IN - Level: 0 -> deasserted, 1 -> asserted */ uint8_t level; uint8_t pad[3]; }; typedef struct xen_dm_op_set_irq_level xen_dm_op_set_irq_level_t; /* * XEN_DMOP_nr_vcpus: Query the number of vCPUs a domain has. * * This is the number of vcpu objects allocated in Xen for the domain, and is * fixed from creation time. This bound is applicable to e.g. the vcpuid * parameter of XEN_DMOP_inject_event, or number of struct ioreq objects * mapped via XENMEM_acquire_resource. */ #define XEN_DMOP_nr_vcpus 20 struct xen_dm_op_nr_vcpus { uint32_t vcpus; /* OUT */ }; typedef struct xen_dm_op_nr_vcpus xen_dm_op_nr_vcpus_t; struct xen_dm_op { uint32_t op; uint32_t pad; union { xen_dm_op_create_ioreq_server_t create_ioreq_server; xen_dm_op_get_ioreq_server_info_t get_ioreq_server_info; xen_dm_op_ioreq_server_range_t map_io_range_to_ioreq_server; xen_dm_op_ioreq_server_range_t unmap_io_range_from_ioreq_server; xen_dm_op_set_ioreq_server_state_t set_ioreq_server_state; xen_dm_op_destroy_ioreq_server_t destroy_ioreq_server; xen_dm_op_track_dirty_vram_t track_dirty_vram; xen_dm_op_set_pci_intx_level_t set_pci_intx_level; xen_dm_op_set_isa_irq_level_t set_isa_irq_level; xen_dm_op_set_irq_level_t set_irq_level; xen_dm_op_set_pci_link_route_t set_pci_link_route; xen_dm_op_modified_memory_t modified_memory; xen_dm_op_set_mem_type_t set_mem_type; xen_dm_op_inject_event_t inject_event; xen_dm_op_inject_msi_t inject_msi; xen_dm_op_map_mem_type_to_ioreq_server_t map_mem_type_to_ioreq_server; xen_dm_op_remote_shutdown_t remote_shutdown; xen_dm_op_relocate_memory_t relocate_memory; xen_dm_op_pin_memory_cacheattr_t pin_memory_cacheattr; xen_dm_op_nr_vcpus_t nr_vcpus; } u; }; struct xen_dm_op_buf { XEN_GUEST_HANDLE(void) h; xen_ulong_t size; }; typedef struct xen_dm_op_buf xen_dm_op_buf_t; DEFINE_XEN_GUEST_HANDLE(xen_dm_op_buf_t); /* ` enum neg_errnoval * ` HYPERVISOR_dm_op(domid_t domid, * ` unsigned int nr_bufs, * ` xen_dm_op_buf_t bufs[]) * ` [see __HYPERVISOR_dm_op] * ` * * @domid is the domain the hypercall operates on. * @nr_bufs is the number of buffers in the @bufs array. * @bufs points to an array of buffers where @bufs[0] contains a struct * xen_dm_op, describing the specific device model operation and its * parameters. * @bufs[1..] may be referenced in the parameters for the purposes of * passing extra information to or from the domain. */ #endif /* __XEN_PUBLIC_HVM_DM_OP_H__ */ /* * Local variables: * mode: C * c-file-style: "BSD" * c-basic-offset: 4 * tab-width: 4 * indent-tabs-mode: nil * End: */