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system.c
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system.c
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/*
* Copyright (C) 2013 Felix Fietkau <nbd@openwrt.org>
* Copyright (C) 2013 John Crispin <blogic@openwrt.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License version 2.1
* as published by the Free Software Foundation
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <sys/utsname.h>
#ifdef linux
#include <sys/sysinfo.h>
#endif
#include <sys/ioctl.h>
#include <sys/types.h>
#include <sys/reboot.h>
#include <sys/stat.h>
#include <sys/statvfs.h>
#include <fcntl.h>
#include <signal.h>
#include <unistd.h>
#include <stdlib.h>
#include <json-c/json_tokener.h>
#include <libubox/blobmsg_json.h>
#include <libubox/uloop.h>
#include "procd.h"
#include "sysupgrade.h"
#include "watchdog.h"
#include "service/service.h"
static struct blob_buf b;
static int notify;
static struct ubus_context *_ctx;
static int initramfs;
enum vjson_state {
VJSON_ERROR,
VJSON_CONTINUE,
VJSON_SUCCESS,
};
static const char *system_rootfs_type(void) {
const char proc_mounts[] = "/proc/self/mounts";
static char fstype[16] = { 0 };
char *mountstr = NULL, *mp = "/", *pos, *tmp;
FILE *mounts;
size_t len = 0;
bool found = false;
if (initramfs)
return "initramfs";
if (fstype[0])
return fstype;
mounts = fopen(proc_mounts, "r");
if (!mounts)
return NULL;
while (getline(&mountstr, &len, mounts) != -1) {
pos = strchr(mountstr, ' ');
if (!pos)
continue;
tmp = pos + 1;
pos = strchr(tmp, ' ');
if (!pos)
continue;
*pos = '\0';
if (strcmp(tmp, mp))
continue;
tmp = pos + 1;
pos = strchr(tmp, ' ');
if (!pos)
continue;
*pos = '\0';
if (!strcmp(tmp, "overlay")) {
/*
* there is no point in parsing overlay option string for
* lowerdir, as that can point to "/" being a previous
* overlay mount (after firstboot or sysuprade config
* restore). Hence just assume the lowerdir is "/rom" and
* restart searching for that instead if that's not
* already the case.
*/
if (!strcmp(mp, "/rom"))
break;
mp = "/rom";
fseek(mounts, 0, SEEK_SET);
continue;
}
found = true;
break;
}
if (found)
strncpy(fstype, tmp, sizeof(fstype) - 1);
fstype[sizeof(fstype) - 1]= '\0';
free(mountstr);
fclose(mounts);
if (found)
return fstype;
else
return NULL;
}
static int system_board(struct ubus_context *ctx, struct ubus_object *obj,
struct ubus_request_data *req, const char *method,
struct blob_attr *msg)
{
void *c;
char line[256];
char *key, *val, *next;
const char *rootfs_type = system_rootfs_type();
struct utsname utsname;
FILE *f;
blob_buf_init(&b, 0);
if (uname(&utsname) >= 0)
{
blobmsg_add_string(&b, "kernel", utsname.release);
blobmsg_add_string(&b, "hostname", utsname.nodename);
}
if ((f = fopen("/proc/cpuinfo", "r")) != NULL)
{
while(fgets(line, sizeof(line), f))
{
key = strtok(line, "\t:");
val = strtok(NULL, "\t\n");
if (!key || !val)
continue;
#ifdef __aarch64__
if (!strcasecmp(key, "CPU revision")) {
snprintf(line, sizeof(line), "ARMv8 Processor rev %lu", strtoul(val + 2, NULL, 16));
blobmsg_add_string(&b, "system", line);
break;
}
#elif __riscv
if (!strcasecmp(key, "isa")) {
snprintf(line, sizeof(line), "RISC-V (%s)", val + 2);
blobmsg_add_string(&b, "system", line);
break;
}
#else
if (!strcasecmp(key, "system type") ||
!strcasecmp(key, "processor") ||
!strcasecmp(key, "cpu") ||
!strcasecmp(key, "model name"))
{
strtoul(val + 2, &key, 0);
if (key == (val + 2) || *key != 0)
{
blobmsg_add_string(&b, "system", val + 2);
break;
}
}
#endif
}
fclose(f);
}
if ((f = fopen("/tmp/sysinfo/model", "r")) != NULL ||
(f = fopen("/proc/device-tree/model", "r")) != NULL)
{
if (fgets(line, sizeof(line), f))
{
val = strtok(line, "\t\n");
if (val)
blobmsg_add_string(&b, "model", val);
}
fclose(f);
}
else if ((f = fopen("/proc/cpuinfo", "r")) != NULL)
{
while(fgets(line, sizeof(line), f))
{
key = strtok(line, "\t:");
val = strtok(NULL, "\t\n");
if (!key || !val)
continue;
if (!strcasecmp(key, "machine") ||
!strcasecmp(key, "hardware"))
{
blobmsg_add_string(&b, "model", val + 2);
break;
}
}
fclose(f);
}
if ((f = fopen("/tmp/sysinfo/board_name", "r")) != NULL)
{
if (fgets(line, sizeof(line), f))
{
val = strtok(line, "\t\n");
if (val)
blobmsg_add_string(&b, "board_name", val);
}
fclose(f);
}
else if ((f = fopen("/proc/device-tree/compatible", "r")) != NULL)
{
if (fgets(line, sizeof(line), f))
{
val = strtok(line, "\t\n");
if (val)
{
next = val;
while ((next = strchr(next, ',')) != NULL)
{
*next = '-';
next++;
}
blobmsg_add_string(&b, "board_name", val);
}
}
fclose(f);
}
if (rootfs_type)
blobmsg_add_string(&b, "rootfs_type", rootfs_type);
if ((f = fopen("/etc/openwrt_release", "r")) != NULL)
{
c = blobmsg_open_table(&b, "release");
while (fgets(line, sizeof(line), f))
{
char *dest;
char ch;
key = line;
val = strchr(line, '=');
if (!val)
continue;
*(val++) = 0;
if (!strcasecmp(key, "DISTRIB_ID"))
key = "distribution";
else if (!strcasecmp(key, "DISTRIB_RELEASE"))
key = "version";
else if (!strcasecmp(key, "DISTRIB_REVISION"))
key = "revision";
else if (!strcasecmp(key, "DISTRIB_CODENAME"))
key = "codename";
else if (!strcasecmp(key, "DISTRIB_TARGET"))
key = "target";
else if (!strcasecmp(key, "DISTRIB_DESCRIPTION"))
key = "description";
else
continue;
dest = blobmsg_alloc_string_buffer(&b, key, strlen(val));
if (!dest) {
ERROR("Failed to allocate blob.\n");
continue;
}
while (val && (ch = *(val++)) != 0) {
switch (ch) {
case '\'':
case '"':
next = strchr(val, ch);
if (next)
*next = 0;
strcpy(dest, val);
if (next)
val = next + 1;
dest += strlen(dest);
break;
case '\\':
*(dest++) = *(val++);
break;
}
}
blobmsg_add_string_buffer(&b);
}
blobmsg_close_array(&b, c);
fclose(f);
}
ubus_send_reply(ctx, req, b.head);
return UBUS_STATUS_OK;
}
static unsigned long
kscale(unsigned long b, unsigned long bs)
{
return (b * (unsigned long long) bs + 1024/2) / 1024;
}
static int system_info(struct ubus_context *ctx, struct ubus_object *obj,
struct ubus_request_data *req, const char *method,
struct blob_attr *msg)
{
time_t now;
struct tm *tm;
#ifdef linux
struct sysinfo info;
void *c;
char line[256];
char *key, *val;
unsigned long long available, cached;
FILE *f;
int i;
struct statvfs s;
const char *fslist[] = {
"/", "root",
"/tmp", "tmp",
};
if (sysinfo(&info))
return UBUS_STATUS_UNKNOWN_ERROR;
if ((f = fopen("/proc/meminfo", "r")) == NULL)
return UBUS_STATUS_UNKNOWN_ERROR;
/* if linux < 3.14 MemAvailable is not in meminfo */
available = 0;
cached = 0;
while (fgets(line, sizeof(line), f))
{
key = strtok(line, " :");
val = strtok(NULL, " ");
if (!key || !val)
continue;
if (!strcasecmp(key, "MemAvailable"))
available = 1024 * atoll(val);
else if (!strcasecmp(key, "Cached"))
cached = 1024 * atoll(val);
}
fclose(f);
#endif
now = time(NULL);
if (!(tm = localtime(&now)))
return UBUS_STATUS_UNKNOWN_ERROR;
blob_buf_init(&b, 0);
blobmsg_add_u32(&b, "localtime", now + tm->tm_gmtoff);
#ifdef linux
blobmsg_add_u32(&b, "uptime", info.uptime);
c = blobmsg_open_array(&b, "load");
blobmsg_add_u32(&b, NULL, info.loads[0]);
blobmsg_add_u32(&b, NULL, info.loads[1]);
blobmsg_add_u32(&b, NULL, info.loads[2]);
blobmsg_close_array(&b, c);
c = blobmsg_open_table(&b, "memory");
blobmsg_add_u64(&b, "total",
(uint64_t)info.mem_unit * (uint64_t)info.totalram);
blobmsg_add_u64(&b, "free",
(uint64_t)info.mem_unit * (uint64_t)info.freeram);
blobmsg_add_u64(&b, "shared",
(uint64_t)info.mem_unit * (uint64_t)info.sharedram);
blobmsg_add_u64(&b, "buffered",
(uint64_t)info.mem_unit * (uint64_t)info.bufferram);
blobmsg_add_u64(&b, "available", available);
blobmsg_add_u64(&b, "cached", cached);
blobmsg_close_table(&b, c);
for (i = 0; i < sizeof(fslist) / sizeof(fslist[0]); i += 2) {
if (statvfs(fslist[i], &s))
continue;
c = blobmsg_open_table(&b, fslist[i+1]);
if (!s.f_frsize)
s.f_frsize = s.f_bsize;
blobmsg_add_u64(&b, "total", kscale(s.f_blocks, s.f_frsize));
blobmsg_add_u64(&b, "free", kscale(s.f_bfree, s.f_frsize));
blobmsg_add_u64(&b, "used", kscale(s.f_blocks - s.f_bfree, s.f_frsize));
blobmsg_add_u64(&b, "avail", kscale(s.f_bavail, s.f_frsize));
blobmsg_close_table(&b, c);
}
c = blobmsg_open_table(&b, "swap");
blobmsg_add_u64(&b, "total",
(uint64_t)info.mem_unit * (uint64_t)info.totalswap);
blobmsg_add_u64(&b, "free",
(uint64_t)info.mem_unit * (uint64_t)info.freeswap);
blobmsg_close_table(&b, c);
#endif
ubus_send_reply(ctx, req, b.head);
return UBUS_STATUS_OK;
}
static int system_reboot(struct ubus_context *ctx, struct ubus_object *obj,
struct ubus_request_data *req, const char *method,
struct blob_attr *msg)
{
procd_shutdown(RB_AUTOBOOT);
return 0;
}
enum {
WDT_FREQUENCY,
WDT_TIMEOUT,
WDT_MAGICCLOSE,
WDT_STOP,
__WDT_MAX
};
static const struct blobmsg_policy watchdog_policy[__WDT_MAX] = {
[WDT_FREQUENCY] = { .name = "frequency", .type = BLOBMSG_TYPE_INT32 },
[WDT_TIMEOUT] = { .name = "timeout", .type = BLOBMSG_TYPE_INT32 },
[WDT_MAGICCLOSE] = { .name = "magicclose", .type = BLOBMSG_TYPE_BOOL },
[WDT_STOP] = { .name = "stop", .type = BLOBMSG_TYPE_BOOL },
};
static int watchdog_set(struct ubus_context *ctx, struct ubus_object *obj,
struct ubus_request_data *req, const char *method,
struct blob_attr *msg)
{
struct blob_attr *tb[__WDT_MAX];
const char *status;
if (!msg)
return UBUS_STATUS_INVALID_ARGUMENT;
blobmsg_parse(watchdog_policy, __WDT_MAX, tb, blob_data(msg), blob_len(msg));
if (tb[WDT_FREQUENCY]) {
unsigned int timeout = tb[WDT_TIMEOUT] ? blobmsg_get_u32(tb[WDT_TIMEOUT]) :
watchdog_timeout(0);
unsigned int freq = blobmsg_get_u32(tb[WDT_FREQUENCY]);
if (freq) {
if (freq > timeout / 2)
freq = timeout / 2;
watchdog_frequency(freq);
}
}
if (tb[WDT_TIMEOUT]) {
unsigned int timeout = blobmsg_get_u32(tb[WDT_TIMEOUT]);
unsigned int frequency = watchdog_frequency(0);
if (timeout <= frequency)
timeout = frequency * 2;
watchdog_timeout(timeout);
}
if (tb[WDT_MAGICCLOSE])
watchdog_set_magicclose(blobmsg_get_bool(tb[WDT_MAGICCLOSE]));
if (tb[WDT_STOP])
watchdog_set_stopped(blobmsg_get_bool(tb[WDT_STOP]));
if (watchdog_fd() == NULL)
status = "offline";
else if (watchdog_get_stopped())
status = "stopped";
else
status = "running";
blob_buf_init(&b, 0);
blobmsg_add_string(&b, "status", status);
blobmsg_add_u32(&b, "timeout", watchdog_timeout(0));
blobmsg_add_u32(&b, "frequency", watchdog_frequency(0));
blobmsg_add_u8(&b, "magicclose", watchdog_get_magicclose());
ubus_send_reply(ctx, req, b.head);
return 0;
}
enum {
SIGNAL_PID,
SIGNAL_NUM,
__SIGNAL_MAX
};
static const struct blobmsg_policy signal_policy[__SIGNAL_MAX] = {
[SIGNAL_PID] = { .name = "pid", .type = BLOBMSG_TYPE_INT32 },
[SIGNAL_NUM] = { .name = "signum", .type = BLOBMSG_TYPE_INT32 },
};
static int proc_signal(struct ubus_context *ctx, struct ubus_object *obj,
struct ubus_request_data *req, const char *method,
struct blob_attr *msg)
{
struct blob_attr *tb[__SIGNAL_MAX];
if (!msg)
return UBUS_STATUS_INVALID_ARGUMENT;
blobmsg_parse(signal_policy, __SIGNAL_MAX, tb, blob_data(msg), blob_len(msg));
if (!tb[SIGNAL_PID || !tb[SIGNAL_NUM]])
return UBUS_STATUS_INVALID_ARGUMENT;
kill(blobmsg_get_u32(tb[SIGNAL_PID]), blobmsg_get_u32(tb[SIGNAL_NUM]));
return 0;
}
__attribute__((format (printf, 2, 3)))
static enum vjson_state vjson_error(char **b, const char *fmt, ...)
{
static char buf[256] = { 0 };
const char *pfx = "Firmware image couldn't be validated: ";
va_list va;
int r;
r = snprintf(buf, sizeof(buf), "%s", pfx);
if (r < 0) {
*b = "vjson_error() snprintf failed";
return VJSON_ERROR;
}
va_start(va, fmt);
r = vsnprintf(buf+r, sizeof(buf)-r, fmt, va);
if (r < 0) {
*b = "vjson_error() vsnprintf failed";
return VJSON_ERROR;
}
va_end(va);
*b = buf;
return VJSON_ERROR;
}
static enum vjson_state vjson_parse_token(json_tokener *tok, char *buf, ssize_t len, char **err)
{
json_object *jsobj = NULL;
jsobj = json_tokener_parse_ex(tok, buf, len);
if (json_tokener_get_error(tok) == json_tokener_continue)
return VJSON_CONTINUE;
if (json_tokener_get_error(tok) == json_tokener_success) {
if (json_object_get_type(jsobj) != json_type_object) {
json_object_put(jsobj);
return vjson_error(err, "result is not an JSON object");
}
blobmsg_add_object(&b, jsobj);
json_object_put(jsobj);
return VJSON_SUCCESS;
}
return vjson_error(err, "failed to parse JSON: %s (%d)",
json_tokener_error_desc(json_tokener_get_error(tok)),
json_tokener_get_error(tok));
}
static enum vjson_state vjson_parse(int fd, char **err)
{
enum vjson_state r = VJSON_ERROR;
size_t read_count = 0;
char buf[64] = { 0 };
json_tokener *tok;
ssize_t len;
int _errno;
tok = json_tokener_new();
if (!tok)
return vjson_error(err, "json_tokener_new() failed");
vjson_error(err, "incomplete JSON input");
while ((len = read(fd, buf, sizeof(buf)))) {
if (len < 0 && errno == EINTR)
continue;
if (len < 0) {
_errno = errno;
json_tokener_free(tok);
return vjson_error(err, "read() failed: %s (%d)",
strerror(_errno), _errno);
}
read_count += len;
r = vjson_parse_token(tok, buf, len, err);
if (r != VJSON_CONTINUE)
break;
memset(buf, 0, sizeof(buf));
}
if (read_count == 0)
vjson_error(err, "no JSON input");
json_tokener_free(tok);
return r;
}
/**
* validate_firmware_image_call - perform validation & store result in global b
*
* @file: firmware image path
*/
static enum vjson_state validate_firmware_image_call(const char *file, char **err)
{
const char *path = "/usr/libexec/validate_firmware_image";
enum vjson_state ret = VJSON_ERROR;
int _errno;
int fds[2];
int fd;
blob_buf_init(&b, 0);
vjson_error(err, "unhandled error");
if (pipe(fds)) {
_errno = errno;
return vjson_error(err, "pipe() failed: %s (%d)",
strerror(_errno), _errno);
}
switch (fork()) {
case -1:
_errno = errno;
close(fds[0]);
close(fds[1]);
return vjson_error(err, "fork() failed: %s (%d)",
strerror(_errno), _errno);
case 0:
/* Set stdin & stderr to /dev/null */
fd = open("/dev/null", O_RDWR);
if (fd >= 0) {
dup2(fd, 0);
dup2(fd, 2);
close(fd);
}
/* Set stdout to the shared pipe */
dup2(fds[1], 1);
close(fds[0]);
close(fds[1]);
execl(path, path, file, NULL);
exit(errno);
}
/* Parent process */
close(fds[1]);
ret = vjson_parse(fds[0], err);
close(fds[0]);
return ret;
}
enum {
VALIDATE_FIRMWARE_IMAGE_PATH,
__VALIDATE_FIRMWARE_IMAGE_MAX,
};
static const struct blobmsg_policy validate_firmware_image_policy[__VALIDATE_FIRMWARE_IMAGE_MAX] = {
[VALIDATE_FIRMWARE_IMAGE_PATH] = { .name = "path", .type = BLOBMSG_TYPE_STRING },
};
static int validate_firmware_image(struct ubus_context *ctx,
struct ubus_object *obj,
struct ubus_request_data *req,
const char *method, struct blob_attr *msg)
{
struct blob_attr *tb[__VALIDATE_FIRMWARE_IMAGE_MAX];
enum vjson_state ret = VJSON_ERROR;
char *err;
if (!msg)
return UBUS_STATUS_INVALID_ARGUMENT;
blobmsg_parse(validate_firmware_image_policy, __VALIDATE_FIRMWARE_IMAGE_MAX, tb, blob_data(msg), blob_len(msg));
if (!tb[VALIDATE_FIRMWARE_IMAGE_PATH])
return UBUS_STATUS_INVALID_ARGUMENT;
ret = validate_firmware_image_call(blobmsg_get_string(tb[VALIDATE_FIRMWARE_IMAGE_PATH]), &err);
if (ret != VJSON_SUCCESS)
return UBUS_STATUS_UNKNOWN_ERROR;
ubus_send_reply(ctx, req, b.head);
return UBUS_STATUS_OK;
}
enum {
SYSUPGRADE_PATH,
SYSUPGRADE_FORCE,
SYSUPGRADE_BACKUP,
SYSUPGRADE_PREFIX,
SYSUPGRADE_COMMAND,
SYSUPGRADE_OPTIONS,
__SYSUPGRADE_MAX
};
static const struct blobmsg_policy sysupgrade_policy[__SYSUPGRADE_MAX] = {
[SYSUPGRADE_PATH] = { .name = "path", .type = BLOBMSG_TYPE_STRING },
[SYSUPGRADE_FORCE] = { .name = "force", .type = BLOBMSG_TYPE_BOOL },
[SYSUPGRADE_BACKUP] = { .name = "backup", .type = BLOBMSG_TYPE_STRING },
[SYSUPGRADE_PREFIX] = { .name = "prefix", .type = BLOBMSG_TYPE_STRING },
[SYSUPGRADE_COMMAND] = { .name = "command", .type = BLOBMSG_TYPE_STRING },
[SYSUPGRADE_OPTIONS] = { .name = "options", .type = BLOBMSG_TYPE_TABLE },
};
static void sysupgrade_error(struct ubus_context *ctx,
struct ubus_request_data *req,
const char *message)
{
void *c;
blob_buf_init(&b, 0);
c = blobmsg_open_table(&b, "error");
blobmsg_add_string(&b, "message", message);
blobmsg_close_table(&b, c);
ubus_send_reply(ctx, req, b.head);
}
static int sysupgrade(struct ubus_context *ctx, struct ubus_object *obj,
struct ubus_request_data *req, const char *method,
struct blob_attr *msg)
{
enum {
VALIDATION_VALID,
VALIDATION_FORCEABLE,
VALIDATION_ALLOW_BACKUP,
__VALIDATION_MAX
};
static const struct blobmsg_policy validation_policy[__VALIDATION_MAX] = {
[VALIDATION_VALID] = { .name = "valid", .type = BLOBMSG_TYPE_BOOL },
[VALIDATION_FORCEABLE] = { .name = "forceable", .type = BLOBMSG_TYPE_BOOL },
[VALIDATION_ALLOW_BACKUP] = { .name = "allow_backup", .type = BLOBMSG_TYPE_BOOL },
};
struct blob_attr *validation[__VALIDATION_MAX];
struct blob_attr *tb[__SYSUPGRADE_MAX];
bool valid, forceable, allow_backup;
enum vjson_state ret = VJSON_ERROR;
char *err;
if (!msg)
return UBUS_STATUS_INVALID_ARGUMENT;
blobmsg_parse(sysupgrade_policy, __SYSUPGRADE_MAX, tb, blob_data(msg), blob_len(msg));
if (!tb[SYSUPGRADE_PATH] || !tb[SYSUPGRADE_PREFIX])
return UBUS_STATUS_INVALID_ARGUMENT;
ret = validate_firmware_image_call(blobmsg_get_string(tb[SYSUPGRADE_PATH]), &err);
if (ret != VJSON_SUCCESS) {
sysupgrade_error(ctx, req, err);
return UBUS_STATUS_UNKNOWN_ERROR;
}
blobmsg_parse(validation_policy, __VALIDATION_MAX, validation, blob_data(b.head), blob_len(b.head));
if (!validation[VALIDATION_VALID] || !validation[VALIDATION_FORCEABLE] ||
!validation[VALIDATION_ALLOW_BACKUP]) {
sysupgrade_error(ctx, req, "Validation script provided invalid input");
return UBUS_STATUS_INVALID_ARGUMENT;
}
valid = validation[VALIDATION_VALID] && blobmsg_get_bool(validation[VALIDATION_VALID]);
forceable = validation[VALIDATION_FORCEABLE] && blobmsg_get_bool(validation[VALIDATION_FORCEABLE]);
allow_backup = validation[VALIDATION_ALLOW_BACKUP] && blobmsg_get_bool(validation[VALIDATION_ALLOW_BACKUP]);
if (!valid) {
if (!forceable) {
sysupgrade_error(ctx, req, "Firmware image is broken and cannot be installed");
return UBUS_STATUS_NOT_SUPPORTED;
} else if (!tb[SYSUPGRADE_FORCE] || !blobmsg_get_bool(tb[SYSUPGRADE_FORCE])) {
sysupgrade_error(ctx, req, "Firmware image is invalid");
return UBUS_STATUS_NOT_SUPPORTED;
}
} else if (!allow_backup && tb[SYSUPGRADE_BACKUP]) {
sysupgrade_error(ctx, req, "Firmware image doesn't allow preserving a backup");
return UBUS_STATUS_NOT_SUPPORTED;
}
service_stop_all();
sysupgrade_exec_upgraded(blobmsg_get_string(tb[SYSUPGRADE_PREFIX]),
blobmsg_get_string(tb[SYSUPGRADE_PATH]),
tb[SYSUPGRADE_BACKUP] ? blobmsg_get_string(tb[SYSUPGRADE_BACKUP]) : NULL,
tb[SYSUPGRADE_COMMAND] ? blobmsg_get_string(tb[SYSUPGRADE_COMMAND]) : NULL,
tb[SYSUPGRADE_OPTIONS]);
/* sysupgrade_exec_upgraded() will never return unless something has gone wrong */
return UBUS_STATUS_UNKNOWN_ERROR;
}
static void
procd_subscribe_cb(struct ubus_context *ctx, struct ubus_object *obj)
{
notify = obj->has_subscribers;
}
static const struct ubus_method system_methods[] = {
UBUS_METHOD_NOARG("board", system_board),
UBUS_METHOD_NOARG("info", system_info),
UBUS_METHOD_NOARG("reboot", system_reboot),
UBUS_METHOD("watchdog", watchdog_set, watchdog_policy),
UBUS_METHOD("signal", proc_signal, signal_policy),
UBUS_METHOD("validate_firmware_image", validate_firmware_image, validate_firmware_image_policy),
UBUS_METHOD("sysupgrade", sysupgrade, sysupgrade_policy),
};
static struct ubus_object_type system_object_type =
UBUS_OBJECT_TYPE("system", system_methods);
static struct ubus_object system_object = {
.name = "system",
.type = &system_object_type,
.methods = system_methods,
.n_methods = ARRAY_SIZE(system_methods),
.subscribe_cb = procd_subscribe_cb,
};
void
procd_bcast_event(char *event, struct blob_attr *msg)
{
int ret;
if (!notify)
return;
ret = ubus_notify(_ctx, &system_object, event, msg, -1);
if (ret)
fprintf(stderr, "Failed to notify log: %s\n", ubus_strerror(ret));
}
void ubus_init_system(struct ubus_context *ctx)
{
int ret;
_ctx = ctx;
initramfs = !!getenv("INITRAMFS");
if (initramfs)
unsetenv("INITRAMFS");
ret = ubus_add_object(ctx, &system_object);
if (ret)
ERROR("Failed to add object: %s\n", ubus_strerror(ret));
}