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3 Commits
zsh_comple ... pr3023

Author SHA1 Message Date
Firq
180984f825 Fixed links and 2 typos in German README 
- physikalische != physische
- Some links were broken because of spaces, fixed those
 2022-02-15 10:47:04 +01:00
Romain Vimont
f366d4256e fixup 2022-02-15 09:51:50 +01:00
Firq
2398a5aa58 Add German translation of the README 2022-02-15 09:48:32 +01:00
90 changed files with 2655 additions and 3805 deletions
Expand all files Collapse all files

12
BUILD.md
View File

@@ -161,8 +161,7 @@ install the required packages:
```bash
# runtime dependencies
pacman -S mingw-w64-x86_64-SDL2 \
mingw-w64-x86_64-ffmpeg \
mingw-w64-x86_64-libusb
mingw-w64-x86_64-ffmpeg
# client build dependencies
pacman -S mingw-w64-x86_64-make \
@@ -176,8 +175,7 @@ For a 32 bits version, replace `x86_64` by `i686`:
```bash
# runtime dependencies
pacman -S mingw-w64-i686-SDL2 \
mingw-w64-i686-ffmpeg \
mingw-w64-i686-libusb
mingw-w64-i686-ffmpeg
# client build dependencies
pacman -S mingw-w64-i686-make \
@@ -201,7 +199,7 @@ Install the packages with [Homebrew]:
```bash
# runtime dependencies
brew install sdl2 ffmpeg libusb
brew install sdl2 ffmpeg
# client build dependencies
brew install pkg-config meson
@@ -260,7 +258,7 @@ set ANDROID_SDK_ROOT=%LOCALAPPDATA%\Android\sdk
Then, build:
```bash
meson x --buildtype=release --strip -Db_lto=true
meson x --buildtype release --strip -Db_lto=true
ninja -Cx # DO NOT RUN AS ROOT
```
@@ -281,7 +279,7 @@ Download the prebuilt server somewhere, and specify its path during the Meson
configuration:
```bash
meson x --buildtype=release --strip -Db_lto=true \
meson x --buildtype release --strip -Db_lto=true \
-Dprebuilt_server=/path/to/scrcpy-server
ninja -Cx # DO NOT RUN AS ROOT
```

1016
README.de.md Normal file
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File diff suppressed because it is too large Load Diff

25
README.md
View File

@@ -215,15 +215,6 @@ scrcpy --max-fps 15
This is officially supported since Android 10, but may work on earlier versions.
The actual capture framerate may be printed to the console:
```
scrcpy --print-fps
```
It may also be enabled or disabled at any time with <kbd>MOD</kbd>+<kbd>i</kbd>.
#### Crop
The device screen may be cropped to mirror only part of the screen.
@@ -431,7 +422,7 @@ scrcpy -b2M -m800 # short version
#### Multi-devices
If several devices are listed in `adb devices`, you can specify the _serial_:
If several devices are listed in `adb devices`, you must specify the _serial_:
```bash
scrcpy --serial 0123456789abcdef
@@ -445,19 +436,6 @@ scrcpy --serial 192.168.0.1:5555
scrcpy -s 192.168.0.1:5555 # short version
```
If only one device is connected via either USB or TCP/IP, it is possible to
select it automatically:
```bash
# Select the only device connected via USB
scrcpy -d # like adb -d
scrcpy --select-usb # long version
# Select the only device connected via TCP/IP
scrcpy -e # like adb -e
scrcpy --select-tcpip # long version
```
You can start several instances of _scrcpy_ for several devices.
#### Autostart on device connection
@@ -1132,6 +1110,7 @@ Read the [developers page].
This README is available in other languages:
- [Deutsch (German, `de`) - v1.22](README.de.md)
- [Indonesian (Indonesia, `id`) - v1.16](README.id.md)
- [Italiano (Italiano, `it`) - v1.19](README.it.md)
- [日本語 (Japanese, `jp`) - v1.19](README.jp.md)

69
app/data/zsh-completion/_scrcpy
View File

@@ -1,69 +0,0 @@
#compdef -N scrcpy -N scrcpy.exe
#
# name: scrcpy
# auth: hltdev [hltdev8642@gmail.com]
# desc: completion file for scrcpy (all OSes)
#
local arguments
arguments=(
'--always-on-top[Make scrcpy window always on top \(above other windows\)]'
{-b,--bit-rate=}'[Encode the video at the given bit-rate]'
'--codec-options=[Set a list of comma-separated key\:type=value options for the device encoder]'
'--crop=[\[width\:height\:x\:y\] Crop the device screen on the server]'
{-d,--select-usb}'[Use USB device]'
'--disable-screensaver[Disable screensaver while scrcpy is running]'
'--display=[Specify the display id to mirror]'
'--display-buffer=[Add a buffering delay \(in milliseconds\) before displaying]'
{-e,--select-tcpip}'[Use TCP/IP device]'
'--encoder=[Use a specific MediaCodec encoder \(must be a H.264 encoder\)]'
'--force-adb-forward[Do not attempt to use \"adb reverse\" to connect to the device]'
'--forward-all-clicks[Forward clicks to device]'
{-f,--fullscreen}'[Start in fullscreen]'
{-K,--hid-keyboard}'[Simulate a physical keyboard by using HID over AOAv2]'
{-h,--help}'[Print the help]'
'--legacy-paste[Inject computer clipboard text as a sequence of key events on Ctrl+v]'
'--lock-video-orientation=[Lock video orientation]:orientation:(unlocked initial 0 1 2 3)'
'--max-fps=[Limit the frame rate of screen capture]'
{-M,--hid-mouse}'[Simulate a physical mouse by using HID over AOAv2]'
{-m,--max-size=}'[Limit both the width and height of the video to value]'
'--no-cleanup[Disable device cleanup actions on exit]'
'--no-clipboard-autosync[Disable automatic clipboard synchronization]'
'--no-downsize-on-error[Disable lowering definition on MediaCodec error]'
{-n,--no-control}'[Disable device control \(mirror the device in read only\)]'
{-N,--no-display}'[Do not display device \(during screen recording or when V4L2 sink is enabled\)]'
'--no-key-repeat[Do not forward repeated key events when a key is held down]'
'--no-mipmaps[Disable the generation of mipmaps]'
'--otg[Run in OTG mode \(simulating physical keyboard and mouse\)]'
{-p,--port=}'[\[port\[\:port\]\] Set the TCP port \(range\) used by the client to listen]'
'--power-off-on-close[Turn the device screen off when closing scrcpy]'
'--prefer-text[Inject alpha characters and space as text events instead of key events]'
'--print-fps[Start FPS counter, to print frame logs to the console]'
'--push-target=[Set the target directory for pushing files to the device by drag and drop]'
'--raw-key-events[Inject key events for all input keys, and ignore text events]'
{-r,--record=}'[Record screen to file]:record file:_files'
'--record-format=[Force recording format]:format:(mp4 mkv)'
'--render-driver=[Request SDL to use the given render driver]:driver name:(direct3d opengl opengles2 opengles metal software)'
'--rotation=[Set the initial display rotation]:rotation values:(0 1 2 3)'
{-s,--serial=}'[The device serial number \(mandatory for multiple devices only\)]'
'--shortcut-mod=[\[key1,key2+key3,...\] Specify the modifiers to use for scrcpy shortcuts]:shortcut mod:(lctrl rctrl lalt ralt lsuper rsuper)'
'--tcpip[\(optional \[ip\:port\]\) Configure and connect the device over TCP/IP]'
{-S,--turn-screen-off}'[Turn the device screen off immediately]'
{-t,--show-touches}'[Show physical touches]'
'--tunnel-host=[Set the IP address of the adb tunnel to reach the scrcpy server]'
'--tunnel-port=[Set the TCP port of the adb tunnel to reach the scrcpy server]'
'--v4l2-buffer=[Add a buffering delay \(in milliseconds\) before pushing frames]'
'--v4l2-sink=[\[\/dev\/videoN\] Output to v4l2loopback device]'
{-V,--verbosity=}'[Set the log level]:verbosity:(verbose debug info warn error)'
{-v,--version}'[Print the version of scrcpy]'
{-w,--stay-awake}'[Keep the device on while scrcpy is running, when the device is plugged in]'
'--window-borderless[Disable window decorations \(display borderless window\)]'
'--window-title=[Set a custom window title]'
'--window-x=[Set the initial window horizontal position]'
'--window-y=[Set the initial window vertical position]'
'--window-width=[Set the initial window width]'
'--window-height=[Set the initial window height]'
)
_arguments -s $arguments

47
app/meson.build
View File

@@ -1,16 +1,14 @@
src = [
'src/main.c',
'src/adb/adb.c',
'src/adb/adb_device.c',
'src/adb/adb_parser.c',
'src/adb/adb_tunnel.c',
'src/adb.c',
'src/adb_parser.c',
'src/adb_tunnel.c',
'src/cli.c',
'src/clock.c',
'src/compat.c',
'src/control_msg.c',
'src/controller.c',
'src/decoder.c',
'src/demuxer.c',
'src/device_msg.c',
'src/icon.c',
'src/file_pusher.c',
@@ -26,7 +24,7 @@ src = [
'src/scrcpy.c',
'src/screen.c',
'src/server.c',
'src/version.c',
'src/stream.c',
'src/video_buffer.c',
'src/util/acksync.c',
'src/util/file.c',
@@ -69,12 +67,12 @@ else
endif
endif
v4l2_support = get_option('v4l2') and host_machine.system() == 'linux'
v4l2_support = host_machine.system() == 'linux'
if v4l2_support
src += [ 'src/v4l2_sink.c' ]
endif
usb_support = get_option('usb')
usb_support = host_machine.system() == 'linux'
if usb_support
src += [
'src/usb/aoa_hid.c',
@@ -111,9 +109,9 @@ if not crossbuild_windows
else
# cross-compile mingw32 build (from Linux to Windows)
prebuilt_sdl2 = meson.get_cross_property('prebuilt_sdl2')
sdl2_bin_dir = meson.current_source_dir() + '/prebuilt-deps/data/' + prebuilt_sdl2 + '/bin'
sdl2_lib_dir = meson.current_source_dir() + '/prebuilt-deps/data/' + prebuilt_sdl2 + '/lib'
sdl2_include_dir = 'prebuilt-deps/data/' + prebuilt_sdl2 + '/include'
sdl2_bin_dir = meson.current_source_dir() + '/../prebuilt-deps/data/' + prebuilt_sdl2 + '/bin'
sdl2_lib_dir = meson.current_source_dir() + '/../prebuilt-deps/data/' + prebuilt_sdl2 + '/lib'
sdl2_include_dir = '../prebuilt-deps/data/' + prebuilt_sdl2 + '/include'
sdl2 = declare_dependency(
dependencies: [
@@ -124,8 +122,8 @@ else
)
prebuilt_ffmpeg = meson.get_cross_property('prebuilt_ffmpeg')
ffmpeg_bin_dir = meson.current_source_dir() + '/prebuilt-deps/data/' + prebuilt_ffmpeg + '/bin'
ffmpeg_include_dir = 'prebuilt-deps/data/' + prebuilt_ffmpeg + '/include'
ffmpeg_bin_dir = meson.current_source_dir() + '/../prebuilt-deps/data/' + prebuilt_ffmpeg + '/bin'
ffmpeg_include_dir = '../prebuilt-deps/data/' + prebuilt_ffmpeg + '/include'
# ffmpeg versions are different for win32 and win64 builds
ffmpeg_avcodec = meson.get_cross_property('ffmpeg_avcodec')
@@ -141,22 +139,9 @@ else
include_directories: include_directories(ffmpeg_include_dir)
)
prebuilt_libusb = meson.get_cross_property('prebuilt_libusb')
prebuilt_libusb_root = meson.get_cross_property('prebuilt_libusb_root')
libusb_bin_dir = meson.current_source_dir() + '/prebuilt-deps/data/' + prebuilt_libusb + '/dll'
libusb_include_dir = 'prebuilt-deps/data/' + prebuilt_libusb_root + '/include'
libusb = declare_dependency(
dependencies: [
cc.find_library('libusb-1.0', dirs: libusb_bin_dir),
],
include_directories: include_directories(libusb_include_dir)
)
dependencies = [
ffmpeg,
sdl2,
libusb,
cc.find_library('mingw32')
]
@@ -224,11 +209,9 @@ executable('scrcpy', src,
c_args: [])
install_man('scrcpy.1')
install_data('data/icon.png',
install_data('../data/icon.png',
rename: 'scrcpy.png',
install_dir: 'share/icons/hicolor/256x256/apps')
install_data('data/zsh-completion/_scrcpy',
install_dir: 'share/zsh/site-functions')
### TESTS
@@ -238,8 +221,7 @@ if get_option('buildtype') == 'debug'
tests = [
['test_adb_parser', [
'tests/test_adb_parser.c',
'src/adb/adb_device.c',
'src/adb/adb_parser.c',
'src/adb_parser.c',
'src/util/str.c',
'src/util/strbuf.c',
]],
@@ -284,9 +266,6 @@ if get_option('buildtype') == 'debug'
'src/util/str.c',
'src/util/strbuf.c',
]],
['test_vector', [
'tests/test_vector.c',
]],
]
foreach t : tests

28
app/prebuilt-deps/prepare-libusb.sh
View File

@@ -1,28 +0,0 @@
#!/usr/bin/env bash
set -e
DIR=$(dirname ${BASH_SOURCE[0]})
cd "$DIR"
. common
mkdir -p "$PREBUILT_DATA_DIR"
cd "$PREBUILT_DATA_DIR"
DEP_DIR=libusb-1.0.25
FILENAME=libusb-1.0.25.7z
SHA256SUM=3d1c98416f454026034b2b5d67f8a294053898cb70a8b489874e75b136c6674d
if [[ -d "$DEP_DIR" ]]
then
echo "$DEP_DIR" found
exit 0
fi
get_file "https://github.com/libusb/libusb/releases/download/v1.0.25/$FILENAME" "$FILENAME" "$SHA256SUM"
mkdir "$DEP_DIR"
cd "$DEP_DIR"
7z x "../$FILENAME" \
MinGW32/dll/libusb-1.0.dll \
MinGW64/dll/libusb-1.0.dll \
include /

2
app/scrcpy-windows.rc
View File

@@ -1,6 +1,6 @@
#include <winuser.h>
0 ICON "data/icon.ico"
0 ICON "../data/icon.ico"
1 RT_MANIFEST "scrcpy-windows.manifest"
2 VERSIONINFO
BEGIN

28
app/scrcpy.1
View File

@@ -43,12 +43,6 @@ The values are expressed in the device natural orientation (typically, portrait
.B \-\-max\-size
value is computed on the cropped size.
.TP
.B \-d, \-\-select\-usb
Use USB device (if there is exactly one, like adb -d).
Also see \fB\-e\fR (\fB\-\-select\-tcpip\fR).
.TP
.BI "\-\-disable-screensaver"
Disable screensaver while scrcpy is running.
@@ -68,12 +62,6 @@ Add a buffering delay (in milliseconds) before displaying. This increases latenc
Default is 0 (no buffering).
.TP
.B \-e, \-\-select\-tcpip
Use TCP/IP device (if there is exactly one, like adb -e).
Also see \fB\-d\fR (\fB\-\-select\-usb\fR).
.TP
.BI "\-\-encoder " name
Use a specific MediaCodec encoder (must be a H.264 encoder).
@@ -100,7 +88,7 @@ Simulate a physical keyboard by using HID over AOAv2.
This provides a better experience for IME users, and allows to generate non-ASCII characters, contrary to the default injection method.
It may only work over USB.
It may only work over USB, and is currently only supported on Linux.
The keyboard layout must be configured (once and for all) on the device, via Settings -> System -> Languages and input -> Physical keyboard. This settings page can be started directly:
@@ -142,16 +130,10 @@ In this mode, the computer mouse is captured to control the device directly (rel
LAlt, LSuper or RSuper toggle the capture mode, to give control of the mouse back to the computer.
It may only work over USB.
It may only work over USB, and is currently only supported on Linux.
Also see \fB\-\-hid\-keyboard\fR.
.TP
.B \-\-no\-cleanup
By default, scrcpy removes the server binary from the device and restores the device state (show touches, stay awake and power mode) on exit.
This option disables this cleanup.
.TP
.B \-\-no\-clipboard\-autosync
By default, scrcpy automatically synchronizes the computer clipboard to the device clipboard before injecting Ctrl+v, and the device clipboard to the computer clipboard whenever it changes.
@@ -190,7 +172,7 @@ LAlt, LSuper or RSuper toggle the mouse capture mode, to give control of the mou
If any of \fB\-\-hid\-keyboard\fR or \fB\-\-hid\-mouse\fR is set, only enable keyboard or mouse respectively, otherwise enable both.
It may only work over USB.
It may only work over USB, and is currently only supported on Linux.
See \fB\-\-hid\-keyboard\fR and \fB\-\-hid\-mouse\fR.
@@ -211,10 +193,6 @@ Inject alpha characters and space as text events instead of key events.
This avoids issues when combining multiple keys to enter special characters,
but breaks the expected behavior of alpha keys in games (typically WASD).
.TP
.B "\-\-print\-fps
Start FPS counter, to print framerate logs to the console. It can be started or stopped at any time with MOD+i.
.TP
.BI "\-\-push\-target " path
Set the target directory for pushing files to the device by drag & drop. It is passed as\-is to "adb push".

471
app/src/adb.c Normal file
View File

@@ -0,0 +1,471 @@
#include "adb.h"
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "adb_parser.h"
#include "util/file.h"
#include "util/log.h"
#include "util/process_intr.h"
#include "util/str.h"
static const char *adb_command;
static inline const char *
get_adb_command(void) {
if (!adb_command) {
adb_command = getenv("ADB");
if (!adb_command)
adb_command = "adb";
}
return adb_command;
}
// serialize argv to string "[arg1], [arg2], [arg3]"
static size_t
argv_to_string(const char *const *argv, char *buf, size_t bufsize) {
size_t idx = 0;
bool first = true;
while (*argv) {
const char *arg = *argv;
size_t len = strlen(arg);
// count space for "[], ...\0"
if (idx + len + 8 >= bufsize) {
// not enough space, truncate
assert(idx < bufsize - 4);
memcpy(&buf[idx], "...", 3);
idx += 3;
break;
}
if (first) {
first = false;
} else {
buf[idx++] = ',';
buf[idx++] = ' ';
}
buf[idx++] = '[';
memcpy(&buf[idx], arg, len);
idx += len;
buf[idx++] = ']';
argv++;
}
assert(idx < bufsize);
buf[idx] = '\0';
return idx;
}
static void
show_adb_installation_msg() {
#ifndef __WINDOWS__
static const struct {
const char *binary;
const char *command;
} pkg_managers[] = {
{"apt", "apt install adb"},
{"apt-get", "apt-get install adb"},
{"brew", "brew cask install android-platform-tools"},
{"dnf", "dnf install android-tools"},
{"emerge", "emerge dev-util/android-tools"},
{"pacman", "pacman -S android-tools"},
};
for (size_t i = 0; i < ARRAY_LEN(pkg_managers); ++i) {
if (sc_file_executable_exists(pkg_managers[i].binary)) {
LOGI("You may install 'adb' by \"%s\"", pkg_managers[i].command);
return;
}
}
#endif
LOGI("You may download and install 'adb' from "
"https://developer.android.com/studio/releases/platform-tools");
}
static void
show_adb_err_msg(enum sc_process_result err, const char *const argv[]) {
#define MAX_COMMAND_STRING_LEN 1024
char *buf = malloc(MAX_COMMAND_STRING_LEN);
if (!buf) {
LOG_OOM();
LOGE("Failed to execute");
return;
}
switch (err) {
case SC_PROCESS_ERROR_GENERIC:
argv_to_string(argv, buf, MAX_COMMAND_STRING_LEN);
LOGE("Failed to execute: %s", buf);
break;
case SC_PROCESS_ERROR_MISSING_BINARY:
argv_to_string(argv, buf, MAX_COMMAND_STRING_LEN);
LOGE("Command not found: %s", buf);
LOGE("(make 'adb' accessible from your PATH or define its full"
"path in the ADB environment variable)");
show_adb_installation_msg();
break;
case SC_PROCESS_SUCCESS:
// do nothing
break;
}
free(buf);
}
static bool
process_check_success_internal(sc_pid pid, const char *name, bool close,
unsigned flags) {
bool log_errors = !(flags & SC_ADB_NO_LOGERR);
if (pid == SC_PROCESS_NONE) {
if (log_errors) {
LOGE("Could not execute \"%s\"", name);
}
return false;
}
sc_exit_code exit_code = sc_process_wait(pid, close);
if (exit_code) {
if (log_errors) {
if (exit_code != SC_EXIT_CODE_NONE) {
LOGE("\"%s\" returned with value %" SC_PRIexitcode, name,
exit_code);
} else {
LOGE("\"%s\" exited unexpectedly", name);
}
}
return false;
}
return true;
}
static bool
process_check_success_intr(struct sc_intr *intr, sc_pid pid, const char *name,
unsigned flags) {
if (!sc_intr_set_process(intr, pid)) {
// Already interrupted
return false;
}
// Always pass close=false, interrupting would be racy otherwise
bool ret = process_check_success_internal(pid, name, false, flags);
sc_intr_set_process(intr, SC_PROCESS_NONE);
// Close separately
sc_process_close(pid);
return ret;
}
static const char **
adb_create_argv(const char *serial, const char *const adb_cmd[], size_t len) {
const char **argv = malloc((len + 4) * sizeof(*argv));
if (!argv) {
LOG_OOM();
return NULL;
}
argv[0] = get_adb_command();
int i;
if (serial) {
argv[1] = "-s";
argv[2] = serial;
i = 3;
} else {
i = 1;
}
memcpy(&argv[i], adb_cmd, len * sizeof(const char *));
argv[len + i] = NULL;
return argv;
}
static sc_pid
adb_execute_p(const char *serial, const char *const adb_cmd[], size_t len,
unsigned flags, sc_pipe *pout) {
const char **argv = adb_create_argv(serial, adb_cmd, len);
if (!argv) {
return SC_PROCESS_NONE;
}
unsigned process_flags = 0;
if (flags & SC_ADB_NO_STDOUT) {
process_flags |= SC_PROCESS_NO_STDOUT;
}
if (flags & SC_ADB_NO_STDERR) {
process_flags |= SC_PROCESS_NO_STDERR;
}
sc_pid pid;
enum sc_process_result r =
sc_process_execute_p(argv, &pid, process_flags, NULL, pout, NULL);
if (r != SC_PROCESS_SUCCESS) {
// If the execution itself failed (not the command exit code), log the
// error in all cases
show_adb_err_msg(r, argv);
pid = SC_PROCESS_NONE;
}
free(argv);
return pid;
}
sc_pid
adb_execute(const char *serial, const char *const adb_cmd[], size_t len,
unsigned flags) {
return adb_execute_p(serial, adb_cmd, len, flags, NULL);
}
bool
adb_forward(struct sc_intr *intr, const char *serial, uint16_t local_port,
const char *device_socket_name, unsigned flags) {
char local[4 + 5 + 1]; // tcp:PORT
char remote[108 + 14 + 1]; // localabstract:NAME
sprintf(local, "tcp:%" PRIu16, local_port);
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
const char *const adb_cmd[] = {"forward", local, remote};
sc_pid pid = adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd), flags);
return process_check_success_intr(intr, pid, "adb forward", flags);
}
bool
adb_forward_remove(struct sc_intr *intr, const char *serial,
uint16_t local_port, unsigned flags) {
char local[4 + 5 + 1]; // tcp:PORT
sprintf(local, "tcp:%" PRIu16, local_port);
const char *const adb_cmd[] = {"forward", "--remove", local};
sc_pid pid = adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd), flags);
return process_check_success_intr(intr, pid, "adb forward --remove", flags);
}
bool
adb_reverse(struct sc_intr *intr, const char *serial,
const char *device_socket_name, uint16_t local_port,
unsigned flags) {
char local[4 + 5 + 1]; // tcp:PORT
char remote[108 + 14 + 1]; // localabstract:NAME
sprintf(local, "tcp:%" PRIu16, local_port);
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
const char *const adb_cmd[] = {"reverse", remote, local};
sc_pid pid = adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd), flags);
return process_check_success_intr(intr, pid, "adb reverse", flags);
}
bool
adb_reverse_remove(struct sc_intr *intr, const char *serial,
const char *device_socket_name, unsigned flags) {
char remote[108 + 14 + 1]; // localabstract:NAME
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
const char *const adb_cmd[] = {"reverse", "--remove", remote};
sc_pid pid = adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd), flags);
return process_check_success_intr(intr, pid, "adb reverse --remove", flags);
}
bool
adb_push(struct sc_intr *intr, const char *serial, const char *local,
const char *remote, unsigned flags) {
#ifdef __WINDOWS__
// Windows will parse the string, so the paths must be quoted
// (see sys/win/command.c)
local = sc_str_quote(local);
if (!local) {
return SC_PROCESS_NONE;
}
remote = sc_str_quote(remote);
if (!remote) {
free((void *) local);
return SC_PROCESS_NONE;
}
#endif
const char *const adb_cmd[] = {"push", local, remote};
sc_pid pid = adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd), flags);
#ifdef __WINDOWS__
free((void *) remote);
free((void *) local);
#endif
return process_check_success_intr(intr, pid, "adb push", flags);
}
bool
adb_install(struct sc_intr *intr, const char *serial, const char *local,
unsigned flags) {
#ifdef __WINDOWS__
// Windows will parse the string, so the local name must be quoted
// (see sys/win/command.c)
local = sc_str_quote(local);
if (!local) {
return SC_PROCESS_NONE;
}
#endif
const char *const adb_cmd[] = {"install", "-r", local};
sc_pid pid = adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd), flags);
#ifdef __WINDOWS__
free((void *) local);
#endif
return process_check_success_intr(intr, pid, "adb install", flags);
}
bool
adb_tcpip(struct sc_intr *intr, const char *serial, uint16_t port,
unsigned flags) {
char port_string[5 + 1];
sprintf(port_string, "%" PRIu16, port);
const char *const adb_cmd[] = {"tcpip", port_string};
sc_pid pid = adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd), flags);
return process_check_success_intr(intr, pid, "adb tcpip", flags);
}
bool
adb_connect(struct sc_intr *intr, const char *ip_port, unsigned flags) {
const char *const adb_cmd[] = {"connect", ip_port};
sc_pipe pout;
sc_pid pid = adb_execute_p(NULL, adb_cmd, ARRAY_LEN(adb_cmd), flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGE("Could not execute \"adb connect\"");
return false;
}
// "adb connect" always returns successfully (with exit code 0), even in
// case of failure. As a workaround, check if its output starts with
// "connected".
char buf[128];
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, sizeof(buf));
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "adb connect", flags);
if (!ok) {
return false;
}
if (r == -1) {
return false;
}
ok = !strncmp("connected", buf, sizeof("connected") - 1);
if (!ok && !(flags & SC_ADB_NO_STDERR)) {
// "adb connect" also prints errors to stdout. Since we capture it,
// re-print the error to stderr.
sc_str_truncate(buf, r, "\r\n");
fprintf(stderr, "%s\n", buf);
}
return ok;
}
bool
adb_disconnect(struct sc_intr *intr, const char *ip_port, unsigned flags) {
const char *const adb_cmd[] = {"disconnect", ip_port};
size_t len = ip_port ? ARRAY_LEN(adb_cmd)
: ARRAY_LEN(adb_cmd) - 1;
sc_pid pid = adb_execute(NULL, adb_cmd, len, flags);
return process_check_success_intr(intr, pid, "adb disconnect", flags);
}
char *
adb_getprop(struct sc_intr *intr, const char *serial, const char *prop,
unsigned flags) {
const char *const adb_cmd[] = {"shell", "getprop", prop};
sc_pipe pout;
sc_pid pid =
adb_execute_p(serial, adb_cmd, ARRAY_LEN(adb_cmd), flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGE("Could not execute \"adb getprop\"");
return NULL;
}
char buf[128];
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, sizeof(buf));
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "adb getprop", flags);
if (!ok) {
return NULL;
}
if (r == -1) {
return NULL;
}
sc_str_truncate(buf, r, " \r\n");
return strdup(buf);
}
char *
adb_get_serialno(struct sc_intr *intr, unsigned flags) {
const char *const adb_cmd[] = {"get-serialno"};
sc_pipe pout;
sc_pid pid = adb_execute_p(NULL, adb_cmd, ARRAY_LEN(adb_cmd), flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGE("Could not execute \"adb get-serialno\"");
return NULL;
}
char buf[128];
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, sizeof(buf));
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "adb get-serialno", flags);
if (!ok) {
return NULL;
}
if (r == -1) {
return NULL;
}
sc_str_truncate(buf, r, " \r\n");
return strdup(buf);
}
char *
adb_get_device_ip(struct sc_intr *intr, const char *serial, unsigned flags) {
const char *const cmd[] = {"shell", "ip", "route"};
sc_pipe pout;
sc_pid pid = adb_execute_p(serial, cmd, ARRAY_LEN(cmd), flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGD("Could not execute \"ip route\"");
return NULL;
}
// "adb shell ip route" output should contain only a few lines
char buf[1024];
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, sizeof(buf));
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "ip route", flags);
if (!ok) {
return NULL;
}
if (r == -1) {
return NULL;
}
assert((size_t) r <= sizeof(buf));
if (r == sizeof(buf) && buf[sizeof(buf) - 1] != '\0') {
// The implementation assumes that the output of "ip route" fits in the
// buffer in a single pass
LOGW("Result of \"ip route\" does not fit in 1Kb. "
"Please report an issue.\n");
return NULL;
}
return sc_adb_parse_device_ip_from_output(buf, r);
}

94
app/src/adb.h Normal file
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@@ -0,0 +1,94 @@
#ifndef SC_ADB_H
#define SC_ADB_H
#include "common.h"
#include <stdbool.h>
#include <inttypes.h>
#include "util/intr.h"
#define SC_ADB_NO_STDOUT (1 << 0)
#define SC_ADB_NO_STDERR (1 << 1)
#define SC_ADB_NO_LOGERR (1 << 2)
#define SC_ADB_SILENT (SC_ADB_NO_STDOUT | SC_ADB_NO_STDERR | SC_ADB_NO_LOGERR)
sc_pid
adb_execute(const char *serial, const char *const adb_cmd[], size_t len,
unsigned flags);
bool
adb_forward(struct sc_intr *intr, const char *serial, uint16_t local_port,
const char *device_socket_name, unsigned flags);
bool
adb_forward_remove(struct sc_intr *intr, const char *serial,
uint16_t local_port, unsigned flags);
bool
adb_reverse(struct sc_intr *intr, const char *serial,
const char *device_socket_name, uint16_t local_port,
unsigned flags);
bool
adb_reverse_remove(struct sc_intr *intr, const char *serial,
const char *device_socket_name, unsigned flags);
bool
adb_push(struct sc_intr *intr, const char *serial, const char *local,
const char *remote, unsigned flags);
bool
adb_install(struct sc_intr *intr, const char *serial, const char *local,
unsigned flags);
/**
* Execute `adb tcpip <port>`
*/
bool
adb_tcpip(struct sc_intr *intr, const char *serial, uint16_t port,
unsigned flags);
/**
* Execute `adb connect <ip_port>`
*
* `ip_port` may not be NULL.
*/
bool
adb_connect(struct sc_intr *intr, const char *ip_port, unsigned flags);
/**
* Execute `adb disconnect [<ip_port>]`
*
* If `ip_port` is NULL, execute `adb disconnect`.
* Otherwise, execute `adb disconnect <ip_port>`.
*/
bool
adb_disconnect(struct sc_intr *intr, const char *ip_port, unsigned flags);
/**
* Execute `adb getprop <prop>`
*/
char *
adb_getprop(struct sc_intr *intr, const char *serial, const char *prop,
unsigned flags);
/**
* Execute `adb get-serialno`
*
* Return the result, to be freed by the caller, or NULL on error.
*/
char *
adb_get_serialno(struct sc_intr *intr, unsigned flags);
/**
* Attempt to retrieve the device IP
*
* Return the IP as a string of the form "xxx.xxx.xxx.xxx", to be freed by the
* caller, or NULL on error.
*/
char *
adb_get_device_ip(struct sc_intr *intr, const char *serial, unsigned flags);
#endif

712
app/src/adb/adb.c
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@@ -1,712 +0,0 @@
#include "adb.h"
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "adb_device.h"
#include "adb_parser.h"
#include "util/file.h"
#include "util/log.h"
#include "util/process_intr.h"
#include "util/str.h"
/* Convenience macro to expand:
*
* const char *const argv[] =
* SC_ADB_COMMAND("shell", "echo", "hello");
*
* to:
*
* const char *const argv[] =
* { sc_adb_get_executable(), "shell", "echo", "hello", NULL };
*/
#define SC_ADB_COMMAND(...) { sc_adb_get_executable(), __VA_ARGS__, NULL }
static const char *adb_executable;
const char *
sc_adb_get_executable(void) {
if (!adb_executable) {
adb_executable = getenv("ADB");
if (!adb_executable)
adb_executable = "adb";
}
return adb_executable;
}
// serialize argv to string "[arg1], [arg2], [arg3]"
static size_t
argv_to_string(const char *const *argv, char *buf, size_t bufsize) {
size_t idx = 0;
bool first = true;
while (*argv) {
const char *arg = *argv;
size_t len = strlen(arg);
// count space for "[], ...\0"
if (idx + len + 8 >= bufsize) {
// not enough space, truncate
assert(idx < bufsize - 4);
memcpy(&buf[idx], "...", 3);
idx += 3;
break;
}
if (first) {
first = false;
} else {
buf[idx++] = ',';
buf[idx++] = ' ';
}
buf[idx++] = '[';
memcpy(&buf[idx], arg, len);
idx += len;
buf[idx++] = ']';
argv++;
}
assert(idx < bufsize);
buf[idx] = '\0';
return idx;
}
static void
show_adb_installation_msg() {
#ifndef __WINDOWS__
static const struct {
const char *binary;
const char *command;
} pkg_managers[] = {
{"apt", "apt install adb"},
{"apt-get", "apt-get install adb"},
{"brew", "brew cask install android-platform-tools"},
{"dnf", "dnf install android-tools"},
{"emerge", "emerge dev-util/android-tools"},
{"pacman", "pacman -S android-tools"},
};
for (size_t i = 0; i < ARRAY_LEN(pkg_managers); ++i) {
if (sc_file_executable_exists(pkg_managers[i].binary)) {
LOGI("You may install 'adb' by \"%s\"", pkg_managers[i].command);
return;
}
}
#endif
}
static void
show_adb_err_msg(enum sc_process_result err, const char *const argv[]) {
#define MAX_COMMAND_STRING_LEN 1024
char *buf = malloc(MAX_COMMAND_STRING_LEN);
if (!buf) {
LOG_OOM();
LOGE("Failed to execute");
return;
}
switch (err) {
case SC_PROCESS_ERROR_GENERIC:
argv_to_string(argv, buf, MAX_COMMAND_STRING_LEN);
LOGE("Failed to execute: %s", buf);
break;
case SC_PROCESS_ERROR_MISSING_BINARY:
argv_to_string(argv, buf, MAX_COMMAND_STRING_LEN);
LOGE("Command not found: %s", buf);
LOGE("(make 'adb' accessible from your PATH or define its full"
"path in the ADB environment variable)");
show_adb_installation_msg();
break;
case SC_PROCESS_SUCCESS:
// do nothing
break;
}
free(buf);
}
static bool
process_check_success_internal(sc_pid pid, const char *name, bool close,
unsigned flags) {
bool log_errors = !(flags & SC_ADB_NO_LOGERR);
if (pid == SC_PROCESS_NONE) {
if (log_errors) {
LOGE("Could not execute \"%s\"", name);
}
return false;
}
sc_exit_code exit_code = sc_process_wait(pid, close);
if (exit_code) {
if (log_errors) {
if (exit_code != SC_EXIT_CODE_NONE) {
LOGE("\"%s\" returned with value %" SC_PRIexitcode, name,
exit_code);
} else {
LOGE("\"%s\" exited unexpectedly", name);
}
}
return false;
}
return true;
}
static bool
process_check_success_intr(struct sc_intr *intr, sc_pid pid, const char *name,
unsigned flags) {
if (intr && !sc_intr_set_process(intr, pid)) {
// Already interrupted
return false;
}
// Always pass close=false, interrupting would be racy otherwise
bool ret = process_check_success_internal(pid, name, false, flags);
if (intr) {
sc_intr_set_process(intr, SC_PROCESS_NONE);
}
// Close separately
sc_process_close(pid);
return ret;
}
static sc_pid
sc_adb_execute_p(const char *const argv[], unsigned flags, sc_pipe *pout) {
unsigned process_flags = 0;
if (flags & SC_ADB_NO_STDOUT) {
process_flags |= SC_PROCESS_NO_STDOUT;
}
if (flags & SC_ADB_NO_STDERR) {
process_flags |= SC_PROCESS_NO_STDERR;
}
sc_pid pid;
enum sc_process_result r =
sc_process_execute_p(argv, &pid, process_flags, NULL, pout, NULL);
if (r != SC_PROCESS_SUCCESS) {
// If the execution itself failed (not the command exit code), log the
// error in all cases
show_adb_err_msg(r, argv);
pid = SC_PROCESS_NONE;
}
return pid;
}
sc_pid
sc_adb_execute(const char *const argv[], unsigned flags) {
return sc_adb_execute_p(argv, flags, NULL);
}
bool
sc_adb_start_server(struct sc_intr *intr, unsigned flags) {
const char *const argv[] = SC_ADB_COMMAND("start-server");
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb start-server", flags);
}
bool
sc_adb_kill_server(struct sc_intr *intr, unsigned flags) {
const char *const argv[] = SC_ADB_COMMAND("kill-server");
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb kill-server", flags);
}
bool
sc_adb_forward(struct sc_intr *intr, const char *serial, uint16_t local_port,
const char *device_socket_name, unsigned flags) {
char local[4 + 5 + 1]; // tcp:PORT
char remote[108 + 14 + 1]; // localabstract:NAME
sprintf(local, "tcp:%" PRIu16, local_port);
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "forward", local, remote);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb forward", flags);
}
bool
sc_adb_forward_remove(struct sc_intr *intr, const char *serial,
uint16_t local_port, unsigned flags) {
char local[4 + 5 + 1]; // tcp:PORT
sprintf(local, "tcp:%" PRIu16, local_port);
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "forward", "--remove", local);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb forward --remove", flags);
}
bool
sc_adb_reverse(struct sc_intr *intr, const char *serial,
const char *device_socket_name, uint16_t local_port,
unsigned flags) {
char local[4 + 5 + 1]; // tcp:PORT
char remote[108 + 14 + 1]; // localabstract:NAME
sprintf(local, "tcp:%" PRIu16, local_port);
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "reverse", remote, local);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb reverse", flags);
}
bool
sc_adb_reverse_remove(struct sc_intr *intr, const char *serial,
const char *device_socket_name, unsigned flags) {
char remote[108 + 14 + 1]; // localabstract:NAME
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "reverse", "--remove", remote);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb reverse --remove", flags);
}
bool
sc_adb_push(struct sc_intr *intr, const char *serial, const char *local,
const char *remote, unsigned flags) {
#ifdef __WINDOWS__
// Windows will parse the string, so the paths must be quoted
// (see sys/win/command.c)
local = sc_str_quote(local);
if (!local) {
return SC_PROCESS_NONE;
}
remote = sc_str_quote(remote);
if (!remote) {
free((void *) local);
return SC_PROCESS_NONE;
}
#endif
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "push", local, remote);
sc_pid pid = sc_adb_execute(argv, flags);
#ifdef __WINDOWS__
free((void *) remote);
free((void *) local);
#endif
return process_check_success_intr(intr, pid, "adb push", flags);
}
bool
sc_adb_install(struct sc_intr *intr, const char *serial, const char *local,
unsigned flags) {
#ifdef __WINDOWS__
// Windows will parse the string, so the local name must be quoted
// (see sys/win/command.c)
local = sc_str_quote(local);
if (!local) {
return SC_PROCESS_NONE;
}
#endif
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "install", "-r", local);
sc_pid pid = sc_adb_execute(argv, flags);
#ifdef __WINDOWS__
free((void *) local);
#endif
return process_check_success_intr(intr, pid, "adb install", flags);
}
bool
sc_adb_tcpip(struct sc_intr *intr, const char *serial, uint16_t port,
unsigned flags) {
char port_string[5 + 1];
sprintf(port_string, "%" PRIu16, port);
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "tcpip", port_string);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb tcpip", flags);
}
bool
sc_adb_connect(struct sc_intr *intr, const char *ip_port, unsigned flags) {
const char *const argv[] = SC_ADB_COMMAND("connect", ip_port);
sc_pipe pout;
sc_pid pid = sc_adb_execute_p(argv, flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGE("Could not execute \"adb connect\"");
return false;
}
// "adb connect" always returns successfully (with exit code 0), even in
// case of failure. As a workaround, check if its output starts with
// "connected".
char buf[128];
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, sizeof(buf) - 1);
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "adb connect", flags);
if (!ok) {
return false;
}
if (r == -1) {
return false;
}
assert((size_t) r < sizeof(buf));
buf[r] = '\0';
ok = !strncmp("connected", buf, sizeof("connected") - 1);
if (!ok && !(flags & SC_ADB_NO_STDERR)) {
// "adb connect" also prints errors to stdout. Since we capture it,
// re-print the error to stderr.
size_t len = strcspn(buf, "\r\n");
buf[len] = '\0';
fprintf(stderr, "%s\n", buf);
}
return ok;
}
bool
sc_adb_disconnect(struct sc_intr *intr, const char *ip_port, unsigned flags) {
assert(ip_port);
const char *const argv[] = SC_ADB_COMMAND("disconnect", ip_port);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb disconnect", flags);
}
static bool
sc_adb_list_devices(struct sc_intr *intr, unsigned flags,
struct sc_vec_adb_devices *out_vec) {
const char *const argv[] = SC_ADB_COMMAND("devices", "-l");
#define BUFSIZE 65536
char *buf = malloc(BUFSIZE);
if (!buf) {
return false;
}
sc_pipe pout;
sc_pid pid = sc_adb_execute_p(argv, flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGE("Could not execute \"adb devices -l\"");
free(buf);
return false;
}
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, BUFSIZE - 1);
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "adb devices -l", flags);
if (!ok) {
free(buf);
return false;
}
if (r == -1) {
free(buf);
return false;
}
assert((size_t) r < BUFSIZE);
if (r == BUFSIZE - 1) {
// The implementation assumes that the output of "adb devices -l" fits
// in the buffer in a single pass
LOGW("Result of \"adb devices -l\" does not fit in 64Kb. "
"Please report an issue.");
return false;
}
// It is parsed as a NUL-terminated string
buf[r] = '\0';
// List all devices to the output list directly
ok = sc_adb_parse_devices(buf, out_vec);
free(buf);
return ok;
}
static bool
sc_adb_accept_device(const struct sc_adb_device *device,
const struct sc_adb_device_selector *selector) {
switch (selector->type) {
case SC_ADB_DEVICE_SELECT_ALL:
return true;
case SC_ADB_DEVICE_SELECT_SERIAL:
assert(selector->serial);
char *device_serial_colon = strchr(device->serial, ':');
if (device_serial_colon) {
// The device serial is an IP:port...
char *serial_colon = strchr(selector->serial, ':');
if (!serial_colon) {
// But the requested serial has no ':', so only consider
// the IP part of the device serial. This allows to use
// "192.168.1.1" to match any "192.168.1.1:port".
size_t serial_len = strlen(selector->serial);
size_t device_ip_len = device_serial_colon - device->serial;
if (serial_len != device_ip_len) {
// They are not equal, they don't even have the same
// length
return false;
}
return !strncmp(selector->serial, device->serial,
device_ip_len);
}
}
return !strcmp(selector->serial, device->serial);
case SC_ADB_DEVICE_SELECT_USB:
return !sc_adb_is_serial_tcpip(device->serial);
case SC_ADB_DEVICE_SELECT_TCPIP:
return sc_adb_is_serial_tcpip(device->serial);
default:
assert(!"Missing SC_ADB_DEVICE_SELECT_* handling");
break;
}
return false;
}
static size_t
sc_adb_devices_select(struct sc_adb_device *devices, size_t len,
const struct sc_adb_device_selector *selector,
size_t *idx_out) {
size_t count = 0;
for (size_t i = 0; i < len; ++i) {
struct sc_adb_device *device = &devices[i];
device->selected = sc_adb_accept_device(device, selector);
if (device->selected) {
if (idx_out && !count) {
*idx_out = i;
}
++count;
}
}
return count;
}
static void
sc_adb_devices_log(enum sc_log_level level, struct sc_adb_device *devices,
size_t count) {
for (size_t i = 0; i < count; ++i) {
struct sc_adb_device *d = &devices[i];
const char *selection = d->selected ? "-->" : " ";
const char *type = sc_adb_is_serial_tcpip(d->serial) ? "(tcpip)"
: " (usb)";
LOG(level, " %s %s %-20s %16s %s",
selection, type, d->serial, d->state, d->model ? d->model : "");
}
}
static bool
sc_adb_device_check_state(struct sc_adb_device *device,
struct sc_adb_device *devices, size_t count) {
const char *state = device->state;
if (!strcmp("device", state)) {
return true;
}
if (!strcmp("unauthorized", state)) {
LOGE("Device is unauthorized:");
sc_adb_devices_log(SC_LOG_LEVEL_ERROR, devices, count);
LOGE("A popup should open on the device to request authorization.");
LOGE("Check the FAQ: "
"<https://github.com/Genymobile/scrcpy/blob/master/FAQ.md>");
}
return false;
}
bool
sc_adb_select_device(struct sc_intr *intr,
const struct sc_adb_device_selector *selector,
unsigned flags, struct sc_adb_device *out_device) {
struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_adb_list_devices(intr, flags, &vec);
if (!ok) {
LOGE("Could not list ADB devices");
return false;
}
if (vec.size == 0) {
LOGE("Could not find any ADB device");
return false;
}
size_t sel_idx; // index of the single matching device if sel_count == 1
size_t sel_count =
sc_adb_devices_select(vec.data, vec.size, selector, &sel_idx);
if (sel_count == 0) {
// if count > 0 && sel_count == 0, then necessarily a selection is
// requested
assert(selector->type != SC_ADB_DEVICE_SELECT_ALL);
switch (selector->type) {
case SC_ADB_DEVICE_SELECT_SERIAL:
assert(selector->serial);
LOGE("Could not find ADB device %s:", selector->serial);
break;
case SC_ADB_DEVICE_SELECT_USB:
LOGE("Could not find any ADB device over USB:");
break;
case SC_ADB_DEVICE_SELECT_TCPIP:
LOGE("Could not find any ADB device over TCP/IP:");
break;
default:
assert(!"Unexpected selector type");
break;
}
sc_adb_devices_log(SC_LOG_LEVEL_ERROR, vec.data, vec.size);
sc_adb_devices_destroy(&vec);
return false;
}
if (sel_count > 1) {
switch (selector->type) {
case SC_ADB_DEVICE_SELECT_ALL:
LOGE("Multiple (%" SC_PRIsizet ") ADB devices:", sel_count);
break;
case SC_ADB_DEVICE_SELECT_SERIAL:
assert(selector->serial);
LOGE("Multiple (%" SC_PRIsizet ") ADB devices with serial %s:",
sel_count, selector->serial);
break;
case SC_ADB_DEVICE_SELECT_USB:
LOGE("Multiple (%" SC_PRIsizet ") ADB devices over USB:",
sel_count);
break;
case SC_ADB_DEVICE_SELECT_TCPIP:
LOGE("Multiple (%" SC_PRIsizet ") ADB devices over TCP/IP:",
sel_count);
break;
default:
assert(!"Unexpected selector type");
break;
}
sc_adb_devices_log(SC_LOG_LEVEL_ERROR, vec.data, vec.size);
LOGE("Select a device via -s (--serial), -d (--select-usb) or -e "
"(--select-tcpip)");
sc_adb_devices_destroy(&vec);
return false;
}
assert(sel_count == 1); // sel_idx is valid only if sel_count == 1
struct sc_adb_device *device = &vec.data[sel_idx];
ok = sc_adb_device_check_state(device, vec.data, vec.size);
if (!ok) {
sc_adb_devices_destroy(&vec);
return false;
}
LOGD("ADB device found:");
sc_adb_devices_log(SC_LOG_LEVEL_DEBUG, vec.data, vec.size);
// Move devics into out_device (do not destroy device)
sc_adb_device_move(out_device, device);
sc_adb_devices_destroy(&vec);
return true;
}
char *
sc_adb_getprop(struct sc_intr *intr, const char *serial, const char *prop,
unsigned flags) {
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "shell", "getprop", prop);
sc_pipe pout;
sc_pid pid = sc_adb_execute_p(argv, flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGE("Could not execute \"adb getprop\"");
return NULL;
}
char buf[128];
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, sizeof(buf) - 1);
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "adb getprop", flags);
if (!ok) {
return NULL;
}
if (r == -1) {
return NULL;
}
assert((size_t) r < sizeof(buf));
buf[r] = '\0';
size_t len = strcspn(buf, " \r\n");
buf[len] = '\0';
return strdup(buf);
}
char *
sc_adb_get_device_ip(struct sc_intr *intr, const char *serial, unsigned flags) {
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "shell", "ip", "route");
sc_pipe pout;
sc_pid pid = sc_adb_execute_p(argv, flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGD("Could not execute \"ip route\"");
return NULL;
}
// "adb shell ip route" output should contain only a few lines
char buf[1024];
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, sizeof(buf) - 1);
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "ip route", flags);
if (!ok) {
return NULL;
}
if (r == -1) {
return NULL;
}
assert((size_t) r < sizeof(buf));
if (r == sizeof(buf) - 1) {
// The implementation assumes that the output of "ip route" fits in the
// buffer in a single pass
LOGW("Result of \"ip route\" does not fit in 1Kb. "
"Please report an issue.");
return NULL;
}
// It is parsed as a NUL-terminated string
buf[r] = '\0';
return sc_adb_parse_device_ip_from_output(buf);
}
bool
sc_adb_is_serial_tcpip(const char *serial) {
return strchr(serial, ':');
}

126
app/src/adb/adb.h
View File

@@ -1,126 +0,0 @@
#ifndef SC_ADB_H
#define SC_ADB_H
#include "common.h"
#include <stdbool.h>
#include <inttypes.h>
#include "adb_device.h"
#include "util/intr.h"
#define SC_ADB_NO_STDOUT (1 << 0)
#define SC_ADB_NO_STDERR (1 << 1)
#define SC_ADB_NO_LOGERR (1 << 2)
#define SC_ADB_SILENT (SC_ADB_NO_STDOUT | SC_ADB_NO_STDERR | SC_ADB_NO_LOGERR)
const char *
sc_adb_get_executable(void);
enum sc_adb_device_selector_type {
SC_ADB_DEVICE_SELECT_ALL,
SC_ADB_DEVICE_SELECT_SERIAL,
SC_ADB_DEVICE_SELECT_USB,
SC_ADB_DEVICE_SELECT_TCPIP,
};
struct sc_adb_device_selector {
enum sc_adb_device_selector_type type;
const char *serial;
};
sc_pid
sc_adb_execute(const char *const argv[], unsigned flags);
bool
sc_adb_start_server(struct sc_intr *intr, unsigned flags);
bool
sc_adb_kill_server(struct sc_intr *intr, unsigned flags);
bool
sc_adb_forward(struct sc_intr *intr, const char *serial, uint16_t local_port,
const char *device_socket_name, unsigned flags);
bool
sc_adb_forward_remove(struct sc_intr *intr, const char *serial,
uint16_t local_port, unsigned flags);
bool
sc_adb_reverse(struct sc_intr *intr, const char *serial,
const char *device_socket_name, uint16_t local_port,
unsigned flags);
bool
sc_adb_reverse_remove(struct sc_intr *intr, const char *serial,
const char *device_socket_name, unsigned flags);
bool
sc_adb_push(struct sc_intr *intr, const char *serial, const char *local,
const char *remote, unsigned flags);
bool
sc_adb_install(struct sc_intr *intr, const char *serial, const char *local,
unsigned flags);
/**
* Execute `adb tcpip <port>`
*/
bool
sc_adb_tcpip(struct sc_intr *intr, const char *serial, uint16_t port,
unsigned flags);
/**
* Execute `adb connect <ip_port>`
*
* `ip_port` may not be NULL.
*/
bool
sc_adb_connect(struct sc_intr *intr, const char *ip_port, unsigned flags);
/**
* Execute `adb disconnect [<ip_port>]`
*
* If `ip_port` is NULL, execute `adb disconnect`.
* Otherwise, execute `adb disconnect <ip_port>`.
*/
bool
sc_adb_disconnect(struct sc_intr *intr, const char *ip_port, unsigned flags);
/**
* Execute `adb devices` and parse the result to select a device
*
* Return true if a single matching device is found, and write it to out_device.
*/
bool
sc_adb_select_device(struct sc_intr *intr,
const struct sc_adb_device_selector *selector,
unsigned flags, struct sc_adb_device *out_device);
/**
* Execute `adb getprop <prop>`
*/
char *
sc_adb_getprop(struct sc_intr *intr, const char *serial, const char *prop,
unsigned flags);
/**
* Attempt to retrieve the device IP
*
* Return the IP as a string of the form "xxx.xxx.xxx.xxx", to be freed by the
* caller, or NULL on error.
*/
char *
sc_adb_get_device_ip(struct sc_intr *intr, const char *serial, unsigned flags);
/**
* Indicate if the serial represents an IP address
*
* In practice, it just returns true if and only if it contains a ':', which is
* sufficient to distinguish an ip:port from a real USB serial.
*/
bool
sc_adb_is_serial_tcpip(const char *serial);
#endif

27
app/src/adb/adb_device.c
View File

@@ -1,27 +0,0 @@
#include "adb_device.h"
#include <stdlib.h>
void
sc_adb_device_destroy(struct sc_adb_device *device) {
free(device->serial);
free(device->state);
free(device->model);
}
void
sc_adb_device_move(struct sc_adb_device *dst, struct sc_adb_device *src) {
*dst = *src;
src->serial = NULL;
src->state = NULL;
src->model = NULL;
}
void
sc_adb_devices_destroy(struct sc_vec_adb_devices *devices) {
for (size_t i = 0; i < devices->size; ++i) {
sc_adb_device_destroy(&devices->data[i]);
}
sc_vector_destroy(devices);
}

38
app/src/adb/adb_device.h
View File

@@ -1,38 +0,0 @@
#ifndef SC_ADB_DEVICE_H
#define SC_ADB_DEVICE_H
#include "common.h"
#include <stdbool.h>
#include <stddef.h>
#include "util/vector.h"
struct sc_adb_device {
char *serial;
char *state;
char *model;
bool selected;
};
struct sc_vec_adb_devices SC_VECTOR(struct sc_adb_device);
void
sc_adb_device_destroy(struct sc_adb_device *device);
/**
* Move src to dst
*
* After this call, the content of src is undefined, except that
* sc_adb_device_destroy() can be called.
*
* This is useful to take a device from a list that will be destroyed, without
* making unnecessary copies.
*/
void
sc_adb_device_move(struct sc_adb_device *dst, struct sc_adb_device *src);
void
sc_adb_devices_destroy(struct sc_vec_adb_devices *devices);
#endif

227
app/src/adb/adb_parser.c
View File

@@ -1,227 +0,0 @@
#include "adb_parser.h"
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include "util/log.h"
#include "util/str.h"
bool
sc_adb_parse_device(char *line, struct sc_adb_device *device) {
// One device line looks like:
// "0123456789abcdef device usb:2-1 product:MyProduct model:MyModel "
// "device:MyDevice transport_id:1"
if (line[0] == '*') {
// Garbage lines printed by adb daemon while starting start with a '*'
return false;
}
if (!strncmp("adb server", line, sizeof("adb server") - 1)) {
// Ignore lines starting with "adb server":
// adb server version (41) doesn't match this client (39); killing...
return false;
}
char *s = line; // cursor in the line
// After the serial:
// - "adb devices" writes a single '\t'
// - "adb devices -l" writes multiple spaces
// For flexibility, accept both.
size_t serial_len = strcspn(s, " \t");
if (!serial_len) {
// empty serial
return false;
}
bool eol = s[serial_len] == '\0';
if (eol) {
// serial alone is unexpected
return false;
}
s[serial_len] = '\0';
char *serial = s;
s += serial_len + 1;
// After the serial, there might be several spaces
s += strspn(s, " \t"); // consume all separators
size_t state_len = strcspn(s, " ");
if (!state_len) {
// empty state
return false;
}
eol = s[state_len] == '\0';
s[state_len] = '\0';
char *state = s;
char *model = NULL;
if (!eol) {
s += state_len + 1;
// Iterate over all properties "key:value key:value ..."
for (;;) {
size_t token_len = strcspn(s, " ");
if (!token_len) {
break;
}
eol = s[token_len] == '\0';
s[token_len] = '\0';
char *token = s;
if (!strncmp("model:", token, sizeof("model:") - 1)) {
model = &token[sizeof("model:") - 1];
// We only need the model
break;
}
if (eol) {
break;
} else {
s+= token_len + 1;
}
}
}
device->serial = strdup(serial);
if (!device->serial) {
return false;
}
device->state = strdup(state);
if (!device->state) {
free(device->serial);
return false;
}
if (model) {
device->model = strdup(model);
if (!device->model) {
LOG_OOM();
// model is optional, do not fail
}
} else {
device->model = NULL;
}
device->selected = false;
return true;
}
bool
sc_adb_parse_devices(char *str, struct sc_vec_adb_devices *out_vec) {
#define HEADER "List of devices attached"
#define HEADER_LEN (sizeof(HEADER) - 1)
bool header_found = false;
size_t idx_line = 0;
while (str[idx_line] != '\0') {
char *line = &str[idx_line];
size_t len = strcspn(line, "\n");
// The next line starts after the '\n' (replaced by `\0`)
idx_line += len;
if (str[idx_line] != '\0') {
// The next line starts after the '\n'
++idx_line;
}
if (!header_found) {
if (!strncmp(line, HEADER, HEADER_LEN)) {
header_found = true;
}
// Skip everything until the header, there might be garbage lines
// related to daemon starting before
continue;
}
// The line, but without any trailing '\r'
size_t line_len = sc_str_remove_trailing_cr(line, len);
line[line_len] = '\0';
struct sc_adb_device device;
bool ok = sc_adb_parse_device(line, &device);
if (!ok) {
continue;
}
ok = sc_vector_push(out_vec, device);
if (!ok) {
LOG_OOM();
LOGE("Could not push adb_device to vector");
sc_adb_device_destroy(&device);
// continue anyway
continue;
}
}
assert(header_found || out_vec->size == 0);
return header_found;
}
static char *
sc_adb_parse_device_ip_from_line(char *line) {
// One line from "ip route" looks like:
// "192.168.1.0/24 dev wlan0 proto kernel scope link src 192.168.1.x"
// Get the location of the device name (index of "wlan0" in the example)
ssize_t idx_dev_name = sc_str_index_of_column(line, 2, " ");
if (idx_dev_name == -1) {
return NULL;
}
// Get the location of the ip address (column 8, but column 6 if we start
// from column 2). Must be computed before truncating individual columns.
ssize_t idx_ip = sc_str_index_of_column(&line[idx_dev_name], 6, " ");
if (idx_ip == -1) {
return NULL;
}
// idx_ip is searched from &line[idx_dev_name]
idx_ip += idx_dev_name;
char *dev_name = &line[idx_dev_name];
size_t dev_name_len = strcspn(dev_name, " \t");
dev_name[dev_name_len] = '\0';
char *ip = &line[idx_ip];
size_t ip_len = strcspn(ip, " \t");
ip[ip_len] = '\0';
// Only consider lines where the device name starts with "wlan"
if (strncmp(dev_name, "wlan", sizeof("wlan") - 1)) {
LOGD("Device ip lookup: ignoring %s (%s)", ip, dev_name);
return NULL;
}
return strdup(ip);
}
char *
sc_adb_parse_device_ip_from_output(char *str) {
size_t idx_line = 0;
while (str[idx_line] != '\0') {
char *line = &str[idx_line];
size_t len = strcspn(line, "\n");
// The same, but without any trailing '\r'
size_t line_len = sc_str_remove_trailing_cr(line, len);
line[line_len] = '\0';
char *ip = sc_adb_parse_device_ip_from_line(line);
if (ip) {
// Found
return ip;
}
idx_line += len;
if (str[idx_line] != '\0') {
// The next line starts after the '\n'
++idx_line;
}
}
return NULL;
}

30
app/src/adb/adb_parser.h
View File

@@ -1,30 +0,0 @@
#ifndef SC_ADB_PARSER_H
#define SC_ADB_PARSER_H
#include "common.h"
#include <stddef.h>
#include "adb_device.h"
/**
* Parse the available devices from the output of `adb devices`
*
* The parameter must be a NUL-terminated string.
*
* Warning: this function modifies the buffer for optimization purposes.
*/
bool
sc_adb_parse_devices(char *str, struct sc_vec_adb_devices *out_vec);
/**
* Parse the ip from the output of `adb shell ip route`
*
* The parameter must be a NUL-terminated string.
*
* Warning: this function modifies the buffer for optimization purposes.
*/
char *
sc_adb_parse_device_ip_from_output(char *str);
#endif

65
app/src/adb_parser.c Normal file
View File

@@ -0,0 +1,65 @@
#include "adb_parser.h"
#include <assert.h>
#include <string.h>
#include "util/log.h"
#include "util/str.h"
static char *
sc_adb_parse_device_ip_from_line(char *line, size_t len) {
// One line from "ip route" looks lile:
// "192.168.1.0/24 dev wlan0 proto kernel scope link src 192.168.1.x"
// Get the location of the device name (index of "wlan0" in the example)
ssize_t idx_dev_name = sc_str_index_of_column(line, 2, " ");
if (idx_dev_name == -1) {
return NULL;
}
// Get the location of the ip address (column 8, but column 6 if we start
// from column 2). Must be computed before truncating individual columns.
ssize_t idx_ip = sc_str_index_of_column(&line[idx_dev_name], 6, " ");
if (idx_ip == -1) {
return NULL;
}
// idx_ip is searched from &line[idx_dev_name]
idx_ip += idx_dev_name;
char *dev_name = &line[idx_dev_name];
sc_str_truncate(dev_name, len - idx_dev_name + 1, " \t");
char *ip = &line[idx_ip];
sc_str_truncate(ip, len - idx_ip + 1, " \t");
// Only consider lines where the device name starts with "wlan"
if (strncmp(dev_name, "wlan", sizeof("wlan") - 1)) {
LOGD("Device ip lookup: ignoring %s (%s)", ip, dev_name);
return NULL;
}
return strdup(ip);
}
char *
sc_adb_parse_device_ip_from_output(char *buf, size_t buf_len) {
size_t idx_line = 0;
while (idx_line < buf_len && buf[idx_line] != '\0') {
char *line = &buf[idx_line];
size_t len = sc_str_truncate(line, buf_len - idx_line, "\n");
// The same, but without any trailing '\r'
size_t line_len = sc_str_remove_trailing_cr(line, len);
char *ip = sc_adb_parse_device_ip_from_line(line, line_len);
if (ip) {
// Found
return ip;
}
// The next line starts after the '\n' (replaced by `\0`)
idx_line += len + 1;
}
return NULL;
}

14
app/src/adb_parser.h Normal file
View File

@@ -0,0 +1,14 @@
#ifndef SC_ADB_PARSER_H
#define SC_ADB_PARSER_H
#include "common.h"
#include "stddef.h"
/**
* Parse the ip from the output of `adb shell ip route`
*/
char *
sc_adb_parse_device_ip_from_output(char *buf, size_t buf_len);
#endif

17
app/src/adb/adb_tunnel.c → app/src/adb_tunnel.c
View File

@@ -20,8 +20,8 @@ enable_tunnel_reverse_any_port(struct sc_adb_tunnel *tunnel,
struct sc_port_range port_range) {
uint16_t port = port_range.first;
for (;;) {
if (!sc_adb_reverse(intr, serial, SC_SOCKET_NAME, port,
SC_ADB_NO_STDOUT)) {
if (!adb_reverse(intr, serial, SC_SOCKET_NAME, port,
SC_ADB_NO_STDOUT)) {
// the command itself failed, it will fail on any port
return false;
}
@@ -52,7 +52,7 @@ enable_tunnel_reverse_any_port(struct sc_adb_tunnel *tunnel,
}
// failure, disable tunnel and try another port
if (!sc_adb_reverse_remove(intr, serial, SC_SOCKET_NAME,
if (!adb_reverse_remove(intr, serial, SC_SOCKET_NAME,
SC_ADB_NO_STDOUT)) {
LOGW("Could not remove reverse tunnel on port %" PRIu16, port);
}
@@ -83,8 +83,7 @@ enable_tunnel_forward_any_port(struct sc_adb_tunnel *tunnel,
uint16_t port = port_range.first;
for (;;) {
if (sc_adb_forward(intr, serial, port, SC_SOCKET_NAME,
SC_ADB_NO_STDOUT)) {
if (adb_forward(intr, serial, port, SC_SOCKET_NAME, SC_ADB_NO_STDOUT)) {
// success
tunnel->local_port = port;
tunnel->enabled = true;
@@ -149,11 +148,11 @@ sc_adb_tunnel_close(struct sc_adb_tunnel *tunnel, struct sc_intr *intr,
bool ret;
if (tunnel->forward) {
ret = sc_adb_forward_remove(intr, serial, tunnel->local_port,
SC_ADB_NO_STDOUT);
ret = adb_forward_remove(intr, serial, tunnel->local_port,
SC_ADB_NO_STDOUT);
} else {
ret = sc_adb_reverse_remove(intr, serial, SC_SOCKET_NAME,
SC_ADB_NO_STDOUT);
ret = adb_reverse_remove(intr, serial, SC_SOCKET_NAME,
SC_ADB_NO_STDOUT);
assert(tunnel->server_socket != SC_SOCKET_NONE);
if (!net_close(tunnel->server_socket)) {

0
app/src/adb/adb_tunnel.h → app/src/adb_tunnel.h
View File

105
app/src/cli.c
View File

@@ -54,8 +54,6 @@
#define OPT_RAW_KEY_EVENTS 1034
#define OPT_NO_DOWNSIZE_ON_ERROR 1035
#define OPT_OTG 1036
#define OPT_NO_CLEANUP 1037
#define OPT_PRINT_FPS 1038
struct sc_option {
char shortopt;
@@ -118,13 +116,7 @@ static const struct sc_option options[] = {
.text = "Crop the device screen on the server.\n"
"The values are expressed in the device natural orientation "
"(typically, portrait for a phone, landscape for a tablet). "
"Any --max-size value is computed on the cropped size.",
},
{
.shortopt = 'd',
.longopt = "select-usb",
.text = "Use USB device (if there is exactly one, like adb -d).\n"
"Also see -e (--select-tcpip).",
"Any --max-size value is cmoputed on the cropped size.",
},
{
.longopt_id = OPT_DISABLE_SCREENSAVER,
@@ -149,12 +141,6 @@ static const struct sc_option options[] = {
"This increases latency to compensate for jitter.\n"
"Default is 0 (no buffering).",
},
{
.shortopt = 'e',
.longopt = "select-tcpip",
.text = "Use TCP/IP device (if there is exactly one, like adb -e).\n"
"Also see -d (--select-usb).",
},
{
.longopt_id = OPT_ENCODER_NAME,
.longopt = "encoder",
@@ -186,7 +172,8 @@ static const struct sc_option options[] = {
"It provides a better experience for IME users, and allows to "
"generate non-ASCII characters, contrary to the default "
"injection method.\n"
"It may only work over USB.\n"
"It may only work over USB, and is currently only supported "
"on Linux.\n"
"The keyboard layout must be configured (once and for all) on "
"the device, via Settings -> System -> Languages and input -> "
"Physical keyboard. This settings page can be started "
@@ -238,7 +225,8 @@ static const struct sc_option options[] = {
"device directly (relative mouse mode).\n"
"LAlt, LSuper or RSuper toggle the capture mode, to give "
"control of the mouse back to the computer.\n"
"It may only work over USB.\n"
"It may only work over USB, and is currently only supported "
"on Linux.\n"
"Also see --hid-keyboard.",
},
{
@@ -251,12 +239,11 @@ static const struct sc_option options[] = {
"Default is 0 (unlimited).",
},
{
.longopt_id = OPT_NO_CLEANUP,
.longopt = "no-cleanup",
.text = "By default, scrcpy removes the server binary from the device "
"and restores the device state (show touches, stay awake and "
"power mode) on exit.\n"
"This option disables this cleanup."
.longopt_id = OPT_NO_DOWNSIZE_ON_ERROR,
.longopt = "no-downsize-on-error",
.text = "By default, on MediaCodec error, scrcpy automatically tries "
"again with a lower definition.\n"
"This option disables this behavior.",
},
{
.longopt_id = OPT_NO_CLIPBOARD_AUTOSYNC,
@@ -267,13 +254,6 @@ static const struct sc_option options[] = {
"it changes.\n"
"This option disables this automatic synchronization."
},
{
.longopt_id = OPT_NO_DOWNSIZE_ON_ERROR,
.longopt = "no-downsize-on-error",
.text = "By default, on MediaCodec error, scrcpy automatically tries "
"again with a lower definition.\n"
"This option disables this behavior.",
},
{
.shortopt = 'n',
.longopt = "no-control",
@@ -308,8 +288,9 @@ static const struct sc_option options[] = {
"LAlt, LSuper or RSuper toggle the mouse capture mode, to give "
"control of the mouse back to the computer.\n"
"If any of --hid-keyboard or --hid-mouse is set, only enable "
"keyboard or mouse respectively, otherwise enable both.\n"
"It may only work over USB.\n"
"keyboard or mouse respectively, otherwise enable both."
"It may only work over USB, and is currently only supported "
"on Linux.\n"
"See --hid-keyboard and --hid-mouse.",
},
{
@@ -328,18 +309,12 @@ static const struct sc_option options[] = {
{
.longopt_id = OPT_PREFER_TEXT,
.longopt = "prefer-text",
.text = "Inject alpha characters and space as text events instead of "
.text = "Inject alpha characters and space as text events instead of"
"key events.\n"
"This avoids issues when combining multiple keys to enter a "
"special character, but breaks the expected behavior of alpha "
"keys in games (typically WASD).",
},
{
.longopt_id = OPT_PRINT_FPS,
.longopt = "print-fps",
.text = "Start FPS counter, to print framerate logs to the console. "
"It can be started or stopped at any time with MOD+i.",
},
{
.longopt_id = OPT_PUSH_TARGET,
.longopt = "push-target",
@@ -1345,12 +1320,6 @@ parse_args_with_getopt(struct scrcpy_cli_args *args, int argc, char *argv[],
return false;
}
break;
case 'd':
opts->select_usb = true;
break;
case 'e':
opts->select_tcpip = true;
break;
case 'f':
opts->fullscreen = true;
break;
@@ -1370,7 +1339,8 @@ parse_args_with_getopt(struct scrcpy_cli_args *args, int argc, char *argv[],
opts->keyboard_input_mode = SC_KEYBOARD_INPUT_MODE_HID;
break;
#else
LOGE("HID over AOA (-K/--hid-keyboard) is disabled.");
LOGE("HID over AOA (-K/--hid-keyboard) is not supported on "
"this platform. It is only available on Linux.");
return false;
#endif
case OPT_MAX_FPS:
@@ -1388,7 +1358,8 @@ parse_args_with_getopt(struct scrcpy_cli_args *args, int argc, char *argv[],
opts->mouse_input_mode = SC_MOUSE_INPUT_MODE_HID;
break;
#else
LOGE("HID over AOA (-M/--hid-mouse) is disabled.");
LOGE("HID over AOA (-M/--hid-mouse) is not supported on this"
"platform. It is only available on Linux.");
return false;
#endif
case OPT_LOCK_VIDEO_ORIENTATION:
@@ -1546,18 +1517,13 @@ parse_args_with_getopt(struct scrcpy_cli_args *args, int argc, char *argv[],
case OPT_NO_DOWNSIZE_ON_ERROR:
opts->downsize_on_error = false;
break;
case OPT_NO_CLEANUP:
opts->cleanup = false;
break;
case OPT_PRINT_FPS:
opts->start_fps_counter = true;
break;
case OPT_OTG:
#ifdef HAVE_USB
opts->otg = true;
break;
#else
LOGE("OTG mode (--otg) is disabled.");
LOGE("OTG mode (--otg) is not supported on this platform. It "
"is only available on Linux.");
return false;
#endif
case OPT_V4L2_SINK:
@@ -1565,8 +1531,7 @@ parse_args_with_getopt(struct scrcpy_cli_args *args, int argc, char *argv[],
opts->v4l2_device = optarg;
break;
#else
LOGE("V4L2 (--v4l2-sink) is disabled (or unsupported on this "
"platform).");
LOGE("V4L2 (--v4l2-sink) is only available on Linux.");
return false;
#endif
case OPT_V4L2_BUFFER:
@@ -1594,16 +1559,8 @@ parse_args_with_getopt(struct scrcpy_cli_args *args, int argc, char *argv[],
// If a TCP/IP address is provided, then tcpip must be enabled
assert(opts->tcpip || !opts->tcpip_dst);
unsigned selectors = !!opts->serial
+ !!opts->tcpip_dst
+ opts->select_tcpip
+ opts->select_usb;
if (selectors > 1) {
LOGE("At most one device selector option may be passed, among:\n"
" --serial (-s)\n"
" --select-usb (-d)\n"
" --select-tcpip (-e)\n"
" --tcpip=<addr> (with an argument)");
if (opts->serial && opts->tcpip_dst) {
LOGE("Incompatible options: -s/--serial and --tcpip with an argument");
return false;
}
@@ -1680,18 +1637,6 @@ parse_args_with_getopt(struct scrcpy_cli_args *args, int argc, char *argv[],
}
#ifdef HAVE_USB
# ifdef _WIN32
if (!opts->otg && (opts->keyboard_input_mode == SC_KEYBOARD_INPUT_MODE_HID
|| opts->mouse_input_mode == SC_MOUSE_INPUT_MODE_HID)) {
LOGE("On Windows, it is not possible to open a USB device already open "
"by another process (like adb).");
LOGE("Therefore, -K/--hid-keyboard and -M/--hid-mouse may only work in "
"OTG mode (--otg).");
return false;
}
# endif
if (opts->otg) {
// OTG mode is compatible with only very few options.
// Only report obvious errors.
@@ -1719,12 +1664,12 @@ parse_args_with_getopt(struct scrcpy_cli_args *args, int argc, char *argv[],
LOGE("OTG mode: could not select display");
return false;
}
# ifdef HAVE_V4L2
#ifdef HAVE_V4L2
if (opts->v4l2_device) {
LOGE("OTG mode: could not sink to V4L2 device");
return false;
}
# endif
#endif
}
#endif

2
app/src/compat.h
View File

@@ -8,10 +8,8 @@
#ifndef __WIN32
# define PRIu64_ PRIu64
# define SC_PRIsizet "zu"
#else
# define PRIu64_ "I64u" // Windows...
# define SC_PRIsizet "Iu"
#endif
// In ffmpeg/doc/APIchanges:

30
app/src/control_msg.c
View File

@@ -63,17 +63,17 @@ static const char *const copy_key_labels[] = {
static void
write_position(uint8_t *buf, const struct sc_position *position) {
sc_write32be(&buf[0], position->point.x);
sc_write32be(&buf[4], position->point.y);
sc_write16be(&buf[8], position->screen_size.width);
sc_write16be(&buf[10], position->screen_size.height);
buffer_write32be(&buf[0], position->point.x);
buffer_write32be(&buf[4], position->point.y);
buffer_write16be(&buf[8], position->screen_size.width);
buffer_write16be(&buf[10], position->screen_size.height);
}
// write length (4 bytes) + string (non null-terminated)
static size_t
write_string(const char *utf8, size_t max_len, unsigned char *buf) {
size_t len = sc_str_utf8_truncation_index(utf8, max_len);
sc_write32be(buf, len);
buffer_write32be(buf, len);
memcpy(&buf[4], utf8, len);
return 4 + len;
}
@@ -94,9 +94,9 @@ sc_control_msg_serialize(const struct sc_control_msg *msg, unsigned char *buf) {
switch (msg->type) {
case SC_CONTROL_MSG_TYPE_INJECT_KEYCODE:
buf[1] = msg->inject_keycode.action;
sc_write32be(&buf[2], msg->inject_keycode.keycode);
sc_write32be(&buf[6], msg->inject_keycode.repeat);
sc_write32be(&buf[10], msg->inject_keycode.metastate);
buffer_write32be(&buf[2], msg->inject_keycode.keycode);
buffer_write32be(&buf[6], msg->inject_keycode.repeat);
buffer_write32be(&buf[10], msg->inject_keycode.metastate);
return 14;
case SC_CONTROL_MSG_TYPE_INJECT_TEXT: {
size_t len =
@@ -106,20 +106,20 @@ sc_control_msg_serialize(const struct sc_control_msg *msg, unsigned char *buf) {
}
case SC_CONTROL_MSG_TYPE_INJECT_TOUCH_EVENT:
buf[1] = msg->inject_touch_event.action;
sc_write64be(&buf[2], msg->inject_touch_event.pointer_id);
buffer_write64be(&buf[2], msg->inject_touch_event.pointer_id);
write_position(&buf[10], &msg->inject_touch_event.position);
uint16_t pressure =
to_fixed_point_16(msg->inject_touch_event.pressure);
sc_write16be(&buf[22], pressure);
sc_write32be(&buf[24], msg->inject_touch_event.buttons);
buffer_write16be(&buf[22], pressure);
buffer_write32be(&buf[24], msg->inject_touch_event.buttons);
return 28;
case SC_CONTROL_MSG_TYPE_INJECT_SCROLL_EVENT:
write_position(&buf[1], &msg->inject_scroll_event.position);
sc_write32be(&buf[13],
buffer_write32be(&buf[13],
(uint32_t) msg->inject_scroll_event.hscroll);
sc_write32be(&buf[17],
buffer_write32be(&buf[17],
(uint32_t) msg->inject_scroll_event.vscroll);
sc_write32be(&buf[21], msg->inject_scroll_event.buttons);
buffer_write32be(&buf[21], msg->inject_scroll_event.buttons);
return 25;
case SC_CONTROL_MSG_TYPE_BACK_OR_SCREEN_ON:
buf[1] = msg->inject_keycode.action;
@@ -128,7 +128,7 @@ sc_control_msg_serialize(const struct sc_control_msg *msg, unsigned char *buf) {
buf[1] = msg->get_clipboard.copy_key;
return 2;
case SC_CONTROL_MSG_TYPE_SET_CLIPBOARD:
sc_write64be(&buf[1], msg->set_clipboard.sequence);
buffer_write64be(&buf[1], msg->set_clipboard.sequence);
buf[9] = !!msg->set_clipboard.paste;
size_t len = write_string(msg->set_clipboard.text,
SC_CONTROL_MSG_CLIPBOARD_TEXT_MAX_LENGTH,

2
app/src/controller.c
View File

@@ -113,7 +113,7 @@ sc_controller_start(struct sc_controller *controller) {
bool ok = sc_thread_create(&controller->thread, run_controller,
"scrcpy-ctl", controller);
if (!ok) {
LOGE("Could not start controller thread");
LOGC("Could not start controller thread");
return false;
}

55
app/src/decoder.c
View File

@@ -9,10 +9,10 @@
#include "util/log.h"
/** Downcast packet_sink to decoder */
#define DOWNCAST(SINK) container_of(SINK, struct sc_decoder, packet_sink)
#define DOWNCAST(SINK) container_of(SINK, struct decoder, packet_sink)
static void
sc_decoder_close_first_sinks(struct sc_decoder *decoder, unsigned count) {
decoder_close_first_sinks(struct decoder *decoder, unsigned count) {
while (count) {
struct sc_frame_sink *sink = decoder->sinks[--count];
sink->ops->close(sink);
@@ -20,17 +20,17 @@ sc_decoder_close_first_sinks(struct sc_decoder *decoder, unsigned count) {
}
static inline void
sc_decoder_close_sinks(struct sc_decoder *decoder) {
sc_decoder_close_first_sinks(decoder, decoder->sink_count);
decoder_close_sinks(struct decoder *decoder) {
decoder_close_first_sinks(decoder, decoder->sink_count);
}
static bool
sc_decoder_open_sinks(struct sc_decoder *decoder) {
decoder_open_sinks(struct decoder *decoder) {
for (unsigned i = 0; i < decoder->sink_count; ++i) {
struct sc_frame_sink *sink = decoder->sinks[i];
if (!sink->ops->open(sink)) {
LOGE("Could not open frame sink %d", i);
sc_decoder_close_first_sinks(decoder, i);
decoder_close_first_sinks(decoder, i);
return false;
}
}
@@ -39,7 +39,7 @@ sc_decoder_open_sinks(struct sc_decoder *decoder) {
}
static bool
sc_decoder_open(struct sc_decoder *decoder, const AVCodec *codec) {
decoder_open(struct decoder *decoder, const AVCodec *codec) {
decoder->codec_ctx = avcodec_alloc_context3(codec);
if (!decoder->codec_ctx) {
LOG_OOM();
@@ -62,7 +62,7 @@ sc_decoder_open(struct sc_decoder *decoder, const AVCodec *codec) {
return false;
}
if (!sc_decoder_open_sinks(decoder)) {
if (!decoder_open_sinks(decoder)) {
LOGE("Could not open decoder sinks");
av_frame_free(&decoder->frame);
avcodec_close(decoder->codec_ctx);
@@ -74,15 +74,15 @@ sc_decoder_open(struct sc_decoder *decoder, const AVCodec *codec) {
}
static void
sc_decoder_close(struct sc_decoder *decoder) {
sc_decoder_close_sinks(decoder);
decoder_close(struct decoder *decoder) {
decoder_close_sinks(decoder);
av_frame_free(&decoder->frame);
avcodec_close(decoder->codec_ctx);
avcodec_free_context(&decoder->codec_ctx);
}
static bool
push_frame_to_sinks(struct sc_decoder *decoder, const AVFrame *frame) {
push_frame_to_sinks(struct decoder *decoder, const AVFrame *frame) {
for (unsigned i = 0; i < decoder->sink_count; ++i) {
struct sc_frame_sink *sink = decoder->sinks[i];
if (!sink->ops->push(sink, frame)) {
@@ -95,7 +95,7 @@ push_frame_to_sinks(struct sc_decoder *decoder, const AVFrame *frame) {
}
static bool
sc_decoder_push(struct sc_decoder *decoder, const AVPacket *packet) {
decoder_push(struct decoder *decoder, const AVPacket *packet) {
bool is_config = packet->pts == AV_NOPTS_VALUE;
if (is_config) {
// nothing to do
@@ -124,40 +124,39 @@ sc_decoder_push(struct sc_decoder *decoder, const AVPacket *packet) {
}
static bool
sc_decoder_packet_sink_open(struct sc_packet_sink *sink, const AVCodec *codec) {
struct sc_decoder *decoder = DOWNCAST(sink);
return sc_decoder_open(decoder, codec);
decoder_packet_sink_open(struct sc_packet_sink *sink, const AVCodec *codec) {
struct decoder *decoder = DOWNCAST(sink);
return decoder_open(decoder, codec);
}
static void
sc_decoder_packet_sink_close(struct sc_packet_sink *sink) {
struct sc_decoder *decoder = DOWNCAST(sink);
sc_decoder_close(decoder);
decoder_packet_sink_close(struct sc_packet_sink *sink) {
struct decoder *decoder = DOWNCAST(sink);
decoder_close(decoder);
}
static bool
sc_decoder_packet_sink_push(struct sc_packet_sink *sink,
const AVPacket *packet) {
struct sc_decoder *decoder = DOWNCAST(sink);
return sc_decoder_push(decoder, packet);
decoder_packet_sink_push(struct sc_packet_sink *sink, const AVPacket *packet) {
struct decoder *decoder = DOWNCAST(sink);
return decoder_push(decoder, packet);
}
void
sc_decoder_init(struct sc_decoder *decoder) {
decoder_init(struct decoder *decoder) {
decoder->sink_count = 0;
static const struct sc_packet_sink_ops ops = {
.open = sc_decoder_packet_sink_open,
.close = sc_decoder_packet_sink_close,
.push = sc_decoder_packet_sink_push,
.open = decoder_packet_sink_open,
.close = decoder_packet_sink_close,
.push = decoder_packet_sink_push,
};
decoder->packet_sink.ops = &ops;
}
void
sc_decoder_add_sink(struct sc_decoder *decoder, struct sc_frame_sink *sink) {
assert(decoder->sink_count < SC_DECODER_MAX_SINKS);
decoder_add_sink(struct decoder *decoder, struct sc_frame_sink *sink) {
assert(decoder->sink_count < DECODER_MAX_SINKS);
assert(sink);
assert(sink->ops);
decoder->sinks[decoder->sink_count++] = sink;

14
app/src/decoder.h
View File

@@ -1,5 +1,5 @@
#ifndef SC_DECODER_H
#define SC_DECODER_H
#ifndef DECODER_H
#define DECODER_H
#include "common.h"
@@ -9,12 +9,12 @@
#include <libavcodec/avcodec.h>
#include <libavformat/avformat.h>
#define SC_DECODER_MAX_SINKS 2
#define DECODER_MAX_SINKS 2
struct sc_decoder {
struct decoder {
struct sc_packet_sink packet_sink; // packet sink trait
struct sc_frame_sink *sinks[SC_DECODER_MAX_SINKS];
struct sc_frame_sink *sinks[DECODER_MAX_SINKS];
unsigned sink_count;
AVCodecContext *codec_ctx;
@@ -22,9 +22,9 @@ struct sc_decoder {
};
void
sc_decoder_init(struct sc_decoder *decoder);
decoder_init(struct decoder *decoder);
void
sc_decoder_add_sink(struct sc_decoder *decoder, struct sc_frame_sink *sink);
decoder_add_sink(struct decoder *decoder, struct sc_frame_sink *sink);
#endif

280
app/src/demuxer.c
View File

@@ -1,280 +0,0 @@
#include "demuxer.h"
#include <assert.h>
#include <libavutil/time.h>
#include <unistd.h>
#include "decoder.h"
#include "events.h"
#include "recorder.h"
#include "util/buffer_util.h"
#include "util/log.h"
#define SC_PACKET_HEADER_SIZE 12
#define SC_PACKET_FLAG_CONFIG (UINT64_C(1) << 63)
#define SC_PACKET_FLAG_KEY_FRAME (UINT64_C(1) << 62)
#define SC_PACKET_PTS_MASK (SC_PACKET_FLAG_KEY_FRAME - 1)
static bool
sc_demuxer_recv_packet(struct sc_demuxer *demuxer, AVPacket *packet) {
// The video stream contains raw packets, without time information. When we
// record, we retrieve the timestamps separately, from a "meta" header
// added by the server before each raw packet.
//
// The "meta" header length is 12 bytes:
// [. . . . . . . .|. . . .]. . . . . . . . . . . . . . . ...
// <-------------> <-----> <-----------------------------...
// PTS packet raw packet
// size
//
// It is followed by <packet_size> bytes containing the packet/frame.
//
// The most significant bits of the PTS are used for packet flags:
//
// byte 7 byte 6 byte 5 byte 4 byte 3 byte 2 byte 1 byte 0
// CK...... ........ ........ ........ ........ ........ ........ ........
// ^^<------------------------------------------------------------------->
// || PTS
// | `- config packet
// `-- key frame
uint8_t header[SC_PACKET_HEADER_SIZE];
ssize_t r = net_recv_all(demuxer->socket, header, SC_PACKET_HEADER_SIZE);
if (r < SC_PACKET_HEADER_SIZE) {
return false;
}
uint64_t pts_flags = sc_read64be(header);
uint32_t len = sc_read32be(&header[8]);
assert(len);
if (av_new_packet(packet, len)) {
LOG_OOM();
return false;
}
r = net_recv_all(demuxer->socket, packet->data, len);
if (r < 0 || ((uint32_t) r) < len) {
av_packet_unref(packet);
return false;
}
if (pts_flags & SC_PACKET_FLAG_CONFIG) {
packet->pts = AV_NOPTS_VALUE;
} else {
packet->pts = pts_flags & SC_PACKET_PTS_MASK;
}
if (pts_flags & SC_PACKET_FLAG_KEY_FRAME) {
packet->flags |= AV_PKT_FLAG_KEY;
}
packet->dts = packet->pts;
return true;
}
static bool
push_packet_to_sinks(struct sc_demuxer *demuxer, const AVPacket *packet) {
for (unsigned i = 0; i < demuxer->sink_count; ++i) {
struct sc_packet_sink *sink = demuxer->sinks[i];
if (!sink->ops->push(sink, packet)) {
LOGE("Could not send config packet to sink %d", i);
return false;
}
}
return true;
}
static bool
sc_demuxer_push_packet(struct sc_demuxer *demuxer, AVPacket *packet) {
bool is_config = packet->pts == AV_NOPTS_VALUE;
// A config packet must not be decoded immediately (it contains no
// frame); instead, it must be concatenated with the future data packet.
if (demuxer->pending || is_config) {
size_t offset;
if (demuxer->pending) {
offset = demuxer->pending->size;
if (av_grow_packet(demuxer->pending, packet->size)) {
LOG_OOM();
return false;
}
} else {
offset = 0;
demuxer->pending = av_packet_alloc();
if (!demuxer->pending) {
LOG_OOM();
return false;
}
if (av_new_packet(demuxer->pending, packet->size)) {
LOG_OOM();
av_packet_free(&demuxer->pending);
return false;
}
}
memcpy(demuxer->pending->data + offset, packet->data, packet->size);
if (!is_config) {
// prepare the concat packet to send to the decoder
demuxer->pending->pts = packet->pts;
demuxer->pending->dts = packet->dts;
demuxer->pending->flags = packet->flags;
packet = demuxer->pending;
}
}
bool ok = push_packet_to_sinks(demuxer, packet);
if (!is_config && demuxer->pending) {
// the pending packet must be discarded (consumed or error)
av_packet_free(&demuxer->pending);
}
if (!ok) {
LOGE("Could not process packet");
return false;
}
return true;
}
static void
sc_demuxer_close_first_sinks(struct sc_demuxer *demuxer, unsigned count) {
while (count) {
struct sc_packet_sink *sink = demuxer->sinks[--count];
sink->ops->close(sink);
}
}
static inline void
sc_demuxer_close_sinks(struct sc_demuxer *demuxer) {
sc_demuxer_close_first_sinks(demuxer, demuxer->sink_count);
}
static bool
sc_demuxer_open_sinks(struct sc_demuxer *demuxer, const AVCodec *codec) {
for (unsigned i = 0; i < demuxer->sink_count; ++i) {
struct sc_packet_sink *sink = demuxer->sinks[i];
if (!sink->ops->open(sink, codec)) {
LOGE("Could not open packet sink %d", i);
sc_demuxer_close_first_sinks(demuxer, i);
return false;
}
}
return true;
}
static int
run_demuxer(void *data) {
struct sc_demuxer *demuxer = data;
const AVCodec *codec = avcodec_find_decoder(AV_CODEC_ID_H264);
if (!codec) {
LOGE("H.264 decoder not found");
goto end;
}
demuxer->codec_ctx = avcodec_alloc_context3(codec);
if (!demuxer->codec_ctx) {
LOG_OOM();
goto end;
}
if (!sc_demuxer_open_sinks(demuxer, codec)) {
LOGE("Could not open demuxer sinks");
goto finally_free_codec_ctx;
}
demuxer->parser = av_parser_init(AV_CODEC_ID_H264);
if (!demuxer->parser) {
LOGE("Could not initialize parser");
goto finally_close_sinks;
}
// We must only pass complete frames to av_parser_parse2()!
// It's more complicated, but this allows to reduce the latency by 1 frame!
demuxer->parser->flags |= PARSER_FLAG_COMPLETE_FRAMES;
AVPacket *packet = av_packet_alloc();
if (!packet) {
LOG_OOM();
goto finally_close_parser;
}
for (;;) {
bool ok = sc_demuxer_recv_packet(demuxer, packet);
if (!ok) {
// end of stream
break;
}
ok = sc_demuxer_push_packet(demuxer, packet);
av_packet_unref(packet);
if (!ok) {
// cannot process packet (error already logged)
break;
}
}
LOGD("End of frames");
if (demuxer->pending) {
av_packet_free(&demuxer->pending);
}
av_packet_free(&packet);
finally_close_parser:
av_parser_close(demuxer->parser);
finally_close_sinks:
sc_demuxer_close_sinks(demuxer);
finally_free_codec_ctx:
avcodec_free_context(&demuxer->codec_ctx);
end:
demuxer->cbs->on_eos(demuxer, demuxer->cbs_userdata);
return 0;
}
void
sc_demuxer_init(struct sc_demuxer *demuxer, sc_socket socket,
const struct sc_demuxer_callbacks *cbs, void *cbs_userdata) {
demuxer->socket = socket;
demuxer->pending = NULL;
demuxer->sink_count = 0;
assert(cbs && cbs->on_eos);
demuxer->cbs = cbs;
demuxer->cbs_userdata = cbs_userdata;
}
void
sc_demuxer_add_sink(struct sc_demuxer *demuxer, struct sc_packet_sink *sink) {
assert(demuxer->sink_count < SC_DEMUXER_MAX_SINKS);
assert(sink);
assert(sink->ops);
demuxer->sinks[demuxer->sink_count++] = sink;
}
bool
sc_demuxer_start(struct sc_demuxer *demuxer) {
LOGD("Starting demuxer thread");
bool ok = sc_thread_create(&demuxer->thread, run_demuxer, "scrcpy-demuxer",
demuxer);
if (!ok) {
LOGE("Could not start demuxer thread");
return false;
}
return true;
}
void
sc_demuxer_join(struct sc_demuxer *demuxer) {
sc_thread_join(&demuxer->thread, NULL);
}

51
app/src/demuxer.h
View File

@@ -1,51 +0,0 @@
#ifndef SC_DEMUXER_H
#define SC_DEMUXER_H
#include "common.h"
#include <stdbool.h>
#include <stdint.h>
#include <libavcodec/avcodec.h>
#include <libavformat/avformat.h>
#include "trait/packet_sink.h"
#include "util/net.h"
#include "util/thread.h"
#define SC_DEMUXER_MAX_SINKS 2
struct sc_demuxer {
sc_socket socket;
sc_thread thread;
struct sc_packet_sink *sinks[SC_DEMUXER_MAX_SINKS];
unsigned sink_count;
AVCodecContext *codec_ctx;
AVCodecParserContext *parser;
// successive packets may need to be concatenated, until a non-config
// packet is available
AVPacket *pending;
const struct sc_demuxer_callbacks *cbs;
void *cbs_userdata;
};
struct sc_demuxer_callbacks {
void (*on_eos)(struct sc_demuxer *demuxer, void *userdata);
};
void
sc_demuxer_init(struct sc_demuxer *demuxer, sc_socket socket,
const struct sc_demuxer_callbacks *cbs, void *cbs_userdata);
void
sc_demuxer_add_sink(struct sc_demuxer *demuxer, struct sc_packet_sink *sink);
bool
sc_demuxer_start(struct sc_demuxer *demuxer);
void
sc_demuxer_join(struct sc_demuxer *demuxer);
#endif

4
app/src/device_msg.c
View File

@@ -18,7 +18,7 @@ device_msg_deserialize(const unsigned char *buf, size_t len,
msg->type = buf[0];
switch (msg->type) {
case DEVICE_MSG_TYPE_CLIPBOARD: {
size_t clipboard_len = sc_read32be(&buf[1]);
size_t clipboard_len = buffer_read32be(&buf[1]);
if (clipboard_len > len - 5) {
return 0; // not available
}
@@ -36,7 +36,7 @@ device_msg_deserialize(const unsigned char *buf, size_t len,
return 5 + clipboard_len;
}
case DEVICE_MSG_TYPE_ACK_CLIPBOARD: {
uint64_t sequence = sc_read64be(&buf[1]);
uint64_t sequence = buffer_read64be(&buf[1]);
msg->ack_clipboard.sequence = sequence;
return 9;
}

8
app/src/file_pusher.c
View File

@@ -3,7 +3,7 @@
#include <assert.h>
#include <string.h>
#include "adb/adb.h"
#include "adb.h"
#include "util/log.h"
#include "util/process_intr.h"
@@ -129,7 +129,7 @@ run_file_pusher(void *data) {
if (req.action == SC_FILE_PUSHER_ACTION_INSTALL_APK) {
LOGI("Installing %s...", req.file);
bool ok = sc_adb_install(intr, serial, req.file, 0);
bool ok = adb_install(intr, serial, req.file, 0);
if (ok) {
LOGI("%s successfully installed", req.file);
} else {
@@ -137,7 +137,7 @@ run_file_pusher(void *data) {
}
} else {
LOGI("Pushing %s...", req.file);
bool ok = sc_adb_push(intr, serial, req.file, push_target, 0);
bool ok = adb_push(intr, serial, req.file, push_target, 0);
if (ok) {
LOGI("%s successfully pushed to %s", req.file, push_target);
} else {
@@ -156,7 +156,7 @@ sc_file_pusher_start(struct sc_file_pusher *fp) {
bool ok = sc_thread_create(&fp->thread, run_file_pusher, "scrcpy-file", fp);
if (!ok) {
LOGE("Could not start file_pusher thread");
LOGC("Could not start file_pusher thread");
return false;
}

1
app/src/file_pusher.h
View File

@@ -5,6 +5,7 @@
#include <stdbool.h>
#include "adb.h"
#include "util/cbuf.h"
#include "util/thread.h"
#include "util/intr.h"

40
app/src/fps_counter.c
View File

@@ -4,10 +4,10 @@
#include "util/log.h"
#define SC_FPS_COUNTER_INTERVAL SC_TICK_FROM_SEC(1)
#define FPS_COUNTER_INTERVAL SC_TICK_FROM_SEC(1)
bool
sc_fps_counter_init(struct sc_fps_counter *counter) {
fps_counter_init(struct fps_counter *counter) {
bool ok = sc_mutex_init(&counter->mutex);
if (!ok) {
return false;
@@ -27,26 +27,26 @@ sc_fps_counter_init(struct sc_fps_counter *counter) {
}
void
sc_fps_counter_destroy(struct sc_fps_counter *counter) {
fps_counter_destroy(struct fps_counter *counter) {
sc_cond_destroy(&counter->state_cond);
sc_mutex_destroy(&counter->mutex);
}
static inline bool
is_started(struct sc_fps_counter *counter) {
is_started(struct fps_counter *counter) {
return atomic_load_explicit(&counter->started, memory_order_acquire);
}
static inline void
set_started(struct sc_fps_counter *counter, bool started) {
set_started(struct fps_counter *counter, bool started) {
atomic_store_explicit(&counter->started, started, memory_order_release);
}
// must be called with mutex locked
static void
display_fps(struct sc_fps_counter *counter) {
display_fps(struct fps_counter *counter) {
unsigned rendered_per_second =
counter->nr_rendered * SC_TICK_FREQ / SC_FPS_COUNTER_INTERVAL;
counter->nr_rendered * SC_TICK_FREQ / FPS_COUNTER_INTERVAL;
if (counter->nr_skipped) {
LOGI("%u fps (+%u frames skipped)", rendered_per_second,
counter->nr_skipped);
@@ -57,7 +57,7 @@ display_fps(struct sc_fps_counter *counter) {
// must be called with mutex locked
static void
check_interval_expired(struct sc_fps_counter *counter, sc_tick now) {
check_interval_expired(struct fps_counter *counter, uint32_t now) {
if (now < counter->next_timestamp) {
return;
}
@@ -67,13 +67,13 @@ check_interval_expired(struct sc_fps_counter *counter, sc_tick now) {
counter->nr_skipped = 0;
// add a multiple of the interval
uint32_t elapsed_slices =
(now - counter->next_timestamp) / SC_FPS_COUNTER_INTERVAL + 1;
counter->next_timestamp += SC_FPS_COUNTER_INTERVAL * elapsed_slices;
(now - counter->next_timestamp) / FPS_COUNTER_INTERVAL + 1;
counter->next_timestamp += FPS_COUNTER_INTERVAL * elapsed_slices;
}
static int
run_fps_counter(void *data) {
struct sc_fps_counter *counter = data;
struct fps_counter *counter = data;
sc_mutex_lock(&counter->mutex);
while (!counter->interrupted) {
@@ -94,9 +94,9 @@ run_fps_counter(void *data) {
}
bool
sc_fps_counter_start(struct sc_fps_counter *counter) {
fps_counter_start(struct fps_counter *counter) {
sc_mutex_lock(&counter->mutex);
counter->next_timestamp = sc_tick_now() + SC_FPS_COUNTER_INTERVAL;
counter->next_timestamp = sc_tick_now() + FPS_COUNTER_INTERVAL;
counter->nr_rendered = 0;
counter->nr_skipped = 0;
sc_mutex_unlock(&counter->mutex);
@@ -117,24 +117,22 @@ sc_fps_counter_start(struct sc_fps_counter *counter) {
counter->thread_started = true;
}
LOGI("FPS counter started");
return true;
}
void
sc_fps_counter_stop(struct sc_fps_counter *counter) {
fps_counter_stop(struct fps_counter *counter) {
set_started(counter, false);
sc_cond_signal(&counter->state_cond);
LOGI("FPS counter stopped");
}
bool
sc_fps_counter_is_started(struct sc_fps_counter *counter) {
fps_counter_is_started(struct fps_counter *counter) {
return is_started(counter);
}
void
sc_fps_counter_interrupt(struct sc_fps_counter *counter) {
fps_counter_interrupt(struct fps_counter *counter) {
if (!counter->thread_started) {
return;
}
@@ -147,7 +145,7 @@ sc_fps_counter_interrupt(struct sc_fps_counter *counter) {
}
void
sc_fps_counter_join(struct sc_fps_counter *counter) {
fps_counter_join(struct fps_counter *counter) {
if (counter->thread_started) {
// interrupted must be set by the thread calling join(), so no need to
// lock for the assertion
@@ -158,7 +156,7 @@ sc_fps_counter_join(struct sc_fps_counter *counter) {
}
void
sc_fps_counter_add_rendered_frame(struct sc_fps_counter *counter) {
fps_counter_add_rendered_frame(struct fps_counter *counter) {
if (!is_started(counter)) {
return;
}
@@ -171,7 +169,7 @@ sc_fps_counter_add_rendered_frame(struct sc_fps_counter *counter) {
}
void
sc_fps_counter_add_skipped_frame(struct sc_fps_counter *counter) {
fps_counter_add_skipped_frame(struct fps_counter *counter) {
if (!is_started(counter)) {
return;
}

22
app/src/fps_counter.h
View File

@@ -9,7 +9,7 @@
#include "util/thread.h"
struct sc_fps_counter {
struct fps_counter {
sc_thread thread;
sc_mutex mutex;
sc_cond state_cond;
@@ -28,32 +28,32 @@ struct sc_fps_counter {
};
bool
sc_fps_counter_init(struct sc_fps_counter *counter);
fps_counter_init(struct fps_counter *counter);
void
sc_fps_counter_destroy(struct sc_fps_counter *counter);
fps_counter_destroy(struct fps_counter *counter);
bool
sc_fps_counter_start(struct sc_fps_counter *counter);
fps_counter_start(struct fps_counter *counter);
void
sc_fps_counter_stop(struct sc_fps_counter *counter);
fps_counter_stop(struct fps_counter *counter);
bool
sc_fps_counter_is_started(struct sc_fps_counter *counter);
fps_counter_is_started(struct fps_counter *counter);
// request to stop the thread (on quit)
// must be called before sc_fps_counter_join()
// must be called before fps_counter_join()
void
sc_fps_counter_interrupt(struct sc_fps_counter *counter);
fps_counter_interrupt(struct fps_counter *counter);
void
sc_fps_counter_join(struct sc_fps_counter *counter);
fps_counter_join(struct fps_counter *counter);
void
sc_fps_counter_add_rendered_frame(struct sc_fps_counter *counter);
fps_counter_add_rendered_frame(struct fps_counter *counter);
void
sc_fps_counter_add_skipped_frame(struct sc_fps_counter *counter);
fps_counter_add_skipped_frame(struct fps_counter *counter);
#endif

14
app/src/input_manager.c
View File

@@ -242,14 +242,18 @@ set_screen_power_mode(struct sc_controller *controller,
}
static void
switch_fps_counter_state(struct sc_fps_counter *fps_counter) {
switch_fps_counter_state(struct fps_counter *fps_counter) {
// the started state can only be written from the current thread, so there
// is no ToCToU issue
if (sc_fps_counter_is_started(fps_counter)) {
sc_fps_counter_stop(fps_counter);
if (fps_counter_is_started(fps_counter)) {
fps_counter_stop(fps_counter);
LOGI("FPS counter stopped");
} else {
sc_fps_counter_start(fps_counter);
// Any error is already logged
if (fps_counter_start(fps_counter)) {
LOGI("FPS counter started");
} else {
LOGE("FPS counter starting failed");
}
}
}

24
app/src/main.c
View File

@@ -15,7 +15,27 @@
#include "scrcpy.h"
#include "usb/scrcpy_otg.h"
#include "util/log.h"
#include "version.h"
static void
print_version(void) {
printf("\ndependencies:\n");
printf(" - SDL %d.%d.%d\n", SDL_MAJOR_VERSION, SDL_MINOR_VERSION,
SDL_PATCHLEVEL);
printf(" - libavcodec %d.%d.%d\n", LIBAVCODEC_VERSION_MAJOR,
LIBAVCODEC_VERSION_MINOR,
LIBAVCODEC_VERSION_MICRO);
printf(" - libavformat %d.%d.%d\n", LIBAVFORMAT_VERSION_MAJOR,
LIBAVFORMAT_VERSION_MINOR,
LIBAVFORMAT_VERSION_MICRO);
printf(" - libavutil %d.%d.%d\n", LIBAVUTIL_VERSION_MAJOR,
LIBAVUTIL_VERSION_MINOR,
LIBAVUTIL_VERSION_MICRO);
#ifdef HAVE_V4L2
printf(" - libavdevice %d.%d.%d\n", LIBAVDEVICE_VERSION_MAJOR,
LIBAVDEVICE_VERSION_MINOR,
LIBAVDEVICE_VERSION_MICRO);
#endif
}
int
main(int argc, char *argv[]) {
@@ -51,7 +71,7 @@ main(int argc, char *argv[]) {
}
if (args.version) {
scrcpy_print_version();
print_version();
return 0;
}

4
app/src/options.c
View File

@@ -60,8 +60,4 @@ const struct scrcpy_options scrcpy_options_default = {
.downsize_on_error = true,
.tcpip = false,
.tcpip_dst = NULL,
.select_tcpip = false,
.select_usb = false,
.cleanup = true,
.start_fps_counter = false,
};

4
app/src/options.h
View File

@@ -135,10 +135,6 @@ struct scrcpy_options {
bool downsize_on_error;
bool tcpip;
const char *tcpip_dst;
bool select_usb;
bool select_tcpip;
bool cleanup;
bool start_fps_counter;
};
extern const struct scrcpy_options scrcpy_options_default;

2
app/src/receiver.c
View File

@@ -114,7 +114,7 @@ receiver_start(struct receiver *receiver) {
bool ok = sc_thread_create(&receiver->thread, run_receiver,
"scrcpy-receiver", receiver);
if (!ok) {
LOGE("Could not start receiver thread");
LOGC("Could not start receiver thread");
return false;
}

96
app/src/recorder.c
View File

@@ -9,7 +9,7 @@
#include "util/str.h"
/** Downcast packet_sink to recorder */
#define DOWNCAST(SINK) container_of(SINK, struct sc_recorder, packet_sink)
#define DOWNCAST(SINK) container_of(SINK, struct recorder, packet_sink)
static const AVRational SCRCPY_TIME_BASE = {1, 1000000}; // timestamps in us
@@ -30,9 +30,9 @@ find_muxer(const char *name) {
return oformat;
}
static struct sc_record_packet *
sc_record_packet_new(const AVPacket *packet) {
struct sc_record_packet *rec = malloc(sizeof(*rec));
static struct record_packet *
record_packet_new(const AVPacket *packet) {
struct record_packet *rec = malloc(sizeof(*rec));
if (!rec) {
LOG_OOM();
return NULL;
@@ -54,22 +54,22 @@ sc_record_packet_new(const AVPacket *packet) {
}
static void
sc_record_packet_delete(struct sc_record_packet *rec) {
record_packet_delete(struct record_packet *rec) {
av_packet_free(&rec->packet);
free(rec);
}
static void
sc_recorder_queue_clear(struct sc_recorder_queue *queue) {
recorder_queue_clear(struct recorder_queue *queue) {
while (!sc_queue_is_empty(queue)) {
struct sc_record_packet *rec;
struct record_packet *rec;
sc_queue_take(queue, next, &rec);
sc_record_packet_delete(rec);
record_packet_delete(rec);
}
}
static const char *
sc_recorder_get_format_name(enum sc_record_format format) {
recorder_get_format_name(enum sc_record_format format) {
switch (format) {
case SC_RECORD_FORMAT_MP4: return "mp4";
case SC_RECORD_FORMAT_MKV: return "matroska";
@@ -78,7 +78,7 @@ sc_recorder_get_format_name(enum sc_record_format format) {
}
static bool
sc_recorder_write_header(struct sc_recorder *recorder, const AVPacket *packet) {
recorder_write_header(struct recorder *recorder, const AVPacket *packet) {
AVStream *ostream = recorder->ctx->streams[0];
uint8_t *extradata = av_malloc(packet->size * sizeof(uint8_t));
@@ -103,19 +103,19 @@ sc_recorder_write_header(struct sc_recorder *recorder, const AVPacket *packet) {
}
static void
sc_recorder_rescale_packet(struct sc_recorder *recorder, AVPacket *packet) {
recorder_rescale_packet(struct recorder *recorder, AVPacket *packet) {
AVStream *ostream = recorder->ctx->streams[0];
av_packet_rescale_ts(packet, SCRCPY_TIME_BASE, ostream->time_base);
}
static bool
sc_recorder_write(struct sc_recorder *recorder, AVPacket *packet) {
recorder_write(struct recorder *recorder, AVPacket *packet) {
if (!recorder->header_written) {
if (packet->pts != AV_NOPTS_VALUE) {
LOGE("The first packet is not a config packet");
return false;
}
bool ok = sc_recorder_write_header(recorder, packet);
bool ok = recorder_write_header(recorder, packet);
if (!ok) {
return false;
}
@@ -128,13 +128,13 @@ sc_recorder_write(struct sc_recorder *recorder, AVPacket *packet) {
return true;
}
sc_recorder_rescale_packet(recorder, packet);
recorder_rescale_packet(recorder, packet);
return av_write_frame(recorder->ctx, packet) >= 0;
}
static int
run_recorder(void *data) {
struct sc_recorder *recorder = data;
struct recorder *recorder = data;
for (;;) {
sc_mutex_lock(&recorder->mutex);
@@ -148,29 +148,29 @@ run_recorder(void *data) {
if (recorder->stopped && sc_queue_is_empty(&recorder->queue)) {
sc_mutex_unlock(&recorder->mutex);
struct sc_record_packet *last = recorder->previous;
struct record_packet *last = recorder->previous;
if (last) {
// assign an arbitrary duration to the last packet
last->packet->duration = 100000;
bool ok = sc_recorder_write(recorder, last->packet);
bool ok = recorder_write(recorder, last->packet);
if (!ok) {
// failing to write the last frame is not very serious, no
// future frame may depend on it, so the resulting file
// will still be valid
LOGW("Could not record last packet");
}
sc_record_packet_delete(last);
record_packet_delete(last);
}
break;
}
struct sc_record_packet *rec;
struct record_packet *rec;
sc_queue_take(&recorder->queue, next, &rec);
sc_mutex_unlock(&recorder->mutex);
// recorder->previous is only written from this thread, no need to lock
struct sc_record_packet *previous = recorder->previous;
struct record_packet *previous = recorder->previous;
recorder->previous = rec;
if (!previous) {
@@ -186,15 +186,15 @@ run_recorder(void *data) {
rec->packet->pts - previous->packet->pts;
}
bool ok = sc_recorder_write(recorder, previous->packet);
sc_record_packet_delete(previous);
bool ok = recorder_write(recorder, previous->packet);
record_packet_delete(previous);
if (!ok) {
LOGE("Could not record packet");
sc_mutex_lock(&recorder->mutex);
recorder->failed = true;
// discard pending packets
sc_recorder_queue_clear(&recorder->queue);
recorder_queue_clear(&recorder->queue);
sc_mutex_unlock(&recorder->mutex);
break;
}
@@ -216,7 +216,7 @@ run_recorder(void *data) {
if (recorder->failed) {
LOGE("Recording failed to %s", recorder->filename);
} else {
const char *format_name = sc_recorder_get_format_name(recorder->format);
const char *format_name = recorder_get_format_name(recorder->format);
LOGI("Recording complete to %s file: %s", format_name,
recorder->filename);
}
@@ -227,7 +227,7 @@ run_recorder(void *data) {
}
static bool
sc_recorder_open(struct sc_recorder *recorder, const AVCodec *input_codec) {
recorder_open(struct recorder *recorder, const AVCodec *input_codec) {
bool ok = sc_mutex_init(&recorder->mutex);
if (!ok) {
return false;
@@ -244,7 +244,7 @@ sc_recorder_open(struct sc_recorder *recorder, const AVCodec *input_codec) {
recorder->header_written = false;
recorder->previous = NULL;
const char *format_name = sc_recorder_get_format_name(recorder->format);
const char *format_name = recorder_get_format_name(recorder->format);
assert(format_name);
const AVOutputFormat *format = find_muxer(format_name);
if (!format) {
@@ -290,7 +290,7 @@ sc_recorder_open(struct sc_recorder *recorder, const AVCodec *input_codec) {
ok = sc_thread_create(&recorder->thread, run_recorder, "scrcpy-recorder",
recorder);
if (!ok) {
LOGE("Could not start recorder thread");
LOGC("Could not start recorder thread");
goto error_avio_close;
}
@@ -311,7 +311,7 @@ error_mutex_destroy:
}
static void
sc_recorder_close(struct sc_recorder *recorder) {
recorder_close(struct recorder *recorder) {
sc_mutex_lock(&recorder->mutex);
recorder->stopped = true;
sc_cond_signal(&recorder->queue_cond);
@@ -326,7 +326,7 @@ sc_recorder_close(struct sc_recorder *recorder) {
}
static bool
sc_recorder_push(struct sc_recorder *recorder, const AVPacket *packet) {
recorder_push(struct recorder *recorder, const AVPacket *packet) {
sc_mutex_lock(&recorder->mutex);
assert(!recorder->stopped);
@@ -336,7 +336,7 @@ sc_recorder_push(struct sc_recorder *recorder, const AVPacket *packet) {
return false;
}
struct sc_record_packet *rec = sc_record_packet_new(packet);
struct record_packet *rec = record_packet_new(packet);
if (!rec) {
LOG_OOM();
sc_mutex_unlock(&recorder->mutex);
@@ -351,30 +351,28 @@ sc_recorder_push(struct sc_recorder *recorder, const AVPacket *packet) {
}
static bool
sc_recorder_packet_sink_open(struct sc_packet_sink *sink,
const AVCodec *codec) {
struct sc_recorder *recorder = DOWNCAST(sink);
return sc_recorder_open(recorder, codec);
recorder_packet_sink_open(struct sc_packet_sink *sink, const AVCodec *codec) {
struct recorder *recorder = DOWNCAST(sink);
return recorder_open(recorder, codec);
}
static void
sc_recorder_packet_sink_close(struct sc_packet_sink *sink) {
struct sc_recorder *recorder = DOWNCAST(sink);
sc_recorder_close(recorder);
recorder_packet_sink_close(struct sc_packet_sink *sink) {
struct recorder *recorder = DOWNCAST(sink);
recorder_close(recorder);
}
static bool
sc_recorder_packet_sink_push(struct sc_packet_sink *sink,
const AVPacket *packet) {
struct sc_recorder *recorder = DOWNCAST(sink);
return sc_recorder_push(recorder, packet);
recorder_packet_sink_push(struct sc_packet_sink *sink, const AVPacket *packet) {
struct recorder *recorder = DOWNCAST(sink);
return recorder_push(recorder, packet);
}
bool
sc_recorder_init(struct sc_recorder *recorder,
const char *filename,
enum sc_record_format format,
struct sc_size declared_frame_size) {
recorder_init(struct recorder *recorder,
const char *filename,
enum sc_record_format format,
struct sc_size declared_frame_size) {
recorder->filename = strdup(filename);
if (!recorder->filename) {
LOG_OOM();
@@ -385,9 +383,9 @@ sc_recorder_init(struct sc_recorder *recorder,
recorder->declared_frame_size = declared_frame_size;
static const struct sc_packet_sink_ops ops = {
.open = sc_recorder_packet_sink_open,
.close = sc_recorder_packet_sink_close,
.push = sc_recorder_packet_sink_push,
.open = recorder_packet_sink_open,
.close = recorder_packet_sink_close,
.push = recorder_packet_sink_push,
};
recorder->packet_sink.ops = &ops;
@@ -396,6 +394,6 @@ sc_recorder_init(struct sc_recorder *recorder,
}
void
sc_recorder_destroy(struct sc_recorder *recorder) {
recorder_destroy(struct recorder *recorder) {
free(recorder->filename);
}

23
app/src/recorder.h
View File

@@ -1,5 +1,5 @@
#ifndef SC_RECORDER_H
#define SC_RECORDER_H
#ifndef RECORDER_H
#define RECORDER_H
#include "common.h"
@@ -12,14 +12,14 @@
#include "util/queue.h"
#include "util/thread.h"
struct sc_record_packet {
struct record_packet {
AVPacket *packet;
struct sc_record_packet *next;
struct record_packet *next;
};
struct sc_recorder_queue SC_QUEUE(struct sc_record_packet);
struct recorder_queue SC_QUEUE(struct record_packet);
struct sc_recorder {
struct recorder {
struct sc_packet_sink packet_sink; // packet sink trait
char *filename;
@@ -33,21 +33,20 @@ struct sc_recorder {
sc_cond queue_cond;
bool stopped; // set on recorder_close()
bool failed; // set on packet write failure
struct sc_recorder_queue queue;
struct recorder_queue queue;
// we can write a packet only once we received the next one so that we can
// set its duration (next_pts - current_pts)
// "previous" is only accessed from the recorder thread, so it does not
// need to be protected by the mutex
struct sc_record_packet *previous;
struct record_packet *previous;
};
bool
sc_recorder_init(struct sc_recorder *recorder, const char *filename,
enum sc_record_format format,
struct sc_size declared_frame_size);
recorder_init(struct recorder *recorder, const char *filename,
enum sc_record_format format, struct sc_size declared_frame_size);
void
sc_recorder_destroy(struct sc_recorder *recorder);
recorder_destroy(struct recorder *recorder);
#endif

105
app/src/scrcpy.c
View File

@@ -15,7 +15,6 @@
#include "controller.h"
#include "decoder.h"
#include "demuxer.h"
#include "events.h"
#include "file_pusher.h"
#include "keyboard_inject.h"
@@ -23,6 +22,7 @@
#include "recorder.h"
#include "screen.h"
#include "server.h"
#include "stream.h"
#ifdef HAVE_USB
# include "usb/aoa_hid.h"
# include "usb/hid_keyboard.h"
@@ -39,9 +39,9 @@
struct scrcpy {
struct sc_server server;
struct sc_screen screen;
struct sc_demuxer demuxer;
struct sc_decoder decoder;
struct sc_recorder recorder;
struct stream stream;
struct decoder decoder;
struct recorder recorder;
#ifdef HAVE_V4L2
struct sc_v4l2_sink v4l2_sink;
#endif
@@ -143,8 +143,10 @@ sdl_configure(bool display, bool disable_screensaver) {
}
if (disable_screensaver) {
LOGD("Screensaver disabled");
SDL_DisableScreenSaver();
} else {
LOGD("Screensaver enabled");
SDL_EnableScreenSaver();
}
}
@@ -229,8 +231,8 @@ av_log_callback(void *avcl, int level, const char *fmt, va_list vl) {
}
static void
sc_demuxer_on_eos(struct sc_demuxer *demuxer, void *userdata) {
(void) demuxer;
stream_on_eos(struct stream *stream, void *userdata) {
(void) stream;
(void) userdata;
PUSH_EVENT(EVENT_STREAM_STOPPED);
@@ -269,7 +271,7 @@ scrcpy(struct scrcpy_options *options) {
// Minimal SDL initialization
if (SDL_Init(SDL_INIT_EVENTS)) {
LOGE("Could not initialize SDL: %s", SDL_GetError());
LOGC("Could not initialize SDL: %s", SDL_GetError());
return false;
}
@@ -283,7 +285,7 @@ scrcpy(struct scrcpy_options *options) {
#ifdef HAVE_V4L2
bool v4l2_sink_initialized = false;
#endif
bool demuxer_started = false;
bool stream_started = false;
#ifdef HAVE_USB
bool aoa_hid_initialized = false;
bool hid_keyboard_initialized = false;
@@ -296,9 +298,7 @@ scrcpy(struct scrcpy_options *options) {
struct sc_acksync *acksync = NULL;
struct sc_server_params params = {
.req_serial = options->serial,
.select_usb = options->select_usb,
.select_tcpip = options->select_tcpip,
.serial = options->serial,
.log_level = options->log_level,
.crop = options->crop,
.port_range = options->port_range,
@@ -320,7 +320,6 @@ scrcpy(struct scrcpy_options *options) {
.downsize_on_error = options->downsize_on_error,
.tcpip = options->tcpip,
.tcpip_dst = options->tcpip_dst,
.cleanup = options->cleanup,
};
static const struct sc_server_callbacks cbs = {
@@ -344,7 +343,7 @@ scrcpy(struct scrcpy_options *options) {
// Initialize SDL video in addition if display is enabled
if (options->display && SDL_Init(SDL_INIT_VIDEO)) {
LOGE("Could not initialize SDL: %s", SDL_GetError());
LOGC("Could not initialize SDL: %s", SDL_GetError());
goto end;
}
@@ -358,7 +357,7 @@ scrcpy(struct scrcpy_options *options) {
// It is necessarily initialized here, since the device is connected
struct sc_server_info *info = &s->server.info;
const char *serial = s->server.serial;
const char *serial = s->server.params.serial;
assert(serial);
struct sc_file_pusher *fp = NULL;
@@ -372,22 +371,22 @@ scrcpy(struct scrcpy_options *options) {
file_pusher_initialized = true;
}
struct sc_decoder *dec = NULL;
struct decoder *dec = NULL;
bool needs_decoder = options->display;
#ifdef HAVE_V4L2
needs_decoder |= !!options->v4l2_device;
#endif
if (needs_decoder) {
sc_decoder_init(&s->decoder);
decoder_init(&s->decoder);
dec = &s->decoder;
}
struct sc_recorder *rec = NULL;
struct recorder *rec = NULL;
if (options->record_filename) {
if (!sc_recorder_init(&s->recorder,
options->record_filename,
options->record_format,
info->frame_size)) {
if (!recorder_init(&s->recorder,
options->record_filename,
options->record_format,
info->frame_size)) {
goto end;
}
rec = &s->recorder;
@@ -396,17 +395,17 @@ scrcpy(struct scrcpy_options *options) {
av_log_set_callback(av_log_callback);
static const struct sc_demuxer_callbacks demuxer_cbs = {
.on_eos = sc_demuxer_on_eos,
static const struct stream_callbacks stream_cbs = {
.on_eos = stream_on_eos,
};
sc_demuxer_init(&s->demuxer, s->server.video_socket, &demuxer_cbs, NULL);
stream_init(&s->stream, s->server.video_socket, &stream_cbs, NULL);
if (dec) {
sc_demuxer_add_sink(&s->demuxer, &dec->packet_sink);
stream_add_sink(&s->stream, &dec->packet_sink);
}
if (rec) {
sc_demuxer_add_sink(&s->demuxer, &rec->packet_sink);
stream_add_sink(&s->stream, &rec->packet_sink);
}
struct sc_controller *controller = NULL;
@@ -433,19 +432,32 @@ scrcpy(struct scrcpy_options *options) {
}
assert(serial);
struct sc_usb_device usb_device;
ok = sc_usb_select_device(&s->usb, serial, &usb_device);
if (!ok) {
struct sc_usb_device usb_devices[16];
ssize_t count = sc_usb_find_devices(&s->usb, serial, usb_devices,
ARRAY_LEN(usb_devices));
if (count <= 0) {
LOGE("Could not find USB device %s", serial);
sc_usb_destroy(&s->usb);
sc_acksync_destroy(&s->acksync);
goto aoa_hid_end;
}
LOGI("USB device: %s (%04" PRIx16 ":%04" PRIx16 ") %s %s",
usb_device.serial, usb_device.vid, usb_device.pid,
usb_device.manufacturer, usb_device.product);
if (count > 1) {
LOGE("Multiple (%d) devices with serial %s", (int) count, serial);
sc_usb_device_destroy_all(usb_devices, count);
sc_usb_destroy(&s->usb);
sc_acksync_destroy(&s->acksync);
goto aoa_hid_end;
}
ok = sc_usb_connect(&s->usb, usb_device.device, NULL, NULL);
sc_usb_device_destroy(&usb_device);
struct sc_usb_device *usb_device = &usb_devices[0];
LOGI("USB device: %s (%04" PRIx16 ":%04" PRIx16 ") %s %s",
usb_device->serial, usb_device->vid, usb_device->pid,
usb_device->manufacturer, usb_device->product);
ok = sc_usb_connect(&s->usb, usb_device->device, NULL, NULL);
sc_usb_device_destroy(usb_device);
if (!ok) {
LOGE("Failed to connect to USB device %s", serial);
sc_usb_destroy(&s->usb);
@@ -588,7 +600,6 @@ aoa_hid_end:
.rotation = options->rotation,
.mipmaps = options->mipmaps,
.fullscreen = options->fullscreen,
.start_fps_counter = options->start_fps_counter,
.buffering_time = options->display_buffer,
};
@@ -597,7 +608,7 @@ aoa_hid_end:
}
screen_initialized = true;
sc_decoder_add_sink(&s->decoder, &s->screen.frame_sink);
decoder_add_sink(&s->decoder, &s->screen.frame_sink);
}
#ifdef HAVE_V4L2
@@ -607,28 +618,28 @@ aoa_hid_end:
goto end;
}
sc_decoder_add_sink(&s->decoder, &s->v4l2_sink.frame_sink);
decoder_add_sink(&s->decoder, &s->v4l2_sink.frame_sink);
v4l2_sink_initialized = true;
}
#endif
// now we consumed the header values, the socket receives the video stream
// start the demuxer
if (!sc_demuxer_start(&s->demuxer)) {
// start the stream
if (!stream_start(&s->stream)) {
goto end;
}
demuxer_started = true;
stream_started = true;
ret = event_loop(s);
LOGD("quit...");
// Close the window immediately on closing, because screen_destroy() may
// only be called once the demuxer thread is joined (it may take time)
// only be called once the stream thread is joined (it may take time)
sc_screen_hide_window(&s->screen);
end:
// The demuxer is not stopped explicitly, because it will stop by itself on
// The stream is not stopped explicitly, because it will stop by itself on
// end-of-stream
#ifdef HAVE_USB
if (aoa_hid_initialized) {
@@ -660,10 +671,10 @@ end:
sc_server_stop(&s->server);
}
// now that the sockets are shutdown, the demuxer and controller are
// now that the sockets are shutdown, the stream and controller are
// interrupted, we can join them
if (demuxer_started) {
sc_demuxer_join(&s->demuxer);
if (stream_started) {
stream_join(&s->stream);
}
#ifdef HAVE_V4L2
@@ -682,7 +693,7 @@ end:
}
#endif
// Destroy the screen only after the demuxer is guaranteed to be finished,
// Destroy the screen only after the stream is guaranteed to be finished,
// because otherwise the screen could receive new frames after destruction
if (screen_initialized) {
sc_screen_join(&s->screen);
@@ -697,7 +708,7 @@ end:
}
if (recorder_initialized) {
sc_recorder_destroy(&s->recorder);
recorder_destroy(&s->recorder);
}
if (file_pusher_initialized) {

77
app/src/screen.c
View File

@@ -163,44 +163,14 @@ sc_screen_is_relative_mode(struct sc_screen *screen) {
}
static void
sc_screen_set_mouse_capture(struct sc_screen *screen, bool capture) {
#ifdef __APPLE__
// Workaround for SDL bug on macOS:
// <https://github.com/libsdl-org/SDL/issues/5340>
if (capture) {
int mouse_x, mouse_y;
SDL_GetGlobalMouseState(&mouse_x, &mouse_y);
int x, y, w, h;
SDL_GetWindowPosition(screen->window, &x, &y);
SDL_GetWindowSize(screen->window, &w, &h);
bool outside_window = mouse_x < x || mouse_x >= x + w
|| mouse_y < y || mouse_y >= y + h;
if (outside_window) {
SDL_WarpMouseInWindow(screen->window, w / 2, h / 2);
}
}
#else
(void) screen;
#endif
sc_screen_capture_mouse(struct sc_screen *screen, bool capture) {
if (SDL_SetRelativeMouseMode(capture)) {
LOGE("Could not set relative mouse mode to %s: %s",
capture ? "true" : "false", SDL_GetError());
return;
}
}
static inline bool
sc_screen_get_mouse_capture(struct sc_screen *screen) {
(void) screen;
return SDL_GetRelativeMouseMode();
}
static inline void
sc_screen_toggle_mouse_capture(struct sc_screen *screen) {
(void) screen;
bool new_value = !sc_screen_get_mouse_capture(screen);
sc_screen_set_mouse_capture(screen, new_value);
screen->mouse_captured = capture;
}
static void
@@ -370,7 +340,7 @@ sc_video_buffer_on_new_frame(struct sc_video_buffer *vb, bool previous_skipped,
bool need_new_event;
if (previous_skipped) {
sc_fps_counter_add_skipped_frame(&screen->fps_counter);
fps_counter_add_skipped_frame(&screen->fps_counter);
// The EVENT_NEW_FRAME triggered for the previous frame will consume
// this new frame instead, unless the previous event failed
need_new_event = screen->event_failed;
@@ -402,6 +372,7 @@ sc_screen_init(struct sc_screen *screen,
screen->fullscreen = false;
screen->maximized = false;
screen->event_failed = false;
screen->mouse_captured = false;
screen->mouse_capture_key_pressed = 0;
screen->req.x = params->window_x;
@@ -409,7 +380,6 @@ sc_screen_init(struct sc_screen *screen,
screen->req.width = params->window_width;
screen->req.height = params->window_height;
screen->req.fullscreen = params->fullscreen;
screen->req.start_fps_counter = params->start_fps_counter;
static const struct sc_video_buffer_callbacks cbs = {
.on_new_frame = sc_video_buffer_on_new_frame,
@@ -426,7 +396,7 @@ sc_screen_init(struct sc_screen *screen,
goto error_destroy_video_buffer;
}
if (!sc_fps_counter_init(&screen->fps_counter)) {
if (!fps_counter_init(&screen->fps_counter)) {
goto error_stop_and_join_video_buffer;
}
@@ -453,14 +423,14 @@ sc_screen_init(struct sc_screen *screen,
screen->window =
SDL_CreateWindow(params->window_title, 0, 0, 0, 0, window_flags);
if (!screen->window) {
LOGE("Could not create window: %s", SDL_GetError());
LOGC("Could not create window: %s", SDL_GetError());
goto error_destroy_fps_counter;
}
screen->renderer = SDL_CreateRenderer(screen->window, -1,
SDL_RENDERER_ACCELERATED);
if (!screen->renderer) {
LOGE("Could not create renderer: %s", SDL_GetError());
LOGC("Could not create renderer: %s", SDL_GetError());
goto error_destroy_window;
}
@@ -509,7 +479,7 @@ sc_screen_init(struct sc_screen *screen,
params->frame_size.height);
screen->texture = create_texture(screen);
if (!screen->texture) {
LOGE("Could not create texture: %s", SDL_GetError());
LOGC("Could not create texture: %s", SDL_GetError());
goto error_destroy_renderer;
}
@@ -558,7 +528,7 @@ error_destroy_renderer:
error_destroy_window:
SDL_DestroyWindow(screen->window);
error_destroy_fps_counter:
sc_fps_counter_destroy(&screen->fps_counter);
fps_counter_destroy(&screen->fps_counter);
error_stop_and_join_video_buffer:
sc_video_buffer_stop(&screen->vb);
sc_video_buffer_join(&screen->vb);
@@ -586,10 +556,6 @@ sc_screen_show_initial_window(struct sc_screen *screen) {
sc_screen_switch_fullscreen(screen);
}
if (screen->req.start_fps_counter) {
sc_fps_counter_start(&screen->fps_counter);
}
SDL_ShowWindow(screen->window);
}
@@ -601,13 +567,13 @@ sc_screen_hide_window(struct sc_screen *screen) {
void
sc_screen_interrupt(struct sc_screen *screen) {
sc_video_buffer_stop(&screen->vb);
sc_fps_counter_interrupt(&screen->fps_counter);
fps_counter_interrupt(&screen->fps_counter);
}
void
sc_screen_join(struct sc_screen *screen) {
sc_video_buffer_join(&screen->vb);
sc_fps_counter_join(&screen->fps_counter);
fps_counter_join(&screen->fps_counter);
}
void
@@ -619,7 +585,7 @@ sc_screen_destroy(struct sc_screen *screen) {
SDL_DestroyTexture(screen->texture);
SDL_DestroyRenderer(screen->renderer);
SDL_DestroyWindow(screen->window);
sc_fps_counter_destroy(&screen->fps_counter);
fps_counter_destroy(&screen->fps_counter);
sc_video_buffer_destroy(&screen->vb);
}
@@ -700,7 +666,7 @@ prepare_for_frame(struct sc_screen *screen, struct sc_size new_frame_size) {
screen->frame_size.width, screen->frame_size.height);
screen->texture = create_texture(screen);
if (!screen->texture) {
LOGE("Could not create texture: %s", SDL_GetError());
LOGC("Could not create texture: %s", SDL_GetError());
return false;
}
}
@@ -729,7 +695,7 @@ sc_screen_update_frame(struct sc_screen *screen) {
sc_video_buffer_consume(&screen->vb, screen->frame);
AVFrame *frame = screen->frame;
sc_fps_counter_add_rendered_frame(&screen->fps_counter);
fps_counter_add_rendered_frame(&screen->fps_counter);
struct sc_size new_frame_size = {frame->width, frame->height};
if (!prepare_for_frame(screen, new_frame_size)) {
@@ -744,7 +710,7 @@ sc_screen_update_frame(struct sc_screen *screen) {
if (sc_screen_is_relative_mode(screen)) {
// Capture mouse on start
sc_screen_set_mouse_capture(screen, true);
sc_screen_capture_mouse(screen, true);
}
}
@@ -857,7 +823,7 @@ sc_screen_handle_event(struct sc_screen *screen, SDL_Event *event) {
break;
case SDL_WINDOWEVENT_FOCUS_LOST:
if (relative_mode) {
sc_screen_set_mouse_capture(screen, false);
sc_screen_capture_mouse(screen, false);
}
break;
}
@@ -887,7 +853,8 @@ sc_screen_handle_event(struct sc_screen *screen, SDL_Event *event) {
if (key == cap) {
// A mouse capture key has been pressed then released:
// toggle the capture mouse mode
sc_screen_toggle_mouse_capture(screen);
sc_screen_capture_mouse(screen,
!screen->mouse_captured);
}
// Mouse capture keys are never forwarded to the device
return;
@@ -897,7 +864,7 @@ sc_screen_handle_event(struct sc_screen *screen, SDL_Event *event) {
case SDL_MOUSEWHEEL:
case SDL_MOUSEMOTION:
case SDL_MOUSEBUTTONDOWN:
if (relative_mode && !sc_screen_get_mouse_capture(screen)) {
if (relative_mode && !screen->mouse_captured) {
// Do not forward to input manager, the mouse will be captured
// on SDL_MOUSEBUTTONUP
return;
@@ -913,8 +880,8 @@ sc_screen_handle_event(struct sc_screen *screen, SDL_Event *event) {
}
break;
case SDL_MOUSEBUTTONUP:
if (relative_mode && !sc_screen_get_mouse_capture(screen)) {
sc_screen_set_mouse_capture(screen, true);
if (relative_mode && !screen->mouse_captured) {
sc_screen_capture_mouse(screen, true);
return;
}
break;

5
app/src/screen.h
View File

@@ -26,7 +26,7 @@ struct sc_screen {
struct sc_input_manager im;
struct sc_video_buffer vb;
struct sc_fps_counter fps_counter;
struct fps_counter fps_counter;
// The initial requested window properties
struct {
@@ -35,7 +35,6 @@ struct sc_screen {
uint16_t width;
uint16_t height;
bool fullscreen;
bool start_fps_counter;
} req;
SDL_Window *window;
@@ -61,6 +60,7 @@ struct sc_screen {
bool event_failed; // in case SDL_PushEvent() returned an error
bool mouse_captured; // only relevant in relative mouse mode
// To enable/disable mouse capture, a mouse capture key (LALT, LGUI or
// RGUI) must be pressed. This variable tracks the pressed capture key.
SDL_Keycode mouse_capture_key_pressed;
@@ -94,7 +94,6 @@ struct sc_screen_params {
bool mipmaps;
bool fullscreen;
bool start_fps_counter;
sc_tick buffering_time;
};

259
app/src/server.c
View File

@@ -7,7 +7,7 @@
#include <SDL2/SDL_timer.h>
#include <SDL2/SDL_platform.h>
#include "adb/adb.h"
#include "adb.h"
#include "util/file.h"
#include "util/log.h"
#include "util/net_intr.h"
@@ -65,7 +65,7 @@ get_server_path(void) {
static void
sc_server_params_destroy(struct sc_server_params *params) {
// The server stores a copy of the params provided by the user
free((char *) params->req_serial);
free((char *) params->serial);
free((char *) params->crop);
free((char *) params->codec_options);
free((char *) params->encoder_name);
@@ -89,7 +89,7 @@ sc_server_params_copy(struct sc_server_params *dst,
} \
}
COPY(req_serial);
COPY(serial);
COPY(crop);
COPY(codec_options);
COPY(encoder_name);
@@ -114,7 +114,7 @@ push_server(struct sc_intr *intr, const char *serial) {
free(server_path);
return false;
}
bool ok = sc_adb_push(intr, serial, server_path, SC_DEVICE_SERVER_PATH, 0);
bool ok = adb_push(intr, serial, server_path, SC_DEVICE_SERVER_PATH, 0);
free(server_path);
return ok;
}
@@ -157,14 +157,8 @@ execute_server(struct sc_server *server,
const struct sc_server_params *params) {
sc_pid pid = SC_PROCESS_NONE;
const char *serial = server->serial;
assert(serial);
const char *cmd[128];
unsigned count = 0;
cmd[count++] = sc_adb_get_executable();
cmd[count++] = "-s";
cmd[count++] = serial;
cmd[count++] = "shell";
cmd[count++] = "CLASSPATH=" SC_DEVICE_SERVER_PATH;
cmd[count++] = "app_process";
@@ -244,14 +238,9 @@ execute_server(struct sc_server *server,
// By default, downsize_on_error is true
ADD_PARAM("downsize_on_error=false");
}
if (!params->cleanup) {
// By default, cleanup is true
ADD_PARAM("cleanup=false");
}
#undef ADD_PARAM
cmd[count++] = NULL;
#undef STRBOOL
#ifdef SERVER_DEBUGGER
LOGI("Server debugger waiting for a client on device port "
@@ -265,7 +254,7 @@ execute_server(struct sc_server *server,
// Then click on "Debug"
#endif
// Inherit both stdout and stderr (all server logs are printed to stdout)
pid = sc_adb_execute(cmd, 0);
pid = adb_execute(params->serial, cmd, count, 0);
end:
for (unsigned i = dyn_idx; i < count; ++i) {
@@ -357,7 +346,6 @@ sc_server_init(struct sc_server *server, const struct sc_server_params *params,
return false;
}
server->serial = NULL;
server->stopped = false;
server->video_socket = SC_SOCKET_NONE;
@@ -402,9 +390,7 @@ sc_server_connect_to(struct sc_server *server, struct sc_server_info *info) {
assert(tunnel->enabled);
const char *serial = server->serial;
assert(serial);
const char *serial = server->params.serial;
bool control = server->params.control;
sc_socket video_socket = SC_SOCKET_NONE;
@@ -486,10 +472,8 @@ fail:
}
}
if (tunnel->enabled) {
// Always leave this function with tunnel disabled
sc_adb_tunnel_close(tunnel, &server->intr, serial);
}
// Always leave this function with tunnel disabled
sc_adb_tunnel_close(tunnel, &server->intr, serial);
return false;
}
@@ -510,11 +494,32 @@ sc_server_on_terminated(void *userdata) {
}
static bool
is_tcpip_mode_enabled(struct sc_server *server, const char *serial) {
sc_server_fill_serial(struct sc_server *server) {
// Retrieve the actual device immediately if not provided, so that all
// future adb commands are executed for this specific device, even if other
// devices are connected afterwards (without "more than one
// device/emulator" error)
if (!server->params.serial) {
// The serial is owned by sc_server_params, and will be freed on destroy
server->params.serial = adb_get_serialno(&server->intr, 0);
if (!server->params.serial) {
LOGE("Could not get device serial");
return false;
}
LOGD("Device serial: %s", server->params.serial);
}
return true;
}
static bool
is_tcpip_mode_enabled(struct sc_server *server) {
struct sc_intr *intr = &server->intr;
const char *serial = server->params.serial;
char *current_port =
sc_adb_getprop(intr, serial, "service.adb.tcp.port", SC_ADB_SILENT);
adb_getprop(intr, serial, "service.adb.tcp.port", SC_ADB_SILENT);
if (!current_port) {
return false;
}
@@ -526,9 +531,9 @@ is_tcpip_mode_enabled(struct sc_server *server, const char *serial) {
}
static bool
wait_tcpip_mode_enabled(struct sc_server *server, const char *serial,
unsigned attempts, sc_tick delay) {
if (is_tcpip_mode_enabled(server, serial)) {
wait_tcpip_mode_enabled(struct sc_server *server, unsigned attempts,
sc_tick delay) {
if (is_tcpip_mode_enabled(server)) {
LOGI("TCP/IP mode enabled");
return true;
}
@@ -543,7 +548,7 @@ wait_tcpip_mode_enabled(struct sc_server *server, const char *serial,
return false;
}
if (is_tcpip_mode_enabled(server, serial)) {
if (is_tcpip_mode_enabled(server)) {
LOGI("TCP/IP mode enabled");
return true;
}
@@ -568,30 +573,29 @@ append_port_5555(const char *ip) {
return ip_port;
}
static char *
sc_server_switch_to_tcpip(struct sc_server *server, const char *serial) {
static bool
sc_server_switch_to_tcpip(struct sc_server *server, char **out_ip_port) {
const char *serial = server->params.serial;
assert(serial);
struct sc_intr *intr = &server->intr;
LOGI("Switching device %s to TCP/IP...", serial);
char *ip = sc_adb_get_device_ip(intr, serial, 0);
char *ip = adb_get_device_ip(intr, serial, 0);
if (!ip) {
LOGE("Device IP not found");
return NULL;
return false;
}
char *ip_port = append_port_5555(ip);
free(ip);
if (!ip_port) {
return NULL;
return false;
}
bool tcp_mode = is_tcpip_mode_enabled(server, serial);
bool tcp_mode = is_tcpip_mode_enabled(server);
if (!tcp_mode) {
bool ok = sc_adb_tcpip(intr, serial, 5555, SC_ADB_NO_STDOUT);
bool ok = adb_tcpip(intr, serial, 5555, SC_ADB_NO_STDOUT);
if (!ok) {
LOGE("Could not restart adbd in TCP/IP mode");
goto error;
@@ -599,17 +603,19 @@ sc_server_switch_to_tcpip(struct sc_server *server, const char *serial) {
unsigned attempts = 40;
sc_tick delay = SC_TICK_FROM_MS(250);
ok = wait_tcpip_mode_enabled(server, serial, attempts, delay);
ok = wait_tcpip_mode_enabled(server, attempts, delay);
if (!ok) {
goto error;
}
}
return ip_port;
*out_ip_port = ip_port;
return true;
error:
free(ip_port);
return NULL;
return false;
}
static bool
@@ -617,52 +623,73 @@ sc_server_connect_to_tcpip(struct sc_server *server, const char *ip_port) {
struct sc_intr *intr = &server->intr;
// Error expected if not connected, do not report any error
sc_adb_disconnect(intr, ip_port, SC_ADB_SILENT);
adb_disconnect(intr, ip_port, SC_ADB_SILENT);
LOGI("Connecting to %s...", ip_port);
bool ok = sc_adb_connect(intr, ip_port, 0);
bool ok = adb_connect(intr, ip_port, 0);
if (!ok) {
LOGE("Could not connect to %s", ip_port);
return false;
}
// Override the serial, owned by the sc_server_params
free((void *) server->params.serial);
server->params.serial = strdup(ip_port);
if (!server->params.serial) {
LOG_OOM();
return false;
}
LOGI("Connected to %s", ip_port);
return true;
}
static bool
sc_server_configure_tcpip_known_address(struct sc_server *server,
const char *addr) {
// Append ":5555" if no port is present
bool contains_port = strchr(addr, ':');
char *ip_port = contains_port ? strdup(addr) : append_port_5555(addr);
if (!ip_port) {
LOG_OOM();
return false;
}
server->serial = ip_port;
return sc_server_connect_to_tcpip(server, ip_port);
}
static bool
sc_server_configure_tcpip_unknown_address(struct sc_server *server,
const char *serial) {
bool is_already_tcpip = sc_adb_is_serial_tcpip(serial);
if (is_already_tcpip) {
// Nothing to do
LOGI("Device already connected via TCP/IP: %s", serial);
return true;
sc_server_configure_tcpip(struct sc_server *server) {
char *ip_port;
const struct sc_server_params *params = &server->params;
// If tcpip parameter is given, then it must connect to this address.
// Therefore, the device is unknown, so serial is meaningless at this point.
assert(!params->serial || !params->tcpip_dst);
if (params->tcpip_dst) {
// Append ":5555" if no port is present
bool contains_port = strchr(params->tcpip_dst, ':');
ip_port = contains_port ? strdup(params->tcpip_dst)
: append_port_5555(params->tcpip_dst);
if (!ip_port) {
LOG_OOM();
return false;
}
} else {
// The device IP address must be retrieved from the current
// connected device
if (!sc_server_fill_serial(server)) {
return false;
}
// The serial is either the real serial when connected via USB, or
// the IP:PORT when connected over TCP/IP. Only the latter contains
// a colon.
bool is_already_tcpip = strchr(params->serial, ':');
if (is_already_tcpip) {
// Nothing to do
LOGI("Device already connected via TCP/IP: %s", params->serial);
return true;
}
bool ok = sc_server_switch_to_tcpip(server, &ip_port);
if (!ok) {
return false;
}
}
char *ip_port = sc_server_switch_to_tcpip(server, serial);
if (!ip_port) {
return false;
}
server->serial = ip_port;
return sc_server_connect_to_tcpip(server, ip_port);
// On success, this call changes params->serial
bool ok = sc_server_connect_to_tcpip(server, ip_port);
free(ip_port);
return ok;
}
static int
@@ -671,83 +698,30 @@ run_server(void *data) {
const struct sc_server_params *params = &server->params;
// Execute "adb start-server" before "adb devices" so that daemon starting
// output/errors is correctly printed in the console ("adb devices" output
// is parsed, so it is not output)
bool ok = sc_adb_start_server(&server->intr, 0);
if (!ok) {
LOGE("Could not start adb daemon");
goto error_connection_failed;
if (params->serial) {
LOGD("Device serial: %s", params->serial);
}
// params->tcpip_dst implies params->tcpip
assert(!params->tcpip_dst || params->tcpip);
// If tcpip_dst parameter is given, then it must connect to this address.
// Therefore, the device is unknown, so serial is meaningless at this point.
assert(!params->req_serial || !params->tcpip_dst);
// A device must be selected via a serial in all cases except when --tcpip=
// is called with a parameter (in that case, the device may initially not
// exist, and scrcpy will execute "adb connect").
bool need_initial_serial = !params->tcpip_dst;
if (need_initial_serial) {
// At most one of the 3 following parameters may be set
assert(!!params->req_serial
+ params->select_usb
+ params->select_tcpip <= 1);
struct sc_adb_device_selector selector;
if (params->req_serial) {
selector.type = SC_ADB_DEVICE_SELECT_SERIAL;
selector.serial = params->req_serial;
} else if (params->select_usb) {
selector.type = SC_ADB_DEVICE_SELECT_USB;
} else if (params->select_tcpip) {
selector.type = SC_ADB_DEVICE_SELECT_TCPIP;
} else {
selector.type = SC_ADB_DEVICE_SELECT_ALL;
}
struct sc_adb_device device;
ok = sc_adb_select_device(&server->intr, &selector, 0, &device);
if (!ok) {
goto error_connection_failed;
}
if (params->tcpip) {
assert(!params->tcpip_dst);
ok = sc_server_configure_tcpip_unknown_address(server,
device.serial);
sc_adb_device_destroy(&device);
if (!ok) {
goto error_connection_failed;
}
assert(server->serial);
} else {
// "move" the device.serial without copy
server->serial = device.serial;
// the serial must not be freed by the destructor
device.serial = NULL;
sc_adb_device_destroy(&device);
}
} else {
ok = sc_server_configure_tcpip_known_address(server, params->tcpip_dst);
if (params->tcpip) {
// params->serial may be changed after this call
bool ok = sc_server_configure_tcpip(server);
if (!ok) {
goto error_connection_failed;
}
}
const char *serial = server->serial;
assert(serial);
LOGD("Device serial: %s", serial);
// It is ok to call this function even if the device serial has been
// changed by switching over TCP/IP
if (!sc_server_fill_serial(server)) {
goto error_connection_failed;
}
ok = push_server(&server->intr, serial);
bool ok = push_server(&server->intr, params->serial);
if (!ok) {
goto error_connection_failed;
}
ok = sc_adb_tunnel_open(&server->tunnel, &server->intr, serial,
ok = sc_adb_tunnel_open(&server->tunnel, &server->intr, params->serial,
params->port_range, params->force_adb_forward);
if (!ok) {
goto error_connection_failed;
@@ -756,7 +730,7 @@ run_server(void *data) {
// server will connect to our server socket
sc_pid pid = execute_server(server, params);
if (pid == SC_PROCESS_NONE) {
sc_adb_tunnel_close(&server->tunnel, &server->intr, serial);
sc_adb_tunnel_close(&server->tunnel, &server->intr, params->serial);
goto error_connection_failed;
}
@@ -768,7 +742,7 @@ run_server(void *data) {
if (!ok) {
sc_process_terminate(pid);
sc_process_wait(pid, true); // ignore exit code
sc_adb_tunnel_close(&server->tunnel, &server->intr, serial);
sc_adb_tunnel_close(&server->tunnel, &server->intr, params->serial);
goto error_connection_failed;
}
@@ -861,7 +835,6 @@ sc_server_destroy(struct sc_server *server) {
net_close(server->control_socket);
}
free(server->serial);
sc_server_params_destroy(&server->params);
sc_intr_destroy(&server->intr);
sc_cond_destroy(&server->cond_stopped);

9
app/src/server.h
View File

@@ -7,7 +7,8 @@
#include <stdbool.h>
#include <stdint.h>
#include "adb/adb_tunnel.h"
#include "adb.h"
#include "adb_tunnel.h"
#include "coords.h"
#include "options.h"
#include "util/intr.h"
@@ -22,7 +23,7 @@ struct sc_server_info {
};
struct sc_server_params {
const char *req_serial;
const char *serial;
enum sc_log_level log_level;
const char *crop;
const char *codec_options;
@@ -44,15 +45,11 @@ struct sc_server_params {
bool downsize_on_error;
bool tcpip;
const char *tcpip_dst;
bool select_usb;
bool select_tcpip;
bool cleanup;
};
struct sc_server {
// The internal allocated strings are copies owned by the server
struct sc_server_params params;
char *serial;
sc_thread thread;
struct sc_server_info info; // initialized once connected

298
app/src/stream.c Normal file
View File

@@ -0,0 +1,298 @@
#include "stream.h"
#include <assert.h>
#include <libavutil/time.h>
#include <unistd.h>
#include "decoder.h"
#include "events.h"
#include "recorder.h"
#include "util/buffer_util.h"
#include "util/log.h"
#define BUFSIZE 0x10000
#define HEADER_SIZE 12
#define NO_PTS UINT64_C(-1)
static bool
stream_recv_packet(struct stream *stream, AVPacket *packet) {
// The video stream contains raw packets, without time information. When we
// record, we retrieve the timestamps separately, from a "meta" header
// added by the server before each raw packet.
//
// The "meta" header length is 12 bytes:
// [. . . . . . . .|. . . .]. . . . . . . . . . . . . . . ...
// <-------------> <-----> <-----------------------------...
// PTS packet raw packet
// size
//
// It is followed by <packet_size> bytes containing the packet/frame.
uint8_t header[HEADER_SIZE];
ssize_t r = net_recv_all(stream->socket, header, HEADER_SIZE);
if (r < HEADER_SIZE) {
return false;
}
uint64_t pts = buffer_read64be(header);
uint32_t len = buffer_read32be(&header[8]);
assert(pts == NO_PTS || (pts & 0x8000000000000000) == 0);
assert(len);
if (av_new_packet(packet, len)) {
LOG_OOM();
return false;
}
r = net_recv_all(stream->socket, packet->data, len);
if (r < 0 || ((uint32_t) r) < len) {
av_packet_unref(packet);
return false;
}
packet->pts = pts != NO_PTS ? (int64_t) pts : AV_NOPTS_VALUE;
return true;
}
static bool
push_packet_to_sinks(struct stream *stream, const AVPacket *packet) {
for (unsigned i = 0; i < stream->sink_count; ++i) {
struct sc_packet_sink *sink = stream->sinks[i];
if (!sink->ops->push(sink, packet)) {
LOGE("Could not send config packet to sink %d", i);
return false;
}
}
return true;
}
static bool
stream_parse(struct stream *stream, AVPacket *packet) {
uint8_t *in_data = packet->data;
int in_len = packet->size;
uint8_t *out_data = NULL;
int out_len = 0;
int r = av_parser_parse2(stream->parser, stream->codec_ctx,
&out_data, &out_len, in_data, in_len,
AV_NOPTS_VALUE, AV_NOPTS_VALUE, -1);
// PARSER_FLAG_COMPLETE_FRAMES is set
assert(r == in_len);
(void) r;
assert(out_len == in_len);
if (stream->parser->key_frame == 1) {
packet->flags |= AV_PKT_FLAG_KEY;
}
packet->dts = packet->pts;
bool ok = push_packet_to_sinks(stream, packet);
if (!ok) {
LOGE("Could not process packet");
return false;
}
return true;
}
static bool
stream_push_packet(struct stream *stream, AVPacket *packet) {
bool is_config = packet->pts == AV_NOPTS_VALUE;
// A config packet must not be decoded immediately (it contains no
// frame); instead, it must be concatenated with the future data packet.
if (stream->pending || is_config) {
size_t offset;
if (stream->pending) {
offset = stream->pending->size;
if (av_grow_packet(stream->pending, packet->size)) {
LOG_OOM();
return false;
}
} else {
offset = 0;
stream->pending = av_packet_alloc();
if (!stream->pending) {
LOG_OOM();
return false;
}
if (av_new_packet(stream->pending, packet->size)) {
LOG_OOM();
av_packet_free(&stream->pending);
return false;
}
}
memcpy(stream->pending->data + offset, packet->data, packet->size);
if (!is_config) {
// prepare the concat packet to send to the decoder
stream->pending->pts = packet->pts;
stream->pending->dts = packet->dts;
stream->pending->flags = packet->flags;
packet = stream->pending;
}
}
if (is_config) {
// config packet
bool ok = push_packet_to_sinks(stream, packet);
if (!ok) {
return false;
}
} else {
// data packet
bool ok = stream_parse(stream, packet);
if (stream->pending) {
// the pending packet must be discarded (consumed or error)
av_packet_free(&stream->pending);
}
if (!ok) {
return false;
}
}
return true;
}
static void
stream_close_first_sinks(struct stream *stream, unsigned count) {
while (count) {
struct sc_packet_sink *sink = stream->sinks[--count];
sink->ops->close(sink);
}
}
static inline void
stream_close_sinks(struct stream *stream) {
stream_close_first_sinks(stream, stream->sink_count);
}
static bool
stream_open_sinks(struct stream *stream, const AVCodec *codec) {
for (unsigned i = 0; i < stream->sink_count; ++i) {
struct sc_packet_sink *sink = stream->sinks[i];
if (!sink->ops->open(sink, codec)) {
LOGE("Could not open packet sink %d", i);
stream_close_first_sinks(stream, i);
return false;
}
}
return true;
}
static int
run_stream(void *data) {
struct stream *stream = data;
const AVCodec *codec = avcodec_find_decoder(AV_CODEC_ID_H264);
if (!codec) {
LOGE("H.264 decoder not found");
goto end;
}
stream->codec_ctx = avcodec_alloc_context3(codec);
if (!stream->codec_ctx) {
LOG_OOM();
goto end;
}
if (!stream_open_sinks(stream, codec)) {
LOGE("Could not open stream sinks");
goto finally_free_codec_ctx;
}
stream->parser = av_parser_init(AV_CODEC_ID_H264);
if (!stream->parser) {
LOGE("Could not initialize parser");
goto finally_close_sinks;
}
// We must only pass complete frames to av_parser_parse2()!
// It's more complicated, but this allows to reduce the latency by 1 frame!
stream->parser->flags |= PARSER_FLAG_COMPLETE_FRAMES;
AVPacket *packet = av_packet_alloc();
if (!packet) {
LOG_OOM();
goto finally_close_parser;
}
for (;;) {
bool ok = stream_recv_packet(stream, packet);
if (!ok) {
// end of stream
break;
}
ok = stream_push_packet(stream, packet);
av_packet_unref(packet);
if (!ok) {
// cannot process packet (error already logged)
break;
}
}
LOGD("End of frames");
if (stream->pending) {
av_packet_free(&stream->pending);
}
av_packet_free(&packet);
finally_close_parser:
av_parser_close(stream->parser);
finally_close_sinks:
stream_close_sinks(stream);
finally_free_codec_ctx:
avcodec_free_context(&stream->codec_ctx);
end:
stream->cbs->on_eos(stream, stream->cbs_userdata);
return 0;
}
void
stream_init(struct stream *stream, sc_socket socket,
const struct stream_callbacks *cbs, void *cbs_userdata) {
stream->socket = socket;
stream->pending = NULL;
stream->sink_count = 0;
assert(cbs && cbs->on_eos);
stream->cbs = cbs;
stream->cbs_userdata = cbs_userdata;
}
void
stream_add_sink(struct stream *stream, struct sc_packet_sink *sink) {
assert(stream->sink_count < STREAM_MAX_SINKS);
assert(sink);
assert(sink->ops);
stream->sinks[stream->sink_count++] = sink;
}
bool
stream_start(struct stream *stream) {
LOGD("Starting stream thread");
bool ok =
sc_thread_create(&stream->thread, run_stream, "scrcpy-stream", stream);
if (!ok) {
LOGC("Could not start stream thread");
return false;
}
return true;
}
void
stream_join(struct stream *stream) {
sc_thread_join(&stream->thread, NULL);
}

2
app/src/sys/unix/process.c
View File

@@ -176,7 +176,7 @@ sc_process_execute_p(const char *const argv[], sc_pid *pid, unsigned flags,
bool
sc_process_terminate(pid_t pid) {
if (pid <= 0) {
LOGE("Requested to kill %d, this is an error. Please report the bug.\n",
LOGC("Requested to kill %d, this is an error. Please report the bug.\n",
(int) pid);
abort();
}

19
app/src/usb/aoa_hid.c
View File

@@ -45,6 +45,11 @@ sc_hid_event_destroy(struct sc_hid_event *hid_event) {
free(hid_event->buffer);
}
static inline void
log_libusb_error(enum libusb_error errcode) {
LOGW("libusb error: %s", libusb_strerror(errcode));
}
bool
sc_aoa_init(struct sc_aoa *aoa, struct sc_usb *usb,
struct sc_acksync *acksync) {
@@ -94,8 +99,7 @@ sc_aoa_register_hid(struct sc_aoa *aoa, uint16_t accessory_id,
request, value, index, buffer, length,
DEFAULT_TIMEOUT);
if (result < 0) {
LOGE("REGISTER_HID: libusb error: %s", libusb_strerror(result));
sc_usb_check_disconnected(aoa->usb, result);
log_libusb_error((enum libusb_error) result);
return false;
}
@@ -131,8 +135,7 @@ sc_aoa_set_hid_report_desc(struct sc_aoa *aoa, uint16_t accessory_id,
request, value, index, buffer, length,
DEFAULT_TIMEOUT);
if (result < 0) {
LOGE("SET_HID_REPORT_DESC: libusb error: %s", libusb_strerror(result));
sc_usb_check_disconnected(aoa->usb, result);
log_libusb_error((enum libusb_error) result);
return false;
}
@@ -174,8 +177,7 @@ sc_aoa_send_hid_event(struct sc_aoa *aoa, const struct sc_hid_event *event) {
request, value, index, buffer, length,
DEFAULT_TIMEOUT);
if (result < 0) {
LOGE("SEND_HID_EVENT: libusb error: %s", libusb_strerror(result));
sc_usb_check_disconnected(aoa->usb, result);
log_libusb_error((enum libusb_error) result);
return false;
}
@@ -197,8 +199,7 @@ sc_aoa_unregister_hid(struct sc_aoa *aoa, const uint16_t accessory_id) {
request, value, index, buffer, length,
DEFAULT_TIMEOUT);
if (result < 0) {
LOGE("UNREGISTER_HID: libusb error: %s", libusb_strerror(result));
sc_usb_check_disconnected(aoa->usb, result);
log_libusb_error((enum libusb_error) result);
return false;
}
@@ -282,7 +283,7 @@ sc_aoa_start(struct sc_aoa *aoa) {
bool ok = sc_thread_create(&aoa->thread, run_aoa_thread, "scrcpy-aoa", aoa);
if (!ok) {
LOGE("Could not start AOA thread");
LOGC("Could not start AOA thread");
return false;
}

63
app/src/usb/scrcpy_otg.c
View File

@@ -2,7 +2,6 @@
#include <SDL2/SDL.h>
#include "adb/adb.h"
#include "events.h"
#include "screen_otg.h"
#include "util/log.h"
@@ -57,7 +56,7 @@ scrcpy_otg(struct scrcpy_options *options) {
// Minimal SDL initialization
if (SDL_Init(SDL_INIT_EVENTS)) {
LOGE("Could not initialize SDL: %s", SDL_GetError());
LOGC("Could not initialize SDL: %s", SDL_GetError());
return false;
}
@@ -76,15 +75,6 @@ scrcpy_otg(struct scrcpy_options *options) {
bool aoa_started = false;
bool aoa_initialized = false;
#ifdef _WIN32
// On Windows, only one process could open a USB device
// <https://github.com/Genymobile/scrcpy/issues/2773>
LOGI("Killing adb daemon (if any)...");
unsigned flags = SC_ADB_NO_STDOUT | SC_ADB_NO_STDERR | SC_ADB_NO_LOGERR;
// uninterruptible (intr == NULL), but in practice it's very quick
sc_adb_kill_server(NULL, flags);
#endif
static const struct sc_usb_callbacks cbs = {
.on_disconnected = sc_usb_on_disconnected,
};
@@ -93,19 +83,50 @@ scrcpy_otg(struct scrcpy_options *options) {
return false;
}
struct sc_usb_device usb_device;
ok = sc_usb_select_device(&s->usb, serial, &usb_device);
if (!ok) {
struct sc_usb_device usb_devices[16];
ssize_t count = sc_usb_find_devices(&s->usb, serial, usb_devices,
ARRAY_LEN(usb_devices));
if (count < 0) {
LOGE("Could not list USB devices");
goto end;
}
if (count == 0) {
if (serial) {
LOGE("Could not find USB device %s", serial);
} else {
LOGE("Could not find any USB device");
}
goto end;
}
if (count > 1) {
if (serial) {
LOGE("Multiple (%d) USB devices with serial %s:", (int) count,
serial);
} else {
LOGE("Multiple (%d) USB devices:", (int) count);
}
for (size_t i = 0; i < (size_t) count; ++i) {
struct sc_usb_device *d = &usb_devices[i];
LOGE(" %-18s (%04" PRIx16 ":%04" PRIx16 ") %s %s",
d->serial, d->vid, d->pid, d->manufacturer, d->product);
}
if (!serial) {
LOGE("Specify the device via -s or --serial");
}
sc_usb_device_destroy_all(usb_devices, count);
goto end;
}
usb_device_initialized = true;
LOGI("USB device: %s (%04x:%04x) %s %s", usb_device.serial,
(unsigned) usb_device.vid, (unsigned) usb_device.pid,
usb_device.manufacturer, usb_device.product);
struct sc_usb_device *usb_device = &usb_devices[0];
ok = sc_usb_connect(&s->usb, usb_device.device, &cbs, NULL);
LOGI("USB device: %s (%04" PRIx16 ":%04" PRIx16 ") %s %s",
usb_device->serial, usb_device->vid, usb_device->pid,
usb_device->manufacturer, usb_device->product);
ok = sc_usb_connect(&s->usb, usb_device->device, &cbs, NULL);
if (!ok) {
goto end;
}
@@ -152,7 +173,7 @@ scrcpy_otg(struct scrcpy_options *options) {
const char *window_title = options->window_title;
if (!window_title) {
window_title = usb_device.product ? usb_device.product : "scrcpy";
window_title = usb_device->product ? usb_device->product : "scrcpy";
}
struct sc_screen_otg_params params = {
@@ -171,7 +192,7 @@ scrcpy_otg(struct scrcpy_options *options) {
}
// usb_device not needed anymore
sc_usb_device_destroy(&usb_device);
sc_usb_device_destroy(usb_device);
usb_device_initialized = false;
ret = event_loop(s);
@@ -202,7 +223,7 @@ end:
}
if (usb_device_initialized) {
sc_usb_device_destroy(&usb_device);
sc_usb_device_destroy(usb_device);
}
sc_usb_destroy(&s->usb);

55
app/src/usb/screen_otg.c
View File

@@ -5,44 +5,15 @@
#include "util/log.h"
static void
sc_screen_otg_set_mouse_capture(struct sc_screen_otg *screen, bool capture) {
#ifdef __APPLE__
// Workaround for SDL bug on macOS:
// <https://github.com/libsdl-org/SDL/issues/5340>
if (capture) {
int mouse_x, mouse_y;
SDL_GetGlobalMouseState(&mouse_x, &mouse_y);
int x, y, w, h;
SDL_GetWindowPosition(screen->window, &x, &y);
SDL_GetWindowSize(screen->window, &w, &h);
bool outside_window = mouse_x < x || mouse_x >= x + w
|| mouse_y < y || mouse_y >= y + h;
if (outside_window) {
SDL_WarpMouseInWindow(screen->window, w / 2, h / 2);
}
}
#else
(void) screen;
#endif
sc_screen_otg_capture_mouse(struct sc_screen_otg *screen, bool capture) {
assert(screen->mouse);
if (SDL_SetRelativeMouseMode(capture)) {
LOGE("Could not set relative mouse mode to %s: %s",
capture ? "true" : "false", SDL_GetError());
return;
}
}
static inline bool
sc_screen_otg_get_mouse_capture(struct sc_screen_otg *screen) {
(void) screen;
return SDL_GetRelativeMouseMode();
}
static inline void
sc_screen_otg_toggle_mouse_capture(struct sc_screen_otg *screen) {
(void) screen;
bool new_value = !sc_screen_otg_get_mouse_capture(screen);
sc_screen_otg_set_mouse_capture(screen, new_value);
screen->mouse_captured = capture;
}
static void
@@ -60,6 +31,7 @@ sc_screen_otg_init(struct sc_screen_otg *screen,
screen->keyboard = params->keyboard;
screen->mouse = params->mouse;
screen->mouse_captured = false;
screen->mouse_capture_key_pressed = 0;
const char *title = params->window_title;
@@ -109,7 +81,7 @@ sc_screen_otg_init(struct sc_screen_otg *screen,
if (screen->mouse) {
// Capture mouse on start
sc_screen_otg_set_mouse_capture(screen, true);
sc_screen_otg_capture_mouse(screen, true);
}
return true;
@@ -221,7 +193,7 @@ sc_screen_otg_handle_event(struct sc_screen_otg *screen, SDL_Event *event) {
break;
case SDL_WINDOWEVENT_FOCUS_LOST:
if (screen->mouse) {
sc_screen_otg_set_mouse_capture(screen, false);
sc_screen_otg_capture_mouse(screen, false);
}
break;
}
@@ -255,7 +227,8 @@ sc_screen_otg_handle_event(struct sc_screen_otg *screen, SDL_Event *event) {
if (key == cap) {
// A mouse capture key has been pressed then released:
// toggle the capture mouse mode
sc_screen_otg_toggle_mouse_capture(screen);
sc_screen_otg_capture_mouse(screen,
!screen->mouse_captured);
}
// Mouse capture keys are never forwarded to the device
return;
@@ -267,26 +240,26 @@ sc_screen_otg_handle_event(struct sc_screen_otg *screen, SDL_Event *event) {
}
break;
case SDL_MOUSEMOTION:
if (screen->mouse && sc_screen_otg_get_mouse_capture(screen)) {
if (screen->mouse && screen->mouse_captured) {
sc_screen_otg_process_mouse_motion(screen, &event->motion);
}
break;
case SDL_MOUSEBUTTONDOWN:
if (screen->mouse && sc_screen_otg_get_mouse_capture(screen)) {
if (screen->mouse && screen->mouse_captured) {
sc_screen_otg_process_mouse_button(screen, &event->button);
}
break;
case SDL_MOUSEBUTTONUP:
if (screen->mouse) {
if (sc_screen_otg_get_mouse_capture(screen)) {
if (screen->mouse_captured) {
sc_screen_otg_process_mouse_button(screen, &event->button);
} else {
sc_screen_otg_set_mouse_capture(screen, true);
sc_screen_otg_capture_mouse(screen, true);
}
}
break;
case SDL_MOUSEWHEEL:
if (screen->mouse && sc_screen_otg_get_mouse_capture(screen)) {
if (screen->mouse && screen->mouse_captured) {
sc_screen_otg_process_mouse_wheel(screen, &event->wheel);
}
break;

1
app/src/usb/screen_otg.h
View File

@@ -18,6 +18,7 @@ struct sc_screen_otg {
SDL_Texture *texture;
// See equivalent mechanism in screen.h
bool mouse_captured;
SDL_Keycode mouse_capture_key_pressed;
};

211
app/src/usb/usb.c
View File

@@ -3,9 +3,11 @@
#include <assert.h>
#include "util/log.h"
#include "util/vector.h"
struct sc_vec_usb_devices SC_VECTOR(struct sc_usb_device);
static inline void
log_libusb_error(enum libusb_error errcode) {
LOGW("libusb error: %s", libusb_strerror(errcode));
}
static char *
read_string(libusb_device_handle *handle, uint8_t desc_index) {
@@ -28,7 +30,8 @@ read_string(libusb_device_handle *handle, uint8_t desc_index) {
}
static bool
sc_usb_read_device(libusb_device *device, struct sc_usb_device *out) {
accept_device(libusb_device *device, const char *serial,
struct sc_usb_device *out) {
// Do not log any USB error in this function, it is expected that many USB
// devices available on the computer have permission restrictions
@@ -41,11 +44,6 @@ sc_usb_read_device(libusb_device *device, struct sc_usb_device *out) {
libusb_device_handle *handle;
result = libusb_open(device, &handle);
if (result < 0) {
// Log at debug level because it is expected that some non-Android USB
// devices present on the computer require special permissions
LOGD("Open USB device %04x:%04x: libusb error: %s",
(unsigned) desc.idVendor, (unsigned) desc.idProduct,
libusb_strerror(result));
return false;
}
@@ -55,13 +53,22 @@ sc_usb_read_device(libusb_device *device, struct sc_usb_device *out) {
return false;
}
if (serial) {
// Filter by serial
bool matches = !strcmp(serial, device_serial);
if (!matches) {
free(device_serial);
libusb_close(handle);
return false;
}
}
out->device = libusb_ref_device(device);
out->serial = device_serial;
out->vid = desc.idVendor;
out->pid = desc.idProduct;
out->manufacturer = read_string(handle, desc.iManufacturer);
out->product = read_string(handle, desc.iProduct);
out->selected = false;
libusb_close(handle);
@@ -70,151 +77,52 @@ sc_usb_read_device(libusb_device *device, struct sc_usb_device *out) {
void
sc_usb_device_destroy(struct sc_usb_device *usb_device) {
if (usb_device->device) {
libusb_unref_device(usb_device->device);
}
libusb_unref_device(usb_device->device);
free(usb_device->serial);
free(usb_device->manufacturer);
free(usb_device->product);
}
void
sc_usb_device_move(struct sc_usb_device *dst, struct sc_usb_device *src) {
*dst = *src;
src->device = NULL;
src->serial = NULL;
src->manufacturer = NULL;
src->product = NULL;
}
void
sc_usb_devices_destroy(struct sc_vec_usb_devices *usb_devices) {
for (size_t i = 0; i < usb_devices->size; ++i) {
sc_usb_device_destroy(&usb_devices->data[i]);
sc_usb_device_destroy_all(struct sc_usb_device *usb_devices, size_t count) {
for (size_t i = 0; i < count; ++i) {
sc_usb_device_destroy(&usb_devices[i]);
}
sc_vector_destroy(usb_devices);
}
static bool
sc_usb_list_devices(struct sc_usb *usb, struct sc_vec_usb_devices *out_vec) {
ssize_t
sc_usb_find_devices(struct sc_usb *usb, const char *serial,
struct sc_usb_device *devices, size_t len) {
libusb_device **list;
ssize_t count = libusb_get_device_list(usb->context, &list);
if (count < 0) {
LOGE("List USB devices: libusb error: %s", libusb_strerror(count));
return false;
log_libusb_error((enum libusb_error) count);
return -1;
}
for (size_t i = 0; i < (size_t) count; ++i) {
size_t idx = 0;
for (size_t i = 0; i < (size_t) count && idx < len; ++i) {
libusb_device *device = list[i];
struct sc_usb_device usb_device;
if (sc_usb_read_device(device, &usb_device)) {
bool ok = sc_vector_push(out_vec, usb_device);
if (!ok) {
LOG_OOM();
LOGE("Could not push usb_device to vector");
sc_usb_device_destroy(&usb_device);
// continue anyway
}
if (accept_device(device, serial, &devices[idx])) {
++idx;
}
}
libusb_free_device_list(list, 1);
return true;
return idx;
}
static bool
sc_usb_accept_device(const struct sc_usb_device *device, const char *serial) {
if (!serial) {
return true;
static libusb_device_handle *
sc_usb_open_handle(libusb_device *device) {
libusb_device_handle *handle;
int result = libusb_open(device, &handle);
if (result < 0) {
log_libusb_error((enum libusb_error) result);
return NULL;
}
return !strcmp(serial, device->serial);
}
static size_t
sc_usb_devices_select(struct sc_usb_device *devices, size_t len,
const char *serial, size_t *idx_out) {
size_t count = 0;
for (size_t i = 0; i < len; ++i) {
struct sc_usb_device *device = &devices[i];
device->selected = sc_usb_accept_device(device, serial);
if (device->selected) {
if (idx_out && !count) {
*idx_out = i;
}
++count;
}
}
return count;
}
static void
sc_usb_devices_log(enum sc_log_level level, struct sc_usb_device *devices,
size_t count) {
for (size_t i = 0; i < count; ++i) {
struct sc_usb_device *d = &devices[i];
const char *selection = d->selected ? "-->" : " ";
// Convert uint16_t to unsigned because PRIx16 may not exist on Windows
LOG(level, " %s %-18s (%04x:%04x) %s %s",
selection, d->serial, (unsigned) d->vid, (unsigned) d->pid,
d->manufacturer, d->product);
}
}
bool
sc_usb_select_device(struct sc_usb *usb, const char *serial,
struct sc_usb_device *out_device) {
struct sc_vec_usb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_usb_list_devices(usb, &vec);
if (!ok) {
LOGE("Could not list USB devices");
return false;
}
if (vec.size == 0) {
LOGE("Could not find any USB device");
return false;
}
size_t sel_idx; // index of the single matching device if sel_count == 1
size_t sel_count =
sc_usb_devices_select(vec.data, vec.size, serial, &sel_idx);
if (sel_count == 0) {
// if count > 0 && sel_count == 0, then necessarily a serial is provided
assert(serial);
LOGE("Could not find USB device %s", serial);
sc_usb_devices_log(SC_LOG_LEVEL_ERROR, vec.data, vec.size);
sc_usb_devices_destroy(&vec);
return false;
}
if (sel_count > 1) {
if (serial) {
LOGE("Multiple (%" SC_PRIsizet ") USB devices with serial %s:",
sel_count, serial);
} else {
LOGE("Multiple (%" SC_PRIsizet ") USB devices:", sel_count);
}
sc_usb_devices_log(SC_LOG_LEVEL_ERROR, vec.data, vec.size);
LOGE("Select a device via -s (--serial)");
sc_usb_devices_destroy(&vec);
return false;
}
assert(sel_count == 1); // sel_idx is valid only if sel_count == 1
struct sc_usb_device *device = &vec.data[sel_idx];
LOGD("USB device found:");
sc_usb_devices_log(SC_LOG_LEVEL_DEBUG, vec.data, vec.size);
// Move device into out_device (do not destroy device)
sc_usb_device_move(out_device, device);
sc_usb_devices_destroy(&vec);
return true;
}
return handle;
}
bool
sc_usb_init(struct sc_usb *usb) {
@@ -227,25 +135,7 @@ sc_usb_destroy(struct sc_usb *usb) {
libusb_exit(usb->context);
}
static void
sc_usb_report_disconnected(struct sc_usb *usb) {
if (usb->cbs && !atomic_flag_test_and_set(&usb->disconnection_notified)) {
assert(usb->cbs && usb->cbs->on_disconnected);
usb->cbs->on_disconnected(usb, usb->cbs_userdata);
}
}
bool
sc_usb_check_disconnected(struct sc_usb *usb, int result) {
if (result == LIBUSB_ERROR_NO_DEVICE || result == LIBUSB_ERROR_NOT_FOUND) {
sc_usb_report_disconnected(usb);
return false;
}
return true;
}
static LIBUSB_CALL int
static int
sc_usb_libusb_callback(libusb_context *ctx, libusb_device *device,
libusb_hotplug_event event, void *userdata) {
(void) ctx;
@@ -261,7 +151,8 @@ sc_usb_libusb_callback(libusb_context *ctx, libusb_device *device,
return 0;
}
sc_usb_report_disconnected(usb);
assert(usb->cbs && usb->cbs->on_disconnected);
usb->cbs->on_disconnected(usb, usb->cbs_userdata);
// Do not automatically deregister the callback by returning 1. Instead,
// manually deregister to interrupt libusb_handle_events() from the libusb
@@ -282,8 +173,7 @@ run_libusb_event_handler(void *data) {
static bool
sc_usb_register_callback(struct sc_usb *usb) {
if (!libusb_has_capability(LIBUSB_CAP_HAS_HOTPLUG)) {
LOGW("On this platform, libusb does not have hotplug capability; "
"device disconnection will not be detected properly");
LOGW("libusb does not have hotplug capability");
return false;
}
@@ -293,7 +183,8 @@ sc_usb_register_callback(struct sc_usb *usb) {
struct libusb_device_descriptor desc;
int result = libusb_get_device_descriptor(device, &desc);
if (result < 0) {
LOGE("Device descriptor: libusb error: %s", libusb_strerror(result));
log_libusb_error((enum libusb_error) result);
LOGW("Could not read USB device descriptor");
return false;
}
@@ -307,8 +198,8 @@ sc_usb_register_callback(struct sc_usb *usb) {
sc_usb_libusb_callback, usb,
&usb->callback_handle);
if (result < 0) {
LOGE("Register hotplog callback: libusb error: %s",
libusb_strerror(result));
log_libusb_error((enum libusb_error) result);
LOGW("Could not register USB callback");
return false;
}
@@ -319,9 +210,8 @@ sc_usb_register_callback(struct sc_usb *usb) {
bool
sc_usb_connect(struct sc_usb *usb, libusb_device *device,
const struct sc_usb_callbacks *cbs, void *cbs_userdata) {
int result = libusb_open(device, &usb->handle);
if (result < 0) {
LOGE("Open USB device: libusb error: %s", libusb_strerror(result));
usb->handle = sc_usb_open_handle(device);
if (!usb->handle) {
return false;
}
@@ -335,7 +225,6 @@ sc_usb_connect(struct sc_usb *usb, libusb_device *device,
if (cbs) {
atomic_init(&usb->stopped, false);
usb->disconnection_notified = (atomic_flag) ATOMIC_FLAG_INIT;
if (sc_usb_register_callback(usb)) {
// Create a thread to process libusb events, so that device
// disconnection could be detected immediately
@@ -346,6 +235,8 @@ sc_usb_connect(struct sc_usb *usb, libusb_device *device,
LOGW("Libusb event thread handler could not be created, USB "
"device disconnection might not be detected immediately");
}
} else {
LOGW("Could not register USB device disconnection callback");
}
}

27
app/src/usb/usb.h
View File

@@ -22,7 +22,6 @@ struct sc_usb {
sc_thread libusb_event_thread;
atomic_bool stopped; // only used if cbs != NULL
atomic_flag disconnection_notified;
};
struct sc_usb_callbacks {
@@ -36,26 +35,13 @@ struct sc_usb_device {
char *product;
uint16_t vid;
uint16_t pid;
bool selected;
};
void
sc_usb_device_destroy(struct sc_usb_device *usb_device);
/**
* Move src to dst
*
* After this call, the content of src is undefined, except that
* sc_usb_device_destroy() can be called.
*
* This is useful to take a device from a list that will be destroyed, without
* making unnecessary copies.
*/
void
sc_usb_device_move(struct sc_usb_device *dst, struct sc_usb_device *src);
void
sc_usb_devices_destroy_all(struct sc_usb_device *usb_devices, size_t count);
sc_usb_device_destroy_all(struct sc_usb_device *usb_devices, size_t count);
bool
sc_usb_init(struct sc_usb *usb);
@@ -63,9 +49,9 @@ sc_usb_init(struct sc_usb *usb);
void
sc_usb_destroy(struct sc_usb *usb);
bool
sc_usb_select_device(struct sc_usb *usb, const char *serial,
struct sc_usb_device *out_device);
ssize_t
sc_usb_find_devices(struct sc_usb *usb, const char *serial,
struct sc_usb_device *devices, size_t len);
bool
sc_usb_connect(struct sc_usb *usb, libusb_device *device,
@@ -74,11 +60,6 @@ sc_usb_connect(struct sc_usb *usb, libusb_device *device,
void
sc_usb_disconnect(struct sc_usb *usb);
// A client should call this function with the return value of a libusb call
// to detect disconnection immediately
bool
sc_usb_check_disconnected(struct sc_usb *usb, int result);
void
sc_usb_stop(struct sc_usb *usb);

24
app/src/util/buffer_util.h
View File

@@ -1,5 +1,5 @@
#ifndef SC_BUFFER_UTIL_H
#define SC_BUFFER_UTIL_H
#ifndef BUFFER_UTIL_H
#define BUFFER_UTIL_H
#include "common.h"
@@ -7,13 +7,13 @@
#include <stdint.h>
static inline void
sc_write16be(uint8_t *buf, uint16_t value) {
buffer_write16be(uint8_t *buf, uint16_t value) {
buf[0] = value >> 8;
buf[1] = value;
}
static inline void
sc_write32be(uint8_t *buf, uint32_t value) {
buffer_write32be(uint8_t *buf, uint32_t value) {
buf[0] = value >> 24;
buf[1] = value >> 16;
buf[2] = value >> 8;
@@ -21,25 +21,25 @@ sc_write32be(uint8_t *buf, uint32_t value) {
}
static inline void
sc_write64be(uint8_t *buf, uint64_t value) {
sc_write32be(buf, value >> 32);
sc_write32be(&buf[4], (uint32_t) value);
buffer_write64be(uint8_t *buf, uint64_t value) {
buffer_write32be(buf, value >> 32);
buffer_write32be(&buf[4], (uint32_t) value);
}
static inline uint16_t
sc_read16be(const uint8_t *buf) {
buffer_read16be(const uint8_t *buf) {
return (buf[0] << 8) | buf[1];
}
static inline uint32_t
sc_read32be(const uint8_t *buf) {
buffer_read32be(const uint8_t *buf) {
return ((uint32_t) buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3];
}
static inline uint64_t
sc_read64be(const uint8_t *buf) {
uint32_t msb = sc_read32be(buf);
uint32_t lsb = sc_read32be(&buf[4]);
buffer_read64be(const uint8_t *buf) {
uint32_t msb = buffer_read32be(buf);
uint32_t lsb = buffer_read32be(&buf[4]);
return ((uint64_t) msb << 32) | lsb;
}

10
app/src/util/log.c
View File

@@ -55,16 +55,6 @@ sc_get_log_level(void) {
return log_level_sdl_to_sc(sdl_log);
}
void
sc_log(enum sc_log_level level, const char *fmt, ...) {
SDL_LogPriority sdl_level = log_level_sc_to_sdl(level);
va_list ap;
va_start(ap, fmt);
SDL_LogMessageV(SDL_LOG_CATEGORY_APPLICATION, sdl_level, fmt, ap);
va_end(ap);
}
#ifdef _WIN32
bool
sc_log_windows_error(const char *prefix, int error) {

7
app/src/util/log.h
View File

@@ -15,9 +15,10 @@
#define LOGI(...) SDL_LogInfo(SDL_LOG_CATEGORY_APPLICATION, __VA_ARGS__)
#define LOGW(...) SDL_LogWarn(SDL_LOG_CATEGORY_APPLICATION, __VA_ARGS__)
#define LOGE(...) SDL_LogError(SDL_LOG_CATEGORY_APPLICATION, __VA_ARGS__)
#define LOGC(...) SDL_LogCritical(SDL_LOG_CATEGORY_APPLICATION, __VA_ARGS__)
#define LOG_OOM() \
LOGE("OOM: %s:%d %s()", __FILE__, __LINE__, __func__)
LOGC("OOM: %s:%d %s()", __FILE__, __LINE__, __func__)
void
sc_set_log_level(enum sc_log_level level);
@@ -25,10 +26,6 @@ sc_set_log_level(enum sc_log_level level);
enum sc_log_level
sc_get_log_level(void);
void
sc_log(enum sc_log_level level, const char *fmt, ...);
#define LOG(LEVEL, ...) sc_log((LEVEL), __VA_ARGS__)
#ifdef _WIN32
// Log system error (typically returned by GetLastError() or similar)
bool

2
app/src/util/net.c
View File

@@ -33,7 +33,7 @@ net_init(void) {
WSADATA wsa;
int res = WSAStartup(MAKEWORD(2, 2), &wsa) < 0;
if (res < 0) {
LOGE("WSAStartup failed with error %d", res);
LOGC("WSAStartup failed with error %d", res);
return false;
}
#endif

3
app/src/util/process.h
View File

@@ -12,6 +12,8 @@
# include <winsock2.h>
# include <windows.h>
# define SC_PRIexitcode "lu"
// <https://stackoverflow.com/a/44383330/1987178>
# define SC_PRIsizet "Iu"
# define SC_PROCESS_NONE NULL
# define SC_EXIT_CODE_NONE -1UL // max value as unsigned long
typedef HANDLE sc_pid;
@@ -21,6 +23,7 @@
#else
# include <sys/types.h>
# define SC_PRIsizet "zu"
# define SC_PRIexitcode "d"
# define SC_PROCESS_NONE -1
# define SC_EXIT_CODE_NONE -1

14
app/src/util/process_intr.c
View File

@@ -3,33 +3,27 @@
ssize_t
sc_pipe_read_intr(struct sc_intr *intr, sc_pid pid, sc_pipe pipe, char *data,
size_t len) {
if (intr && !sc_intr_set_process(intr, pid)) {
if (!sc_intr_set_process(intr, pid)) {
// Already interrupted
return false;
}
ssize_t ret = sc_pipe_read(pipe, data, len);
if (intr) {
sc_intr_set_process(intr, SC_PROCESS_NONE);
}
sc_intr_set_process(intr, SC_PROCESS_NONE);
return ret;
}
ssize_t
sc_pipe_read_all_intr(struct sc_intr *intr, sc_pid pid, sc_pipe pipe,
char *data, size_t len) {
if (intr && !sc_intr_set_process(intr, pid)) {
if (!sc_intr_set_process(intr, pid)) {
// Already interrupted
return false;
}
ssize_t ret = sc_pipe_read_all(pipe, data, len);
if (intr) {
sc_intr_set_process(intr, SC_PROCESS_NONE);
}
sc_intr_set_process(intr, SC_PROCESS_NONE);
return ret;
}

8
app/src/util/str.c
View File

@@ -297,6 +297,14 @@ error:
return NULL;
}
size_t
sc_str_truncate(char *data, size_t len, const char *endchars) {
data[len - 1] = '\0';
size_t idx = strcspn(data, endchars);
data[idx] = '\0';
return idx;
}
ssize_t
sc_str_index_of_column(const char *s, unsigned col, const char *seps) {
size_t colidx = 0;

11
app/src/util/str.h
View File

@@ -103,6 +103,17 @@ sc_str_from_wchars(const wchar_t *s);
char *
sc_str_wrap_lines(const char *input, unsigned columns, unsigned indent);
/**
* Truncate the data after any of the characters from `endchars`
*
* An '\0' is always written at the end of the data, even if no newline
* character is encountered.
*
* Return the size of the resulting line.
*/
size_t
sc_str_truncate(char *data, size_t len, const char *endchars);
/**
* Find the start of a column in a string
*

18
app/src/util/thread.c
View File

@@ -54,7 +54,7 @@ sc_mutex_lock(sc_mutex *mutex) {
int r = SDL_LockMutex(mutex->mutex);
#ifndef NDEBUG
if (r) {
LOGE("Could not lock mutex: %s", SDL_GetError());
LOGC("Could not lock mutex: %s", SDL_GetError());
abort();
}
@@ -74,7 +74,7 @@ sc_mutex_unlock(sc_mutex *mutex) {
int r = SDL_UnlockMutex(mutex->mutex);
#ifndef NDEBUG
if (r) {
LOGE("Could not lock mutex: %s", SDL_GetError());
LOGC("Could not lock mutex: %s", SDL_GetError());
abort();
}
#else
@@ -118,7 +118,7 @@ sc_cond_wait(sc_cond *cond, sc_mutex *mutex) {
int r = SDL_CondWait(cond->cond, mutex->mutex);
#ifndef NDEBUG
if (r) {
LOGE("Could not wait on condition: %s", SDL_GetError());
LOGC("Could not wait on condition: %s", SDL_GetError());
abort();
}
@@ -136,13 +136,11 @@ sc_cond_timedwait(sc_cond *cond, sc_mutex *mutex, sc_tick deadline) {
return false; // timeout
}
// Round up to the next millisecond to guarantee that the deadline is
// reached when returning due to timeout
uint32_t ms = SC_TICK_TO_MS(deadline - now + SC_TICK_FROM_MS(1) - 1);
uint32_t ms = SC_TICK_TO_MS(deadline - now);
int r = SDL_CondWaitTimeout(cond->cond, mutex->mutex, ms);
#ifndef NDEBUG
if (r < 0) {
LOGE("Could not wait on condition with timeout: %s", SDL_GetError());
LOGC("Could not wait on condition with timeout: %s", SDL_GetError());
abort();
}
@@ -150,8 +148,6 @@ sc_cond_timedwait(sc_cond *cond, sc_mutex *mutex, sc_tick deadline) {
memory_order_relaxed);
#endif
assert(r == 0 || r == SDL_MUTEX_TIMEDOUT);
// The deadline is reached on timeout
assert(r != SDL_MUTEX_TIMEDOUT || sc_tick_now() >= deadline);
return r == 0;
}
@@ -160,7 +156,7 @@ sc_cond_signal(sc_cond *cond) {
int r = SDL_CondSignal(cond->cond);
#ifndef NDEBUG
if (r) {
LOGE("Could not signal a condition: %s", SDL_GetError());
LOGC("Could not signal a condition: %s", SDL_GetError());
abort();
}
#else
@@ -173,7 +169,7 @@ sc_cond_broadcast(sc_cond *cond) {
int r = SDL_CondBroadcast(cond->cond);
#ifndef NDEBUG
if (r) {
LOGE("Could not broadcast a condition: %s", SDL_GetError());
LOGC("Could not broadcast a condition: %s", SDL_GetError());
abort();
}
#else

539
app/src/util/vector.h
View File

@@ -1,539 +0,0 @@
#ifndef SC_VECTOR_H
#define SC_VECTOR_H
#include "common.h"
#include <stdbool.h>
#include <stddef.h>
// Adapted from vlc_vector:
// <https://code.videolan.org/videolan/vlc/-/blob/0857947abaed9c89810cd96353aaa1b7e6ba3b0d/include/vlc_vector.h>
/**
* Vector struct body
*
* A vector is a dynamic array, managed by the sc_vector_* helpers.
*
* It is generic over the type of its items, so it is implemented as macros.
*
* To use a vector, a new type must be defined:
*
* struct vec_int SC_VECTOR(int);
*
* The struct may be anonymous:
*
* struct SC_VECTOR(const char *) names;
*
* Vector size is accessible via `vec.size`, and items are intended to be
* accessed directly, via `vec.data[i]`.
*
* Functions and macros having name ending with '_' are private.
*/
#define SC_VECTOR(type) \
{ \
size_t cap; \
size_t size; \
type *data; \
}
/**
* Static initializer for a vector
*/
#define SC_VECTOR_INITIALIZER { 0, 0, NULL }
/**
* Initialize an empty vector
*/
#define sc_vector_init(pv) \
({ \
(pv)->cap = 0; \
(pv)->size = 0; \
(pv)->data = NULL; \
})
/**
* Destroy a vector
*
* The vector may not be used anymore unless sc_vector_init() is called.
*/
#define sc_vector_destroy(pv) \
free((pv)->data)
/**
* Clear a vector
*
* Remove all items from the vector.
*/
#define sc_vector_clear(pv) \
({ \
sc_vector_destroy(pv); \
sc_vector_init(pv);\
})
/**
* The minimal allocation size, in number of items
*
* Private.
*/
#define SC_VECTOR_MINCAP_ ((size_t) 10)
static inline size_t
sc_vector_min_(size_t a, size_t b)
{
return a < b ? a : b;
}
static inline size_t
sc_vector_max_(size_t a, size_t b)
{
return a > b ? a : b;
}
static inline size_t
sc_vector_clamp_(size_t x, size_t min, size_t max)
{
return sc_vector_max_(min, sc_vector_min_(max, x));
}
/**
* Realloc data and update vector fields
*
* On reallocation success, update the vector capacity (*pcap) and size
* (*psize), and return the reallocated data.
*
* On reallocation failure, return NULL without any change.
*
* Private.
*
* \param ptr the current `data` field of the vector to realloc
* \param count the requested capacity, in number of items
* \param size the size of one item
* \param pcap a pointer to the `cap` field of the vector [IN/OUT]
* \param psize a pointer to the `size` field of the vector [IN/OUT]
* \return the new ptr on success, NULL on error
*/
static inline void *
sc_vector_reallocdata_(void *ptr, size_t count, size_t size,
size_t *restrict pcap, size_t *restrict psize)
{
void *p = realloc(ptr, count * size);
if (!p) {
return NULL;
}
*pcap = count;
*psize = sc_vector_min_(*psize, count);
return p;
}
#define sc_vector_realloc_(pv, newcap) \
({ \
void *p = sc_vector_reallocdata_((pv)->data, newcap, sizeof(*(pv)->data), \
&(pv)->cap, &(pv)->size); \
if (p) { \
(pv)->data = p; \
} \
(bool) p; \
});
#define sc_vector_resize_(pv, newcap) \
({ \
bool ok; \
if ((pv)->cap == (newcap)) { \
ok = true; \
} else if ((newcap) > 0) { \
ok = sc_vector_realloc_(pv, (newcap)); \
} else { \
sc_vector_clear(pv); \
ok = true; \
} \
ok; \
})
static inline size_t
sc_vector_growsize_(size_t value)
{
/* integer multiplication by 1.5 */
return value + (value >> 1);
}
/* SIZE_MAX/2 to fit in ssize_t, and so that cap*1.5 does not overflow. */
#define sc_vector_max_cap_(pv) (SIZE_MAX / 2 / sizeof(*(pv)->data))
/**
* Increase the capacity of the vector to at least `mincap`
*
* \param pv a pointer to the vector
* \param mincap (size_t) the requested capacity
* \retval true if no allocation failed
* \retval false on allocation failure (the vector is left untouched)
*/
#define sc_vector_reserve(pv, mincap) \
({ \
bool ok; \
/* avoid to allocate tiny arrays (< SC_VECTOR_MINCAP_) */ \
size_t mincap_ = sc_vector_max_(mincap, SC_VECTOR_MINCAP_); \
if (mincap_ <= (pv)->cap) { \
/* nothing to do */ \
ok = true; \
} else if (mincap_ <= sc_vector_max_cap_(pv)) { \
/* not too big */ \
size_t newsize = sc_vector_growsize_((pv)->cap); \
newsize = sc_vector_clamp_(newsize, mincap_, sc_vector_max_cap_(pv)); \
ok = sc_vector_realloc_(pv, newsize); \
} else { \
ok = false; \
} \
ok; \
})
#define sc_vector_shrink_to_fit(pv) \
/* decreasing the size may not fail */ \
(void) sc_vector_resize_(pv, (pv)->size)
/**
* Resize the vector down automatically
*
* Shrink only when necessary (in practice when cap > (size+5)*1.5)
*
* \param pv a pointer to the vector
*/
#define sc_vector_autoshrink(pv) \
({ \
bool must_shrink = \
/* do not shrink to tiny size */ \
(pv)->cap > SC_VECTOR_MINCAP_ && \
/* no need to shrink */ \
(pv)->cap >= sc_vector_growsize_((pv)->size + 5); \
if (must_shrink) { \
size_t newsize = sc_vector_max_((pv)->size + 5, SC_VECTOR_MINCAP_); \
sc_vector_resize_(pv, newsize); \
} \
})
#define sc_vector_check_same_ptr_type_(a, b) \
(void) ((a) == (b)) /* warn on type mismatch */
/**
* Push an item at the end of the vector
*
* The amortized complexity is O(1).
*
* \param pv a pointer to the vector
* \param item the item to append
* \retval true if no allocation failed
* \retval false on allocation failure (the vector is left untouched)
*/
#define sc_vector_push(pv, item) \
({ \
bool ok = sc_vector_reserve(pv, (pv)->size + 1); \
if (ok) { \
(pv)->data[(pv)->size++] = (item); \
} \
ok; \
})
/**
* Append `count` items at the end of the vector
*
* \param pv a pointer to the vector
* \param items the items array to append
* \param count the number of items in the array
* \retval true if no allocation failed
* \retval false on allocation failure (the vector is left untouched)
*/
#define sc_vector_push_all(pv, items, count) \
sc_vector_push_all_(pv, items, (size_t) count)
#define sc_vector_push_all_(pv, items, count) \
({ \
sc_vector_check_same_ptr_type_((pv)->data, items); \
bool ok = sc_vector_reserve(pv, (pv)->size + (count)); \
if (ok) { \
memcpy(&(pv)->data[(pv)->size], items, (count) * sizeof(*(pv)->data)); \
(pv)->size += count; \
} \
ok; \
})
/**
* Insert an hole of size `count` to the given index
*
* The items in range [index; size-1] will be moved. The items in the hole are
* left uninitialized.
*
* \param pv a pointer to the vector
* \param index the index where the hole is to be inserted
* \param count the number of items in the hole
* \retval true if no allocation failed
* \retval false on allocation failure (the vector is left untouched)
*/
#define sc_vector_insert_hole(pv, index, count) \
sc_vector_insert_hole_(pv, (size_t) index, (size_t) count);
#define sc_vector_insert_hole_(pv, index, count) \
({ \
bool ok = sc_vector_reserve(pv, (pv)->size + (count)); \
if (ok) { \
if ((index) < (pv)->size) { \
memmove(&(pv)->data[(index) + (count)], \
&(pv)->data[(index)], \
((pv)->size - (index)) * sizeof(*(pv)->data)); \
} \
(pv)->size += count; \
} \
ok; \
})
/**
* Insert an item at the given index
*
* The items in range [index; size-1] will be moved.
*
* \param pv a pointer to the vector
* \param index the index where the item is to be inserted
* \param item the item to append
* \retval true if no allocation failed
* \retval false on allocation failure (the vector is left untouched)
*/
#define sc_vector_insert(pv, index, item) \
sc_vector_insert_(pv, (size_t) index, (size_t) item);
#define sc_vector_insert_(pv, index, item) \
({ \
bool ok = sc_vector_insert_hole_(pv, index, 1); \
if (ok) { \
(pv)->data[index] = (item); \
} \
ok; \
})
/**
* Insert `count` items at the given index
*
* The items in range [index; size-1] will be moved.
*
* \param pv a pointer to the vector
* \param index the index where the items are to be inserted
* \param items the items array to append
* \param count the number of items in the array
* \retval true if no allocation failed
* \retval false on allocation failure (the vector is left untouched)
*/
#define sc_vector_insert_all(pv, index, items, count) \
sc_vector_insert_all_(pv, (size_t) index, items, (size_t) count)
#define sc_vector_insert_all_(pv, index, items, count) \
({ \
sc_vector_check_same_ptr_type_((pv)->data, items); \
bool ok = sc_vector_insert_hole_(pv, index, count); \
if (ok) { \
memcpy(&(pv)->data[index], items, count * sizeof(*(pv)->data)); \
} \
ok; \
})
/** Reverse a char array in place */
static inline void
sc_char_array_reverse(char *array, size_t len)
{
for (size_t i = 0; i < len / 2; ++i)
{
char c = array[i];
array[i] = array[len - i - 1];
array[len - i - 1] = c;
}
}
/**
* Right-rotate a (char) array in place
*
* For example, left-rotating a char array containing {1, 2, 3, 4, 5, 6} with
* distance 4 will result in {5, 6, 1, 2, 3, 4}.
*
* Private.
*/
static inline void
sc_char_array_rotate_left(char *array, size_t len, size_t distance)
{
sc_char_array_reverse(array, distance);
sc_char_array_reverse(&array[distance], len - distance);
sc_char_array_reverse(array, len);
}
/**
* Right-rotate a (char) array in place
*
* For example, left-rotating a char array containing {1, 2, 3, 4, 5, 6} with
* distance 2 will result in {5, 6, 1, 2, 3, 4}.
*
* Private.
*/
static inline void
sc_char_array_rotate_right(char *array, size_t len, size_t distance)
{
sc_char_array_rotate_left(array, len, len - distance);
}
/**
* Move items in a (char) array in place
*
* Move slice [index, count] to target.
*/
static inline void
sc_char_array_move(char *array, size_t idx, size_t count, size_t target)
{
if (idx < target) {
sc_char_array_rotate_left(&array[idx], target - idx + count, count);
} else {
sc_char_array_rotate_right(&array[target], idx - target + count, count);
}
}
/**
* Move a slice of items to a given target index
*
* The items in range [index; count] will be moved so that the *new* position
* of the first item is `target`.
*
* \param pv a pointer to the vector
* \param index the index of the first item to move
* \param count the number of items to move
* \param target the new index of the moved slice
*/
#define sc_vector_move_slice(pv, index, count, target) \
sc_vector_move_slice_(pv, (size_t) index, count, (size_t) target);
#define sc_vector_move_slice_(pv, index, count, target) \
({ \
sc_char_array_move((char *) (pv)->data, \
(index) * sizeof(*(pv)->data), \
(count) * sizeof(*(pv)->data), \
(target) * sizeof(*(pv)->data)); \
})
/**
* Move an item to a given target index
*
* The items will be moved so that its *new* position is `target`.
*
* \param pv a pointer to the vector
* \param index the index of the item to move
* \param target the new index of the moved item
*/
#define sc_vector_move(pv, index, target) \
sc_vector_move_slice(pv, index, 1, target)
/**
* Remove a slice of items, without shrinking the array
*
* If you have no good reason to use the _noshrink() version, use
* sc_vector_remove_slice() instead.
*
* The items in range [index+count; size-1] will be moved.
*
* \param pv a pointer to the vector
* \param index the index of the first item to remove
* \param count the number of items to remove
*/
#define sc_vector_remove_slice_noshrink(pv, index, count) \
sc_vector_remove_slice_noshrink_(pv, (size_t) index, (size_t) count)
#define sc_vector_remove_slice_noshrink_(pv, index, count) \
({ \
if ((index) + (count) < (pv)->size) { \
memmove(&(pv)->data[index], \
&(pv)->data[(index) + (count)], \
((pv)->size - (index) - (count)) * sizeof(*(pv)->data)); \
} \
(pv)->size -= count; \
})
/**
* Remove a slice of items
*
* The items in range [index+count; size-1] will be moved.
*
* \param pv a pointer to the vector
* \param index the index of the first item to remove
* \param count the number of items to remove
*/
#define sc_vector_remove_slice(pv, index, count) \
({ \
sc_vector_remove_slice_noshrink(pv, index, count); \
sc_vector_autoshrink(pv); \
})
/**
* Remove an item, without shrinking the array
*
* If you have no good reason to use the _noshrink() version, use
* sc_vector_remove() instead.
*
* The items in range [index+1; size-1] will be moved.
*
* \param pv a pointer to the vector
* \param index the index of item to remove
*/
#define sc_vector_remove_noshrink(pv, index) \
sc_vector_remove_slice_noshrink(pv, index, 1)
/**
* Remove an item
*
* The items in range [index+1; size-1] will be moved.
*
* \param pv a pointer to the vector
* \param index the index of item to remove
*/
#define sc_vector_remove(pv, index) \
({ \
sc_vector_remove_noshrink(pv, index); \
sc_vector_autoshrink(pv); \
})
/**
* Remove an item
*
* The removed item is replaced by the last item of the vector.
*
* This does not preserve ordering, but is O(1). This is useful when the order
* of items is not meaningful.
*
* \param pv a pointer to the vector
* \param index the index of item to remove
*/
#define sc_vector_swap_remove(pv, index) \
sc_vector_swap_remove_(pv, (size_t) index);
#define sc_vector_swap_remove_(pv, index) \
({ \
(pv)->data[index] = (pv)->data[(pv)->size-1]; \
(pv)->size--; \
});
/**
* Return the index of an item
*
* Iterate over all items to find a given item.
*
* Use only for vectors of primitive types or pointers.
*
* Return the index, or -1 if not found.
*
* \param pv a pointer to the vector
* \param item the item to find (compared with ==)
*/
#define sc_vector_index_of(pv, item) \
({ \
ssize_t idx = -1; \
for (size_t i = 0; i < (pv)->size; ++i) { \
if ((pv)->data[i] == (item)) { \
idx = (ssize_t) i; \
break; \
} \
} \
idx; \
})
#endif

2
app/src/v4l2_sink.c
View File

@@ -274,7 +274,7 @@ sc_v4l2_sink_open(struct sc_v4l2_sink *vs) {
LOGD("Starting v4l2 thread");
ok = sc_thread_create(&vs->thread, run_v4l2_sink, "scrcpy-v4l2", vs);
if (!ok) {
LOGE("Could not start v4l2 thread");
LOGC("Could not start v4l2 thread");
goto error_av_packet_free;
}

67
app/src/version.c
View File

@@ -1,67 +0,0 @@
#include "version.h"
#include <libavcodec/avcodec.h>
#include <libavformat/avformat.h>
#include <libavutil/avutil.h>
#ifdef HAVE_V4L2
# include <libavdevice/avdevice.h>
#endif
#ifdef HAVE_USB
# include <libusb-1.0/libusb.h>
#endif
void
scrcpy_print_version(void) {
printf("\nDependencies (compiled / linked):\n");
SDL_version sdl;
SDL_GetVersion(&sdl);
printf(" - SDL: %u.%u.%u / %u.%u.%u\n",
SDL_MAJOR_VERSION, SDL_MINOR_VERSION, SDL_PATCHLEVEL,
(unsigned) sdl.major, (unsigned) sdl.minor, (unsigned) sdl.patch);
unsigned avcodec = avcodec_version();
printf(" - libavcodec: %u.%u.%u / %u.%u.%u\n",
LIBAVCODEC_VERSION_MAJOR,
LIBAVCODEC_VERSION_MINOR,
LIBAVCODEC_VERSION_MICRO,
AV_VERSION_MAJOR(avcodec),
AV_VERSION_MINOR(avcodec),
AV_VERSION_MICRO(avcodec));
unsigned avformat = avformat_version();
printf(" - libavformat: %u.%u.%u / %u.%u.%u\n",
LIBAVFORMAT_VERSION_MAJOR,
LIBAVFORMAT_VERSION_MINOR,
LIBAVFORMAT_VERSION_MICRO,
AV_VERSION_MAJOR(avformat),
AV_VERSION_MINOR(avformat),
AV_VERSION_MICRO(avformat));
unsigned avutil = avutil_version();
printf(" - libavutil: %u.%u.%u / %u.%u.%u\n",
LIBAVUTIL_VERSION_MAJOR,
LIBAVUTIL_VERSION_MINOR,
LIBAVUTIL_VERSION_MICRO,
AV_VERSION_MAJOR(avutil),
AV_VERSION_MINOR(avutil),
AV_VERSION_MICRO(avutil));
#ifdef HAVE_V4L2
unsigned avdevice = avdevice_version();
printf(" - libavdevice: %u.%u.%u / %u.%u.%u\n",
LIBAVDEVICE_VERSION_MAJOR,
LIBAVDEVICE_VERSION_MINOR,
LIBAVDEVICE_VERSION_MICRO,
AV_VERSION_MAJOR(avdevice),
AV_VERSION_MINOR(avdevice),
AV_VERSION_MICRO(avdevice));
#endif
#ifdef HAVE_USB
const struct libusb_version *usb = libusb_get_version();
// The compiled version may not be known
printf(" - libusb: - / %u.%u.%u\n",
(unsigned) usb->major, (unsigned) usb->minor, (unsigned) usb->micro);
#endif
}

9
app/src/version.h
View File

@@ -1,9 +0,0 @@
#ifndef SC_VERSION_H
#define SC_VERSION_H
#include "common.h"
void
scrcpy_print_version(void);
#endif

193
app/tests/test_adb_parser.c
View File

@@ -2,172 +2,13 @@
#include <assert.h>
#include "adb/adb_device.h"
#include "adb/adb_parser.h"
static void test_adb_devices() {
char output[] =
"List of devices attached\n"
"0123456789abcdef device usb:2-1 product:MyProduct model:MyModel "
"device:MyDevice transport_id:1\n"
"192.168.1.1:5555 device product:MyWifiProduct model:MyWifiModel "
"device:MyWifiDevice trandport_id:2\n";
struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_adb_parse_devices(output, &vec);
assert(ok);
assert(vec.size == 2);
struct sc_adb_device *device = &vec.data[0];
assert(!strcmp("0123456789abcdef", device->serial));
assert(!strcmp("device", device->state));
assert(!strcmp("MyModel", device->model));
device = &vec.data[1];
assert(!strcmp("192.168.1.1:5555", device->serial));
assert(!strcmp("device", device->state));
assert(!strcmp("MyWifiModel", device->model));
sc_adb_devices_destroy(&vec);
}
static void test_adb_devices_cr() {
char output[] =
"List of devices attached\r\n"
"0123456789abcdef device usb:2-1 product:MyProduct model:MyModel "
"device:MyDevice transport_id:1\r\n"
"192.168.1.1:5555 device product:MyWifiProduct model:MyWifiModel "
"device:MyWifiDevice trandport_id:2\r\n";
struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_adb_parse_devices(output, &vec);
assert(ok);
assert(vec.size == 2);
struct sc_adb_device *device = &vec.data[0];
assert(!strcmp("0123456789abcdef", device->serial));
assert(!strcmp("device", device->state));
assert(!strcmp("MyModel", device->model));
device = &vec.data[1];
assert(!strcmp("192.168.1.1:5555", device->serial));
assert(!strcmp("device", device->state));
assert(!strcmp("MyWifiModel", device->model));
sc_adb_devices_destroy(&vec);
}
static void test_adb_devices_daemon_start() {
char output[] =
"* daemon not running; starting now at tcp:5037\n"
"* daemon started successfully\n"
"List of devices attached\n"
"0123456789abcdef device usb:2-1 product:MyProduct model:MyModel "
"device:MyDevice transport_id:1\n";
struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_adb_parse_devices(output, &vec);
assert(ok);
assert(vec.size == 1);
struct sc_adb_device *device = &vec.data[0];
assert(!strcmp("0123456789abcdef", device->serial));
assert(!strcmp("device", device->state));
assert(!strcmp("MyModel", device->model));
sc_adb_devices_destroy(&vec);
}
static void test_adb_devices_daemon_start_mixed() {
char output[] =
"List of devices attached\n"
"adb server version (41) doesn't match this client (39); killing...\n"
"* daemon started successfully *\n"
"0123456789abcdef unauthorized usb:1-1\n"
"87654321 device usb:2-1 product:MyProduct model:MyModel "
"device:MyDevice\n";
struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_adb_parse_devices(output, &vec);
assert(ok);
assert(vec.size == 2);
struct sc_adb_device *device = &vec.data[0];
assert(!strcmp("0123456789abcdef", device->serial));
assert(!strcmp("unauthorized", device->state));
assert(!device->model);
device = &vec.data[1];
assert(!strcmp("87654321", device->serial));
assert(!strcmp("device", device->state));
assert(!strcmp("MyModel", device->model));
sc_adb_devices_destroy(&vec);
}
static void test_adb_devices_without_eol() {
char output[] =
"List of devices attached\n"
"0123456789abcdef device usb:2-1 product:MyProduct model:MyModel "
"device:MyDevice transport_id:1";
struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_adb_parse_devices(output, &vec);
assert(ok);
assert(vec.size == 1);
struct sc_adb_device *device = &vec.data[0];
assert(!strcmp("0123456789abcdef", device->serial));
assert(!strcmp("device", device->state));
assert(!strcmp("MyModel", device->model));
sc_adb_devices_destroy(&vec);
}
static void test_adb_devices_without_header() {
char output[] =
"0123456789abcdef device usb:2-1 product:MyProduct model:MyModel "
"device:MyDevice transport_id:1\n";
struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_adb_parse_devices(output, &vec);
assert(!ok);
}
static void test_adb_devices_corrupted() {
char output[] =
"List of devices attached\n"
"corrupted_garbage\n";
struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_adb_parse_devices(output, &vec);
assert(ok);
assert(vec.size == 0);
}
static void test_adb_devices_spaces() {
char output[] =
"List of devices attached\n"
"0123456789abcdef unauthorized usb:1-4 transport_id:3\n";
struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_adb_parse_devices(output, &vec);
assert(ok);
assert(vec.size == 1);
struct sc_adb_device *device = &vec.data[0];
assert(!strcmp("0123456789abcdef", device->serial));
assert(!strcmp("unauthorized", device->state));
assert(!device->model);
sc_adb_devices_destroy(&vec);
}
#include "adb_parser.h"
static void test_get_ip_single_line() {
char ip_route[] = "192.168.1.0/24 dev wlan0 proto kernel scope link src "
"192.168.12.34\r\r\n";
char *ip = sc_adb_parse_device_ip_from_output(ip_route);
char *ip = sc_adb_parse_device_ip_from_output(ip_route, sizeof(ip_route));
assert(ip);
assert(!strcmp(ip, "192.168.12.34"));
free(ip);
@@ -177,7 +18,7 @@ static void test_get_ip_single_line_without_eol() {
char ip_route[] = "192.168.1.0/24 dev wlan0 proto kernel scope link src "
"192.168.12.34";
char *ip = sc_adb_parse_device_ip_from_output(ip_route);
char *ip = sc_adb_parse_device_ip_from_output(ip_route, sizeof(ip_route));
assert(ip);
assert(!strcmp(ip, "192.168.12.34"));
free(ip);
@@ -187,7 +28,7 @@ static void test_get_ip_single_line_with_trailing_space() {
char ip_route[] = "192.168.1.0/24 dev wlan0 proto kernel scope link src "
"192.168.12.34 \n";
char *ip = sc_adb_parse_device_ip_from_output(ip_route);
char *ip = sc_adb_parse_device_ip_from_output(ip_route, sizeof(ip_route));
assert(ip);
assert(!strcmp(ip, "192.168.12.34"));
free(ip);
@@ -199,7 +40,7 @@ static void test_get_ip_multiline_first_ok() {
"10.0.0.0/24 dev rmnet proto kernel scope link src "
"10.0.0.2\r\n";
char *ip = sc_adb_parse_device_ip_from_output(ip_route);
char *ip = sc_adb_parse_device_ip_from_output(ip_route, sizeof(ip_route));
assert(ip);
assert(!strcmp(ip, "192.168.1.2"));
free(ip);
@@ -211,7 +52,7 @@ static void test_get_ip_multiline_second_ok() {
"192.168.1.0/24 dev wlan0 proto kernel scope link src "
"192.168.1.3\r\n";
char *ip = sc_adb_parse_device_ip_from_output(ip_route);
char *ip = sc_adb_parse_device_ip_from_output(ip_route, sizeof(ip_route));
assert(ip);
assert(!strcmp(ip, "192.168.1.3"));
free(ip);
@@ -221,15 +62,7 @@ static void test_get_ip_no_wlan() {
char ip_route[] = "192.168.1.0/24 dev rmnet proto kernel scope link src "
"192.168.12.34\r\r\n";
char *ip = sc_adb_parse_device_ip_from_output(ip_route);
assert(!ip);
}
static void test_get_ip_no_wlan_without_eol() {
char ip_route[] = "192.168.1.0/24 dev rmnet proto kernel scope link src "
"192.168.12.34";
char *ip = sc_adb_parse_device_ip_from_output(ip_route);
char *ip = sc_adb_parse_device_ip_from_output(ip_route, sizeof(ip_route));
assert(!ip);
}
@@ -237,7 +70,7 @@ static void test_get_ip_truncated() {
char ip_route[] = "192.168.1.0/24 dev rmnet proto kernel scope link src "
"\n";
char *ip = sc_adb_parse_device_ip_from_output(ip_route);
char *ip = sc_adb_parse_device_ip_from_output(ip_route, sizeof(ip_route));
assert(!ip);
}
@@ -245,21 +78,11 @@ int main(int argc, char *argv[]) {
(void) argc;
(void) argv;
test_adb_devices();
test_adb_devices_cr();
test_adb_devices_daemon_start();
test_adb_devices_daemon_start_mixed();
test_adb_devices_without_eol();
test_adb_devices_without_header();
test_adb_devices_corrupted();
test_adb_devices_spaces();
test_get_ip_single_line();
test_get_ip_single_line_without_eol();
test_get_ip_single_line_with_trailing_space();
test_get_ip_multiline_first_ok();
test_get_ip_multiline_second_ok();
test_get_ip_no_wlan();
test_get_ip_no_wlan_without_eol();
test_get_ip_truncated();
}

12
app/tests/test_buffer_util.c
View File

@@ -8,7 +8,7 @@ static void test_buffer_write16be(void) {
uint16_t val = 0xABCD;
uint8_t buf[2];
sc_write16be(buf, val);
buffer_write16be(buf, val);
assert(buf[0] == 0xAB);
assert(buf[1] == 0xCD);
@@ -18,7 +18,7 @@ static void test_buffer_write32be(void) {
uint32_t val = 0xABCD1234;
uint8_t buf[4];
sc_write32be(buf, val);
buffer_write32be(buf, val);
assert(buf[0] == 0xAB);
assert(buf[1] == 0xCD);
@@ -30,7 +30,7 @@ static void test_buffer_write64be(void) {
uint64_t val = 0xABCD1234567890EF;
uint8_t buf[8];
sc_write64be(buf, val);
buffer_write64be(buf, val);
assert(buf[0] == 0xAB);
assert(buf[1] == 0xCD);
@@ -45,7 +45,7 @@ static void test_buffer_write64be(void) {
static void test_buffer_read16be(void) {
uint8_t buf[2] = {0xAB, 0xCD};
uint16_t val = sc_read16be(buf);
uint16_t val = buffer_read16be(buf);
assert(val == 0xABCD);
}
@@ -53,7 +53,7 @@ static void test_buffer_read16be(void) {
static void test_buffer_read32be(void) {
uint8_t buf[4] = {0xAB, 0xCD, 0x12, 0x34};
uint32_t val = sc_read32be(buf);
uint32_t val = buffer_read32be(buf);
assert(val == 0xABCD1234);
}
@@ -62,7 +62,7 @@ static void test_buffer_read64be(void) {
uint8_t buf[8] = {0xAB, 0xCD, 0x12, 0x34,
0x56, 0x78, 0x90, 0xEF};
uint64_t val = sc_read64be(buf);
uint64_t val = buffer_read64be(buf);
assert(val == 0xABCD1234567890EF);
}

27
app/tests/test_str.c
View File

@@ -338,6 +338,32 @@ static void test_wrap_lines(void) {
free(formatted);
}
static void test_truncate(void) {
char s[] = "hello\nworld\n!";
size_t len = sc_str_truncate(s, sizeof(s), "\n");
assert(len == 5);
assert(!strcmp("hello", s));
char s2[] = "hello\r\nworkd\r\n!";
len = sc_str_truncate(s2, sizeof(s2), "\n\r");
assert(len == 5);
assert(!strcmp("hello", s));
char s3[] = "hello world\n!";
len = sc_str_truncate(s3, sizeof(s3), " \n\r");
assert(len == 5);
assert(!strcmp("hello", s3));
char s4[] = "hello ";
len = sc_str_truncate(s4, sizeof(s4), " \n\r");
assert(len == 5);
assert(!strcmp("hello", s4));
}
static void test_index_of_column(void) {
assert(sc_str_index_of_column("a bc d", 0, " ") == 0);
assert(sc_str_index_of_column("a bc d", 1, " ") == 2);
@@ -391,6 +417,7 @@ int main(int argc, char *argv[]) {
test_parse_integer_with_suffix();
test_strlist_contains();
test_wrap_lines();
test_truncate();
test_index_of_column();
test_remove_trailing_cr();
return 0;

421
app/tests/test_vector.c
View File

@@ -1,421 +0,0 @@
#include "common.h"
#include <assert.h>
#include "util/vector.h"
static void test_vector_insert_remove(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_push(&vec, 42);
assert(ok);
assert(vec.data[0] == 42);
assert(vec.size == 1);
ok = sc_vector_push(&vec, 37);
assert(ok);
assert(vec.size == 2);
assert(vec.data[0] == 42);
assert(vec.data[1] == 37);
ok = sc_vector_insert(&vec, 1, 100);
assert(ok);
assert(vec.size == 3);
assert(vec.data[0] == 42);
assert(vec.data[1] == 100);
assert(vec.data[2] == 37);
ok = sc_vector_push(&vec, 77);
assert(ok);
assert(vec.size == 4);
assert(vec.data[0] == 42);
assert(vec.data[1] == 100);
assert(vec.data[2] == 37);
assert(vec.data[3] == 77);
sc_vector_remove(&vec, 1);
assert(vec.size == 3);
assert(vec.data[0] == 42);
assert(vec.data[1] == 37);
assert(vec.data[2] == 77);
sc_vector_clear(&vec);
assert(vec.size == 0);
sc_vector_destroy(&vec);
}
static void test_vector_push_array(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_push(&vec, 3); assert(ok);
ok = sc_vector_push(&vec, 14); assert(ok);
ok = sc_vector_push(&vec, 15); assert(ok);
ok = sc_vector_push(&vec, 92); assert(ok);
ok = sc_vector_push(&vec, 65); assert(ok);
assert(vec.size == 5);
int items[] = { 1, 2, 3, 4, 5, 6, 7, 8 };
ok = sc_vector_push_all(&vec, items, 8);
assert(ok);
assert(vec.size == 13);
assert(vec.data[0] == 3);
assert(vec.data[1] == 14);
assert(vec.data[2] == 15);
assert(vec.data[3] == 92);
assert(vec.data[4] == 65);
assert(vec.data[5] == 1);
assert(vec.data[6] == 2);
assert(vec.data[7] == 3);
assert(vec.data[8] == 4);
assert(vec.data[9] == 5);
assert(vec.data[10] == 6);
assert(vec.data[11] == 7);
assert(vec.data[12] == 8);
sc_vector_destroy(&vec);
}
static void test_vector_insert_array(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_push(&vec, 3); assert(ok);
ok = sc_vector_push(&vec, 14); assert(ok);
ok = sc_vector_push(&vec, 15); assert(ok);
ok = sc_vector_push(&vec, 92); assert(ok);
ok = sc_vector_push(&vec, 65); assert(ok);
assert(vec.size == 5);
int items[] = { 1, 2, 3, 4, 5, 6, 7, 8 };
ok = sc_vector_insert_all(&vec, 3, items, 8);
assert(ok);
assert(vec.size == 13);
assert(vec.data[0] == 3);
assert(vec.data[1] == 14);
assert(vec.data[2] == 15);
assert(vec.data[3] == 1);
assert(vec.data[4] == 2);
assert(vec.data[5] == 3);
assert(vec.data[6] == 4);
assert(vec.data[7] == 5);
assert(vec.data[8] == 6);
assert(vec.data[9] == 7);
assert(vec.data[10] == 8);
assert(vec.data[11] == 92);
assert(vec.data[12] == 65);
sc_vector_destroy(&vec);
}
static void test_vector_remove_slice(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
for (int i = 0; i < 100; ++i)
{
ok = sc_vector_push(&vec, i);
assert(ok);
}
assert(vec.size == 100);
sc_vector_remove_slice(&vec, 32, 60);
assert(vec.size == 40);
assert(vec.data[31] == 31);
assert(vec.data[32] == 92);
sc_vector_destroy(&vec);
}
static void test_vector_swap_remove(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_push(&vec, 3); assert(ok);
ok = sc_vector_push(&vec, 14); assert(ok);
ok = sc_vector_push(&vec, 15); assert(ok);
ok = sc_vector_push(&vec, 92); assert(ok);
ok = sc_vector_push(&vec, 65); assert(ok);
assert(vec.size == 5);
sc_vector_swap_remove(&vec, 1);
assert(vec.size == 4);
assert(vec.data[0] == 3);
assert(vec.data[1] == 65);
assert(vec.data[2] == 15);
assert(vec.data[3] == 92);
sc_vector_destroy(&vec);
}
static void test_vector_index_of(void) {
struct SC_VECTOR(int) vec;
sc_vector_init(&vec);
bool ok;
for (int i = 0; i < 10; ++i)
{
ok = sc_vector_push(&vec, i);
assert(ok);
}
ssize_t idx;
idx = sc_vector_index_of(&vec, 0);
assert(idx == 0);
idx = sc_vector_index_of(&vec, 1);
assert(idx == 1);
idx = sc_vector_index_of(&vec, 4);
assert(idx == 4);
idx = sc_vector_index_of(&vec, 9);
assert(idx == 9);
idx = sc_vector_index_of(&vec, 12);
assert(idx == -1);
sc_vector_destroy(&vec);
}
static void test_vector_grow() {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
for (int i = 0; i < 50; ++i)
{
ok = sc_vector_push(&vec, i); /* append */
assert(ok);
}
assert(vec.cap >= 50);
assert(vec.size == 50);
for (int i = 0; i < 25; ++i)
{
ok = sc_vector_insert(&vec, 20, i); /* insert in the middle */
assert(ok);
}
assert(vec.cap >= 75);
assert(vec.size == 75);
for (int i = 0; i < 25; ++i)
{
ok = sc_vector_insert(&vec, 0, i); /* prepend */
assert(ok);
}
assert(vec.cap >= 100);
assert(vec.size == 100);
for (int i = 0; i < 50; ++i)
sc_vector_remove(&vec, 20); /* remove from the middle */
assert(vec.cap >= 50);
assert(vec.size == 50);
for (int i = 0; i < 25; ++i)
sc_vector_remove(&vec, 0); /* remove from the head */
assert(vec.cap >= 25);
assert(vec.size == 25);
for (int i = 24; i >=0; --i)
sc_vector_remove(&vec, i); /* remove from the tail */
assert(vec.size == 0);
sc_vector_destroy(&vec);
}
static void test_vector_exp_growth(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
size_t oldcap = vec.cap;
int realloc_count = 0;
bool ok;
for (int i = 0; i < 10000; ++i)
{
ok = sc_vector_push(&vec, i);
assert(ok);
if (vec.cap != oldcap)
{
realloc_count++;
oldcap = vec.cap;
}
}
/* Test speciically for an expected growth factor of 1.5. In practice, the
* result is even lower (19) due to the first alloc of size 10 */
assert(realloc_count <= 23); /* ln(10000) / ln(1.5) ~= 23 */
realloc_count = 0;
for (int i = 9999; i >= 0; --i)
{
sc_vector_remove(&vec, i);
if (vec.cap != oldcap)
{
realloc_count++;
oldcap = vec.cap;
}
}
assert(realloc_count <= 23); /* same expectations for removals */
assert(realloc_count > 0); /* sc_vector_remove() must autoshrink */
sc_vector_destroy(&vec);
}
static void test_vector_reserve(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_reserve(&vec, 800);
assert(ok);
assert(vec.cap >= 800);
assert(vec.size == 0);
size_t initial_cap = vec.cap;
for (int i = 0; i < 800; ++i)
{
ok = sc_vector_push(&vec, i);
assert(ok);
assert(vec.cap == initial_cap); /* no realloc */
}
sc_vector_destroy(&vec);
}
static void test_vector_shrink_to_fit(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_reserve(&vec, 800);
assert(ok);
for (int i = 0; i < 250; ++i)
{
ok = sc_vector_push(&vec, i);
assert(ok);
}
assert(vec.cap >= 800);
assert(vec.size == 250);
sc_vector_shrink_to_fit(&vec);
assert(vec.cap == 250);
assert(vec.size == 250);
sc_vector_destroy(&vec);
}
static void test_vector_move(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
for (int i = 0; i < 7; ++i)
{
bool ok = sc_vector_push(&vec, i);
assert(ok);
}
/* move item at 1 so that its new position is 4 */
sc_vector_move(&vec, 1, 4);
assert(vec.size == 7);
assert(vec.data[0] == 0);
assert(vec.data[1] == 2);
assert(vec.data[2] == 3);
assert(vec.data[3] == 4);
assert(vec.data[4] == 1);
assert(vec.data[5] == 5);
assert(vec.data[6] == 6);
sc_vector_destroy(&vec);
}
static void test_vector_move_slice_forward(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
for (int i = 0; i < 10; ++i)
{
bool ok = sc_vector_push(&vec, i);
assert(ok);
}
/* move slice {2, 3, 4, 5} so that its new position is 5 */
sc_vector_move_slice(&vec, 2, 4, 5);
assert(vec.size == 10);
assert(vec.data[0] == 0);
assert(vec.data[1] == 1);
assert(vec.data[2] == 6);
assert(vec.data[3] == 7);
assert(vec.data[4] == 8);
assert(vec.data[5] == 2);
assert(vec.data[6] == 3);
assert(vec.data[7] == 4);
assert(vec.data[8] == 5);
assert(vec.data[9] == 9);
sc_vector_destroy(&vec);
}
static void test_vector_move_slice_backward(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
for (int i = 0; i < 10; ++i)
{
bool ok = sc_vector_push(&vec, i);
assert(ok);
}
/* move slice {5, 6, 7} so that its new position is 2 */
sc_vector_move_slice(&vec, 5, 3, 2);
assert(vec.size == 10);
assert(vec.data[0] == 0);
assert(vec.data[1] == 1);
assert(vec.data[2] == 5);
assert(vec.data[3] == 6);
assert(vec.data[4] == 7);
assert(vec.data[5] == 2);
assert(vec.data[6] == 3);
assert(vec.data[7] == 4);
assert(vec.data[8] == 8);
assert(vec.data[9] == 9);
sc_vector_destroy(&vec);
}
int main(int argc, char *argv[]) {
(void) argc;
(void) argv;
test_vector_insert_remove();
test_vector_push_array();
test_vector_insert_array();
test_vector_remove_slice();
test_vector_swap_remove();
test_vector_move();
test_vector_move_slice_forward();
test_vector_move_slice_backward();
test_vector_index_of();
test_vector_grow();
test_vector_exp_growth();
test_vector_reserve();
test_vector_shrink_to_fit();
return 0;
}

2
cross_win32.txt
View File

@@ -21,5 +21,3 @@ ffmpeg_avformat = 'avformat-58'
ffmpeg_avutil = 'avutil-56'
prebuilt_ffmpeg = 'ffmpeg-win32-4.3.1'
prebuilt_sdl2 = 'SDL2-2.0.20/i686-w64-mingw32'
prebuilt_libusb_root = 'libusb-1.0.25'
prebuilt_libusb = prebuilt_libusb_root + '/MinGW32'

2
cross_win64.txt
View File

@@ -21,5 +21,3 @@ ffmpeg_avformat = 'avformat-59'
ffmpeg_avutil = 'avutil-57'
prebuilt_ffmpeg = 'ffmpeg-win64-5.0'
prebuilt_sdl2 = 'SDL2-2.0.20/x86_64-w64-mingw32'
prebuilt_libusb_root = 'libusb-1.0.25'
prebuilt_libusb = prebuilt_libusb_root + '/MinGW64'

0
app/data/icon.ico → data/icon.ico
View File

Side by Side Swipe Overlay

Before

Width:  |  Height:  |  Size: 8.6 KiB

After

Width:  |  Height:  |  Size: 8.6 KiB

0
app/data/icon.png → data/icon.png
View File

Side by Side Swipe Overlay

Before

Width:  |  Height:  |  Size: 6.4 KiB

After

Width:  |  Height:  |  Size: 6.4 KiB

0
app/data/icon.svg → data/icon.svg
View File

Side by Side Swipe Overlay

Before

Width:  |  Height:  |  Size: 4.5 KiB

After

Width:  |  Height:  |  Size: 4.5 KiB

0
app/data/open_a_terminal_here.bat → data/open_a_terminal_here.bat
View File

0
app/data/scrcpy-console.bat → data/scrcpy-console.bat
View File

0
app/data/scrcpy-noconsole.vbs → data/scrcpy-noconsole.vbs
View File

2
install_release.sh
View File

@@ -12,7 +12,7 @@ echo "$PREBUILT_SERVER_SHA256 scrcpy-server" | sha256sum --check
echo "[scrcpy] Building client..."
rm -rf "$BUILDDIR"
meson "$BUILDDIR" --buildtype=release --strip -Db_lto=true \
meson "$BUILDDIR" --buildtype release --strip -Db_lto=true \
-Dprebuilt_server=scrcpy-server
cd "$BUILDDIR"
ninja

2
meson_options.txt
View File

@@ -4,5 +4,3 @@ option('prebuilt_server', type: 'string', description: 'Path of the prebuilt ser
option('portable', type: 'boolean', value: false, description: 'Use scrcpy-server from the same directory as the scrcpy executable')
option('server_debugger', type: 'boolean', value: false, description: 'Run a server debugger and wait for a client to be attached')
option('server_debugger_method', type: 'combo', choices: ['old', 'new'], value: 'new', description: 'Select the debugger method (Android < 9: "old", Android >= 9: "new")')
option('v4l2', type: 'boolean', value: true, description: 'Enable V4L2 feature when supported')
option('usb', type: 'boolean', value: true, description: 'Enable HID/OTG features when supported')

0
app/prebuilt-deps/.gitignore → prebuilt-deps/.gitignore vendored
View File

0
app/prebuilt-deps/common → prebuilt-deps/common
View File

0
app/prebuilt-deps/prepare-adb.sh → prebuilt-deps/prepare-adb.sh
View File

0
app/prebuilt-deps/prepare-ffmpeg-win32.sh → prebuilt-deps/prepare-ffmpeg-win32.sh
View File

0
app/prebuilt-deps/prepare-ffmpeg-win64.sh → prebuilt-deps/prepare-ffmpeg-win64.sh
View File

0
app/prebuilt-deps/prepare-sdl.sh → prebuilt-deps/prepare-sdl.sh
View File

74
release.mk
View File

@@ -63,28 +63,24 @@ build-server:
ninja -C "$(SERVER_BUILD_DIR)"
prepare-deps-win32:
@app/prebuilt-deps/prepare-adb.sh
@app/prebuilt-deps/prepare-sdl.sh
@app/prebuilt-deps/prepare-ffmpeg-win32.sh
@app/prebuilt-deps/prepare-libusb.sh
prepare-deps-win64:
@app/prebuilt-deps/prepare-adb.sh
@app/prebuilt-deps/prepare-sdl.sh
@app/prebuilt-deps/prepare-ffmpeg-win64.sh
@app/prebuilt-deps/prepare-libusb.sh
@prebuilt-deps/prepare-adb.sh
@prebuilt-deps/prepare-sdl.sh
@prebuilt-deps/prepare-ffmpeg-win32.sh
build-win32: prepare-deps-win32
# -Dusb=false because of libusb-win32 build issue, cf #3011
[ -d "$(WIN32_BUILD_DIR)" ] || ( mkdir "$(WIN32_BUILD_DIR)" && \
meson "$(WIN32_BUILD_DIR)" \
--cross-file cross_win32.txt \
--buildtype release --strip -Db_lto=true \
-Dusb=false \
-Dcompile_server=false \
-Dportable=true )
ninja -C "$(WIN32_BUILD_DIR)"
prepare-deps-win64:
@prebuilt-deps/prepare-adb.sh
@prebuilt-deps/prepare-sdl.sh
@prebuilt-deps/prepare-ffmpeg-win64.sh
build-win64: prepare-deps-win64
[ -d "$(WIN64_BUILD_DIR)" ] || ( mkdir "$(WIN64_BUILD_DIR)" && \
meson "$(WIN64_BUILD_DIR)" \
@@ -98,39 +94,37 @@ dist-win32: build-server build-win32
mkdir -p "$(DIST)/$(WIN32_TARGET_DIR)"
cp "$(SERVER_BUILD_DIR)"/server/scrcpy-server "$(DIST)/$(WIN32_TARGET_DIR)/"
cp "$(WIN32_BUILD_DIR)"/app/scrcpy.exe "$(DIST)/$(WIN32_TARGET_DIR)/"
cp app/data/scrcpy-console.bat "$(DIST)/$(WIN32_TARGET_DIR)"
cp app/data/scrcpy-noconsole.vbs "$(DIST)/$(WIN32_TARGET_DIR)"
cp app/data/icon.png "$(DIST)/$(WIN32_TARGET_DIR)"
cp app/data/open_a_terminal_here.bat "$(DIST)/$(WIN32_TARGET_DIR)"
cp app/prebuilt-deps/data/ffmpeg-win32-4.3.1/bin/avutil-56.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp app/prebuilt-deps/data/ffmpeg-win32-4.3.1/bin/avcodec-58.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp app/prebuilt-deps/data/ffmpeg-win32-4.3.1/bin/avformat-58.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp app/prebuilt-deps/data/ffmpeg-win32-4.3.1/bin/swresample-3.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp app/prebuilt-deps/data/ffmpeg-win32-4.3.1/bin/swscale-5.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp app/prebuilt-deps/data/platform-tools-31.0.3/adb.exe "$(DIST)/$(WIN32_TARGET_DIR)/"
cp app/prebuilt-deps/data/platform-tools-31.0.3/AdbWinApi.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp app/prebuilt-deps/data/platform-tools-31.0.3/AdbWinUsbApi.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp app/prebuilt-deps/data/SDL2-2.0.20/i686-w64-mingw32/bin/SDL2.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
#cp app/prebuilt-deps/data/libusb-1.0.25/MinGW32/dll/libusb-1.0.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp data/scrcpy-console.bat "$(DIST)/$(WIN32_TARGET_DIR)"
cp data/scrcpy-noconsole.vbs "$(DIST)/$(WIN32_TARGET_DIR)"
cp data/icon.png "$(DIST)/$(WIN32_TARGET_DIR)"
cp data/open_a_terminal_here.bat "$(DIST)/$(WIN32_TARGET_DIR)"
cp prebuilt-deps/data/ffmpeg-win32-4.3.1/bin/avutil-56.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/data/ffmpeg-win32-4.3.1/bin/avcodec-58.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/data/ffmpeg-win32-4.3.1/bin/avformat-58.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/data/ffmpeg-win32-4.3.1/bin/swresample-3.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/data/ffmpeg-win32-4.3.1/bin/swscale-5.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/data/platform-tools-31.0.3/adb.exe "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/data/platform-tools-31.0.3/AdbWinApi.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/data/platform-tools-31.0.3/AdbWinUsbApi.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/data/SDL2-2.0.20/i686-w64-mingw32/bin/SDL2.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
dist-win64: build-server build-win64
mkdir -p "$(DIST)/$(WIN64_TARGET_DIR)"
cp "$(SERVER_BUILD_DIR)"/server/scrcpy-server "$(DIST)/$(WIN64_TARGET_DIR)/"
cp "$(WIN64_BUILD_DIR)"/app/scrcpy.exe "$(DIST)/$(WIN64_TARGET_DIR)/"
cp app/data/scrcpy-console.bat "$(DIST)/$(WIN64_TARGET_DIR)"
cp app/data/scrcpy-noconsole.vbs "$(DIST)/$(WIN64_TARGET_DIR)"
cp app/data/icon.png "$(DIST)/$(WIN64_TARGET_DIR)"
cp app/data/open_a_terminal_here.bat "$(DIST)/$(WIN64_TARGET_DIR)"
cp app/prebuilt-deps/data/ffmpeg-win64-5.0/bin/avutil-57.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp app/prebuilt-deps/data/ffmpeg-win64-5.0/bin/avcodec-59.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp app/prebuilt-deps/data/ffmpeg-win64-5.0/bin/avformat-59.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp app/prebuilt-deps/data/ffmpeg-win64-5.0/bin/swresample-4.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp app/prebuilt-deps/data/ffmpeg-win64-5.0/bin/swscale-6.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp app/prebuilt-deps/data/platform-tools-31.0.3/adb.exe "$(DIST)/$(WIN64_TARGET_DIR)/"
cp app/prebuilt-deps/data/platform-tools-31.0.3/AdbWinApi.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp app/prebuilt-deps/data/platform-tools-31.0.3/AdbWinUsbApi.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp app/prebuilt-deps/data/SDL2-2.0.20/x86_64-w64-mingw32/bin/SDL2.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp app/prebuilt-deps/data/libusb-1.0.25/MinGW64/dll/libusb-1.0.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp data/scrcpy-console.bat "$(DIST)/$(WIN64_TARGET_DIR)"
cp data/scrcpy-noconsole.vbs "$(DIST)/$(WIN64_TARGET_DIR)"
cp data/icon.png "$(DIST)/$(WIN64_TARGET_DIR)"
cp data/open_a_terminal_here.bat "$(DIST)/$(WIN64_TARGET_DIR)"
cp prebuilt-deps/data/ffmpeg-win64-5.0/bin/avutil-57.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/data/ffmpeg-win64-5.0/bin/avcodec-59.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/data/ffmpeg-win64-5.0/bin/avformat-59.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/data/ffmpeg-win64-5.0/bin/swresample-4.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/data/ffmpeg-win64-5.0/bin/swscale-6.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/data/platform-tools-31.0.3/adb.exe "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/data/platform-tools-31.0.3/AdbWinApi.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/data/platform-tools-31.0.3/AdbWinUsbApi.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/data/SDL2-2.0.20/x86_64-w64-mingw32/bin/SDL2.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
zip-win32: dist-win32
cd "$(DIST)/$(WIN32_TARGET_DIR)"; \

9
server/src/main/java/com/genymobile/scrcpy/Options.java
View File

@@ -21,7 +21,6 @@ public class Options {
private boolean powerOffScreenOnClose;
private boolean clipboardAutosync = true;
private boolean downsizeOnError = true;
private boolean cleanup = true;
// Options not used by the scrcpy client, but useful to use scrcpy-server directly
private boolean sendDeviceMeta = true; // send device name and size
@@ -156,14 +155,6 @@ public class Options {
this.downsizeOnError = downsizeOnError;
}
public boolean getCleanup() {
return cleanup;
}
public void setCleanup(boolean cleanup) {
this.cleanup = cleanup;
}
public boolean getSendDeviceMeta() {
return sendDeviceMeta;
}

26
server/src/main/java/com/genymobile/scrcpy/ScreenEncoder.java
View File

@@ -28,8 +28,7 @@ public class ScreenEncoder implements Device.RotationListener {
// Keep the values in descending order
private static final int[] MAX_SIZE_FALLBACK = {2560, 1920, 1600, 1280, 1024, 800};
private static final long PACKET_FLAG_CONFIG = 1L << 63;
private static final long PACKET_FLAG_KEY_FRAME = 1L << 62;
private static final int NO_PTS = -1;
private final AtomicBoolean rotationChanged = new AtomicBoolean();
private final ByteBuffer headerBuffer = ByteBuffer.allocate(12);
@@ -90,19 +89,17 @@ public class ScreenEncoder implements Device.RotationListener {
Rect unlockedVideoRect = screenInfo.getUnlockedVideoSize().toRect();
int videoRotation = screenInfo.getVideoRotation();
int layerStack = device.getLayerStack();
setSize(format, videoRect.width(), videoRect.height());
Surface surface = null;
configure(codec, format);
Surface surface = codec.createInputSurface();
setDisplaySurface(display, surface, videoRotation, contentRect, unlockedVideoRect, layerStack);
codec.start();
try {
configure(codec, format);
surface = codec.createInputSurface();
setDisplaySurface(display, surface, videoRotation, contentRect, unlockedVideoRect, layerStack);
codec.start();
alive = encode(codec, fd);
// do not call stop() on exception, it would trigger an IllegalStateException
codec.stop();
} catch (IllegalStateException | IllegalArgumentException e) {
} catch (IllegalStateException e) {
Ln.e("Encoding error: " + e.getClass().getName() + ": " + e.getMessage());
if (!downsizeOnError || firstFrameSent) {
// Fail immediately
@@ -122,9 +119,7 @@ public class ScreenEncoder implements Device.RotationListener {
} finally {
destroyDisplay(display);
codec.release();
if (surface != null) {
surface.release();
}
surface.release();
}
} while (alive);
} finally {
@@ -184,15 +179,12 @@ public class ScreenEncoder implements Device.RotationListener {
long pts;
if ((bufferInfo.flags & MediaCodec.BUFFER_FLAG_CODEC_CONFIG) != 0) {
pts = PACKET_FLAG_CONFIG; // non-media data packet
pts = NO_PTS; // non-media data packet
} else {
if (ptsOrigin == 0) {
ptsOrigin = bufferInfo.presentationTimeUs;
}
pts = bufferInfo.presentationTimeUs - ptsOrigin;
if ((bufferInfo.flags & MediaCodec.BUFFER_FLAG_KEY_FRAME) != 0) {
pts |= PACKET_FLAG_KEY_FRAME;
}
}
headerBuffer.putLong(pts);

16
server/src/main/java/com/genymobile/scrcpy/Server.java
View File

@@ -51,13 +51,11 @@ public final class Server {
}
}
if (options.getCleanup()) {
try {
CleanUp.configure(options.getDisplayId(), restoreStayOn, mustDisableShowTouchesOnCleanUp, restoreNormalPowerMode,
options.getPowerOffScreenOnClose());
} catch (IOException e) {
Ln.e("Could not configure cleanup", e);
}
try {
CleanUp.configure(options.getDisplayId(), restoreStayOn, mustDisableShowTouchesOnCleanUp, restoreNormalPowerMode,
options.getPowerOffScreenOnClose());
} catch (IOException e) {
Ln.e("Could not configure cleanup", e);
}
}
@@ -245,10 +243,6 @@ public final class Server {
boolean downsizeOnError = Boolean.parseBoolean(value);
options.setDownsizeOnError(downsizeOnError);
break;
case "cleanup":
boolean cleanup = Boolean.parseBoolean(value);
options.setCleanup(cleanup);
break;
case "send_device_meta":
boolean sendDeviceMeta = Boolean.parseBoolean(value);
options.setSendDeviceMeta(sendDeviceMeta);