/*
Copyright 2013 to 2016 TeamWin
TWRP is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
TWRP 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.
You should have received a copy of the GNU General Public License
along with TWRP. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <string.h>
#include <fcntl.h>
#include <errno.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/select.h>
#include <sys/time.h>
#include <zlib.h>
#include <ctype.h>
#include <semaphore.h>
#include <string>
#include <fstream>
#include <sstream>
#include <algorithm>
#include "twadbstream.h"
#include "twrpback.hpp"
#include "../variables.h"
#include "../twcommon.h"
#include "../twrpDigest.hpp"
twrpback::twrpback(void) {
read_fd = 0;
write_fd = 0;
adb_control_twrp_fd = 0;
adb_control_bu_fd = 0;
adb_read_fd = 0;
adb_write_fd = 0;
adb_write_fd = 0;
ors_fd = 0;
firstPart = true;
adbloginit();
}
twrpback::~twrpback(void) {
adblogfile.close();
}
void twrpback::adbloginit(void) {
adblogfile.open("/tmp/adb.log", std::fstream::app);
}
void twrpback::adblogwrite(std::string writemsg) {
adblogfile << writemsg << std::flush;
}
void twrpback::close_backup_fds() {
if (ors_fd > 0)
close(ors_fd);
if (write_fd > 0)
close(write_fd);
if (adb_read_fd > 0)
close(adb_read_fd);
if (adb_control_bu_fd > 0)
close(adb_control_bu_fd);
if (adbd_fp != NULL)
fclose(adbd_fp);
if (access(TW_ADB_BACKUP, F_OK) == 0)
unlink(TW_ADB_BACKUP);
}
void twrpback::close_restore_fds() {
if (ors_fd > 0)
close(ors_fd);
if (write_fd > 0)
close(write_fd);
if (adb_control_bu_fd > 0)
close(adb_control_bu_fd);
if (adb_control_twrp_fd > 0)
close(adb_control_twrp_fd);
if (adbd_fp != NULL)
fclose(adbd_fp);
if (access(TW_ADB_RESTORE, F_OK) == 0)
unlink(TW_ADB_RESTORE);
}
int twrpback::backup(std::string command) {
twrpDigest adb_md5;
bool breakloop = false;
int bytes = 0, errctr = 0;
char result[MAX_ADB_READ];
uint64_t totalbytes = 0, dataChunkBytes = 0;
int64_t count = -1; // Count of how many blocks set
uint64_t md5fnsize = 0;
struct AdbBackupControlType endadb;
ADBSTRUCT_STATIC_ASSERT(sizeof(endadb) == MAX_ADB_READ);
bool writedata = true;
bool compressed = false;
bool firstDataPacket = true;
adbd_fp = fdopen(adbd_fd, "w");
if (adbd_fp == NULL) {
adblogwrite("Unable to open adb_fp\n");
return -1;
}
if (mkfifo(TW_ADB_BACKUP, 0666) < 0) {
adblogwrite("Unable to create TW_ADB_BACKUP fifo\n");
return -1;
}
adblogwrite("opening ORS_INPUT_FILE\n");
write_fd = open(ORS_INPUT_FILE, O_WRONLY);
while (write_fd < 0) {
write_fd = open(ORS_INPUT_FILE, O_WRONLY);
usleep(10000);
errctr++;
if (errctr > ADB_BU_MAX_ERROR) {
adblogwrite("Unable to open ORS_INPUT_FILE\n");
close_backup_fds();
return -1;
}
}
sprintf(operation, "adbbackup %s", command.c_str());
if (write(write_fd, operation, sizeof(operation)) != sizeof(operation)) {
adblogwrite("Unable to write to ORS_INPUT_FILE\n");
close_backup_fds();
return -1;
}
adblogwrite("opening ORS_OUTPUT_FILE\n");
ors_fd = open(ORS_OUTPUT_FILE, O_RDONLY);
if (ors_fd < 0) {
adblogwrite("Unable to open ORS_OUTPUT_FILE\n");
close_backup_fds();
return -1;
}
memset(&result, 0, sizeof(result));
memset(&cmd, 0, sizeof(cmd));
adblogwrite("opening TW_ADB_BU_CONTROL\n");
adb_control_bu_fd = open(TW_ADB_BU_CONTROL, O_RDONLY | O_NONBLOCK);
if (adb_control_bu_fd < 0) {
adblogwrite("Unable to open TW_ADB_BU_CONTROL for reading.\n");
close_backup_fds();
return -1;
}
adblogwrite("opening TW_ADB_BACKUP\n");
adb_read_fd = open(TW_ADB_BACKUP, O_RDONLY | O_NONBLOCK);
if (adb_read_fd < 0) {
adblogwrite("Unable to open TW_ADB_BACKUP for reading.\n");
close_backup_fds();
return -1;
}
//loop until TWENDADB sent
while (!breakloop) {
if (read(adb_control_bu_fd, &cmd, sizeof(cmd)) > 0) {
struct AdbBackupControlType structcmd;
memcpy(&structcmd, cmd, sizeof(cmd));
std::string cmdstr(structcmd.type);
std::string cmdtype = cmdstr.substr(0, sizeof(structcmd.type) - 1);
//we received an error, exit and unlink
if (cmdtype == TWERROR) {
writedata = false;
adblogwrite("Error received. Quitting...\n");
close_backup_fds();
return -1;
}
//we received the end of adb backup stream so we should break the loop
else if (cmdtype == TWENDADB) {
writedata = false;
adblogwrite("Recieved TWENDADB\n");
memcpy(&endadb, cmd, sizeof(cmd));
stringstream str;
str << totalbytes;
adblogwrite(str.str() + " total bytes written\n");
breakloop = true;
}
//we recieved the TWSTREAMHDR structure metadata to write to adb
else if (cmdtype == TWSTREAMHDR) {
writedata = false;
adblogwrite("Writing TWSTREAMHDR\n");
if (fwrite(cmd, 1, sizeof(cmd), adbd_fp) != sizeof(cmd)) {
stringstream str;
str << strerror(errno);
adblogwrite("Error writing TWSTREAMHDR to adbd" + str.str() + "\n");
close_backup_fds();
return -1;
}
fflush(adbd_fp);
}
//we will be writing an image from TWRP
else if (cmdtype == TWIMG) {
struct twfilehdr twimghdr;
adblogwrite("Writing TWIMG\n");
adb_md5.initMD5();
memset(&twimghdr, 0, sizeof(twimghdr));
memcpy(&twimghdr, cmd, sizeof(cmd));
md5fnsize = twimghdr.size;
if (fwrite(cmd, 1, sizeof(cmd), adbd_fp) != sizeof(cmd)) {
adblogwrite("Error writing TWIMG to adbd\n");
close_backup_fds();
return -1;
}
fflush(adbd_fp);
writedata = true;
}
//we will be writing a tar from TWRP
else if (cmdtype == TWFN) {
struct twfilehdr twfilehdr;
adblogwrite("Writing TWFN\n");
adb_md5.initMD5();
ADBSTRUCT_STATIC_ASSERT(sizeof(twfilehdr) == MAX_ADB_READ);
memset(&twfilehdr, 0, sizeof(twfilehdr));
memcpy(&twfilehdr, cmd, sizeof(cmd));
md5fnsize = twfilehdr.size;
compressed = twfilehdr.compressed == 1 ? true: false;
if (fwrite(cmd, 1, sizeof(cmd), adbd_fp) != sizeof(cmd)) {
adblogwrite("Error writing TWFN to adbd\n");
close_backup_fds();
return -1;
}
fflush(adbd_fp);
writedata = true;
}
/*
We received the command that we are done with the file stream.
We will flush the remaining data stream.
Update md5 and write final results to adb stream.
If we need padding because the total bytes are not a multiple
of 512, we pad the end with 0s to we reach 512.
We also write the final md5 to the adb stream.
*/
else if (cmdtype == TWEOF) {
adblogwrite("received TWEOF\n");
count = totalbytes / MAX_ADB_READ + 1;
count = count * MAX_ADB_READ;
while ((bytes = read(adb_read_fd, &result, sizeof(result))) == MAX_ADB_READ) {
totalbytes += bytes;
char *writeresult = new char [bytes];
memcpy(writeresult, result, bytes);
if (adb_md5.updateMD5stream((unsigned char *) writeresult, bytes) == -1)
adblogwrite("failed to update md5 stream\n");
if (fwrite(writeresult, 1, bytes, adbd_fp) != bytes) {
adblogwrite("Error writing backup data to adbd\n");
close_backup_fds();
return -1;
}
fflush(adbd_fp);
delete [] writeresult;
memset(&result, 0, sizeof(result));
}
if ((totalbytes % MAX_ADB_READ) != 0) {
adblogwrite("writing padding to stream\n");
char padding[count - totalbytes];
memset(padding, 0, sizeof(padding));
if (fwrite(padding, 1, sizeof(padding), adbd_fp) != sizeof(padding)) {
adblogwrite("Error writing padding to adbd\n");
close_backup_fds();
return -1;
}
if (adb_md5.updateMD5stream((unsigned char *) padding, sizeof(padding)) == -1)
adblogwrite("failed to update md5 stream\n");
fflush(adbd_fp);
totalbytes = 0;
}
AdbBackupFileTrailer md5trailer;
memset(&md5trailer, 0, sizeof(md5trailer));
adb_md5.finalizeMD5stream();
std::string md5string = adb_md5.createMD5string();
strncpy(md5trailer.start_of_trailer, TWRP, sizeof(md5trailer.start_of_trailer));
strncpy(md5trailer.type, MD5TRAILER, sizeof(md5trailer.type));
strncpy(md5trailer.md5, md5string.c_str(), sizeof(md5trailer.md5));
md5trailer.crc = crc32(0L, Z_NULL, 0);
md5trailer.crc = crc32(md5trailer.crc, (const unsigned char*) &md5trailer, sizeof(md5trailer));
md5trailer.ident = crc32(0L, Z_NULL, 0);
md5trailer.ident = crc32(md5trailer.ident, (const unsigned char*) &md5trailer, sizeof(md5trailer));
md5trailer.ident = crc32(md5trailer.ident, (const unsigned char*) &md5fnsize, sizeof(md5fnsize));
if (fwrite(&md5trailer, 1, sizeof(md5trailer), adbd_fp) != sizeof(md5trailer)) {
adblogwrite("Error writing md5trailer to adbd\n");
close_backup_fds();
return -1;
}
fflush(adbd_fp);
writedata = false;
firstDataPacket = true;
}
memset(&cmd, 0, sizeof(cmd));
}
//If we are to write data because of a new file stream, lets write all the data.
//This will allow us to not write data after a command structure has been written
//to the adb stream.
//If the stream is compressed, we need to always write the data.
if (writedata || compressed) {
while ((bytes = read(adb_read_fd, &result, sizeof(result))) == MAX_ADB_READ) {
if (firstDataPacket) {
struct AdbBackupControlType data_block;
memset(&data_block, 0, sizeof(data_block));
strncpy(data_block.start_of_header, TWRP, sizeof(data_block.start_of_header));
strncpy(data_block.type, TWDATA, sizeof(data_block.type));
data_block.crc = crc32(0L, Z_NULL, 0);
data_block.crc = crc32(data_block.crc, (const unsigned char*) &data_block, sizeof(data_block));
if (fwrite(&data_block, 1, sizeof(data_block), adbd_fp) != sizeof(data_block)) {
adblogwrite("Error writing data_block to adbd\n");
close_backup_fds();
return -1;
}
fflush(adbd_fp);
firstDataPacket = false;
}
char *writeresult = new char [bytes];
memcpy(writeresult, result, bytes);
if (adb_md5.updateMD5stream((unsigned char *) writeresult, bytes) == -1)
adblogwrite("failed to update md5 stream\n");
totalbytes += bytes;
dataChunkBytes += bytes;
if (fwrite(writeresult, 1, bytes, adbd_fp) != bytes) {
adblogwrite("Error writing backup data to adbd\n");
close_backup_fds();
return -1;
}
fflush(adbd_fp);
delete [] writeresult;
memset(&result, 0, sizeof(result));
if (dataChunkBytes == DATA_MAX_CHUNK_SIZE - sizeof(result)) {
struct AdbBackupControlType data_block;
memset(&data_block, 0, sizeof(data_block));
strncpy(data_block.start_of_header, TWRP, sizeof(data_block.start_of_header));
strncpy(data_block.type, TWDATA, sizeof(data_block.type));
data_block.crc = crc32(0L, Z_NULL, 0);
data_block.crc = crc32(data_block.crc, (const unsigned char*) &data_block, sizeof(data_block));
if (fwrite(&data_block, 1, sizeof(data_block), adbd_fp) != sizeof(data_block)) {
adblogwrite("Error writing data_block to adbd\n");
close_backup_fds();
return -1;
}
fflush(adbd_fp);
dataChunkBytes = 0;
}
}
compressed = false;
}
}
//Write the final end adb structure to the adb stream
if (fwrite(&endadb, 1, sizeof(endadb), adbd_fp) != sizeof(endadb)) {
adblogwrite("Error writing endadb to adbd\n");
close_backup_fds();
return -1;
}
fflush(adbd_fp);
close_backup_fds();
return 0;
}
int twrpback::restore(void) {
twrpDigest adb_md5;
char cmd[MAX_ADB_READ];
char result[MAX_ADB_READ];
struct AdbBackupControlType structcmd;
int adb_control_twrp_fd, errctr = 0;
uint64_t totalbytes = 0, dataChunkBytes = 0;
uint64_t md5fnsize = 0;
bool writedata, read_from_adb;
bool breakloop, eofsent, md5trsent;
breakloop = false;
read_from_adb = true;
signal(SIGPIPE, SIG_IGN);
adbd_fp = fdopen(adbd_fd, "r");
if (adbd_fp == NULL) {
adblogwrite("Unable to open adb_fp\n");
close_restore_fds();
return -1;
}
if(mkfifo(TW_ADB_RESTORE, 0666)) {
adblogwrite("Unable to create TW_ADB_RESTORE fifo\n");
close_restore_fds();
return -1;
}
adblogwrite("opening ORS_INPUT_FILE\n");
write_fd = open(ORS_INPUT_FILE, O_WRONLY);
while (write_fd < 0) {
write_fd = open(ORS_INPUT_FILE, O_WRONLY);
errctr++;
if (errctr > ADB_BU_MAX_ERROR) {
adblogwrite("Unable to open ORS_INPUT_FILE\n");
close_restore_fds();
return -1;
}
}
sprintf(operation, "adbrestore");
if (write(write_fd, operation, sizeof(operation)) != sizeof(operation)) {
adblogwrite("Unable to write to ORS_INPUT_FILE\n");
close_restore_fds();
return -1;
}
ors_fd = open(ORS_OUTPUT_FILE, O_RDONLY);
if (ors_fd < 0) {
stringstream str;
str << strerror(errno);
adblogwrite("Unable to write to ORS_OUTPUT_FILE: " + str.str() + "\n");
close_restore_fds();
return -1;
}
memset(&result, 0, sizeof(result));
memset(&cmd, 0, sizeof(cmd));
adblogwrite("opening TW_ADB_BU_CONTROL\n");
adb_control_bu_fd = open(TW_ADB_BU_CONTROL, O_RDONLY | O_NONBLOCK);
if (adb_control_bu_fd < 0) {
stringstream str;
str << strerror(errno);
adblogwrite("Unable to open TW_ADB_BU_CONTROL for writing. " + str.str() + "\n");
close_restore_fds();
return -1;
}
adblogwrite("opening TW_ADB_TWRP_CONTROL\n");
adb_control_twrp_fd = open(TW_ADB_TWRP_CONTROL, O_WRONLY | O_NONBLOCK);
if (adb_control_twrp_fd < 0) {
stringstream str;
str << strerror(errno);
adblogwrite("Unable to open TW_ADB_TWRP_CONTROL for writing. " + str.str() + ". Retrying...\n");
while (adb_control_twrp_fd < 0) {
adb_control_twrp_fd = open(TW_ADB_TWRP_CONTROL, O_WRONLY | O_NONBLOCK);
usleep(10000);
errctr++;
if (errctr > ADB_BU_MAX_ERROR) {
adblogwrite("Unable to open TW_ADB_TWRP_CONTROL\n");
close_backup_fds();
return -1;
}
}
}
//Loop until we receive TWENDADB from TWRP
while (!breakloop) {
memset(&cmd, 0, sizeof(cmd));
if (read(adb_control_bu_fd, &cmd, sizeof(cmd)) > 0) {
struct AdbBackupControlType structcmd;
memcpy(&structcmd, cmd, sizeof(cmd));
std::string cmdstr(structcmd.type);
std::string cmdtype = cmdstr.substr(0, sizeof(structcmd.type) - 1);
//If we receive TWEOF from TWRP close adb data fifo
if (cmdtype == TWEOF) {
adblogwrite("Received TWEOF\n");
struct AdbBackupControlType tweof;
memset(&tweof, 0, sizeof(tweof));
memcpy(&tweof, result, sizeof(result));
read_from_adb = true;
}
//Break when TWRP sends TWENDADB
else if (cmdtype == TWENDADB) {
adblogwrite("Received TWENDADB\n");
breakloop = true;
close_restore_fds();
}
//we received an error, exit and unlink
else if (cmdtype == TWERROR) {
adblogwrite("Error received. Quitting...\n");
close_restore_fds();
return -1;
}
}
//If we should read from the adb stream, write commands and data to TWRP
if (read_from_adb) {
std::string cmdstr;
int readbytes;
if ((readbytes = fread(result, 1, sizeof(result), adbd_fp)) == sizeof(result)) {
totalbytes += readbytes;
memcpy(&structcmd, result, sizeof(result));
cmdstr = structcmd.type;
std::string cmdtype = cmdstr.substr(0, sizeof(structcmd.type) - 1);
//Tell TWRP we have read the entire adb stream
if (cmdtype == TWENDADB) {
struct AdbBackupControlType endadb;
uint32_t crc, endadbcrc;
totalbytes -= sizeof(result);
memset(&endadb, 0, sizeof(endadb));
memcpy(&endadb, result, sizeof(result));
endadbcrc = endadb.crc;
memset(&endadb.crc, 0, sizeof(endadb.crc));
crc = crc32(0L, Z_NULL, 0);
crc = crc32(crc, (const unsigned char*) &endadb, sizeof(endadb));
if (crc == endadbcrc) {
adblogwrite("Sending TWENDADB\n");
if (write(adb_control_twrp_fd, &endadb, sizeof(endadb)) < 1) {
stringstream str;
str << strerror(errno);
adblogwrite("Cannot write to ADB_CONTROL_READ_FD: " + str.str() + "\n");
close_restore_fds();
return -1;
}
}
else {
adblogwrite("ADB TWENDADB crc header doesn't match\n");
close_restore_fds();
return -1;
}
}
//Send TWRP partition metadata
else if (cmdtype == TWSTREAMHDR) {
struct AdbBackupStreamHeader cnthdr;
uint32_t crc, cnthdrcrc;
ADBSTRUCT_STATIC_ASSERT(sizeof(cnthdr) == MAX_ADB_READ);
totalbytes -= sizeof(result);
memset(&cnthdr, 0, sizeof(cnthdr));
memcpy(&cnthdr, result, sizeof(result));
cnthdrcrc = cnthdr.crc;
memset(&cnthdr.crc, 0, sizeof(cnthdr.crc));
crc = crc32(0L, Z_NULL, 0);
crc = crc32(crc, (const unsigned char*) &cnthdr, sizeof(cnthdr));
if (crc == cnthdrcrc) {
adblogwrite("Restoring TWSTREAMHDR\n");
if (write(adb_control_twrp_fd, result, sizeof(result)) < 0) {
stringstream str;
str << strerror(errno);
adblogwrite("Cannot write to adb_control_twrp_fd: " + str.str() + "\n");
close_restore_fds();
return -1;
}
}
else {
adblogwrite("ADB TWSTREAMHDR crc header doesn't match\n");
close_restore_fds();
return -1;
}
}
//Tell TWRP we are sending a partition image
else if (cmdtype == TWIMG) {
struct twfilehdr twimghdr;
uint32_t crc, twimghdrcrc;
totalbytes -= sizeof(result);
adb_md5.initMD5();
adblogwrite("Restoring TWIMG\n");
memset(&twimghdr, 0, sizeof(twimghdr));
memcpy(&twimghdr, result, sizeof(result));
md5fnsize = twimghdr.size;
twimghdrcrc = twimghdr.crc;
memset(&twimghdr.crc, 0, sizeof(twimghdr.crc));
crc = crc32(0L, Z_NULL, 0);
crc = crc32(crc, (const unsigned char*) &twimghdr, sizeof(twimghdr));
if (crc == twimghdrcrc) {
if (write(adb_control_twrp_fd, result, sizeof(result)) < 1) {
stringstream str;
str << strerror(errno);
adblogwrite("Cannot write to adb_control_twrp_fd: " + str.str() + "\n");
close_restore_fds();
return -1;
}
}
else {
adblogwrite("ADB TWIMG crc header doesn't match\n");
close_restore_fds();
return -1;
}
adblogwrite("opening TW_ADB_RESTORE\n");
adb_write_fd = open(TW_ADB_RESTORE, O_WRONLY);
}
//Tell TWRP we are sending a tar stream
else if (cmdtype == TWFN) {
struct twfilehdr twfilehdr;
uint32_t crc, twfilehdrcrc;
totalbytes -= sizeof(result);
adb_md5.initMD5();
adblogwrite("Restoring TWFN\n");
memset(&twfilehdr, 0, sizeof(twfilehdr));
memcpy(&twfilehdr, result, sizeof(result));
md5fnsize = twfilehdr.size;
twfilehdrcrc = twfilehdr.crc;
memset(&twfilehdr.crc, 0, sizeof(twfilehdr.crc));
crc = crc32(0L, Z_NULL, 0);
crc = crc32(crc, (const unsigned char*) &twfilehdr, sizeof(twfilehdr));
if (crc == twfilehdrcrc) {
if (write(adb_control_twrp_fd, result, sizeof(result)) < 1) {
stringstream str;
str << strerror(errno);
adblogwrite("Cannot write to adb_control_twrp_fd: " + str.str() + "\n");
close_restore_fds();
return -1;
}
}
else {
adblogwrite("ADB TWFN crc header doesn't match\n");
close_restore_fds();
return -1;
}
adblogwrite("opening TW_ADB_RESTORE\n");
adb_write_fd = open(TW_ADB_RESTORE, O_WRONLY);
}
//Send the tar or partition image md5 to TWRP
else if (cmdtype == TWDATA) {
totalbytes -= sizeof(result);
while (1) {
if ((readbytes = fread(result, 1, sizeof(result), adbd_fp)) != sizeof(result)) {
close_restore_fds();
return -1;
}
totalbytes += readbytes;
memcpy(&structcmd, result, sizeof(result));
cmdstr = structcmd.type;
if (cmdstr.substr(0, sizeof(MD5TRAILER) - 1) == MD5TRAILER) {
struct AdbBackupFileTrailer md5tr;
uint32_t crc, md5trcrc, md5ident, md5identmatch;
ADBSTRUCT_STATIC_ASSERT(sizeof(md5tr) == MAX_ADB_READ);
memset(&md5tr, 0, sizeof(md5tr));
memcpy(&md5tr, result, sizeof(result));
md5ident = md5tr.ident;
memset(&md5tr.ident, 0, sizeof(md5tr.ident));
md5identmatch = crc32(0L, Z_NULL, 0);
md5identmatch = crc32(md5identmatch, (const unsigned char*) &md5tr, sizeof(md5tr));
md5identmatch = crc32(md5identmatch, (const unsigned char*) &md5fnsize, sizeof(md5fnsize));
if (md5identmatch == md5ident) {
totalbytes -= sizeof(result);
close(adb_write_fd);
adblogwrite("Restoring MD5TRAILER\n");
md5trcrc = md5tr.crc;
memset(&md5tr.crc, 0, sizeof(md5tr.crc));
crc = crc32(0L, Z_NULL, 0);
crc = crc32(crc, (const unsigned char*) &md5tr, sizeof(md5tr));
if (crc == md5trcrc) {
if (write(adb_control_twrp_fd, result, sizeof(result)) < 1) {
stringstream str;
str << strerror(errno);
adblogwrite("Cannot write to adb_control_twrp_fd: " + str.str() + "\n");
close_restore_fds();
return -1;
}
}
else {
adblogwrite("ADB MD5TRAILER crc header doesn't match\n");
close_restore_fds();
return -1;
}
adblogwrite("md5 finalize stream\n");
adb_md5.finalizeMD5stream();
AdbBackupFileTrailer md5;
memset(&md5, 0, sizeof(md5));
strncpy(md5.start_of_trailer, TWRP, sizeof(md5.start_of_trailer));
strncpy(md5.type, TWMD5, sizeof(md5.type));
std::string md5string = adb_md5.createMD5string();
strncpy(md5.md5, md5string.c_str(), sizeof(md5.md5));
adblogwrite("Sending MD5Check\n");
if (write(adb_control_twrp_fd, &md5, sizeof(md5)) < 1) {
stringstream str;
str << strerror(errno);
adblogwrite("Cannot write to adb_control_twrp_fd: " + str.str() + "\n");
close_restore_fds();
return -1;
}
read_from_adb = false; //don't read from adb until TWRP sends TWEOF
break;
}
}
if (adb_md5.updateMD5stream((unsigned char*)result, sizeof(result)) == -1)
adblogwrite("failed to update md5 stream\n");
dataChunkBytes += readbytes;
if (write(adb_write_fd, result, sizeof(result)) < 0) {
stringstream str;
str << strerror(errno);
adblogwrite("Cannot write to adb_write_fd\n" + str.str() + ". Retrying.\n");
while(write(adb_write_fd, result, sizeof(result)) < 0) {
adblogwrite("Cannot write to adb_write_fd\n" + str.str() + ". Retrying.\n");
continue;
}
}
if (dataChunkBytes == ((DATA_MAX_CHUNK_SIZE) - sizeof(result))) {
dataChunkBytes = 0;
break;
}
memset(&result, 0, sizeof(result));
}
}
}
}
}
stringstream str;
str << totalbytes;
adblogwrite(str.str() + " bytes restored from adbbackup\n");
return 0;
}
int main(int argc, char **argv) {
int index;
int ret = 0, pos = 0;
std::string command;
twrpback tw;
tw.adblogwrite("Starting adb backup and restore\n");
if (mkfifo(TW_ADB_BU_CONTROL, 0666) < 0) {
stringstream str;
str << strerror(errno);
tw.adblogwrite("Unable to create TW_ADB_BU_CONTROL fifo: " + str.str() + "\n");
unlink(TW_ADB_BU_CONTROL);
return -1;
}
if (mkfifo(TW_ADB_TWRP_CONTROL, 0666) < 0) {
stringstream str;
str << strerror(errno);
tw.adblogwrite("Unable to create TW_ADB_TWRP_CONTROL fifo: " + str.str() + "\n");
unlink(TW_ADB_TWRP_CONTROL);
unlink(TW_ADB_BU_CONTROL);
return -1;
}
command = argv[1];
for (index = 2; index < argc; index++) {
command = command + " " + argv[index];
}
pos = command.find("backup");
if (pos < 0) {
pos = command.find("restore");
}
command.erase(0, pos);
command.erase(std::remove(command.begin(), command.end(), '\''), command.end());
tw.adblogwrite("command: " + command + "\n");
if (command.substr(0, sizeof("backup") - 1) == "backup") {
tw.adblogwrite("Starting adb backup\n");
if (isdigit(*argv[1]))
tw.adbd_fd = atoi(argv[1]);
else
tw.adbd_fd = 1;
ret = tw.backup(command);
}
else if (command.substr(0, sizeof("restore") - 1) == "restore") {
tw.adblogwrite("Starting adb restore\n");
if (isdigit(*argv[1]))
tw.adbd_fd = atoi(argv[1]);
else
tw.adbd_fd = 0;
ret = tw.restore();
}
if (ret == 0)
tw.adblogwrite("Adb backup/restore completed\n");
else
tw.adblogwrite("Adb backup/restore failed\n");
if (unlink(TW_ADB_BU_CONTROL) < 0) {
stringstream str;
str << strerror(errno);
tw.adblogwrite("Unable to remove TW_ADB_BU_CONTROL: " + str.str());
}
unlink(TW_ADB_TWRP_CONTROL);
return ret;
}