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|
/* SPDX-License-Identifier: LGPL-2.1-or-later */
#include "alloc-util.h"
#include "extract-word.h"
#include "image-policy.h"
#include "logarithm.h"
#include "sort-util.h"
#include "string-util.h"
#include "strv.h"
/* Rationale for the chosen syntax:
*
* → one line, so that it can be reasonably added to a shell command line, for example via `systemd-dissect
* --image-policy=…` or to the kernel command line via `systemd.image_policy=`.
*
* → no use of "," or ";" as separators, so that it can be included in mount/fstab-style option strings and
* doesn't require escaping. Instead, separators are ":", "=", "+" which should be fine both in shell
* command lines and in mount/fstab style option strings.
*/
static int partition_policy_compare(const PartitionPolicy *a, const PartitionPolicy *b) {
return CMP(ASSERT_PTR(a)->designator, ASSERT_PTR(b)->designator);
}
static PartitionPolicy* image_policy_bsearch(const ImagePolicy *policy, PartitionDesignator designator) {
if (!policy)
return NULL;
return typesafe_bsearch(
&(PartitionPolicy) { .designator = designator },
ASSERT_PTR(policy)->policies,
ASSERT_PTR(policy)->n_policies,
partition_policy_compare);
}
static PartitionPolicyFlags partition_policy_normalized_flags(const PartitionPolicy *policy) {
PartitionPolicyFlags flags = ASSERT_PTR(policy)->flags;
/* This normalizes the per-partition policy flags. This means if the user left some things
* unspecified, we'll fill in the appropriate "dontcare" policy instead. We'll also mask out bits
* that do not make any sense for specific partition types. */
/* If no protection flag is set, then this means all are set */
if ((flags & _PARTITION_POLICY_USE_MASK) == 0)
flags |= PARTITION_POLICY_OPEN;
/* If this is a verity or verity signature designator, then mask off all protection bits, this after
* all needs no protection, because it *is* the protection */
if (partition_verity_to_data(policy->designator) >= 0 ||
partition_verity_sig_to_data(policy->designator) >= 0)
flags &= ~(PARTITION_POLICY_VERITY|PARTITION_POLICY_SIGNED|PARTITION_POLICY_ENCRYPTED);
/* if this designator has no verity concept, then mask off verity protection flags */
if (partition_verity_of(policy->designator) < 0)
flags &= ~(PARTITION_POLICY_VERITY|PARTITION_POLICY_SIGNED);
if ((flags & _PARTITION_POLICY_USE_MASK) == PARTITION_POLICY_ABSENT)
/* If the partition must be absent, then the gpt flags don't matter */
flags &= ~(_PARTITION_POLICY_READ_ONLY_MASK|_PARTITION_POLICY_GROWFS_MASK);
else {
/* If the gpt flags bits are not specified, set both options for each */
if ((flags & _PARTITION_POLICY_READ_ONLY_MASK) == 0)
flags |= PARTITION_POLICY_READ_ONLY_ON|PARTITION_POLICY_READ_ONLY_OFF;
if ((flags & _PARTITION_POLICY_GROWFS_MASK) == 0)
flags |= PARTITION_POLICY_GROWFS_ON|PARTITION_POLICY_GROWFS_OFF;
}
return flags;
}
PartitionPolicyFlags image_policy_get(const ImagePolicy *policy, PartitionDesignator designator) {
PartitionDesignator data_designator = _PARTITION_DESIGNATOR_INVALID;
PartitionPolicy *pp;
/* No policy means: everything may be used in any mode */
if (!policy)
return partition_policy_normalized_flags(
&(const PartitionPolicy) {
.flags = PARTITION_POLICY_OPEN,
.designator = designator,
});
pp = image_policy_bsearch(policy, designator);
if (pp)
return partition_policy_normalized_flags(pp);
/* Hmm, so this didn't work, then let's see if we can derive some policy from the underlying data
* partition in case of verity/signature partitions */
data_designator = partition_verity_to_data(designator);
if (data_designator >= 0) {
PartitionPolicyFlags data_flags;
/* So we are asked for the policy for a verity partition, and there's no explicit policy for
* that case. Let's synthesize a policy from the protection setting for the underlying data
* partition. */
data_flags = image_policy_get(policy, data_designator);
if (data_flags < 0)
return data_flags;
/* We need verity if verity or verity with sig is requested */
if (!(data_flags & (PARTITION_POLICY_SIGNED|PARTITION_POLICY_VERITY)))
return _PARTITION_POLICY_FLAGS_INVALID;
/* If the data partition may be unused or absent, then the verity partition may too. Also, inherit the partition flags policy */
return partition_policy_normalized_flags(
&(const PartitionPolicy) {
.flags = PARTITION_POLICY_UNPROTECTED | (data_flags & (PARTITION_POLICY_UNUSED|PARTITION_POLICY_ABSENT)) |
(data_flags & _PARTITION_POLICY_PFLAGS_MASK),
.designator = designator,
});
}
data_designator = partition_verity_sig_to_data(designator);
if (data_designator >= 0) {
PartitionPolicyFlags data_flags;
/* Similar case as for verity partitions, but slightly more strict rules */
data_flags = image_policy_get(policy, data_designator);
if (data_flags < 0)
return data_flags;
if (!(data_flags & PARTITION_POLICY_SIGNED))
return _PARTITION_POLICY_FLAGS_INVALID;
return partition_policy_normalized_flags(
&(const PartitionPolicy) {
.flags = PARTITION_POLICY_UNPROTECTED | (data_flags & (PARTITION_POLICY_UNUSED|PARTITION_POLICY_ABSENT)) |
(data_flags & _PARTITION_POLICY_PFLAGS_MASK),
.designator = designator,
});
}
return _PARTITION_POLICY_FLAGS_INVALID; /* got nothing */
}
PartitionPolicyFlags image_policy_get_exhaustively(const ImagePolicy *policy, PartitionDesignator designator) {
PartitionPolicyFlags flags;
/* This is just like image_policy_get() but whenever there is no policy for a specific designator, we
* return the default policy. */
flags = image_policy_get(policy, designator);
if (flags < 0)
return partition_policy_normalized_flags(
&(const PartitionPolicy) {
.flags = image_policy_default(policy),
.designator = designator,
});
return flags;
}
static PartitionPolicyFlags policy_flag_from_string_one(const char *s) {
assert(s);
/* This is a bitmask (i.e. not dense), hence we don't use the "string-table.h" stuff here. */
if (streq(s, "verity"))
return PARTITION_POLICY_VERITY;
if (streq(s, "signed"))
return PARTITION_POLICY_SIGNED;
if (streq(s, "encrypted"))
return PARTITION_POLICY_ENCRYPTED;
if (streq(s, "unprotected"))
return PARTITION_POLICY_UNPROTECTED;
if (streq(s, "unused"))
return PARTITION_POLICY_UNUSED;
if (streq(s, "absent"))
return PARTITION_POLICY_ABSENT;
if (streq(s, "open")) /* shortcut alias */
return PARTITION_POLICY_OPEN;
if (streq(s, "ignore")) /* ditto */
return PARTITION_POLICY_IGNORE;
if (streq(s, "read-only-on"))
return PARTITION_POLICY_READ_ONLY_ON;
if (streq(s, "read-only-off"))
return PARTITION_POLICY_READ_ONLY_OFF;
if (streq(s, "growfs-on"))
return PARTITION_POLICY_GROWFS_ON;
if (streq(s, "growfs-off"))
return PARTITION_POLICY_GROWFS_OFF;
return _PARTITION_POLICY_FLAGS_INVALID;
}
PartitionPolicyFlags partition_policy_flags_from_string(const char *s) {
PartitionPolicyFlags flags = 0;
int r;
assert(s);
if (empty_or_dash(s))
return 0;
for (;;) {
_cleanup_free_ char *f = NULL;
PartitionPolicyFlags ff;
r = extract_first_word(&s, &f, "+", EXTRACT_DONT_COALESCE_SEPARATORS);
if (r < 0)
return r;
if (r == 0)
break;
ff = policy_flag_from_string_one(strstrip(f));
if (ff < 0)
return -EBADRQC; /* recognizable error */
flags |= ff;
}
return flags;
}
static ImagePolicy* image_policy_new(size_t n_policies) {
ImagePolicy *p;
if (n_policies > (SIZE_MAX - offsetof(ImagePolicy, policies)) / sizeof(PartitionPolicy)) /* overflow check */
return NULL;
p = malloc(offsetof(ImagePolicy, policies) + sizeof(PartitionPolicy) * n_policies);
if (!p)
return NULL;
*p = (ImagePolicy) {
.default_flags = PARTITION_POLICY_IGNORE,
};
return p;
}
int image_policy_from_string(const char *s, ImagePolicy **ret) {
_cleanup_free_ ImagePolicy *p = NULL;
uint64_t dmask = 0;
ImagePolicy *t;
PartitionPolicyFlags symbolic_policy;
int r;
assert(s);
assert_cc(sizeof(dmask) * 8 >= _PARTITION_DESIGNATOR_MAX);
/* Recognizable errors:
*
* ENOTUNIQ → Two or more rules for the same partition
* EBADSLT → Unknown partition designator
* EBADRQC → Unknown policy flags
*/
/* First, let's handle "symbolic" policies, i.e. "-", "*", "~" */
if (empty_or_dash(s))
/* ignore policy: everything may exist, but nothing used */
symbolic_policy = PARTITION_POLICY_IGNORE;
else if (streq(s, "*"))
/* allow policy: everything is allowed */
symbolic_policy = PARTITION_POLICY_OPEN;
else if (streq(s, "~"))
/* deny policy: nothing may exist */
symbolic_policy = PARTITION_POLICY_ABSENT;
else
symbolic_policy = _PARTITION_POLICY_FLAGS_INVALID;
if (symbolic_policy >= 0) {
if (!ret)
return 0;
p = image_policy_new(0);
if (!p)
return -ENOMEM;
p->default_flags = symbolic_policy;
*ret = TAKE_PTR(p);
return 0;
}
/* Allocate the policy at maximum size, i.e. for all designators. We might overshoot a bit, but the
* items are cheap, and we can return unused space to libc once we know we don't need it */
p = image_policy_new(_PARTITION_DESIGNATOR_MAX);
if (!p)
return -ENOMEM;
const char *q = s;
bool default_specified = false;
for (;;) {
_cleanup_free_ char *e = NULL, *d = NULL;
PartitionDesignator designator;
PartitionPolicyFlags flags;
char *f, *ds, *fs;
r = extract_first_word(&q, &e, ":", EXTRACT_DONT_COALESCE_SEPARATORS);
if (r < 0)
return r;
if (r == 0)
break;
f = e;
r = extract_first_word((const char**) &f, &d, "=", EXTRACT_DONT_COALESCE_SEPARATORS);
if (r < 0)
return r;
if (r == 0)
return log_debug_errno(SYNTHETIC_ERRNO(EINVAL), "Expected designator name followed by '='; got instead: %s", e);
if (!f) /* no separator? */
return log_debug_errno(SYNTHETIC_ERRNO(EINVAL), "Missing '=' in policy expression: %s", e);
ds = strstrip(d);
if (isempty(ds)) {
/* Not partition name? then it's the default policy */
if (default_specified)
return log_debug_errno(SYNTHETIC_ERRNO(ENOTUNIQ), "Default partition policy flags specified more than once.");
designator = _PARTITION_DESIGNATOR_INVALID;
default_specified = true;
} else {
designator = partition_designator_from_string(ds);
if (designator < 0)
return log_debug_errno(SYNTHETIC_ERRNO(EBADSLT), "Unknown partition designator: %s", ds); /* recognizable error */
if (dmask & (UINT64_C(1) << designator))
return log_debug_errno(SYNTHETIC_ERRNO(ENOTUNIQ), "Partition designator specified more than once: %s", ds);
dmask |= UINT64_C(1) << designator;
}
fs = strstrip(f);
flags = partition_policy_flags_from_string(fs);
if (flags == -EBADRQC)
return log_debug_errno(flags, "Unknown partition policy flag: %s", fs);
if (flags < 0)
return log_debug_errno(flags, "Failed to parse partition policy flags '%s': %m", fs);
if (designator < 0)
p->default_flags = flags;
else {
p->policies[p->n_policies++] = (PartitionPolicy) {
.designator = designator,
.flags = flags,
};
}
};
assert(p->n_policies <= _PARTITION_DESIGNATOR_MAX);
/* Return unused space to libc */
t = realloc(p, offsetof(ImagePolicy, policies) + sizeof(PartitionPolicy) * p->n_policies);
if (t)
p = t;
typesafe_qsort(p->policies, p->n_policies, partition_policy_compare);
if (ret)
*ret = TAKE_PTR(p);
return 0;
}
int partition_policy_flags_to_string(PartitionPolicyFlags flags, bool simplify, char **ret) {
_cleanup_free_ char *buf = NULL;
const char *l[CONST_LOG2U(_PARTITION_POLICY_MASK) + 1]; /* one string per known flag at most */
size_t m = 0;
assert(ret);
if (flags < 0)
return -EINVAL;
/* If 'simplify' is false we'll output the precise value of every single flag.
*
* If 'simplify' is true we'll try to make the output shorter, by doing the following:
*
* → we'll spell the long form "verity+signed+encrypted+unprotected+unused+absent" via its
* equivalent shortcut form "open" (which we happily parse btw, see above)
*
* → we'll spell the long form "unused+absent" via its shortcut "ignore" (which we are also happy
* to parse)
*
* → if the read-only/growfs policy flags are both set, we suppress them. this thus removes the
* distinction between "user explicitly declared don't care" and "we implied don't care because
* user didn't say anything".
*
* net result: the resulting string is shorter, but the effective policy declared that way will have
* the same results as the long form. */
if (simplify && (flags & _PARTITION_POLICY_USE_MASK) == PARTITION_POLICY_OPEN)
l[m++] = "open";
else if (simplify && (flags & _PARTITION_POLICY_USE_MASK) == PARTITION_POLICY_IGNORE)
l[m++] = "ignore";
else {
if (flags & PARTITION_POLICY_VERITY)
l[m++] = "verity";
if (flags & PARTITION_POLICY_SIGNED)
l[m++] = "signed";
if (flags & PARTITION_POLICY_ENCRYPTED)
l[m++] = "encrypted";
if (flags & PARTITION_POLICY_UNPROTECTED)
l[m++] = "unprotected";
if (flags & PARTITION_POLICY_UNUSED)
l[m++] = "unused";
if (flags & PARTITION_POLICY_ABSENT)
l[m++] = "absent";
}
if (!simplify || (!(flags & PARTITION_POLICY_READ_ONLY_ON) != !(flags & PARTITION_POLICY_READ_ONLY_OFF))) {
if (flags & PARTITION_POLICY_READ_ONLY_ON)
l[m++] = "read-only-on";
if (flags & PARTITION_POLICY_READ_ONLY_OFF)
l[m++] = "read-only-off";
}
if (!simplify || (!(flags & PARTITION_POLICY_GROWFS_ON) != !(flags & PARTITION_POLICY_GROWFS_OFF))) {
if (flags & PARTITION_POLICY_GROWFS_OFF)
l[m++] = "growfs-off";
if (flags & PARTITION_POLICY_GROWFS_ON)
l[m++] = "growfs-on";
}
if (m == 0)
buf = strdup("-");
else {
assert(m+1 < ELEMENTSOF(l));
l[m] = NULL;
buf = strv_join((char**) l, "+");
}
if (!buf)
return -ENOMEM;
*ret = TAKE_PTR(buf);
return 0;
}
static int image_policy_flags_all_match(const ImagePolicy *policy, PartitionPolicyFlags expected) {
if (expected < 0)
return -EINVAL;
if (image_policy_default(policy) != expected)
return false;
for (PartitionDesignator d = 0; d < _PARTITION_DESIGNATOR_MAX; d++) {
PartitionPolicyFlags f, w;
f = image_policy_get_exhaustively(policy, d);
if (f < 0)
return f;
w = partition_policy_normalized_flags(
&(const PartitionPolicy) {
.flags = expected,
.designator = d,
});
if (w < 0)
return w;
if (f != w)
return false;
}
return true;
}
bool image_policy_equiv_ignore(const ImagePolicy *policy) {
/* Checks if this is the ignore policy (or equivalent to it), i.e. everything is ignored, aka '-', aka '' */
return image_policy_flags_all_match(policy, PARTITION_POLICY_IGNORE);
}
bool image_policy_equiv_allow(const ImagePolicy *policy) {
/* Checks if this is the allow policy (or equivalent to it), i.e. everything is allowed, aka '*' */
return image_policy_flags_all_match(policy, PARTITION_POLICY_OPEN);
}
bool image_policy_equiv_deny(const ImagePolicy *policy) {
/* Checks if this is the deny policy (or equivalent to it), i.e. everything must be absent, aka '~' */
return image_policy_flags_all_match(policy, PARTITION_POLICY_ABSENT);
}
int image_policy_to_string(const ImagePolicy *policy, bool simplify, char **ret) {
_cleanup_free_ char *s = NULL;
int r;
assert(ret);
if (simplify) {
const char *fixed;
if (image_policy_equiv_allow(policy))
fixed = "*";
else if (image_policy_equiv_ignore(policy))
fixed = "-";
else if (image_policy_equiv_deny(policy))
fixed = "~";
else
fixed = NULL;
if (fixed) {
s = strdup(fixed);
if (!s)
return -ENOMEM;
*ret = TAKE_PTR(s);
return 0;
}
}
for (size_t i = 0; i < image_policy_n_entries(policy); i++) {
const PartitionPolicy *p = policy->policies + i;
_cleanup_free_ char *f = NULL;
const char *t;
assert(i == 0 || p->designator > policy->policies[i-1].designator); /* Validate perfect ordering */
assert_se(t = partition_designator_to_string(p->designator));
if (simplify) {
/* Skip policy entries that match the default anyway */
PartitionPolicyFlags df;
df = partition_policy_normalized_flags(
&(const PartitionPolicy) {
.flags = image_policy_default(policy),
.designator = p->designator,
});
if (df < 0)
return df;
if (df == p->flags)
continue;
}
r = partition_policy_flags_to_string(p->flags, simplify, &f);
if (r < 0)
return r;
if (!strextend(&s, isempty(s) ? "" : ":", t, "=", f))
return -ENOMEM;
}
if (!simplify || image_policy_default(policy) != PARTITION_POLICY_IGNORE) {
_cleanup_free_ char *df = NULL;
r = partition_policy_flags_to_string(image_policy_default(policy), simplify, &df);
if (r < 0)
return r;
if (!strextend(&s, isempty(s) ? "" : ":", "=", df))
return -ENOMEM;
}
if (isempty(s)) { /* no rule and default policy? then let's return "-" */
s = strdup("-");
if (!s)
return -ENOMEM;
}
*ret = TAKE_PTR(s);
return 0;
}
bool image_policy_equal(const ImagePolicy *a, const ImagePolicy *b) {
if (a == b)
return true;
if (image_policy_n_entries(a) != image_policy_n_entries(b))
return false;
if (image_policy_default(a) != image_policy_default(b))
return false;
for (size_t i = 0; i < image_policy_n_entries(a); i++) {
if (a->policies[i].designator != b->policies[i].designator)
return false;
if (a->policies[i].flags != b->policies[i].flags)
return false;
}
return true;
}
int image_policy_equivalent(const ImagePolicy *a, const ImagePolicy *b) {
/* The image_policy_equal() function checks if the policy is defined the exact same way. This
* function here instead looks at the outcome of the two policies instead. Where does this come to
* different results you ask? We imply some logic regarding Verity/Encryption: when no rule is
* defined for a verity partition we can synthesize it from the protection level of the data
* partition it protects. Or: any per-partition rule that is identical to the default rule is
* redundant, and will be recognized as such by image_policy_equivalent() but not by
* image_policy_equal()- */
if (image_policy_default(a) != image_policy_default(b))
return false;
for (PartitionDesignator d = 0; d < _PARTITION_DESIGNATOR_MAX; d++) {
PartitionPolicyFlags f, w;
f = image_policy_get_exhaustively(a, d);
if (f < 0)
return f;
w = image_policy_get_exhaustively(b, d);
if (w < 0)
return w;
if (f != w)
return false;
}
return true;
}
const ImagePolicy image_policy_allow = {
/* Allow policy */
.n_policies = 0,
.default_flags = PARTITION_POLICY_OPEN,
};
const ImagePolicy image_policy_deny = {
/* Allow policy */
.n_policies = 0,
.default_flags = PARTITION_POLICY_ABSENT,
};
const ImagePolicy image_policy_ignore = {
/* Allow policy */
.n_policies = 0,
.default_flags = PARTITION_POLICY_IGNORE,
};
const ImagePolicy image_policy_sysext = {
/* For system extensions, honour root file system, and /usr/ and ignore everything else. After all,
* we are only interested in /usr/ + /opt/ trees anyway, and that's really the only place they can
* be. */
.n_policies = 2,
.policies = {
{ PARTITION_ROOT, PARTITION_POLICY_VERITY|PARTITION_POLICY_SIGNED|PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_USR, PARTITION_POLICY_VERITY|PARTITION_POLICY_SIGNED|PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
},
.default_flags = PARTITION_POLICY_IGNORE,
};
const ImagePolicy image_policy_sysext_strict = {
/* For system extensions, requiring signing */
.n_policies = 2,
.policies = {
{ PARTITION_ROOT, PARTITION_POLICY_SIGNED|PARTITION_POLICY_ABSENT },
{ PARTITION_USR, PARTITION_POLICY_SIGNED|PARTITION_POLICY_ABSENT },
},
.default_flags = PARTITION_POLICY_IGNORE,
};
const ImagePolicy image_policy_container = {
/* For systemd-nspawn containers we use all partitions, with the exception of swap */
.n_policies = 8,
.policies = {
{ PARTITION_ROOT, PARTITION_POLICY_VERITY|PARTITION_POLICY_SIGNED|PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_USR, PARTITION_POLICY_VERITY|PARTITION_POLICY_SIGNED|PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_HOME, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_SRV, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_ESP, PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_XBOOTLDR, PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_TMP, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_VAR, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
},
.default_flags = PARTITION_POLICY_IGNORE,
};
const ImagePolicy image_policy_host = {
/* For the host policy we basically use everything */
.n_policies = 9,
.policies = {
{ PARTITION_ROOT, PARTITION_POLICY_VERITY|PARTITION_POLICY_SIGNED|PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_USR, PARTITION_POLICY_VERITY|PARTITION_POLICY_SIGNED|PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_HOME, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_SRV, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_ESP, PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_XBOOTLDR, PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_SWAP, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_TMP, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_VAR, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
},
.default_flags = PARTITION_POLICY_IGNORE,
};
const ImagePolicy image_policy_service = {
/* For RootImage= in services we skip ESP/XBOOTLDR and swap */
.n_policies = 6,
.policies = {
{ PARTITION_ROOT, PARTITION_POLICY_VERITY|PARTITION_POLICY_SIGNED|PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_USR, PARTITION_POLICY_VERITY|PARTITION_POLICY_SIGNED|PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_HOME, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_SRV, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_TMP, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
{ PARTITION_VAR, PARTITION_POLICY_ENCRYPTED|PARTITION_POLICY_UNPROTECTED|PARTITION_POLICY_ABSENT },
},
.default_flags = PARTITION_POLICY_IGNORE,
};
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