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Sergio R. Caprile 提交于 2024-05-30 11:22 . Update to latest FreeRTOS+TCP
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// Copyright (c) 2004-2013 Sergey Lyubka
// Copyright (c) 2013-2024 Cesanta Software Limited
// All rights reserved
//
// This software is dual-licensed: you can redistribute it and/or modify
// it under the terms of the GNU General Public License version 2 as
// published by the Free Software Foundation. For the terms of this
// license, see http://www.gnu.org/licenses/
//
// You are free to use this software under the terms of the GNU General
// Public License, but WITHOUT ANY WARRANTY; without even the implied
// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// Alternatively, you can license this software under a commercial
// license, as set out in https://www.mongoose.ws/licensing/
//
// SPDX-License-Identifier: GPL-2.0-only or commercial
#ifndef MONGOOSE_H
#define MONGOOSE_H
#define MG_VERSION "7.14"
#ifdef __cplusplus
extern "C" {
#endif
#define MG_ARCH_CUSTOM 0 // User creates its own mongoose_config.h
#define MG_ARCH_UNIX 1 // Linux, BSD, Mac, ...
#define MG_ARCH_WIN32 2 // Windows
#define MG_ARCH_ESP32 3 // ESP32
#define MG_ARCH_ESP8266 4 // ESP8266
#define MG_ARCH_FREERTOS 5 // FreeRTOS
#define MG_ARCH_AZURERTOS 6 // MS Azure RTOS
#define MG_ARCH_ZEPHYR 7 // Zephyr RTOS
#define MG_ARCH_NEWLIB 8 // Bare metal ARM
#define MG_ARCH_CMSIS_RTOS1 9 // CMSIS-RTOS API v1 (Keil RTX)
#define MG_ARCH_TIRTOS 10 // Texas Semi TI-RTOS
#define MG_ARCH_RP2040 11 // Raspberry Pi RP2040
#define MG_ARCH_ARMCC 12 // Keil MDK-Core with Configuration Wizard
#define MG_ARCH_CMSIS_RTOS2 13 // CMSIS-RTOS API v2 (Keil RTX5, FreeRTOS)
#define MG_ARCH_RTTHREAD 14 // RT-Thread RTOS
#if !defined(MG_ARCH)
#if defined(__unix__) || defined(__APPLE__)
#define MG_ARCH MG_ARCH_UNIX
#elif defined(_WIN32)
#define MG_ARCH MG_ARCH_WIN32
#endif
#endif // !defined(MG_ARCH)
#if !defined(MG_ARCH) || (MG_ARCH == MG_ARCH_CUSTOM)
#include "mongoose_config.h" // keep this include
#endif
#if !defined(MG_ARCH)
#error "MG_ARCH is not specified and we couldn't guess it. Define MG_ARCH=... in your compiler"
#endif
// http://esr.ibiblio.org/?p=5095
#define MG_BIG_ENDIAN (*(uint16_t *) "\0\xff" < 0x100)
#if MG_ARCH == MG_ARCH_AZURERTOS
#include <stdarg.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <time.h>
#include <fx_api.h>
#include <tx_api.h>
#include <nx_api.h>
#include <nx_bsd.h>
#include <nx_port.h>
#include <tx_port.h>
#define PATH_MAX FX_MAXIMUM_PATH
#define MG_DIRSEP '\\'
#define socklen_t int
#define closesocket(x) soc_close(x)
#undef FOPEN_MAX
#endif
#if MG_ARCH == MG_ARCH_ESP32
#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <netdb.h>
#include <stdarg.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <time.h>
#include <esp_ota_ops.h> // Use angle brackets to avoid
#include <esp_timer.h> // amalgamation ditching them
#define MG_PATH_MAX 128
#endif
#if MG_ARCH == MG_ARCH_ESP8266
#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <netdb.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <sys/types.h>
#include <time.h>
#include <esp_system.h>
#define MG_PATH_MAX 128
#endif
#if MG_ARCH == MG_ARCH_FREERTOS
#include <ctype.h>
#if !defined(MG_ENABLE_LWIP) || !MG_ENABLE_LWIP
#include <errno.h>
#endif
#include <stdarg.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h> // rand(), strtol(), atoi()
#include <string.h>
#if defined(__ARMCC_VERSION)
#define mode_t size_t
#include <alloca.h>
#include <time.h>
#elif defined(__CCRH__)
#else
#include <sys/stat.h>
#endif
#include <FreeRTOS.h>
#include <task.h>
#ifndef MG_IO_SIZE
#define MG_IO_SIZE 512
#endif
#define calloc(a, b) mg_calloc(a, b)
#define free(a) vPortFree(a)
#define malloc(a) pvPortMalloc(a)
#define strdup(s) ((char *) mg_strdup(mg_str(s)).buf)
// Re-route calloc/free to the FreeRTOS's functions, don't use stdlib
static inline void *mg_calloc(size_t cnt, size_t size) {
void *p = pvPortMalloc(cnt * size);
if (p != NULL) memset(p, 0, size * cnt);
return p;
}
#define mkdir(a, b) mg_mkdir(a, b)
static inline int mg_mkdir(const char *path, mode_t mode) {
(void) path, (void) mode;
return -1;
}
#endif // MG_ARCH == MG_ARCH_FREERTOS
#if MG_ARCH == MG_ARCH_NEWLIB
#define _POSIX_TIMERS
#include <ctype.h>
#include <errno.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <sys/types.h>
#include <time.h>
#include <unistd.h>
#define MG_PATH_MAX 100
#define MG_ENABLE_SOCKET 0
#define MG_ENABLE_DIRLIST 0
#endif
#if MG_ARCH == MG_ARCH_RP2040
#include <errno.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <pico/stdlib.h>
int mkdir(const char *, mode_t);
#endif
#if MG_ARCH == MG_ARCH_RTTHREAD
#include <rtthread.h>
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <sys/socket.h>
#include <sys/select.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <time.h>
#ifndef MG_IO_SIZE
#define MG_IO_SIZE 1460
#endif
#endif // MG_ARCH == MG_ARCH_RTTHREAD
#if MG_ARCH == MG_ARCH_ARMCC || MG_ARCH == MG_ARCH_CMSIS_RTOS1 || \
MG_ARCH == MG_ARCH_CMSIS_RTOS2
#include <ctype.h>
#include <errno.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <alloca.h>
#include <string.h>
#include <time.h>
#if MG_ARCH == MG_ARCH_CMSIS_RTOS1
#include "cmsis_os.h" // keep this include
// https://developer.arm.com/documentation/ka003821/latest
extern uint32_t rt_time_get(void);
#elif MG_ARCH == MG_ARCH_CMSIS_RTOS2
#include "cmsis_os2.h" // keep this include
#endif
#define strdup(s) ((char *) mg_strdup(mg_str(s)).buf)
#if defined(__ARMCC_VERSION)
#define mode_t size_t
#define mkdir(a, b) mg_mkdir(a, b)
static inline int mg_mkdir(const char *path, mode_t mode) {
(void) path, (void) mode;
return -1;
}
#endif
#if (MG_ARCH == MG_ARCH_CMSIS_RTOS1 || MG_ARCH == MG_ARCH_CMSIS_RTOS2) && \
!defined MG_ENABLE_RL && (!defined(MG_ENABLE_LWIP) || !MG_ENABLE_LWIP) && \
(!defined(MG_ENABLE_TCPIP) || !MG_ENABLE_TCPIP)
#define MG_ENABLE_RL 1
#ifndef MG_SOCK_LISTEN_BACKLOG_SIZE
#define MG_SOCK_LISTEN_BACKLOG_SIZE 3
#endif
#endif
#endif
#if MG_ARCH == MG_ARCH_TIRTOS
#include <stdlib.h>
#include <ctype.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <string.h>
#include <time.h>
#include <serrno.h>
#include <sys/socket.h>
#include <ti/sysbios/knl/Clock.h>
#endif
#if MG_ARCH == MG_ARCH_UNIX
#define _DARWIN_UNLIMITED_SELECT 1 // No limit on file descriptors
#if defined(__APPLE__)
#include <mach/mach_time.h>
#endif
#if !defined(MG_ENABLE_EPOLL) && defined(__linux__)
#define MG_ENABLE_EPOLL 1
#elif !defined(MG_ENABLE_POLL)
#define MG_ENABLE_POLL 1
#endif
#include <arpa/inet.h>
#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <inttypes.h>
#include <limits.h>
#include <netdb.h>
#include <netinet/in.h>
#include <netinet/tcp.h>
#include <signal.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#if defined(MG_ENABLE_EPOLL) && MG_ENABLE_EPOLL
#include <sys/epoll.h>
#elif defined(MG_ENABLE_POLL) && MG_ENABLE_POLL
#include <poll.h>
#else
#include <sys/select.h>
#endif
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <sys/types.h>
#include <time.h>
#include <unistd.h>
#ifndef MG_ENABLE_DIRLIST
#define MG_ENABLE_DIRLIST 1
#endif
#ifndef MG_PATH_MAX
#define MG_PATH_MAX FILENAME_MAX
#endif
#endif
#if MG_ARCH == MG_ARCH_WIN32
#ifndef WIN32_LEAN_AND_MEAN
#define WIN32_LEAN_AND_MEAN
#endif
#ifndef _CRT_SECURE_NO_WARNINGS
#define _CRT_SECURE_NO_WARNINGS
#endif
#ifndef _WINSOCK_DEPRECATED_NO_WARNINGS
#define _WINSOCK_DEPRECATED_NO_WARNINGS
#endif
#include <ctype.h>
#include <direct.h>
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <signal.h>
#include <stdarg.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <time.h>
#if defined(_MSC_VER) && _MSC_VER < 1700
#define __func__ ""
typedef __int64 int64_t;
typedef unsigned __int64 uint64_t;
typedef unsigned char uint8_t;
typedef char int8_t;
typedef unsigned short uint16_t;
typedef short int16_t;
typedef unsigned int uint32_t;
typedef int int32_t;
typedef enum { false = 0, true = 1 } bool;
#else
#include <stdbool.h>
#include <stdint.h>
#include <ws2tcpip.h>
#endif
#include <process.h>
#include <winerror.h>
#include <winsock2.h>
// Protect from calls like std::snprintf in app code
// See https://github.com/cesanta/mongoose/issues/1047
#ifndef __cplusplus
#define snprintf _snprintf
#define vsnprintf _vsnprintf
#ifndef strdup // For MSVC with _DEBUG, see #1359
#define strdup(x) _strdup(x)
#endif
#endif
#define MG_INVALID_SOCKET INVALID_SOCKET
#define MG_SOCKET_TYPE SOCKET
typedef unsigned long nfds_t;
#if defined(_MSC_VER)
#pragma comment(lib, "ws2_32.lib")
#ifndef alloca
#define alloca(a) _alloca(a)
#endif
#endif
#define poll(a, b, c) WSAPoll((a), (b), (c))
#define closesocket(x) closesocket(x)
typedef int socklen_t;
#define MG_DIRSEP '\\'
#ifndef MG_PATH_MAX
#define MG_PATH_MAX FILENAME_MAX
#endif
#ifndef SO_EXCLUSIVEADDRUSE
#define SO_EXCLUSIVEADDRUSE ((int) (~SO_REUSEADDR))
#endif
#define MG_SOCK_ERR(errcode) ((errcode) < 0 ? WSAGetLastError() : 0)
#define MG_SOCK_PENDING(errcode) \
(((errcode) < 0) && \
(WSAGetLastError() == WSAEINTR || WSAGetLastError() == WSAEINPROGRESS || \
WSAGetLastError() == WSAEWOULDBLOCK))
#define MG_SOCK_RESET(errcode) \
(((errcode) < 0) && (WSAGetLastError() == WSAECONNRESET))
#define realpath(a, b) _fullpath((b), (a), MG_PATH_MAX)
#define sleep(x) Sleep((x) *1000)
#define mkdir(a, b) _mkdir(a)
#define timegm(x) _mkgmtime(x)
#ifndef S_ISDIR
#define S_ISDIR(x) (((x) &_S_IFMT) == _S_IFDIR)
#endif
#ifndef MG_ENABLE_DIRLIST
#define MG_ENABLE_DIRLIST 1
#endif
#ifndef SIGPIPE
#define SIGPIPE 0
#endif
#endif
#if MG_ARCH == MG_ARCH_ZEPHYR
#include <zephyr/kernel.h>
#include <ctype.h>
#include <errno.h>
#include <zephyr/net/socket.h>
#include <zephyr/posix/fcntl.h>
#include <zephyr/posix/sys/select.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <time.h>
#define MG_PUTCHAR(x) printk("%c", x)
#ifndef strdup
#define strdup(s) ((char *) mg_strdup(mg_str(s)).buf)
#endif
#define strerror(x) zsock_gai_strerror(x)
#ifndef FD_CLOEXEC
#define FD_CLOEXEC 0
#endif
#ifndef F_SETFD
#define F_SETFD 0
#endif
#define MG_ENABLE_SSI 0
int rand(void);
int sscanf(const char *, const char *, ...);
#endif
#if defined(MG_ENABLE_FREERTOS_TCP) && MG_ENABLE_FREERTOS_TCP
#include <limits.h>
#include <list.h>
#include <FreeRTOS_IP.h>
#include <FreeRTOS_Sockets.h>
#define MG_SOCKET_TYPE Socket_t
#define MG_INVALID_SOCKET FREERTOS_INVALID_SOCKET
// Why FreeRTOS-TCP did not implement a clean BSD API, but its own thing
// with FreeRTOS_ prefix, is beyond me
#define IPPROTO_TCP FREERTOS_IPPROTO_TCP
#define IPPROTO_UDP FREERTOS_IPPROTO_UDP
#define AF_INET FREERTOS_AF_INET
#define SOCK_STREAM FREERTOS_SOCK_STREAM
#define SOCK_DGRAM FREERTOS_SOCK_DGRAM
#define SO_BROADCAST 0
#define SO_ERROR 0
#define SOL_SOCKET 0
#define SO_REUSEADDR 0
#define MG_SOCK_ERR(errcode) ((errcode) < 0 ? (errcode) : 0)
#define MG_SOCK_PENDING(errcode) \
((errcode) == -pdFREERTOS_ERRNO_EWOULDBLOCK || \
(errcode) == -pdFREERTOS_ERRNO_EISCONN || \
(errcode) == -pdFREERTOS_ERRNO_EINPROGRESS || \
(errcode) == -pdFREERTOS_ERRNO_EAGAIN)
#define MG_SOCK_RESET(errcode) ((errcode) == -pdFREERTOS_ERRNO_ENOTCONN)
// actually only if optional timeout is enabled
#define MG_SOCK_INTR(fd) (fd == NULL)
#define sockaddr_in freertos_sockaddr
#define sockaddr freertos_sockaddr
#define sin_addr sin_address.ulIP_IPv4
#define accept(a, b, c) FreeRTOS_accept((a), (b), (c))
#define connect(a, b, c) FreeRTOS_connect((a), (b), (c))
#define bind(a, b, c) FreeRTOS_bind((a), (b), (c))
#define listen(a, b) FreeRTOS_listen((a), (b))
#define socket(a, b, c) FreeRTOS_socket((a), (b), (c))
#define send(a, b, c, d) FreeRTOS_send((a), (b), (c), (d))
#define recv(a, b, c, d) FreeRTOS_recv((a), (b), (c), (d))
#define setsockopt(a, b, c, d, e) FreeRTOS_setsockopt((a), (b), (c), (d), (e))
#define sendto(a, b, c, d, e, f) FreeRTOS_sendto((a), (b), (c), (d), (e), (f))
#define recvfrom(a, b, c, d, e, f) \
FreeRTOS_recvfrom((a), (b), (c), (d), (e), (f))
#define closesocket(x) FreeRTOS_closesocket(x)
#define gethostbyname(x) FreeRTOS_gethostbyname(x)
#define getsockname(a, b, c) mg_getsockname((a), (b), (c))
#define getpeername(a, b, c) mg_getpeername((a), (b), (c))
static inline int mg_getsockname(MG_SOCKET_TYPE fd, void *buf, socklen_t *len) {
(void) fd, (void) buf, (void) len;
return -1;
}
static inline int mg_getpeername(MG_SOCKET_TYPE fd, void *buf, socklen_t *len) {
(void) fd, (void) buf, (void) len;
return 0;
}
#endif
#if defined(MG_ENABLE_LWIP) && MG_ENABLE_LWIP
#if defined(__GNUC__) && !defined(__ARMCC_VERSION)
#include <sys/stat.h>
#endif
struct timeval;
#include <lwip/sockets.h>
#if !LWIP_TIMEVAL_PRIVATE
#if defined(__GNUC__) && !defined(__ARMCC_VERSION) // armclang sets both
#include <sys/time.h>
#else
struct timeval {
time_t tv_sec;
long tv_usec;
};
#endif
#endif
#if LWIP_SOCKET != 1
// Sockets support disabled in LWIP by default
#error Set LWIP_SOCKET variable to 1 (in lwipopts.h)
#endif
#endif
#if defined(MG_ENABLE_RL) && MG_ENABLE_RL
#include <rl_net.h>
#define closesocket(x) closesocket(x)
#define TCP_NODELAY SO_KEEPALIVE
#define MG_SOCK_ERR(errcode) ((errcode) < 0 ? (errcode) : 0)
#define MG_SOCK_PENDING(errcode) \
((errcode) == BSD_EWOULDBLOCK || (errcode) == BSD_EALREADY || \
(errcode) == BSD_EINPROGRESS)
#define MG_SOCK_RESET(errcode) \
((errcode) == BSD_ECONNABORTED || (errcode) == BSD_ECONNRESET)
// In blocking mode, which is enabled by default, accept() waits for a
// connection request. In non blocking mode, you must call accept()
// again if the error code BSD_EWOULDBLOCK is returned.
#define MG_SOCK_INTR(fd) (fd == BSD_EWOULDBLOCK)
#define socklen_t int
#endif
#ifndef MG_ENABLE_LOG
#define MG_ENABLE_LOG 1
#endif
#ifndef MG_ENABLE_CUSTOM_LOG
#define MG_ENABLE_CUSTOM_LOG 0 // Let user define their own MG_LOG
#endif
#ifndef MG_ENABLE_TCPIP
#define MG_ENABLE_TCPIP 0 // Mongoose built-in network stack
#endif
#ifndef MG_ENABLE_LWIP
#define MG_ENABLE_LWIP 0 // lWIP network stack
#endif
#ifndef MG_ENABLE_FREERTOS_TCP
#define MG_ENABLE_FREERTOS_TCP 0 // Amazon FreeRTOS-TCP network stack
#endif
#ifndef MG_ENABLE_RL
#define MG_ENABLE_RL 0 // ARM MDK network stack
#endif
#ifndef MG_ENABLE_SOCKET
#define MG_ENABLE_SOCKET !MG_ENABLE_TCPIP
#endif
#ifndef MG_ENABLE_POLL
#define MG_ENABLE_POLL 0
#endif
#ifndef MG_ENABLE_EPOLL
#define MG_ENABLE_EPOLL 0
#endif
#ifndef MG_ENABLE_FATFS
#define MG_ENABLE_FATFS 0
#endif
#ifndef MG_ENABLE_SSI
#define MG_ENABLE_SSI 0
#endif
#ifndef MG_ENABLE_IPV6
#define MG_ENABLE_IPV6 0
#endif
#ifndef MG_IPV6_V6ONLY
#define MG_IPV6_V6ONLY 0 // IPv6 socket binds only to V6, not V4 address
#endif
#ifndef MG_ENABLE_MD5
#define MG_ENABLE_MD5 1
#endif
// Set MG_ENABLE_WINSOCK=0 for Win32 builds with external IP stack (like LWIP)
#ifndef MG_ENABLE_WINSOCK
#define MG_ENABLE_WINSOCK 1
#endif
#ifndef MG_ENABLE_DIRLIST
#define MG_ENABLE_DIRLIST 0
#endif
#ifndef MG_ENABLE_CUSTOM_RANDOM
#define MG_ENABLE_CUSTOM_RANDOM 0
#endif
#ifndef MG_ENABLE_CUSTOM_MILLIS
#define MG_ENABLE_CUSTOM_MILLIS 0
#endif
#ifndef MG_ENABLE_PACKED_FS
#define MG_ENABLE_PACKED_FS 0
#endif
#ifndef MG_ENABLE_ASSERT
#define MG_ENABLE_ASSERT 0
#endif
#ifndef MG_IO_SIZE
#define MG_IO_SIZE 2048 // Granularity of the send/recv IO buffer growth
#endif
#ifndef MG_MAX_RECV_SIZE
#define MG_MAX_RECV_SIZE (3UL * 1024UL * 1024UL) // Maximum recv IO buffer size
#endif
#ifndef MG_DATA_SIZE
#define MG_DATA_SIZE 32 // struct mg_connection :: data size
#endif
#ifndef MG_MAX_HTTP_HEADERS
#define MG_MAX_HTTP_HEADERS 30
#endif
#ifndef MG_HTTP_INDEX
#define MG_HTTP_INDEX "index.html"
#endif
#ifndef MG_PATH_MAX
#ifdef PATH_MAX
#define MG_PATH_MAX PATH_MAX
#else
#define MG_PATH_MAX 128
#endif
#endif
#ifndef MG_SOCK_LISTEN_BACKLOG_SIZE
#define MG_SOCK_LISTEN_BACKLOG_SIZE 128
#endif
#ifndef MG_DIRSEP
#define MG_DIRSEP '/'
#endif
#ifndef MG_ENABLE_POSIX_FS
#if defined(FOPEN_MAX)
#define MG_ENABLE_POSIX_FS 1
#else
#define MG_ENABLE_POSIX_FS 0
#endif
#endif
#ifndef MG_INVALID_SOCKET
#define MG_INVALID_SOCKET (-1)
#endif
#ifndef MG_SOCKET_TYPE
#define MG_SOCKET_TYPE int
#endif
#ifndef MG_SOCKET_ERRNO
#define MG_SOCKET_ERRNO errno
#endif
#if MG_ENABLE_EPOLL
#define MG_EPOLL_ADD(c) \
do { \
struct epoll_event ev = {EPOLLIN | EPOLLERR | EPOLLHUP, {c}}; \
epoll_ctl(c->mgr->epoll_fd, EPOLL_CTL_ADD, (int) (size_t) c->fd, &ev); \
} while (0)
#define MG_EPOLL_MOD(c, wr) \
do { \
struct epoll_event ev = {EPOLLIN | EPOLLERR | EPOLLHUP, {c}}; \
if (wr) ev.events |= EPOLLOUT; \
epoll_ctl(c->mgr->epoll_fd, EPOLL_CTL_MOD, (int) (size_t) c->fd, &ev); \
} while (0)
#else
#define MG_EPOLL_ADD(c)
#define MG_EPOLL_MOD(c, wr)
#endif
#ifndef MG_ENABLE_PROFILE
#define MG_ENABLE_PROFILE 0
#endif
#ifndef MG_ENABLE_TCPIP_DRIVER_INIT // mg_mgr_init() will also initialize
#define MG_ENABLE_TCPIP_DRIVER_INIT 1 // enabled built-in driver for
#endif // Mongoose built-in network stack
#ifndef MG_TCPIP_IP // e.g. MG_IPV4(192, 168, 0, 223)
#define MG_TCPIP_IP MG_IPV4(0, 0, 0, 0) // Default is 0.0.0.0 (DHCP)
#endif
#ifndef MG_TCPIP_MASK
#define MG_TCPIP_MASK MG_IPV4(0, 0, 0, 0) // Default is 0.0.0.0 (DHCP)
#endif
#ifndef MG_TCPIP_GW
#define MG_TCPIP_GW MG_IPV4(0, 0, 0, 0) // Default is 0.0.0.0 (DHCP)
#endif
#ifndef MG_SET_MAC_ADDRESS
#define MG_SET_MAC_ADDRESS(mac)
#endif
#ifndef MG_ENABLE_TCPIP_PRINT_DEBUG_STATS
#define MG_ENABLE_TCPIP_PRINT_DEBUG_STATS 0
#endif
// Describes an arbitrary chunk of memory
struct mg_str {
char *buf; // String data
size_t len; // String length
};
// Using macro to avoid shadowing C++ struct constructor, see #1298
#define mg_str(s) mg_str_s(s)
struct mg_str mg_str(const char *s);
struct mg_str mg_str_n(const char *s, size_t n);
int mg_casecmp(const char *s1, const char *s2);
int mg_strcmp(const struct mg_str str1, const struct mg_str str2);
int mg_strcasecmp(const struct mg_str str1, const struct mg_str str2);
struct mg_str mg_strdup(const struct mg_str s);
bool mg_match(struct mg_str str, struct mg_str pattern, struct mg_str *caps);
bool mg_span(struct mg_str s, struct mg_str *a, struct mg_str *b, char delim);
bool mg_str_to_num(struct mg_str, int base, void *val, size_t val_len);
// Single producer, single consumer non-blocking queue
struct mg_queue {
char *buf;
size_t size;
volatile size_t tail;
volatile size_t head;
};
void mg_queue_init(struct mg_queue *, char *, size_t); // Init queue
size_t mg_queue_book(struct mg_queue *, char **buf, size_t); // Reserve space
void mg_queue_add(struct mg_queue *, size_t); // Add new message
size_t mg_queue_next(struct mg_queue *, char **); // Get oldest message
void mg_queue_del(struct mg_queue *, size_t); // Delete oldest message
typedef void (*mg_pfn_t)(char, void *); // Output function
typedef size_t (*mg_pm_t)(mg_pfn_t, void *, va_list *); // %M printer
size_t mg_vxprintf(void (*)(char, void *), void *, const char *fmt, va_list *);
size_t mg_xprintf(void (*fn)(char, void *), void *, const char *fmt, ...);
// Convenience wrappers around mg_xprintf
size_t mg_vsnprintf(char *buf, size_t len, const char *fmt, va_list *ap);
size_t mg_snprintf(char *, size_t, const char *fmt, ...);
char *mg_vmprintf(const char *fmt, va_list *ap);
char *mg_mprintf(const char *fmt, ...);
size_t mg_queue_vprintf(struct mg_queue *, const char *fmt, va_list *);
size_t mg_queue_printf(struct mg_queue *, const char *fmt, ...);
// %M print helper functions
size_t mg_print_base64(void (*out)(char, void *), void *arg, va_list *ap);
size_t mg_print_esc(void (*out)(char, void *), void *arg, va_list *ap);
size_t mg_print_hex(void (*out)(char, void *), void *arg, va_list *ap);
size_t mg_print_ip(void (*out)(char, void *), void *arg, va_list *ap);
size_t mg_print_ip_port(void (*out)(char, void *), void *arg, va_list *ap);
size_t mg_print_ip4(void (*out)(char, void *), void *arg, va_list *ap);
size_t mg_print_ip6(void (*out)(char, void *), void *arg, va_list *ap);
size_t mg_print_mac(void (*out)(char, void *), void *arg, va_list *ap);
// Various output functions
void mg_pfn_iobuf(char ch, void *param); // param: struct mg_iobuf *
void mg_pfn_stdout(char c, void *param); // param: ignored
// A helper macro for printing JSON: mg_snprintf(buf, len, "%m", MG_ESC("hi"))
#define MG_ESC(str) mg_print_esc, 0, (str)
enum { MG_LL_NONE, MG_LL_ERROR, MG_LL_INFO, MG_LL_DEBUG, MG_LL_VERBOSE };
extern int mg_log_level; // Current log level, one of MG_LL_*
void mg_log(const char *fmt, ...);
void mg_log_prefix(int ll, const char *file, int line, const char *fname);
// bool mg_log2(int ll, const char *file, int line, const char *fmt, ...);
void mg_hexdump(const void *buf, size_t len);
void mg_log_set_fn(mg_pfn_t fn, void *param);
#define mg_log_set(level_) mg_log_level = (level_)
#if MG_ENABLE_LOG
#define MG_LOG(level, args) \
do { \
if ((level) <= mg_log_level) { \
mg_log_prefix((level), __FILE__, __LINE__, __func__); \
mg_log args; \
} \
} while (0)
#else
#define MG_LOG(level, args) \
do { \
if (0) mg_log args; \
} while (0)
#endif
#define MG_ERROR(args) MG_LOG(MG_LL_ERROR, args)
#define MG_INFO(args) MG_LOG(MG_LL_INFO, args)
#define MG_DEBUG(args) MG_LOG(MG_LL_DEBUG, args)
#define MG_VERBOSE(args) MG_LOG(MG_LL_VERBOSE, args)
struct mg_timer {
unsigned long id; // Timer ID
uint64_t period_ms; // Timer period in milliseconds
uint64_t expire; // Expiration timestamp in milliseconds
unsigned flags; // Possible flags values below
#define MG_TIMER_ONCE 0 // Call function once
#define MG_TIMER_REPEAT 1 // Call function periodically
#define MG_TIMER_RUN_NOW 2 // Call immediately when timer is set
void (*fn)(void *); // Function to call
void *arg; // Function argument
struct mg_timer *next; // Linkage
};
void mg_timer_init(struct mg_timer **head, struct mg_timer *timer,
uint64_t milliseconds, unsigned flags, void (*fn)(void *),
void *arg);
void mg_timer_free(struct mg_timer **head, struct mg_timer *);
void mg_timer_poll(struct mg_timer **head, uint64_t new_ms);
bool mg_timer_expired(uint64_t *expiration, uint64_t period, uint64_t now);
enum { MG_FS_READ = 1, MG_FS_WRITE = 2, MG_FS_DIR = 4 };
// Filesystem API functions
// st() returns MG_FS_* flags and populates file size and modification time
// ls() calls fn() for every directory entry, allowing to list a directory
//
// NOTE: UNIX-style shorthand names for the API functions are deliberately
// chosen to avoid conflicts with some libraries that make macros for e.g.
// stat(), write(), read() calls.
struct mg_fs {
int (*st)(const char *path, size_t *size, time_t *mtime); // stat file
void (*ls)(const char *path, void (*fn)(const char *, void *),
void *); // List directory entries: call fn(file_name, fn_data)
// for each directory entry
void *(*op)(const char *path, int flags); // Open file
void (*cl)(void *fd); // Close file
size_t (*rd)(void *fd, void *buf, size_t len); // Read file
size_t (*wr)(void *fd, const void *buf, size_t len); // Write file
size_t (*sk)(void *fd, size_t offset); // Set file position
bool (*mv)(const char *from, const char *to); // Rename file
bool (*rm)(const char *path); // Delete file
bool (*mkd)(const char *path); // Create directory
};
extern struct mg_fs mg_fs_posix; // POSIX open/close/read/write/seek
extern struct mg_fs mg_fs_packed; // Packed FS, see examples/device-dashboard
extern struct mg_fs mg_fs_fat; // FAT FS
// File descriptor
struct mg_fd {
void *fd;
struct mg_fs *fs;
};
struct mg_fd *mg_fs_open(struct mg_fs *fs, const char *path, int flags);
void mg_fs_close(struct mg_fd *fd);
bool mg_fs_ls(struct mg_fs *fs, const char *path, char *buf, size_t len);
struct mg_str mg_file_read(struct mg_fs *fs, const char *path);
bool mg_file_write(struct mg_fs *fs, const char *path, const void *, size_t);
bool mg_file_printf(struct mg_fs *fs, const char *path, const char *fmt, ...);
// Packed API
const char *mg_unpack(const char *path, size_t *size, time_t *mtime);
const char *mg_unlist(size_t no); // Get no'th packed filename
struct mg_str mg_unpacked(const char *path); // Packed file as mg_str
#if MG_ENABLE_ASSERT
#include <assert.h>
#elif !defined(assert)
#define assert(x)
#endif
void mg_bzero(volatile unsigned char *buf, size_t len);
void mg_random(void *buf, size_t len);
char *mg_random_str(char *buf, size_t len);
uint16_t mg_ntohs(uint16_t net);
uint32_t mg_ntohl(uint32_t net);
uint32_t mg_crc32(uint32_t crc, const char *buf, size_t len);
uint64_t mg_millis(void); // Return milliseconds since boot
bool mg_path_is_sane(const struct mg_str path);
#define mg_htons(x) mg_ntohs(x)
#define mg_htonl(x) mg_ntohl(x)
#define MG_U32(a, b, c, d) \
(((uint32_t) ((a) & 255) << 24) | ((uint32_t) ((b) & 255) << 16) | \
((uint32_t) ((c) & 255) << 8) | (uint32_t) ((d) & 255))
#define MG_IPV4(a, b, c, d) mg_htonl(MG_U32(a, b, c, d))
// For printing IPv4 addresses: printf("%d.%d.%d.%d\n", MG_IPADDR_PARTS(&ip))
#define MG_U8P(ADDR) ((uint8_t *) (ADDR))
#define MG_IPADDR_PARTS(ADDR) \
MG_U8P(ADDR)[0], MG_U8P(ADDR)[1], MG_U8P(ADDR)[2], MG_U8P(ADDR)[3]
#define MG_REG(x) ((volatile uint32_t *) (x))[0]
#define MG_BIT(x) (((uint32_t) 1U) << (x))
#define MG_SET_BITS(R, CLRMASK, SETMASK) (R) = ((R) & ~(CLRMASK)) | (SETMASK)
#define MG_ROUND_UP(x, a) ((a) == 0 ? (x) : ((((x) + (a) -1) / (a)) * (a)))
#define MG_ROUND_DOWN(x, a) ((a) == 0 ? (x) : (((x) / (a)) * (a)))
#if defined(__GNUC__)
#define MG_ARM_DISABLE_IRQ() asm volatile("cpsid i" : : : "memory")
#define MG_ARM_ENABLE_IRQ() asm volatile("cpsie i" : : : "memory")
#elif defined(__CCRH__)
#define MG_RH850_DISABLE_IRQ() __DI()
#define MG_RH850_ENABLE_IRQ() __EI()
#else
#define MG_ARM_DISABLE_IRQ()
#define MG_ARM_ENABLE_IRQ()
#endif
#if defined(__CC_ARM)
#define MG_DSB() __dsb(0xf)
#elif defined(__ARMCC_VERSION)
#define MG_DSB() __builtin_arm_dsb(0xf)
#elif defined(__GNUC__) && defined(__arm__) && defined(__thumb__)
#define MG_DSB() asm("DSB 0xf")
#elif defined(__ICCARM__)
#define MG_DSB() __iar_builtin_DSB()
#else
#define MG_DSB()
#endif
struct mg_addr;
int mg_check_ip_acl(struct mg_str acl, struct mg_addr *remote_ip);
// Linked list management macros
#define LIST_ADD_HEAD(type_, head_, elem_) \
do { \
(elem_)->next = (*head_); \
*(head_) = (elem_); \
} while (0)
#define LIST_ADD_TAIL(type_, head_, elem_) \
do { \
type_ **h = head_; \
while (*h != NULL) h = &(*h)->next; \
*h = (elem_); \
} while (0)
#define LIST_DELETE(type_, head_, elem_) \
do { \
type_ **h = head_; \
while (*h != (elem_)) h = &(*h)->next; \
*h = (elem_)->next; \
} while (0)
unsigned short mg_url_port(const char *url);
int mg_url_is_ssl(const char *url);
struct mg_str mg_url_host(const char *url);
struct mg_str mg_url_user(const char *url);
struct mg_str mg_url_pass(const char *url);
const char *mg_url_uri(const char *url);
struct mg_iobuf {
unsigned char *buf; // Pointer to stored data
size_t size; // Total size available
size_t len; // Current number of bytes
size_t align; // Alignment during allocation
};
int mg_iobuf_init(struct mg_iobuf *, size_t, size_t);
int mg_iobuf_resize(struct mg_iobuf *, size_t);
void mg_iobuf_free(struct mg_iobuf *);
size_t mg_iobuf_add(struct mg_iobuf *, size_t, const void *, size_t);
size_t mg_iobuf_del(struct mg_iobuf *, size_t ofs, size_t len);
size_t mg_base64_update(unsigned char input_byte, char *buf, size_t len);
size_t mg_base64_final(char *buf, size_t len);
size_t mg_base64_encode(const unsigned char *p, size_t n, char *buf, size_t);
size_t mg_base64_decode(const char *src, size_t n, char *dst, size_t);
typedef struct {
uint32_t buf[4];
uint32_t bits[2];
unsigned char in[64];
} mg_md5_ctx;
void mg_md5_init(mg_md5_ctx *c);
void mg_md5_update(mg_md5_ctx *c, const unsigned char *data, size_t len);
void mg_md5_final(mg_md5_ctx *c, unsigned char[16]);
typedef struct {
uint32_t state[5];
uint32_t count[2];
unsigned char buffer[64];
} mg_sha1_ctx;
void mg_sha1_init(mg_sha1_ctx *);
void mg_sha1_update(mg_sha1_ctx *, const unsigned char *data, size_t len);
void mg_sha1_final(unsigned char digest[20], mg_sha1_ctx *);
// https://github.com/B-Con/crypto-algorithms
// Author: Brad Conte (brad AT bradconte.com)
// Disclaimer: This code is presented "as is" without any guarantees.
// Details: Defines the API for the corresponding SHA1 implementation.
// Copyright: public domain
typedef struct {
uint32_t state[8];
uint64_t bits;
uint32_t len;
unsigned char buffer[64];
} mg_sha256_ctx;
void mg_sha256_init(mg_sha256_ctx *);
void mg_sha256_update(mg_sha256_ctx *, const unsigned char *data, size_t len);
void mg_sha256_final(unsigned char digest[32], mg_sha256_ctx *);
void mg_hmac_sha256(uint8_t dst[32], uint8_t *key, size_t keysz, uint8_t *data,
size_t datasz);
#ifndef TLS_X15519_H
#define TLS_X15519_H
#define X25519_BYTES 32
extern const uint8_t X25519_BASE_POINT[X25519_BYTES];
int mg_tls_x25519(uint8_t out[X25519_BYTES], const uint8_t scalar[X25519_BYTES],
const uint8_t x1[X25519_BYTES], int clamp);
#endif /* TLS_X15519_H */
/******************************************************************************
*
* THIS SOURCE CODE IS HEREBY PLACED INTO THE PUBLIC DOMAIN FOR THE GOOD OF ALL
*
* This is a simple and straightforward implementation of AES-GCM authenticated
* encryption. The focus of this work was correctness & accuracy. It is written
* in straight 'C' without any particular focus upon optimization or speed. It
* should be endian (memory byte order) neutral since the few places that care
* are handled explicitly.
*
* This implementation of AES-GCM was created by Steven M. Gibson of GRC.com.
*
* It is intended for general purpose use, but was written in support of GRC's
* reference implementation of the SQRL (Secure Quick Reliable Login) client.
*
* See: http://csrc.nist.gov/publications/nistpubs/800-38D/SP-800-38D.pdf
* http://csrc.nist.gov/groups/ST/toolkit/BCM/documents/proposedmodes/ \
* gcm/gcm-revised-spec.pdf
*
* NO COPYRIGHT IS CLAIMED IN THIS WORK, HOWEVER, NEITHER IS ANY WARRANTY MADE
* REGARDING ITS FITNESS FOR ANY PARTICULAR PURPOSE. USE IT AT YOUR OWN RISK.
*
*******************************************************************************/
#ifndef TLS_AES128_H
#define TLS_AES128_H
typedef unsigned char uchar; // add some convienent shorter types
typedef unsigned int uint;
/******************************************************************************
* AES_CONTEXT : cipher context / holds inter-call data
******************************************************************************/
typedef struct {
int mode; // 1 for Encryption, 0 for Decryption
int rounds; // keysize-based rounds count
uint32_t *rk; // pointer to current round key
uint32_t buf[68]; // key expansion buffer
} aes_context;
#define GCM_AUTH_FAILURE 0x55555555 // authentication failure
/******************************************************************************
* GCM_CONTEXT : MUST be called once before ANY use of this library
******************************************************************************/
int mg_gcm_initialize(void);
//
// aes-gcm.h
// MKo
//
// Created by Markus Kosmal on 20/11/14.
//
//
int mg_aes_gcm_encrypt(unsigned char *output, const unsigned char *input,
size_t input_length, const unsigned char *key,
const size_t key_len, const unsigned char *iv,
const size_t iv_len, unsigned char *aead,
size_t aead_len, unsigned char *tag,
const size_t tag_len);
int mg_aes_gcm_decrypt(unsigned char *output, const unsigned char *input,
size_t input_length, const unsigned char *key,
const size_t key_len, const unsigned char *iv,
const size_t iv_len);
#endif /* TLS_AES128_H */
// End of aes128 PD
#define MG_UECC_SUPPORTS_secp256r1 1
/* Copyright 2014, Kenneth MacKay. Licensed under the BSD 2-clause license. */
#ifndef _UECC_H_
#define _UECC_H_
/* Platform selection options.
If MG_UECC_PLATFORM is not defined, the code will try to guess it based on
compiler macros. Possible values for MG_UECC_PLATFORM are defined below: */
#define mg_uecc_arch_other 0
#define mg_uecc_x86 1
#define mg_uecc_x86_64 2
#define mg_uecc_arm 3
#define mg_uecc_arm_thumb 4
#define mg_uecc_arm_thumb2 5
#define mg_uecc_arm64 6
#define mg_uecc_avr 7
/* If desired, you can define MG_UECC_WORD_SIZE as appropriate for your platform
(1, 4, or 8 bytes). If MG_UECC_WORD_SIZE is not explicitly defined then it will
be automatically set based on your platform. */
/* Optimization level; trade speed for code size.
Larger values produce code that is faster but larger.
Currently supported values are 0 - 4; 0 is unusably slow for most
applications. Optimization level 4 currently only has an effect ARM platforms
where more than one curve is enabled. */
#ifndef MG_UECC_OPTIMIZATION_LEVEL
#define MG_UECC_OPTIMIZATION_LEVEL 2
#endif
/* MG_UECC_SQUARE_FUNC - If enabled (defined as nonzero), this will cause a
specific function to be used for (scalar) squaring instead of the generic
multiplication function. This can make things faster somewhat faster, but
increases the code size. */
#ifndef MG_UECC_SQUARE_FUNC
#define MG_UECC_SQUARE_FUNC 0
#endif
/* MG_UECC_VLI_NATIVE_LITTLE_ENDIAN - If enabled (defined as nonzero), this will
switch to native little-endian format for *all* arrays passed in and out of the
public API. This includes public and private keys, shared secrets, signatures
and message hashes. Using this switch reduces the amount of call stack memory
used by uECC, since less intermediate translations are required. Note that this
will *only* work on native little-endian processors and it will treat the
uint8_t arrays passed into the public API as word arrays, therefore requiring
the provided byte arrays to be word aligned on architectures that do not support
unaligned accesses. IMPORTANT: Keys and signatures generated with
MG_UECC_VLI_NATIVE_LITTLE_ENDIAN=1 are incompatible with keys and signatures
generated with MG_UECC_VLI_NATIVE_LITTLE_ENDIAN=0; all parties must use the same
endianness. */
#ifndef MG_UECC_VLI_NATIVE_LITTLE_ENDIAN
#define MG_UECC_VLI_NATIVE_LITTLE_ENDIAN 0
#endif
/* Curve support selection. Set to 0 to remove that curve. */
#ifndef MG_UECC_SUPPORTS_secp160r1
#define MG_UECC_SUPPORTS_secp160r1 0
#endif
#ifndef MG_UECC_SUPPORTS_secp192r1
#define MG_UECC_SUPPORTS_secp192r1 0
#endif
#ifndef MG_UECC_SUPPORTS_secp224r1
#define MG_UECC_SUPPORTS_secp224r1 0
#endif
#ifndef MG_UECC_SUPPORTS_secp256r1
#define MG_UECC_SUPPORTS_secp256r1 1
#endif
#ifndef MG_UECC_SUPPORTS_secp256k1
#define MG_UECC_SUPPORTS_secp256k1 0
#endif
/* Specifies whether compressed point format is supported.
Set to 0 to disable point compression/decompression functions. */
#ifndef MG_UECC_SUPPORT_COMPRESSED_POINT
#define MG_UECC_SUPPORT_COMPRESSED_POINT 1
#endif
struct MG_UECC_Curve_t;
typedef const struct MG_UECC_Curve_t *MG_UECC_Curve;
#ifdef __cplusplus
extern "C" {
#endif
#if MG_UECC_SUPPORTS_secp160r1
MG_UECC_Curve mg_uecc_secp160r1(void);
#endif
#if MG_UECC_SUPPORTS_secp192r1
MG_UECC_Curve mg_uecc_secp192r1(void);
#endif
#if MG_UECC_SUPPORTS_secp224r1
MG_UECC_Curve mg_uecc_secp224r1(void);
#endif
#if MG_UECC_SUPPORTS_secp256r1
MG_UECC_Curve mg_uecc_secp256r1(void);
#endif
#if MG_UECC_SUPPORTS_secp256k1
MG_UECC_Curve mg_uecc_secp256k1(void);
#endif
/* MG_UECC_RNG_Function type
The RNG function should fill 'size' random bytes into 'dest'. It should return 1
if 'dest' was filled with random data, or 0 if the random data could not be
generated. The filled-in values should be either truly random, or from a
cryptographically-secure PRNG.
A correctly functioning RNG function must be set (using mg_uecc_set_rng())
before calling mg_uecc_make_key() or mg_uecc_sign().
Setting a correctly functioning RNG function improves the resistance to
side-channel attacks for mg_uecc_shared_secret() and
mg_uecc_sign_deterministic().
A correct RNG function is set by default when building for Windows, Linux, or OS
X. If you are building on another POSIX-compliant system that supports
/dev/random or /dev/urandom, you can define MG_UECC_POSIX to use the predefined
RNG. For embedded platforms there is no predefined RNG function; you must
provide your own.
*/
typedef int (*MG_UECC_RNG_Function)(uint8_t *dest, unsigned size);
/* mg_uecc_set_rng() function.
Set the function that will be used to generate random bytes. The RNG function
should return 1 if the random data was generated, or 0 if the random data could
not be generated.
On platforms where there is no predefined RNG function (eg embedded platforms),
this must be called before mg_uecc_make_key() or mg_uecc_sign() are used.
Inputs:
rng_function - The function that will be used to generate random bytes.
*/
void mg_uecc_set_rng(MG_UECC_RNG_Function rng_function);
/* mg_uecc_get_rng() function.
Returns the function that will be used to generate random bytes.
*/
MG_UECC_RNG_Function mg_uecc_get_rng(void);
/* mg_uecc_curve_private_key_size() function.
Returns the size of a private key for the curve in bytes.
*/
int mg_uecc_curve_private_key_size(MG_UECC_Curve curve);
/* mg_uecc_curve_public_key_size() function.
Returns the size of a public key for the curve in bytes.
*/
int mg_uecc_curve_public_key_size(MG_UECC_Curve curve);
/* mg_uecc_make_key() function.
Create a public/private key pair.
Outputs:
public_key - Will be filled in with the public key. Must be at least 2 *
the curve size (in bytes) long. For example, if the curve is secp256r1,
public_key must be 64 bytes long. private_key - Will be filled in with the
private key. Must be as long as the curve order; this is typically the same as
the curve size, except for secp160r1. For example, if the curve is secp256r1,
private_key must be 32 bytes long.
For secp160r1, private_key must be 21 bytes long! Note that
the first byte will almost always be 0 (there is about a 1 in 2^80 chance of it
being non-zero).
Returns 1 if the key pair was generated successfully, 0 if an error occurred.
*/
int mg_uecc_make_key(uint8_t *public_key, uint8_t *private_key,
MG_UECC_Curve curve);
/* mg_uecc_shared_secret() function.
Compute a shared secret given your secret key and someone else's public key. If
the public key is not from a trusted source and has not been previously
verified, you should verify it first using mg_uecc_valid_public_key(). Note: It
is recommended that you hash the result of mg_uecc_shared_secret() before using
it for symmetric encryption or HMAC.
Inputs:
public_key - The public key of the remote party.
private_key - Your private key.
Outputs:
secret - Will be filled in with the shared secret value. Must be the same
size as the curve size; for example, if the curve is secp256r1, secret must be
32 bytes long.
Returns 1 if the shared secret was generated successfully, 0 if an error
occurred.
*/
int mg_uecc_shared_secret(const uint8_t *public_key, const uint8_t *private_key,
uint8_t *secret, MG_UECC_Curve curve);
#if MG_UECC_SUPPORT_COMPRESSED_POINT
/* mg_uecc_compress() function.
Compress a public key.
Inputs:
public_key - The public key to compress.
Outputs:
compressed - Will be filled in with the compressed public key. Must be at
least (curve size + 1) bytes long; for example, if the curve is secp256r1,
compressed must be 33 bytes long.
*/
void mg_uecc_compress(const uint8_t *public_key, uint8_t *compressed,
MG_UECC_Curve curve);
/* mg_uecc_decompress() function.
Decompress a compressed public key.
Inputs:
compressed - The compressed public key.
Outputs:
public_key - Will be filled in with the decompressed public key.
*/
void mg_uecc_decompress(const uint8_t *compressed, uint8_t *public_key,
MG_UECC_Curve curve);
#endif /* MG_UECC_SUPPORT_COMPRESSED_POINT */
/* mg_uecc_valid_public_key() function.
Check to see if a public key is valid.
Note that you are not required to check for a valid public key before using any
other uECC functions. However, you may wish to avoid spending CPU time computing
a shared secret or verifying a signature using an invalid public key.
Inputs:
public_key - The public key to check.
Returns 1 if the public key is valid, 0 if it is invalid.
*/
int mg_uecc_valid_public_key(const uint8_t *public_key, MG_UECC_Curve curve);
/* mg_uecc_compute_public_key() function.
Compute the corresponding public key for a private key.
Inputs:
private_key - The private key to compute the public key for
Outputs:
public_key - Will be filled in with the corresponding public key
Returns 1 if the key was computed successfully, 0 if an error occurred.
*/
int mg_uecc_compute_public_key(const uint8_t *private_key, uint8_t *public_key,
MG_UECC_Curve curve);
/* mg_uecc_sign() function.
Generate an ECDSA signature for a given hash value.
Usage: Compute a hash of the data you wish to sign (SHA-2 is recommended) and
pass it in to this function along with your private key.
Inputs:
private_key - Your private key.
message_hash - The hash of the message to sign.
hash_size - The size of message_hash in bytes.
Outputs:
signature - Will be filled in with the signature value. Must be at least 2 *
curve size long. For example, if the curve is secp256r1, signature must be 64
bytes long.
Returns 1 if the signature generated successfully, 0 if an error occurred.
*/
int mg_uecc_sign(const uint8_t *private_key, const uint8_t *message_hash,
unsigned hash_size, uint8_t *signature, MG_UECC_Curve curve);
/* MG_UECC_HashContext structure.
This is used to pass in an arbitrary hash function to
mg_uecc_sign_deterministic(). The structure will be used for multiple hash
computations; each time a new hash is computed, init_hash() will be called,
followed by one or more calls to update_hash(), and finally a call to
finish_hash() to produce the resulting hash.
The intention is that you will create a structure that includes
MG_UECC_HashContext followed by any hash-specific data. For example:
typedef struct SHA256_HashContext {
MG_UECC_HashContext uECC;
SHA256_CTX ctx;
} SHA256_HashContext;
void init_SHA256(MG_UECC_HashContext *base) {
SHA256_HashContext *context = (SHA256_HashContext *)base;
SHA256_Init(&context->ctx);
}
void update_SHA256(MG_UECC_HashContext *base,
const uint8_t *message,
unsigned message_size) {
SHA256_HashContext *context = (SHA256_HashContext *)base;
SHA256_Update(&context->ctx, message, message_size);
}
void finish_SHA256(MG_UECC_HashContext *base, uint8_t *hash_result) {
SHA256_HashContext *context = (SHA256_HashContext *)base;
SHA256_Final(hash_result, &context->ctx);
}
... when signing ...
{
uint8_t tmp[32 + 32 + 64];
SHA256_HashContext ctx = {{&init_SHA256, &update_SHA256, &finish_SHA256, 64,
32, tmp}}; mg_uecc_sign_deterministic(key, message_hash, &ctx.uECC, signature);
}
*/
typedef struct MG_UECC_HashContext {
void (*init_hash)(const struct MG_UECC_HashContext *context);
void (*update_hash)(const struct MG_UECC_HashContext *context,
const uint8_t *message, unsigned message_size);
void (*finish_hash)(const struct MG_UECC_HashContext *context,
uint8_t *hash_result);
unsigned
block_size; /* Hash function block size in bytes, eg 64 for SHA-256. */
unsigned
result_size; /* Hash function result size in bytes, eg 32 for SHA-256. */
uint8_t *tmp; /* Must point to a buffer of at least (2 * result_size +
block_size) bytes. */
} MG_UECC_HashContext;
/* mg_uecc_sign_deterministic() function.
Generate an ECDSA signature for a given hash value, using a deterministic
algorithm (see RFC 6979). You do not need to set the RNG using mg_uecc_set_rng()
before calling this function; however, if the RNG is defined it will improve
resistance to side-channel attacks.
Usage: Compute a hash of the data you wish to sign (SHA-2 is recommended) and
pass it to this function along with your private key and a hash context. Note
that the message_hash does not need to be computed with the same hash function
used by hash_context.
Inputs:
private_key - Your private key.
message_hash - The hash of the message to sign.
hash_size - The size of message_hash in bytes.
hash_context - A hash context to use.
Outputs:
signature - Will be filled in with the signature value.
Returns 1 if the signature generated successfully, 0 if an error occurred.
*/
int mg_uecc_sign_deterministic(const uint8_t *private_key,
const uint8_t *message_hash, unsigned hash_size,
const MG_UECC_HashContext *hash_context,
uint8_t *signature, MG_UECC_Curve curve);
/* mg_uecc_verify() function.
Verify an ECDSA signature.
Usage: Compute the hash of the signed data using the same hash as the signer and
pass it to this function along with the signer's public key and the signature
values (r and s).
Inputs:
public_key - The signer's public key.
message_hash - The hash of the signed data.
hash_size - The size of message_hash in bytes.
signature - The signature value.
Returns 1 if the signature is valid, 0 if it is invalid.
*/
int mg_uecc_verify(const uint8_t *public_key, const uint8_t *message_hash,
unsigned hash_size, const uint8_t *signature,
MG_UECC_Curve curve);
#ifdef __cplusplus
} /* end of extern "C" */
#endif
#endif /* _UECC_H_ */
/* Copyright 2015, Kenneth MacKay. Licensed under the BSD 2-clause license. */
#ifndef _UECC_VLI_H_
#define _UECC_VLI_H_
//
//
/* Functions for raw large-integer manipulation. These are only available
if uECC.c is compiled with MG_UECC_ENABLE_VLI_API defined to 1. */
#ifndef MG_UECC_ENABLE_VLI_API
#define MG_UECC_ENABLE_VLI_API 0
#endif
#ifdef __cplusplus
extern "C" {
#endif
#if MG_UECC_ENABLE_VLI_API
void mg_uecc_vli_clear(mg_uecc_word_t *vli, wordcount_t num_words);
/* Constant-time comparison to zero - secure way to compare long integers */
/* Returns 1 if vli == 0, 0 otherwise. */
mg_uecc_word_t mg_uecc_vli_isZero(const mg_uecc_word_t *vli,
wordcount_t num_words);
/* Returns nonzero if bit 'bit' of vli is set. */
mg_uecc_word_t mg_uecc_vli_testBit(const mg_uecc_word_t *vli, bitcount_t bit);
/* Counts the number of bits required to represent vli. */
bitcount_t mg_uecc_vli_numBits(const mg_uecc_word_t *vli,
const wordcount_t max_words);
/* Sets dest = src. */
void mg_uecc_vli_set(mg_uecc_word_t *dest, const mg_uecc_word_t *src,
wordcount_t num_words);
/* Constant-time comparison function - secure way to compare long integers */
/* Returns one if left == right, zero otherwise */
mg_uecc_word_t mg_uecc_vli_equal(const mg_uecc_word_t *left,
const mg_uecc_word_t *right,
wordcount_t num_words);
/* Constant-time comparison function - secure way to compare long integers */
/* Returns sign of left - right, in constant time. */
cmpresult_t mg_uecc_vli_cmp(const mg_uecc_word_t *left,
const mg_uecc_word_t *right, wordcount_t num_words);
/* Computes vli = vli >> 1. */
void mg_uecc_vli_rshift1(mg_uecc_word_t *vli, wordcount_t num_words);
/* Computes result = left + right, returning carry. Can modify in place. */
mg_uecc_word_t mg_uecc_vli_add(mg_uecc_word_t *result,
const mg_uecc_word_t *left,
const mg_uecc_word_t *right,
wordcount_t num_words);
/* Computes result = left - right, returning borrow. Can modify in place. */
mg_uecc_word_t mg_uecc_vli_sub(mg_uecc_word_t *result,
const mg_uecc_word_t *left,
const mg_uecc_word_t *right,
wordcount_t num_words);
/* Computes result = left * right. Result must be 2 * num_words long. */
void mg_uecc_vli_mult(mg_uecc_word_t *result, const mg_uecc_word_t *left,
const mg_uecc_word_t *right, wordcount_t num_words);
/* Computes result = left^2. Result must be 2 * num_words long. */
void mg_uecc_vli_square(mg_uecc_word_t *result, const mg_uecc_word_t *left,
wordcount_t num_words);
/* Computes result = (left + right) % mod.
Assumes that left < mod and right < mod, and that result does not overlap
mod. */
void mg_uecc_vli_modAdd(mg_uecc_word_t *result, const mg_uecc_word_t *left,
const mg_uecc_word_t *right, const mg_uecc_word_t *mod,
wordcount_t num_words);
/* Computes result = (left - right) % mod.
Assumes that left < mod and right < mod, and that result does not overlap
mod. */
void mg_uecc_vli_modSub(mg_uecc_word_t *result, const mg_uecc_word_t *left,
const mg_uecc_word_t *right, const mg_uecc_word_t *mod,
wordcount_t num_words);
/* Computes result = product % mod, where product is 2N words long.
Currently only designed to work for mod == curve->p or curve_n. */
void mg_uecc_vli_mmod(mg_uecc_word_t *result, mg_uecc_word_t *product,
const mg_uecc_word_t *mod, wordcount_t num_words);
/* Calculates result = product (mod curve->p), where product is up to
2 * curve->num_words long. */
void mg_uecc_vli_mmod_fast(mg_uecc_word_t *result, mg_uecc_word_t *product,
MG_UECC_Curve curve);
/* Computes result = (left * right) % mod.
Currently only designed to work for mod == curve->p or curve_n. */
void mg_uecc_vli_modMult(mg_uecc_word_t *result, const mg_uecc_word_t *left,
const mg_uecc_word_t *right, const mg_uecc_word_t *mod,
wordcount_t num_words);
/* Computes result = (left * right) % curve->p. */
void mg_uecc_vli_modMult_fast(mg_uecc_word_t *result,
const mg_uecc_word_t *left,
const mg_uecc_word_t *right, MG_UECC_Curve curve);
/* Computes result = left^2 % mod.
Currently only designed to work for mod == curve->p or curve_n. */
void mg_uecc_vli_modSquare(mg_uecc_word_t *result, const mg_uecc_word_t *left,
const mg_uecc_word_t *mod, wordcount_t num_words);
/* Computes result = left^2 % curve->p. */
void mg_uecc_vli_modSquare_fast(mg_uecc_word_t *result,
const mg_uecc_word_t *left,
MG_UECC_Curve curve);
/* Computes result = (1 / input) % mod.*/
void mg_uecc_vli_modInv(mg_uecc_word_t *result, const mg_uecc_word_t *input,
const mg_uecc_word_t *mod, wordcount_t num_words);
#if MG_UECC_SUPPORT_COMPRESSED_POINT
/* Calculates a = sqrt(a) (mod curve->p) */
void mg_uecc_vli_mod_sqrt(mg_uecc_word_t *a, MG_UECC_Curve curve);
#endif
/* Converts an integer in uECC native format to big-endian bytes. */
void mg_uecc_vli_nativeToBytes(uint8_t *bytes, int num_bytes,
const mg_uecc_word_t *native);
/* Converts big-endian bytes to an integer in uECC native format. */
void mg_uecc_vli_bytesToNative(mg_uecc_word_t *native, const uint8_t *bytes,
int num_bytes);
unsigned mg_uecc_curve_num_words(MG_UECC_Curve curve);
unsigned mg_uecc_curve_num_bytes(MG_UECC_Curve curve);
unsigned mg_uecc_curve_num_bits(MG_UECC_Curve curve);
unsigned mg_uecc_curve_num_n_words(MG_UECC_Curve curve);
unsigned mg_uecc_curve_num_n_bytes(MG_UECC_Curve curve);
unsigned mg_uecc_curve_num_n_bits(MG_UECC_Curve curve);
const mg_uecc_word_t *mg_uecc_curve_p(MG_UECC_Curve curve);
const mg_uecc_word_t *mg_uecc_curve_n(MG_UECC_Curve curve);
const mg_uecc_word_t *mg_uecc_curve_G(MG_UECC_Curve curve);
const mg_uecc_word_t *mg_uecc_curve_b(MG_UECC_Curve curve);
int mg_uecc_valid_point(const mg_uecc_word_t *point, MG_UECC_Curve curve);
/* Multiplies a point by a scalar. Points are represented by the X coordinate
followed by the Y coordinate in the same array, both coordinates are
curve->num_words long. Note that scalar must be curve->num_n_words long (NOT
curve->num_words). */
void mg_uecc_point_mult(mg_uecc_word_t *result, const mg_uecc_word_t *point,
const mg_uecc_word_t *scalar, MG_UECC_Curve curve);
/* Generates a random integer in the range 0 < random < top.
Both random and top have num_words words. */
int mg_uecc_generate_random_int(mg_uecc_word_t *random,
const mg_uecc_word_t *top,
wordcount_t num_words);
#endif /* MG_UECC_ENABLE_VLI_API */
#ifdef __cplusplus
} /* end of extern "C" */
#endif
#endif /* _UECC_VLI_H_ */
/* Copyright 2015, Kenneth MacKay. Licensed under the BSD 2-clause license. */
#ifndef _UECC_TYPES_H_
#define _UECC_TYPES_H_
#ifndef MG_UECC_PLATFORM
#if defined(__AVR__) && __AVR__
#define MG_UECC_PLATFORM mg_uecc_avr
#elif defined(__thumb2__) || \
defined(_M_ARMT) /* I think MSVC only supports Thumb-2 targets */
#define MG_UECC_PLATFORM mg_uecc_arm_thumb2
#elif defined(__thumb__)
#define MG_UECC_PLATFORM mg_uecc_arm_thumb
#elif defined(__arm__) || defined(_M_ARM)
#define MG_UECC_PLATFORM mg_uecc_arm
#elif defined(__aarch64__)
#define MG_UECC_PLATFORM mg_uecc_arm64
#elif defined(__i386__) || defined(_M_IX86) || defined(_X86_) || \
defined(__I86__)
#define MG_UECC_PLATFORM mg_uecc_x86
#elif defined(__amd64__) || defined(_M_X64)
#define MG_UECC_PLATFORM mg_uecc_x86_64
#else
#define MG_UECC_PLATFORM mg_uecc_arch_other
#endif
#endif
#ifndef MG_UECC_ARM_USE_UMAAL
#if (MG_UECC_PLATFORM == mg_uecc_arm) && (__ARM_ARCH >= 6)
#define MG_UECC_ARM_USE_UMAAL 1
#elif (MG_UECC_PLATFORM == mg_uecc_arm_thumb2) && (__ARM_ARCH >= 6) && \
(!defined(__ARM_ARCH_7M__) || !__ARM_ARCH_7M__)
#define MG_UECC_ARM_USE_UMAAL 1
#else
#define MG_UECC_ARM_USE_UMAAL 0
#endif
#endif
#ifndef MG_UECC_WORD_SIZE
#if MG_UECC_PLATFORM == mg_uecc_avr
#define MG_UECC_WORD_SIZE 1
#elif (MG_UECC_PLATFORM == mg_uecc_x86_64 || MG_UECC_PLATFORM == mg_uecc_arm64)
#define MG_UECC_WORD_SIZE 8
#else
#define MG_UECC_WORD_SIZE 4
#endif
#endif
#if (MG_UECC_WORD_SIZE != 1) && (MG_UECC_WORD_SIZE != 4) && \
(MG_UECC_WORD_SIZE != 8)
#error "Unsupported value for MG_UECC_WORD_SIZE"
#endif
#if ((MG_UECC_PLATFORM == mg_uecc_avr) && (MG_UECC_WORD_SIZE != 1))
#pragma message("MG_UECC_WORD_SIZE must be 1 for AVR")
#undef MG_UECC_WORD_SIZE
#define MG_UECC_WORD_SIZE 1
#endif
#if ((MG_UECC_PLATFORM == mg_uecc_arm || \
MG_UECC_PLATFORM == mg_uecc_arm_thumb || \
MG_UECC_PLATFORM == mg_uecc_arm_thumb2) && \
(MG_UECC_WORD_SIZE != 4))
#pragma message("MG_UECC_WORD_SIZE must be 4 for ARM")
#undef MG_UECC_WORD_SIZE
#define MG_UECC_WORD_SIZE 4
#endif
typedef int8_t wordcount_t;
typedef int16_t bitcount_t;
typedef int8_t cmpresult_t;
#if (MG_UECC_WORD_SIZE == 1)
typedef uint8_t mg_uecc_word_t;
typedef uint16_t mg_uecc_dword_t;
#define HIGH_BIT_SET 0x80
#define MG_UECC_WORD_BITS 8
#define MG_UECC_WORD_BITS_SHIFT 3
#define MG_UECC_WORD_BITS_MASK 0x07
#elif (MG_UECC_WORD_SIZE == 4)
typedef uint32_t mg_uecc_word_t;
typedef uint64_t mg_uecc_dword_t;
#define HIGH_BIT_SET 0x80000000
#define MG_UECC_WORD_BITS 32
#define MG_UECC_WORD_BITS_SHIFT 5
#define MG_UECC_WORD_BITS_MASK 0x01F
#elif (MG_UECC_WORD_SIZE == 8)
typedef uint64_t mg_uecc_word_t;
#define HIGH_BIT_SET 0x8000000000000000U
#define MG_UECC_WORD_BITS 64
#define MG_UECC_WORD_BITS_SHIFT 6
#define MG_UECC_WORD_BITS_MASK 0x03F
#endif /* MG_UECC_WORD_SIZE */
#endif /* _UECC_TYPES_H_ */
// End of uecc BSD-2
// portable8439 v1.0.1
// Source: https://github.com/DavyLandman/portable8439
// Licensed under CC0-1.0
// Contains poly1305-donna e6ad6e091d30d7f4ec2d4f978be1fcfcbce72781 (Public
// Domain)
#ifndef __PORTABLE_8439_H
#define __PORTABLE_8439_H
#if defined(__cplusplus)
extern "C" {
#endif
// provide your own decl specificier like -DPORTABLE_8439_DECL=ICACHE_RAM_ATTR
#ifndef PORTABLE_8439_DECL
#define PORTABLE_8439_DECL
#endif
/*
This library implements RFC 8439 a.k.a. ChaCha20-Poly1305 AEAD
You can use this library to avoid attackers mutating or reusing your
encrypted messages. This does assume you never reuse a nonce+key pair and,
if possible, carefully pick your associated data.
*/
// Make sure we are either nested in C++ or running in a C99+ compiler
#if !defined(__cplusplus) && !defined(_MSC_VER) && \
(!defined(__STDC_VERSION__) || __STDC_VERSION__ < 199901L)
#error "C99 or newer required"
#endif
// #if CHAR_BIT > 8
// # error "Systems without native octals not suppoted"
// #endif
#if defined(_MSC_VER) || defined(__cplusplus)
// add restrict support is possible
#if (defined(_MSC_VER) && _MSC_VER >= 1900) || defined(__clang__) || \
defined(__GNUC__)
#define restrict __restrict
#else
#define restrict
#endif
#endif
#define RFC_8439_TAG_SIZE (16)
#define RFC_8439_KEY_SIZE (32)
#define RFC_8439_NONCE_SIZE (12)
/*
Encrypt/Seal plain text bytes into a cipher text that can only be
decrypted by knowing the key, nonce and associated data.
input:
- key: RFC_8439_KEY_SIZE bytes that all parties have agreed
upon beforehand
- nonce: RFC_8439_NONCE_SIZE bytes that should never be repeated
for the same key. A counter or a pseudo-random value are fine.
- ad: associated data to include with calculating the tag of the
cipher text. Can be null for empty.
- plain_text: data to be encrypted, pointer + size should not overlap
with cipher_text pointer
output:
- cipher_text: encrypted plain_text with a tag appended. Make sure to
allocate at least plain_text_size + RFC_8439_TAG_SIZE
returns:
- size of bytes written to cipher_text, can be -1 if overlapping
pointers are passed for plain_text and cipher_text
*/
PORTABLE_8439_DECL size_t mg_chacha20_poly1305_encrypt(
uint8_t *restrict cipher_text, const uint8_t key[RFC_8439_KEY_SIZE],
const uint8_t nonce[RFC_8439_NONCE_SIZE], const uint8_t *restrict ad,
size_t ad_size, const uint8_t *restrict plain_text, size_t plain_text_size);
/*
Decrypt/unseal cipher text given the right key, nonce, and additional data.
input:
- key: RFC_8439_KEY_SIZE bytes that all parties have agreed
upon beforehand
- nonce: RFC_8439_NONCE_SIZE bytes that should never be repeated for
the same key. A counter or a pseudo-random value are fine.
- ad: associated data to include with calculating the tag of the
cipher text. Can be null for empty.
- cipher_text: encrypted message.
output:
- plain_text: data to be encrypted, pointer + size should not overlap
with cipher_text pointer, leave at least enough room for
cipher_text_size - RFC_8439_TAG_SIZE
returns:
- size of bytes written to plain_text, -1 signals either:
- incorrect key/nonce/ad
- corrupted cipher_text
- overlapping pointers are passed for plain_text and cipher_text
*/
PORTABLE_8439_DECL size_t mg_chacha20_poly1305_decrypt(
uint8_t *restrict plain_text, const uint8_t key[RFC_8439_KEY_SIZE],
const uint8_t nonce[RFC_8439_NONCE_SIZE],
const uint8_t *restrict cipher_text, size_t cipher_text_size);
#if defined(__cplusplus)
}
#endif
#endif
struct mg_connection;
typedef void (*mg_event_handler_t)(struct mg_connection *, int ev,
void *ev_data);
void mg_call(struct mg_connection *c, int ev, void *ev_data);
void mg_error(struct mg_connection *c, const char *fmt, ...);
enum {
MG_EV_ERROR, // Error char *error_message
MG_EV_OPEN, // Connection created NULL
MG_EV_POLL, // mg_mgr_poll iteration uint64_t *uptime_millis
MG_EV_RESOLVE, // Host name is resolved NULL
MG_EV_CONNECT, // Connection established NULL
MG_EV_ACCEPT, // Connection accepted NULL
MG_EV_TLS_HS, // TLS handshake succeeded NULL
MG_EV_READ, // Data received from socket long *bytes_read
MG_EV_WRITE, // Data written to socket long *bytes_written
MG_EV_CLOSE, // Connection closed NULL
MG_EV_HTTP_HDRS, // HTTP headers struct mg_http_message *
MG_EV_HTTP_MSG, // Full HTTP request/response struct mg_http_message *
MG_EV_WS_OPEN, // Websocket handshake done struct mg_http_message *
MG_EV_WS_MSG, // Websocket msg, text or bin struct mg_ws_message *
MG_EV_WS_CTL, // Websocket control msg struct mg_ws_message *
MG_EV_MQTT_CMD, // MQTT low-level command struct mg_mqtt_message *
MG_EV_MQTT_MSG, // MQTT PUBLISH received struct mg_mqtt_message *
MG_EV_MQTT_OPEN, // MQTT CONNACK received int *connack_status_code
MG_EV_SNTP_TIME, // SNTP time received uint64_t *epoch_millis
MG_EV_WAKEUP, // mg_wakeup() data received struct mg_str *data
MG_EV_USER // Starting ID for user events
};
struct mg_dns {
const char *url; // DNS server URL
struct mg_connection *c; // DNS server connection
};
struct mg_addr {
uint8_t ip[16]; // Holds IPv4 or IPv6 address, in network byte order
uint16_t port; // TCP or UDP port in network byte order
uint8_t scope_id; // IPv6 scope ID
bool is_ip6; // True when address is IPv6 address
};
struct mg_mgr {
struct mg_connection *conns; // List of active connections
struct mg_dns dns4; // DNS for IPv4
struct mg_dns dns6; // DNS for IPv6
int dnstimeout; // DNS resolve timeout in milliseconds
bool use_dns6; // Use DNS6 server by default, see #1532
unsigned long nextid; // Next connection ID
unsigned long timerid; // Next timer ID
void *userdata; // Arbitrary user data pointer
void *tls_ctx; // TLS context shared by all TLS sessions
uint16_t mqtt_id; // MQTT IDs for pub/sub
void *active_dns_requests; // DNS requests in progress
struct mg_timer *timers; // Active timers
int epoll_fd; // Used when MG_EPOLL_ENABLE=1
void *priv; // Used by the MIP stack
size_t extraconnsize; // Used by the MIP stack
MG_SOCKET_TYPE pipe; // Socketpair end for mg_wakeup()
#if MG_ENABLE_FREERTOS_TCP
SocketSet_t ss; // NOTE(lsm): referenced from socket struct
#endif
};
struct mg_connection {
struct mg_connection *next; // Linkage in struct mg_mgr :: connections
struct mg_mgr *mgr; // Our container
struct mg_addr loc; // Local address
struct mg_addr rem; // Remote address
void *fd; // Connected socket, or LWIP data
unsigned long id; // Auto-incrementing unique connection ID
struct mg_iobuf recv; // Incoming data
struct mg_iobuf send; // Outgoing data
struct mg_iobuf prof; // Profile data enabled by MG_ENABLE_PROFILE
struct mg_iobuf rtls; // TLS only. Incoming encrypted data
mg_event_handler_t fn; // User-specified event handler function
void *fn_data; // User-specified function parameter
mg_event_handler_t pfn; // Protocol-specific handler function
void *pfn_data; // Protocol-specific function parameter
char data[MG_DATA_SIZE]; // Arbitrary connection data
void *tls; // TLS specific data
unsigned is_listening : 1; // Listening connection
unsigned is_client : 1; // Outbound (client) connection
unsigned is_accepted : 1; // Accepted (server) connection
unsigned is_resolving : 1; // Non-blocking DNS resolution is in progress
unsigned is_arplooking : 1; // Non-blocking ARP resolution is in progress
unsigned is_connecting : 1; // Non-blocking connect is in progress
unsigned is_tls : 1; // TLS-enabled connection
unsigned is_tls_hs : 1; // TLS handshake is in progress
unsigned is_udp : 1; // UDP connection
unsigned is_websocket : 1; // WebSocket connection
unsigned is_mqtt5 : 1; // For MQTT connection, v5 indicator
unsigned is_hexdumping : 1; // Hexdump in/out traffic
unsigned is_draining : 1; // Send remaining data, then close and free
unsigned is_closing : 1; // Close and free the connection immediately
unsigned is_full : 1; // Stop reads, until cleared
unsigned is_resp : 1; // Response is still being generated
unsigned is_readable : 1; // Connection is ready to read
unsigned is_writable : 1; // Connection is ready to write
};
void mg_mgr_poll(struct mg_mgr *, int ms);
void mg_mgr_init(struct mg_mgr *);
void mg_mgr_free(struct mg_mgr *);
struct mg_connection *mg_listen(struct mg_mgr *, const char *url,
mg_event_handler_t fn, void *fn_data);
struct mg_connection *mg_connect(struct mg_mgr *, const char *url,
mg_event_handler_t fn, void *fn_data);
struct mg_connection *mg_wrapfd(struct mg_mgr *mgr, int fd,
mg_event_handler_t fn, void *fn_data);
void mg_connect_resolved(struct mg_connection *);
bool mg_send(struct mg_connection *, const void *, size_t);
size_t mg_printf(struct mg_connection *, const char *fmt, ...);
size_t mg_vprintf(struct mg_connection *, const char *fmt, va_list *ap);
bool mg_aton(struct mg_str str, struct mg_addr *addr);
// These functions are used to integrate with custom network stacks
struct mg_connection *mg_alloc_conn(struct mg_mgr *);
void mg_close_conn(struct mg_connection *c);
bool mg_open_listener(struct mg_connection *c, const char *url);
// Utility functions
bool mg_wakeup(struct mg_mgr *, unsigned long id, const void *buf, size_t len);
bool mg_wakeup_init(struct mg_mgr *);
struct mg_timer *mg_timer_add(struct mg_mgr *mgr, uint64_t milliseconds,
unsigned flags, void (*fn)(void *), void *arg);
struct mg_http_header {
struct mg_str name; // Header name
struct mg_str value; // Header value
};
struct mg_http_message {
struct mg_str method, uri, query, proto; // Request/response line
struct mg_http_header headers[MG_MAX_HTTP_HEADERS]; // Headers
struct mg_str body; // Body
struct mg_str head; // Request + headers
struct mg_str message; // Request + headers + body
};
// Parameter for mg_http_serve_dir()
struct mg_http_serve_opts {
const char *root_dir; // Web root directory, must be non-NULL
const char *ssi_pattern; // SSI file name pattern, e.g. #.shtml
const char *extra_headers; // Extra HTTP headers to add in responses
const char *mime_types; // Extra mime types, ext1=type1,ext2=type2,..
const char *page404; // Path to the 404 page, or NULL by default
struct mg_fs *fs; // Filesystem implementation. Use NULL for POSIX
};
// Parameter for mg_http_next_multipart
struct mg_http_part {
struct mg_str name; // Form field name
struct mg_str filename; // Filename for file uploads
struct mg_str body; // Part contents
};
int mg_http_parse(const char *s, size_t len, struct mg_http_message *);
int mg_http_get_request_len(const unsigned char *buf, size_t buf_len);
void mg_http_printf_chunk(struct mg_connection *cnn, const char *fmt, ...);
void mg_http_write_chunk(struct mg_connection *c, const char *buf, size_t len);
void mg_http_delete_chunk(struct mg_connection *c, struct mg_http_message *hm);
struct mg_connection *mg_http_listen(struct mg_mgr *, const char *url,
mg_event_handler_t fn, void *fn_data);
struct mg_connection *mg_http_connect(struct mg_mgr *, const char *url,
mg_event_handler_t fn, void *fn_data);
void mg_http_serve_dir(struct mg_connection *, struct mg_http_message *hm,
const struct mg_http_serve_opts *);
void mg_http_serve_file(struct mg_connection *, struct mg_http_message *hm,
const char *path, const struct mg_http_serve_opts *);
void mg_http_reply(struct mg_connection *, int status_code, const char *headers,
const char *body_fmt, ...);
struct mg_str *mg_http_get_header(struct mg_http_message *, const char *name);
struct mg_str mg_http_var(struct mg_str buf, struct mg_str name);
int mg_http_get_var(const struct mg_str *, const char *name, char *, size_t);
int mg_url_decode(const char *s, size_t n, char *to, size_t to_len, int form);
size_t mg_url_encode(const char *s, size_t n, char *buf, size_t len);
void mg_http_creds(struct mg_http_message *, char *, size_t, char *, size_t);
long mg_http_upload(struct mg_connection *c, struct mg_http_message *hm,
struct mg_fs *fs, const char *dir, size_t max_size);
void mg_http_bauth(struct mg_connection *, const char *user, const char *pass);
struct mg_str mg_http_get_header_var(struct mg_str s, struct mg_str v);
size_t mg_http_next_multipart(struct mg_str, size_t, struct mg_http_part *);
int mg_http_status(const struct mg_http_message *hm);
void mg_hello(const char *url);
void mg_http_serve_ssi(struct mg_connection *c, const char *root,
const char *fullpath);
#define MG_TLS_NONE 0 // No TLS support
#define MG_TLS_MBED 1 // mbedTLS
#define MG_TLS_OPENSSL 2 // OpenSSL
#define MG_TLS_WOLFSSL 5 // WolfSSL (based on OpenSSL)
#define MG_TLS_BUILTIN 3 // Built-in
#define MG_TLS_CUSTOM 4 // Custom implementation
#ifndef MG_TLS
#define MG_TLS MG_TLS_NONE
#endif
struct mg_tls_opts {
struct mg_str ca; // PEM or DER
struct mg_str cert; // PEM or DER
struct mg_str key; // PEM or DER
struct mg_str name; // If not empty, enable host name verification
int skip_verification; // Skip certificate and host name verification
};
void mg_tls_init(struct mg_connection *, const struct mg_tls_opts *opts);
void mg_tls_free(struct mg_connection *);
long mg_tls_send(struct mg_connection *, const void *buf, size_t len);
long mg_tls_recv(struct mg_connection *, void *buf, size_t len);
size_t mg_tls_pending(struct mg_connection *);
void mg_tls_handshake(struct mg_connection *);
// Private
void mg_tls_ctx_init(struct mg_mgr *);
void mg_tls_ctx_free(struct mg_mgr *);
// Low-level IO primives used by TLS layer
enum { MG_IO_ERR = -1, MG_IO_WAIT = -2, MG_IO_RESET = -3 };
long mg_io_send(struct mg_connection *c, const void *buf, size_t len);
long mg_io_recv(struct mg_connection *c, void *buf, size_t len);
#if MG_TLS == MG_TLS_MBED
#include <mbedtls/debug.h>
#include <mbedtls/net_sockets.h>
#include <mbedtls/ssl.h>
#include <mbedtls/ssl_ticket.h>
struct mg_tls_ctx {
int dummy;
#ifdef MBEDTLS_SSL_SESSION_TICKETS
mbedtls_ssl_ticket_context tickets;
#endif
};
struct mg_tls {
mbedtls_x509_crt ca; // Parsed CA certificate
mbedtls_x509_crt cert; // Parsed certificate
mbedtls_pk_context pk; // Private key context
mbedtls_ssl_context ssl; // SSL/TLS context
mbedtls_ssl_config conf; // SSL-TLS config
#ifdef MBEDTLS_SSL_SESSION_TICKETS
mbedtls_ssl_ticket_context ticket; // Session tickets context
#endif
};
#endif
#if MG_TLS == MG_TLS_OPENSSL || MG_TLS == MG_TLS_WOLFSSL
#include <openssl/err.h>
#include <openssl/ssl.h>
struct mg_tls {
BIO_METHOD *bm;
SSL_CTX *ctx;
SSL *ssl;
};
#endif
#define WEBSOCKET_OP_CONTINUE 0
#define WEBSOCKET_OP_TEXT 1
#define WEBSOCKET_OP_BINARY 2
#define WEBSOCKET_OP_CLOSE 8
#define WEBSOCKET_OP_PING 9
#define WEBSOCKET_OP_PONG 10
struct mg_ws_message {
struct mg_str data; // Websocket message data
uint8_t flags; // Websocket message flags
};
struct mg_connection *mg_ws_connect(struct mg_mgr *, const char *url,
mg_event_handler_t fn, void *fn_data,
const char *fmt, ...);
void mg_ws_upgrade(struct mg_connection *, struct mg_http_message *,
const char *fmt, ...);
size_t mg_ws_send(struct mg_connection *, const void *buf, size_t len, int op);
size_t mg_ws_wrap(struct mg_connection *, size_t len, int op);
size_t mg_ws_printf(struct mg_connection *c, int op, const char *fmt, ...);
size_t mg_ws_vprintf(struct mg_connection *c, int op, const char *fmt,
va_list *);
struct mg_connection *mg_sntp_connect(struct mg_mgr *mgr, const char *url,
mg_event_handler_t fn, void *fn_data);
void mg_sntp_request(struct mg_connection *c);
int64_t mg_sntp_parse(const unsigned char *buf, size_t len);
uint64_t mg_now(void); // Return milliseconds since Epoch
#define MQTT_CMD_CONNECT 1
#define MQTT_CMD_CONNACK 2
#define MQTT_CMD_PUBLISH 3
#define MQTT_CMD_PUBACK 4
#define MQTT_CMD_PUBREC 5
#define MQTT_CMD_PUBREL 6
#define MQTT_CMD_PUBCOMP 7
#define MQTT_CMD_SUBSCRIBE 8
#define MQTT_CMD_SUBACK 9
#define MQTT_CMD_UNSUBSCRIBE 10
#define MQTT_CMD_UNSUBACK 11
#define MQTT_CMD_PINGREQ 12
#define MQTT_CMD_PINGRESP 13
#define MQTT_CMD_DISCONNECT 14
#define MQTT_CMD_AUTH 15
#define MQTT_PROP_PAYLOAD_FORMAT_INDICATOR 0x01
#define MQTT_PROP_MESSAGE_EXPIRY_INTERVAL 0x02
#define MQTT_PROP_CONTENT_TYPE 0x03
#define MQTT_PROP_RESPONSE_TOPIC 0x08
#define MQTT_PROP_CORRELATION_DATA 0x09
#define MQTT_PROP_SUBSCRIPTION_IDENTIFIER 0x0B
#define MQTT_PROP_SESSION_EXPIRY_INTERVAL 0x11
#define MQTT_PROP_ASSIGNED_CLIENT_IDENTIFIER 0x12
#define MQTT_PROP_SERVER_KEEP_ALIVE 0x13
#define MQTT_PROP_AUTHENTICATION_METHOD 0x15
#define MQTT_PROP_AUTHENTICATION_DATA 0x16
#define MQTT_PROP_REQUEST_PROBLEM_INFORMATION 0x17
#define MQTT_PROP_WILL_DELAY_INTERVAL 0x18
#define MQTT_PROP_REQUEST_RESPONSE_INFORMATION 0x19
#define MQTT_PROP_RESPONSE_INFORMATION 0x1A
#define MQTT_PROP_SERVER_REFERENCE 0x1C
#define MQTT_PROP_REASON_STRING 0x1F
#define MQTT_PROP_RECEIVE_MAXIMUM 0x21
#define MQTT_PROP_TOPIC_ALIAS_MAXIMUM 0x22
#define MQTT_PROP_TOPIC_ALIAS 0x23
#define MQTT_PROP_MAXIMUM_QOS 0x24
#define MQTT_PROP_RETAIN_AVAILABLE 0x25
#define MQTT_PROP_USER_PROPERTY 0x26
#define MQTT_PROP_MAXIMUM_PACKET_SIZE 0x27
#define MQTT_PROP_WILDCARD_SUBSCRIPTION_AVAILABLE 0x28
#define MQTT_PROP_SUBSCRIPTION_IDENTIFIER_AVAILABLE 0x29
#define MQTT_PROP_SHARED_SUBSCRIPTION_AVAILABLE 0x2A
enum {
MQTT_PROP_TYPE_BYTE,
MQTT_PROP_TYPE_STRING,
MQTT_PROP_TYPE_STRING_PAIR,
MQTT_PROP_TYPE_BINARY_DATA,
MQTT_PROP_TYPE_VARIABLE_INT,
MQTT_PROP_TYPE_INT,
MQTT_PROP_TYPE_SHORT
};
enum { MQTT_OK, MQTT_INCOMPLETE, MQTT_MALFORMED };
struct mg_mqtt_prop {
uint8_t id; // Enumerated at MQTT5 Reference
uint32_t iv; // Integer value for 8-, 16-, 32-bit integers types
struct mg_str key; // Non-NULL only for user property type
struct mg_str val; // Non-NULL only for UTF-8 types and user properties
};
struct mg_mqtt_opts {
struct mg_str user; // Username, can be empty
struct mg_str pass; // Password, can be empty
struct mg_str client_id; // Client ID
struct mg_str topic; // message/subscription topic
struct mg_str message; // message content
uint8_t qos; // message quality of service
uint8_t version; // Can be 4 (3.1.1), or 5. If 0, assume 4
uint16_t keepalive; // Keep-alive timer in seconds
uint16_t retransmit_id; // For PUBLISH, init to 0
bool retain; // Retain flag
bool clean; // Clean session flag
struct mg_mqtt_prop *props; // MQTT5 props array
size_t num_props; // number of props
struct mg_mqtt_prop *will_props; // Valid only for CONNECT packet (MQTT5)
size_t num_will_props; // Number of will props
};
struct mg_mqtt_message {
struct mg_str topic; // Parsed topic for PUBLISH
struct mg_str data; // Parsed message for PUBLISH
struct mg_str dgram; // Whole MQTT packet, including headers
uint16_t id; // For PUBACK, PUBREC, PUBREL, PUBCOMP, SUBACK, PUBLISH
uint8_t cmd; // MQTT command, one of MQTT_CMD_*
uint8_t qos; // Quality of service
uint8_t ack; // CONNACK return code, 0 = success
size_t props_start; // Offset to the start of the properties (MQTT5)
size_t props_size; // Length of the properties
};
struct mg_connection *mg_mqtt_connect(struct mg_mgr *, const char *url,
const struct mg_mqtt_opts *opts,
mg_event_handler_t fn, void *fn_data);
struct mg_connection *mg_mqtt_listen(struct mg_mgr *mgr, const char *url,
mg_event_handler_t fn, void *fn_data);
void mg_mqtt_login(struct mg_connection *c, const struct mg_mqtt_opts *opts);
uint16_t mg_mqtt_pub(struct mg_connection *c, const struct mg_mqtt_opts *opts);
void mg_mqtt_sub(struct mg_connection *, const struct mg_mqtt_opts *opts);
int mg_mqtt_parse(const uint8_t *, size_t, uint8_t, struct mg_mqtt_message *);
void mg_mqtt_send_header(struct mg_connection *, uint8_t cmd, uint8_t flags,
uint32_t len);
void mg_mqtt_ping(struct mg_connection *);
void mg_mqtt_pong(struct mg_connection *);
void mg_mqtt_disconnect(struct mg_connection *, const struct mg_mqtt_opts *);
size_t mg_mqtt_next_prop(struct mg_mqtt_message *, struct mg_mqtt_prop *,
size_t ofs);
// Mongoose sends DNS queries that contain only one question:
// either A (IPv4) or AAAA (IPv6) address lookup.
// Therefore, we expect zero or one answer.
// If `resolved` is true, then `addr` contains resolved IPv4 or IPV6 address.
struct mg_dns_message {
uint16_t txnid; // Transaction ID
bool resolved; // Resolve successful, addr is set
struct mg_addr addr; // Resolved address
char name[256]; // Host name
};
struct mg_dns_header {
uint16_t txnid; // Transaction ID
uint16_t flags;
uint16_t num_questions;
uint16_t num_answers;
uint16_t num_authority_prs;
uint16_t num_other_prs;
};
// DNS resource record
struct mg_dns_rr {
uint16_t nlen; // Name or pointer length
uint16_t atype; // Address type
uint16_t aclass; // Address class
uint16_t alen; // Address length
};
void mg_resolve(struct mg_connection *, const char *url);
void mg_resolve_cancel(struct mg_connection *);
bool mg_dns_parse(const uint8_t *buf, size_t len, struct mg_dns_message *);
size_t mg_dns_parse_rr(const uint8_t *buf, size_t len, size_t ofs,
bool is_question, struct mg_dns_rr *);
#ifndef MG_JSON_MAX_DEPTH
#define MG_JSON_MAX_DEPTH 30
#endif
// Error return values - negative. Successful returns are >= 0
enum { MG_JSON_TOO_DEEP = -1, MG_JSON_INVALID = -2, MG_JSON_NOT_FOUND = -3 };
int mg_json_get(struct mg_str json, const char *path, int *toklen);
struct mg_str mg_json_get_tok(struct mg_str json, const char *path);
bool mg_json_get_num(struct mg_str json, const char *path, double *v);
bool mg_json_get_bool(struct mg_str json, const char *path, bool *v);
long mg_json_get_long(struct mg_str json, const char *path, long dflt);
char *mg_json_get_str(struct mg_str json, const char *path);
char *mg_json_get_hex(struct mg_str json, const char *path, int *len);
char *mg_json_get_b64(struct mg_str json, const char *path, int *len);
bool mg_json_unescape(struct mg_str str, char *buf, size_t len);
size_t mg_json_next(struct mg_str obj, size_t ofs, struct mg_str *key,
struct mg_str *val);
// JSON-RPC request descriptor
struct mg_rpc_req {
struct mg_rpc **head; // RPC handlers list head
struct mg_rpc *rpc; // RPC handler being called
mg_pfn_t pfn; // Response printing function
void *pfn_data; // Response printing function data
void *req_data; // Arbitrary request data
struct mg_str frame; // Request, e.g. {"id":1,"method":"add","params":[1,2]}
};
// JSON-RPC method handler
struct mg_rpc {
struct mg_rpc *next; // Next in list
struct mg_str method; // Method pattern
void (*fn)(struct mg_rpc_req *); // Handler function
void *fn_data; // Handler function argument
};
void mg_rpc_add(struct mg_rpc **head, struct mg_str method_pattern,
void (*handler)(struct mg_rpc_req *), void *handler_data);
void mg_rpc_del(struct mg_rpc **head, void (*handler)(struct mg_rpc_req *));
void mg_rpc_process(struct mg_rpc_req *);
// Helper functions to print result or error frame
void mg_rpc_ok(struct mg_rpc_req *, const char *fmt, ...);
void mg_rpc_vok(struct mg_rpc_req *, const char *fmt, va_list *ap);
void mg_rpc_err(struct mg_rpc_req *, int code, const char *fmt, ...);
void mg_rpc_verr(struct mg_rpc_req *, int code, const char *fmt, va_list *);
void mg_rpc_list(struct mg_rpc_req *r);
// Copyright (c) 2023 Cesanta Software Limited
// All rights reserved
#define MG_OTA_NONE 0 // No OTA support
#define MG_OTA_FLASH 1 // OTA via an internal flash
#define MG_OTA_ESP32 2 // ESP32 OTA implementation
#define MG_OTA_CUSTOM 100 // Custom implementation
#ifndef MG_OTA
#define MG_OTA MG_OTA_NONE
#endif
#if defined(__GNUC__) && !defined(__APPLE__)
#define MG_IRAM __attribute__((section(".iram")))
#else
#define MG_IRAM
#endif
// Firmware update API
bool mg_ota_begin(size_t new_firmware_size); // Start writing
bool mg_ota_write(const void *buf, size_t len); // Write chunk, aligned to 1k
bool mg_ota_end(void); // Stop writing
enum {
MG_OTA_UNAVAILABLE = 0, // No OTA information is present
MG_OTA_FIRST_BOOT = 1, // Device booting the first time after the OTA
MG_OTA_UNCOMMITTED = 2, // Ditto, but marking us for the rollback
MG_OTA_COMMITTED = 3 // The firmware is good
};
enum { MG_FIRMWARE_CURRENT = 0, MG_FIRMWARE_PREVIOUS = 1 };
int mg_ota_status(int firmware); // Return firmware status MG_OTA_*
uint32_t mg_ota_crc32(int firmware); // Return firmware checksum
uint32_t mg_ota_timestamp(int firmware); // Firmware timestamp, UNIX UTC epoch
size_t mg_ota_size(int firmware); // Firmware size
bool mg_ota_commit(void); // Commit current firmware
bool mg_ota_rollback(void); // Rollback to the previous firmware
MG_IRAM void mg_ota_boot(void); // Bootloader function
// Copyright (c) 2023 Cesanta Software Limited
// All rights reserved
#define MG_DEVICE_NONE 0 // Dummy system
#define MG_DEVICE_STM32H5 1 // STM32 H5
#define MG_DEVICE_STM32H7 2 // STM32 H7
#define MG_DEVICE_CH32V307 100 // WCH CH32V307
#define MG_DEVICE_U2A 200 // Renesas U2A16, U2A8, U2A6
#define MG_DEVICE_RT1020 300 // IMXRT1020
#define MG_DEVICE_RT1060 301 // IMXRT1060
#define MG_DEVICE_CUSTOM 1000 // Custom implementation
#ifndef MG_DEVICE
#define MG_DEVICE MG_DEVICE_NONE
#endif
// Flash information
void *mg_flash_start(void); // Return flash start address
size_t mg_flash_size(void); // Return flash size
size_t mg_flash_sector_size(void); // Return flash sector size
size_t mg_flash_write_align(void); // Return flash write align, minimum 4
int mg_flash_bank(void); // 0: not dual bank, 1: bank1, 2: bank2
// Write, erase, swap bank
bool mg_flash_write(void *addr, const void *buf, size_t len);
bool mg_flash_erase(void *sector);
bool mg_flash_swap_bank(void);
// Convenience functions to store data on a flash sector with wear levelling
// If `sector` is NULL, then the last sector of flash is used
bool mg_flash_load(void *sector, uint32_t key, void *buf, size_t len);
bool mg_flash_save(void *sector, uint32_t key, const void *buf, size_t len);
void mg_device_reset(void); // Reboot device immediately
#if defined(MG_ENABLE_TCPIP) && MG_ENABLE_TCPIP
struct mg_tcpip_if; // Mongoose TCP/IP network interface
struct mg_tcpip_driver {
bool (*init)(struct mg_tcpip_if *); // Init driver
size_t (*tx)(const void *, size_t, struct mg_tcpip_if *); // Transmit frame
size_t (*rx)(void *buf, size_t len, struct mg_tcpip_if *); // Receive frame
bool (*up)(struct mg_tcpip_if *); // Up/down status
};
typedef void (*mg_tcpip_event_handler_t)(struct mg_tcpip_if *ifp, int ev,
void *ev_data);
enum {
MG_TCPIP_EV_ST_CHG, // state change uint8_t * (&ifp->state)
MG_TCPIP_EV_DHCP_DNS, // DHCP DNS assignment uint32_t *ipaddr
MG_TCPIP_EV_DHCP_SNTP, // DHCP SNTP assignment uint32_t *ipaddr
MG_TCPIP_EV_USER // Starting ID for user events
};
// Network interface
struct mg_tcpip_if {
uint8_t mac[6]; // MAC address. Must be set to a valid MAC
uint32_t ip, mask, gw; // IP address, mask, default gateway
struct mg_str tx; // Output (TX) buffer
bool enable_dhcp_client; // Enable DCHP client
bool enable_dhcp_server; // Enable DCHP server
bool enable_get_gateway; // DCHP server sets client as gateway
bool enable_req_dns; // DCHP client requests DNS server
bool enable_req_sntp; // DCHP client requests SNTP server
bool enable_crc32_check; // Do a CRC check on RX frames and strip it
bool enable_mac_check; // Do a MAC check on RX frames
struct mg_tcpip_driver *driver; // Low level driver
void *driver_data; // Driver-specific data
mg_tcpip_event_handler_t fn; // User-specified event handler function
struct mg_mgr *mgr; // Mongoose event manager
struct mg_queue recv_queue; // Receive queue
uint16_t mtu; // Interface MTU
#define MG_TCPIP_MTU_DEFAULT 1500
// Internal state, user can use it but should not change it
uint8_t gwmac[6]; // Router's MAC
uint64_t now; // Current time
uint64_t timer_1000ms; // 1000 ms timer: for DHCP and link state
uint64_t lease_expire; // Lease expiration time, in ms
uint16_t eport; // Next ephemeral port
volatile uint32_t ndrop; // Number of received, but dropped frames
volatile uint32_t nrecv; // Number of received frames
volatile uint32_t nsent; // Number of transmitted frames
volatile uint32_t nerr; // Number of driver errors
uint8_t state; // Current state
#define MG_TCPIP_STATE_DOWN 0 // Interface is down
#define MG_TCPIP_STATE_UP 1 // Interface is up
#define MG_TCPIP_STATE_REQ 2 // Interface is up and has requested an IP
#define MG_TCPIP_STATE_READY 3 // Interface is up and has an IP assigned
};
void mg_tcpip_init(struct mg_mgr *, struct mg_tcpip_if *);
void mg_tcpip_free(struct mg_tcpip_if *);
void mg_tcpip_qwrite(void *buf, size_t len, struct mg_tcpip_if *ifp);
extern struct mg_tcpip_driver mg_tcpip_driver_stm32f;
extern struct mg_tcpip_driver mg_tcpip_driver_w5500;
extern struct mg_tcpip_driver mg_tcpip_driver_tm4c;
extern struct mg_tcpip_driver mg_tcpip_driver_stm32h;
extern struct mg_tcpip_driver mg_tcpip_driver_imxrt;
extern struct mg_tcpip_driver mg_tcpip_driver_same54;
extern struct mg_tcpip_driver mg_tcpip_driver_cmsis;
extern struct mg_tcpip_driver mg_tcpip_driver_ra;
extern struct mg_tcpip_driver mg_tcpip_driver_xmc;
extern struct mg_tcpip_driver mg_tcpip_driver_xmc7;
// Drivers that require SPI, can use this SPI abstraction
struct mg_tcpip_spi {
void *spi; // Opaque SPI bus descriptor
void (*begin)(void *); // SPI begin: slave select low
void (*end)(void *); // SPI end: slave select high
uint8_t (*txn)(void *, uint8_t); // SPI transaction: write 1 byte, read reply
};
#endif
// Macros to record timestamped events that happens with a connection.
// They are saved into a c->prof IO buffer, each event is a name and a 32-bit
// timestamp in milliseconds since connection init time.
//
// Test (run in two separate terminals):
// make -C examples/http-server/ CFLAGS_EXTRA=-DMG_ENABLE_PROFILE=1
// curl localhost:8000
// Output:
// 1ea1f1e7 2 net.c:150:mg_close_conn 3 profile:
// 1ea1f1e8 2 net.c:150:mg_close_conn 1ea1f1e6 init
// 1ea1f1e8 2 net.c:150:mg_close_conn 0 EV_OPEN
// 1ea1f1e8 2 net.c:150:mg_close_conn 0 EV_ACCEPT
// 1ea1f1e8 2 net.c:150:mg_close_conn 0 EV_READ
// 1ea1f1e8 2 net.c:150:mg_close_conn 0 EV_HTTP_MSG
// 1ea1f1e8 2 net.c:150:mg_close_conn 0 EV_WRITE
// 1ea1f1e8 2 net.c:150:mg_close_conn 1 EV_CLOSE
//
// Usage:
// Enable profiling by setting MG_ENABLE_PROFILE=1
// Invoke MG_PROF_ADD(c, "MY_EVENT_1") in the places you'd like to measure
#if MG_ENABLE_PROFILE
struct mg_profitem {
const char *name; // Event name
uint32_t timestamp; // Milliseconds since connection creation (MG_EV_OPEN)
};
#define MG_PROFILE_ALLOC_GRANULARITY 256 // Can save 32 items wih to realloc
// Adding a profile item to the c->prof. Must be as fast as possible.
// Reallocation of the c->prof iobuf is not desirable here, that's why we
// pre-allocate c->prof with MG_PROFILE_ALLOC_GRANULARITY.
// This macro just inits and copies 8 bytes, and calls mg_millis(),
// which should be fast enough.
#define MG_PROF_ADD(c, name_) \
do { \
struct mg_iobuf *io = &c->prof; \
uint32_t inittime = ((struct mg_profitem *) io->buf)->timestamp; \
struct mg_profitem item = {name_, (uint32_t) mg_millis() - inittime}; \
mg_iobuf_add(io, io->len, &item, sizeof(item)); \
} while (0)
// Initialising profile for a new connection. Not time sensitive
#define MG_PROF_INIT(c) \
do { \
struct mg_profitem first = {"init", (uint32_t) mg_millis()}; \
mg_iobuf_init(&(c)->prof, 0, MG_PROFILE_ALLOC_GRANULARITY); \
mg_iobuf_add(&c->prof, c->prof.len, &first, sizeof(first)); \
} while (0)
#define MG_PROF_FREE(c) mg_iobuf_free(&(c)->prof)
// Dumping the profile. Not time sensitive
#define MG_PROF_DUMP(c) \
do { \
struct mg_iobuf *io = &c->prof; \
struct mg_profitem *p = (struct mg_profitem *) io->buf; \
struct mg_profitem *e = &p[io->len / sizeof(*p)]; \
MG_INFO(("%lu profile:", c->id)); \
while (p < e) { \
MG_INFO(("%5lx %s", (unsigned long) p->timestamp, p->name)); \
p++; \
} \
} while (0)
#else
#define MG_PROF_INIT(c)
#define MG_PROF_FREE(c)
#define MG_PROF_ADD(c, name)
#define MG_PROF_DUMP(c)
#endif
#if MG_ENABLE_TCPIP && defined(MG_ENABLE_DRIVER_CMSIS) && MG_ENABLE_DRIVER_CMSIS
#include "Driver_ETH_MAC.h" // keep this include
#include "Driver_ETH_PHY.h" // keep this include
#endif
#if MG_ENABLE_TCPIP && defined(MG_ENABLE_DRIVER_IMXRT) && MG_ENABLE_DRIVER_IMXRT
struct mg_tcpip_driver_imxrt_data {
// MDC clock divider. MDC clock is derived from IPS Bus clock (ipg_clk),
// must not exceed 2.5MHz. Configuration for clock range 2.36~2.50 MHz
// 37.5.1.8.2, Table 37-46 : f = ipg_clk / (2(mdc_cr + 1))
// ipg_clk mdc_cr VALUE
// --------------------------
// -1 <-- TODO() tell driver to guess the value
// 25 MHz 4
// 33 MHz 6
// 40 MHz 7
// 50 MHz 9
// 66 MHz 13
int mdc_cr; // Valid values: -1 to 63
uint8_t phy_addr; // PHY address
};
#ifndef MG_TCPIP_PHY_ADDR
#define MG_TCPIP_PHY_ADDR 2
#endif
#ifndef MG_DRIVER_MDC_CR
#define MG_DRIVER_MDC_CR 24
#endif
#define MG_TCPIP_DRIVER_INIT(mgr) \
do { \
static struct mg_tcpip_driver_imxrt_data driver_data_; \
static struct mg_tcpip_if mif_; \
driver_data_.mdc_cr = MG_DRIVER_MDC_CR; \
driver_data_.phy_addr = MG_TCPIP_PHY_ADDR; \
mif_.ip = MG_TCPIP_IP; \
mif_.mask = MG_TCPIP_MASK; \
mif_.gw = MG_TCPIP_GW; \
mif_.driver = &mg_tcpip_driver_imxrt; \
mif_.driver_data = &driver_data_; \
MG_SET_MAC_ADDRESS(mif_.mac); \
mg_tcpip_init(mgr, &mif_); \
MG_INFO(("Driver: imxrt, MAC: %M", mg_print_mac, mif_.mac)); \
} while (0)
#endif
struct mg_phy {
uint16_t (*read_reg)(uint8_t addr, uint8_t reg);
void (*write_reg)(uint8_t addr, uint8_t reg, uint16_t value);
};
// PHY configuration settings, bitmask
enum {
MG_PHY_LEDS_ACTIVE_HIGH =
(1 << 0), // Set if PHY LEDs are connected to ground
MG_PHY_CLOCKS_MAC =
(1 << 1) // Set when PHY clocks MAC. Otherwise, MAC clocks PHY
};
enum { MG_PHY_SPEED_10M, MG_PHY_SPEED_100M, MG_PHY_SPEED_1000M };
void mg_phy_init(struct mg_phy *, uint8_t addr, uint8_t config);
bool mg_phy_up(struct mg_phy *, uint8_t addr, bool *full_duplex,
uint8_t *speed);
#if MG_ENABLE_TCPIP && defined(MG_ENABLE_DRIVER_RA) && MG_ENABLE_DRIVER_RA
struct mg_tcpip_driver_ra_data {
// MDC clock "divider". MDC clock is software generated,
uint32_t clock; // core clock frequency in Hz
uint16_t irqno; // IRQn, R_ICU->IELSR[irqno]
uint8_t phy_addr; // PHY address
};
#endif
#if MG_ENABLE_TCPIP && defined(MG_ENABLE_DRIVER_SAME54) && MG_ENABLE_DRIVER_SAME54
struct mg_tcpip_driver_same54_data {
int mdc_cr;
};
#ifndef MG_DRIVER_MDC_CR
#define MG_DRIVER_MDC_CR 5
#endif
#endif
#if MG_ENABLE_TCPIP && defined(MG_ENABLE_DRIVER_STM32F) && \
MG_ENABLE_DRIVER_STM32F
struct mg_tcpip_driver_stm32f_data {
// MDC clock divider. MDC clock is derived from HCLK, must not exceed 2.5MHz
// HCLK range DIVIDER mdc_cr VALUE
// -------------------------------------
// -1 <-- tell driver to guess the value
// 60-100 MHz HCLK/42 0
// 100-150 MHz HCLK/62 1
// 20-35 MHz HCLK/16 2
// 35-60 MHz HCLK/26 3
// 150-216 MHz HCLK/102 4 <-- value for Nucleo-F* on max speed
// 216-310 MHz HCLK/124 5
// 110, 111 Reserved
int mdc_cr; // Valid values: -1, 0, 1, 2, 3, 4, 5
uint8_t phy_addr; // PHY address
};
#ifndef MG_TCPIP_PHY_ADDR
#define MG_TCPIP_PHY_ADDR 0
#endif
#ifndef MG_DRIVER_MDC_CR
#define MG_DRIVER_MDC_CR 4
#endif
#define MG_TCPIP_DRIVER_INIT(mgr) \
do { \
static struct mg_tcpip_driver_stm32f_data driver_data_; \
static struct mg_tcpip_if mif_; \
driver_data_.mdc_cr = MG_DRIVER_MDC_CR; \
driver_data_.phy_addr = MG_TCPIP_PHY_ADDR; \
mif_.ip = MG_TCPIP_IP; \
mif_.mask = MG_TCPIP_MASK; \
mif_.gw = MG_TCPIP_GW; \
mif_.driver = &mg_tcpip_driver_stm32f; \
mif_.driver_data = &driver_data_; \
MG_SET_MAC_ADDRESS(mif_.mac); \
mg_tcpip_init(mgr, &mif_); \
MG_INFO(("Driver: stm32f, MAC: %M", mg_print_mac, mif_.mac)); \
} while (0)
#endif
#if MG_ENABLE_TCPIP
#if !defined(MG_ENABLE_DRIVER_STM32H)
#define MG_ENABLE_DRIVER_STM32H 0
#endif
#if !defined(MG_ENABLE_DRIVER_MCXN)
#define MG_ENABLE_DRIVER_MCXN 0
#endif
#if MG_ENABLE_DRIVER_STM32H || MG_ENABLE_DRIVER_MCXN
struct mg_tcpip_driver_stm32h_data {
// MDC clock divider. MDC clock is derived from HCLK, must not exceed 2.5MHz
// HCLK range DIVIDER mdc_cr VALUE
// -------------------------------------
// -1 <-- tell driver to guess the value
// 60-100 MHz HCLK/42 0
// 100-150 MHz HCLK/62 1
// 20-35 MHz HCLK/16 2
// 35-60 MHz HCLK/26 3
// 150-250 MHz HCLK/102 4 <-- value for max speed HSI
// 250-300 MHz HCLK/124 5 <-- value for Nucleo-H* on CSI
// 300-500 MHz HCLK/204 6
// 500-800 MHz HCLK/324 7
int mdc_cr; // Valid values: -1, 0, 1, 2, 3, 4, 5
uint8_t phy_addr; // PHY address
uint8_t phy_conf; // PHY config
};
#ifndef MG_TCPIP_PHY_ADDR
#define MG_TCPIP_PHY_ADDR 0
#endif
#ifndef MG_DRIVER_MDC_CR
#define MG_DRIVER_MDC_CR 4
#endif
#define MG_TCPIP_DRIVER_INIT(mgr) \
do { \
static struct mg_tcpip_driver_stm32h_data driver_data_; \
static struct mg_tcpip_if mif_; \
driver_data_.mdc_cr = MG_DRIVER_MDC_CR; \
driver_data_.phy_addr = MG_TCPIP_PHY_ADDR; \
mif_.ip = MG_TCPIP_IP; \
mif_.mask = MG_TCPIP_MASK; \
mif_.gw = MG_TCPIP_GW; \
mif_.driver = &mg_tcpip_driver_stm32h; \
mif_.driver_data = &driver_data_; \
MG_SET_MAC_ADDRESS(mif_.mac); \
mg_tcpip_init(mgr, &mif_); \
MG_INFO(("Driver: stm32h, MAC: %M", mg_print_mac, mif_.mac)); \
} while (0)
#endif
#endif
#if MG_ENABLE_TCPIP && defined(MG_ENABLE_DRIVER_TM4C) && MG_ENABLE_DRIVER_TM4C
struct mg_tcpip_driver_tm4c_data {
// MDC clock divider. MDC clock is derived from SYSCLK, must not exceed 2.5MHz
// SYSCLK range DIVIDER mdc_cr VALUE
// -------------------------------------
// -1 <-- tell driver to guess the value
// 60-100 MHz SYSCLK/42 0
// 100-150 MHz SYSCLK/62 1 <-- value for EK-TM4C129* on max speed
// 20-35 MHz SYSCLK/16 2
// 35-60 MHz SYSCLK/26 3
// 0x4-0xF Reserved
int mdc_cr; // Valid values: -1, 0, 1, 2, 3
};
#ifndef MG_DRIVER_MDC_CR
#define MG_DRIVER_MDC_CR 1
#endif
#endif
#if MG_ENABLE_TCPIP && defined(MG_ENABLE_DRIVER_W5500) && MG_ENABLE_DRIVER_W5500
#endif
#if MG_ENABLE_TCPIP && defined(MG_ENABLE_DRIVER_XMC7) && MG_ENABLE_DRIVER_XMC7
struct mg_tcpip_driver_xmc7_data {
int mdc_cr; // Valid values: -1, 0, 1, 2, 3, 4, 5
uint8_t phy_addr;
};
#ifndef MG_TCPIP_PHY_ADDR
#define MG_TCPIP_PHY_ADDR 0
#endif
#ifndef MG_DRIVER_MDC_CR
#define MG_DRIVER_MDC_CR 3
#endif
#define MG_TCPIP_DRIVER_INIT(mgr) \
do { \
static struct mg_tcpip_driver_xmc7_data driver_data_; \
static struct mg_tcpip_if mif_; \
driver_data_.mdc_cr = MG_DRIVER_MDC_CR; \
driver_data_.phy_addr = MG_TCPIP_PHY_ADDR; \
mif_.ip = MG_TCPIP_IP; \
mif_.mask = MG_TCPIP_MASK; \
mif_.gw = MG_TCPIP_GW; \
mif_.driver = &mg_tcpip_driver_xmc7; \
mif_.driver_data = &driver_data_; \
MG_SET_MAC_ADDRESS(mif_.mac); \
mg_tcpip_init(mgr, &mif_); \
MG_INFO(("Driver: xmc7, MAC: %M", mg_print_mac, mif_.mac)); \
} while (0)
#endif
#if MG_ENABLE_TCPIP && defined(MG_ENABLE_DRIVER_XMC) && MG_ENABLE_DRIVER_XMC
struct mg_tcpip_driver_xmc_data {
// 13.2.8.1 Station Management Functions
// MDC clock divider (). MDC clock is derived from ETH MAC clock
// It must not exceed 2.5MHz
// ETH Clock range DIVIDER mdc_cr VALUE
// --------------------------------------------
// -1 <-- tell driver to guess the value
// 60-100 MHz ETH Clock/42 0
// 100-150 MHz ETH Clock/62 1
// 20-35 MHz ETH Clock/16 2
// 35-60 MHz ETH Clock/26 3
// 150-250 MHz ETH Clock/102 4
// 250-300 MHz ETH Clock/124 5
// 110, 111 Reserved
int mdc_cr; // Valid values: -1, 0, 1, 2, 3, 4, 5
uint8_t phy_addr;
};
#ifndef MG_TCPIP_PHY_ADDR
#define MG_TCPIP_PHY_ADDR 0
#endif
#ifndef MG_DRIVER_MDC_CR
#define MG_DRIVER_MDC_CR 4
#endif
#define MG_TCPIP_DRIVER_INIT(mgr) \
do { \
static struct mg_tcpip_driver_xmc_data driver_data_; \
static struct mg_tcpip_if mif_; \
driver_data_.mdc_cr = MG_DRIVER_MDC_CR; \
driver_data_.phy_addr = MG_TCPIP_PHY_ADDR; \
mif_.ip = MG_TCPIP_IP; \
mif_.mask = MG_TCPIP_MASK; \
mif_.gw = MG_TCPIP_GW; \
mif_.driver = &mg_tcpip_driver_xmc; \
mif_.driver_data = &driver_data_; \
MG_SET_MAC_ADDRESS(mif_.mac); \
mg_tcpip_init(mgr, &mif_); \
MG_INFO(("Driver: xmc, MAC: %M", mg_print_mac, mif_.mac)); \
} while (0)
#endif
#ifdef __cplusplus
}
#endif
#endif // MONGOOSE_H
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