Daiki Kato
Change to wifi AP mode. SSID "GR-PEACH_1", PSK "12345"
Dependencies: DhcpServer EthernetInterface FATFileSystem GR-PEACH_WlanBP3595AP GR-PEACH_video GraphicsFramework HttpServer_snapshot R_BSP mbed-rpc mbed-rtos mbed
Fork of
GR-Boards_WebCamera
by 
Renesas
main.cpp
- Committer:
- dkato
- Date:
- 2016-09-07
- Revision:
- 17:493d36f1febf
- Parent:
- 16:b5469a6226c7
File content as of revision 17:493d36f1febf:
#include "mbed.h"
#include "DisplayBace.h"
#include "rtos.h"
#include "JPEG_Converter.h"
#include "HTTPServer.h"
#include "mbed_rpc.h"
#include "RomRamFileSystem.h"
#include "file_table.h" //Binary data of web pages
#include "i2c_setting.h"
#include "DhcpServer.h"
#define VIDEO_CVBS (0) /* Analog Video Signal */
#define VIDEO_CMOS_CAMERA (1) /* Digital Video Signal */
#define VIDEO_YCBCR422 (0)
#define VIDEO_RGB888 (1)
#define VIDEO_RGB565 (2)
/**** User Selection *********/
/** Network setting **/
#define USE_DHCP (0) /* Select 0(static configuration) or 1(use DHCP) */
#if (USE_DHCP == 0)
#define IP_ADDRESS ("192.168.0.2") /* IP address */
#define SUBNET_MASK ("255.255.255.0") /* Subnet mask */
#define DEFAULT_GATEWAY ("192.168.0.3") /* Default gateway */
#endif
#define NETWORK_TYPE (1) /* Select 0(EthernetInterface) or 1(GR_PEACH_WlanBP3595) */
#if (NETWORK_TYPE == 1)
#define WLAN_SSID ("GR-PEACH_1") /* SSID */
#define WLAN_PSK ("12345") /* PSK(Pre-Shared Key) */
#define WLAN_SECURITY NSAPI_SECURITY_WEP /* NSAPI_SECURITY_NONE, NSAPI_SECURITY_WEP, NSAPI_SECURITY_WPA or NSAPI_SECURITY_WPA2 */
#endif
/** Camera setting **/
#define VIDEO_INPUT_METHOD (VIDEO_CMOS_CAMERA) /* Select VIDEO_CVBS or VIDEO_CMOS_CAMERA */
#define VIDEO_INPUT_FORMAT (VIDEO_YCBCR422) /* Select VIDEO_YCBCR422 or VIDEO_RGB888 or VIDEO_RGB565 */
#define USE_VIDEO_CH (0) /* Select 0 or 1 If selecting VIDEO_CMOS_CAMERA, should be 0.) */
#define VIDEO_PAL (0) /* Select 0(NTSC) or 1(PAL) If selecting VIDEO_CVBS, this parameter is not referenced.) */
/*****************************/
#if USE_VIDEO_CH == (0)
#define VIDEO_INPUT_CH (DisplayBase::VIDEO_INPUT_CHANNEL_0)
#define VIDEO_INT_TYPE (DisplayBase::INT_TYPE_S0_VFIELD)
#else
#define VIDEO_INPUT_CH (DisplayBase::VIDEO_INPUT_CHANNEL_1)
#define VIDEO_INT_TYPE (DisplayBase::INT_TYPE_S1_VFIELD)
#endif
#if ( VIDEO_INPUT_FORMAT == VIDEO_YCBCR422 || VIDEO_INPUT_FORMAT == VIDEO_RGB565 )
#define DATA_SIZE_PER_PIC (2u)
#else
#define DATA_SIZE_PER_PIC (4u)
#endif
/*! Frame buffer stride: Frame buffer stride should be set to a multiple of 32 or 128
in accordance with the frame buffer burst transfer mode. */
#define PIXEL_HW (320u) /* QVGA */
#define PIXEL_VW (240u) /* QVGA */
#define VIDEO_BUFFER_STRIDE (((PIXEL_HW * DATA_SIZE_PER_PIC) + 31u) & ~31u)
#define VIDEO_BUFFER_HEIGHT (PIXEL_VW)
#if (NETWORK_TYPE == 0)
#include "EthernetInterface.h"
EthernetInterface network;
#elif (NETWORK_TYPE == 1)
#include "GR_PEACH_WlanBP3595.h"
GR_PEACH_WlanBP3595 network;
DigitalOut usb1en(P3_8);
#else
#error NETWORK_TYPE error
#endif /* NETWORK_TYPE */
RomRamFileSystem romramfs("romram");
#if defined(__ICCARM__)
#pragma data_alignment=16
static uint8_t FrameBuffer_Video[VIDEO_BUFFER_STRIDE * VIDEO_BUFFER_HEIGHT]@ ".mirrorram"; //16 bytes aligned!;
#pragma data_alignment=4
#else
static uint8_t FrameBuffer_Video[VIDEO_BUFFER_STRIDE * VIDEO_BUFFER_HEIGHT]__attribute((section("NC_BSS"),aligned(16))); //16 bytes aligned!;
#endif
static volatile int32_t vsync_count = 0;
static volatile int32_t vfield_count = 1;
#if defined(__ICCARM__)
#pragma data_alignment=8
static uint8_t JpegBuffer[2][1024 * 50]@ ".mirrorram"; //8 bytes aligned!;
#pragma data_alignment=4
#else
static uint8_t JpegBuffer[2][1024 * 50]__attribute((section("NC_BSS"),aligned(8))); //8 bytes aligned!;
#endif
static size_t jcu_encode_size[2];
static int image_change = 0;
JPEG_Converter Jcu;
static int jcu_buf_index_write = 0;
static int jcu_buf_index_write_done = 0;
static int jcu_buf_index_read = 0;
static int jcu_encoding = 0;
static char i2c_setting_str_buf[I2C_SETTING_STR_BUF_SIZE];
static void JcuEncodeCallBackFunc(JPEG_Converter::jpeg_conv_error_t err_code) {
jcu_buf_index_write_done = jcu_buf_index_write;
image_change = 1;
jcu_encoding = 0;
}
static void IntCallbackFunc_Vfield(DisplayBase::int_type_t int_type) {
//Interrupt callback function
if (vfield_count != 0) {
vfield_count = 0;
} else {
vfield_count = 1;
JPEG_Converter::bitmap_buff_info_t bitmap_buff_info;
JPEG_Converter::encode_options_t encode_options;
bitmap_buff_info.width = PIXEL_HW;
bitmap_buff_info.height = PIXEL_VW;
bitmap_buff_info.format = JPEG_Converter::WR_RD_YCbCr422;
bitmap_buff_info.buffer_address = (void *)FrameBuffer_Video;
encode_options.encode_buff_size = sizeof(JpegBuffer[0]);
encode_options.p_EncodeCallBackFunc = &JcuEncodeCallBackFunc;
jcu_encoding = 1;
if (jcu_buf_index_read == jcu_buf_index_write) {
if (jcu_buf_index_write != 0) {
jcu_buf_index_write = 0;
} else {
jcu_buf_index_write = 1;
}
}
jcu_encode_size[jcu_buf_index_write] = 0;
if (Jcu.encode(&bitmap_buff_info, JpegBuffer[jcu_buf_index_write], &jcu_encode_size[jcu_buf_index_write], &encode_options) != JPEG_Converter::JPEG_CONV_OK) {
jcu_encode_size[jcu_buf_index_write] = 0;
jcu_encoding = 0;
}
}
}
static void IntCallbackFunc_Vsync(DisplayBase::int_type_t int_type) {
//Interrupt callback function for Vsync interruption
if (vsync_count > 0) {
vsync_count--;
}
}
static void WaitVsync(const int32_t wait_count) {
//Wait for the specified number of times Vsync occurs
vsync_count = wait_count;
while (vsync_count > 0) {
/* Do nothing */
}
}
static void camera_start(void) {
DisplayBase::graphics_error_t error;
#if VIDEO_INPUT_METHOD == VIDEO_CMOS_CAMERA
DisplayBase::video_ext_in_config_t ext_in_config;
PinName cmos_camera_pin[11] = {
/* data pin */
P2_7, P2_6, P2_5, P2_4, P2_3, P2_2, P2_1, P2_0,
/* control pin */
P10_0, /* DV0_CLK */
P1_0, /* DV0_Vsync */
P1_1 /* DV0_Hsync */
};
#endif
/* Create DisplayBase object */
DisplayBase Display;
/* Graphics initialization process */
error = Display.Graphics_init(NULL);
if (error != DisplayBase::GRAPHICS_OK) {
printf("Line %d, error %d\n", __LINE__, error);
while (1);
}
#if VIDEO_INPUT_METHOD == VIDEO_CVBS
error = Display.Graphics_Video_init( DisplayBase::INPUT_SEL_VDEC, NULL);
if( error != DisplayBase::GRAPHICS_OK ) {
printf("Line %d, error %d\n", __LINE__, error);
while(1);
}
#elif VIDEO_INPUT_METHOD == VIDEO_CMOS_CAMERA
/* MT9V111 camera input config */
ext_in_config.inp_format = DisplayBase::VIDEO_EXTIN_FORMAT_BT601; /* BT601 8bit YCbCr format */
ext_in_config.inp_pxd_edge = DisplayBase::EDGE_RISING; /* Clock edge select for capturing data */
ext_in_config.inp_vs_edge = DisplayBase::EDGE_RISING; /* Clock edge select for capturing Vsync signals */
ext_in_config.inp_hs_edge = DisplayBase::EDGE_RISING; /* Clock edge select for capturing Hsync signals */
ext_in_config.inp_endian_on = DisplayBase::OFF; /* External input bit endian change on/off */
ext_in_config.inp_swap_on = DisplayBase::OFF; /* External input B/R signal swap on/off */
ext_in_config.inp_vs_inv = DisplayBase::SIG_POL_NOT_INVERTED; /* External input DV_VSYNC inversion control */
ext_in_config.inp_hs_inv = DisplayBase::SIG_POL_INVERTED; /* External input DV_HSYNC inversion control */
ext_in_config.inp_f525_625 = DisplayBase::EXTIN_LINE_525; /* Number of lines for BT.656 external input */
ext_in_config.inp_h_pos = DisplayBase::EXTIN_H_POS_CRYCBY; /* Y/Cb/Y/Cr data string start timing to Hsync reference */
ext_in_config.cap_vs_pos = 6; /* Capture start position from Vsync */
ext_in_config.cap_hs_pos = 150; /* Capture start position form Hsync */
ext_in_config.cap_width = 640; /* Capture width */
ext_in_config.cap_height = 468u; /* Capture height Max 468[line]
Due to CMOS(MT9V111) output signal timing and VDC5 specification */
error = Display.Graphics_Video_init( DisplayBase::INPUT_SEL_EXT, &ext_in_config);
if( error != DisplayBase::GRAPHICS_OK ) {
printf("Line %d, error %d\n", __LINE__, error);
while(1);
}
/* MT9V111 camera input port setting */
error = Display.Graphics_Dvinput_Port_Init(cmos_camera_pin, 11);
if( error != DisplayBase::GRAPHICS_OK ) {
printf("Line %d, error %d\n", __LINE__, error);
while (1);
}
#endif
/* Interrupt callback function setting (Vsync signal input to scaler 0) */
error = Display.Graphics_Irq_Handler_Set(DisplayBase::INT_TYPE_S0_VI_VSYNC, 0, IntCallbackFunc_Vsync);
if (error != DisplayBase::GRAPHICS_OK) {
printf("Line %d, error %d\n", __LINE__, error);
while (1);
}
/* Video capture setting (progressive form fixed) */
error = Display.Video_Write_Setting(
VIDEO_INPUT_CH,
#if VIDEO_PAL == 0
DisplayBase::COL_SYS_NTSC_358,
#else
DisplayBase::COL_SYS_PAL_443,
#endif
FrameBuffer_Video,
VIDEO_BUFFER_STRIDE,
#if VIDEO_INPUT_FORMAT == VIDEO_YCBCR422
DisplayBase::VIDEO_FORMAT_YCBCR422,
DisplayBase::WR_RD_WRSWA_NON,
#elif VIDEO_INPUT_FORMAT == VIDEO_RGB565
DisplayBase::VIDEO_FORMAT_RGB565,
DisplayBase::WR_RD_WRSWA_32_16BIT,
#else
DisplayBase::VIDEO_FORMAT_RGB888,
DisplayBase::WR_RD_WRSWA_32BIT,
#endif
PIXEL_VW,
PIXEL_HW
);
if (error != DisplayBase::GRAPHICS_OK) {
printf("Line %d, error %d\n", __LINE__, error);
while (1);
}
/* Interrupt callback function setting (Field end signal for recording function in scaler 0) */
error = Display.Graphics_Irq_Handler_Set(VIDEO_INT_TYPE, 0, IntCallbackFunc_Vfield);
if (error != DisplayBase::GRAPHICS_OK) {
printf("Line %d, error %d\n", __LINE__, error);
while (1);
}
/* Video write process start */
error = Display.Video_Start (VIDEO_INPUT_CH);
if (error != DisplayBase::GRAPHICS_OK) {
printf("Line %d, error %d\n", __LINE__, error);
while (1);
}
/* Video write process stop */
error = Display.Video_Stop (VIDEO_INPUT_CH);
if (error != DisplayBase::GRAPHICS_OK) {
printf("Line %d, error %d\n", __LINE__, error);
while (1);
}
/* Video write process start */
error = Display.Video_Start (VIDEO_INPUT_CH);
if (error != DisplayBase::GRAPHICS_OK) {
printf("Line %d, error %d\n", __LINE__, error);
while (1);
}
/* Wait vsync to update resister */
WaitVsync(1);
}
static int snapshot_req(const char ** pp_data) {
int encode_size;
while ((jcu_encoding == 1) || (image_change == 0)) {
Thread::wait(1);
}
jcu_buf_index_read = jcu_buf_index_write_done;
image_change = 0;
*pp_data = (const char *)JpegBuffer[jcu_buf_index_read];
encode_size = (int)jcu_encode_size[jcu_buf_index_read];
return encode_size;
}
static void TerminalWrite(Arguments* arg, Reply* r) {
if ((arg != NULL) && (r != NULL)) {
for (int i = 0; i < arg->argc; i++) {
if (arg->argv[i] != NULL) {
printf("%s", arg->argv[i]);
}
}
printf("\n");
r->putData<const char*>("ok");
}
}
static void mount_romramfs(void) {
FILE * fp;
romramfs.format();
//index.htm
fp = fopen("/romram/index.htm", "w");
fwrite(index_htm_tbl, sizeof(char), sizeof(index_htm_tbl), fp);
fclose(fp);
//camera.js
fp = fopen("/romram/camera.js", "w");
fwrite(camaera_js_tbl, sizeof(char), sizeof(camaera_js_tbl), fp);
fclose(fp);
//camera.htm
fp = fopen("/romram/camera.htm", "w");
fwrite(camera_htm_tbl, sizeof(char), sizeof(camera_htm_tbl), fp);
fclose(fp);
//mbedrpc.js
fp = fopen("/romram/mbedrpc.js", "w");
fwrite(mbedrpc_js_tbl, sizeof(char), sizeof(mbedrpc_js_tbl), fp);
fclose(fp);
//led.htm
fp = fopen("/romram/led.htm", "w");
fwrite(led_htm_tbl, sizeof(char), sizeof(led_htm_tbl), fp);
fclose(fp);
//i2c_set.htm
fp = fopen("/romram/i2c_set.htm", "w");
fwrite(i2c_set_htm_tbl, sizeof(char), sizeof(i2c_set_htm_tbl), fp);
fclose(fp);
//web_top.htm
fp = fopen("/romram/web_top.htm", "w");
fwrite(web_top_htm_tbl, sizeof(char), sizeof(web_top_htm_tbl), fp);
fclose(fp);
//menu.htm
fp = fopen("/romram/menu.htm", "w");
fwrite(menu_htm_tbl, sizeof(char), sizeof(menu_htm_tbl), fp);
fclose(fp);
//window.htm
fp = fopen("/romram/window.htm", "w");
fwrite(window_htm_tbl, sizeof(char), sizeof(window_htm_tbl), fp);
fclose(fp);
}
static void SetI2CfromWeb(Arguments* arg, Reply* r) {
int result = 0;
if (arg != NULL) {
if (arg->argc >= 2) {
if ((arg->argv[0] != NULL) && (arg->argv[1] != NULL)) {
sprintf(i2c_setting_str_buf, "%s,%s", arg->argv[0], arg->argv[1]);
result = 1;
}
} else if (arg->argc == 1) {
if (arg->argv[0] != NULL) {
sprintf(i2c_setting_str_buf, "%s", arg->argv[0]);
result = 1;
}
} else {
/* Do nothing */
}
/* command analysis and execute */
if (result != 0) {
if (i2c_setting_exe(i2c_setting_str_buf) != false) {
r->putData<const char*>(i2c_setting_str_buf);
}
}
}
}
int main(void) {
printf("********* PROGRAM START ***********\r\n");
/* Please enable this line when performing the setting from the Terminal side. */
// Thread thread(SetI2CfromTerm, NULL, osPriorityBelowNormal, DEFAULT_STACK_SIZE);
mount_romramfs(); //RomRamFileSystem Mount
camera_start(); //Camera Start
RPC::add_rpc_class<RpcDigitalOut>();
RPC::construct<RpcDigitalOut, PinName, const char*>(LED1, "led1");
RPC::construct<RpcDigitalOut, PinName, const char*>(LED2, "led2");
RPC::construct<RpcDigitalOut, PinName, const char*>(LED3, "led3");
RPCFunction rpcFunc(TerminalWrite, "TerminalWrite");
RPCFunction rpcSetI2C(SetI2CfromWeb, "SetI2CfromWeb");
#if (NETWORK_TYPE == 1)
//Audio Camera Shield USB1 enable for WlanBP3595
usb1en = 1; //Outputs high level
Thread::wait(5);
usb1en = 0; //Outputs low level
Thread::wait(5);
#endif
printf("Network Setting up...\r\n");
#if (USE_DHCP == 1)
if (network.init() != 0) { //for DHCP Server
#else
if (network.init(IP_ADDRESS, SUBNET_MASK, DEFAULT_GATEWAY) != 0) { //for Static IP Address (IPAddress, NetMasks, Gateway)
#endif
printf("Network Initialize Error \r\n");
return -1;
}
#if (NETWORK_TYPE == 0)
if (network.connect() != 0) {
#else
if (network.connect(WLAN_SSID, WLAN_PSK, WLAN_SECURITY) != 0) {
#endif
printf("Network Connect Error \r\n");
return -1;
}
printf("MAC Address is %s\r\n", network.getMACAddress());
printf("IP Address is %s\r\n", network.getIPAddress());
printf("NetMask is %s\r\n", network.getNetworkMask());
printf("Gateway Address is %s\r\n", network.getGateway());
printf("Network Setup OK\r\n");
DhcpServer dhcp_server("GR-PEACH_1", network.getIPAddress());
SnapshotHandler::attach_req(&snapshot_req);
HTTPServerAddHandler<SnapshotHandler>("/camera"); //Camera
FSHandler::mount("/romram", "/");
HTTPServerAddHandler<FSHandler>("/");
HTTPServerAddHandler<RPCHandler>("/rpc");
HTTPServerStart(80);
}