diff options
Diffstat (limited to 'dev/arduino-terminal/ext/arduino/core/avr-libc/malloc.c')
| -rw-r--r-- | dev/arduino-terminal/ext/arduino/core/avr-libc/malloc.c | 267 |
1 files changed, 267 insertions, 0 deletions
diff --git a/dev/arduino-terminal/ext/arduino/core/avr-libc/malloc.c b/dev/arduino-terminal/ext/arduino/core/avr-libc/malloc.c new file mode 100644 index 0000000..9dcfe21 --- /dev/null +++ b/dev/arduino-terminal/ext/arduino/core/avr-libc/malloc.c @@ -0,0 +1,267 @@ +/* Copyright (c) 2002, 2004, 2010 Joerg Wunsch + Copyright (c) 2010 Gerben van den Broeke + All rights reserved. + + Redistribution and use in source and binary forms, with or without + modification, are permitted provided that the following conditions are met: + + * Redistributions of source code must retain the above copyright + notice, this list of conditions and the following disclaimer. + + * Redistributions in binary form must reproduce the above copyright + notice, this list of conditions and the following disclaimer in + the documentation and/or other materials provided with the + distribution. + + * Neither the name of the copyright holders nor the names of + contributors may be used to endorse or promote products derived + from this software without specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" + AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE + ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE + LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF + SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) + ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + POSSIBILITY OF SUCH DAMAGE. +*/ + + +/* $Id: malloc.c 2149 2010-06-09 20:45:37Z joerg_wunsch $ */ + +#include <stdlib.h> +#include "sectionname.h" +#include "stdlib_private.h" + +#include <avr/io.h> + +/* + * Exported interface: + * + * When extending the data segment, the allocator will not try to go + * beyond the current stack limit, decreased by __malloc_margin bytes. + * Thus, all possible stack frames of interrupt routines that could + * interrupt the current function, plus all further nested function + * calls must not require more stack space, or they'll risk to collide + * with the data segment. + */ + +/* May be changed by the user only before the first malloc() call. */ + +size_t __malloc_margin = 128; +char *__malloc_heap_start = &__heap_start; +char *__malloc_heap_end = &__heap_end; + +char *__brkval; +struct __freelist *__flp; + +ATTRIBUTE_CLIB_SECTION +void * +malloc(size_t len) +{ + struct __freelist *fp1, *fp2, *sfp1, *sfp2; + char *cp; + size_t s, avail; + + /* + * Our minimum chunk size is the size of a pointer (plus the + * size of the "sz" field, but we don't need to account for + * this), otherwise we could not possibly fit a freelist entry + * into the chunk later. + */ + if (len < sizeof(struct __freelist) - sizeof(size_t)) + len = sizeof(struct __freelist) - sizeof(size_t); + + /* + * First, walk the free list and try finding a chunk that + * would match exactly. If we found one, we are done. While + * walking, note down the smallest chunk we found that would + * still fit the request -- we need it for step 2. + * + */ + for (s = 0, fp1 = __flp, fp2 = 0; + fp1; + fp2 = fp1, fp1 = fp1->nx) { + if (fp1->sz < len) + continue; + if (fp1->sz == len) { + /* + * Found it. Disconnect the chunk from the + * freelist, and return it. + */ + if (fp2) + fp2->nx = fp1->nx; + else + __flp = fp1->nx; + return &(fp1->nx); + } + else { + if (s == 0 || fp1->sz < s) { + /* this is the smallest chunk found so far */ + s = fp1->sz; + sfp1 = fp1; + sfp2 = fp2; + } + } + } + /* + * Step 2: If we found a chunk on the freelist that would fit + * (but was too large), look it up again and use it, since it + * is our closest match now. Since the freelist entry needs + * to be split into two entries then, watch out that the + * difference between the requested size and the size of the + * chunk found is large enough for another freelist entry; if + * not, just enlarge the request size to what we have found, + * and use the entire chunk. + */ + if (s) { + if (s - len < sizeof(struct __freelist)) { + /* Disconnect it from freelist and return it. */ + if (sfp2) + sfp2->nx = sfp1->nx; + else + __flp = sfp1->nx; + return &(sfp1->nx); + } + /* + * Split them up. Note that we leave the first part + * as the new (smaller) freelist entry, and return the + * upper portion to the caller. This saves us the + * work to fix up the freelist chain; we just need to + * fixup the size of the current entry, and note down + * the size of the new chunk before returning it to + * the caller. + */ + cp = (char *)sfp1; + s -= len; + cp += s; + sfp2 = (struct __freelist *)cp; + sfp2->sz = len; + sfp1->sz = s - sizeof(size_t); + return &(sfp2->nx); + } + /* + * Step 3: If the request could not be satisfied from a + * freelist entry, just prepare a new chunk. This means we + * need to obtain more memory first. The largest address just + * not allocated so far is remembered in the brkval variable. + * Under Unix, the "break value" was the end of the data + * segment as dynamically requested from the operating system. + * Since we don't have an operating system, just make sure + * that we don't collide with the stack. + */ + if (__brkval == 0) + __brkval = __malloc_heap_start; + cp = __malloc_heap_end; + if (cp == 0) + cp = STACK_POINTER() - __malloc_margin; + if (cp <= __brkval) + /* + * Memory exhausted. + */ + return 0; + avail = cp - __brkval; + /* + * Both tests below are needed to catch the case len >= 0xfffe. + */ + if (avail >= len && avail >= len + sizeof(size_t)) { + fp1 = (struct __freelist *)__brkval; + __brkval += len + sizeof(size_t); + fp1->sz = len; + return &(fp1->nx); + } + /* + * Step 4: There's no help, just fail. :-/ + */ + return 0; +} + + +ATTRIBUTE_CLIB_SECTION +void +free(void *p) +{ + struct __freelist *fp1, *fp2, *fpnew; + char *cp1, *cp2, *cpnew; + + /* ISO C says free(NULL) must be a no-op */ + if (p == 0) + return; + + cpnew = p; + cpnew -= sizeof(size_t); + fpnew = (struct __freelist *)cpnew; + fpnew->nx = 0; + + /* + * Trivial case first: if there's no freelist yet, our entry + * will be the only one on it. If this is the last entry, we + * can reduce __brkval instead. + */ + if (__flp == 0) { + if ((char *)p + fpnew->sz == __brkval) + __brkval = cpnew; + else + __flp = fpnew; + return; + } + + /* + * Now, find the position where our new entry belongs onto the + * freelist. Try to aggregate the chunk with adjacent chunks + * if possible. + */ + for (fp1 = __flp, fp2 = 0; + fp1; + fp2 = fp1, fp1 = fp1->nx) { + if (fp1 < fpnew) + continue; + cp1 = (char *)fp1; + fpnew->nx = fp1; + if ((char *)&(fpnew->nx) + fpnew->sz == cp1) { + /* upper chunk adjacent, assimilate it */ + fpnew->sz += fp1->sz + sizeof(size_t); + fpnew->nx = fp1->nx; + } + if (fp2 == 0) { + /* new head of freelist */ + __flp = fpnew; + return; + } + break; + } + /* + * Note that we get here either if we hit the "break" above, + * or if we fell off the end of the loop. The latter means + * we've got a new topmost chunk. Either way, try aggregating + * with the lower chunk if possible. + */ + fp2->nx = fpnew; + cp2 = (char *)&(fp2->nx); + if (cp2 + fp2->sz == cpnew) { + /* lower junk adjacent, merge */ + fp2->sz += fpnew->sz + sizeof(size_t); + fp2->nx = fpnew->nx; + } + /* + * If there's a new topmost chunk, lower __brkval instead. + */ + for (fp1 = __flp, fp2 = 0; + fp1->nx != 0; + fp2 = fp1, fp1 = fp1->nx) + /* advance to entry just before end of list */; + cp2 = (char *)&(fp1->nx); + if (cp2 + fp1->sz == __brkval) { + if (fp2 == NULL) + /* Freelist is empty now. */ + __flp = NULL; + else + fp2->nx = NULL; + __brkval = cp2 - sizeof(size_t); + } +} + |