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[/] [openrisc/] [trunk/] [gnu-stable/] [gdb-7.2/] [sim/] [ppc/] [corefile.c] - Rev 847
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/* This file is part of the program psim. Copyright (C) 1994-1996, Andrew Cagney <cagney@highland.com.au> This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, 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. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifndef _CORE_C_ #define _CORE_C_ #include "basics.h" #include "device_table.h" #include "corefile.h" typedef struct _core_mapping core_mapping; struct _core_mapping { /* common */ int level; int space; unsigned_word base; unsigned_word bound; unsigned nr_bytes; /* memory map */ void *free_buffer; void *buffer; /* callback map */ device *device; /* growth */ core_mapping *next; }; struct _core_map { core_mapping *first; }; typedef enum { core_read_map, core_write_map, core_execute_map, nr_core_map_types, } core_map_types; struct _core { core_map map[nr_core_map_types]; }; INLINE_CORE\ (core *) core_create(void) { return ZALLOC(core); } INLINE_CORE\ (core *) core_from_device(device *root) { root = device_root(root); ASSERT(strcmp(device_name(root), "core") == 0); return device_data(root); } INLINE_CORE\ (void) core_init(core *memory) { core_map_types access_type; for (access_type = 0; access_type < nr_core_map_types; access_type++) { core_map *map = memory->map + access_type; /* blow away old mappings */ core_mapping *curr = map->first; while (curr != NULL) { core_mapping *tbd = curr; curr = curr->next; if (tbd->free_buffer != NULL) { ASSERT(tbd->buffer != NULL); zfree(tbd->free_buffer); } zfree(tbd); } map->first = NULL; } } /* the core has three sub mappings that the more efficient read/write fixed quantity functions use */ INLINE_CORE\ (core_map *) core_readable(core *memory) { return memory->map + core_read_map; } INLINE_CORE\ (core_map *) core_writeable(core *memory) { return memory->map + core_write_map; } INLINE_CORE\ (core_map *) core_executable(core *memory) { return memory->map + core_execute_map; } STATIC_INLINE_CORE\ (core_mapping *) new_core_mapping(attach_type attach, int space, unsigned_word addr, unsigned nr_bytes, device *device, void *buffer, void *free_buffer) { core_mapping *new_mapping = ZALLOC(core_mapping); /* common */ new_mapping->level = attach; new_mapping->space = space; new_mapping->base = addr; new_mapping->nr_bytes = nr_bytes; new_mapping->bound = addr + (nr_bytes - 1); if (attach == attach_raw_memory) { new_mapping->buffer = buffer; new_mapping->free_buffer = free_buffer; } else if (attach >= attach_callback) { new_mapping->device = device; } else { error("new_core_mapping() - internal error - unknown attach type %d\n", attach); } return new_mapping; } STATIC_INLINE_CORE\ (void) core_map_attach(core_map *access_map, attach_type attach, int space, unsigned_word addr, unsigned nr_bytes, /* host limited */ device *client, /*callback/default*/ void *buffer, /*raw_memory*/ void *free_buffer) /*raw_memory*/ { /* find the insertion point for this additional mapping and insert */ core_mapping *next_mapping; core_mapping **last_mapping; /* actually do occasionally get a zero size map */ if (nr_bytes == 0) { device_error(client, "called on core_map_attach() with size zero"); } /* find the insertion point (between last/next) */ next_mapping = access_map->first; last_mapping = &access_map->first; while(next_mapping != NULL && (next_mapping->level < attach || (next_mapping->level == attach && next_mapping->bound < addr))) { /* provided levels are the same */ /* assert: next_mapping->base > all bases before next_mapping */ /* assert: next_mapping->bound >= all bounds before next_mapping */ last_mapping = &next_mapping->next; next_mapping = next_mapping->next; } /* check insertion point correct */ ASSERT(next_mapping == NULL || next_mapping->level >= attach); if (next_mapping != NULL && next_mapping->level == attach && next_mapping->base < (addr + (nr_bytes - 1))) { device_error(client, "map overlap when attaching %d:0x%lx (%ld)", space, (long)addr, (long)nr_bytes); } /* create/insert the new mapping */ *last_mapping = new_core_mapping(attach, space, addr, nr_bytes, client, buffer, free_buffer); (*last_mapping)->next = next_mapping; } INLINE_CORE\ (void) core_attach(core *memory, attach_type attach, int space, access_type access, unsigned_word addr, unsigned nr_bytes, /* host limited */ device *client) /*callback/default*/ { core_map_types access_map; void *buffer; void *free_buffer; if (attach == attach_raw_memory) { /* Padd out the raw buffer to ensure that ADDR starts on a correctly aligned boundary */ int padding = (addr % sizeof (unsigned64)); free_buffer = zalloc(nr_bytes + padding); buffer = (char*)free_buffer + padding; } else { buffer = NULL; free_buffer = &buffer; /* marker for assertion */ } for (access_map = 0; access_map < nr_core_map_types; access_map++) { switch (access_map) { case core_read_map: if (access & access_read) core_map_attach(memory->map + access_map, attach, space, addr, nr_bytes, client, buffer, free_buffer); free_buffer = NULL; break; case core_write_map: if (access & access_write) core_map_attach(memory->map + access_map, attach, space, addr, nr_bytes, client, buffer, free_buffer); free_buffer = NULL; break; case core_execute_map: if (access & access_exec) core_map_attach(memory->map + access_map, attach, space, addr, nr_bytes, client, buffer, free_buffer); free_buffer = NULL; break; default: error("core_attach() internal error\n"); break; } } /* allocated buffer must attach to at least one thing */ ASSERT(free_buffer == NULL); } STATIC_INLINE_CORE\ (core_mapping *) core_map_find_mapping(core_map *map, unsigned_word addr, unsigned nr_bytes, cpu *processor, unsigned_word cia, int abort) /*either 0 or 1 - helps inline */ { core_mapping *mapping = map->first; ASSERT((addr & (nr_bytes - 1)) == 0); /* must be aligned */ ASSERT((addr + (nr_bytes - 1)) >= addr); /* must not wrap */ while (mapping != NULL) { if (addr >= mapping->base && (addr + (nr_bytes - 1)) <= mapping->bound) return mapping; mapping = mapping->next; } if (abort) error("core_find_mapping() - access to unmaped address, attach a default map to handle this - addr=0x%x nr_bytes=0x%x processor=0x%x cia=0x%x\n", addr, nr_bytes, processor, cia); return NULL; } STATIC_INLINE_CORE\ (void *) core_translate(core_mapping *mapping, unsigned_word addr) { return (void *)(((char *)mapping->buffer) + addr - mapping->base); } INLINE_CORE\ (unsigned) core_map_read_buffer(core_map *map, void *buffer, unsigned_word addr, unsigned len) { unsigned count = 0; while (count < len) { unsigned_word raddr = addr + count; core_mapping *mapping = core_map_find_mapping(map, raddr, 1, NULL, /*processor*/ 0, /*cia*/ 0); /*dont-abort*/ if (mapping == NULL) break; if (mapping->device != NULL) { int nr_bytes = len - count; if (raddr + nr_bytes - 1> mapping->bound) nr_bytes = mapping->bound - raddr + 1; if (device_io_read_buffer(mapping->device, (unsigned_1*)buffer + count, mapping->space, raddr, nr_bytes, 0, /*processor*/ 0 /*cpu*/) != nr_bytes) break; count += nr_bytes; } else { ((unsigned_1*)buffer)[count] = *(unsigned_1*)core_translate(mapping, raddr); count += 1; } } return count; } INLINE_CORE\ (unsigned) core_map_write_buffer(core_map *map, const void *buffer, unsigned_word addr, unsigned len) { unsigned count = 0; while (count < len) { unsigned_word raddr = addr + count; core_mapping *mapping = core_map_find_mapping(map, raddr, 1, NULL, /*processor*/ 0, /*cia*/ 0); /*dont-abort*/ if (mapping == NULL) break; if (mapping->device != NULL) { int nr_bytes = len - count; if (raddr + nr_bytes - 1 > mapping->bound) nr_bytes = mapping->bound - raddr + 1; if (device_io_write_buffer(mapping->device, (unsigned_1*)buffer + count, mapping->space, raddr, nr_bytes, 0, /*processor*/ 0 /*cpu*/) != nr_bytes) break; count += nr_bytes; } else { *(unsigned_1*)core_translate(mapping, raddr) = ((unsigned_1*)buffer)[count]; count += 1; } } return count; } /* define the read/write 1/2/4/8/word functions */ #define N 1 #include "corefile-n.h" #undef N #define N 2 #include "corefile-n.h" #undef N #define N 4 #include "corefile-n.h" #undef N #define N 8 #include "corefile-n.h" #undef N #define N word #include "corefile-n.h" #undef N #endif /* _CORE_C_ */
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