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|
/* Copyright (C) 2006-2008 The Android Open Source Project
**
** This software is licensed under the terms of the GNU General Public
** License version 2, as published by the Free Software Foundation, and
** may be copied, distributed, and modified under those terms.
**
** This program 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.
*/
#include <signal.h>
#include <unistd.h>
#include <string.h>
#include <sys/time.h>
#ifdef _WIN32
#include <process.h>
#endif
#include "sockets.h"
#include "android/android.h"
#include "qemu-common.h"
#include "sysemu.h"
#include "console.h"
#include "user-events.h"
#include <SDL.h>
#include <SDL_syswm.h>
#include "math.h"
#include "android/charmap.h"
#include "android/utils/debug.h"
#include "android/config.h"
#include "android/config/config.h"
#include "android/user-config.h"
#include "android/utils/bufprint.h"
#include "android/utils/dirscanner.h"
#include "android/utils/path.h"
#include "android/utils/tempfile.h"
#include "android/main-common.h"
#include "android/help.h"
#include "hw/goldfish_nand.h"
#include "android/globals.h"
#include "android/qemulator.h"
#include "android/display.h"
#include "android/snapshot.h"
#include "android/protocol/core-connection.h"
#include "android/protocol/fb-updates-impl.h"
#include "android/protocol/user-events-proxy.h"
#include "android/protocol/core-commands-proxy.h"
#include "android/protocol/ui-commands-impl.h"
#include "android/protocol/attach-ui-impl.h"
#include "android/framebuffer.h"
#include "iolooper.h"
AndroidRotation android_framebuffer_rotation;
#define STRINGIFY(x) _STRINGIFY(x)
#define _STRINGIFY(x) #x
#ifdef ANDROID_SDK_TOOLS_REVISION
# define VERSION_STRING STRINGIFY(ANDROID_SDK_TOOLS_REVISION)".0"
#else
# define VERSION_STRING "standalone"
#endif
#define D(...) do { if (VERBOSE_CHECK(init)) dprint(__VA_ARGS__); } while (0)
extern int control_console_start( int port ); /* in control.c */
extern int qemu_milli_needed;
/* the default device DPI if none is specified by the skin
*/
#define DEFAULT_DEVICE_DPI 165
#if 0
static int opts->flashkeys; /* forward */
#endif
#ifdef CONFIG_TRACE
extern void start_tracing(void);
extern void stop_tracing(void);
#endif
unsigned long android_verbose;
/* -ui-settings parameters received from the core on UI attachment. */
char* core_ui_settings = "";
/* Emulator's core port. */
int android_base_port = 0;
/* this is used by hw/events_device.c to send the charmap name to the system */
extern const char* android_skin_keycharmap;
int qemu_main(int argc, char **argv);
/* this function dumps the QEMU help */
extern void help( void );
extern void emulator_help( void );
#define VERBOSE_OPT(str,var) { str, &var }
#define _VERBOSE_TAG(x,y) { #x, VERBOSE_##x, y },
static const struct { const char* name; int flag; const char* text; }
verbose_options[] = {
VERBOSE_TAG_LIST
{ 0, 0, 0 }
};
void emulator_help( void )
{
STRALLOC_DEFINE(out);
android_help_main(out);
printf( "%.*s", out->n, out->s );
stralloc_reset(out);
exit(1);
}
/* this function is used to perform auto-detection of the
* system directory in the case of a SDK installation.
*
* we want to deal with several historical usages, hence
* the slightly complicated logic.
*
* NOTE: the function returns the path to the directory
* containing 'fileName'. this is *not* the full
* path to 'fileName'.
*/
static char*
_getSdkImagePath( const char* fileName )
{
char temp[MAX_PATH];
char* p = temp;
char* end = p + sizeof(temp);
char* q;
char* app;
static const char* const searchPaths[] = {
"", /* program's directory */
"/lib/images", /* this is for SDK 1.0 */
"/../platforms/android-1.1/images", /* this is for SDK 1.1 */
NULL
};
app = bufprint_app_dir(temp, end);
if (app >= end)
return NULL;
do {
int nn;
/* first search a few well-known paths */
for (nn = 0; searchPaths[nn] != NULL; nn++) {
p = bufprint(app, end, "%s", searchPaths[nn]);
q = bufprint(p, end, "/%s", fileName);
if (q < end && path_exists(temp)) {
*p = 0;
goto FOUND_IT;
}
}
/* hmmm. let's assume that we are in a post-1.1 SDK
* scan ../platforms if it exists
*/
p = bufprint(app, end, "/../platforms");
if (p < end) {
DirScanner* scanner = dirScanner_new(temp);
if (scanner != NULL) {
int found = 0;
const char* subdir;
for (;;) {
subdir = dirScanner_next(scanner);
if (!subdir) break;
q = bufprint(p, end, "/%s/images/%s", subdir, fileName);
if (q >= end || !path_exists(temp))
continue;
found = 1;
p = bufprint(p, end, "/%s/images", subdir);
break;
}
dirScanner_free(scanner);
if (found)
break;
}
}
/* I'm out of ideas */
return NULL;
} while (0);
FOUND_IT:
//D("image auto-detection: %s/%s", temp, fileName);
return android_strdup(temp);
}
static char*
_getSdkImage( const char* path, const char* file )
{
char temp[MAX_PATH];
char *p = temp, *end = p + sizeof(temp);
p = bufprint(temp, end, "%s/%s", path, file);
if (p >= end || !path_exists(temp))
return NULL;
return android_strdup(temp);
}
static char*
_getSdkSystemImage( const char* path, const char* optionName, const char* file )
{
char* image = _getSdkImage(path, file);
if (image == NULL) {
derror("Your system directory is missing the '%s' image file.\n"
"Please specify one with the '%s <filepath>' option",
file, optionName);
exit(2);
}
return image;
}
static void
_forceAvdImagePath( AvdImageType imageType,
const char* path,
const char* description,
int required )
{
if (path == NULL)
return;
if (required && !path_exists(path)) {
derror("Cannot find %s image file: %s", description, path);
exit(1);
}
android_avdParams->forcePaths[imageType] = path;
}
static uint64_t
_adjustPartitionSize( const char* description,
uint64_t imageBytes,
uint64_t defaultBytes,
int inAndroidBuild )
{
char temp[64];
unsigned imageMB;
unsigned defaultMB;
if (imageBytes <= defaultBytes)
return defaultBytes;
imageMB = convertBytesToMB(imageBytes);
defaultMB = convertBytesToMB(defaultBytes);
if (imageMB > defaultMB) {
snprintf(temp, sizeof temp, "(%d MB > %d MB)", imageMB, defaultMB);
} else {
snprintf(temp, sizeof temp, "(%lld bytes > %lld bytes)", imageBytes, defaultBytes);
}
if (inAndroidBuild) {
dwarning("%s partition size adjusted to match image file %s\n", description, temp);
}
return convertMBToBytes(imageMB);
}
// Base console port
#define CORE_BASE_PORT 5554
// Maximum number of core porocesses running simultaneously on a machine.
#define MAX_CORE_PROCS 16
// Socket timeout in millisec (set to 5 seconds)
#define CORE_PORT_TIMEOUT_MS 5000
#include "android/async-console.h"
typedef struct {
LoopIo io[1];
int port;
int ok;
AsyncConsoleConnector connector[1];
} CoreConsole;
static void
coreconsole_io_func(void* opaque, int fd, unsigned events)
{
CoreConsole* cc = opaque;
AsyncStatus status;
status = asyncConsoleConnector_run(cc->connector, cc->io);
if (status == ASYNC_COMPLETE) {
cc->ok = 1;
}
}
static void
coreconsole_init(CoreConsole* cc, const SockAddress* address, Looper* looper)
{
int fd = socket_create_inet(SOCKET_STREAM);
AsyncStatus status;
cc->port = sock_address_get_port(address);
cc->ok = 0;
loopIo_init(cc->io, looper, fd, coreconsole_io_func, cc);
if (fd >= 0) {
status = asyncConsoleConnector_connect(cc->connector, address, cc->io);
if (status == ASYNC_ERROR) {
cc->ok = 0;
}
}
}
static void
coreconsole_done(CoreConsole* cc)
{
socket_close(cc->io->fd);
loopIo_done(cc->io);
}
/* List emulator core processes running on the given machine.
* This routine is called from main() if -list-cores parameter is set in the
* command line.
* Param:
* host Value passed with -list-core parameter. Must be either "localhost", or
* an IP address of a machine where core processes must be enumerated.
*/
static void
list_running_cores(const char* host)
{
Looper* looper;
CoreConsole cores[MAX_CORE_PROCS];
SockAddress address;
int nn, found;
if (sock_address_init_resolve(&address, host, CORE_BASE_PORT, 0) < 0) {
derror("Unable to resolve hostname %s: %s", host, errno_str);
return;
}
looper = looper_newGeneric();
for (nn = 0; nn < MAX_CORE_PROCS; nn++) {
int port = CORE_BASE_PORT + nn*2;
sock_address_set_port(&address, port);
coreconsole_init(&cores[nn], &address, looper);
}
looper_runWithTimeout(looper, CORE_PORT_TIMEOUT_MS*2);
found = 0;
for (nn = 0; nn < MAX_CORE_PROCS; nn++) {
int port = CORE_BASE_PORT + nn*2;
if (cores[nn].ok) {
if (found == 0) {
fprintf(stdout, "Running emulator core processes:\n");
}
fprintf(stdout, "Emulator console port %d\n", port);
found++;
}
coreconsole_done(&cores[nn]);
}
looper_free(looper);
if (found == 0) {
fprintf(stdout, "There were no running emulator core processes found on %s.\n",
host);
}
}
/* Attaches starting UI to a running core process.
* This routine is called from main() when -attach-core parameter is set,
* indicating that this UI instance should attach to a running core, rather than
* start a new core process.
* Param:
* opts Android options containing non-NULL attach_core.
* Return:
* 0 on success, or -1 on failure.
*/
static int
attach_to_core(AndroidOptions* opts) {
int iter;
SockAddress console_socket;
SockAddress** sockaddr_list;
QEmulator* emulator;
// Parse attach_core param extracting the host name, and the port name.
char* console_address = strdup(opts->attach_core);
char* host_name = console_address;
char* port_num = strchr(console_address, ':');
if (port_num == NULL) {
// The host name is ommited, indicating the localhost
host_name = "localhost";
port_num = console_address;
} else if (port_num == console_address) {
// Invalid.
derror("Invalid value %s for -attach-core parameter\n",
opts->attach_core);
return -1;
} else {
*port_num = '\0';
port_num++;
if (*port_num == '\0') {
// Invalid.
derror("Invalid value %s for -attach-core parameter\n",
opts->attach_core);
return -1;
}
}
/* Create socket address list for the given address, and pull appropriate
* address to use for connection. Note that we're fine copying that address
* out of the list, since INET and IN6 will entirely fit into SockAddress
* structure. */
sockaddr_list =
sock_address_list_create(host_name, port_num, SOCKET_LIST_FORCE_INET);
free(console_address);
if (sockaddr_list == NULL) {
derror("Unable to resolve address %s: %s\n",
opts->attach_core, errno_str);
return -1;
}
for (iter = 0; sockaddr_list[iter] != NULL; iter++) {
if (sock_address_get_family(sockaddr_list[iter]) == SOCKET_INET ||
sock_address_get_family(sockaddr_list[iter]) == SOCKET_IN6) {
memcpy(&console_socket, sockaddr_list[iter], sizeof(SockAddress));
break;
}
}
if (sockaddr_list[iter] == NULL) {
derror("Unable to resolve address %s. Note that 'port' parameter passed to -attach-core\n"
"must be resolvable into an IP address.\n", opts->attach_core);
sock_address_list_free(sockaddr_list);
return -1;
}
sock_address_list_free(sockaddr_list);
if (attachUiImpl_create(&console_socket)) {
return -1;
}
// Save core's port, and set the title.
android_base_port = sock_address_get_port(&console_socket);
emulator = qemulator_get();
qemulator_set_title(emulator);
return 0;
}
int main(int argc, char **argv)
{
char tmp[MAX_PATH];
char* tmpend = tmp + sizeof(tmp);
char* args[128];
int n;
char* opt;
int use_sdcard_img = 0;
int serial = 0;
int gps_serial = 0;
int radio_serial = 0;
int qemud_serial = 0;
int shell_serial = 0;
unsigned cachePartitionSize = 0;
unsigned systemPartitionSize = 0;
unsigned dataPartitionSize = 0;
unsigned defaultPartitionSize = convertMBToBytes(66);
AndroidHwConfig* hw;
AvdInfo* avd;
AConfig* skinConfig;
char* skinPath;
//const char *appdir = get_app_dir();
char* android_build_root = NULL;
char* android_build_out = NULL;
AndroidOptions opts[1];
/* net.shared_net_ip boot property value. */
char boot_prop_ip[64];
boot_prop_ip[0] = '\0';
args[0] = argv[0];
if ( android_parse_options( &argc, &argv, opts ) < 0 ) {
exit(1);
}
#ifdef _WIN32
socket_init();
#endif
// Lets see if user just wants to list core process.
if (opts->list_cores) {
fprintf(stdout, "Enumerating running core processes.\n");
list_running_cores(opts->list_cores);
exit(0);
}
while (argc-- > 1) {
opt = (++argv)[0];
if(!strcmp(opt, "-qemu")) {
argc--;
argv++;
break;
}
if (!strcmp(opt, "-help")) {
emulator_help();
}
if (!strncmp(opt, "-help-",6)) {
STRALLOC_DEFINE(out);
opt += 6;
if (!strcmp(opt, "all")) {
android_help_all(out);
}
else if (android_help_for_option(opt, out) == 0) {
/* ok */
}
else if (android_help_for_topic(opt, out) == 0) {
/* ok */
}
if (out->n > 0) {
printf("\n%.*s", out->n, out->s);
exit(0);
}
fprintf(stderr, "unknown option: -help-%s\n", opt);
fprintf(stderr, "please use -help for a list of valid topics\n");
exit(1);
}
if (opt[0] == '-') {
fprintf(stderr, "unknown option: %s\n", opt);
fprintf(stderr, "please use -help for a list of valid options\n");
exit(1);
}
fprintf(stderr, "invalid command-line parameter: %s.\n", opt);
fprintf(stderr, "Hint: use '@foo' to launch a virtual device named 'foo'.\n");
fprintf(stderr, "please use -help for more information\n");
exit(1);
}
if (opts->version) {
printf("Android emulator version %s\n"
"Copyright (C) 2006-2008 The Android Open Source Project and many others.\n"
"This program is a derivative of the QEMU CPU emulator (www.qemu.org).\n\n",
#if defined ANDROID_BUILD_ID
VERSION_STRING " (build_id " STRINGIFY(ANDROID_BUILD_ID) ")" );
#else
VERSION_STRING);
#endif
printf(" This software is licensed under the terms of the GNU General Public\n"
" License version 2, as published by the Free Software Foundation, and\n"
" may be copied, distributed, and modified under those terms.\n\n"
" This program is distributed in the hope that it will be useful,\n"
" but WITHOUT ANY WARRANTY; without even the implied warranty of\n"
" MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\n"
" GNU General Public License for more details.\n\n");
exit(0);
}
/* Initialization of UI started with -attach-core should work differently
* than initialization of UI that starts the core. In particular....
*/
/* -charmap is incompatible with -attach-core, because particular
* charmap gets set up in the running core. */
if (android_charmap_setup(opts->charmap)) {
exit(1);
}
/* legacy support: we used to use -system <dir> and -image <file>
* instead of -sysdir <dir> and -system <file>, so handle this by checking
* whether the options point to directories or files.
*/
if (opts->image != NULL) {
if (opts->system != NULL) {
if (opts->sysdir != NULL) {
derror( "You can't use -sysdir, -system and -image at the same time.\n"
"You should probably use '-sysdir <path> -system <file>'.\n" );
exit(2);
}
}
dwarning( "Please note that -image is obsolete and that -system is now used to point\n"
"to the system image. Next time, try using '-sysdir <path> -system <file>' instead.\n" );
opts->sysdir = opts->system;
opts->system = opts->image;
opts->image = NULL;
}
else if (opts->system != NULL && path_is_dir(opts->system)) {
if (opts->sysdir != NULL) {
derror( "Option -system should now be followed by a file path, not a directory one.\n"
"Please use '-sysdir <path>' to point to the system directory.\n" );
exit(1);
}
dwarning( "Please note that the -system option should now be used to point to the initial\n"
"system image (like the obsolete -image option). To point to the system directory\n"
"please now use '-sysdir <path>' instead.\n" );
opts->sysdir = opts->system;
opts->system = NULL;
}
if (opts->nojni)
opts->no_jni = opts->nojni;
if (opts->nocache)
opts->no_cache = opts->nocache;
if (opts->noaudio)
opts->no_audio = opts->noaudio;
if (opts->noskin)
opts->no_skin = opts->noskin;
/* If no AVD name was given, try to find the top of the
* Android build tree
*/
if (opts->avd == NULL) {
do {
char* out = getenv("ANDROID_PRODUCT_OUT");
if (out == NULL || out[0] == 0)
break;
if (!path_exists(out)) {
derror("Can't access ANDROID_PRODUCT_OUT as '%s'\n"
"You need to build the Android system before launching the emulator",
out);
exit(2);
}
android_build_root = path_parent( out, 4 );
if (android_build_root == NULL || !path_exists(android_build_root)) {
derror("Can't find the Android build root from '%s'\n"
"Please check the definition of the ANDROID_PRODUCT_OUT variable.\n"
"It should point to your product-specific build output directory.\n",
out );
exit(2);
}
android_build_out = out;
D( "found Android build root: %s", android_build_root );
D( "found Android build out: %s", android_build_out );
} while (0);
}
/* if no virtual device name is given, and we're not in the
* Android build system, we'll need to perform some auto-detection
* magic :-)
*/
if (opts->avd == NULL && !android_build_out)
{
char dataDirIsSystem = 0;
if (!opts->sysdir) {
opts->sysdir = _getSdkImagePath("system.img");
if (!opts->sysdir) {
derror(
"You did not specify a virtual device name, and the system\n"
"directory could not be found.\n\n"
"If you are an Android SDK user, please use '@<name>' or '-avd <name>'\n"
"to start a given virtual device (see -help-avd for details).\n\n"
"Otherwise, follow the instructions in -help-disk-images to start the emulator\n"
);
exit(2);
}
D("autoconfig: -sysdir %s", opts->sysdir);
}
if (!opts->system) {
opts->system = _getSdkSystemImage(opts->sysdir, "-image", "system.img");
D("autoconfig: -image %s", opts->image);
}
if (!opts->kernel) {
opts->kernel = _getSdkSystemImage(opts->sysdir, "-kernel", "kernel-qemu");
D("autoconfig: -kernel %s", opts->kernel);
}
if (!opts->ramdisk) {
opts->ramdisk = _getSdkSystemImage(opts->sysdir, "-ramdisk", "ramdisk.img");
D("autoconfig: -ramdisk %s", opts->ramdisk);
}
/* if no data directory is specified, use the system directory */
if (!opts->datadir) {
opts->datadir = android_strdup(opts->sysdir);
dataDirIsSystem = 1;
D("autoconfig: -datadir %s", opts->sysdir);
}
if (!opts->data) {
/* check for userdata-qemu.img in the data directory */
bufprint(tmp, tmpend, "%s/userdata-qemu.img", opts->datadir);
if (!path_exists(tmp)) {
derror(
"You did not provide the name of an Android Virtual Device\n"
"with the '-avd <name>' option. Read -help-avd for more information.\n\n"
"If you *really* want to *NOT* run an AVD, consider using '-data <file>'\n"
"to specify a data partition image file (I hope you know what you're doing).\n"
);
exit(2);
}
opts->data = android_strdup(tmp);
D("autoconfig: -data %s", opts->data);
}
if (!opts->sdcard && opts->datadir) {
bufprint(tmp, tmpend, "%s/sdcard.img", opts->datadir);
if (path_exists(tmp)) {
opts->sdcard = android_strdup(tmp);
D("autoconfig: -sdcard %s", opts->sdcard);
}
}
#if CONFIG_ANDROID_SNAPSHOTS
if (!opts->snapstorage && opts->datadir) {
bufprint(tmp, tmpend, "%s/snapshots.img", opts->datadir);
if (path_exists(tmp)) {
opts->snapstorage = android_strdup(tmp);
D("autoconfig: -snapstorage %s", opts->snapstorage);
}
}
#endif // CONFIG_ANDROID_SNAPSHOTS
}
/* setup the virtual device parameters from our options
*/
if (opts->no_cache) {
android_avdParams->flags |= AVDINFO_NO_CACHE;
}
if (opts->wipe_data) {
android_avdParams->flags |= AVDINFO_WIPE_DATA | AVDINFO_WIPE_CACHE;
}
#if CONFIG_ANDROID_SNAPSHOTS
if (opts->no_snapstorage) {
android_avdParams->flags |= AVDINFO_NO_SNAPSHOTS;
}
#endif
/* if certain options are set, we can force the path of
* certain kernel/disk image files
*/
_forceAvdImagePath(AVD_IMAGE_KERNEL, opts->kernel, "kernel", 1);
_forceAvdImagePath(AVD_IMAGE_INITSYSTEM, opts->system, "system", 1);
_forceAvdImagePath(AVD_IMAGE_RAMDISK, opts->ramdisk, "ramdisk", 1);
_forceAvdImagePath(AVD_IMAGE_USERDATA, opts->data, "user data", 0);
_forceAvdImagePath(AVD_IMAGE_CACHE, opts->cache, "cache", 0);
_forceAvdImagePath(AVD_IMAGE_SDCARD, opts->sdcard, "SD Card", 0);
#if CONFIG_ANDROID_SNAPSHOTS
_forceAvdImagePath(AVD_IMAGE_SNAPSHOTS, opts->snapstorage, "snapshots", 0);
#endif
/* we don't accept -skindir without -skin now
* to simplify the autoconfig stuff with virtual devices
*/
if (opts->no_skin) {
opts->skin = "320x480";
opts->skindir = NULL;
}
if (opts->skindir) {
if (!opts->skin) {
derror( "the -skindir <path> option requires a -skin <name> option");
exit(1);
}
}
android_avdParams->skinName = opts->skin;
android_avdParams->skinRootPath = opts->skindir;
/* setup the virtual device differently depending on whether
* we are in the Android build system or not
*/
if (opts->avd != NULL)
{
android_avdInfo = avdInfo_new( opts->avd, android_avdParams );
if (android_avdInfo == NULL) {
/* an error message has already been printed */
dprint("could not find virtual device named '%s'", opts->avd);
exit(1);
}
}
else
{
if (!android_build_out) {
android_build_out = android_build_root = opts->sysdir;
}
android_avdInfo = avdInfo_newForAndroidBuild(
android_build_root,
android_build_out,
android_avdParams );
if(android_avdInfo == NULL) {
D("could not start virtual device\n");
exit(1);
}
}
avd = android_avdInfo;
/* get the skin from the virtual device configuration */
opts->skin = (char*) avdInfo_getSkinName( avd );
opts->skindir = (char*) avdInfo_getSkinDir( avd );
if (opts->skin) {
D("autoconfig: -skin %s", opts->skin);
}
if (opts->skindir) {
D("autoconfig: -skindir %s", opts->skindir);
}
/* Read hardware configuration */
hw = android_hw;
if (avdInfo_getHwConfig(avd, hw) < 0) {
derror("could not read hardware configuration ?");
exit(1);
}
if (opts->keyset) {
parse_keyset(opts->keyset, opts);
if (!android_keyset) {
fprintf(stderr,
"emulator: WARNING: could not find keyset file named '%s',"
" using defaults instead\n",
opts->keyset);
}
}
if (!android_keyset) {
parse_keyset("default", opts);
if (!android_keyset) {
android_keyset = skin_keyset_new_from_text( skin_keyset_get_default() );
if (!android_keyset) {
fprintf(stderr, "PANIC: default keyset file is corrupted !!\n" );
fprintf(stderr, "PANIC: please update the code in android/skin/keyset.c\n" );
exit(1);
}
if (!opts->keyset)
write_default_keyset();
}
}
if (opts->shared_net_id) {
char* end;
long shared_net_id = strtol(opts->shared_net_id, &end, 0);
if (end == NULL || *end || shared_net_id < 1 || shared_net_id > 255) {
fprintf(stderr, "option -shared-net-id must be an integer between 1 and 255\n");
exit(1);
}
snprintf(boot_prop_ip, sizeof(boot_prop_ip),
"net.shared_net_ip=10.1.2.%ld", shared_net_id);
}
user_config_init();
parse_skin_files(opts->skindir, opts->skin, opts, hw,
&skinConfig, &skinPath);
if (!opts->netspeed) {
if (skin_network_speed)
D("skin network speed: '%s'", skin_network_speed);
opts->netspeed = (char*)skin_network_speed;
}
if (!opts->netdelay) {
if (skin_network_delay)
D("skin network delay: '%s'", skin_network_delay);
opts->netdelay = (char*)skin_network_delay;
}
if (opts->trace) {
char* tracePath = avdInfo_getTracePath(avd, opts->trace);
int ret;
if (tracePath == NULL) {
derror( "bad -trace parameter" );
exit(1);
}
ret = path_mkdir_if_needed( tracePath, 0755 );
if (ret < 0) {
fprintf(stderr, "could not create directory '%s'\n", tmp);
exit(2);
}
opts->trace = tracePath;
}
if (opts->no_cache)
opts->cache = 0;
n = 1;
/* generate arguments for the underlying qemu main() */
{
const char* kernelFile = avdInfo_getImageFile(avd, AVD_IMAGE_KERNEL);
int kernelFileLen = strlen(kernelFile);
args[n++] = "-kernel";
args[n++] = (char*)kernelFile;
/* If the kernel image name ends in "-armv7", then change the cpu
* type automatically. This is a poor man's approach to configuration
* management, but should allow us to get past building ARMv7
* system images with dex preopt pass without introducing too many
* changes to the emulator sources.
*
* XXX:
* A 'proper' change would require adding some sort of hardware-property
* to each AVD config file, then automatically determine its value for
* full Android builds (depending on some environment variable), plus
* some build system changes. I prefer not to do that for now for reasons
* of simplicity.
*/
if (kernelFileLen > 6 && !memcmp(kernelFile + kernelFileLen - 6, "-armv7", 6)) {
args[n++] = "-cpu";
args[n++] = "cortex-a8";
}
}
if (boot_prop_ip[0]) {
args[n++] = "-boot-property";
args[n++] = boot_prop_ip;
}
if (opts->tcpdump) {
args[n++] = "-tcpdump";
args[n++] = opts->tcpdump;
}
#ifdef CONFIG_NAND_LIMITS
if (opts->nand_limits) {
args[n++] = "-nand-limits";
args[n++] = opts->nand_limits;
}
#endif
if (opts->timezone) {
args[n++] = "-timezone";
args[n++] = opts->timezone;
}
if (opts->netspeed) {
args[n++] = "-netspeed";
args[n++] = opts->netspeed;
}
if (opts->netdelay) {
args[n++] = "-netdelay";
args[n++] = opts->netdelay;
}
if (opts->netfast) {
args[n++] = "-netfast";
}
/* the purpose of -no-audio is to disable sound output from the emulator,
* not to disable Audio emulation. So simply force the 'none' backends */
if (opts->no_audio)
opts->audio = "none";
if (opts->audio) {
args[n++] = "-audio";
args[n++] = opts->audio;
}
if (opts->cpu_delay) {
args[n++] = "-cpu-delay";
args[n++] = opts->cpu_delay;
}
if (opts->dns_server) {
args[n++] = "-dns-server";
args[n++] = opts->dns_server;
}
args[n++] = "-initrd";
args[n++] = (char*) avdInfo_getImageFile(avd, AVD_IMAGE_RAMDISK);
if (opts->partition_size) {
char* end;
long sizeMB = strtol(opts->partition_size, &end, 0);
long minSizeMB = 10;
long maxSizeMB = LONG_MAX / ONE_MB;
if (sizeMB < 0 || *end != 0) {
derror( "-partition-size must be followed by a positive integer" );
exit(1);
}
if (sizeMB < minSizeMB || sizeMB > maxSizeMB) {
derror( "partition-size (%d) must be between %dMB and %dMB",
sizeMB, minSizeMB, maxSizeMB );
exit(1);
}
defaultPartitionSize = sizeMB * ONE_MB;
}
/* Check the size of the system partition image.
* If we have an AVD, it must be smaller than
* the disk.systemPartition.size hardware property.
*
* Otherwise, we need to adjust the systemPartitionSize
* automatically, and print a warning.
*
*/
{
uint64_t systemBytes = avdInfo_getImageFileSize(avd, AVD_IMAGE_INITSYSTEM);
uint64_t defaultBytes = defaultPartitionSize;
if (defaultBytes == 0 || opts->partition_size)
defaultBytes = defaultPartitionSize;
systemPartitionSize = _adjustPartitionSize("system", systemBytes, defaultBytes,
android_build_out != NULL);
}
/* Check the size of the /data partition. The only interesting cases here are:
* - when the USERDATA image already exists and is larger than the default
* - when we're wiping data and the INITDATA is larger than the default.
*/
{
const char* dataPath = avdInfo_getImageFile(avd, AVD_IMAGE_USERDATA);
uint64_t defaultBytes = defaultPartitionSize;
if (defaultBytes == 0 || opts->partition_size)
defaultBytes = defaultPartitionSize;
if (dataPath == NULL || !path_exists(dataPath) || opts->wipe_data) {
dataPath = avdInfo_getImageFile(avd, AVD_IMAGE_INITDATA);
}
if (dataPath == NULL || !path_exists(dataPath)) {
dataPartitionSize = defaultBytes;
}
else {
uint64_t dataBytes;
path_get_size(dataPath, &dataBytes);
dataPartitionSize = _adjustPartitionSize("data", dataBytes, defaultBytes,
android_build_out != NULL);
}
}
{
const char* filetype = "file";
if (avdInfo_isImageReadOnly(avd, AVD_IMAGE_INITSYSTEM))
filetype = "initfile";
bufprint(tmp, tmpend,
"system,size=0x%x,%s=%s", systemPartitionSize, filetype,
avdInfo_getImageFile(avd, AVD_IMAGE_INITSYSTEM));
args[n++] = "-nand";
args[n++] = strdup(tmp);
}
bufprint(tmp, tmpend,
"userdata,size=0x%x,file=%s",
dataPartitionSize,
avdInfo_getImageFile(avd, AVD_IMAGE_USERDATA));
args[n++] = "-nand";
args[n++] = strdup(tmp);
if (hw->disk_cachePartition) {
opts->cache = (char*) avdInfo_getImageFile(avd, AVD_IMAGE_CACHE);
cachePartitionSize = hw->disk_cachePartition_size;
}
else if (opts->cache) {
dwarning( "Emulated hardware doesn't support a cache partition" );
opts->cache = NULL;
opts->no_cache = 1;
}
if (opts->cache) {
/* use a specific cache file */
sprintf(tmp, "cache,size=0x%0x,file=%s", cachePartitionSize, opts->cache);
args[n++] = "-nand";
args[n++] = strdup(tmp);
}
else if (!opts->no_cache) {
/* create a temporary cache partition file */
sprintf(tmp, "cache,size=0x%0x", cachePartitionSize);
args[n++] = "-nand";
args[n++] = strdup(tmp);
}
if (hw->hw_sdCard != 0)
opts->sdcard = (char*) avdInfo_getImageFile(avd, AVD_IMAGE_SDCARD);
else if (opts->sdcard) {
dwarning( "Emulated hardware doesn't support SD Cards" );
opts->sdcard = NULL;
}
if(opts->sdcard) {
uint64_t size;
if (path_get_size(opts->sdcard, &size) == 0) {
/* see if we have an sdcard image. get its size if it exists */
/* due to what looks like limitations of the MMC protocol, one has
* to use an SD Card image that is equal or larger than 9 MB
*/
if (size < 9*1024*1024ULL) {
fprintf(stderr, "### WARNING: SD Card files must be at least 9MB, ignoring '%s'\n", opts->sdcard);
} else {
args[n++] = "-hda";
args[n++] = opts->sdcard;
use_sdcard_img = 1;
}
} else {
D("no SD Card image at '%s'", opts->sdcard);
}
}
#if CONFIG_ANDROID_SNAPSHOTS
if (!opts->no_snapstorage) {
opts->snapstorage = (char*) avdInfo_getImageFile(avd, AVD_IMAGE_SNAPSHOTS);
if(opts->snapstorage) {
if (path_exists(opts->snapstorage)) {
args[n++] = "-hdb";
args[n++] = opts->snapstorage;
} else {
D("no image at '%s', state snapshots disabled", opts->snapstorage);
}
}
if (!opts->no_snapshot) {
char* snapshot_name =
opts->snapshot ? opts->snapshot : "default-boot";
if (!opts->no_snapshot_load) {
args[n++] = "-loadvm";
args[n++] = snapshot_name;
}
if (!opts->no_snapshot_save) {
args[n++] = "-savevm-on-exit";
args[n++] = snapshot_name;
}
} else if (opts->snapshot) {
dwarning("option '-no-snapshot' overrides '-snapshot', continuing with boot sequence");
} else if (opts->no_snapshot_load || opts->no_snapshot_save) {
D("ignoring redundant option(s) '-no-snapshot-load' and/or '-no-snapshot-save' implied by '-no-snapshot'");
}
// TODO: Convey -no-snapshot-time-update to core subprocess (?)
} else if (opts->snapshot || opts->snapstorage) {
dwarning("option '-no-snapstorage' overrides '-snapshot' and '-snapstorage', "
"continuing with full boot, state snapshots are disabled");
} else if (opts->no_snapshot) {
D("ignoring redundant option '-no-snapshot' implied by '-no-snapstorage'");
}
if (opts->snapshot_list) {
snapshot_print_and_exit(opts->snapstorage);
}
#endif // CONFIG_ANDROID_SNAPSHOTS
if (!opts->logcat || opts->logcat[0] == 0) {
opts->logcat = getenv("ANDROID_LOG_TAGS");
if (opts->logcat && opts->logcat[0] == 0)
opts->logcat = NULL;
}
#if 0
if (opts->console) {
derror( "option -console is obsolete. please use -shell instead" );
exit(1);
}
#endif
/* we always send the kernel messages from ttyS0 to android_kmsg */
{
if (opts->show_kernel) {
args[n++] = "-show-kernel";
}
args[n++] = "-serial";
args[n++] = "android-kmsg";
serial++;
}
/* XXXX: TODO: implement -shell and -logcat through qemud instead */
if (!opts->shell_serial) {
#ifdef _WIN32
opts->shell_serial = "con:";
#else
opts->shell_serial = "stdio";
#endif
}
else
opts->shell = 1;
if (opts->shell || opts->logcat) {
args[n++] = "-serial";
args[n++] = opts->shell_serial;
shell_serial = serial++;
}
if (opts->old_system)
{
if (opts->radio) {
args[n++] = "-serial";
args[n++] = opts->radio;
radio_serial = serial++;
}
else {
args[n++] = "-serial";
args[n++] = "android-modem";
radio_serial = serial++;
}
if (opts->gps) {
args[n++] = "-serial";
args[n++] = opts->gps;
gps_serial = serial++;
}
}
else /* !opts->old_system */
{
args[n++] = "-serial";
args[n++] = "android-qemud";
qemud_serial = serial++;
if (opts->radio) {
args[n++] = "-radio";
args[n++] = opts->radio;
}
if (opts->gps) {
args[n++] = "-gps";
args[n++] = opts->gps;
}
}
if (opts->memory) {
char* end;
long ramSize = strtol(opts->memory, &end, 0);
if (ramSize < 0 || *end != 0) {
derror( "-memory must be followed by a positive integer" );
exit(1);
}
if (ramSize < 32 || ramSize > 4096) {
derror( "physical memory size must be between 32 and 4096 MB" );
exit(1);
}
hw->hw_ramSize = ramSize;
}
if (!opts->memory) {
int ramSize = hw->hw_ramSize;
if (ramSize <= 0) {
/* Compute the default RAM size based on the size of screen.
* This is only used when the skin doesn't provide the ram
* size through its hardware.ini (i.e. legacy ones) or when
* in the full Android build system.
*/
int64_t pixels = hw->hw_lcd_width * hw->hw_lcd_height;
/* The following thresholds are a bit liberal, but we
* essentially want to ensure the following mappings:
*
* 320x480 -> 96
* 800x600 -> 128
* 1024x768 -> 256
*
* These are just simple heuristics, they could change in
* the future.
*/
if (pixels <= 250000)
ramSize = 96;
else if (pixels <= 500000)
ramSize = 128;
else
ramSize = 256;
}
hw->hw_ramSize = ramSize;
}
D("Physical RAM size: %dMB\n", hw->hw_ramSize);
if (hw->vm_heapSize == 0) {
/* Compute the default heap size based on the RAM size.
* Essentially, we want to ensure the following liberal mappings:
*
* 96MB RAM -> 16MB heap
* 128MB RAM -> 24MB heap
* 256MB RAM -> 48MB heap
*/
int ramSize = hw->hw_ramSize;
int heapSize;
if (ramSize < 100)
heapSize = 16;
else if (ramSize < 192)
heapSize = 24;
else
heapSize = 48;
hw->vm_heapSize = heapSize;
}
if (opts->trace) {
args[n++] = "-trace";
args[n++] = opts->trace;
args[n++] = "-tracing";
args[n++] = "off";
}
/* Pass boot properties to the core. */
if (opts->prop != NULL) {
ParamList* pl = opts->prop;
for ( ; pl != NULL; pl = pl->next ) {
args[n++] = "-boot-property";
args[n++] = pl->param;
}
}
args[n++] = "-append";
if (opts->bootchart) {
char* end;
int timeout = strtol(opts->bootchart, &end, 10);
if (timeout == 0)
opts->bootchart = NULL;
else if (timeout < 0 || timeout > 15*60) {
derror( "timeout specified for -bootchart option is invalid.\n"
"please use integers between 1 and 900\n");
exit(1);
}
}
/* Setup the kernel init options
*/
{
static char params[1024];
char *p = params, *end = p + sizeof(params);
p = bufprint(p, end, "qemu=1 console=ttyS0" );
if (opts->shell || opts->logcat) {
p = bufprint(p, end, " androidboot.console=ttyS%d", shell_serial );
}
if (opts->trace) {
p = bufprint(p, end, " android.tracing=1");
}
if (!opts->no_jni) {
p = bufprint(p, end, " android.checkjni=1");
}
if (opts->no_boot_anim) {
p = bufprint( p, end, " android.bootanim=0" );
}
if (opts->logcat) {
char* q = bufprint(p, end, " androidboot.logcat=%s", opts->logcat);
if (q < end) {
/* replace any space by a comma ! */
{
int nn;
for (nn = 1; p[nn] != 0; nn++)
if (p[nn] == ' ' || p[nn] == '\t')
p[nn] = ',';
p += nn;
}
}
p = q;
}
if (opts->old_system)
{
p = bufprint(p, end, " android.ril=ttyS%d", radio_serial);
if (opts->gps) {
p = bufprint(p, end, " android.gps=ttyS%d", gps_serial);
}
}
else
{
p = bufprint(p, end, " android.qemud=ttyS%d", qemud_serial);
}
if (opts->bootchart) {
p = bufprint(p, end, " androidboot.bootchart=%s", opts->bootchart);
}
if (p >= end) {
fprintf(stderr, "### ERROR: kernel parameters too long\n");
exit(1);
}
args[n++] = strdup(params);
}
if (opts->ports) {
args[n++] = "-android-ports";
args[n++] = opts->ports;
}
if (opts->port) {
args[n++] = "-android-port";
args[n++] = opts->port;
}
if (opts->report_console) {
args[n++] = "-android-report-console";
args[n++] = opts->report_console;
}
if (opts->http_proxy) {
args[n++] = "-http-proxy";
args[n++] = opts->http_proxy;
}
if (opts->charmap) {
args[n++] = "-charmap";
args[n++] = opts->charmap;
}
if (opts->memcheck) {
args[n++] = "-android-memcheck";
args[n++] = opts->memcheck;
}
/* physical memory */
args[n++] = "-m";
args[n++] = opts->memory;
/* on Linux, the 'dynticks' clock sometimes doesn't work
* properly. this results in the UI freezing while emulation
* continues, for several seconds...
*/
#ifdef __linux__
args[n++] = "-clock";
args[n++] = "unix";
#endif
/* Set up the interfaces for inter-emulator networking */
if (opts->shared_net_id) {
unsigned int shared_net_id = atoi(opts->shared_net_id);
char nic[37];
args[n++] = "-net";
args[n++] = "nic,vlan=0";
args[n++] = "-net";
args[n++] = "user,vlan=0";
args[n++] = "-net";
snprintf(nic, sizeof nic, "nic,vlan=1,macaddr=52:54:00:12:34:%02x", shared_net_id);
args[n++] = strdup(nic);
args[n++] = "-net";
args[n++] = "socket,vlan=1,mcast=230.0.0.10:1234";
}
while(argc-- > 0) {
args[n++] = *argv++;
}
args[n] = 0;
/* Generate a temporary hardware.ini for this AVD. The real hardware
* configuration is ususally stored in several files, e.g. the AVD's
* config.ini plus the skin-specific hardware.ini.
*
* The new temp file will group all definitions and will be used to
* launch the core with the -android-hw <file> option.
*/
{
const char* coreHwIniPath = avdInfo_getCoreHwIniPath(avd);
IniFile* hwIni = iniFile_newFromMemory("", NULL);
androidHwConfig_write(hw, hwIni);
if (iniFile_saveToFile(hwIni, coreHwIniPath) < 0) {
derror("Could not write hardware.ini to %s: %s", coreHwIniPath, strerror(errno));
exit(2);
}
args[n++] = "-android-hw";
args[n++] = strdup(coreHwIniPath);
}
if(VERBOSE_CHECK(init)) {
int i;
printf("QEMU options list:\n");
for(i = 0; i < n; i++) {
printf("emulator: argv[%02d] = \"%s\"\n", i, args[i]);
}
/* Dump final command-line option to make debugging the core easier */
printf("Concatenated QEMU options:\n");
for (i = 0; i < n; i++) {
printf(" %s", args[i]);
}
printf("\n");
}
/* Setup SDL UI just before calling the code */
init_sdl_ui(skinConfig, skinPath, opts);
// Lets see if we're attaching to a running core process here.
if (opts->attach_core) {
if (attach_to_core(opts)) {
return -1;
}
// Connect to the core's UI control services.
if (coreCmdProxy_create(attachUiImpl_get_console_socket())) {
return -1;
}
// Connect to the core's user events service.
if (userEventsProxy_create(attachUiImpl_get_console_socket())) {
return -1;
}
}
return qemu_main(n, args);
}
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