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|
/*
* tramp.c
*
* DSP-BIOS Bridge driver support functions for TI OMAP processors.
*
* Copyright (C) 2009 Texas Instruments, Inc.
*
* This package is free software; 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.
*
* THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
* WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.
*/
#include "header.h"
#if TMS32060
#include "tramp_table_c6000.c"
#endif
#define MAX_RELOS_PER_PASS 4
/*
* Function: priv_tramp_sect_tgt_alloc
* Description: Allocate target memory for the trampoline section. The
* target mem size is easily obtained as the next available address.
*/
static int priv_tramp_sect_tgt_alloc(struct dload_state *dlthis)
{
int ret_val = 0;
struct ldr_section_info *sect_info;
/* Populate the trampoline loader section and allocate it on the
* target. The section name is ALWAYS the first string in the final
* string table for trampolines. The trampoline section is always
* 1 beyond the total number of allocated sections. */
sect_info = &dlthis->ldr_sections[dlthis->allocated_secn_count];
sect_info->name = dlthis->tramp.final_string_table;
sect_info->size = dlthis->tramp.tramp_sect_next_addr;
sect_info->context = 0;
sect_info->type =
(4 << 8) | DLOAD_TEXT | DS_ALLOCATE_MASK | DS_DOWNLOAD_MASK;
sect_info->page = 0;
sect_info->run_addr = 0;
sect_info->load_addr = 0;
ret_val = dlthis->myalloc->dload_allocate(dlthis->myalloc,
sect_info,
ds_alignment
(sect_info->type));
if (ret_val == 0)
dload_error(dlthis, "Failed to allocate target memory for"
" trampoline");
return ret_val;
}
/*
* Function: priv_h2a
* Description: Helper function to convert a hex value to its ASCII
* representation. Used for trampoline symbol name generation.
*/
static u8 priv_h2a(u8 value)
{
if (value > 0xF)
return 0xFF;
if (value <= 9)
value += 0x30;
else
value += 0x37;
return value;
}
/*
* Function: priv_tramp_sym_gen_name
* Description: Generate a trampoline symbol name (ASCII) using the value
* of the symbol. This places the new name into the user buffer.
* The name is fixed in length and of the form: __$dbTR__xxxxxxxx
* (where "xxxxxxxx" is the hex value.
*/
static void priv_tramp_sym_gen_name(u32 value, char *dst)
{
u32 i;
char *prefix = TRAMP_SYM_PREFIX;
char *dst_local = dst;
u8 tmp;
/* Clear out the destination, including the ending NULL */
for (i = 0; i < (TRAMP_SYM_PREFIX_LEN + TRAMP_SYM_HEX_ASCII_LEN); i++)
*(dst_local + i) = 0;
/* Copy the prefix to start */
for (i = 0; i < strlen(TRAMP_SYM_PREFIX); i++) {
*dst_local = *(prefix + i);
dst_local++;
}
/* Now convert the value passed in to a string equiv of the hex */
for (i = 0; i < sizeof(value); i++) {
#ifndef _BIG_ENDIAN
tmp = *(((u8 *) &value) + (sizeof(value) - 1) - i);
*dst_local = priv_h2a((tmp & 0xF0) >> 4);
dst_local++;
*dst_local = priv_h2a(tmp & 0x0F);
dst_local++;
#else
tmp = *(((u8 *) &value) + i);
*dst_local = priv_h2a((tmp & 0xF0) >> 4);
dst_local++;
*dst_local = priv_h2a(tmp & 0x0F);
dst_local++;
#endif
}
/* NULL terminate */
*dst_local = 0;
}
/*
* Function: priv_tramp_string_create
* Description: Create a new string specific to the trampoline loading and add
* it to the trampoline string list. This list contains the
* trampoline section name and trampoline point symbols.
*/
static struct tramp_string *priv_tramp_string_create(struct dload_state *dlthis,
u32 str_len, char *str)
{
struct tramp_string *new_string = NULL;
u32 i;
/* Create a new string object with the specified size. */
new_string =
(struct tramp_string *)dlthis->mysym->dload_allocate(dlthis->mysym,
(sizeof
(struct
tramp_string)
+ str_len +
1));
if (new_string != NULL) {
/* Clear the string first. This ensures the ending NULL is
* present and the optimizer won't touch it. */
for (i = 0; i < (sizeof(struct tramp_string) + str_len + 1);
i++)
*((u8 *) new_string + i) = 0;
/* Add this string to our virtual table by assigning it the
* next index and pushing it to the tail of the list. */
new_string->index = dlthis->tramp.tramp_string_next_index;
dlthis->tramp.tramp_string_next_index++;
dlthis->tramp.tramp_string_size += str_len + 1;
new_string->next = NULL;
if (dlthis->tramp.string_head == NULL)
dlthis->tramp.string_head = new_string;
else
dlthis->tramp.string_tail->next = new_string;
dlthis->tramp.string_tail = new_string;
/* Copy the string over to the new object */
for (i = 0; i < str_len; i++)
new_string->str[i] = str[i];
}
return new_string;
}
/*
* Function: priv_tramp_string_find
* Description: Walk the trampoline string list and find a match for the
* provided string. If not match is found, NULL is returned.
*/
static struct tramp_string *priv_tramp_string_find(struct dload_state *dlthis,
char *str)
{
struct tramp_string *cur_str = NULL;
struct tramp_string *ret_val = NULL;
u32 i;
u32 str_len = strlen(str);
for (cur_str = dlthis->tramp.string_head;
(ret_val == NULL) && (cur_str != NULL); cur_str = cur_str->next) {
/* If the string lengths aren't equal, don't bother
* comparing */
if (str_len != strlen(cur_str->str))
continue;
/* Walk the strings until one of them ends */
for (i = 0; i < str_len; i++) {
/* If they don't match in the current position then
* break out now, no sense in continuing to look at
* this string. */
if (str[i] != cur_str->str[i])
break;
}
if (i == str_len)
ret_val = cur_str;
}
return ret_val;
}
/*
* Function: priv_string_tbl_finalize
* Description: Flatten the trampoline string list into a table of NULL
* terminated strings. This is the same format of string table
* as used by the COFF/DOFF file.
*/
static int priv_string_tbl_finalize(struct dload_state *dlthis)
{
int ret_val = 0;
struct tramp_string *cur_string;
char *cur_loc;
char *tmp;
/* Allocate enough space for all strings that have been created. The
* table is simply all strings concatenated together will NULL
* endings. */
dlthis->tramp.final_string_table =
(char *)dlthis->mysym->dload_allocate(dlthis->mysym,
dlthis->tramp.
tramp_string_size);
if (dlthis->tramp.final_string_table != NULL) {
/* We got our buffer, walk the list and release the nodes as*
* we go */
cur_loc = dlthis->tramp.final_string_table;
cur_string = dlthis->tramp.string_head;
while (cur_string != NULL) {
/* Move the head/tail pointers */
dlthis->tramp.string_head = cur_string->next;
if (dlthis->tramp.string_tail == cur_string)
dlthis->tramp.string_tail = NULL;
/* Copy the string contents */
for (tmp = cur_string->str;
*tmp != '\0'; tmp++, cur_loc++)
*cur_loc = *tmp;
/* Pick up the NULL termination since it was missed by
* breaking using it to end the above loop. */
*cur_loc = '\0';
cur_loc++;
/* Free the string node, we don't need it any more. */
dlthis->mysym->dload_deallocate(dlthis->mysym,
cur_string);
/* Move our pointer to the next one */
cur_string = dlthis->tramp.string_head;
}
/* Update our return value to success */
ret_val = 1;
} else
dload_error(dlthis, "Failed to allocate trampoline "
"string table");
return ret_val;
}
/*
* Function: priv_tramp_sect_alloc
* Description: Virtually allocate space from the trampoline section. This
* function returns the next offset within the trampoline section
* that is available and moved the next available offset by the
* requested size. NO TARGET ALLOCATION IS DONE AT THIS TIME.
*/
static u32 priv_tramp_sect_alloc(struct dload_state *dlthis, u32 tramp_size)
{
u32 ret_val;
/* If the next available address is 0, this is our first allocation.
* Create a section name string to go into the string table . */
if (dlthis->tramp.tramp_sect_next_addr == 0) {
dload_syms_error(dlthis->mysym, "*** WARNING *** created "
"dynamic TRAMPOLINE section for module %s",
dlthis->str_head);
}
/* Reserve space for the new trampoline */
ret_val = dlthis->tramp.tramp_sect_next_addr;
dlthis->tramp.tramp_sect_next_addr += tramp_size;
return ret_val;
}
/*
* Function: priv_tramp_sym_create
* Description: Allocate and create a new trampoline specific symbol and add
* it to the trampoline symbol list. These symbols will include
* trampoline points as well as the external symbols they
* reference.
*/
static struct tramp_sym *priv_tramp_sym_create(struct dload_state *dlthis,
u32 str_index,
struct local_symbol *tmp_sym)
{
struct tramp_sym *new_sym = NULL;
u32 i;
/* Allocate new space for the symbol in the symbol table. */
new_sym =
(struct tramp_sym *)dlthis->mysym->dload_allocate(dlthis->mysym,
sizeof(struct tramp_sym));
if (new_sym != NULL) {
for (i = 0; i != sizeof(struct tramp_sym); i++)
*((char *)new_sym + i) = 0;
/* Assign this symbol the next symbol index for easier
* reference later during relocation. */
new_sym->index = dlthis->tramp.tramp_sym_next_index;
dlthis->tramp.tramp_sym_next_index++;
/* Populate the symbol information. At this point any
* trampoline symbols will be the offset location, not the
* final. Copy over the symbol info to start, then be sure to
* get the string index from the trampoline string table. */
new_sym->sym_info = *tmp_sym;
new_sym->str_index = str_index;
/* Push the new symbol to the tail of the symbol table list */
new_sym->next = NULL;
if (dlthis->tramp.symbol_head == NULL)
dlthis->tramp.symbol_head = new_sym;
else
dlthis->tramp.symbol_tail->next = new_sym;
dlthis->tramp.symbol_tail = new_sym;
}
return new_sym;
}
/*
* Function: priv_tramp_sym_get
* Description: Search for the symbol with the matching string index (from
* the trampoline string table) and return the trampoline
* symbol object, if found. Otherwise return NULL.
*/
static struct tramp_sym *priv_tramp_sym_get(struct dload_state *dlthis,
u32 string_index)
{
struct tramp_sym *sym_found = NULL;
/* Walk the symbol table list and search vs. the string index */
for (sym_found = dlthis->tramp.symbol_head;
sym_found != NULL; sym_found = sym_found->next) {
if (sym_found->str_index == string_index)
break;
}
return sym_found;
}
/*
* Function: priv_tramp_sym_find
* Description: Search for a trampoline symbol based on the string name of
* the symbol. Return the symbol object, if found, otherwise
* return NULL.
*/
static struct tramp_sym *priv_tramp_sym_find(struct dload_state *dlthis,
char *string)
{
struct tramp_sym *sym_found = NULL;
struct tramp_string *str_found = NULL;
/* First, search for the string, then search for the sym based on the
string index. */
str_found = priv_tramp_string_find(dlthis, string);
if (str_found != NULL)
sym_found = priv_tramp_sym_get(dlthis, str_found->index);
return sym_found;
}
/*
* Function: priv_tramp_sym_finalize
* Description: Allocate a flat symbol table for the trampoline section,
* put each trampoline symbol into the table, adjust the
* symbol value based on the section address on the target and
* free the trampoline symbol list nodes.
*/
static int priv_tramp_sym_finalize(struct dload_state *dlthis)
{
int ret_val = 0;
struct tramp_sym *cur_sym;
struct ldr_section_info *tramp_sect =
&dlthis->ldr_sections[dlthis->allocated_secn_count];
struct local_symbol *new_sym;
/* Allocate a table to hold a flattened version of all symbols
* created. */
dlthis->tramp.final_sym_table =
(struct local_symbol *)dlthis->mysym->dload_allocate(dlthis->mysym,
(sizeof(struct local_symbol) * dlthis->tramp.
tramp_sym_next_index));
if (dlthis->tramp.final_sym_table != NULL) {
/* Walk the list of all symbols, copy it over to the flattened
* table. After it has been copied, the node can be freed as
* it is no longer needed. */
new_sym = dlthis->tramp.final_sym_table;
cur_sym = dlthis->tramp.symbol_head;
while (cur_sym != NULL) {
/* Pop it off the list */
dlthis->tramp.symbol_head = cur_sym->next;
if (cur_sym == dlthis->tramp.symbol_tail)
dlthis->tramp.symbol_tail = NULL;
/* Copy the symbol contents into the flat table */
*new_sym = cur_sym->sym_info;
/* Now finaize the symbol. If it is in the tramp
* section, we need to adjust for the section start.
* If it is external then we don't need to adjust at
* all.
* NOTE: THIS CODE ASSUMES THAT THE TRAMPOLINE IS
* REFERENCED LIKE A CALL TO AN EXTERNAL SO VALUE AND
* DELTA ARE THE SAME. SEE THE FUNCTION dload_symbols
* WHERE DN_UNDEF IS HANDLED FOR MORE REFERENCE. */
if (new_sym->secnn < 0) {
new_sym->value += tramp_sect->load_addr;
new_sym->delta = new_sym->value;
}
/* Let go of the symbol node */
dlthis->mysym->dload_deallocate(dlthis->mysym, cur_sym);
/* Move to the next node */
cur_sym = dlthis->tramp.symbol_head;
new_sym++;
}
ret_val = 1;
} else
dload_error(dlthis, "Failed to alloc trampoline sym table");
return ret_val;
}
/*
* Function: priv_tgt_img_gen
* Description: Allocate storage for and copy the target specific image data
* and fix up its relocations for the new external symbol. If
* a trampoline image packet was successfully created it is added
* to the trampoline list.
*/
static int priv_tgt_img_gen(struct dload_state *dlthis, u32 base,
u32 gen_index, struct tramp_sym *new_ext_sym)
{
struct tramp_img_pkt *new_img_pkt = NULL;
u32 i;
u32 pkt_size = tramp_img_pkt_size_get();
u8 *gen_tbl_entry;
u8 *pkt_data;
struct reloc_record_t *cur_relo;
int ret_val = 0;
/* Allocate a new image packet and set it up. */
new_img_pkt =
(struct tramp_img_pkt *)dlthis->mysym->dload_allocate(dlthis->mysym,
pkt_size);
if (new_img_pkt != NULL) {
/* Save the base, this is where it goes in the section */
new_img_pkt->base = base;
/* Copy over the image data and relos from the target table */
pkt_data = (u8 *) &new_img_pkt->hdr;
gen_tbl_entry = (u8 *) &tramp_gen_info[gen_index];
for (i = 0; i < pkt_size; i++) {
*pkt_data = *gen_tbl_entry;
pkt_data++;
gen_tbl_entry++;
}
/* Update the relocations to point to the external symbol */
cur_relo =
(struct reloc_record_t *)((u8 *) &new_img_pkt->hdr +
new_img_pkt->hdr.relo_offset);
for (i = 0; i < new_img_pkt->hdr.num_relos; i++)
cur_relo[i].SYMNDX = new_ext_sym->index;
/* Add it to the trampoline list. */
new_img_pkt->next = dlthis->tramp.tramp_pkts;
dlthis->tramp.tramp_pkts = new_img_pkt;
ret_val = 1;
}
return ret_val;
}
/*
* Function: priv_pkt_relo
* Description: Take the provided image data and the collection of relocations
* for it and perform the relocations. Note that all relocations
* at this stage are considered SECOND PASS since the original
* image has already been processed in the first pass. This means
* TRAMPOLINES ARE TREATED AS 2ND PASS even though this is really
* the first (and only) relocation that will be performed on them.
*/
static int priv_pkt_relo(struct dload_state *dlthis, tgt_au_t * data,
struct reloc_record_t *rp[], u32 relo_count)
{
int ret_val = 1;
u32 i;
bool tmp;
/* Walk through all of the relos and process them. This function is
* the equivalent of relocate_packet() from cload.c, but specialized
* for trampolines and 2nd phase relocations. */
for (i = 0; i < relo_count; i++)
dload_relocate(dlthis, data, rp[i], &tmp, true);
return ret_val;
}
/*
* Function: priv_tramp_pkt_finalize
* Description: Walk the list of all trampoline packets and finalize them.
* Each trampoline image packet will be relocated now that the
* trampoline section has been allocated on the target. Once
* all of the relocations are done the trampoline image data
* is written into target memory and the trampoline packet
* is freed: it is no longer needed after this point.
*/
static int priv_tramp_pkt_finalize(struct dload_state *dlthis)
{
int ret_val = 1;
struct tramp_img_pkt *cur_pkt = NULL;
struct reloc_record_t *relos[MAX_RELOS_PER_PASS];
u32 relos_done;
u32 i;
struct reloc_record_t *cur_relo;
struct ldr_section_info *sect_info =
&dlthis->ldr_sections[dlthis->allocated_secn_count];
/* Walk the list of trampoline packets and relocate each packet. This
* function is the trampoline equivalent of dload_data() from
* cload.c. */
cur_pkt = dlthis->tramp.tramp_pkts;
while ((ret_val != 0) && (cur_pkt != NULL)) {
/* Remove the pkt from the list */
dlthis->tramp.tramp_pkts = cur_pkt->next;
/* Setup section and image offset information for the relo */
dlthis->image_secn = sect_info;
dlthis->image_offset = cur_pkt->base;
dlthis->delta_runaddr = sect_info->run_addr;
/* Walk through all relos for the packet */
relos_done = 0;
cur_relo = (struct reloc_record_t *)((u8 *) &cur_pkt->hdr +
cur_pkt->hdr.relo_offset);
while (relos_done < cur_pkt->hdr.num_relos) {
#ifdef ENABLE_TRAMP_DEBUG
dload_syms_error(dlthis->mysym,
"===> Trampoline %x branches to %x",
sect_info->run_addr +
dlthis->image_offset,
dlthis->
tramp.final_sym_table[cur_relo->
SYMNDX].value);
#endif
for (i = 0;
((i < MAX_RELOS_PER_PASS) &&
((i + relos_done) < cur_pkt->hdr.num_relos)); i++)
relos[i] = cur_relo + i;
/* Do the actual relo */
ret_val = priv_pkt_relo(dlthis,
(tgt_au_t *) &cur_pkt->payload,
relos, i);
if (ret_val == 0) {
dload_error(dlthis,
"Relocation of trampoline pkt at %x"
" failed", cur_pkt->base +
sect_info->run_addr);
break;
}
relos_done += i;
cur_relo += i;
}
/* Make sure we didn't hit a problem */
if (ret_val != 0) {
/* Relos are done for the packet, write it to the
* target */
ret_val = dlthis->myio->writemem(dlthis->myio,
&cur_pkt->payload,
sect_info->load_addr +
cur_pkt->base,
sect_info,
BYTE_TO_HOST
(cur_pkt->hdr.
tramp_code_size));
if (ret_val == 0) {
dload_error(dlthis,
"Write to " FMT_UI32 " failed",
sect_info->load_addr +
cur_pkt->base);
}
/* Done with the pkt, let it go */
dlthis->mysym->dload_deallocate(dlthis->mysym, cur_pkt);
/* Get the next packet to process */
cur_pkt = dlthis->tramp.tramp_pkts;
}
}
return ret_val;
}
/*
* Function: priv_dup_pkt_finalize
* Description: Walk the list of duplicate image packets and finalize them.
* Each duplicate packet will be relocated again for the
* relocations that previously failed and have been adjusted
* to point at a trampoline. Once all relocations for a packet
* have been done, write the packet into target memory. The
* duplicate packet and its relocation chain are all freed
* after use here as they are no longer needed after this.
*/
static int priv_dup_pkt_finalize(struct dload_state *dlthis)
{
int ret_val = 1;
struct tramp_img_dup_pkt *cur_pkt;
struct tramp_img_dup_relo *cur_relo;
struct reloc_record_t *relos[MAX_RELOS_PER_PASS];
struct doff_scnhdr_t *sect_hdr = NULL;
s32 i;
/* Similar to the trampoline pkt finalize, this function walks each dup
* pkt that was generated and performs all relocations that were
* deferred to a 2nd pass. This is the equivalent of dload_data() from
* cload.c, but does not need the additional reorder and checksum
* processing as it has already been done. */
cur_pkt = dlthis->tramp.dup_pkts;
while ((ret_val != 0) && (cur_pkt != NULL)) {
/* Remove the node from the list, we'll be freeing it
* shortly */
dlthis->tramp.dup_pkts = cur_pkt->next;
/* Setup the section and image offset for relocation */
dlthis->image_secn = &dlthis->ldr_sections[cur_pkt->secnn];
dlthis->image_offset = cur_pkt->offset;
/* In order to get the delta run address, we need to reference
* the original section header. It's a bit ugly, but needed
* for relo. */
i = (s32) (dlthis->image_secn - dlthis->ldr_sections);
sect_hdr = dlthis->sect_hdrs + i;
dlthis->delta_runaddr = sect_hdr->ds_paddr;
/* Walk all relos in the chain and process each. */
cur_relo = cur_pkt->relo_chain;
while (cur_relo != NULL) {
/* Process them a chunk at a time to be efficient */
for (i = 0; (i < MAX_RELOS_PER_PASS)
&& (cur_relo != NULL);
i++, cur_relo = cur_relo->next) {
relos[i] = &cur_relo->relo;
cur_pkt->relo_chain = cur_relo->next;
}
/* Do the actual relo */
ret_val = priv_pkt_relo(dlthis,
cur_pkt->img_pkt.img_data,
relos, i);
if (ret_val == 0) {
dload_error(dlthis,
"Relocation of dup pkt at %x"
" failed", cur_pkt->offset +
dlthis->image_secn->run_addr);
break;
}
/* Release all of these relos, we're done with them */
while (i > 0) {
dlthis->mysym->dload_deallocate(dlthis->mysym,
GET_CONTAINER
(relos[i - 1],
struct tramp_img_dup_relo,
relo));
i--;
}
/* DO NOT ADVANCE cur_relo, IT IS ALREADY READY TO
* GO! */
}
/* Done with all relos. Make sure we didn't have a problem and
* write it out to the target */
if (ret_val != 0) {
ret_val = dlthis->myio->writemem(dlthis->myio,
cur_pkt->img_pkt.
img_data,
dlthis->image_secn->
load_addr +
cur_pkt->offset,
dlthis->image_secn,
BYTE_TO_HOST
(cur_pkt->img_pkt.
packet_size));
if (ret_val == 0) {
dload_error(dlthis,
"Write to " FMT_UI32 " failed",
dlthis->image_secn->load_addr +
cur_pkt->offset);
}
dlthis->mysym->dload_deallocate(dlthis->mysym, cur_pkt);
/* Advance to the next packet */
cur_pkt = dlthis->tramp.dup_pkts;
}
}
return ret_val;
}
/*
* Function: priv_dup_find
* Description: Walk the list of existing duplicate packets and find a
* match based on the section number and image offset. Return
* the duplicate packet if found, otherwise NULL.
*/
static struct tramp_img_dup_pkt *priv_dup_find(struct dload_state *dlthis,
s16 secnn, u32 image_offset)
{
struct tramp_img_dup_pkt *cur_pkt = NULL;
for (cur_pkt = dlthis->tramp.dup_pkts;
cur_pkt != NULL; cur_pkt = cur_pkt->next) {
if ((cur_pkt->secnn == secnn) &&
(cur_pkt->offset == image_offset)) {
/* Found a match, break out */
break;
}
}
return cur_pkt;
}
/*
* Function: priv_img_pkt_dup
* Description: Duplicate the original image packet. If this is the first
* time this image packet has been seen (based on section number
* and image offset), create a new duplicate packet and add it
* to the dup packet list. If not, just get the existing one and
* update it with the current packet contents (since relocation
* on the packet is still ongoing in first pass.) Create a
* duplicate of the provided relocation, but update it to point
* to the new trampoline symbol. Add the new relocation dup to
* the dup packet's relo chain for 2nd pass relocation later.
*/
static int priv_img_pkt_dup(struct dload_state *dlthis,
s16 secnn, u32 image_offset,
struct image_packet_t *ipacket,
struct reloc_record_t *rp,
struct tramp_sym *new_tramp_sym)
{
struct tramp_img_dup_pkt *dup_pkt = NULL;
u32 new_dup_size;
s32 i;
int ret_val = 0;
struct tramp_img_dup_relo *dup_relo = NULL;
/* Determinne if this image packet is already being tracked in the
dup list for other trampolines. */
dup_pkt = priv_dup_find(dlthis, secnn, image_offset);
if (dup_pkt == NULL) {
/* This image packet does not exist in our tracking, so create
* a new one and add it to the head of the list. */
new_dup_size = sizeof(struct tramp_img_dup_pkt) +
ipacket->packet_size;
dup_pkt = (struct tramp_img_dup_pkt *)
dlthis->mysym->dload_allocate(dlthis->mysym, new_dup_size);
if (dup_pkt != NULL) {
/* Save off the section and offset information */
dup_pkt->secnn = secnn;
dup_pkt->offset = image_offset;
dup_pkt->relo_chain = NULL;
/* Copy the original packet content */
dup_pkt->img_pkt = *ipacket;
dup_pkt->img_pkt.img_data = (u8 *) (dup_pkt + 1);
for (i = 0; i < ipacket->packet_size; i++)
*(dup_pkt->img_pkt.img_data + i) =
*(ipacket->img_data + i);
/* Add the packet to the dup list */
dup_pkt->next = dlthis->tramp.dup_pkts;
dlthis->tramp.dup_pkts = dup_pkt;
} else
dload_error(dlthis, "Failed to create dup packet!");
} else {
/* The image packet contents could have changed since
* trampoline detection happens during relocation of the image
* packets. So, we need to update the image packet contents
* before adding relo information. */
for (i = 0; i < dup_pkt->img_pkt.packet_size; i++)
*(dup_pkt->img_pkt.img_data + i) =
*(ipacket->img_data + i);
}
/* Since the previous code may have allocated a new dup packet for us,
double check that we actually have one. */
if (dup_pkt != NULL) {
/* Allocate a new node for the relo chain. Each image packet
* can potentially have multiple relocations that cause a
* trampoline to be generated. So, we keep them in a chain,
* order is not important. */
dup_relo = dlthis->mysym->dload_allocate(dlthis->mysym,
sizeof(struct tramp_img_dup_relo));
if (dup_relo != NULL) {
/* Copy the relo contents, adjust for the new
* trampoline and add it to the list. */
dup_relo->relo = *rp;
dup_relo->relo.SYMNDX = new_tramp_sym->index;
dup_relo->next = dup_pkt->relo_chain;
dup_pkt->relo_chain = dup_relo;
/* That's it, we're done. Make sure we update our
* return value to be success since everything finished
* ok */
ret_val = 1;
} else
dload_error(dlthis, "Unable to alloc dup relo");
}
return ret_val;
}
/*
* Function: dload_tramp_avail
* Description: Check to see if the target supports a trampoline for this type
* of relocation. Return true if it does, otherwise false.
*/
bool dload_tramp_avail(struct dload_state *dlthis, struct reloc_record_t *rp)
{
bool ret_val = false;
u16 map_index;
u16 gen_index;
/* Check type hash vs. target tramp table */
map_index = HASH_FUNC(rp->TYPE);
gen_index = tramp_map[map_index];
if (gen_index != TRAMP_NO_GEN_AVAIL)
ret_val = true;
return ret_val;
}
/*
* Function: dload_tramp_generate
* Description: Create a new trampoline for the provided image packet and
* relocation causing problems. This will create the trampoline
* as well as duplicate/update the image packet and relocation
* causing the problem, which will be relo'd again during
* finalization.
*/
int dload_tramp_generate(struct dload_state *dlthis, s16 secnn,
u32 image_offset, struct image_packet_t *ipacket,
struct reloc_record_t *rp)
{
u16 map_index;
u16 gen_index;
int ret_val = 1;
char tramp_sym_str[TRAMP_SYM_PREFIX_LEN + TRAMP_SYM_HEX_ASCII_LEN];
struct local_symbol *ref_sym;
struct tramp_sym *new_tramp_sym;
struct tramp_sym *new_ext_sym;
struct tramp_string *new_tramp_str;
u32 new_tramp_base;
struct local_symbol tmp_sym;
struct local_symbol ext_tmp_sym;
/* Hash the relo type to get our generator information */
map_index = HASH_FUNC(rp->TYPE);
gen_index = tramp_map[map_index];
if (gen_index != TRAMP_NO_GEN_AVAIL) {
/* If this is the first trampoline, create the section name in
* our string table for debug help later. */
if (dlthis->tramp.string_head == NULL) {
priv_tramp_string_create(dlthis,
strlen(TRAMP_SECT_NAME),
TRAMP_SECT_NAME);
}
#ifdef ENABLE_TRAMP_DEBUG
dload_syms_error(dlthis->mysym,
"Trampoline at img loc %x, references %x",
dlthis->ldr_sections[secnn].run_addr +
image_offset + rp->vaddr,
dlthis->local_symtab[rp->SYMNDX].value);
#endif
/* Generate the trampoline string, check if already defined.
* If the relo symbol index is -1, it means we need the section
* info for relo later. To do this we'll dummy up a symbol
* with the section delta and run addresses. */
if (rp->SYMNDX == -1) {
ext_tmp_sym.value =
dlthis->ldr_sections[secnn].run_addr;
ext_tmp_sym.delta = dlthis->sect_hdrs[secnn].ds_paddr;
ref_sym = &ext_tmp_sym;
} else
ref_sym = &(dlthis->local_symtab[rp->SYMNDX]);
priv_tramp_sym_gen_name(ref_sym->value, tramp_sym_str);
new_tramp_sym = priv_tramp_sym_find(dlthis, tramp_sym_str);
if (new_tramp_sym == NULL) {
/* If tramp string not defined, create it and a new
* string, and symbol for it as well as the original
* symbol which caused the trampoline. */
new_tramp_str = priv_tramp_string_create(dlthis,
strlen
(tramp_sym_str),
tramp_sym_str);
if (new_tramp_str == NULL) {
dload_error(dlthis, "Failed to create new "
"trampoline string\n");
ret_val = 0;
} else {
/* Allocate tramp section space for the new
* tramp from the target */
new_tramp_base = priv_tramp_sect_alloc(dlthis,
tramp_size_get());
/* We have a string, create the new symbol and
* duplicate the external. */
tmp_sym.value = new_tramp_base;
tmp_sym.delta = 0;
tmp_sym.secnn = -1;
tmp_sym.sclass = 0;
new_tramp_sym = priv_tramp_sym_create(dlthis,
new_tramp_str->
index,
&tmp_sym);
new_ext_sym = priv_tramp_sym_create(dlthis, -1,
ref_sym);
if ((new_tramp_sym != NULL) &&
(new_ext_sym != NULL)) {
/* Call the image generator to get the
* new image data and fix up its
* relocations for the external
* symbol. */
ret_val = priv_tgt_img_gen(dlthis,
new_tramp_base,
gen_index,
new_ext_sym);
/* Add generated image data to tramp
* image list */
if (ret_val != 1) {
dload_error(dlthis, "Failed to "
"create img pkt for"
" trampoline\n");
}
} else {
dload_error(dlthis, "Failed to create "
"new tramp syms "
"(%8.8X, %8.8X)\n",
new_tramp_sym, new_ext_sym);
ret_val = 0;
}
}
}
/* Duplicate the image data and relo record that caused the
* tramp, including update the relo data to point to the tramp
* symbol. */
if (ret_val == 1) {
ret_val = priv_img_pkt_dup(dlthis, secnn, image_offset,
ipacket, rp, new_tramp_sym);
if (ret_val != 1) {
dload_error(dlthis, "Failed to create dup of "
"original img pkt\n");
}
}
}
return ret_val;
}
/*
* Function: dload_tramp_pkt_update
* Description: Update the duplicate copy of this image packet, which the
* trampoline layer is already tracking. This is call is critical
* to make if trampolines were generated anywhere within the
* packet and first pass relo continued on the remainder. The
* trampoline layer needs the updates image data so when 2nd
* pass relo is done during finalize the image packet can be
* written to the target since all relo is done.
*/
int dload_tramp_pkt_udpate(struct dload_state *dlthis, s16 secnn,
u32 image_offset, struct image_packet_t *ipacket)
{
struct tramp_img_dup_pkt *dup_pkt = NULL;
s32 i;
int ret_val = 0;
/* Find the image packet in question, the caller needs us to update it
since a trampoline was previously generated. */
dup_pkt = priv_dup_find(dlthis, secnn, image_offset);
if (dup_pkt != NULL) {
for (i = 0; i < dup_pkt->img_pkt.packet_size; i++)
*(dup_pkt->img_pkt.img_data + i) =
*(ipacket->img_data + i);
ret_val = 1;
} else {
dload_error(dlthis,
"Unable to find existing DUP pkt for %x, offset %x",
secnn, image_offset);
}
return ret_val;
}
/*
* Function: dload_tramp_finalize
* Description: If any trampolines were created, finalize everything on the
* target by allocating the trampoline section on the target,
* finalizing the trampoline symbols, finalizing the trampoline
* packets (write the new section to target memory) and finalize
* the duplicate packets by doing 2nd pass relo over them.
*/
int dload_tramp_finalize(struct dload_state *dlthis)
{
int ret_val = 1;
if (dlthis->tramp.tramp_sect_next_addr != 0) {
/* Finalize strings into a flat table. This is needed so it
* can be added to the debug string table later. */
ret_val = priv_string_tbl_finalize(dlthis);
/* Do target allocation for section BEFORE finalizing
* symbols. */
if (ret_val != 0)
ret_val = priv_tramp_sect_tgt_alloc(dlthis);
/* Finalize symbols with their correct target information and
* flatten */
if (ret_val != 0)
ret_val = priv_tramp_sym_finalize(dlthis);
/* Finalize all trampoline packets. This performs the
* relocation on the packets as well as writing them to target
* memory. */
if (ret_val != 0)
ret_val = priv_tramp_pkt_finalize(dlthis);
/* Perform a 2nd pass relocation on the dup list. */
if (ret_val != 0)
ret_val = priv_dup_pkt_finalize(dlthis);
}
return ret_val;
}
/*
* Function: dload_tramp_cleanup
* Description: Release all temporary resources used in the trampoline layer.
* Note that the target memory which may have been allocated and
* written to store the trampolines is NOT RELEASED HERE since it
* is potentially still in use. It is automatically released
* when the module is unloaded.
*/
void dload_tramp_cleanup(struct dload_state *dlthis)
{
struct tramp_info *tramp = &dlthis->tramp;
struct tramp_sym *cur_sym;
struct tramp_string *cur_string;
struct tramp_img_pkt *cur_tramp_pkt;
struct tramp_img_dup_pkt *cur_dup_pkt;
struct tramp_img_dup_relo *cur_dup_relo;
/* If there were no tramps generated, just return */
if (tramp->tramp_sect_next_addr == 0)
return;
/* Destroy all tramp information */
for (cur_sym = tramp->symbol_head;
cur_sym != NULL; cur_sym = tramp->symbol_head) {
tramp->symbol_head = cur_sym->next;
if (tramp->symbol_tail == cur_sym)
tramp->symbol_tail = NULL;
dlthis->mysym->dload_deallocate(dlthis->mysym, cur_sym);
}
if (tramp->final_sym_table != NULL)
dlthis->mysym->dload_deallocate(dlthis->mysym,
tramp->final_sym_table);
for (cur_string = tramp->string_head;
cur_string != NULL; cur_string = tramp->string_head) {
tramp->string_head = cur_string->next;
if (tramp->string_tail == cur_string)
tramp->string_tail = NULL;
dlthis->mysym->dload_deallocate(dlthis->mysym, cur_string);
}
if (tramp->final_string_table != NULL)
dlthis->mysym->dload_deallocate(dlthis->mysym,
tramp->final_string_table);
for (cur_tramp_pkt = tramp->tramp_pkts;
cur_tramp_pkt != NULL; cur_tramp_pkt = tramp->tramp_pkts) {
tramp->tramp_pkts = cur_tramp_pkt->next;
dlthis->mysym->dload_deallocate(dlthis->mysym, cur_tramp_pkt);
}
for (cur_dup_pkt = tramp->dup_pkts;
cur_dup_pkt != NULL; cur_dup_pkt = tramp->dup_pkts) {
tramp->dup_pkts = cur_dup_pkt->next;
for (cur_dup_relo = cur_dup_pkt->relo_chain;
cur_dup_relo != NULL;
cur_dup_relo = cur_dup_pkt->relo_chain) {
cur_dup_pkt->relo_chain = cur_dup_relo->next;
dlthis->mysym->dload_deallocate(dlthis->mysym,
cur_dup_relo);
}
dlthis->mysym->dload_deallocate(dlthis->mysym, cur_dup_pkt);
}
}
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