/*
* security.c
*
- * Read the security data from the WIM. Doing anything with the security data
- * is not yet implemented other than printing some information about it.
+ * Read and write the WIM security data. The security data is a table of
+ * security descriptors. Each WIM image has its own security data, but it's
+ * possible that an image's security data have no security descriptors.
*/
/*
#include "io.h"
#include "security.h"
+/*
+ * This is a hack to work around a problem in libntfs-3g. libntfs-3g validates
+ * security descriptors with a function named ntfs_valid_descr().
+ * ntfs_valid_descr() considers a security descriptor that ends in a SACL
+ * (Sysetm Access Control List) with no ACE's (Access Control Entries) to be
+ * invalid. However, a security descriptor like this exists in the Windows 7
+ * install.wim. Here, security descriptors matching this pattern are modified
+ * to have no SACL. This should make no difference since the SACL had no
+ * entries anyway; however his ensures that that the security descriptors pass
+ * the validation in libntfs-3g.
+ */
+static void empty_sacl_fixup(char *descr, u64 *size_p)
+{
+ if (*size_p >= sizeof(SecurityDescriptor)) {
+ SecurityDescriptor *sd = (SecurityDescriptor*)descr;
+ u32 sacl_offset = le32_to_cpu(sd->sacl_offset);
+ if (sacl_offset == *size_p - sizeof(ACL)) {
+ sd->sacl_offset = cpu_to_le32(0);
+ *size_p -= sizeof(ACL);
+ }
+ }
+}
+
/*
* Reads the security data from the metadata resource.
*
/* Copy the sizes array in from the file data. */
p = get_bytes(p, sizes_size, sd->sizes);
- array_to_le64(sd->sizes, sd->num_entries);
+ array_le64_to_cpu(sd->sizes, sd->num_entries);
/* Allocate the array of pointers to descriptors, and read them in. */
sd->descriptors = CALLOC(sd->num_entries, sizeof(u8*));
goto out_free_sd;
}
p = get_bytes(p, sd->sizes[i], sd->descriptors[i]);
+ empty_sacl_fixup(sd->descriptors[i], &sd->sizes[i]);
}
out:
sd->total_length = (u32)total_len;
static void print_acl(const u8 *p, const char *type)
{
- ACL *acl = (ACL*)p;
- TO_LE16(acl->acl_size);
- TO_LE16(acl->acl_count);
+ const ACL *acl = (const ACL*)p;
+ u8 revision = acl->revision;
+ u16 acl_size = le16_to_cpu(acl->acl_size);
+ u16 ace_count = le16_to_cpu(acl->ace_count);
printf(" [%s ACL]\n", type);
- printf(" Revision = %u\n", acl->revision);
- printf(" ACL Size = %u\n", acl->acl_size);
- printf(" ACE Count = %u\n", acl->ace_count);
+ printf(" Revision = %u\n", revision);
+ printf(" ACL Size = %u\n", acl_size);
+ printf(" ACE Count = %u\n", ace_count);
p += sizeof(ACL);
for (uint i = 0; i < acl->ace_count; i++) {
- ACEHeader *hdr = (ACEHeader*)p;
+ const ACEHeader *hdr = (const ACEHeader*)p;
printf(" [ACE]\n");
printf(" ACE type = %d\n", hdr->type);
printf(" ACE flags = 0x%x\n", hdr->flags);
printf(" ACE size = %u\n", hdr->size);
- AccessAllowedACE *aaa = (AccessAllowedACE*)hdr;
- printf(" ACE mask = %x\n", to_le32(aaa->mask));
- printf(" SID start = %u\n", to_le32(aaa->sid_start));
+ const AccessAllowedACE *aaa = (const AccessAllowedACE*)hdr;
+ printf(" ACE mask = %x\n", le32_to_cpu(aaa->mask));
+ printf(" SID start = %u\n", le32_to_cpu(aaa->sid_start));
p += hdr->size;
}
putchar('\n');
static void print_sid(const u8 *p, const char *type)
{
- SID *sid = (SID*)p;
+ const SID *sid = (const SID*)p;
printf(" [%s SID]\n", type);
printf(" Revision = %u\n", sid->revision);
printf(" Subauthority count = %u\n", sid->sub_authority_count);
printf(" Identifier authority = ");
- print_byte_field(sid->identifier_authority, sizeof(sid->identifier_authority));
+ print_byte_field(sid->identifier_authority,
+ sizeof(sid->identifier_authority));
putchar('\n');
for (uint i = 0; i < sid->sub_authority_count; i++)
- printf(" Subauthority %u = %u\n", i, to_le32(sid->sub_authority[i]));
+ printf(" Subauthority %u = %u\n",
+ i, le32_to_cpu(sid->sub_authority[i]));
putchar('\n');
}
static void print_security_descriptor(const u8 *p, u64 size)
{
- SecurityDescriptor *sd = (SecurityDescriptor*)p;
- TO_LE16(sd->security_descriptor_control);
- TO_LE32(sd->owner_offset);
- TO_LE32(sd->group_offset);
- TO_LE32(sd->sacl_offset);
- TO_LE32(sd->dacl_offset);
- printf("Revision = %u\n", sd->revision);
- printf("Security Descriptor Control = %#x\n", sd->security_descriptor_control);
- printf("Owner offset = %u\n", sd->owner_offset);
- printf("Group offset = %u\n", sd->group_offset);
- printf("System ACL offset = %u\n", sd->sacl_offset);
- printf("Discretionary ACL offset = %u\n", sd->dacl_offset);
+ const SecurityDescriptor *sd = (const SecurityDescriptor*)p;
+ u8 revision = sd->revision;
+ u16 control = le16_to_cpu(sd->security_descriptor_control);
+ u32 owner_offset = le32_to_cpu(sd->owner_offset);
+ u32 group_offset = le32_to_cpu(sd->group_offset);
+ u32 sacl_offset = le32_to_cpu(sd->sacl_offset);
+ u32 dacl_offset = le32_to_cpu(sd->dacl_offset);
+ printf("Revision = %u\n", revision);
+ printf("Security Descriptor Control = %#x\n", control);
+ printf("Owner offset = %u\n", owner_offset);
+ printf("Group offset = %u\n", group_offset);
+ printf("System ACL offset = %u\n", sacl_offset);
+ printf("Discretionary ACL offset = %u\n", dacl_offset);
if (sd->owner_offset != 0)
- print_sid(p + sd->owner_offset, "Owner");
+ print_sid(p + owner_offset, "Owner");
if (sd->group_offset != 0)
- print_sid(p + sd->group_offset, "Group");
+ print_sid(p + group_offset, "Group");
if (sd->sacl_offset != 0)
- print_acl(p + sd->sacl_offset, "System");
+ print_acl(p + sacl_offset, "System");
if (sd->dacl_offset != 0)
- print_acl(p + sd->dacl_offset, "Discretionary");
+ print_acl(p + dacl_offset, "Discretionary");
}
/*