xref: /openbmc/qemu/include/hw/xen/interface/arch-arm.h (revision d044b7c3)
1 /******************************************************************************
2  * arch-arm.h
3  *
4  * Guest OS interface to ARM Xen.
5  *
6  * Permission is hereby granted, free of charge, to any person obtaining a copy
7  * of this software and associated documentation files (the "Software"), to
8  * deal in the Software without restriction, including without limitation the
9  * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
10  * sell copies of the Software, and to permit persons to whom the Software is
11  * furnished to do so, subject to the following conditions:
12  *
13  * The above copyright notice and this permission notice shall be included in
14  * all copies or substantial portions of the Software.
15  *
16  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
19  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
21  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
22  * DEALINGS IN THE SOFTWARE.
23  *
24  * Copyright 2011 (C) Citrix Systems
25  */
26 
27 #ifndef __XEN_PUBLIC_ARCH_ARM_H__
28 #define __XEN_PUBLIC_ARCH_ARM_H__
29 
30 /*
31  * `incontents 50 arm_abi Hypercall Calling Convention
32  *
33  * A hypercall is issued using the ARM HVC instruction.
34  *
35  * A hypercall can take up to 5 arguments. These are passed in
36  * registers, the first argument in x0/r0 (for arm64/arm32 guests
37  * respectively irrespective of whether the underlying hypervisor is
38  * 32- or 64-bit), the second argument in x1/r1, the third in x2/r2,
39  * the forth in x3/r3 and the fifth in x4/r4.
40  *
41  * The hypercall number is passed in r12 (arm) or x16 (arm64). In both
42  * cases the relevant ARM procedure calling convention specifies this
43  * is an inter-procedure-call scratch register (e.g. for use in linker
44  * stubs). This use does not conflict with use during a hypercall.
45  *
46  * The HVC ISS must contain a Xen specific TAG: XEN_HYPERCALL_TAG.
47  *
48  * The return value is in x0/r0.
49  *
50  * The hypercall will clobber x16/r12 and the argument registers used
51  * by that hypercall (except r0 which is the return value) i.e. in
52  * addition to x16/r12 a 2 argument hypercall will clobber x1/r1 and a
53  * 4 argument hypercall will clobber x1/r1, x2/r2 and x3/r3.
54  *
55  * Parameter structs passed to hypercalls are laid out according to
56  * the Procedure Call Standard for the ARM Architecture (AAPCS, AKA
57  * EABI) and Procedure Call Standard for the ARM 64-bit Architecture
58  * (AAPCS64). Where there is a conflict the 64-bit standard should be
59  * used regardless of guest type. Structures which are passed as
60  * hypercall arguments are always little endian.
61  *
62  * All memory which is shared with other entities in the system
63  * (including the hypervisor and other guests) must reside in memory
64  * which is mapped as Normal Inner Write-Back Outer Write-Back Inner-Shareable.
65  * This applies to:
66  *  - hypercall arguments passed via a pointer to guest memory.
67  *  - memory shared via the grant table mechanism (including PV I/O
68  *    rings etc).
69  *  - memory shared with the hypervisor (struct shared_info, struct
70  *    vcpu_info, the grant table, etc).
71  *
72  * Any cache allocation hints are acceptable.
73  */
74 
75 /*
76  * `incontents 55 arm_hcall Supported Hypercalls
77  *
78  * Xen on ARM makes extensive use of hardware facilities and therefore
79  * only a subset of the potential hypercalls are required.
80  *
81  * Since ARM uses second stage paging any machine/physical addresses
82  * passed to hypercalls are Guest Physical Addresses (Intermediate
83  * Physical Addresses) unless otherwise noted.
84  *
85  * The following hypercalls (and sub operations) are supported on the
86  * ARM platform. Other hypercalls should be considered
87  * unavailable/unsupported.
88  *
89  *  HYPERVISOR_memory_op
90  *   All generic sub-operations
91  *
92  *  HYPERVISOR_domctl
93  *   All generic sub-operations, with the exception of:
94  *    * XEN_DOMCTL_irq_permission (not yet implemented)
95  *
96  *  HYPERVISOR_sched_op
97  *   All generic sub-operations, with the exception of:
98  *    * SCHEDOP_block -- prefer wfi hardware instruction
99  *
100  *  HYPERVISOR_console_io
101  *   All generic sub-operations
102  *
103  *  HYPERVISOR_xen_version
104  *   All generic sub-operations
105  *
106  *  HYPERVISOR_event_channel_op
107  *   All generic sub-operations
108  *
109  *  HYPERVISOR_physdev_op
110  *   Exactly these sub-operations are supported:
111  *   PHYSDEVOP_pci_device_add
112  *   PHYSDEVOP_pci_device_remove
113  *
114  *  HYPERVISOR_sysctl
115  *   All generic sub-operations, with the exception of:
116  *    * XEN_SYSCTL_page_offline_op
117  *    * XEN_SYSCTL_get_pmstat
118  *    * XEN_SYSCTL_pm_op
119  *
120  *  HYPERVISOR_hvm_op
121  *   Exactly these sub-operations are supported:
122  *    * HVMOP_set_param
123  *    * HVMOP_get_param
124  *
125  *  HYPERVISOR_grant_table_op
126  *   All generic sub-operations
127  *
128  *  HYPERVISOR_vcpu_op
129  *   Exactly these sub-operations are supported:
130  *    * VCPUOP_register_vcpu_info
131  *    * VCPUOP_register_runstate_memory_area
132  *
133  *  HYPERVISOR_argo_op
134  *   All generic sub-operations
135  *
136  * Other notes on the ARM ABI:
137  *
138  * - struct start_info is not exported to ARM guests.
139  *
140  * - struct shared_info is mapped by ARM guests using the
141  *   HYPERVISOR_memory_op sub-op XENMEM_add_to_physmap, passing
142  *   XENMAPSPACE_shared_info as space parameter.
143  *
144  * - All the per-cpu struct vcpu_info are mapped by ARM guests using the
145  *   HYPERVISOR_vcpu_op sub-op VCPUOP_register_vcpu_info, including cpu0
146  *   struct vcpu_info.
147  *
148  * - The grant table is mapped using the HYPERVISOR_memory_op sub-op
149  *   XENMEM_add_to_physmap, passing XENMAPSPACE_grant_table as space
150  *   parameter. The memory range specified under the Xen compatible
151  *   hypervisor node on device tree can be used as target gpfn for the
152  *   mapping.
153  *
154  * - Xenstore is initialized by using the two hvm_params
155  *   HVM_PARAM_STORE_PFN and HVM_PARAM_STORE_EVTCHN. They can be read
156  *   with the HYPERVISOR_hvm_op sub-op HVMOP_get_param.
157  *
158  * - The paravirtualized console is initialized by using the two
159  *   hvm_params HVM_PARAM_CONSOLE_PFN and HVM_PARAM_CONSOLE_EVTCHN. They
160  *   can be read with the HYPERVISOR_hvm_op sub-op HVMOP_get_param.
161  *
162  * - Event channel notifications are delivered using the percpu GIC
163  *   interrupt specified under the Xen compatible hypervisor node on
164  *   device tree.
165  *
166  * - The device tree Xen compatible node is fully described under Linux
167  *   at Documentation/devicetree/bindings/arm/xen.txt.
168  */
169 
170 #define XEN_HYPERCALL_TAG   0XEA1
171 
172 #define  int64_aligned_t  int64_t __attribute__((aligned(8)))
173 #define uint64_aligned_t uint64_t __attribute__((aligned(8)))
174 
175 #ifndef __ASSEMBLY__
176 #define ___DEFINE_XEN_GUEST_HANDLE(name, type)                  \
177     typedef union { type *p; unsigned long q; }                 \
178         __guest_handle_ ## name;                                \
179     typedef union { type *p; uint64_aligned_t q; }              \
180         __guest_handle_64_ ## name
181 
182 /*
183  * XEN_GUEST_HANDLE represents a guest pointer, when passed as a field
184  * in a struct in memory. On ARM is always 8 bytes sizes and 8 bytes
185  * aligned.
186  * XEN_GUEST_HANDLE_PARAM represents a guest pointer, when passed as an
187  * hypercall argument. It is 4 bytes on aarch32 and 8 bytes on aarch64.
188  */
189 #define __DEFINE_XEN_GUEST_HANDLE(name, type) \
190     ___DEFINE_XEN_GUEST_HANDLE(name, type);   \
191     ___DEFINE_XEN_GUEST_HANDLE(const_##name, const type)
192 #define DEFINE_XEN_GUEST_HANDLE(name)   __DEFINE_XEN_GUEST_HANDLE(name, name)
193 #define __XEN_GUEST_HANDLE(name)        __guest_handle_64_ ## name
194 #define XEN_GUEST_HANDLE(name)          __XEN_GUEST_HANDLE(name)
195 #define XEN_GUEST_HANDLE_PARAM(name)    __guest_handle_ ## name
196 #define set_xen_guest_handle_raw(hnd, val)                  \
197     do {                                                    \
198         __typeof__(&(hnd)) _sxghr_tmp = &(hnd);             \
199         _sxghr_tmp->q = 0;                                  \
200         _sxghr_tmp->p = val;                                \
201     } while ( 0 )
202 #define set_xen_guest_handle(hnd, val) set_xen_guest_handle_raw(hnd, val)
203 
204 typedef uint64_t xen_pfn_t;
205 #define PRI_xen_pfn PRIx64
206 #define PRIu_xen_pfn PRIu64
207 
208 /*
209  * Maximum number of virtual CPUs in legacy multi-processor guests.
210  * Only one. All other VCPUS must use VCPUOP_register_vcpu_info.
211  */
212 #define XEN_LEGACY_MAX_VCPUS 1
213 
214 typedef uint64_t xen_ulong_t;
215 #define PRI_xen_ulong PRIx64
216 
217 #if defined(__XEN__) || defined(__XEN_TOOLS__)
218 #if defined(__GNUC__) && !defined(__STRICT_ANSI__)
219 /* Anonymous union includes both 32- and 64-bit names (e.g., r0/x0). */
220 # define __DECL_REG(n64, n32) union {          \
221         uint64_t n64;                          \
222         uint32_t n32;                          \
223     }
224 #else
225 /* Non-gcc sources must always use the proper 64-bit name (e.g., x0). */
226 #define __DECL_REG(n64, n32) uint64_t n64
227 #endif
228 
229 struct vcpu_guest_core_regs
230 {
231     /*         Aarch64       Aarch32 */
232     __DECL_REG(x0,           r0_usr);
233     __DECL_REG(x1,           r1_usr);
234     __DECL_REG(x2,           r2_usr);
235     __DECL_REG(x3,           r3_usr);
236     __DECL_REG(x4,           r4_usr);
237     __DECL_REG(x5,           r5_usr);
238     __DECL_REG(x6,           r6_usr);
239     __DECL_REG(x7,           r7_usr);
240     __DECL_REG(x8,           r8_usr);
241     __DECL_REG(x9,           r9_usr);
242     __DECL_REG(x10,          r10_usr);
243     __DECL_REG(x11,          r11_usr);
244     __DECL_REG(x12,          r12_usr);
245 
246     __DECL_REG(x13,          sp_usr);
247     __DECL_REG(x14,          lr_usr);
248 
249     __DECL_REG(x15,          __unused_sp_hyp);
250 
251     __DECL_REG(x16,          lr_irq);
252     __DECL_REG(x17,          sp_irq);
253 
254     __DECL_REG(x18,          lr_svc);
255     __DECL_REG(x19,          sp_svc);
256 
257     __DECL_REG(x20,          lr_abt);
258     __DECL_REG(x21,          sp_abt);
259 
260     __DECL_REG(x22,          lr_und);
261     __DECL_REG(x23,          sp_und);
262 
263     __DECL_REG(x24,          r8_fiq);
264     __DECL_REG(x25,          r9_fiq);
265     __DECL_REG(x26,          r10_fiq);
266     __DECL_REG(x27,          r11_fiq);
267     __DECL_REG(x28,          r12_fiq);
268 
269     __DECL_REG(x29,          sp_fiq);
270     __DECL_REG(x30,          lr_fiq);
271 
272     /* Return address and mode */
273     __DECL_REG(pc64,         pc32);             /* ELR_EL2 */
274     uint64_t cpsr;                              /* SPSR_EL2 */
275 
276     union {
277         uint64_t spsr_el1;       /* AArch64 */
278         uint32_t spsr_svc;       /* AArch32 */
279     };
280 
281     /* AArch32 guests only */
282     uint32_t spsr_fiq, spsr_irq, spsr_und, spsr_abt;
283 
284     /* AArch64 guests only */
285     uint64_t sp_el0;
286     uint64_t sp_el1, elr_el1;
287 };
288 typedef struct vcpu_guest_core_regs vcpu_guest_core_regs_t;
289 DEFINE_XEN_GUEST_HANDLE(vcpu_guest_core_regs_t);
290 
291 #undef __DECL_REG
292 
293 struct vcpu_guest_context {
294 #define _VGCF_online                   0
295 #define VGCF_online                    (1<<_VGCF_online)
296     uint32_t flags;                         /* VGCF_* */
297 
298     struct vcpu_guest_core_regs user_regs;  /* Core CPU registers */
299 
300     uint64_t sctlr;
301     uint64_t ttbcr, ttbr0, ttbr1;
302 };
303 typedef struct vcpu_guest_context vcpu_guest_context_t;
304 DEFINE_XEN_GUEST_HANDLE(vcpu_guest_context_t);
305 
306 /*
307  * struct xen_arch_domainconfig's ABI is covered by
308  * XEN_DOMCTL_INTERFACE_VERSION.
309  */
310 #define XEN_DOMCTL_CONFIG_GIC_NATIVE    0
311 #define XEN_DOMCTL_CONFIG_GIC_V2        1
312 #define XEN_DOMCTL_CONFIG_GIC_V3        2
313 
314 #define XEN_DOMCTL_CONFIG_TEE_NONE      0
315 #define XEN_DOMCTL_CONFIG_TEE_OPTEE     1
316 
317 struct xen_arch_domainconfig {
318     /* IN/OUT */
319     uint8_t gic_version;
320     /* IN */
321     uint16_t tee_type;
322     /* IN */
323     uint32_t nr_spis;
324     /*
325      * OUT
326      * Based on the property clock-frequency in the DT timer node.
327      * The property may be present when the bootloader/firmware doesn't
328      * set correctly CNTFRQ which hold the timer frequency.
329      *
330      * As it's not possible to trap this register, we have to replicate
331      * the value in the guest DT.
332      *
333      * = 0 => property not present
334      * > 0 => Value of the property
335      *
336      */
337     uint32_t clock_frequency;
338 };
339 #endif /* __XEN__ || __XEN_TOOLS__ */
340 
341 struct arch_vcpu_info {
342 };
343 typedef struct arch_vcpu_info arch_vcpu_info_t;
344 
345 struct arch_shared_info {
346 };
347 typedef struct arch_shared_info arch_shared_info_t;
348 typedef uint64_t xen_callback_t;
349 
350 #endif
351 
352 #if defined(__XEN__) || defined(__XEN_TOOLS__)
353 
354 /* PSR bits (CPSR, SPSR) */
355 
356 #define PSR_THUMB       (1<<5)        /* Thumb Mode enable */
357 #define PSR_FIQ_MASK    (1<<6)        /* Fast Interrupt mask */
358 #define PSR_IRQ_MASK    (1<<7)        /* Interrupt mask */
359 #define PSR_ABT_MASK    (1<<8)        /* Asynchronous Abort mask */
360 #define PSR_BIG_ENDIAN  (1<<9)        /* arm32: Big Endian Mode */
361 #define PSR_DBG_MASK    (1<<9)        /* arm64: Debug Exception mask */
362 #define PSR_IT_MASK     (0x0600fc00)  /* Thumb If-Then Mask */
363 #define PSR_JAZELLE     (1<<24)       /* Jazelle Mode */
364 
365 /* 32 bit modes */
366 #define PSR_MODE_USR 0x10
367 #define PSR_MODE_FIQ 0x11
368 #define PSR_MODE_IRQ 0x12
369 #define PSR_MODE_SVC 0x13
370 #define PSR_MODE_MON 0x16
371 #define PSR_MODE_ABT 0x17
372 #define PSR_MODE_HYP 0x1a
373 #define PSR_MODE_UND 0x1b
374 #define PSR_MODE_SYS 0x1f
375 
376 /* 64 bit modes */
377 #define PSR_MODE_BIT  0x10 /* Set iff AArch32 */
378 #define PSR_MODE_EL3h 0x0d
379 #define PSR_MODE_EL3t 0x0c
380 #define PSR_MODE_EL2h 0x09
381 #define PSR_MODE_EL2t 0x08
382 #define PSR_MODE_EL1h 0x05
383 #define PSR_MODE_EL1t 0x04
384 #define PSR_MODE_EL0t 0x00
385 
386 #define PSR_GUEST32_INIT  (PSR_ABT_MASK|PSR_FIQ_MASK|PSR_IRQ_MASK|PSR_MODE_SVC)
387 #define PSR_GUEST64_INIT (PSR_ABT_MASK|PSR_FIQ_MASK|PSR_IRQ_MASK|PSR_MODE_EL1h)
388 
389 #define SCTLR_GUEST_INIT    xen_mk_ullong(0x00c50078)
390 
391 /*
392  * Virtual machine platform (memory layout, interrupts)
393  *
394  * These are defined for consistency between the tools and the
395  * hypervisor. Guests must not rely on these hardcoded values but
396  * should instead use the FDT.
397  */
398 
399 /* Physical Address Space */
400 
401 /*
402  * vGIC mappings: Only one set of mapping is used by the guest.
403  * Therefore they can overlap.
404  */
405 
406 /* vGIC v2 mappings */
407 #define GUEST_GICD_BASE   xen_mk_ullong(0x03001000)
408 #define GUEST_GICD_SIZE   xen_mk_ullong(0x00001000)
409 #define GUEST_GICC_BASE   xen_mk_ullong(0x03002000)
410 #define GUEST_GICC_SIZE   xen_mk_ullong(0x00002000)
411 
412 /* vGIC v3 mappings */
413 #define GUEST_GICV3_GICD_BASE      xen_mk_ullong(0x03001000)
414 #define GUEST_GICV3_GICD_SIZE      xen_mk_ullong(0x00010000)
415 
416 #define GUEST_GICV3_RDIST_REGIONS  1
417 
418 #define GUEST_GICV3_GICR0_BASE     xen_mk_ullong(0x03020000) /* vCPU0..127 */
419 #define GUEST_GICV3_GICR0_SIZE     xen_mk_ullong(0x01000000)
420 
421 /*
422  * 256 MB is reserved for VPCI configuration space based on calculation
423  * 256 buses x 32 devices x 8 functions x 4 KB = 256 MB
424  */
425 #define GUEST_VPCI_ECAM_BASE    xen_mk_ullong(0x10000000)
426 #define GUEST_VPCI_ECAM_SIZE    xen_mk_ullong(0x10000000)
427 
428 /* ACPI tables physical address */
429 #define GUEST_ACPI_BASE xen_mk_ullong(0x20000000)
430 #define GUEST_ACPI_SIZE xen_mk_ullong(0x02000000)
431 
432 /* PL011 mappings */
433 #define GUEST_PL011_BASE    xen_mk_ullong(0x22000000)
434 #define GUEST_PL011_SIZE    xen_mk_ullong(0x00001000)
435 
436 /* Guest PCI-PCIe memory space where config space and BAR will be available.*/
437 #define GUEST_VPCI_ADDR_TYPE_MEM            xen_mk_ullong(0x02000000)
438 #define GUEST_VPCI_MEM_ADDR                 xen_mk_ullong(0x23000000)
439 #define GUEST_VPCI_MEM_SIZE                 xen_mk_ullong(0x10000000)
440 
441 /*
442  * 16MB == 4096 pages reserved for guest to use as a region to map its
443  * grant table in.
444  */
445 #define GUEST_GNTTAB_BASE xen_mk_ullong(0x38000000)
446 #define GUEST_GNTTAB_SIZE xen_mk_ullong(0x01000000)
447 
448 #define GUEST_MAGIC_BASE  xen_mk_ullong(0x39000000)
449 #define GUEST_MAGIC_SIZE  xen_mk_ullong(0x01000000)
450 
451 #define GUEST_RAM_BANKS   2
452 
453 /*
454  * The way to find the extended regions (to be exposed to the guest as unused
455  * address space) relies on the fact that the regions reserved for the RAM
456  * below are big enough to also accommodate such regions.
457  */
458 #define GUEST_RAM0_BASE   xen_mk_ullong(0x40000000) /* 3GB of low RAM @ 1GB */
459 #define GUEST_RAM0_SIZE   xen_mk_ullong(0xc0000000)
460 
461 /* 4GB @ 4GB Prefetch Memory for VPCI */
462 #define GUEST_VPCI_ADDR_TYPE_PREFETCH_MEM   xen_mk_ullong(0x42000000)
463 #define GUEST_VPCI_PREFETCH_MEM_ADDR        xen_mk_ullong(0x100000000)
464 #define GUEST_VPCI_PREFETCH_MEM_SIZE        xen_mk_ullong(0x100000000)
465 
466 #define GUEST_RAM1_BASE   xen_mk_ullong(0x0200000000) /* 1016GB of RAM @ 8GB */
467 #define GUEST_RAM1_SIZE   xen_mk_ullong(0xfe00000000)
468 
469 #define GUEST_RAM_BASE    GUEST_RAM0_BASE /* Lowest RAM address */
470 /* Largest amount of actual RAM, not including holes */
471 #define GUEST_RAM_MAX     (GUEST_RAM0_SIZE + GUEST_RAM1_SIZE)
472 /* Suitable for e.g. const uint64_t ramfoo[] = GUEST_RAM_BANK_FOOS; */
473 #define GUEST_RAM_BANK_BASES   { GUEST_RAM0_BASE, GUEST_RAM1_BASE }
474 #define GUEST_RAM_BANK_SIZES   { GUEST_RAM0_SIZE, GUEST_RAM1_SIZE }
475 
476 /* Current supported guest VCPUs */
477 #define GUEST_MAX_VCPUS 128
478 
479 /* Interrupts */
480 #define GUEST_TIMER_VIRT_PPI    27
481 #define GUEST_TIMER_PHYS_S_PPI  29
482 #define GUEST_TIMER_PHYS_NS_PPI 30
483 #define GUEST_EVTCHN_PPI        31
484 
485 #define GUEST_VPL011_SPI        32
486 
487 /* PSCI functions */
488 #define PSCI_cpu_suspend 0
489 #define PSCI_cpu_off     1
490 #define PSCI_cpu_on      2
491 #define PSCI_migrate     3
492 
493 #endif
494 
495 #ifndef __ASSEMBLY__
496 /* Stub definition of PMU structure */
497 typedef struct xen_pmu_arch { uint8_t dummy; } xen_pmu_arch_t;
498 #endif
499 
500 #endif /*  __XEN_PUBLIC_ARCH_ARM_H__ */
501 
502 /*
503  * Local variables:
504  * mode: C
505  * c-file-style: "BSD"
506  * c-basic-offset: 4
507  * tab-width: 4
508  * indent-tabs-mode: nil
509  * End:
510  */
511