mirror of
https://github.com/topjohnwu/Magisk.git
synced 2024-12-24 19:57:43 +00:00
Revert DTB patches to in-place binary patches
Since we no longer need to add new properties in the device tree, and all the patches we do removes strings, we can just directly patch the flat device tree in-place, ignoring basically all the higher level DTB structure and format to accomplish 100% compatibility.
This commit is contained in:
parent
dbf8c41209
commit
02dc1172be
@ -4,45 +4,16 @@
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#include <vector>
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#include <map>
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extern "C" {
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#include <libfdt.h>
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}
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#include <utils.hpp>
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#include "magiskboot.hpp"
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#include "dtb.hpp"
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extern "C" {
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#include <libfdt.h>
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}
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using namespace std;
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struct fdt_blob {
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void *fdt;
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uint32_t offset;
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uint32_t len;
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};
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template <class Iter>
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class fdt_map_iter {
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public:
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typedef decltype(std::declval<typename Iter::value_type::second_type>().fdt) value_type;
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typedef value_type* pointer;
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typedef value_type& reference;
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explicit fdt_map_iter(Iter j) : i(j) {}
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fdt_map_iter& operator++() { ++i; return *this; }
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fdt_map_iter operator++(int) { auto tmp = *this; ++(*this); return tmp; }
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fdt_map_iter& operator--() { --i; return *this; }
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fdt_map_iter operator--(int) { auto tmp = *this; --(*this); return tmp; }
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bool operator==(fdt_map_iter j) const { return i == j.i; }
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bool operator!=(fdt_map_iter j) const { return !(*this == j); }
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reference operator*() { return i->second.fdt; }
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pointer operator->() { return &i->second.fdt; }
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private:
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Iter i;
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};
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template<class Iter>
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inline fdt_map_iter<Iter> make_iter(Iter j) { return fdt_map_iter<Iter>(j); }
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constexpr int MAX_DEPTH = 32;
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static bitset<MAX_DEPTH> depth_set;
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@ -153,249 +124,38 @@ static void dtb_print(const char *file, bool fstab) {
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munmap(dtb, size);
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}
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template <typename Iter>
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static bool fdt_patch(Iter first, Iter last) {
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static bool dtb_patch(const char *file) {
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bool keepverity = check_env("KEEPVERITY");
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bool redirect = check_env("TWOSTAGEINIT");
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bool modified = false;
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int idx = 0;
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for (auto it = first; it != last; ++it) {
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++idx;
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auto fdt = *it;
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int fstab = find_fstab(fdt);
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if (fstab < 0)
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continue;
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fprintf(stderr, "Found fstab in dtb.%04d\n", idx - 1);
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int block;
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fdt_for_each_subnode(block, fdt, fstab) {
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const char *name = fdt_get_name(fdt, block, nullptr);
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fprintf(stderr, "Found entry [%s] in fstab\n", name);
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if (!keepverity) {
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uint32_t size;
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auto value = static_cast<const char *>(
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fdt_getprop(fdt, block, "fsmgr_flags", reinterpret_cast<int *>(&size)));
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char *pval = patch_verity(value, size);
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if (pval) {
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modified = true;
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fdt_setprop_string(fdt, block, "fsmgr_flags", pval);
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bool patched = false;
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size_t size;
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uint8_t *dtb;
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fprintf(stderr, "Loading dtbs from [%s]\n", file);
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mmap_rw(file, dtb, size);
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// Loop through all the dtbs
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int dtb_num = 0;
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for (int i = 0; i < size; ++i) {
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if (memcmp(dtb + i, FDT_MAGIC_STR, 4) == 0) {
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auto fdt = dtb + i;
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fprintf(stderr, "Loading dtb.%04d\n", dtb_num);
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if (int fstab = find_fstab(fdt); fstab >= 0) {
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int node;
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fdt_for_each_subnode(node, fdt, fstab) {
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const char *name = fdt_get_name(fdt, node, nullptr);
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fprintf(stderr, "Found fstab entry [%s]\n", name);
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if (!keepverity) {
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int len;
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auto value = fdt_getprop(fdt, node, "fsmgr_flags", &len);
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patched |= patch_verity(const_cast<void *>(value), len) != len;
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}
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}
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}
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if (redirect && name == "system"sv) {
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modified = true;
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fprintf(stderr, "Changing mnt_point to /system_root\n");
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fdt_setprop_string(fdt, block, "mnt_point", "/system_root");
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}
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++dtb_num;
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i += fdt_totalsize(fdt) - 1;
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}
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}
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return modified;
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}
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#define MAX_FDT_GROWTH 256
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template <class Table, class Header>
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static int dt_table_patch(const Header *hdr, const char *out) {
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map<uint32_t, fdt_blob> dtb_map;
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auto buf = reinterpret_cast<const uint8_t *>(hdr);
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auto tables = reinterpret_cast<const Table *>(hdr + 1);
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constexpr bool is_dt_table = std::is_same_v<Header, dt_table_header>;
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using endian_conv = uint32_t (*)(uint32_t);
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endian_conv be_to_le;
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endian_conv le_to_be;
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if constexpr (is_dt_table) {
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be_to_le = fdt32_to_cpu;
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le_to_be = cpu_to_fdt32;
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} else {
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be_to_le = le_to_be = [](uint32_t x) -> auto { return x; };
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}
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// Collect all dtbs
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auto num_dtb = be_to_le(hdr->num_dtbs);
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for (int i = 0; i < num_dtb; ++i) {
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auto offset = be_to_le(tables[i].offset);
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if (dtb_map.count(offset) == 0) {
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auto blob = buf + offset;
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uint32_t size = fdt_totalsize(blob);
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auto fdt = xmalloc(size + MAX_FDT_GROWTH);
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memcpy(fdt, blob, size);
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fdt_open_into(fdt, fdt, size + MAX_FDT_GROWTH);
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dtb_map[offset] = { fdt, offset };
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}
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}
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if (dtb_map.empty())
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return 1;
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// Patch fdt
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if (!fdt_patch(make_iter(dtb_map.begin()), make_iter(dtb_map.end())))
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return 1;
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unlink(out);
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int fd = xopen(out, O_RDWR | O_CREAT | O_CLOEXEC, 0644);
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uint32_t total_size = 0;
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// Copy headers and tables
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total_size += xwrite(fd, buf, dtb_map.begin()->first);
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// mmap rw to patch table values retroactively
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auto mmap_sz = lseek(fd, 0, SEEK_CUR);
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auto addr = (uint8_t *) xmmap(nullptr, mmap_sz, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
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// Guess alignment using gcd
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uint32_t align = 1;
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if constexpr (!is_dt_table) {
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auto it = dtb_map.begin();
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align = (it++)->first;
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for (; it != dtb_map.end(); ++it)
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align = binary_gcd(align, it->first);
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}
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// Write dtbs
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for (auto &val : dtb_map) {
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val.second.offset = lseek(fd, 0, SEEK_CUR);
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auto fdt = val.second.fdt;
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fdt_pack(fdt);
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auto size = fdt_totalsize(fdt);
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total_size += xwrite(fd, fdt, size);
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val.second.len = do_align(size, align);
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write_zero(fd, align_off(lseek(fd, 0, SEEK_CUR), align));
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// total_size += align_off(lseek(fd, 0, SEEK_CUR), align); /* Not needed */
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free(fdt);
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}
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// Patch headers
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if constexpr (is_dt_table) {
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auto hdr_rw = reinterpret_cast<Header *>(addr);
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hdr_rw->total_size = le_to_be(total_size);
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}
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auto tables_rw = reinterpret_cast<Table *>(addr + sizeof(Header));
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for (int i = 0; i < num_dtb; ++i) {
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auto &blob = dtb_map[be_to_le(tables_rw[i].offset)];
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tables_rw[i].offset = le_to_be(blob.offset);
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tables_rw[i].len = le_to_be(blob.len);
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}
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munmap(addr, mmap_sz);
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close(fd);
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return 0;
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}
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static int blob_patch(uint8_t *dtb, size_t dtb_sz, const char *out) {
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vector<uint8_t *> fdt_list;
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vector<uint32_t> padding_list;
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for (int i = 0; i < dtb_sz; ++i) {
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if (memcmp(dtb + i, FDT_MAGIC_STR, 4) == 0) {
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auto len = fdt_totalsize(dtb + i);
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auto fdt = static_cast<uint8_t *>(xmalloc(len + MAX_FDT_GROWTH));
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memcpy(fdt, dtb + i, len);
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fdt_pack(fdt);
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uint32_t padding = len - fdt_totalsize(fdt);
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padding_list.push_back(padding);
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fdt_open_into(fdt, fdt, len + MAX_FDT_GROWTH);
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fdt_list.push_back(fdt);
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i += len - 1;
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}
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}
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if (!fdt_patch(fdt_list.begin(), fdt_list.end()))
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return 1;
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unlink(out);
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int fd = xopen(out, O_WRONLY | O_CREAT | O_CLOEXEC, 0644);
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for (int i = 0; i < fdt_list.size(); ++i) {
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auto fdt = fdt_list[i];
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fdt_pack(fdt);
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// Only add padding back if it is anything meaningful
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if (padding_list[i] > 4) {
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auto len = fdt_totalsize(fdt);
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fdt_set_totalsize(fdt, len + padding_list[i]);
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}
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xwrite(fd, fdt, fdt_totalsize(fdt));
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free(fdt);
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}
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close(fd);
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return 0;
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}
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#define MATCH(s) (memcmp(dtb, s, sizeof(s) - 1) == 0)
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static int dtb_patch(const char *in, const char *out) {
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if (!out)
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out = in;
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size_t dtb_sz ;
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uint8_t *dtb;
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fprintf(stderr, "Loading dtbs from [%s]\n", in);
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mmap_ro(in, dtb, dtb_sz);
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run_finally f([&]{ munmap(dtb, dtb_sz); });
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if (MATCH(QCDT_MAGIC)) {
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auto hdr = reinterpret_cast<qcdt_hdr*>(dtb);
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switch (hdr->version) {
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case 1:
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fprintf(stderr, "QCDT v1\n");
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return dt_table_patch<qctable_v1>(hdr, out);
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case 2:
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fprintf(stderr, "QCDT v2\n");
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return dt_table_patch<qctable_v2>(hdr, out);
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case 3:
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fprintf(stderr, "QCDT v3\n");
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return dt_table_patch<qctable_v3>(hdr, out);
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default:
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return 1;
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}
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} else if (MATCH(DTBH_MAGIC)) {
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auto hdr = reinterpret_cast<dtbh_hdr *>(dtb);
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switch (hdr->version) {
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case 2:
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fprintf(stderr, "DTBH v2\n");
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return dt_table_patch<bhtable_v2>(hdr, out);
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default:
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return 1;
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}
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} else if (MATCH(PXADT_MAGIC)) {
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auto hdr = reinterpret_cast<pxadt_hdr *>(dtb);
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switch (hdr->version) {
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case 1:
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fprintf(stderr, "PXA-DT v1\n");
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return dt_table_patch<pxatable_v1>(hdr, out);
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default:
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return 1;
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}
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} else if (MATCH(PXA19xx_MAGIC)) {
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auto hdr = reinterpret_cast<pxa19xx_hdr *>(dtb);
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switch (hdr->version) {
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case 1:
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fprintf(stderr, "PXA-19xx v1\n");
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return dt_table_patch<pxatable_v1>(hdr, out);
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default:
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return 1;
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}
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} else if (MATCH(SPRD_MAGIC)) {
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auto hdr = reinterpret_cast<sprd_hdr *>(dtb);
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switch (hdr->version) {
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case 1:
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fprintf(stderr, "SPRD v1\n");
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return dt_table_patch<sprdtable_v1>(hdr, out);
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default:
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return 1;
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}
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} else if (MATCH(DT_TABLE_MAGIC)) {
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auto hdr = reinterpret_cast<dt_table_header *>(dtb);
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switch (hdr->version) {
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case 0:
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fprintf(stderr, "DT_TABLE v0\n");
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return dt_table_patch<dt_table_entry>(hdr, out);
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default:
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return 1;
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}
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} else {
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return blob_patch(dtb, dtb_sz, out);
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}
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fprintf(stderr, "\n");
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munmap(dtb, size);
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return patched;
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}
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int dtb_commands(int argc, char *argv[]) {
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@ -407,10 +167,288 @@ int dtb_commands(int argc, char *argv[]) {
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dtb_print(dtb, argc > 1 && argv[1] == "-f"sv);
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return 0;
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} else if (argv[0] == "patch"sv) {
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if (dtb_patch(dtb, argv[1]))
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if (!dtb_patch(dtb))
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exit(1);
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return 0;
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} else {
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return 1;
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}
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}
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namespace {
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// Unused, but keep these precious code as they took TONs of effort to write
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struct fdt_blob {
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void *fdt;
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uint32_t offset;
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uint32_t len;
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};
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template <class Iter>
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class fdt_map_iter {
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public:
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typedef decltype(std::declval<typename Iter::value_type::second_type>().fdt) value_type;
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typedef value_type* pointer;
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typedef value_type& reference;
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explicit fdt_map_iter(Iter j) : i(j) {}
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fdt_map_iter& operator++() { ++i; return *this; }
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fdt_map_iter operator++(int) { auto tmp = *this; ++(*this); return tmp; }
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fdt_map_iter& operator--() { --i; return *this; }
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fdt_map_iter operator--(int) { auto tmp = *this; --(*this); return tmp; }
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bool operator==(fdt_map_iter j) const { return i == j.i; }
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bool operator!=(fdt_map_iter j) const { return !(*this == j); }
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reference operator*() { return i->second.fdt; }
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pointer operator->() { return &i->second.fdt; }
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private:
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Iter i;
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};
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template<class Iter>
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inline fdt_map_iter<Iter> make_iter(Iter j) { return fdt_map_iter<Iter>(j); }
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template <typename Iter>
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static bool fdt_patch(Iter first, Iter last) {
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bool keepverity = check_env("KEEPVERITY");
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bool redirect = check_env("TWOSTAGEINIT");
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bool modified = false;
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int idx = 0;
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for (auto it = first; it != last; ++it) {
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++idx;
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auto fdt = *it;
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int fstab = find_fstab(fdt);
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if (fstab < 0)
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continue;
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fprintf(stderr, "Found fstab in dtb.%04d\n", idx - 1);
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int block;
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fdt_for_each_subnode(block, fdt, fstab) {
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const char *name = fdt_get_name(fdt, block, nullptr);
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fprintf(stderr, "Found entry [%s] in fstab\n", name);
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if (!keepverity) {
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int size;
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auto value = fdt_getprop(fdt, block, "fsmgr_flags", &size);
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char *copy = static_cast<char *>(memcpy(malloc(size), value, size));
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if (patch_verity(copy, size) != size) {
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modified = true;
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fdt_setprop_string(fdt, block, "fsmgr_flags", copy);
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}
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free(copy);
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}
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if (redirect && name == "system"sv) {
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modified = true;
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fprintf(stderr, "Changing mnt_point to /system_root\n");
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fdt_setprop_string(fdt, block, "mnt_point", "/system_root");
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}
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}
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}
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return modified;
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}
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#define MAX_FDT_GROWTH 256
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template <class Table, class Header>
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static int dt_table_patch(const Header *hdr, const char *out) {
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map<uint32_t, fdt_blob> dtb_map;
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auto buf = reinterpret_cast<const uint8_t *>(hdr);
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auto tables = reinterpret_cast<const Table *>(hdr + 1);
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constexpr bool is_dt_table = std::is_same_v<Header, dt_table_header>;
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using endian_conv = uint32_t (*)(uint32_t);
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endian_conv be_to_le;
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endian_conv le_to_be;
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if constexpr (is_dt_table) {
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be_to_le = fdt32_to_cpu;
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le_to_be = cpu_to_fdt32;
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} else {
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be_to_le = le_to_be = [](uint32_t x) -> auto { return x; };
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}
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// Collect all dtbs
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auto num_dtb = be_to_le(hdr->num_dtbs);
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for (int i = 0; i < num_dtb; ++i) {
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auto offset = be_to_le(tables[i].offset);
|
||||
if (dtb_map.count(offset) == 0) {
|
||||
auto blob = buf + offset;
|
||||
uint32_t size = fdt_totalsize(blob);
|
||||
auto fdt = xmalloc(size + MAX_FDT_GROWTH);
|
||||
memcpy(fdt, blob, size);
|
||||
fdt_open_into(fdt, fdt, size + MAX_FDT_GROWTH);
|
||||
dtb_map[offset] = { fdt, offset };
|
||||
}
|
||||
}
|
||||
if (dtb_map.empty())
|
||||
return 1;
|
||||
|
||||
// Patch fdt
|
||||
if (!fdt_patch(make_iter(dtb_map.begin()), make_iter(dtb_map.end())))
|
||||
return 1;
|
||||
|
||||
unlink(out);
|
||||
int fd = xopen(out, O_RDWR | O_CREAT | O_CLOEXEC, 0644);
|
||||
|
||||
uint32_t total_size = 0;
|
||||
|
||||
// Copy headers and tables
|
||||
total_size += xwrite(fd, buf, dtb_map.begin()->first);
|
||||
|
||||
// mmap rw to patch table values retroactively
|
||||
auto mmap_sz = lseek(fd, 0, SEEK_CUR);
|
||||
auto addr = (uint8_t *) xmmap(nullptr, mmap_sz, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
|
||||
|
||||
// Guess alignment using gcd
|
||||
uint32_t align = 1;
|
||||
if constexpr (!is_dt_table) {
|
||||
auto it = dtb_map.begin();
|
||||
align = (it++)->first;
|
||||
for (; it != dtb_map.end(); ++it)
|
||||
align = binary_gcd(align, it->first);
|
||||
}
|
||||
|
||||
// Write dtbs
|
||||
for (auto &val : dtb_map) {
|
||||
val.second.offset = lseek(fd, 0, SEEK_CUR);
|
||||
auto fdt = val.second.fdt;
|
||||
fdt_pack(fdt);
|
||||
auto size = fdt_totalsize(fdt);
|
||||
total_size += xwrite(fd, fdt, size);
|
||||
val.second.len = do_align(size, align);
|
||||
write_zero(fd, align_off(lseek(fd, 0, SEEK_CUR), align));
|
||||
// total_size += align_off(lseek(fd, 0, SEEK_CUR), align); /* Not needed */
|
||||
free(fdt);
|
||||
}
|
||||
|
||||
// Patch headers
|
||||
if constexpr (is_dt_table) {
|
||||
auto hdr_rw = reinterpret_cast<Header *>(addr);
|
||||
hdr_rw->total_size = le_to_be(total_size);
|
||||
}
|
||||
auto tables_rw = reinterpret_cast<Table *>(addr + sizeof(Header));
|
||||
for (int i = 0; i < num_dtb; ++i) {
|
||||
auto &blob = dtb_map[be_to_le(tables_rw[i].offset)];
|
||||
tables_rw[i].offset = le_to_be(blob.offset);
|
||||
tables_rw[i].len = le_to_be(blob.len);
|
||||
}
|
||||
|
||||
munmap(addr, mmap_sz);
|
||||
close(fd);
|
||||
|
||||
return 0;
|
||||
}
|
||||
|
||||
static int blob_patch(uint8_t *dtb, size_t dtb_sz, const char *out) {
|
||||
vector<uint8_t *> fdt_list;
|
||||
vector<uint32_t> padding_list;
|
||||
for (int i = 0; i < dtb_sz; ++i) {
|
||||
if (memcmp(dtb + i, FDT_MAGIC_STR, 4) == 0) {
|
||||
auto len = fdt_totalsize(dtb + i);
|
||||
auto fdt = static_cast<uint8_t *>(xmalloc(len + MAX_FDT_GROWTH));
|
||||
memcpy(fdt, dtb + i, len);
|
||||
fdt_pack(fdt);
|
||||
uint32_t padding = len - fdt_totalsize(fdt);
|
||||
padding_list.push_back(padding);
|
||||
fdt_open_into(fdt, fdt, len + MAX_FDT_GROWTH);
|
||||
fdt_list.push_back(fdt);
|
||||
i += len - 1;
|
||||
}
|
||||
}
|
||||
|
||||
if (!fdt_patch(fdt_list.begin(), fdt_list.end()))
|
||||
return 1;
|
||||
|
||||
unlink(out);
|
||||
int fd = xopen(out, O_WRONLY | O_CREAT | O_CLOEXEC, 0644);
|
||||
|
||||
for (int i = 0; i < fdt_list.size(); ++i) {
|
||||
auto fdt = fdt_list[i];
|
||||
fdt_pack(fdt);
|
||||
// Only add padding back if it is anything meaningful
|
||||
if (padding_list[i] > 4) {
|
||||
auto len = fdt_totalsize(fdt);
|
||||
fdt_set_totalsize(fdt, len + padding_list[i]);
|
||||
}
|
||||
xwrite(fd, fdt, fdt_totalsize(fdt));
|
||||
free(fdt);
|
||||
}
|
||||
close(fd);
|
||||
|
||||
return 0;
|
||||
}
|
||||
|
||||
#define MATCH(s) (memcmp(dtb, s, sizeof(s) - 1) == 0)
|
||||
|
||||
[[maybe_unused]] static int dtb_patch(const char *in, const char *out) {
|
||||
if (!out)
|
||||
out = in;
|
||||
size_t dtb_sz ;
|
||||
uint8_t *dtb;
|
||||
fprintf(stderr, "Loading dtbs from [%s]\n", in);
|
||||
mmap_ro(in, dtb, dtb_sz);
|
||||
run_finally f([&]{ munmap(dtb, dtb_sz); });
|
||||
|
||||
if (MATCH(QCDT_MAGIC)) {
|
||||
auto hdr = reinterpret_cast<qcdt_hdr*>(dtb);
|
||||
switch (hdr->version) {
|
||||
case 1:
|
||||
fprintf(stderr, "QCDT v1\n");
|
||||
return dt_table_patch<qctable_v1>(hdr, out);
|
||||
case 2:
|
||||
fprintf(stderr, "QCDT v2\n");
|
||||
return dt_table_patch<qctable_v2>(hdr, out);
|
||||
case 3:
|
||||
fprintf(stderr, "QCDT v3\n");
|
||||
return dt_table_patch<qctable_v3>(hdr, out);
|
||||
default:
|
||||
return 1;
|
||||
}
|
||||
} else if (MATCH(DTBH_MAGIC)) {
|
||||
auto hdr = reinterpret_cast<dtbh_hdr *>(dtb);
|
||||
switch (hdr->version) {
|
||||
case 2:
|
||||
fprintf(stderr, "DTBH v2\n");
|
||||
return dt_table_patch<bhtable_v2>(hdr, out);
|
||||
default:
|
||||
return 1;
|
||||
}
|
||||
} else if (MATCH(PXADT_MAGIC)) {
|
||||
auto hdr = reinterpret_cast<pxadt_hdr *>(dtb);
|
||||
switch (hdr->version) {
|
||||
case 1:
|
||||
fprintf(stderr, "PXA-DT v1\n");
|
||||
return dt_table_patch<pxatable_v1>(hdr, out);
|
||||
default:
|
||||
return 1;
|
||||
}
|
||||
} else if (MATCH(PXA19xx_MAGIC)) {
|
||||
auto hdr = reinterpret_cast<pxa19xx_hdr *>(dtb);
|
||||
switch (hdr->version) {
|
||||
case 1:
|
||||
fprintf(stderr, "PXA-19xx v1\n");
|
||||
return dt_table_patch<pxatable_v1>(hdr, out);
|
||||
default:
|
||||
return 1;
|
||||
}
|
||||
} else if (MATCH(SPRD_MAGIC)) {
|
||||
auto hdr = reinterpret_cast<sprd_hdr *>(dtb);
|
||||
switch (hdr->version) {
|
||||
case 1:
|
||||
fprintf(stderr, "SPRD v1\n");
|
||||
return dt_table_patch<sprdtable_v1>(hdr, out);
|
||||
default:
|
||||
return 1;
|
||||
}
|
||||
} else if (MATCH(DT_TABLE_MAGIC)) {
|
||||
auto hdr = reinterpret_cast<dt_table_header *>(dtb);
|
||||
switch (hdr->version) {
|
||||
case 0:
|
||||
fprintf(stderr, "DT_TABLE v0\n");
|
||||
return dt_table_patch<dt_table_entry>(hdr, out);
|
||||
default:
|
||||
return 1;
|
||||
}
|
||||
} else {
|
||||
return blob_patch(dtb, dtb_sz, out);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
@ -19,6 +19,6 @@ int hexpatch(const char *image, const char *from, const char *to);
|
||||
int cpio_commands(int argc, char *argv[]);
|
||||
int dtb_commands(int argc, char *argv[]);
|
||||
|
||||
char *patch_verity(const void *buf, uint32_t &size, bool inplace = false);
|
||||
void patch_encryption(void *buf, uint32_t &size);
|
||||
uint32_t patch_verity(void *buf, uint32_t size);
|
||||
uint32_t patch_encryption(void *buf, uint32_t size);
|
||||
bool check_env(const char *name);
|
||||
|
@ -42,7 +42,7 @@ Supported actions:
|
||||
Search <hexpattern1> in <file>, and replace with <hexpattern2>
|
||||
|
||||
cpio <incpio> [commands...]
|
||||
Do cpio commands to <incpio> (modifications are done directly)
|
||||
Do cpio commands to <incpio> (modifications are done in-place)
|
||||
Each command is a single argument, add quotes for each command
|
||||
Supported commands:
|
||||
exists ENTRY
|
||||
@ -64,8 +64,8 @@ Supported actions:
|
||||
Return values:
|
||||
0:stock 1:Magisk 2:unsupported (phh, SuperSU, Xposed)
|
||||
patch
|
||||
Apply ramdisk patches. Configure settings with env variables:
|
||||
KEEPVERITY KEEPFORCEENCRYPT
|
||||
Apply ramdisk patches
|
||||
Configure with env variables: KEEPVERITY KEEPFORCEENCRYPT
|
||||
backup ORIG
|
||||
Create ramdisk backups from ORIG
|
||||
restore
|
||||
@ -79,10 +79,10 @@ Supported actions:
|
||||
print [-f]
|
||||
Print all contents of dtb for debugging
|
||||
Specify [-f] to only print fstab nodes
|
||||
patch [OUT]
|
||||
patch
|
||||
Search for fstab and remove verity/avb
|
||||
If [OUT] is not specified, it will directly output to <input>
|
||||
Configure with env variables: KEEPVERITY TWOSTAGEINIT
|
||||
Modifications are done directly to the file in-place
|
||||
Configure with env variables: KEEPVERITY
|
||||
|
||||
split <input>
|
||||
Split image.*-dtb into kernel + kernel_dtb
|
||||
@ -186,7 +186,7 @@ int main(int argc, char *argv[]) {
|
||||
} else if (argc > 2 && action == "cpio"sv) {
|
||||
if (cpio_commands(argc - 2, argv + 2))
|
||||
usage(argv[0]);
|
||||
} else if (argc > 2 && action == "dtb") {
|
||||
} else if (argc > 3 && action == "dtb") {
|
||||
if (dtb_commands(argc - 2, argv + 2))
|
||||
usage(argv[0]);
|
||||
} else {
|
||||
|
@ -37,42 +37,27 @@ static int check_encryption_pattern(const char *s) {
|
||||
else return -1;
|
||||
}
|
||||
|
||||
char *patch_verity(const void *buf, uint32_t &size, bool inplace) {
|
||||
auto src = static_cast<const char *>(buf);
|
||||
auto dest = (char *)(inplace ? buf : xmalloc(size));
|
||||
int src_size = size;
|
||||
bool found = false;
|
||||
static uint32_t remove_pattern(void *buf, uint32_t size, int(*pattern_skip)(const char *)) {
|
||||
auto src = static_cast<char *>(buf);
|
||||
int orig_sz = size;
|
||||
int write = 0;
|
||||
for (int read = 0; read < src_size;) {
|
||||
if (int skip; (skip = check_verity_pattern(src + read)) > 0) {
|
||||
fprintf(stderr, "Found pattern [%.*s]\n", skip, src + read);
|
||||
for (int read = 0; read < orig_sz;) {
|
||||
if (int skip = pattern_skip(src + read); skip > 0) {
|
||||
fprintf(stderr, "Remove pattern [%.*s]\n", skip, src + read);
|
||||
size -= skip;
|
||||
read += skip;
|
||||
found = true;
|
||||
} else {
|
||||
dest[write++] = src[read++];
|
||||
src[write++] = src[read++];
|
||||
}
|
||||
}
|
||||
dest[write] = '\0';
|
||||
if (!found) {
|
||||
if (!inplace)
|
||||
free(dest);
|
||||
return nullptr;
|
||||
}
|
||||
return dest;
|
||||
memset(src + write, 0, orig_sz - write);
|
||||
return size;
|
||||
}
|
||||
|
||||
void patch_encryption(void *buf, uint32_t &size) {
|
||||
auto src = static_cast<char *>(buf);
|
||||
int src_size = size;
|
||||
int write = 0;
|
||||
for (int read = 0; read < src_size; ++read, ++write) {
|
||||
if (int skip; (skip = check_encryption_pattern(src + read)) > 0) {
|
||||
fprintf(stderr, "Found pattern [%.*s]\n", skip, src + read);
|
||||
size -= skip;
|
||||
read += skip;
|
||||
}
|
||||
src[write] = src[read];
|
||||
}
|
||||
src[write] = '\0';
|
||||
uint32_t patch_verity(void *buf, uint32_t size) {
|
||||
return remove_pattern(buf, size, check_verity_pattern);
|
||||
}
|
||||
|
||||
uint32_t patch_encryption(void *buf, uint32_t size) {
|
||||
return remove_pattern(buf, size, check_encryption_pattern);
|
||||
}
|
||||
|
@ -55,7 +55,7 @@ void magisk_cpio::patch() {
|
||||
if (!keepverity) {
|
||||
if (fstab) {
|
||||
fprintf(stderr, "Found fstab file [%s]\n", cur->first.data());
|
||||
patch_verity(cur->second->data, cur->second->filesize, true);
|
||||
cur->second->filesize = patch_verity(cur->second->data, cur->second->filesize);
|
||||
} else if (cur->first == "verity_key") {
|
||||
rm(cur);
|
||||
continue;
|
||||
@ -63,7 +63,7 @@ void magisk_cpio::patch() {
|
||||
}
|
||||
if (!keepforceencrypt) {
|
||||
if (fstab) {
|
||||
patch_encryption(cur->second->data, cur->second->filesize);
|
||||
cur->second->filesize = patch_encryption(cur->second->data, cur->second->filesize);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
Loading…
x
Reference in New Issue
Block a user