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#include <stdio.h>
#include <string.h>
#include <strings.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdarg.h>
#include <fcntl.h>
#include <unistd.h>
#include <sys/ioctl.h>
#include <sys/mman.h>
#include <arpa/inet.h>
#include <errno.h>
#include <assert.h>
#include <alloca.h>
#include "pci.h"
#include "bank.h"
#include "tools.h"
#include "error.h"
#include "property.h"
#include "views/enum.h"
int pcilib_add_registers(pcilib_t *ctx, pcilib_model_modification_flags_t flags, size_t n, const pcilib_register_description_t *registers, pcilib_register_t *ids) {
// DS: Overrride existing registers
// Registers identified by addr + offset + size + type or name
int err;
size_t size;
pcilib_register_t i;
pcilib_register_description_t *regs;
pcilib_register_context_t *reg_ctx;
pcilib_register_bank_t bank = PCILIB_REGISTER_BANK_INVALID;
pcilib_register_bank_addr_t bank_addr = (pcilib_register_bank_addr_t)-1;
pcilib_register_bank_t *banks;
if (!n) {
for (n = 0; registers[n].bits; n++);
}
if ((ctx->num_reg + n + 1) > ctx->alloc_reg) {
for (size = ctx->alloc_reg; size < 2 * (n + ctx->num_reg + 1); size<<=1);
regs = (pcilib_register_description_t*)realloc(ctx->registers, size * sizeof(pcilib_register_description_t));
if (!regs) return PCILIB_ERROR_MEMORY;
ctx->registers = regs;
ctx->model_info.registers = regs;
reg_ctx = (pcilib_register_context_t*)realloc(ctx->registers, size * sizeof(pcilib_register_context_t));
if (!reg_ctx) return PCILIB_ERROR_MEMORY;
memset(reg_ctx + ctx->alloc_reg, 0, (size - ctx->alloc_reg) * sizeof(pcilib_register_context_t));
if (ctx->register_ctx != reg_ctx) {
// We need to recreate cache if context is moved...
HASH_CLEAR(hh, ctx->reg_hash);
for (i = 0; i < ctx->num_reg; i++) {
pcilib_register_context_t *cur = &ctx->register_ctx[ctx->num_reg + i];
HASH_ADD_KEYPTR(hh, ctx->reg_hash, cur->name, strlen(cur->name), cur);
}
}
ctx->register_ctx = reg_ctx;
ctx->alloc_reg = size;
}
banks = (pcilib_register_bank_t*)alloca(n * sizeof(pcilib_register_bank_t));
if (!banks) return PCILIB_ERROR_MEMORY;
for (i = 0; i < n; i++) {
if (registers[i].bank != bank_addr) {
bank_addr = registers[i].bank;
bank = pcilib_find_register_bank_by_addr(ctx, bank_addr);
if (bank == PCILIB_REGISTER_BANK_INVALID) {
// We need to add a bank first in this case
if (registers[i].type == PCILIB_REGISTER_PROPERTY) {
err = pcilib_add_register_banks(ctx, 0, 1, &pcilib_property_register_bank, &bank);
} else {
err = PCILIB_ERROR_INVALID_BANK;
}
if (err) {
pcilib_error("Invalid bank address (0x%lx) is specified for register %s", bank_addr, registers[i].name);
return err;
}
}
}
/*
// No hash so far, will iterate.
pcilib_register_t reg = pcilib_find_register(ctx, ctx->banks[bank].name, registers[i].name);
if (reg != PCILIB_REGISTER_INVALID) {
pcilib_error("Register %s is already defined in the model", registers[i].name);
return PCILIB_ERROR_EXIST;
}
*/
banks[i] = bank;
}
err = pcilib_add_properties_from_registers(ctx, n, banks, registers);
if (err) return err;
for (i = 0; i < n; i++) {
pcilib_register_context_t *cur = &ctx->register_ctx[ctx->num_reg + i];
cur->reg = ctx->num_reg + i;
cur->name = registers[i].name;
cur->bank = banks[i];
HASH_ADD_KEYPTR(hh, ctx->reg_hash, cur->name, strlen(cur->name), cur);
}
memcpy(ctx->registers + ctx->num_reg, registers, n * sizeof(pcilib_register_description_t));
memset(ctx->registers + ctx->num_reg + n, 0, sizeof(pcilib_register_description_t));
if (ids) {
size_t i;
for (i = 0; i < n; i++)
ids[i] = ctx->num_reg + i;
}
ctx->num_reg += n;
return 0;
}
void pcilib_clean_registers(pcilib_t *ctx, pcilib_register_t start) {
pcilib_register_t reg;
pcilib_register_context_t *reg_ctx, *tmp;
if (start) {
HASH_ITER(hh, ctx->reg_hash, reg_ctx, tmp) {
if (reg_ctx->reg >= start) {
HASH_DEL(ctx->reg_hash, reg_ctx);
}
}
} else {
HASH_CLEAR(hh, ctx->reg_hash);
}
for (reg = start; reg < ctx->num_reg; reg++) {
if (ctx->register_ctx[reg].views)
free(ctx->register_ctx[reg].views);
}
if (ctx->registers)
memset(&ctx->registers[start], 0, sizeof(pcilib_register_description_t));
if (ctx->register_ctx)
memset(&ctx->register_ctx[start], 0, (ctx->alloc_reg - start) * sizeof(pcilib_register_context_t));
ctx->num_reg = start;
}
static int pcilib_read_register_space_internal(pcilib_t *ctx, pcilib_register_bank_t bank, pcilib_register_addr_t addr, size_t n, pcilib_register_size_t offset, pcilib_register_size_t bits, pcilib_register_value_t *buf) {
int err;
size_t i;
size_t space_size;
pcilib_register_bank_context_t *bctx = ctx->bank_ctx[bank];
const pcilib_register_protocol_api_description_t *bapi = bctx->api;
const pcilib_register_bank_description_t *b = bctx->bank;
int access = b->access / 8;
assert(bits < 8 * sizeof(pcilib_register_value_t));
if (!bapi->read) {
pcilib_error("Used register protocol does not define a way to read register value");
return PCILIB_ERROR_NOTSUPPORTED;
}
if (b->protocol == PCILIB_REGISTER_PROTOCOL_PROPERTY) space_size = ctx->num_views * access;
else space_size = b->size;
if (((addr + n * access) > space_size)||(((addr + n * access) == space_size)&&(bits))) {
if ((b->format)&&(strchr(b->format, 'x')))
pcilib_error("Accessing register (%u regs at addr 0x%x) out of register space (%u %u-bit registers total)", bits?(n+1):n, addr, space_size / access, access * 8);
else
pcilib_error("Accessing register (%u regs at addr %u) out of register space (%u %u-bit registers total)", bits?(n+1):n, addr, space_size / access, access * 8);
return PCILIB_ERROR_OUTOFRANGE;
}
for (i = 0; i < n; i++) {
err = bapi->read(ctx, bctx, addr + i * access, buf + i);
if (err) break;
}
if ((bits > 0)&&(!err)) {
pcilib_register_value_t val = 0;
err = bapi->read(ctx, bctx, addr + n * access, &val);
val = (val >> offset)&BIT_MASK(bits);
memcpy(buf + n, &val, sizeof(pcilib_register_value_t));
}
return err;
}
int pcilib_read_register_space(pcilib_t *ctx, const char *bank, pcilib_register_addr_t addr, size_t n, pcilib_register_value_t *buf) {
pcilib_register_bank_t bank_id = pcilib_find_register_bank(ctx, bank);
if (bank_id == PCILIB_REGISTER_BANK_INVALID) {
if (bank) pcilib_error("Invalid register bank is specified (%s)", bank);
else pcilib_error("Register bank should be specified");
return PCILIB_ERROR_INVALID_BANK;
}
return pcilib_read_register_space_internal(ctx, bank_id, addr, n, 0, 0, buf);
}
int pcilib_read_register_by_id(pcilib_t *ctx, pcilib_register_t reg, pcilib_register_value_t *value) {
int err;
size_t i, n;
pcilib_register_size_t bits;
pcilib_register_value_t res;
pcilib_register_bank_t bank;
const pcilib_register_description_t *r;
const pcilib_register_bank_description_t *b;
const pcilib_model_description_t *model_info = pcilib_get_model_description(ctx);
r = model_info->registers + reg;
bank = pcilib_find_register_bank_by_addr(ctx, r->bank);
if (bank == PCILIB_REGISTER_BANK_INVALID) return PCILIB_ERROR_INVALID_BANK;
b = model_info->banks + bank;
n = r->bits / b->access;
bits = r->bits % b->access;
pcilib_register_value_t buf[n + 1];
err = pcilib_read_register_space_internal(ctx, bank, r->addr, n, r->offset, bits, buf);
if ((b->endianess == PCILIB_BIG_ENDIAN)||((b->endianess == PCILIB_HOST_ENDIAN)&&(ntohs(1) == 1))) {
pcilib_error("Big-endian byte order support is not implemented");
return PCILIB_ERROR_NOTSUPPORTED;
} else {
res = 0;
if (bits) ++n;
for (i = 0; i < n; i++) {
res |= buf[i] << (i * b->access);
}
}
*value = res;
return err;
}
int pcilib_read_register(pcilib_t *ctx, const char *bank, const char *regname, pcilib_register_value_t *value) {
int reg;
reg = pcilib_find_register(ctx, bank, regname);
if (reg == PCILIB_REGISTER_INVALID) {
pcilib_error("Register (%s) is not found", regname);
return PCILIB_ERROR_NOTFOUND;
}
return pcilib_read_register_by_id(ctx, reg, value);
}
static int pcilib_write_register_space_internal(pcilib_t *ctx, pcilib_register_bank_t bank, pcilib_register_addr_t addr, size_t n, pcilib_register_size_t offset, pcilib_register_size_t bits, pcilib_register_value_t rwmask, const pcilib_register_value_t *buf) {
int err;
size_t i;
size_t space_size;
pcilib_register_bank_context_t *bctx = ctx->bank_ctx[bank];
const pcilib_register_protocol_api_description_t *bapi = bctx->api;
const pcilib_register_bank_description_t *b = bctx->bank;
int access = b->access / 8;
assert(bits < 8 * sizeof(pcilib_register_value_t));
if (!bapi->write) {
pcilib_error("Used register protocol does not define a way to write value into the register");
return PCILIB_ERROR_NOTSUPPORTED;
}
if (b->protocol == PCILIB_REGISTER_PROTOCOL_PROPERTY) space_size = ctx->num_views * access;
else space_size = b->size;
if (((addr + n * access) > space_size)||(((addr + n * access) == space_size)&&(bits))) {
if ((b->format)&&(strchr(b->format, 'x')))
pcilib_error("Accessing register (%u regs at addr 0x%x) out of register space (%u %u-bit registers total)", bits?(n+1):n, addr, space_size / access, access * 8);
else
pcilib_error("Accessing register (%u regs at addr %u) out of register space (%u %u-bit registers total)", bits?(n+1):n, addr, space_size / access, access * 8);
return PCILIB_ERROR_OUTOFRANGE;
}
for (i = 0; i < n; i++) {
err = bapi->write(ctx, bctx, addr + i * access, buf[i]);
if (err) break;
}
if ((bits > 0)&&(!err)) {
pcilib_register_value_t val = (buf[n]&BIT_MASK(bits))<<offset;
pcilib_register_value_t mask = BIT_MASK(bits)<<offset;
if (~mask&rwmask) {
pcilib_register_value_t rval;
if (!bapi->read) {
pcilib_error("Used register protocol does not define a way to read register. Therefore, it is only possible to write a full bank word, not partial as required by the accessed register");
return PCILIB_ERROR_NOTSUPPORTED;
}
err = bapi->read(ctx, bctx, addr + n * access, &rval);
if (err) return err;
val |= (rval & rwmask & ~mask);
}
err = bapi->write(ctx, bctx, addr + n * access, val);
}
return err;
}
int pcilib_write_register_space(pcilib_t *ctx, const char *bank, pcilib_register_addr_t addr, size_t n, const pcilib_register_value_t *buf) {
pcilib_register_bank_t bank_id = pcilib_find_register_bank(ctx, bank);
if (bank_id == PCILIB_REGISTER_BANK_INVALID) {
if (bank) pcilib_error("Invalid register bank is specified (%s)", bank);
else pcilib_error("Register bank should be specified");
return PCILIB_ERROR_INVALID_BANK;
}
return pcilib_write_register_space_internal(ctx, bank_id, addr, n, 0, 0, 0, buf);
}
int pcilib_write_register_by_id(pcilib_t *ctx, pcilib_register_t reg, pcilib_register_value_t value) {
int err;
size_t i, n;
pcilib_register_size_t bits;
pcilib_register_bank_t bank;
pcilib_register_value_t res;
const pcilib_register_description_t *r;
const pcilib_register_bank_description_t *b;
const pcilib_model_description_t *model_info = pcilib_get_model_description(ctx);
r = model_info->registers + reg;
bank = pcilib_find_register_bank_by_addr(ctx, r->bank);
if (bank == PCILIB_REGISTER_BANK_INVALID) return PCILIB_ERROR_INVALID_BANK;
b = model_info->banks + bank;
n = r->bits / b->access;
bits = r->bits % b->access;
pcilib_register_value_t buf[n + 1];
memset(buf, 0, (n + 1) * sizeof(pcilib_register_value_t));
if ((b->endianess == PCILIB_BIG_ENDIAN)||((b->endianess == PCILIB_HOST_ENDIAN)&&(ntohs(1) == 1))) {
pcilib_error("Big-endian byte order support is not implemented");
return PCILIB_ERROR_NOTSUPPORTED;
} else {
if (b->access == sizeof(pcilib_register_value_t) * 8) {
buf[0] = value;
} else {
for (i = 0, res = value; (res > 0)&&(i <= n); ++i) {
buf[i] = res & BIT_MASK(b->access);
res >>= b->access;
}
if (res) {
pcilib_error("Value %i is too big to fit in the register %s", value, r->name);
return PCILIB_ERROR_OUTOFRANGE;
}
}
}
err = pcilib_write_register_space_internal(ctx, bank, r->addr, n, r->offset, bits, r->rwmask, buf);
return err;
}
int pcilib_write_register(pcilib_t *ctx, const char *bank, const char *regname, pcilib_register_value_t value) {
int reg;
reg = pcilib_find_register(ctx, bank, regname);
if (reg == PCILIB_REGISTER_INVALID) {
pcilib_error("Register (%s) is not found", regname);
return PCILIB_ERROR_NOTFOUND;
}
return pcilib_write_register_by_id(ctx, reg, value);
}
int pcilib_get_register_attr_by_id(pcilib_t *ctx, pcilib_register_t reg, const char *attr, pcilib_value_t *val) {
int err;
assert(reg < ctx->num_reg);
err = pcilib_get_xml_attr(ctx, ctx->register_ctx[reg].xml, attr, val);
/*
// Shall we return from parrent register if not found?
if ((err == PCILIB_ERROR_NOTFOUND)&&(ctx->registers[reg].type == PCILIB_REGISTER_TYPE_BITS)) {
pcilib_register_t parent = pcilib_find_standard_register_by_addr(ctx, ctx->registers[reg].addr);
err = pcilib_get_xml_attr(ctx, ctx->register_ctx[parent].xml, attr, val);
}
*/
return err;
}
int pcilib_get_register_attr(pcilib_t *ctx, const char *bank, const char *regname, const char *attr, pcilib_value_t *val) {
pcilib_register_t reg;
reg = pcilib_find_register(ctx, bank, regname);
if (reg == PCILIB_REGISTER_INVALID) {
pcilib_error("Register (%s) is not found", regname);
return PCILIB_ERROR_NOTFOUND;
}
return pcilib_get_register_attr_by_id(ctx, reg, attr, val);
}
pcilib_register_info_t *pcilib_get_register_info(pcilib_t *ctx, const char *req_bank_name, const char *req_reg_name, pcilib_list_flags_t flags) {
pcilib_register_t i, from, to, pos = 0;
pcilib_register_info_t *info;
pcilib_register_bank_t bank;
pcilib_register_bank_addr_t bank_addr;
const char *bank_name;
info = (pcilib_register_info_t*)malloc((ctx->num_reg + 1) * sizeof(pcilib_register_info_t));
if (!info) return NULL;
if (req_bank_name) {
bank = pcilib_find_register_bank_by_name(ctx, req_bank_name);
if (bank == PCILIB_REGISTER_BANK_INVALID) {
pcilib_error("The specified bank (%s) is not found", req_bank_name);
return NULL;
}
bank_addr = ctx->banks[bank].addr;
bank_name = req_bank_name;
} else {
bank_addr = PCILIB_REGISTER_BANK_INVALID;
bank_name = NULL;
}
if (req_reg_name) {
pcilib_register_t reg = pcilib_find_register(ctx, req_bank_name, req_reg_name);
if (reg == PCILIB_REGISTER_INVALID) {
pcilib_error("The specified register (%s) is not found", req_reg_name);
return NULL;
}
from = reg;
to = reg + 1;
} else {
from = 0;
to = ctx->num_reg;
}
for (i = from; i < to; i++) {
const pcilib_register_value_range_t *range = &ctx->register_ctx[i].range;
const pcilib_register_value_name_t *names = NULL;
if (req_bank_name) {
if (ctx->registers[i].bank != bank_addr) continue;
} else {
if (ctx->registers[i].bank != bank_addr) {
bank_addr = ctx->registers[i].bank;
bank = pcilib_find_register_bank_by_addr(ctx, bank_addr);
if (bank == PCILIB_REGISTER_BANK_INVALID) bank_name = NULL;
else bank_name = ctx->banks[bank].name;
}
}
if (ctx->registers[i].views) {
int j;
for (j = 0; ctx->registers[i].views[j].view; j++) {
pcilib_view_t view = pcilib_find_view_by_name(ctx, ctx->registers[i].views[j].view);
if ((view != PCILIB_VIEW_INVALID)&&((ctx->views[view]->api == &pcilib_enum_view_xml_api)||(ctx->views[view]->api == &pcilib_enum_view_static_api)))
names = ((pcilib_enum_view_description_t*)(ctx->views[view]))->names;
}
}
if (range->min == range->max)
range = NULL;
info[pos++] = (pcilib_register_info_t){
.id = i,
.name = ctx->registers[i].name,
.description = ctx->registers[i].description,
.bank = bank_name,
.mode = ctx->registers[i].mode,
.defvalue = ctx->registers[i].defvalue,
.range = range,
.values = names
};
}
memset(&info[pos], 0, sizeof(pcilib_register_info_t));
return info;
}
pcilib_register_info_t *pcilib_get_register_list(pcilib_t *ctx, const char *req_bank_name, pcilib_list_flags_t flags) {
return pcilib_get_register_info(ctx, req_bank_name, NULL, flags);
}
void pcilib_free_register_info(pcilib_t *ctx, pcilib_register_info_t *info) {
if (info)
free(info);
}
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