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flutter / third_party / ios-deploy / refs/tags/1.3.1 / . / ios-deploy.c
blob: 6fc20f5593b49d0070f6de1a719146fe4051cd3c [file] [log] [blame]
//TODO: don't copy/mount DeveloperDiskImage.dmg if it's already done - Xcode checks this somehow
#import <CoreFoundation/CoreFoundation.h>
#import <Foundation/Foundation.h>
#include <unistd.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/un.h>
#include <sys/sysctl.h>
#include <stdio.h>
#include <signal.h>
#include <getopt.h>
#include <pwd.h>
#include <netinet/in.h>
#include <netinet/tcp.h>
#include "MobileDevice.h"
#define APP_VERSION "1.3.1"
#define PREP_CMDS_PATH "/tmp/fruitstrap-lldb-prep-cmds-"
#define LLDB_SHELL "lldb -s " PREP_CMDS_PATH
/*
* Startup script passed to lldb.
* To see how xcode interacts with lldb, put this into .lldbinit:
* log enable -v -f /Users/vargaz/lldb.log lldb all
* log enable -v -f /Users/vargaz/gdb-remote.log gdb-remote all
*/
#define LLDB_PREP_CMDS CFSTR("\
platform select remote-ios --sysroot {symbols_path}\n\
target create \"{disk_app}\"\n\
script fruitstrap_device_app=\"{device_app}\"\n\
script fruitstrap_connect_url=\"connect://127.0.0.1:{device_port}\"\n\
command script import \"{python_file_path}\"\n\
command script add -f {python_command}.connect_command connect\n\
command script add -s asynchronous -f {python_command}.run_command run\n\
command script add -s asynchronous -f {python_command}.autoexit_command autoexit\n\
command script add -s asynchronous -f {python_command}.safequit_command safequit\n\
connect\n\
")
const char* lldb_prep_no_cmds = "";
const char* lldb_prep_interactive_cmds = "\
run\n\
";
const char* lldb_prep_noninteractive_justlaunch_cmds = "\
run\n\
safequit\n\
";
const char* lldb_prep_noninteractive_cmds = "\
run\n\
autoexit\n\
";
/*
* Some things do not seem to work when using the normal commands like process connect/launch, so we invoke them
* through the python interface. Also, Launch () doesn't seem to work when ran from init_module (), so we add
* a command which can be used by the user to run it.
*/
#define LLDB_FRUITSTRAP_MODULE CFSTR("\
import lldb\n\
import sys\n\
import shlex\n\
\n\
def connect_command(debugger, command, result, internal_dict):\n\
# These two are passed in by the script which loads us\n\
connect_url = internal_dict['fruitstrap_connect_url']\n\
error = lldb.SBError()\n\
\n\
process = lldb.target.ConnectRemote(lldb.target.GetDebugger().GetListener(), connect_url, None, error)\n\
\n\
# Wait for connection to succeed\n\
listener = lldb.target.GetDebugger().GetListener()\n\
listener.StartListeningForEvents(process.GetBroadcaster(), lldb.SBProcess.eBroadcastBitStateChanged)\n\
events = []\n\
state = (process.GetState() or lldb.eStateInvalid)\n\
while state != lldb.eStateConnected:\n\
event = lldb.SBEvent()\n\
if listener.WaitForEvent(1, event):\n\
state = process.GetStateFromEvent(event)\n\
events.append(event)\n\
else:\n\
state = lldb.eStateInvalid\n\
\n\
# Add events back to queue, otherwise lldb freezes\n\
for event in events:\n\
listener.AddEvent(event)\n\
\n\
def run_command(debugger, command, result, internal_dict):\n\
device_app = internal_dict['fruitstrap_device_app']\n\
error = lldb.SBError()\n\
lldb.target.modules[0].SetPlatformFileSpec(lldb.SBFileSpec(device_app))\n\
lldb.target.Launch(lldb.SBLaunchInfo(shlex.split('{args}')), error)\n\
lockedstr = ': Locked'\n\
if lockedstr in str(error):\n\
print('\\nDevice Locked\\n')\n\
sys.exit(254)\n\
else:\n\
print(str(error))\n\
\n\
def safequit_command(debugger, command, result, internal_dict):\n\
process = lldb.target.process\n\
listener = debugger.GetListener()\n\
listener.StartListeningForEvents(process.GetBroadcaster(), lldb.SBProcess.eBroadcastBitStateChanged | lldb.SBProcess.eBroadcastBitSTDOUT | lldb.SBProcess.eBroadcastBitSTDERR)\n\
event = lldb.SBEvent()\n\
while True:\n\
if listener.WaitForEvent(1, event):\n\
state = process.GetStateFromEvent(event)\n\
else:\n\
state = lldb.eStateInvalid\n\
process.Detach()\n\
sys.exit(0)\n\
\n\
def autoexit_command(debugger, command, result, internal_dict):\n\
process = lldb.target.process\n\
listener = debugger.GetListener()\n\
listener.StartListeningForEvents(process.GetBroadcaster(), lldb.SBProcess.eBroadcastBitStateChanged | lldb.SBProcess.eBroadcastBitSTDOUT | lldb.SBProcess.eBroadcastBitSTDERR)\n\
event = lldb.SBEvent()\n\
while True:\n\
if listener.WaitForEvent(1, event):\n\
state = process.GetStateFromEvent(event)\n\
else:\n\
state = lldb.eStateInvalid\n\
\n\
stdout = process.GetSTDOUT(1024)\n\
while stdout:\n\
sys.stdout.write(stdout)\n\
stdout = process.GetSTDOUT(1024)\n\
\n\
stderr = process.GetSTDERR(1024)\n\
while stderr:\n\
sys.stdout.write(stderr)\n\
stderr = process.GetSTDERR(1024)\n\
\n\
if lldb.SBProcess.EventIsProcessEvent(event):\n\
if state == lldb.eStateExited:\n\
sys.exit(process.GetExitStatus())\n\
if state == lldb.eStateStopped:\n\
debugger.HandleCommand('frame select')\n\
debugger.HandleCommand('bt')\n\
sys.exit({exitcode_app_crash})\n\
")
typedef struct am_device * AMDeviceRef;
mach_error_t AMDeviceSecureStartService(struct am_device *device, CFStringRef service_name, unsigned int *unknown, service_conn_t *handle);
int AMDeviceSecureTransferPath(int zero, AMDeviceRef device, CFURLRef url, CFDictionaryRef options, void *callback, int cbarg);
int AMDeviceSecureInstallApplication(int zero, AMDeviceRef device, CFURLRef url, CFDictionaryRef options, void *callback, int cbarg);
int AMDeviceMountImage(AMDeviceRef device, CFStringRef image, CFDictionaryRef options, void *callback, int cbarg);
mach_error_t AMDeviceLookupApplications(AMDeviceRef device, CFDictionaryRef options, CFDictionaryRef *result);
int AMDeviceGetInterfaceType(struct am_device *device);
bool found_device = false, debug = false, verbose = false, unbuffered = false, nostart = false, detect_only = false, install = true, uninstall = false;
bool command_only = false;
char *command = NULL;
char *target_filename = NULL;
char *upload_pathname = NULL;
char *bundle_id = NULL;
bool interactive = true;
bool justlaunch = false;
char *app_path = NULL;
char *device_id = NULL;
char *args = NULL;
char *list_root = NULL;
int timeout = 0;
int port = 12345;
CFStringRef last_path = NULL;
service_conn_t gdbfd;
pid_t parent = 0;
// PID of child process running lldb
pid_t child = 0;
// Signal sent from child to parent process when LLDB finishes.
const int SIGLLDB = SIGUSR1;
AMDeviceRef best_device_match = NULL;
// Error codes we report on different failures, so scripts can distinguish between user app exit
// codes and our exit codes. For non app errors we use codes in reserved 128-255 range.
const int exitcode_error = 253;
const int exitcode_app_crash = 254;
Boolean path_exists(CFTypeRef path) {
if (CFGetTypeID(path) == CFStringGetTypeID()) {
CFURLRef url = CFURLCreateWithFileSystemPath(NULL, path, kCFURLPOSIXPathStyle, true);
Boolean result = CFURLResourceIsReachable(url, NULL);
CFRelease(url);
return result;
} else if (CFGetTypeID(path) == CFURLGetTypeID()) {
return CFURLResourceIsReachable(path, NULL);
} else {
return false;
}
}
CFStringRef find_path(CFStringRef rootPath, CFStringRef namePattern, CFStringRef expression) {
FILE *fpipe = NULL;
CFStringRef quotedRootPath = rootPath;
CFStringRef cf_command;
CFRange slashLocation;
if (CFStringGetCharacterAtIndex(rootPath, 0) != '`') {
quotedRootPath = CFStringCreateWithFormat(NULL, NULL, CFSTR("'%@'"), rootPath);
}
slashLocation = CFStringFind(namePattern, CFSTR("/"), 0);
if (slashLocation.location == kCFNotFound) {
cf_command = CFStringCreateWithFormat(NULL, NULL, CFSTR("find %@ -name '%@' %@ 2>/dev/null | sort | tail -n 1"), quotedRootPath, namePattern, expression);
} else {
cf_command = CFStringCreateWithFormat(NULL, NULL, CFSTR("find %@ -path '%@' %@ 2>/dev/null | sort | tail -n 1"), quotedRootPath, namePattern, expression);
}
if (quotedRootPath != rootPath) {
CFRelease(quotedRootPath);
}
char command[1024] = { '\0' };
CFStringGetCString(cf_command, command, sizeof(command), kCFStringEncodingUTF8);
CFRelease(cf_command);
if (!(fpipe = (FILE *)popen(command, "r")))
{
perror("Error encountered while opening pipe");
exit(exitcode_error);
}
char buffer[256] = { '\0' };
fgets(buffer, sizeof(buffer), fpipe);
pclose(fpipe);
strtok(buffer, "\n");
return CFStringCreateWithCString(NULL, buffer, kCFStringEncodingUTF8);
}
CFStringRef copy_long_shot_disk_image_path() {
return find_path(CFSTR("`xcode-select --print-path`"), CFSTR("DeveloperDiskImage.dmg"), CFSTR(""));
}
CFStringRef copy_xcode_dev_path() {
static char xcode_dev_path[256] = { '\0' };
if (strlen(xcode_dev_path) == 0) {
FILE *fpipe = NULL;
char *command = "xcode-select -print-path";
if (!(fpipe = (FILE *)popen(command, "r")))
{
perror("Error encountered while opening pipe");
exit(exitcode_error);
}
char buffer[256] = { '\0' };
fgets(buffer, sizeof(buffer), fpipe);
pclose(fpipe);
strtok(buffer, "\n");
strcpy(xcode_dev_path, buffer);
}
return CFStringCreateWithCString(NULL, xcode_dev_path, kCFStringEncodingUTF8);
}
const char *get_home() {
const char* home = getenv("HOME");
if (!home) {
struct passwd *pwd = getpwuid(getuid());
home = pwd->pw_dir;
}
return home;
}
CFStringRef copy_xcode_path_for(CFStringRef subPath, CFStringRef search) {
CFStringRef xcodeDevPath = copy_xcode_dev_path();
CFStringRef path;
bool found = false;
const char* home = get_home();
CFRange slashLocation;
// Try using xcode-select --print-path
if (!found) {
path = CFStringCreateWithFormat(NULL, NULL, CFSTR("%@/%@/%@"), xcodeDevPath, subPath, search);
found = path_exists(path);
}
// Try find `xcode-select --print-path` with search as a name pattern
if (!found) {
slashLocation = CFStringFind(search, CFSTR("/"), 0);
if (slashLocation.location == kCFNotFound) {
path = find_path(CFStringCreateWithFormat(NULL, NULL, CFSTR("%@/%@"), xcodeDevPath, subPath), search, CFSTR("-maxdepth 1"));
} else {
path = find_path(CFStringCreateWithFormat(NULL, NULL, CFSTR("%@/%@"), xcodeDevPath, subPath), search, CFSTR(""));
}
found = CFStringGetLength(path) > 0 && path_exists(path);
}
// If not look in the default xcode location (xcode-select is sometimes wrong)
if (!found) {
path = CFStringCreateWithFormat(NULL, NULL, CFSTR("/Applications/Xcode.app/Contents/Developer/%@&%@"), subPath, search);
found = path_exists(path);
}
// If not look in the users home directory, Xcode can store device support stuff there
if (!found) {
path = CFStringCreateWithFormat(NULL, NULL, CFSTR("%s/Library/Developer/Xcode/%@/%@"), home, subPath, search);
found = path_exists(path);
}
CFRelease(xcodeDevPath);
if (found) {
return path;
} else {
CFRelease(path);
return NULL;
}
}
// Please ensure that device is connected or the name will be unknown
const CFStringRef get_device_hardware_name(const AMDeviceRef device) {
CFStringRef model = AMDeviceCopyValue(device, 0, CFSTR("HardwareModel"));
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("M68AP"), kCFCompareNonliteral))
return CFSTR("iPhone");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N45AP"), kCFCompareNonliteral))
return CFSTR("iPod touch");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N82AP"), kCFCompareNonliteral))
return CFSTR("iPhone 3G");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N72AP"), kCFCompareNonliteral))
return CFSTR("iPod touch 2G");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N88AP"), kCFCompareNonliteral))
return CFSTR("iPhone 3GS");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N18AP"), kCFCompareNonliteral))
return CFSTR("iPod touch 3G");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("K48AP"), kCFCompareNonliteral))
return CFSTR("iPad");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N90AP"), kCFCompareNonliteral))
return CFSTR("iPhone 4 (GSM)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N81AP"), kCFCompareNonliteral))
return CFSTR("iPod touch 4G");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("K66AP"), kCFCompareNonliteral))
return CFSTR("Apple TV 2G");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N92AP"), kCFCompareNonliteral))
return CFSTR("iPhone 4 (CDMA)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N90BAP"), kCFCompareNonliteral))
return CFSTR("iPhone 4 (GSM, revision A)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("K93AP"), kCFCompareNonliteral))
return CFSTR("iPad 2");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("K94AP"), kCFCompareNonliteral))
return CFSTR("iPad 2 (GSM)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("K95AP"), kCFCompareNonliteral))
return CFSTR("iPad 2 (CDMA)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("K93AAP"), kCFCompareNonliteral))
return CFSTR("iPad 2 (Wi-Fi, revision A)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("P105AP"), kCFCompareNonliteral))
return CFSTR("iPad mini");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("P106AP"), kCFCompareNonliteral))
return CFSTR("iPad mini (GSM)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("P107AP"), kCFCompareNonliteral))
return CFSTR("iPad mini (CDMA)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N94AP"), kCFCompareNonliteral))
return CFSTR("iPhone 4S");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N41AP"), kCFCompareNonliteral))
return CFSTR("iPhone 5 (GSM)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N42AP"), kCFCompareNonliteral))
return CFSTR("iPhone 5 (Global/CDMA)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N48AP"), kCFCompareNonliteral))
return CFSTR("iPhone 5c (GSM)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N49AP"), kCFCompareNonliteral))
return CFSTR("iPhone 5c (Global/CDMA)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N51AP"), kCFCompareNonliteral))
return CFSTR("iPhone 5s (GSM)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N53AP"), kCFCompareNonliteral))
return CFSTR("iPhone 5s (Global/CDMA)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N61AP"), kCFCompareNonliteral))
return CFSTR("iPhone 6 (GSM)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("J1AP"), kCFCompareNonliteral))
return CFSTR("iPad 3");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("J2AP"), kCFCompareNonliteral))
return CFSTR("iPad 3 (GSM)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("J2AAP"), kCFCompareNonliteral))
return CFSTR("iPad 3 (CDMA)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("P101AP"), kCFCompareNonliteral))
return CFSTR("iPad 4");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("P102AP"), kCFCompareNonliteral))
return CFSTR("iPad 4 (GSM)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("P103AP"), kCFCompareNonliteral))
return CFSTR("iPad 4 (CDMA)");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("N78AP"), kCFCompareNonliteral))
return CFSTR("iPod touch 5G");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("A1509"), kCFCompareNonliteral))
return CFSTR("iPod touch 5G");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("J33AP"), kCFCompareNonliteral))
return CFSTR("Apple TV 3G");
if (kCFCompareEqualTo == CFStringCompare(model,CFSTR("J33IAP"), kCFCompareNonliteral))
return CFSTR("Apple TV 3.1G");
return model;
//return CFStringCreateWithFormat(NULL, NULL, CFSTR("%s"), hwmodel);
//return CFSTR("Unknown Device");
}
char * MYCFStringCopyUTF8String(CFStringRef aString) {
if (aString == NULL) {
return NULL;
}
CFIndex length = CFStringGetLength(aString);
CFIndex maxSize =
CFStringGetMaximumSizeForEncoding(length,
kCFStringEncodingUTF8);
char *buffer = (char *)malloc(maxSize);
if (CFStringGetCString(aString, buffer, maxSize,
kCFStringEncodingUTF8)) {
return buffer;
}
return NULL;
}
CFStringRef get_device_full_name(const AMDeviceRef device) {
CFStringRef full_name = NULL,
device_udid = AMDeviceCopyDeviceIdentifier(device),
device_name = NULL,
model_name = NULL;
AMDeviceConnect(device);
device_name = AMDeviceCopyValue(device, 0, CFSTR("DeviceName")),
model_name = get_device_hardware_name(device);
if (verbose)
{
char *devName = MYCFStringCopyUTF8String(device_name);
printf("Device Name:[%s]\n",devName);
CFShow(device_name);
printf("\n");
free(devName);
char *mdlName = MYCFStringCopyUTF8String(model_name);
printf("Model Name:[%s]\n",mdlName);
printf("MM: [%s]\n",CFStringGetCStringPtr(model_name, kCFStringEncodingUTF8));
CFShow(model_name);
printf("\n");
free(mdlName);
}
if(device_name != NULL && model_name != NULL)
{
full_name = CFStringCreateWithFormat(NULL, NULL, CFSTR("%@ '%@' (%@)"), model_name, device_name, device_udid);
}
else
{
full_name = CFStringCreateWithFormat(NULL, NULL, CFSTR("(%@ss)"), device_udid);
}
AMDeviceDisconnect(device);
if(device_udid != NULL)
CFRelease(device_udid);
if(device_name != NULL)
CFRelease(device_name);
if(model_name != NULL)
CFRelease(model_name);
return full_name;
}
CFStringRef get_device_interface_name(const AMDeviceRef device) {
// AMDeviceGetInterfaceType(device) 0=Unknown, 1 = Direct/USB, 2 = Indirect/WIFI
switch(AMDeviceGetInterfaceType(device)) {
case 1:
return CFSTR("USB");
case 2:
return CFSTR("WIFI");
default:
return CFSTR("Unknown Connection");
}
}
CFMutableArrayRef get_device_product_version_parts(AMDeviceRef device) {
CFStringRef version = AMDeviceCopyValue(device, 0, CFSTR("ProductVersion"));
CFArrayRef parts = CFStringCreateArrayBySeparatingStrings(NULL, version, CFSTR("."));
CFMutableArrayRef result = CFArrayCreateMutableCopy(NULL, CFArrayGetCount(parts), parts);
CFRelease(version);
CFRelease(parts);
return result;
}
CFStringRef copy_device_support_path(AMDeviceRef device) {
CFStringRef version = NULL;
CFStringRef build = AMDeviceCopyValue(device, 0, CFSTR("BuildVersion"));
CFStringRef path = NULL;
CFMutableArrayRef version_parts = get_device_product_version_parts(device);
while (CFArrayGetCount(version_parts) > 0) {
version = CFStringCreateByCombiningStrings(NULL, version_parts, CFSTR("."));
if (path == NULL) {
path = copy_xcode_path_for(CFSTR("iOS DeviceSupport"), CFStringCreateWithFormat(NULL, NULL, CFSTR("%@ (%@)"), version, build));
}
if (path == NULL) {
path = copy_xcode_path_for(CFSTR("Platforms/iPhoneOS.platform/DeviceSupport"), CFStringCreateWithFormat(NULL, NULL, CFSTR("%@ (%@)"), version, build));
}
if (path == NULL) {
path = copy_xcode_path_for(CFSTR("Platforms/iPhoneOS.platform/DeviceSupport"), CFStringCreateWithFormat(NULL, NULL, CFSTR("%@ (*)"), version));
}
if (path == NULL) {
path = copy_xcode_path_for(CFSTR("Platforms/iPhoneOS.platform/DeviceSupport"), version);
}
if (path == NULL) {
path = copy_xcode_path_for(CFSTR("Platforms/iPhoneOS.platform/DeviceSupport/Latest"), CFSTR(""));
}
CFRelease(version);
if (path != NULL) {
break;
}
CFArrayRemoveValueAtIndex(version_parts, CFArrayGetCount(version_parts) - 1);
}
CFRelease(version_parts);
CFRelease(build);
if (path == NULL)
{
printf("[ !! ] Unable to locate DeviceSupport directory.\n[ !! ] This probably means you don't have Xcode installed, you will need to launch the app manually and logging output will not be shown!\n");
exit(exitcode_error);
}
return path;
}
CFStringRef copy_developer_disk_image_path(AMDeviceRef device) {
CFStringRef version = NULL;
CFStringRef build = AMDeviceCopyValue(device, 0, CFSTR("BuildVersion"));
CFStringRef path = NULL;
CFMutableArrayRef version_parts = get_device_product_version_parts(device);
while (CFArrayGetCount(version_parts) > 0) {
version = CFStringCreateByCombiningStrings(NULL, version_parts, CFSTR("."));
if (path == NULL) {
path = copy_xcode_path_for(CFSTR("iOS DeviceSupport"), CFStringCreateWithFormat(NULL, NULL, CFSTR("%@ (%@)/DeveloperDiskImage.dmg"), version, build));
}
if (path == NULL) {
path = copy_xcode_path_for(CFSTR("Platforms/iPhoneOS.platform/DeviceSupport"), CFStringCreateWithFormat(NULL, NULL, CFSTR("%@ (%@)/DeveloperDiskImage.dmg"), version, build));
}
if (path == NULL) {
path = copy_xcode_path_for(CFSTR("Platforms/iPhoneOS.platform/DeviceSupport"), CFStringCreateWithFormat(NULL, NULL, CFSTR("*/%@ (*)/DeveloperDiskImage.dmg"), version));
}
if (path == NULL) {
path = copy_xcode_path_for(CFSTR("Platforms/iPhoneOS.platform/DeviceSupport"), CFStringCreateWithFormat(NULL, NULL, CFSTR("%@/DeveloperDiskImage.dmg"), version));
}
if (path == NULL) {
path = copy_xcode_path_for(CFSTR("Platforms/iPhoneOS.platform/DeviceSupport/Latest"), CFSTR("DeveloperDiskImage.dmg"));
}
CFRelease(version);
if (path != NULL) {
break;
}
CFArrayRemoveValueAtIndex(version_parts, CFArrayGetCount(version_parts) - 1);
}
CFRelease(version_parts);
CFRelease(build);
if (path == NULL)
{
printf("[ !! ] Unable to locate DeveloperDiskImage.dmg.\n[ !! ] This probably means you don't have Xcode installed, you will need to launch the app manually and logging output will not be shown!\n");
exit(exitcode_error);
}
return path;
}
void mount_callback(CFDictionaryRef dict, int arg) {
CFStringRef status = CFDictionaryGetValue(dict, CFSTR("Status"));
if (CFEqual(status, CFSTR("LookingUpImage"))) {
printf("[ 0%%] Looking up developer disk image\n");
} else if (CFEqual(status, CFSTR("CopyingImage"))) {
printf("[ 30%%] Copying DeveloperDiskImage.dmg to device\n");
} else if (CFEqual(status, CFSTR("MountingImage"))) {
printf("[ 90%%] Mounting developer disk image\n");
}
}
void mount_developer_image(AMDeviceRef device) {
CFStringRef ds_path = copy_device_support_path(device);
CFStringRef image_path = copy_developer_disk_image_path(device);
CFStringRef sig_path = CFStringCreateWithFormat(NULL, NULL, CFSTR("%@.signature"), image_path);
if (verbose) {
printf("Device support path: %s\n", CFStringGetCStringPtr(ds_path, CFStringGetSystemEncoding()));
printf("Developer disk image: %s\n", CFStringGetCStringPtr(image_path, CFStringGetSystemEncoding()));
}
CFRelease(ds_path);
FILE* sig = fopen(CFStringGetCStringPtr(sig_path, kCFStringEncodingMacRoman), "rb");
void *sig_buf = malloc(128);
assert(fread(sig_buf, 1, 128, sig) == 128);
fclose(sig);
CFDataRef sig_data = CFDataCreateWithBytesNoCopy(NULL, sig_buf, 128, NULL);
CFRelease(sig_path);
CFTypeRef keys[] = { CFSTR("ImageSignature"), CFSTR("ImageType") };
CFTypeRef values[] = { sig_data, CFSTR("Developer") };
CFDictionaryRef options = CFDictionaryCreate(NULL, (const void **)&keys, (const void **)&values, 2, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks);
CFRelease(sig_data);
int result = AMDeviceMountImage(device, image_path, options, &mount_callback, 0);
if (result == 0) {
printf("[ 95%%] Developer disk image mounted successfully\n");
} else if (result == 0xe8000076 /* already mounted */) {
printf("[ 95%%] Developer disk image already mounted\n");
} else {
printf("[ !! ] Unable to mount developer disk image. (%x)\n", result);
exit(exitcode_error);
}
CFRelease(image_path);
CFRelease(options);
}
mach_error_t transfer_callback(CFDictionaryRef dict, int arg) {
int percent;
CFStringRef status = CFDictionaryGetValue(dict, CFSTR("Status"));
CFNumberGetValue(CFDictionaryGetValue(dict, CFSTR("PercentComplete")), kCFNumberSInt32Type, &percent);
if (CFEqual(status, CFSTR("CopyingFile"))) {
CFStringRef path = CFDictionaryGetValue(dict, CFSTR("Path"));
if ((last_path == NULL || !CFEqual(path, last_path)) && !CFStringHasSuffix(path, CFSTR(".ipa"))) {
printf("[%3d%%] Copying %s to device\n", percent / 2, CFStringGetCStringPtr(path, kCFStringEncodingMacRoman));
}
if (last_path != NULL) {
CFRelease(last_path);
}
last_path = CFStringCreateCopy(NULL, path);
}
return 0;
}
mach_error_t install_callback(CFDictionaryRef dict, int arg) {
int percent;
CFStringRef status = CFDictionaryGetValue(dict, CFSTR("Status"));
CFNumberGetValue(CFDictionaryGetValue(dict, CFSTR("PercentComplete")), kCFNumberSInt32Type, &percent);
printf("[%3d%%] %s\n", (percent / 2) + 50, CFStringGetCStringPtr(status, kCFStringEncodingMacRoman));
return 0;
}
CFURLRef copy_device_app_url(AMDeviceRef device, CFStringRef identifier) {
CFDictionaryRef result = nil;
NSArray *a = [NSArray arrayWithObjects:
@"CFBundleIdentifier", // absolute must
@"ApplicationDSID",
@"ApplicationType",
@"CFBundleExecutable",
@"CFBundleDisplayName",
@"CFBundleIconFile",
@"CFBundleName",
@"CFBundleShortVersionString",
@"CFBundleSupportedPlatforms",
@"CFBundleURLTypes",
@"CodeInfoIdentifier",
@"Container",
@"Entitlements",
@"HasSettingsBundle",
@"IsUpgradeable",
@"MinimumOSVersion",
@"Path",
@"SignerIdentity",
@"UIDeviceFamily",
@"UIFileSharingEnabled",
@"UIStatusBarHidden",
@"UISupportedInterfaceOrientations",
nil];
NSDictionary *optionsDict = [NSDictionary dictionaryWithObject:a forKey:@"ReturnAttributes"];
CFDictionaryRef options = (CFDictionaryRef)optionsDict;
afc_error_t resultStatus = AMDeviceLookupApplications(device, options, &result);
assert(resultStatus == 0);
CFDictionaryRef app_dict = CFDictionaryGetValue(result, identifier);
assert(app_dict != NULL);
CFStringRef app_path = CFDictionaryGetValue(app_dict, CFSTR("Path"));
assert(app_path != NULL);
CFURLRef url = CFURLCreateWithFileSystemPath(NULL, app_path, kCFURLPOSIXPathStyle, true);
CFRelease(result);
return url;
}
CFStringRef copy_disk_app_identifier(CFURLRef disk_app_url) {
CFURLRef plist_url = CFURLCreateCopyAppendingPathComponent(NULL, disk_app_url, CFSTR("Info.plist"), false);
CFReadStreamRef plist_stream = CFReadStreamCreateWithFile(NULL, plist_url);
CFReadStreamOpen(plist_stream);
CFPropertyListRef plist = CFPropertyListCreateWithStream(NULL, plist_stream, 0, kCFPropertyListImmutable, NULL, NULL);
CFStringRef bundle_identifier = CFRetain(CFDictionaryGetValue(plist, CFSTR("CFBundleIdentifier")));
CFReadStreamClose(plist_stream);
CFRelease(plist_url);
CFRelease(plist_stream);
CFRelease(plist);
return bundle_identifier;
}
void write_lldb_prep_cmds(AMDeviceRef device, CFURLRef disk_app_url) {
CFStringRef ds_path = copy_device_support_path(device);
CFStringRef symbols_path = CFStringCreateWithFormat(NULL, NULL, CFSTR("'%@/Symbols'"), ds_path);
CFMutableStringRef cmds = CFStringCreateMutableCopy(NULL, 0, LLDB_PREP_CMDS);
CFRange range = { 0, CFStringGetLength(cmds) };
CFStringFindAndReplace(cmds, CFSTR("{symbols_path}"), symbols_path, range, 0);
range.length = CFStringGetLength(cmds);
CFStringFindAndReplace(cmds, CFSTR("{ds_path}"), ds_path, range, 0);
range.length = CFStringGetLength(cmds);
CFMutableStringRef pmodule = CFStringCreateMutableCopy(NULL, 0, LLDB_FRUITSTRAP_MODULE);
CFRange rangeLLDB = { 0, CFStringGetLength(pmodule) };
CFStringRef exitcode_app_crash_str = CFStringCreateWithFormat(NULL, NULL, CFSTR("%d"), exitcode_app_crash);
CFStringFindAndReplace(pmodule, CFSTR("{exitcode_app_crash}"), exitcode_app_crash_str, rangeLLDB, 0);
rangeLLDB.length = CFStringGetLength(pmodule);
if (args) {
CFStringRef cf_args = CFStringCreateWithCString(NULL, args, kCFStringEncodingASCII);
CFStringFindAndReplace(cmds, CFSTR("{args}"), cf_args, range, 0);
rangeLLDB.length = CFStringGetLength(pmodule);
CFStringFindAndReplace(pmodule, CFSTR("{args}"), cf_args, rangeLLDB, 0);
//printf("write_lldb_prep_cmds:args: [%s][%s]\n", CFStringGetCStringPtr (cmds,kCFStringEncodingMacRoman),
// CFStringGetCStringPtr(pmodule, kCFStringEncodingMacRoman));
CFRelease(cf_args);
} else {
CFStringFindAndReplace(cmds, CFSTR("{args}"), CFSTR(""), range, 0);
CFStringFindAndReplace(pmodule, CFSTR("{args}"), CFSTR(""), rangeLLDB, 0);
//printf("write_lldb_prep_cmds: [%s][%s]\n", CFStringGetCStringPtr (cmds,kCFStringEncodingMacRoman),
// CFStringGetCStringPtr(pmodule, kCFStringEncodingMacRoman));
}
range.length = CFStringGetLength(cmds);
CFStringRef bundle_identifier = copy_disk_app_identifier(disk_app_url);
CFURLRef device_app_url = copy_device_app_url(device, bundle_identifier);
CFStringRef device_app_path = CFURLCopyFileSystemPath(device_app_url, kCFURLPOSIXPathStyle);
CFStringFindAndReplace(cmds, CFSTR("{device_app}"), device_app_path, range, 0);
range.length = CFStringGetLength(cmds);
CFStringRef disk_app_path = CFURLCopyFileSystemPath(disk_app_url, kCFURLPOSIXPathStyle);
CFStringFindAndReplace(cmds, CFSTR("{disk_app}"), disk_app_path, range, 0);
range.length = CFStringGetLength(cmds);
CFStringRef device_port = CFStringCreateWithFormat(NULL, NULL, CFSTR("%d"), port);
CFStringFindAndReplace(cmds, CFSTR("{device_port}"), device_port, range, 0);
range.length = CFStringGetLength(cmds);
CFURLRef device_container_url = CFURLCreateCopyDeletingLastPathComponent(NULL, device_app_url);
CFStringRef device_container_path = CFURLCopyFileSystemPath(device_container_url, kCFURLPOSIXPathStyle);
CFMutableStringRef dcp_noprivate = CFStringCreateMutableCopy(NULL, 0, device_container_path);
range.length = CFStringGetLength(dcp_noprivate);
CFStringFindAndReplace(dcp_noprivate, CFSTR("/private/var/"), CFSTR("/var/"), range, 0);
range.length = CFStringGetLength(cmds);
CFStringFindAndReplace(cmds, CFSTR("{device_container}"), dcp_noprivate, range, 0);
range.length = CFStringGetLength(cmds);
CFURLRef disk_container_url = CFURLCreateCopyDeletingLastPathComponent(NULL, disk_app_url);
CFStringRef disk_container_path = CFURLCopyFileSystemPath(disk_container_url, kCFURLPOSIXPathStyle);
CFStringFindAndReplace(cmds, CFSTR("{disk_container}"), disk_container_path, range, 0);
char python_file_path[300] = "/tmp/fruitstrap_";
char python_command[300] = "fruitstrap_";
if(device_id != NULL) {
strcat(python_file_path, device_id);
strcat(python_command, device_id);
}
strcat(python_file_path, ".py");
CFStringRef cf_python_command = CFStringCreateWithCString(NULL, python_command, kCFStringEncodingASCII);
CFStringFindAndReplace(cmds, CFSTR("{python_command}"), cf_python_command, range, 0);
range.length = CFStringGetLength(cmds);
CFStringRef cf_python_file_path = CFStringCreateWithCString(NULL, python_file_path, kCFStringEncodingASCII);
CFStringFindAndReplace(cmds, CFSTR("{python_file_path}"), cf_python_file_path, range, 0);
range.length = CFStringGetLength(cmds);
CFDataRef cmds_data = CFStringCreateExternalRepresentation(NULL, cmds, kCFStringEncodingASCII, 0);
char prep_cmds_path[300] = PREP_CMDS_PATH;
if(device_id != NULL)
strcat(prep_cmds_path, device_id);
FILE *out = fopen(prep_cmds_path, "w");
fwrite(CFDataGetBytePtr(cmds_data), CFDataGetLength(cmds_data), 1, out);
// Write additional commands based on mode we're running in
const char* extra_cmds;
if (!interactive)
{
if (justlaunch)
extra_cmds = lldb_prep_noninteractive_justlaunch_cmds;
else
extra_cmds = lldb_prep_noninteractive_cmds;
}
else if (nostart)
extra_cmds = lldb_prep_no_cmds;
else
extra_cmds = lldb_prep_interactive_cmds;
fwrite(extra_cmds, strlen(extra_cmds), 1, out);
fclose(out);
CFDataRef pmodule_data = CFStringCreateExternalRepresentation(NULL, pmodule, kCFStringEncodingASCII, 0);
out = fopen(python_file_path, "w");
fwrite(CFDataGetBytePtr(pmodule_data), CFDataGetLength(pmodule_data), 1, out);
fclose(out);
CFRelease(cmds);
if (ds_path != NULL) CFRelease(ds_path);
CFRelease(bundle_identifier);
CFRelease(device_app_url);
CFRelease(device_app_path);
CFRelease(disk_app_path);
CFRelease(device_container_url);
CFRelease(device_container_path);
CFRelease(dcp_noprivate);
CFRelease(disk_container_url);
CFRelease(disk_container_path);
CFRelease(cmds_data);
CFRelease(cf_python_command);
CFRelease(cf_python_file_path);
}
CFSocketRef server_socket;
CFSocketRef lldb_socket;
CFWriteStreamRef serverWriteStream = NULL;
CFWriteStreamRef lldbWriteStream = NULL;
int kill_ptree(pid_t root, int signum);
void
server_callback (CFSocketRef s, CFSocketCallBackType callbackType, CFDataRef address, const void *data, void *info)
{
int res;
if (CFDataGetLength (data) == 0) {
// FIXME: Close the socket
//shutdown (CFSocketGetNative (lldb_socket), SHUT_RDWR);
//close (CFSocketGetNative (lldb_socket));
CFSocketInvalidate(lldb_socket);
CFSocketInvalidate(server_socket);
int mypid = getpid();
assert((child != 0) && (child != mypid)); //child should not be here
if ((parent != 0) && (parent == mypid) && (child != 0))
{
if (verbose)
{
printf("Got an empty packet hence killing child (%d) tree\n", child);
}
kill_ptree(child, SIGHUP);
}
exit(exitcode_error);
return;
}
res = write (CFSocketGetNative (lldb_socket), CFDataGetBytePtr (data), CFDataGetLength (data));
}
void lldb_callback(CFSocketRef s, CFSocketCallBackType callbackType, CFDataRef address, const void *data, void *info)
{
//printf ("lldb: %s\n", CFDataGetBytePtr (data));
if (CFDataGetLength (data) == 0)
return;
write (gdbfd, CFDataGetBytePtr (data), CFDataGetLength (data));
}
void fdvendor_callback(CFSocketRef s, CFSocketCallBackType callbackType, CFDataRef address, const void *data, void *info) {
CFSocketNativeHandle socket = (CFSocketNativeHandle)(*((CFSocketNativeHandle *)data));
assert (callbackType == kCFSocketAcceptCallBack);
//PRINT ("callback!\n");
lldb_socket = CFSocketCreateWithNative(NULL, socket, kCFSocketDataCallBack, &lldb_callback, NULL);
CFRunLoopAddSource(CFRunLoopGetMain(), CFSocketCreateRunLoopSource(NULL, lldb_socket, 0), kCFRunLoopCommonModes);
}
void start_remote_debug_server(AMDeviceRef device) {
char buf [256];
int res, err, i;
char msg [256];
int chsum, len;
struct stat s;
socklen_t buflen;
struct sockaddr name;
int namelen;
assert(AMDeviceStartService(device, CFSTR("com.apple.debugserver"), &gdbfd, NULL) == 0);
assert (gdbfd);
/*
* The debugserver connection is through a fd handle, while lldb requires a host/port to connect, so create an intermediate
* socket to transfer data.
*/
server_socket = CFSocketCreateWithNative (NULL, gdbfd, kCFSocketDataCallBack, &server_callback, NULL);
CFRunLoopAddSource(CFRunLoopGetMain(), CFSocketCreateRunLoopSource(NULL, server_socket, 0), kCFRunLoopCommonModes);
struct sockaddr_in addr4;
memset(&addr4, 0, sizeof(addr4));
addr4.sin_len = sizeof(addr4);
addr4.sin_family = AF_INET;
addr4.sin_port = htons(port);
addr4.sin_addr.s_addr = htonl(INADDR_ANY);
CFSocketRef fdvendor = CFSocketCreate(NULL, PF_INET, 0, 0, kCFSocketAcceptCallBack, &fdvendor_callback, NULL);
int yes = 1;
setsockopt(CFSocketGetNative(fdvendor), SOL_SOCKET, SO_REUSEADDR, &yes, sizeof(yes));
int flag = 1;
res = setsockopt(CFSocketGetNative(fdvendor), IPPROTO_TCP, TCP_NODELAY, (char *) &flag, sizeof(int));
assert (res == 0);
CFDataRef address_data = CFDataCreate(NULL, (const UInt8 *)&addr4, sizeof(addr4));
CFSocketSetAddress(fdvendor, address_data);
CFRelease(address_data);
CFRunLoopAddSource(CFRunLoopGetMain(), CFSocketCreateRunLoopSource(NULL, fdvendor, 0), kCFRunLoopCommonModes);
}
void kill_ptree_inner(pid_t root, int signum, struct kinfo_proc *kp, int kp_len) {
int i;
for (i = 0; i < kp_len; i++) {
if (kp[i].kp_eproc.e_ppid == root) {
kill_ptree_inner(kp[i].kp_proc.p_pid, signum, kp, kp_len);
}
}
if (root != getpid()) {
kill(root, signum);
}
}
int kill_ptree(pid_t root, int signum) {
int mib[3];
size_t len;
mib[0] = CTL_KERN;
mib[1] = KERN_PROC;
mib[2] = KERN_PROC_ALL;
if (sysctl(mib, 3, NULL, &len, NULL, 0) == -1) {
return -1;
}
struct kinfo_proc *kp = calloc(1, len);
if (!kp) {
return -1;
}
if (sysctl(mib, 3, kp, &len, NULL, 0) == -1) {
free(kp);
return -1;
}
kill_ptree_inner(root, signum, kp, len / sizeof(struct kinfo_proc));
free(kp);
return 0;
}
void killed(int signum) {
// SIGKILL needed to kill lldb, probably a better way to do this.
kill(0, SIGKILL);
_exit(0);
}
void lldb_finished_handler(int signum)
{
int status = 0;
if (waitpid(child, &status, 0) == -1)
perror("waitpid failed");
_exit(WEXITSTATUS(status));
}
void bring_process_to_foreground() {
if (setpgid(0, 0) == -1)
perror("setpgid failed");
signal(SIGTTOU, SIG_IGN);
if (tcsetpgrp(STDIN_FILENO, getpid()) == -1)
perror("tcsetpgrp failed");
signal(SIGTTOU, SIG_DFL);
}
void setup_dummy_pipe_on_stdin(int pfd[2]) {
if (pipe(pfd) == -1)
perror("pipe failed");
if (dup2(pfd[0], STDIN_FILENO) == -1)
perror("dup2 failed");
}
void setup_lldb(AMDeviceRef device, CFURLRef url) {
CFStringRef device_full_name = get_device_full_name(device),
device_interface_name = get_device_interface_name(device);
AMDeviceConnect(device);
assert(AMDeviceIsPaired(device));
assert(AMDeviceValidatePairing(device) == 0);
assert(AMDeviceStartSession(device) == 0);
printf("------ Debug phase ------\n");
if(AMDeviceGetInterfaceType(device) == 2)
{
printf("Cannot debug %s over %s.\n", CFStringGetCStringPtr(device_full_name, CFStringGetSystemEncoding()), CFStringGetCStringPtr(device_interface_name, CFStringGetSystemEncoding()));
exit(0);
}
printf("Starting debug of %s connected through %s...\n", CFStringGetCStringPtr(device_full_name, CFStringGetSystemEncoding()), CFStringGetCStringPtr(device_interface_name, CFStringGetSystemEncoding()));
mount_developer_image(device); // put debugserver on the device
start_remote_debug_server(device); // start debugserver
write_lldb_prep_cmds(device, url); // dump the necessary lldb commands into a file
CFRelease(url);
printf("[100%%] Connecting to remote debug server\n");
printf("-------------------------\n");
setpgid(getpid(), 0);
signal(SIGHUP, killed);
signal(SIGINT, killed);
signal(SIGTERM, killed);
// Need this before fork to avoid race conditions. For child process we remove this right after fork.
signal(SIGLLDB, lldb_finished_handler);
parent = getpid();
}
void launch_debugger(AMDeviceRef device, CFURLRef url) {
setup_lldb(device, url);
int pid = fork();
if (pid == 0) {
signal(SIGHUP, SIG_DFL);
signal(SIGLLDB, SIG_DFL);
child = getpid();
int pfd[2] = {-1, -1};
if (isatty(STDIN_FILENO))
// If we are running on a terminal, then we need to bring process to foreground for input
// to work correctly on lldb's end.
bring_process_to_foreground();
else
// If lldb is running in a non terminal environment, then it freaks out spamming "^D" and
// "quit". It seems this is caused by read() on stdin returning EOF in lldb. To hack around
// this we setup a dummy pipe on stdin, so read() would block expecting "user's" input.
setup_dummy_pipe_on_stdin(pfd);
char lldb_shell[400];
sprintf(lldb_shell, LLDB_SHELL);
if(device_id != NULL)
strcat(lldb_shell, device_id);
int status = system(lldb_shell); // launch lldb
if (status == -1)
perror("failed launching lldb");
close(pfd[0]);
close(pfd[1]);
// Notify parent we're exiting
kill(parent, SIGLLDB);
// Pass lldb exit code
_exit(WEXITSTATUS(status));
} else if (pid > 0) {
child = pid;
} else {
perror("fork failed");
exit(exitcode_error);
}
}
void launch_debugger_and_exit(AMDeviceRef device, CFURLRef url) {
setup_lldb(device,url);
int pfd[2] = {-1, -1};
if (pipe(pfd) == -1)
perror("Pipe failed");
int pid = fork();
if (pid == 0) {
signal(SIGHUP, SIG_DFL);
signal(SIGLLDB, SIG_DFL);
child = getpid();
if (dup2(pfd[0],STDIN_FILENO) == -1)
perror("dup2 failed");
char lldb_shell[400];
sprintf(lldb_shell, LLDB_SHELL);
if(device_id != NULL)
strcat(lldb_shell, device_id);
int status = system(lldb_shell); // launch lldb
if (status == -1)
perror("failed launching lldb");
close(pfd[0]);
// Notify parent we're exiting
kill(parent, SIGLLDB);
// Pass lldb exit code
_exit(WEXITSTATUS(status));
} else if (pid > 0) {
child = pid;
if (verbose)
printf("Waiting for child [Child: %d][Parent: %d]\n", child, parent);
} else {
perror("fork failed");
exit(exitcode_error);
}
}
CFStringRef get_bundle_id(CFURLRef app_url)
{
if (app_url == NULL)
return NULL;
CFURLRef url = CFURLCreateCopyAppendingPathComponent(NULL, app_url, CFSTR("Info.plist"), false);
if (url == NULL)
return NULL;
CFReadStreamRef stream = CFReadStreamCreateWithFile(NULL, url);
CFRelease(url);
if (stream == NULL)
return NULL;
CFPropertyListRef plist = NULL;
if (CFReadStreamOpen(stream) == TRUE) {
plist = CFPropertyListCreateWithStream(NULL, stream, 0,
kCFPropertyListImmutable, NULL, NULL);
}
CFReadStreamClose(stream);
CFRelease(stream);
if (plist == NULL)
return NULL;
const void *value = CFDictionaryGetValue(plist, CFSTR("CFBundleIdentifier"));
CFStringRef bundle_id = NULL;
if (value != NULL)
bundle_id = CFRetain(value);
CFRelease(plist);
return bundle_id;
}
void read_dir(service_conn_t afcFd, afc_connection* afc_conn_p, const char* dir,
void(*callback)(afc_connection *conn,const char *dir,int file))
{
char *dir_ent;
afc_connection afc_conn;
if (!afc_conn_p) {
afc_conn_p = &afc_conn;
AFCConnectionOpen(afcFd, 0, &afc_conn_p);
}
printf("%s\n", dir);
afc_dictionary* afc_dict_p;
char *key, *val;
int not_dir = 0;
unsigned int code = AFCFileInfoOpen(afc_conn_p, dir, &afc_dict_p);
if (code != 0) {
// there was a problem reading or opening the file to get info on it, abort
return;
}
while((AFCKeyValueRead(afc_dict_p,&key,&val) == 0) && key && val) {
if (strcmp(key,"st_ifmt")==0) {
not_dir = strcmp(val,"S_IFDIR");
break;
}
}
AFCKeyValueClose(afc_dict_p);
if (not_dir) {
if (callback) (*callback)(afc_conn_p, dir, not_dir);
return;
}
afc_directory* afc_dir_p;
afc_error_t err = AFCDirectoryOpen(afc_conn_p, dir, &afc_dir_p);
if (err != 0) {
// Couldn't open dir - was probably a file
return;
} else {
if (callback) (*callback)(afc_conn_p, dir, not_dir);
}
while(true) {
err = AFCDirectoryRead(afc_conn_p, afc_dir_p, &dir_ent);
if (err != 0 || !dir_ent)
break;
if (strcmp(dir_ent, ".") == 0 || strcmp(dir_ent, "..") == 0)
continue;
char* dir_joined = malloc(strlen(dir) + strlen(dir_ent) + 2);
strcpy(dir_joined, dir);
if (dir_joined[strlen(dir)-1] != '/')
strcat(dir_joined, "/");
strcat(dir_joined, dir_ent);
read_dir(afcFd, afc_conn_p, dir_joined, callback);
free(dir_joined);
}
AFCDirectoryClose(afc_conn_p, afc_dir_p);
}
// Used to send files to app-specific sandbox (Documents dir)
service_conn_t start_house_arrest_service(AMDeviceRef device) {
AMDeviceConnect(device);
assert(AMDeviceIsPaired(device));
assert(AMDeviceValidatePairing(device) == 0);
assert(AMDeviceStartSession(device) == 0);
service_conn_t houseFd;
if (bundle_id == NULL) {
printf("Bundle id is not specified\n");
exit(1);
}
CFStringRef cf_bundle_id = CFStringCreateWithCString(NULL, bundle_id, kCFStringEncodingASCII);
if (AMDeviceStartHouseArrestService(device, cf_bundle_id, 0, &houseFd, 0) != 0)
{
printf("Unable to find bundle with id: %s\n", bundle_id);
exit(1);
}
assert(AMDeviceStopSession(device) == 0);
assert(AMDeviceDisconnect(device) == 0);
CFRelease(cf_bundle_id);
return houseFd;
}
char* get_filename_from_path(char* path)
{
char *ptr = path + strlen(path);
while (ptr > path)
{
if (*ptr == '/')
break;
--ptr;
}
if (ptr+1 >= path+strlen(path))
return NULL;
if (ptr == path)
return ptr;
return ptr+1;
}
void* read_file_to_memory(char * path, size_t* file_size)
{
struct stat buf;
int err = stat(path, &buf);
if (err < 0)
{
return NULL;
}
*file_size = buf.st_size;
FILE* fd = fopen(path, "r");
char* content = malloc(*file_size);
if (fread(content, *file_size, 1, fd) != 1)
{
fclose(fd);
return NULL;
}
fclose(fd);
return content;
}
void list_files(AMDeviceRef device)
{
service_conn_t houseFd = start_house_arrest_service(device);
afc_connection* afc_conn_p;
if (AFCConnectionOpen(houseFd, 0, &afc_conn_p) == 0) {
read_dir(houseFd, afc_conn_p, list_root?list_root:"/", NULL);
AFCConnectionClose(afc_conn_p);
}
}
void copy_file_callback(afc_connection* afc_conn_p, const char *name,int file)
{
const char *local_name=name;
if (*local_name=='/') local_name++;
if (*local_name=='\0') return;
if (file) {
afc_file_ref fref;
int err = AFCFileRefOpen(afc_conn_p,name,1,&fref);
if (err) {
fprintf(stderr,"AFCFileRefOpen(\"%s\") failed: %d\n",name,err);
return;
}
FILE *fp = fopen(local_name,"w");
if (fp==NULL) {
fprintf(stderr,"fopen(\"%s\",\"w\") failer: %s\n",local_name,strerror(errno));
AFCFileRefClose(afc_conn_p,fref);
return;
}
char buf[4096];
size_t sz=sizeof(buf);
while (AFCFileRefRead(afc_conn_p,fref,buf,&sz)==0 && sz) {
fwrite(buf,sz,1,fp);
sz = sizeof(buf);
}
AFCFileRefClose(afc_conn_p,fref);
fclose(fp);
} else {
if (mkdir(local_name,0777) && errno!=EEXIST)
fprintf(stderr,"mkdir(\"%s\") failed: %s\n",local_name,strerror(errno));
}
}
void mkdirhier(char *path)
{
char *slash;
struct stat buf;
if (path[0]=='.' && path[1]=='/') path+=2;
if ((slash = strrchr(path,'/'))) {
*slash = '\0';
if (stat(path,&buf)==0) {
*slash = '/';
return;
}
mkdirhier(path);
mkdir (path,0777);
*slash = '/';
}
return;
}
void download_tree(AMDeviceRef device)
{
service_conn_t houseFd = start_house_arrest_service(device);
afc_connection* afc_conn_p = NULL;
char *dirname = NULL;
if (AFCConnectionOpen(houseFd, 0, &afc_conn_p) == 0) do {
if (target_filename) {
dirname = strdup(target_filename);
mkdirhier(dirname);
if (mkdir(dirname,0777) && errno!=EEXIST) {
fprintf(stderr,"mkdir(\"%s\") failed: %s\n",dirname,strerror(errno));
break;
}
if (chdir(dirname)) {
fprintf(stderr,"chdir(\"%s\") failed: %s\n",dirname,strerror(errno));
break;
}
}
read_dir(houseFd, afc_conn_p, list_root?list_root:"/", copy_file_callback);
} while(0);
if (dirname) free(dirname);
if (afc_conn_p) AFCConnectionClose(afc_conn_p);
}
void upload_file(AMDeviceRef device) {
service_conn_t houseFd = start_house_arrest_service(device);
afc_file_ref file_ref;
afc_connection afc_conn;
afc_connection* afc_conn_p = &afc_conn;
AFCConnectionOpen(houseFd, 0, &afc_conn_p);
// read_dir(houseFd, NULL, "/", NULL);
if (!target_filename)
{
target_filename = get_filename_from_path(upload_pathname);
}
size_t file_size;
void* file_content = read_file_to_memory(upload_pathname, &file_size);
if (!file_content)
{
printf("Could not open file: %s\n", upload_pathname);
exit(-1);
}
// Make sure the directory was created
{
char *dirpath = strdup(target_filename);
char *c = dirpath, *lastSlash = dirpath;
while(*c) {
if(*c == '/') {
lastSlash = c;
}
c++;
}
*lastSlash = '\0';
assert(AFCDirectoryCreate(afc_conn_p, dirpath) == 0);
}
int ret = AFCFileRefOpen(afc_conn_p, target_filename, 3, &file_ref);
if (ret == 0x000a) {
printf("Cannot write to %s. Permission error.\n", target_filename);
exit(1);
}
if (ret == 0x0009) {
printf("Target %s is a directory.\n", target_filename);
exit(1);
}
assert(ret == 0);
assert(AFCFileRefWrite(afc_conn_p, file_ref, file_content, file_size) == 0);
assert(AFCFileRefClose(afc_conn_p, file_ref) == 0);
assert(AFCConnectionClose(afc_conn_p) == 0);
free(file_content);
}
void handle_device(AMDeviceRef device) {
//if (found_device)
// return; // handle one device only
CFStringRef found_device_id = AMDeviceCopyDeviceIdentifier(device),
device_full_name = get_device_full_name(device),
device_interface_name = get_device_interface_name(device);
if (detect_only) {
printf("[....] Found %s connected through %s.\n", CFStringGetCStringPtr(device_full_name, CFStringGetSystemEncoding()), CFStringGetCStringPtr(device_interface_name, CFStringGetSystemEncoding()));
return;
}
if (device_id != NULL) {
if(strcmp(device_id, CFStringGetCStringPtr(found_device_id, CFStringGetSystemEncoding())) == 0) {
found_device = true;
} else {
printf("Skipping %s.\n", CFStringGetCStringPtr(device_full_name, CFStringGetSystemEncoding()));
return;
}
} else {
device_id = MYCFStringCopyUTF8String(found_device_id);
found_device = true;
}
printf("[....] Using %s (%s).\n", CFStringGetCStringPtr(device_full_name, CFStringGetSystemEncoding()), CFStringGetCStringPtr(found_device_id, CFStringGetSystemEncoding()));
if (command_only) {
if (strcmp("list", command) == 0) {
list_files(device);
} else if (strcmp("upload", command) == 0) {
upload_file(device);
} else if (strcmp("download", command) == 0) {
download_tree(device);
}
exit(0);
}
CFRetain(device); // don't know if this is necessary?
CFStringRef path = CFStringCreateWithCString(NULL, app_path, kCFStringEncodingASCII);
CFURLRef relative_url = CFURLCreateWithFileSystemPath(NULL, path, kCFURLPOSIXPathStyle, false);
CFURLRef url = CFURLCopyAbsoluteURL(relative_url);
CFRelease(relative_url);
if (uninstall) {
printf("------ Uninstall phase ------\n");
CFStringRef bundle_id = get_bundle_id(url);
if (bundle_id == NULL) {
printf("Error: Unable to get bundle id from package %s\n Uninstall failed\n", app_path);
} else {
AMDeviceConnect(device);
assert(AMDeviceIsPaired(device));
assert(AMDeviceValidatePairing(device) == 0);
assert(AMDeviceStartSession(device) == 0);
int code = AMDeviceSecureUninstallApplication(0, device, bundle_id, 0, NULL, 0);
if (code == 0) {
printf("[ OK ] Uninstalled package with bundle id %s\n", CFStringGetCStringPtr(bundle_id, CFStringGetSystemEncoding()));
} else {
printf("[ ERROR ] Could not uninstall package with bundle id %s\n", CFStringGetCStringPtr(bundle_id, CFStringGetSystemEncoding()));
}
assert(AMDeviceStopSession(device) == 0);
assert(AMDeviceDisconnect(device) == 0);
}
}
if(install) {
printf("------ Install phase ------\n");
printf("[ 0%%] Found %s connected through %s, beginning install\n", CFStringGetCStringPtr(device_full_name, CFStringGetSystemEncoding()), CFStringGetCStringPtr(device_interface_name, CFStringGetSystemEncoding()));
AMDeviceConnect(device);
assert(AMDeviceIsPaired(device));
assert(AMDeviceValidatePairing(device) == 0);
assert(AMDeviceStartSession(device) == 0);
// NOTE: the secure version doesn't seem to require us to start the AFC service
service_conn_t afcFd;
assert(AMDeviceSecureStartService(device, CFSTR("com.apple.afc"), NULL, &afcFd) == 0);
assert(AMDeviceStopSession(device) == 0);
assert(AMDeviceDisconnect(device) == 0);
CFStringRef keys[] = { CFSTR("PackageType") };
CFStringRef values[] = { CFSTR("Developer") };
CFDictionaryRef options = CFDictionaryCreate(NULL, (const void **)&keys, (const void **)&values, 1, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks);
//assert(AMDeviceTransferApplication(afcFd, path, NULL, transfer_callback, NULL) == 0);
assert(AMDeviceSecureTransferPath(0, device, url, options, transfer_callback, 0)==0);
close(afcFd);
AMDeviceConnect(device);
assert(AMDeviceIsPaired(device));
assert(AMDeviceValidatePairing(device) == 0);
assert(AMDeviceStartSession(device) == 0);
// // NOTE: the secure version doesn't seem to require us to start the installation_proxy service
// // Although I can't find it right now, I in some code that the first param of AMDeviceSecureInstallApplication was a "dontStartInstallProxy"
// // implying this is done for us by iOS already
//service_conn_t installFd;
//assert(AMDeviceSecureStartService(device, CFSTR("com.apple.mobile.installation_proxy"), NULL, &installFd) == 0);
//mach_error_t result = AMDeviceInstallApplication(installFd, path, options, install_callback, NULL);
mach_error_t result = AMDeviceSecureInstallApplication(0, device, url, options, install_callback, 0);
if (result != 0)
{
char* error = "Unknown error.";
if (result == 0xe8008015)
error = "Your application failed code-signing checks. Check your certificates, provisioning profiles, and bundle ids.";
printf("AMDeviceInstallApplication failed: 0x%X: %s\n", result, error);
exit(exitcode_error);
}
// close(installFd);
assert(AMDeviceStopSession(device) == 0);
assert(AMDeviceDisconnect(device) == 0);
CFRelease(path);
CFRelease(options);
printf("[100%%] Installed package %s\n", app_path);
}
if (!debug)
exit(0); // no debug phase
if (justlaunch)
launch_debugger_and_exit(device, url);
else
launch_debugger(device, url);
}
void device_callback(struct am_device_notification_callback_info *info, void *arg) {
switch (info->msg) {
case ADNCI_MSG_CONNECTED:
if(device_id != NULL || !debug || AMDeviceGetInterfaceType(info->dev) != 2) {
handle_device(info->dev);
} else if(best_device_match == NULL) {
best_device_match = info->dev;
CFRetain(best_device_match);
}
default:
break;
}
}
void timeout_callback(CFRunLoopTimerRef timer, void *info) {
if ((!found_device) && (!detect_only)) {
if(best_device_match != NULL) {
handle_device(best_device_match);
CFRelease(best_device_match);
best_device_match = NULL;
}
if(!found_device) {
printf("[....] Timed out waiting for device.\n");
exit(exitcode_error);
}
}
else
{
if (!debug) {
printf("[....] No more devices found.\n");
exit(exitcode_error);
}
else
{
int mypid = getpid();
if ((parent != 0) && (parent == mypid) && (child != 0))
{
if (verbose)
{
printf("Timeout. Killing child (%d) tree\n", child);
}
kill_ptree(child, SIGHUP);
}
}
exit(0);
}
}
void usage(const char* app) {
printf(
"Usage: %s [OPTION]...\n"
" -d, --debug launch the app in GDB after installation\n"
" -i, --id <device_id> the id of the device to connect to\n"
" -c, --detect only detect if the device is connected\n"
" -b, --bundle <bundle.app> the path to the app bundle to be installed\n"
" -a, --args <args> command line arguments to pass to the app when launching it\n"
" -t, --timeout <timeout> number of seconds to wait for a device to be connected\n"
" -u, --unbuffered don't buffer stdout\n"
" -n, --nostart do not start the app when debugging\n"
" -I, --noninteractive start in non interactive mode (quit when app crashes or exits)\n"
" -L, --justlaunch just launch the app and exit lldb\n"
" -v, --verbose enable verbose output\n"
" -m, --noinstall directly start debugging without app install (-d not required)\n"
" -p, --port <number> port used for device, default: 12345 \n"
" -r, --uninstall uninstall the app before install (do not use with -m; app cache and data are cleared) \n"
" -1, --bundle_id <bundle id> specify bundle id for list and upload\n"
" -l, --list list files\n"
" -o, --upload <file> upload file\n"
" -w, --download download app tree\n"
" -2, --to <target pathname> use together with up/download file/tree. specify target\n"
" -V, --version print the executable version \n",
app);
}
void show_version() {
printf("%s\n", APP_VERSION);
}
int main(int argc, char *argv[]) {
static struct option longopts[] = {
{ "debug", no_argument, NULL, 'd' },
{ "id", required_argument, NULL, 'i' },
{ "bundle", required_argument, NULL, 'b' },
{ "args", required_argument, NULL, 'a' },
{ "verbose", no_argument, NULL, 'v' },
{ "timeout", required_argument, NULL, 't' },
{ "unbuffered", no_argument, NULL, 'u' },
{ "nostart", no_argument, NULL, 'n' },
{ "noninteractive", no_argument, NULL, 'I' },
{ "justlaunch", no_argument, NULL, 'L' },
{ "detect", no_argument, NULL, 'c' },
{ "version", no_argument, NULL, 'V' },
{ "noinstall", no_argument, NULL, 'm' },
{ "port", required_argument, NULL, 'p' },
{ "uninstall", no_argument, NULL, 'r' },
{ "list", optional_argument, NULL, 'l' },
{ "bundle_id", required_argument, NULL, '1'},
{ "upload", required_argument, NULL, 'o'},
{ "download", optional_argument, NULL, 'w'},
{ "to", required_argument, NULL, '2'},
{ NULL, 0, NULL, 0 },
};
char ch;
while ((ch = getopt_long(argc, argv, "VmcdvunrILi:b:a:t:g:x:p:1:2:o:l::w::", longopts, NULL)) != -1)
{
switch (ch) {
case 'm':
install = 0;
debug = 1;
break;
case 'd':
debug = 1;
break;
case 'i':
device_id = optarg;
break;
case 'b':
app_path = optarg;
break;
case 'a':
args = optarg;
break;
case 'v':
verbose = 1;
break;
case 't':
timeout = atoi(optarg);
break;
case 'u':
unbuffered = 1;
break;
case 'n':
nostart = 1;
break;
case 'I':
interactive = false;
break;
case 'L':
interactive = false;
justlaunch = true;
break;
case 'c':
detect_only = true;
break;
case 'V':
show_version();
return exitcode_error;
case 'p':
port = atoi(optarg);
break;
case 'r':
uninstall = 1;
break;
case '1':
bundle_id = optarg;
break;
case '2':
target_filename = optarg;
break;
case 'o':
command_only = true;
upload_pathname = optarg;
command = "upload";
break;
case 'l':
command_only = true;
command = "list";
list_root = optarg;
break;
case 'w':
command_only = true;
command = "download";
list_root = optarg;
break;
default:
usage(argv[0]);
return exitcode_error;
}
}
if (!app_path && !detect_only && !command_only) {
usage(argv[0]);
exit(exitcode_error);
}
if (unbuffered) {
setbuf(stdout, NULL);
setbuf(stderr, NULL);
}
if (detect_only && timeout == 0) {
timeout = 5;
}
if (app_path) {
assert(access(app_path, F_OK) == 0);
}
AMDSetLogLevel(5); // otherwise syslog gets flooded with crap
if (timeout > 0)
{
CFRunLoopTimerRef timer = CFRunLoopTimerCreate(NULL, CFAbsoluteTimeGetCurrent() + timeout, 0, 0, 0, timeout_callback, NULL);
CFRunLoopAddTimer(CFRunLoopGetCurrent(), timer, kCFRunLoopCommonModes);
printf("[....] Waiting up to %d seconds for iOS device to be connected\n", timeout);
}
else
{
printf("[....] Waiting for iOS device to be connected\n");
}
struct am_device_notification *notify;
AMDeviceNotificationSubscribe(&device_callback, 0, 0, NULL, &notify);
CFRunLoopRun();
}