-
Notifications
You must be signed in to change notification settings - Fork 1
/
fwup-ops.conf
174 lines (156 loc) · 5.64 KB
/
fwup-ops.conf
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
# Post-installation firmware operations for the AM62X
#
# Tasks include:
#
# * `factory-reset` - Clear out the writable filesystem and any other writable
# areas so that they can be re-initialized on the next boot.
# * `prevent-revert` - Prevent `revert` from working until the next firmware
# * `revert` - Revert to the previous firmware if it's still available
# * `validate` - Mark this firmware as a good update.
# * `status` - Print out which partition is active (`a` or `b`)
#
# To use:
#
# 1. Run `fwup -c -f fwup-ops.conf -o ops.fw` and copy ops.fw to
# the device. This is done automatically as part of the Nerves system
# build process. The file is stored in `/usr/share/fwup/ops.fw`.
# 2. On the device, run `fwup -t <task> -d /dev/rootdisk0 --enable-trim /usr/share/fwup/ops.fw`.
# 3. Reboot after running `revert` or `factory-reset`.
require-fwup-version="1.0.0"
include("${NERVES_SDK_IMAGES:-.}/fwup_include/fwup-common.conf")
##
# factory-reset
##
task factory-reset {
on-init {
info("Erasing all writable data")
# This requires --enable-trim
trim(${APP_PART_OFFSET}, ${APP_PART_COUNT})
raw_memset(${APP_PART_OFFSET}, 256, 0xff)
}
}
##
# prevent-revert
#
# Pass `--enable-trim` to also clear out the partition that no longer should be used.
##
task prevent-revert.a {
# Check that we're running on B
require-uboot-variable(uboot-env, "nerves_fw_active", "b")
on-init {
info("Preventing reverts to partition A")
# Remove U-Boot variables that fwup uses to allow reverting images
uboot_unsetenv(uboot-env, "a.nerves_fw_platform")
uboot_unsetenv(uboot-env, "a.nerves_fw_architecture")
# Clear out the old image using TRIM. This requires --enable-trim
trim(${ROOTFS_A_PART_OFFSET}, ${ROOTFS_A_PART_COUNT})
fat_rm(${BOOT_PART_OFFSET}, "zImage.a")
}
}
task prevent-revert.b {
# Check that we're running on A
require-uboot-variable(uboot-env, "nerves_fw_active", "a")
on-init {
info("Preventing reverts to partition B")
# Remove U-Boot variables that fwup uses to allow reverting images
uboot_unsetenv(uboot-env, "b.nerves_fw_platform")
uboot_unsetenv(uboot-env, "b.nerves_fw_architecture")
# Clear out the old image using TRIM. This requires --enable-trim
trim(${ROOTFS_B_PART_OFFSET}, ${ROOTFS_B_PART_COUNT})
fat_rm(${BOOT_PART_OFFSET}, "zImage.b")
}
}
task prevent-revert.fail {
on-init {
error("Error detecting active partition")
}
}
##
# revert
##
task revert.a {
# This task reverts to the A partition, so check that we're running on B
require-uboot-variable(uboot-env, "nerves_fw_active", "b")
# Verify that partition A has the expected platform/architecture
require-uboot-variable(uboot-env, "a.nerves_fw_platform", "${NERVES_FW_PLATFORM}")
require-uboot-variable(uboot-env, "a.nerves_fw_architecture", "${NERVES_FW_ARCHITECTURE}")
on-init {
info("Reverting to partition A")
# Switch over
uboot_setenv(uboot-env, "nerves_fw_active", "a")
uboot_setenv(uboot-env, "nerves_fw_validated", "1")
}
}
task revert.b {
# This task reverts to the B partition, so check that we're running on A
require-uboot-variable(uboot-env, "nerves_fw_active", "a")
# Verify that partition B has the expected platform/architecture
require-uboot-variable(uboot-env, "b.nerves_fw_platform", "${NERVES_FW_PLATFORM}")
require-uboot-variable(uboot-env, "b.nerves_fw_architecture", "${NERVES_FW_ARCHITECTURE}")
on-init {
info("Reverting to partition B")
# Switch over
uboot_setenv(uboot-env, "nerves_fw_active", "b")
uboot_setenv(uboot-env, "nerves_fw_validated", "1")
}
}
task revert.unexpected.a {
require-uboot-variable(uboot-env, "a.nerves_fw_platform", "${NERVES_FW_PLATFORM}")
require-uboot-variable(uboot-env, "a.nerves_fw_architecture", "${NERVES_FW_ARCHITECTURE}")
on-init {
# Case where A is good, and the desire is to go to B.
error("It doesn't look like there's anything to revert to in partition B.")
}
}
task revert.unexpected.b {
require-uboot-variable(uboot-env, "b.nerves_fw_platform", "${NERVES_FW_PLATFORM}")
require-uboot-variable(uboot-env, "b.nerves_fw_architecture", "${NERVES_FW_ARCHITECTURE}")
on-init {
# Case where B is good, and the desire is to go to A.
error("It doesn't look like there's anything to revert to in partition A.")
}
}
task revert.wrongplatform {
on-init {
error("Expecting platform=${NERVES_FW_PLATFORM} and architecture=${NERVES_FW_ARCHITECTURE}")
}
}
##
# status
#
# Run "fwup /usr/share/fwup/ops.fw -t status -d /dev/rootdisk0 -q -U" to check the status.
##
task status.aa {
require-path-on-device("/", "/dev/mmcblk1p2")
require-uboot-variable(uboot-env, "nerves_fw_active", "a")
on-init { info("a") }
}
task status.ab {
require-path-on-device("/", "/dev/mmcblk1p2")
require-uboot-variable(uboot-env, "nerves_fw_active", "b")
on-init { info("a->b") }
}
task status.bb {
require-path-on-device("/", "/dev/mmcblk1p3")
require-uboot-variable(uboot-env, "nerves_fw_active", "b")
on-init { info("b") }
}
task status.ba {
require-path-on-device("/", "/dev/mmcblk1p3")
require-uboot-variable(uboot-env, "nerves_fw_active", "a")
on-init { info("b->a") }
}
task status.fail {
on-init { error("fail") }
}
##
# validate
##
task validate {
on-init {
info("Validate")
uboot_setenv(uboot-env, "nerves_fw_validated", "1")
uboot_setenv(uboot-env, "upgrade_available", "0")
uboot_setenv(uboot-env, "bootcount", "1")
}
}