Free (GPLv2) TCP/IP stack developed by TASS Belgium
Dependents: lpc1768-picotcp-demo ZeroMQ_PicoTCP_Publisher_demo TCPSocket_HelloWorld_PicoTCP Pico_TCP_UDP_Test ... more
PicoTCP. Copyright (c) 2013 TASS Belgium NV.
Released under the GNU General Public License, version 2.
Different licensing models may exist, at the sole discretion of the Copyright holders.
Official homepage: http://www.picotcp.com
Bug tracker: https://github.com/tass-belgium/picotcp/issues
Development steps:
initial integration with mbed RTOSgeneric mbed Ethernet driverhigh performance NXP LPC1768 specific Ethernet driverMulti-threading support for mbed RTOSBerkeley sockets and integration with the New Socket APIFork of the apps running on top of the New Socket APIScheduling optimizations- Debugging/benchmarking/testing
Demo application (measuring TCP sender performance):
Import programlpc1768-picotcp-demo
A PicoTCP demo app testing the ethernet throughput on the lpc1768 mbed board.
modules/pico_mm.h
- Committer:
- tass picotcp@tass.be
- Date:
- 2014-04-09
- Revision:
- 149:5f4cb161cec3
- Child:
- 150:551effcf6a39
File content as of revision 149:5f4cb161cec3:
/********************************************************************* PicoTCP. Copyright (c) 2012 TASS Belgium NV. Some rights reserved. See LICENSE and COPYING for usage. Authors: Gustav Janssens, Jonas Van Nieuwenberg, Sam Van Den Berge *********************************************************************/ #ifndef _INCLUDE_PICO_MM #define _INCLUDE_PICO_MM #include <stdint.h> /* * Memory init function, this will create a memory manager instance * A memory_manager page will be created, along with one page of memory * Memory can be asked for via the pico_mem_zalloc function * More memory will be allocated to the memory manager according to its needs * A maximum amount of memory of uint32_t memsize can be allocated */ void pico_mem_init(uint32_t memsize); /* * Memory deinit function, this will free all memory occupied by the current * memory manager instance. */ void pico_mem_deinit(); /* * Zero-initialized malloc function, will reserve a memory segment of length uint32_t len * This memory will be quickly allocated in a slab of fixed size if possible * or less optimally in the heap for a small variable size * The fixed size of the slabs can be changed dynamically via a statistics engine */ void*pico_mem_zalloc(size_t len); /* * Free function, free a block of memory pointed to by ptr. * Unused memory is only returned to the system's control by pico_mem_cleanup */ void pico_mem_free(void*ptr); /* * This cleanup function will be provided by the memory manager * It can be called during processor downtime * This function will return unused pages to the system's control * Pages are unused if they no longer contain slabs or heap, and they have been idle for a longer time */ void pico_mem_cleanup(uint32_t timestamp); #ifdef PICO_SUPPORT_MM_PROFILING /*********************************************************************************************************************** *********************************************************************************************************************** MEMORY PROFILING FUNCTIONS *********************************************************************************************************************** ***********************************************************************************************************************/ /* General info struct */ struct profiling_data { uint32_t free_heap_space; uint32_t free_slab_space; uint32_t used_heap_space; uint32_t used_slab_space; }; /* * This function fills up a struct with used and free slab and heap space in the memory manager * The user is responsible for resource managment */ void pico_mem_profile_collect_data(struct profiling_data*profiling_page_struct); /* * This function prints the general structure of the memory manager * Printf in this function can be rerouted to send this data over a serial port, or to write it away to memory */ void pico_mem_profile_scan_data(); /* * This function returns the total size that the manager has received from the system * This can give an indication of the total system resource commitment, but keep in mind that * there can be many free blocks in this "used" size * Together with pico_mem_profile_collect_data, this can give a good estimation of the total * resource commitment */ uint32_t pico_mem_profile_used_size(); /* * This function returns a pointer to page 0, the main memory manager housekeeping (struct pico_mem_manager). * This can be used to collect data about the memory in user defined functions. * Use with care! */ void*pico_mem_profile_manager(); /* * paramter manager is a pointer to a struct pico_mem_manager */ void pico_mem_init_profiling(void*manager, uint32_t memsize); #endif /* PICO_SUPPORT_MM_PROFILING */ #endif /* _INCLUDE_PICO_MM */