1ff50e9d5SAndrew Turner /*-
2ff50e9d5SAndrew Turner * SPDX-License-Identifier: BSD-2-Clause
3ff50e9d5SAndrew Turner *
4ff50e9d5SAndrew Turner * Copyright (c) 2011 NetApp, Inc.
5ff50e9d5SAndrew Turner * All rights reserved.
6ff50e9d5SAndrew Turner *
7ff50e9d5SAndrew Turner * Redistribution and use in source and binary forms, with or without
8ff50e9d5SAndrew Turner * modification, are permitted provided that the following conditions
9ff50e9d5SAndrew Turner * are met:
10ff50e9d5SAndrew Turner * 1. Redistributions of source code must retain the above copyright
11ff50e9d5SAndrew Turner * notice, this list of conditions and the following disclaimer.
12ff50e9d5SAndrew Turner * 2. Redistributions in binary form must reproduce the above copyright
13ff50e9d5SAndrew Turner * notice, this list of conditions and the following disclaimer in the
14ff50e9d5SAndrew Turner * documentation and/or other materials provided with the distribution.
15ff50e9d5SAndrew Turner *
16ff50e9d5SAndrew Turner * THIS SOFTWARE IS PROVIDED BY NETAPP, INC ``AS IS'' AND
17ff50e9d5SAndrew Turner * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18ff50e9d5SAndrew Turner * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19ff50e9d5SAndrew Turner * ARE DISCLAIMED. IN NO EVENT SHALL NETAPP, INC OR CONTRIBUTORS BE LIABLE
20ff50e9d5SAndrew Turner * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21ff50e9d5SAndrew Turner * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
22ff50e9d5SAndrew Turner * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23ff50e9d5SAndrew Turner * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
24ff50e9d5SAndrew Turner * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
25ff50e9d5SAndrew Turner * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26ff50e9d5SAndrew Turner * SUCH DAMAGE.
27ff50e9d5SAndrew Turner */
28ff50e9d5SAndrew Turner
29ff50e9d5SAndrew Turner #include <sys/param.h>
30ff50e9d5SAndrew Turner #include <sys/mman.h>
31ff50e9d5SAndrew Turner #include <sys/stat.h>
32ff50e9d5SAndrew Turner
33ff50e9d5SAndrew Turner #include <assert.h>
34ff50e9d5SAndrew Turner #include <err.h>
35ff50e9d5SAndrew Turner #include <errno.h>
36ff50e9d5SAndrew Turner #include <fcntl.h>
37981f9f74SMark Johnston #include <stdlib.h>
38ff50e9d5SAndrew Turner #include <string.h>
39981f9f74SMark Johnston #include <sysexits.h>
40ff50e9d5SAndrew Turner #include <unistd.h>
41ff50e9d5SAndrew Turner
42ff50e9d5SAndrew Turner #include <vmmapi.h>
43ff50e9d5SAndrew Turner
44ff50e9d5SAndrew Turner #include "bhyverun.h"
45ff50e9d5SAndrew Turner #include "config.h"
46ff50e9d5SAndrew Turner #include "debug.h"
47ff50e9d5SAndrew Turner #include "fdt.h"
48ff50e9d5SAndrew Turner #include "mem.h"
49981f9f74SMark Johnston #include "pci_emul.h"
500efad4acSJessica Clarke #include "pci_irq.h"
51014d7082SJessica Clarke #include "rtc_pl031.h"
52ff50e9d5SAndrew Turner #include "uart_emul.h"
53ff50e9d5SAndrew Turner
54ff50e9d5SAndrew Turner /* Start of mem + 1M */
55ff50e9d5SAndrew Turner #define FDT_BASE 0x100000
56ff50e9d5SAndrew Turner #define FDT_SIZE (64 * 1024)
57ff50e9d5SAndrew Turner
58ff50e9d5SAndrew Turner /* Start of lowmem + 64K */
59ff50e9d5SAndrew Turner #define UART_MMIO_BASE 0x10000
60ff50e9d5SAndrew Turner #define UART_MMIO_SIZE 0x1000
61ff50e9d5SAndrew Turner #define UART_INTR 32
62014d7082SJessica Clarke #define RTC_MMIO_BASE 0x11000
63014d7082SJessica Clarke #define RTC_MMIO_SIZE 0x1000
64014d7082SJessica Clarke #define RTC_INTR 33
65ff50e9d5SAndrew Turner
66ff50e9d5SAndrew Turner #define GIC_DIST_BASE 0x2f000000
67ff50e9d5SAndrew Turner #define GIC_DIST_SIZE 0x10000
68ff50e9d5SAndrew Turner #define GIC_REDIST_BASE 0x2f100000
69ff50e9d5SAndrew Turner #define GIC_REDIST_SIZE(ncpu) ((ncpu) * 2 * PAGE_SIZE_64K)
70ff50e9d5SAndrew Turner
710efad4acSJessica Clarke #define PCIE_INTA 34
720efad4acSJessica Clarke #define PCIE_INTB 35
730efad4acSJessica Clarke #define PCIE_INTC 36
740efad4acSJessica Clarke #define PCIE_INTD 37
75ff50e9d5SAndrew Turner
76ff50e9d5SAndrew Turner void
bhyve_init_config(void)77ff50e9d5SAndrew Turner bhyve_init_config(void)
78ff50e9d5SAndrew Turner {
79ff50e9d5SAndrew Turner init_config();
80ff50e9d5SAndrew Turner
81ff50e9d5SAndrew Turner /* Set default values prior to option parsing. */
82ff50e9d5SAndrew Turner set_config_bool("acpi_tables", false);
83ff50e9d5SAndrew Turner set_config_bool("acpi_tables_in_memory", false);
84ff50e9d5SAndrew Turner set_config_value("memory.size", "256M");
85ff50e9d5SAndrew Turner }
86ff50e9d5SAndrew Turner
87ff50e9d5SAndrew Turner void
bhyve_usage(int code)88981f9f74SMark Johnston bhyve_usage(int code)
89981f9f74SMark Johnston {
90981f9f74SMark Johnston const char *progname;
91981f9f74SMark Johnston
92981f9f74SMark Johnston progname = getprogname();
93981f9f74SMark Johnston
94981f9f74SMark Johnston fprintf(stderr,
95981f9f74SMark Johnston "Usage: %s [-CDHhSW]\n"
96981f9f74SMark Johnston " %*s [-c [[cpus=]numcpus][,sockets=n][,cores=n][,threads=n]]\n"
97981f9f74SMark Johnston " %*s [-k config_file] [-m mem] [-o var=value]\n"
98981f9f74SMark Johnston " %*s [-p vcpu:hostcpu] [-r file] [-s pci] [-U uuid] vmname\n"
99981f9f74SMark Johnston " -C: include guest memory in core file\n"
100981f9f74SMark Johnston " -c: number of CPUs and/or topology specification\n"
101981f9f74SMark Johnston " -D: destroy on power-off\n"
102*a0ca4af9SMark Johnston " -G: start a debug server\n"
103981f9f74SMark Johnston " -h: help\n"
104981f9f74SMark Johnston " -k: key=value flat config file\n"
105981f9f74SMark Johnston " -m: memory size\n"
106981f9f74SMark Johnston " -o: set config 'var' to 'value'\n"
107981f9f74SMark Johnston " -p: pin 'vcpu' to 'hostcpu'\n"
108981f9f74SMark Johnston " -S: guest memory cannot be swapped\n"
109981f9f74SMark Johnston " -s: <slot,driver,configinfo> PCI slot config\n"
110981f9f74SMark Johnston " -U: UUID\n"
111981f9f74SMark Johnston " -W: force virtio to use single-vector MSI\n",
112981f9f74SMark Johnston progname, (int)strlen(progname), "", (int)strlen(progname), "",
113981f9f74SMark Johnston (int)strlen(progname), "");
114981f9f74SMark Johnston exit(code);
115981f9f74SMark Johnston }
116981f9f74SMark Johnston
117981f9f74SMark Johnston void
bhyve_optparse(int argc,char ** argv)118981f9f74SMark Johnston bhyve_optparse(int argc, char **argv)
119981f9f74SMark Johnston {
120981f9f74SMark Johnston const char *optstr;
121981f9f74SMark Johnston int c;
122981f9f74SMark Johnston
123*a0ca4af9SMark Johnston optstr = "hCDSWk:f:o:p:G:c:s:m:U:";
124981f9f74SMark Johnston while ((c = getopt(argc, argv, optstr)) != -1) {
125981f9f74SMark Johnston switch (c) {
126981f9f74SMark Johnston case 'c':
127981f9f74SMark Johnston if (bhyve_topology_parse(optarg) != 0) {
128981f9f74SMark Johnston errx(EX_USAGE, "invalid cpu topology '%s'",
129981f9f74SMark Johnston optarg);
130981f9f74SMark Johnston }
131981f9f74SMark Johnston break;
132981f9f74SMark Johnston case 'C':
133981f9f74SMark Johnston set_config_bool("memory.guest_in_core", true);
134981f9f74SMark Johnston break;
135981f9f74SMark Johnston case 'D':
136981f9f74SMark Johnston set_config_bool("destroy_on_poweroff", true);
137981f9f74SMark Johnston break;
138*a0ca4af9SMark Johnston case 'G':
139*a0ca4af9SMark Johnston bhyve_parse_gdb_options(optarg);
140*a0ca4af9SMark Johnston break;
141981f9f74SMark Johnston case 'k':
142981f9f74SMark Johnston bhyve_parse_simple_config_file(optarg);
143981f9f74SMark Johnston break;
144981f9f74SMark Johnston case 'm':
145981f9f74SMark Johnston set_config_value("memory.size", optarg);
146981f9f74SMark Johnston break;
147981f9f74SMark Johnston case 'o':
148981f9f74SMark Johnston if (!bhyve_parse_config_option(optarg)) {
149981f9f74SMark Johnston errx(EX_USAGE,
150981f9f74SMark Johnston "invalid configuration option '%s'",
151981f9f74SMark Johnston optarg);
152981f9f74SMark Johnston }
153981f9f74SMark Johnston break;
154981f9f74SMark Johnston case 'p':
155981f9f74SMark Johnston if (bhyve_pincpu_parse(optarg) != 0) {
156981f9f74SMark Johnston errx(EX_USAGE,
157981f9f74SMark Johnston "invalid vcpu pinning configuration '%s'",
158981f9f74SMark Johnston optarg);
159981f9f74SMark Johnston }
160981f9f74SMark Johnston break;
161981f9f74SMark Johnston case 's':
162981f9f74SMark Johnston if (strncmp(optarg, "help", strlen(optarg)) == 0) {
163981f9f74SMark Johnston pci_print_supported_devices();
164981f9f74SMark Johnston exit(0);
165981f9f74SMark Johnston } else if (pci_parse_slot(optarg) != 0)
166981f9f74SMark Johnston exit(4);
167981f9f74SMark Johnston else
168981f9f74SMark Johnston break;
169981f9f74SMark Johnston case 'S':
170981f9f74SMark Johnston set_config_bool("memory.wired", true);
171981f9f74SMark Johnston break;
172981f9f74SMark Johnston case 'U':
173981f9f74SMark Johnston set_config_value("uuid", optarg);
174981f9f74SMark Johnston break;
175981f9f74SMark Johnston case 'W':
176981f9f74SMark Johnston set_config_bool("virtio_msix", false);
177981f9f74SMark Johnston break;
178981f9f74SMark Johnston case 'h':
179981f9f74SMark Johnston bhyve_usage(0);
180981f9f74SMark Johnston default:
181981f9f74SMark Johnston bhyve_usage(1);
182981f9f74SMark Johnston }
183981f9f74SMark Johnston }
184981f9f74SMark Johnston }
185981f9f74SMark Johnston
186981f9f74SMark Johnston void
bhyve_init_vcpu(struct vcpu * vcpu __unused)187ff50e9d5SAndrew Turner bhyve_init_vcpu(struct vcpu *vcpu __unused)
188ff50e9d5SAndrew Turner {
189ff50e9d5SAndrew Turner }
190ff50e9d5SAndrew Turner
191ff50e9d5SAndrew Turner void
bhyve_start_vcpu(struct vcpu * vcpu,bool bsp __unused)192ff50e9d5SAndrew Turner bhyve_start_vcpu(struct vcpu *vcpu, bool bsp __unused)
193ff50e9d5SAndrew Turner {
194ff50e9d5SAndrew Turner fbsdrun_addcpu(vcpu_id(vcpu));
195ff50e9d5SAndrew Turner }
196ff50e9d5SAndrew Turner
197ff50e9d5SAndrew Turner /*
198ff50e9d5SAndrew Turner * Load the specified boot code at the beginning of high memory.
199ff50e9d5SAndrew Turner */
200ff50e9d5SAndrew Turner static void
load_bootrom(struct vmctx * ctx,const char * path,uint64_t * elrp)201ff50e9d5SAndrew Turner load_bootrom(struct vmctx *ctx, const char *path, uint64_t *elrp)
202ff50e9d5SAndrew Turner {
203ff50e9d5SAndrew Turner struct stat sb;
204ff50e9d5SAndrew Turner void *data, *gptr;
205ff50e9d5SAndrew Turner vm_paddr_t loadaddr;
206ff50e9d5SAndrew Turner off_t size;
207ff50e9d5SAndrew Turner int fd;
208ff50e9d5SAndrew Turner
209ff50e9d5SAndrew Turner fd = open(path, O_RDONLY);
210ff50e9d5SAndrew Turner if (fd < 0)
211ff50e9d5SAndrew Turner err(1, "open(%s)", path);
212ff50e9d5SAndrew Turner if (fstat(fd, &sb) != 0)
213ff50e9d5SAndrew Turner err(1, "fstat(%s)", path);
214ff50e9d5SAndrew Turner
215ff50e9d5SAndrew Turner size = sb.st_size;
216ff50e9d5SAndrew Turner
217ff50e9d5SAndrew Turner loadaddr = vm_get_highmem_base(ctx);
218ff50e9d5SAndrew Turner gptr = vm_map_gpa(ctx, loadaddr, round_page(size));
219ff50e9d5SAndrew Turner
220ff50e9d5SAndrew Turner data = mmap(NULL, size, PROT_READ, MAP_PRIVATE, fd, 0);
221ff50e9d5SAndrew Turner if (data == MAP_FAILED)
222ff50e9d5SAndrew Turner err(1, "mmap(%s)", path);
223ff50e9d5SAndrew Turner (void)close(fd);
224ff50e9d5SAndrew Turner memcpy(gptr, data, size);
225ff50e9d5SAndrew Turner
226ff50e9d5SAndrew Turner if (munmap(data, size) != 0)
227ff50e9d5SAndrew Turner err(1, "munmap(%s)", path);
228ff50e9d5SAndrew Turner
229ff50e9d5SAndrew Turner *elrp = loadaddr;
230ff50e9d5SAndrew Turner }
231ff50e9d5SAndrew Turner
232ff50e9d5SAndrew Turner static void
mmio_uart_intr_assert(void * arg)233ff50e9d5SAndrew Turner mmio_uart_intr_assert(void *arg)
234ff50e9d5SAndrew Turner {
235ff50e9d5SAndrew Turner struct vmctx *ctx = arg;
236ff50e9d5SAndrew Turner
237ff50e9d5SAndrew Turner vm_assert_irq(ctx, UART_INTR);
238ff50e9d5SAndrew Turner }
239ff50e9d5SAndrew Turner
240ff50e9d5SAndrew Turner static void
mmio_uart_intr_deassert(void * arg)241ff50e9d5SAndrew Turner mmio_uart_intr_deassert(void *arg)
242ff50e9d5SAndrew Turner {
243ff50e9d5SAndrew Turner struct vmctx *ctx = arg;
244ff50e9d5SAndrew Turner
245ff50e9d5SAndrew Turner vm_deassert_irq(ctx, UART_INTR);
246ff50e9d5SAndrew Turner }
247ff50e9d5SAndrew Turner
248ff50e9d5SAndrew Turner static int
mmio_uart_mem_handler(struct vcpu * vcpu __unused,int dir,uint64_t addr,int size __unused,uint64_t * val,void * arg1,long arg2)249ff50e9d5SAndrew Turner mmio_uart_mem_handler(struct vcpu *vcpu __unused, int dir,
250ff50e9d5SAndrew Turner uint64_t addr, int size __unused, uint64_t *val, void *arg1, long arg2)
251ff50e9d5SAndrew Turner {
252ff50e9d5SAndrew Turner struct uart_pl011_softc *sc = arg1;
253ff50e9d5SAndrew Turner long reg;
254ff50e9d5SAndrew Turner
255ff50e9d5SAndrew Turner reg = (addr - arg2) >> 2;
256ff50e9d5SAndrew Turner if (dir == MEM_F_WRITE)
257ff50e9d5SAndrew Turner uart_pl011_write(sc, reg, *val);
258ff50e9d5SAndrew Turner else
259ff50e9d5SAndrew Turner *val = uart_pl011_read(sc, reg);
260ff50e9d5SAndrew Turner
261ff50e9d5SAndrew Turner return (0);
262ff50e9d5SAndrew Turner }
263ff50e9d5SAndrew Turner
264ff50e9d5SAndrew Turner static bool
init_mmio_uart(struct vmctx * ctx)265ff50e9d5SAndrew Turner init_mmio_uart(struct vmctx *ctx)
266ff50e9d5SAndrew Turner {
267ff50e9d5SAndrew Turner struct uart_pl011_softc *sc;
268ff50e9d5SAndrew Turner struct mem_range mr;
269ff50e9d5SAndrew Turner const char *path;
270ff50e9d5SAndrew Turner int error;
271ff50e9d5SAndrew Turner
272ff50e9d5SAndrew Turner path = get_config_value("console");
273ff50e9d5SAndrew Turner if (path == NULL)
274ff50e9d5SAndrew Turner return (false);
275ff50e9d5SAndrew Turner
276ff50e9d5SAndrew Turner sc = uart_pl011_init(mmio_uart_intr_assert, mmio_uart_intr_deassert,
277ff50e9d5SAndrew Turner ctx);
278ff50e9d5SAndrew Turner if (uart_pl011_tty_open(sc, path) != 0) {
279ff50e9d5SAndrew Turner EPRINTLN("Unable to initialize backend '%s' for mmio uart",
280ff50e9d5SAndrew Turner path);
281ff50e9d5SAndrew Turner assert(0);
282ff50e9d5SAndrew Turner }
283ff50e9d5SAndrew Turner
284ff50e9d5SAndrew Turner bzero(&mr, sizeof(struct mem_range));
285ff50e9d5SAndrew Turner mr.name = "uart";
286ff50e9d5SAndrew Turner mr.base = UART_MMIO_BASE;
287ff50e9d5SAndrew Turner mr.size = UART_MMIO_SIZE;
288ff50e9d5SAndrew Turner mr.flags = MEM_F_RW;
289ff50e9d5SAndrew Turner mr.handler = mmio_uart_mem_handler;
290ff50e9d5SAndrew Turner mr.arg1 = sc;
291ff50e9d5SAndrew Turner mr.arg2 = mr.base;
292ff50e9d5SAndrew Turner error = register_mem(&mr);
293ff50e9d5SAndrew Turner assert(error == 0);
294ff50e9d5SAndrew Turner
295ff50e9d5SAndrew Turner return (true);
296ff50e9d5SAndrew Turner }
297ff50e9d5SAndrew Turner
298014d7082SJessica Clarke static void
mmio_rtc_intr_assert(void * arg)299014d7082SJessica Clarke mmio_rtc_intr_assert(void *arg)
300014d7082SJessica Clarke {
301014d7082SJessica Clarke struct vmctx *ctx = arg;
302014d7082SJessica Clarke
303014d7082SJessica Clarke vm_assert_irq(ctx, RTC_INTR);
304014d7082SJessica Clarke }
305014d7082SJessica Clarke
306014d7082SJessica Clarke static void
mmio_rtc_intr_deassert(void * arg)307014d7082SJessica Clarke mmio_rtc_intr_deassert(void *arg)
308014d7082SJessica Clarke {
309014d7082SJessica Clarke struct vmctx *ctx = arg;
310014d7082SJessica Clarke
311014d7082SJessica Clarke vm_deassert_irq(ctx, RTC_INTR);
312014d7082SJessica Clarke }
313014d7082SJessica Clarke
314014d7082SJessica Clarke static int
mmio_rtc_mem_handler(struct vcpu * vcpu __unused,int dir,uint64_t addr,int size __unused,uint64_t * val,void * arg1,long arg2)315014d7082SJessica Clarke mmio_rtc_mem_handler(struct vcpu *vcpu __unused, int dir,
316014d7082SJessica Clarke uint64_t addr, int size __unused, uint64_t *val, void *arg1, long arg2)
317014d7082SJessica Clarke {
318014d7082SJessica Clarke struct rtc_pl031_softc *sc = arg1;
319014d7082SJessica Clarke long reg;
320014d7082SJessica Clarke
321014d7082SJessica Clarke reg = addr - arg2;
322014d7082SJessica Clarke if (dir == MEM_F_WRITE)
323014d7082SJessica Clarke rtc_pl031_write(sc, reg, *val);
324014d7082SJessica Clarke else
325014d7082SJessica Clarke *val = rtc_pl031_read(sc, reg);
326014d7082SJessica Clarke
327014d7082SJessica Clarke return (0);
328014d7082SJessica Clarke }
329014d7082SJessica Clarke
330014d7082SJessica Clarke static void
init_mmio_rtc(struct vmctx * ctx)331014d7082SJessica Clarke init_mmio_rtc(struct vmctx *ctx)
332014d7082SJessica Clarke {
333014d7082SJessica Clarke struct rtc_pl031_softc *sc;
334014d7082SJessica Clarke struct mem_range mr;
335014d7082SJessica Clarke int error;
336014d7082SJessica Clarke
337014d7082SJessica Clarke sc = rtc_pl031_init(mmio_rtc_intr_assert, mmio_rtc_intr_deassert,
338014d7082SJessica Clarke ctx);
339014d7082SJessica Clarke
340014d7082SJessica Clarke bzero(&mr, sizeof(struct mem_range));
341014d7082SJessica Clarke mr.name = "rtc";
342014d7082SJessica Clarke mr.base = RTC_MMIO_BASE;
343014d7082SJessica Clarke mr.size = RTC_MMIO_SIZE;
344014d7082SJessica Clarke mr.flags = MEM_F_RW;
345014d7082SJessica Clarke mr.handler = mmio_rtc_mem_handler;
346014d7082SJessica Clarke mr.arg1 = sc;
347014d7082SJessica Clarke mr.arg2 = mr.base;
348014d7082SJessica Clarke error = register_mem(&mr);
349014d7082SJessica Clarke assert(error == 0);
350014d7082SJessica Clarke }
351014d7082SJessica Clarke
352ff50e9d5SAndrew Turner static vm_paddr_t
fdt_gpa(struct vmctx * ctx)353ff50e9d5SAndrew Turner fdt_gpa(struct vmctx *ctx)
354ff50e9d5SAndrew Turner {
355ff50e9d5SAndrew Turner return (vm_get_highmem_base(ctx) + FDT_BASE);
356ff50e9d5SAndrew Turner }
357ff50e9d5SAndrew Turner
358ff50e9d5SAndrew Turner int
bhyve_init_platform(struct vmctx * ctx,struct vcpu * bsp)359ff50e9d5SAndrew Turner bhyve_init_platform(struct vmctx *ctx, struct vcpu *bsp)
360ff50e9d5SAndrew Turner {
361ff50e9d5SAndrew Turner const char *bootrom;
362ff50e9d5SAndrew Turner uint64_t elr;
363ff50e9d5SAndrew Turner int error;
3640efad4acSJessica Clarke int pcie_intrs[4] = {PCIE_INTA, PCIE_INTB, PCIE_INTC, PCIE_INTD};
365ff50e9d5SAndrew Turner
366ff50e9d5SAndrew Turner bootrom = get_config_value("bootrom");
367ff50e9d5SAndrew Turner if (bootrom == NULL) {
368ff50e9d5SAndrew Turner warnx("no bootrom specified");
369ff50e9d5SAndrew Turner return (ENOENT);
370ff50e9d5SAndrew Turner }
371ff50e9d5SAndrew Turner load_bootrom(ctx, bootrom, &elr);
372ff50e9d5SAndrew Turner error = vm_set_register(bsp, VM_REG_GUEST_PC, elr);
373ff50e9d5SAndrew Turner if (error != 0) {
374ff50e9d5SAndrew Turner warn("vm_set_register(GUEST_PC)");
375ff50e9d5SAndrew Turner return (error);
376ff50e9d5SAndrew Turner }
377ff50e9d5SAndrew Turner
378ff50e9d5SAndrew Turner error = fdt_init(ctx, guest_ncpus, fdt_gpa(ctx), FDT_SIZE);
379ff50e9d5SAndrew Turner if (error != 0)
380ff50e9d5SAndrew Turner return (error);
381ff50e9d5SAndrew Turner
382ff50e9d5SAndrew Turner fdt_add_gic(GIC_DIST_BASE, GIC_DIST_SIZE, GIC_REDIST_BASE,
383ff50e9d5SAndrew Turner GIC_REDIST_SIZE(guest_ncpus));
384ff50e9d5SAndrew Turner error = vm_attach_vgic(ctx, GIC_DIST_BASE, GIC_DIST_SIZE,
385ff50e9d5SAndrew Turner GIC_REDIST_BASE, GIC_REDIST_SIZE(guest_ncpus));
386ff50e9d5SAndrew Turner if (error != 0) {
387ff50e9d5SAndrew Turner warn("vm_attach_vgic()");
388ff50e9d5SAndrew Turner return (error);
389ff50e9d5SAndrew Turner }
390ff50e9d5SAndrew Turner
391ff50e9d5SAndrew Turner if (init_mmio_uart(ctx))
392ff50e9d5SAndrew Turner fdt_add_uart(UART_MMIO_BASE, UART_MMIO_SIZE, UART_INTR);
393014d7082SJessica Clarke init_mmio_rtc(ctx);
394014d7082SJessica Clarke fdt_add_rtc(RTC_MMIO_BASE, RTC_MMIO_SIZE, RTC_INTR);
395ff50e9d5SAndrew Turner fdt_add_timer();
3960efad4acSJessica Clarke pci_irq_init(pcie_intrs);
3970efad4acSJessica Clarke fdt_add_pcie(pcie_intrs);
398ff50e9d5SAndrew Turner
399ff50e9d5SAndrew Turner return (0);
400ff50e9d5SAndrew Turner }
401ff50e9d5SAndrew Turner
402ff50e9d5SAndrew Turner int
bhyve_init_platform_late(struct vmctx * ctx,struct vcpu * bsp __unused)403ff50e9d5SAndrew Turner bhyve_init_platform_late(struct vmctx *ctx, struct vcpu *bsp __unused)
404ff50e9d5SAndrew Turner {
405ff50e9d5SAndrew Turner int error;
406ff50e9d5SAndrew Turner
407ff50e9d5SAndrew Turner fdt_finalize();
408ff50e9d5SAndrew Turner
409ff50e9d5SAndrew Turner error = vm_set_register(bsp, VM_REG_GUEST_X0, fdt_gpa(ctx));
410ff50e9d5SAndrew Turner assert(error == 0);
411ff50e9d5SAndrew Turner
412ff50e9d5SAndrew Turner return (0);
413ff50e9d5SAndrew Turner }
414