added prescaler for 16 bit pwm in LPC1347 target
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common/retarget.cpp
- Committer:
- mbed_official
- Date:
- 2016-02-15
- Revision:
- 63:5964504d61de
- Parent:
- 0:9b334a45a8ff
- Child:
- 84:74871d7a38d9
File content as of revision 63:5964504d61de:
/* mbed Microcontroller Library * Copyright (c) 2006-2015 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "platform.h" #include "FileHandle.h" #include "FileSystemLike.h" #include "FilePath.h" #include "serial_api.h" #include "toolchain.h" #include "semihost_api.h" #include "mbed_interface.h" #if DEVICE_STDIO_MESSAGES #include <stdio.h> #endif #include <errno.h> #if defined(__ARMCC_VERSION) # include <rt_sys.h> # define PREFIX(x) _sys##x # define OPEN_MAX _SYS_OPEN # ifdef __MICROLIB # pragma import(__use_full_stdio) # endif #elif defined(__ICCARM__) # include <yfuns.h> # define PREFIX(x) _##x # define OPEN_MAX 16 # define STDIN_FILENO 0 # define STDOUT_FILENO 1 # define STDERR_FILENO 2 #else # include <sys/stat.h> # include <sys/unistd.h> # include <sys/syslimits.h> # define PREFIX(x) x #endif using namespace mbed; #if defined(__MICROLIB) && (__ARMCC_VERSION>5030000) // Before version 5.03, we were using a patched version of microlib with proper names extern const char __stdin_name[] = ":tt"; extern const char __stdout_name[] = ":tt"; extern const char __stderr_name[] = ":tt"; #else extern const char __stdin_name[] = "/stdin"; extern const char __stdout_name[] = "/stdout"; extern const char __stderr_name[] = "/stderr"; #endif /* newlib has the filehandle field in the FILE struct as a short, so * we can't just return a Filehandle* from _open and instead have to * put it in a filehandles array and return the index into that array * (or rather index+3, as filehandles 0-2 are stdin/out/err). */ static FileHandle *filehandles[OPEN_MAX]; FileHandle::~FileHandle() { /* Remove all open filehandles for this */ for (unsigned int fh_i = 0; fh_i < sizeof(filehandles)/sizeof(*filehandles); fh_i++) { if (filehandles[fh_i] == this) { filehandles[fh_i] = NULL; } } } #if DEVICE_SERIAL extern int stdio_uart_inited; extern serial_t stdio_uart; #endif static void init_serial() { #if DEVICE_SERIAL if (stdio_uart_inited) return; serial_init(&stdio_uart, STDIO_UART_TX, STDIO_UART_RX); #endif } static inline int openmode_to_posix(int openmode) { int posix = openmode; #ifdef __ARMCC_VERSION if (openmode & OPEN_PLUS) { posix = O_RDWR; } else if(openmode & OPEN_W) { posix = O_WRONLY; } else if(openmode & OPEN_A) { posix = O_WRONLY|O_APPEND; } else { posix = O_RDONLY; } /* a, w, a+, w+ all create if file does not already exist */ if (openmode & (OPEN_A|OPEN_W)) { posix |= O_CREAT; } /* w and w+ truncate */ if (openmode & OPEN_W) { posix |= O_TRUNC; } #elif defined(__ICCARM__) switch (openmode & _LLIO_RDWRMASK) { case _LLIO_RDONLY: posix = O_RDONLY; break; case _LLIO_WRONLY: posix = O_WRONLY; break; case _LLIO_RDWR : posix = O_RDWR ; break; } if (openmode & _LLIO_CREAT ) posix |= O_CREAT; if (openmode & _LLIO_APPEND) posix |= O_APPEND; if (openmode & _LLIO_TRUNC ) posix |= O_TRUNC; #endif return posix; } extern "C" FILEHANDLE PREFIX(_open)(const char* name, int openmode) { #if defined(__MICROLIB) && (__ARMCC_VERSION>5030000) // Before version 5.03, we were using a patched version of microlib with proper names // This is the workaround that the microlib author suggested us static int n = 0; if (!std::strcmp(name, ":tt")) return n++; #else /* Use the posix convention that stdin,out,err are filehandles 0,1,2. */ if (std::strcmp(name, __stdin_name) == 0) { init_serial(); return 0; } else if (std::strcmp(name, __stdout_name) == 0) { init_serial(); return 1; } else if (std::strcmp(name, __stderr_name) == 0) { init_serial(); return 2; } #endif // find the first empty slot in filehandles unsigned int fh_i; for (fh_i = 0; fh_i < sizeof(filehandles)/sizeof(*filehandles); fh_i++) { if (filehandles[fh_i] == NULL) break; } if (fh_i >= sizeof(filehandles)/sizeof(*filehandles)) { return -1; } FileHandle *res; /* FILENAME: ":0x12345678" describes a FileLike* */ if (name[0] == ':') { void *p; sscanf(name, ":%p", &p); res = (FileHandle*)p; /* FILENAME: "/file_system/file_name" */ } else { FilePath path(name); if (!path.exists()) return -1; else if (path.isFile()) { res = path.file(); } else { FileSystemLike *fs = path.fileSystem(); if (fs == NULL) return -1; int posix_mode = openmode_to_posix(openmode); res = fs->open(path.fileName(), posix_mode); /* NULL if fails */ } } if (res == NULL) return -1; filehandles[fh_i] = res; return fh_i + 3; // +3 as filehandles 0-2 are stdin/out/err } extern "C" int PREFIX(_close)(FILEHANDLE fh) { if (fh < 3) return 0; FileHandle* fhc = filehandles[fh-3]; filehandles[fh-3] = NULL; if (fhc == NULL) return -1; return fhc->close(); } #if defined(__ICCARM__) extern "C" size_t __write (int fh, const unsigned char *buffer, size_t length) { #else extern "C" int PREFIX(_write)(FILEHANDLE fh, const unsigned char *buffer, unsigned int length, int mode) { #endif int n; // n is the number of bytes written if (fh < 3) { #if DEVICE_SERIAL if (!stdio_uart_inited) init_serial(); for (unsigned int i = 0; i < length; i++) { serial_putc(&stdio_uart, buffer[i]); } #endif n = length; } else { FileHandle* fhc = filehandles[fh-3]; if (fhc == NULL) return -1; n = fhc->write(buffer, length); } #ifdef __ARMCC_VERSION return length-n; #else return n; #endif } #if defined(__ICCARM__) extern "C" size_t __read (int fh, unsigned char *buffer, size_t length) { #else extern "C" int PREFIX(_read)(FILEHANDLE fh, unsigned char *buffer, unsigned int length, int mode) { #endif int n; // n is the number of bytes read if (fh < 3) { // only read a character at a time from stdin #if DEVICE_SERIAL if (!stdio_uart_inited) init_serial(); *buffer = serial_getc(&stdio_uart); #endif n = 1; } else { FileHandle* fhc = filehandles[fh-3]; if (fhc == NULL) return -1; n = fhc->read(buffer, length); } #ifdef __ARMCC_VERSION return length-n; #else return n; #endif } #ifdef __ARMCC_VERSION extern "C" int PREFIX(_istty)(FILEHANDLE fh) #else extern "C" int _isatty(FILEHANDLE fh) #endif { /* stdin, stdout and stderr should be tty */ if (fh < 3) return 1; FileHandle* fhc = filehandles[fh-3]; if (fhc == NULL) return -1; return fhc->isatty(); } extern "C" #if defined(__ARMCC_VERSION) int _sys_seek(FILEHANDLE fh, long position) #elif defined(__ICCARM__) long __lseek(int fh, long offset, int whence) #else int _lseek(FILEHANDLE fh, int offset, int whence) #endif { if (fh < 3) return 0; FileHandle* fhc = filehandles[fh-3]; if (fhc == NULL) return -1; #if defined(__ARMCC_VERSION) return fhc->lseek(position, SEEK_SET); #else return fhc->lseek(offset, whence); #endif } #ifdef __ARMCC_VERSION extern "C" int PREFIX(_ensure)(FILEHANDLE fh) { if (fh < 3) return 0; FileHandle* fhc = filehandles[fh-3]; if (fhc == NULL) return -1; return fhc->fsync(); } extern "C" long PREFIX(_flen)(FILEHANDLE fh) { if (fh < 3) return 0; FileHandle* fhc = filehandles[fh-3]; if (fhc == NULL) return -1; return fhc->flen(); } #endif #if !defined(__ARMCC_VERSION) && !defined(__ICCARM__) extern "C" int _fstat(int fd, struct stat *st) { if ((STDOUT_FILENO == fd) || (STDERR_FILENO == fd) || (STDIN_FILENO == fd)) { st->st_mode = S_IFCHR; return 0; } errno = EBADF; return -1; } #endif namespace std { extern "C" int remove(const char *path) { FilePath fp(path); FileSystemLike *fs = fp.fileSystem(); if (fs == NULL) return -1; return fs->remove(fp.fileName()); } extern "C" int rename(const char *oldname, const char *newname) { FilePath fpOld(oldname); FilePath fpNew(newname); FileSystemLike *fsOld = fpOld.fileSystem(); FileSystemLike *fsNew = fpNew.fileSystem(); /* rename only if both files are on the same FS */ if (fsOld != fsNew || fsOld == NULL) return -1; return fsOld->rename(fpOld.fileName(), fpNew.fileName()); } extern "C" char *tmpnam(char *s) { return NULL; } extern "C" FILE *tmpfile() { return NULL; } } // namespace std #ifdef __ARMCC_VERSION extern "C" char *_sys_command_string(char *cmd, int len) { return NULL; } #endif extern "C" DIR *opendir(const char *path) { /* root dir is FileSystemLike */ if (path[0] == '/' && path[1] == 0) { return FileSystemLike::opendir(); } FilePath fp(path); FileSystemLike* fs = fp.fileSystem(); if (fs == NULL) return NULL; return fs->opendir(fp.fileName()); } extern "C" struct dirent *readdir(DIR *dir) { return dir->readdir(); } extern "C" int closedir(DIR *dir) { return dir->closedir(); } extern "C" void rewinddir(DIR *dir) { dir->rewinddir(); } extern "C" off_t telldir(DIR *dir) { return dir->telldir(); } extern "C" void seekdir(DIR *dir, off_t off) { dir->seekdir(off); } extern "C" int mkdir(const char *path, mode_t mode) { FilePath fp(path); FileSystemLike *fs = fp.fileSystem(); if (fs == NULL) return -1; return fs->mkdir(fp.fileName(), mode); } #if defined(TOOLCHAIN_GCC) /* prevents the exception handling name demangling code getting pulled in */ #include "mbed_error.h" namespace __gnu_cxx { void __verbose_terminate_handler() { error("Exception"); } } extern "C" WEAK void __cxa_pure_virtual(void); extern "C" WEAK void __cxa_pure_virtual(void) { exit(1); } #endif // **************************************************************************** // mbed_main is a function that is called before main() // mbed_sdk_init() is also a function that is called before main(), but unlike // mbed_main(), it is not meant for user code, but for the SDK itself to perform // initializations before main() is called. extern "C" WEAK void mbed_main(void); extern "C" WEAK void mbed_main(void) { } extern "C" WEAK void mbed_sdk_init(void); extern "C" WEAK void mbed_sdk_init(void) { } #if defined(TOOLCHAIN_ARM) extern "C" int $Super$$main(void); extern "C" int $Sub$$main(void) { mbed_sdk_init(); mbed_main(); return $Super$$main(); } #elif defined(TOOLCHAIN_GCC) extern "C" int __real_main(void); extern "C" int __wrap_main(void) { mbed_sdk_init(); mbed_main(); return __real_main(); } #elif defined(TOOLCHAIN_IAR) // IAR doesn't have the $Super/$Sub mechanism of armcc, nor something equivalent // to ld's --wrap. It does have a --redirect, but that doesn't help, since redirecting // 'main' to another symbol looses the original 'main' symbol. However, its startup // code will call a function to setup argc and argv (__iar_argc_argv) if it is defined. // Since mbed doesn't use argc/argv, we use this function to call our mbed_main. extern "C" void __iar_argc_argv() { mbed_sdk_init(); mbed_main(); } #endif // Provide implementation of _sbrk (low-level dynamic memory allocation // routine) for GCC_ARM which compares new heap pointer with MSP instead of // SP. This make it compatible with RTX RTOS thread stacks. #if defined(TOOLCHAIN_GCC_ARM) // Linker defined symbol used by _sbrk to indicate where heap should start. extern "C" int __end__; #if defined(TARGET_CORTEX_A) extern "C" uint32_t __HeapLimit; #endif // Turn off the errno macro and use actual global variable instead. #undef errno extern "C" int errno; // For ARM7 only register unsigned char * stack_ptr __asm ("sp"); // Dynamic memory allocation related syscall. extern "C" caddr_t _sbrk(int incr) { static unsigned char* heap = (unsigned char*)&__end__; unsigned char* prev_heap = heap; unsigned char* new_heap = heap + incr; #if defined(TARGET_ARM7) if (new_heap >= stack_ptr) { #elif defined(TARGET_CORTEX_A) if (new_heap >= (unsigned char*)&__HeapLimit) { /* __HeapLimit is end of heap section */ #else if (new_heap >= (unsigned char*)__get_MSP()) { #endif errno = ENOMEM; return (caddr_t)-1; } heap = new_heap; return (caddr_t) prev_heap; } #endif #if defined TOOLCHAIN_GCC_ARM extern "C" void _exit(int return_code) { #else namespace std { extern "C" void exit(int return_code) { #endif #if DEVICE_STDIO_MESSAGES fflush(stdout); fflush(stderr); #endif #if DEVICE_SEMIHOST if (mbed_interface_connected()) { semihost_exit(); } #endif if (return_code) { mbed_die(); } while (1); } #if !defined(TOOLCHAIN_GCC_ARM) } //namespace std #endif namespace mbed { void mbed_set_unbuffered_stream(FILE *_file) { #if defined (__ICCARM__) char buf[2]; std::setvbuf(_file,buf,_IONBF,NULL); #else setbuf(_file, NULL); #endif } int mbed_getc(FILE *_file){ #if defined (__ICCARM__) /*This is only valid for unbuffered streams*/ int res = std::fgetc(_file); if (res>=0){ _file->_Mode = (unsigned short)(_file->_Mode & ~ 0x1000);/* Unset read mode */ _file->_Rend = _file->_Wend; _file->_Next = _file->_Wend; } return res; #else return std::fgetc(_file); #endif } char* mbed_gets(char*s, int size, FILE *_file){ #if defined (__ICCARM__) /*This is only valid for unbuffered streams*/ char *str = fgets(s,size,_file); if (str!=NULL){ _file->_Mode = (unsigned short)(_file->_Mode & ~ 0x1000);/* Unset read mode */ _file->_Rend = _file->_Wend; _file->_Next = _file->_Wend; } return str; #else return std::fgets(s,size,_file); #endif } } // namespace mbed