Gitiles
Code Review Sign In
gerrit.openfyde.cn / chromium.googlesource.com / chromiumos / third_party / cbootimage / refs/heads/0.11.257.B90 / . / parse.c
blob: 49d7b4a193e8cbdef3fcecb88a6bbad41e55b9cd [file] [log] [blame]
/**
* Copyright (c) 2011 NVIDIA Corporation. All rights reserved.
*
* See file CREDITS for list of people who contributed to this
* project.
*
* 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
*/
/*
* parse.c - Parsing support for the cbootimage tool
*/
/*
* TODO / Notes
* - Add doxygen commentary
* - Do we have endian issues to deal with?
* - Add support for device configuration data
* - Add support for bad blocks
* - Add support for different allocation modes/strategies
* - Add support for multiple BCTs in journal block
* - Add support for other missing features.
*/
#include "parse.h"
#include "cbootimage.h"
#include "data_layout.h"
#include "crypto.h"
#include "set.h"
/*
* Function prototypes
*
* ParseXXX() parses XXX in the input
* SetXXX() sets state based on the parsing results but does not perform
* any parsing of its own
* A ParseXXX() function may call other parse functions and set functions.
* A SetXXX() function may not call any parseing functions.
*/
static char *parse_u32(char *statement, u_int32_t *val);
static char *parse_u8(char *statement, u_int32_t *val);
static char *parse_filename(char *statement, char *name, int chars_remaining);
static char *parse_enum(build_image_context *context,
char *statement,
enum_item *table,
u_int32_t *val);
static char
*parse_field_name(char *rest, field_item *field_table, field_item **field);
static char
*parse_field_value(build_image_context *context,
char *rest,
field_item *field,
u_int32_t *value);
static int
parse_array(build_image_context *context, parse_token token, char *rest);
static int
parse_bootloader(build_image_context *context, parse_token token, char *rest);
static int
parse_value_u32(build_image_context *context, parse_token token, char *rest);
static int
parse_bct_file(build_image_context *context, parse_token token, char *rest);
static int
parse_addon(build_image_context *context, parse_token token, char *rest);
static char *parse_string(char *statement, char *uname, int chars_remaining);
static char
*parse_end_state(char *statement, char *uname, int chars_remaining);
static int
parse_dev_param(build_image_context *context, parse_token token, char *rest);
static int
parse_sdram_param(build_image_context *context, parse_token token, char *rest);
static int process_statement(build_image_context *context, char *statement);
static enum_item s_devtype_table[] =
{
{ "NvBootDevType_Sdmmc", nvbct_lib_id_dev_type_sdmmc },
{ "NvBootDevType_Spi", nvbct_lib_id_dev_type_spi },
{ "NvBootDevType_Nand", nvbct_lib_id_dev_type_nand },
{ "Sdmmc", nvbct_lib_id_dev_type_sdmmc },
{ "Spi", nvbct_lib_id_dev_type_spi },
{ "Nand", nvbct_lib_id_dev_type_nand },
{ NULL, 0 }
};
static enum_item s_sdmmc_data_width_table[] =
{
{
"NvBootSdmmcDataWidth_4Bit",
nvbct_lib_id_sdmmc_data_width_4bit
},
{
"NvBootSdmmcDataWidth_8Bit",
nvbct_lib_id_sdmmc_data_width_8bit
},
{ "4Bit", nvbct_lib_id_sdmmc_data_width_4bit },
{ "8Bit", nvbct_lib_id_sdmmc_data_width_8bit },
{ NULL, 0 }
};
static enum_item s_spi_clock_source_table[] =
{
{
"NvBootSpiClockSource_PllPOut0",
nvbct_lib_id_spi_clock_source_pllp_out0
},
{
"NvBootSpiClockSource_PllCOut0",
nvbct_lib_id_spi_clock_source_pllc_out0
},
{
"NvBootSpiClockSource_PllMOut0",
nvbct_lib_id_spi_clock_source_pllm_out0
},
{
"NvBootSpiClockSource_ClockM",
nvbct_lib_id_spi_clock_source_clockm
},
{ "ClockSource_PllPOut0", nvbct_lib_id_spi_clock_source_pllp_out0 },
{ "ClockSource_PllCOut0", nvbct_lib_id_spi_clock_source_pllc_out0 },
{ "ClockSource_PllMOut0", nvbct_lib_id_spi_clock_source_pllm_out0 },
{ "ClockSource_ClockM", nvbct_lib_id_spi_clock_source_clockm },
{ "PllPOut0", nvbct_lib_id_spi_clock_source_pllp_out0 },
{ "PllCOut0", nvbct_lib_id_spi_clock_source_pllc_out0 },
{ "PllMOut0", nvbct_lib_id_spi_clock_source_pllm_out0 },
{ "ClockM", nvbct_lib_id_spi_clock_source_clockm },
{ NULL, 0 }
};
static enum_item s_nvboot_memory_type_table[] =
{
{ "NvBootMemoryType_None", nvbct_lib_id_memory_type_none },
{ "NvBootMemoryType_Ddr2", nvbct_lib_id_memory_type_ddr2 },
{ "NvBootMemoryType_Ddr", nvbct_lib_id_memory_type_ddr },
{ "NvBootMemoryType_LpDdr2", nvbct_lib_id_memory_type_lpddr2 },
{ "NvBootMemoryType_LpDdr", nvbct_lib_id_memory_type_lpddr },
{ "None", nvbct_lib_id_memory_type_none },
{ "Ddr2", nvbct_lib_id_memory_type_ddr2 },
{ "Ddr", nvbct_lib_id_memory_type_ddr },
{ "LpDdr2", nvbct_lib_id_memory_type_lpddr2 },
{ "LpDdr", nvbct_lib_id_memory_type_lpddr },
{ NULL, 0 }
};
static field_item s_sdram_field_table[] =
{
{ "MemoryType", token_memory_type,
field_type_enum, s_nvboot_memory_type_table },
{ "PllMChargePumpSetupControl", token_pllm_charge_pump_setup_ctrl,
field_type_u32, NULL },
{ "PllMLoopFilterSetupControl", token_pllm_loop_filter_setup_ctrl,
field_type_u32, NULL },
{ "PllMInputDivider", token_pllm_input_divider,
field_type_u32, NULL },
{ "PllMFeedbackDivider", token_pllm_feedback_divider,
field_type_u32, NULL },
{ "PllMPostDivider", token_pllm_post_divider,
field_type_u32, NULL },
{ "PllMStableTime", token_pllm_stable_time,
field_type_u32, NULL },
{ "EmcClockDivider", token_emc_clock_divider,
field_type_u32, NULL },
{ "EmcAutoCalInterval", token_emc_auto_cal_interval,
field_type_u32, NULL },
{ "EmcAutoCalConfig", token_emc_auto_cal_config,
field_type_u32, NULL },
{ "EmcAutoCalWait", token_emc_auto_cal_wait,
field_type_u32, NULL },
{ "EmcPinProgramWait", token_emc_pin_program_wait,
field_type_u32, NULL },
{ "EmcRc", token_emc_rc,
field_type_u32, NULL },
{ "EmcRfc", token_emc_rfc,
field_type_u32, NULL },
{ "EmcRas", token_emc_ras,
field_type_u32, NULL },
{ "EmcRp", token_emc_rp,
field_type_u32, NULL },
{ "EmcR2w", token_emc_r2w,
field_type_u32, NULL },
{ "EmcW2r", token_emc_w2r,
field_type_u32, NULL },
{ "EmcR2p", token_emc_r2p,
field_type_u32, NULL },
{ "EmcW2p", token_emc_w2p,
field_type_u32, NULL },
{ "EmcRrd", token_emc_rrd,
field_type_u32, NULL },
{ "EmcRdRcd", token_emc_rd_rcd,
field_type_u32, NULL },
{ "EmcWrRcd", token_emc_wr_rcd,
field_type_u32, NULL },
{ "EmcRext", token_emc_rext,
field_type_u32, NULL },
{ "EmcWdv", token_emc_wdv,
field_type_u32, NULL },
{ "EmcQUseExtra", token_emc_quse_extra,
field_type_u32, NULL },
{ "EmcQUse", token_emc_quse,
field_type_u32, NULL },
{ "EmcQRst", token_emc_qrst,
field_type_u32, NULL },
{ "EmcQSafe", token_emc_qsafe,
field_type_u32, NULL },
{ "EmcRdv", token_emc_rdv,
field_type_u32, NULL },
{ "EmcRefresh", token_emc_refresh,
field_type_u32, NULL },
{ "EmcBurstRefreshNum", token_emc_burst_refresh_num,
field_type_u32, NULL },
{ "EmcPdEx2Wr", token_emc_pdex2wr,
field_type_u32, NULL },
{ "EmcPdEx2Rd", token_emc_pdex2rd,
field_type_u32, NULL },
{ "EmcPChg2Pden", token_emc_pchg2pden,
field_type_u32, NULL },
{ "EmcAct2Pden", token_emc_act2pden,
field_type_u32, NULL },
{ "EmcAr2Pden", token_emc_ar2pden,
field_type_u32, NULL },
{ "EmcRw2Pden", token_emc_rw2pden,
field_type_u32, NULL },
{ "EmcTxsr", token_emc_txsr,
field_type_u32, NULL },
{ "EmcTcke", token_emc_tcke,
field_type_u32, NULL },
{ "EmcTfaw", token_emc_tfaw,
field_type_u32, NULL },
{ "EmcTrpab", token_emc_trpab,
field_type_u32, NULL },
{ "EmcTClkStable", token_emc_tclkstable,
field_type_u32, NULL },
{ "EmcTClkStop", token_emc_tclkstop,
field_type_u32, NULL },
{ "EmcTRefBw", token_emc_trefbw,
field_type_u32, NULL },
{ "EmcFbioCfg1", token_emc_fbio_cfg1,
field_type_u32, NULL },
{ "EmcFbioDqsibDlyMsb", token_emc_fbio_dqsib_dly_msb,
field_type_u32, NULL },
{ "EmcFbioDqsibDly", token_emc_fbio_dqsib_dly,
field_type_u32, NULL },
{ "EmcFbioQuseDlyMsb", token_emc_fbio_quse_dly_msb,
field_type_u32, NULL },
{ "EmcFbioQuseDly", token_emc_fbio_quse_dly,
field_type_u32, NULL },
{ "EmcFbioCfg5", token_emc_fbio_cfg5,
field_type_u32, NULL },
{ "EmcFbioCfg6", token_emc_fbio_cfg6,
field_type_u32, NULL },
{ "EmcFbioSpare", token_emc_fbio_spare,
field_type_u32, NULL },
{ "EmcMrsResetDllWait", token_emc_mrs_reset_dll_wait,
field_type_u32, NULL },
{ "EmcMrsResetDll", token_emc_mrs_reset_dll,
field_type_u32, NULL },
{ "EmcMrsDdr2DllReset", token_emc_mrs_ddr2_dll_reset,
field_type_u32, NULL },
{ "EmcMrs", token_emc_mrs,
field_type_u32, NULL },
{ "EmcEmrsEmr2", token_emc_emrs_emr2,
field_type_u32, NULL },
{ "EmcEmrsEmr3", token_emc_emrs_emr3,
field_type_u32, NULL },
{ "EmcEmrsDdr2DllEnable", token_emc_emrs_ddr2_dll_enable,
field_type_u32, NULL },
{ "EmcEmrsDdr2OcdCalib", token_emc_emrs_ddr2_ocd_calib,
field_type_u32, NULL },
{ "EmcEmrs", token_emc_emrs,
field_type_u32, NULL },
{ "EmcMrw1", token_emc_mrw1,
field_type_u32, NULL },
{ "EmcMrw2", token_emc_mrw2,
field_type_u32, NULL },
{ "EmcMrw3", token_emc_mrw3,
field_type_u32, NULL },
{ "EmcMrwResetCommand", token_emc_mrw_reset_command,
field_type_u32, NULL },
{ "EmcMrwResetNInitWait", token_emc_mrw_reset_ninit_wait,
field_type_u32, NULL },
{ "EmcAdrCfg1", token_emc_adr_cfg1,
field_type_u32, NULL },
{ "EmcAdrCfg", token_emc_adr_cfg,
field_type_u32, NULL },
{ "McEmemCfg", token_mc_emem_Cfg,
field_type_u32, NULL },
{ "McLowLatencyConfig", token_mc_lowlatency_config,
field_type_u32, NULL },
{ "EmcCfg2", token_emc_cfg2,
field_type_u32, NULL },
{ "EmcCfgDigDll", token_emc_cfg_dig_dll,
field_type_u32, NULL },
{ "EmcCfgClktrim0", token_emc_cfg_clktrim0,
field_type_u32, NULL },
{ "EmcCfgClktrim1", token_emc_cfg_clktrim1,
field_type_u32, NULL },
{ "EmcCfgClktrim2", token_emc_cfg_clktrim2,
field_type_u32, NULL },
{ "EmcCfg", token_emc_cfg,
field_type_u32, NULL },
{ "EmcDbg", token_emc_dbg,
field_type_u32, NULL },
{ "AhbArbitrationXbarCtrl", token_ahb_arbitration_xbar_ctrl,
field_type_u32, NULL },
{ "EmcDllXformDqs", token_emc_dll_xform_dqs,
field_type_u32, NULL },
{ "EmcDllXformQUse", token_emc_dll_xform_quse,
field_type_u32, NULL },
{ "WarmBootWait", token_warm_boot_wait,
field_type_u32, NULL },
{ "EmcCttTermCtrl", token_emc_ctt_term_ctrl,
field_type_u32, NULL },
{ "EmcOdtWrite", token_emc_odt_write,
field_type_u32, NULL },
{ "EmcOdtRead", token_emc_odt_read,
field_type_u32, NULL },
{ "EmcZcalRefCnt", token_emc_zcal_ref_cnt,
field_type_u32, NULL },
{ "EmcZcalWaitCnt", token_emc_zcal_wait_cnt,
field_type_u32, NULL },
{ "EmcZcalMrwCmd", token_emc_zcal_mrw_cmd,
field_type_u32, NULL },
{ "EmcMrwZqInitDev0", token_emc_mrw_zq_init_dev0,
field_type_u32, NULL },
{ "EmcMrwZqInitDev1", token_emc_mrw_zq_init_dev1,
field_type_u32, NULL },
{ "EmcMrwZqInitWait", token_emc_mrw_zq_init_wait,
field_type_u32, NULL },
{ "EmcDdr2Wait", token_emc_ddr2_wait,
field_type_u32, NULL },
{ "PmcDdrPwr", token_pmc_ddr_pwr,
field_type_u32, NULL },
{ "ApbMiscGpXm2CfgAPadCtrl", token_apb_misc_gp_xm2cfga_pad_ctrl,
field_type_u32, NULL },
{ "ApbMiscGpXm2CfgCPadCtrl2", token_apb_misc_gp_xm2cfgc_pad_ctrl2,
field_type_u32, NULL },
{ "ApbMiscGpXm2CfgCPadCtrl", token_apb_misc_gp_xm2cfgc_pad_ctrl,
field_type_u32, NULL },
{ "ApbMiscGpXm2CfgDPadCtrl2", token_apb_misc_gp_xm2cfgd_pad_ctrl2,
field_type_u32, NULL },
{ "ApbMiscGpXm2CfgDPadCtrl", token_apb_misc_gp_xm2cfgd_pad_ctrl,
field_type_u32, NULL },
{ "ApbMiscGpXm2ClkCfgPadCtrl", token_apb_misc_gp_xm2clkcfg_Pad_ctrl,
field_type_u32, NULL },
{ "ApbMiscGpXm2CompPadCtrl", token_apb_misc_gp_xm2comp_pad_ctrl,
field_type_u32, NULL },
{ "ApbMiscGpXm2VttGenPadCtrl", token_apb_misc_gp_xm2vttgen_pad_ctrl
,field_type_u32, NULL },
{ NULL, 0, 0, NULL }
};
static field_item s_nand_table[] =
{
{ "ClockDivider", token_clock_divider, field_type_u32, NULL },
/* Note: NandTiming2 must appear before NandTiming, because NandTiming
* is a prefix of NandTiming2 and would otherwise match first.
*/
{ "NandTiming2", token_nand_timing2, field_type_u32, NULL },
{ "NandTiming", token_nand_timing, field_type_u32, NULL },
{ "BlockSizeLog2", token_block_size_log2, field_type_u32, NULL },
{ "PageSizeLog2", token_page_size_log2, field_type_u32, NULL },
{ NULL, 0, 0, NULL }
};
static field_item s_sdmmc_table[] =
{
{ "ClockDivider", token_clock_divider, field_type_u32, NULL },
{ "DataWidth", token_data_width,
field_type_enum, s_sdmmc_data_width_table },
{ "MaxPowerClassSupported", token_max_power_class_supported,
field_type_u32, NULL },
{ NULL, 0, 0, NULL }
};
static field_item s_spiflash_table[] =
{
{ "ReadCommandTypeFast", token_read_command_type_fast,
field_type_u8, NULL },
{ "ClockDivider", token_clock_divider, field_type_u8, NULL },
{ "ClockSource", token_clock_source,
field_type_enum, s_spi_clock_source_table },
{ NULL, 0, 0, NULL }
};
static parse_subfield_item s_device_type_table[] =
{
{ "NandParams.", token_nand_params,
s_nand_table, set_nand_param },
{ "SdmmcParams.", token_sdmmc_params,
s_sdmmc_table, set_sdmmc_param },
{ "SpiFlashParams.", token_spiflash_params,
s_spiflash_table, set_spiflash_param },
{ NULL, 0, NULL }
};
static parse_item s_top_level_items[] =
{
{ "Bctfile=", token_bct_file, parse_bct_file },
{ "Attribute=", token_attribute, parse_value_u32 },
{ "Attribute[", token_attribute, parse_array },
{ "PageSize=", token_page_size, parse_value_u32 },
{ "BlockSize=", token_block_size, parse_value_u32 },
{ "PartitionSize=", token_partition_size, parse_value_u32 },
{ "DevType[", token_dev_type, parse_array },
{ "DeviceParam[", token_dev_param, parse_dev_param },
{ "SDRAM[", token_sdram, parse_sdram_param },
{ "BootLoader=", token_bootloader, parse_bootloader },
{ "Redundancy=", token_redundancy, parse_value_u32 },
{ "Version=", token_version, parse_value_u32 },
{ "AddOn[", token_addon, parse_addon },
{ NULL, 0, NULL } /* Must be last */
};
/* Macro to simplify parser code a bit. */
#define PARSE_COMMA(x) if (*rest != ',') return (x); rest++
/* This parsing code was initially borrowed from nvcamera_config_parse.c. */
/* Returns the address of the character after the parsed data. */
static char *
parse_u32(char *statement, u_int32_t *val)
{
u_int32_t value = 0;
while (*statement=='0') {
statement++;
}
if (*statement=='x' || *statement=='X') {
statement++;
while (((*statement >= '0') && (*statement <= '9')) ||
((*statement >= 'a') && (*statement <= 'f')) ||
((*statement >= 'A') && (*statement <= 'F'))) {
value *= 16;
if ((*statement >= '0') && (*statement <= '9')) {
value += (*statement - '0');
} else if ((*statement >= 'A') &&
(*statement <= 'F')) {
value += ((*statement - 'A')+10);
} else {
value += ((*statement - 'a')+10);
}
statement++;
}
} else {
while (*statement >= '0' && *statement <= '9') {
value = value*10 + (*statement - '0');
statement++;
}
}
*val = value;
return statement;
}
char *
parse_u8(char *statement, u_int32_t *val)
{
char *retval;
retval = parse_u32(statement, val);
if (*val > 0xff) {
printf("Warning: Parsed 8-bit value that exceeded 8-bits.\n");
printf(" Parsed value = %d. Remaining text = %s\n",
*val, retval);
}
return retval;
}
/* This parsing code was initially borrowed from nvcamera_config_parse.c. */
/* Returns the address of the character after the parsed data. */
static char *
parse_filename(char *statement, char *name, int chars_remaining)
{
while (((*statement >= '0') && (*statement <= '9')) ||
((*statement >= 'a') && (*statement <= 'z')) ||
((*statement >= 'A') && (*statement <= 'Z')) ||
(*statement == '\\') ||
(*statement == '/' ) ||
(*statement == '~' ) ||
(*statement == '_' ) ||
(*statement == '-' ) ||
(*statement == '+' ) ||
(*statement == ':' ) ||
(*statement == '.' )) {
/* Check if the filename buffer is out of space, preserving one
* character to null terminate the string.
*/
chars_remaining--;
if (chars_remaining < 1)
return NULL;
*name++ = *statement++;
}
/* Null terminate the filename. */
*name = '\0';
return statement;
}
static char
*parse_field_name(char *rest, field_item *field_table, field_item **field)
{
u_int32_t i;
u_int32_t field_name_len = 0;
assert(field_table != NULL);
assert(rest != NULL);
assert(field != NULL);
while(*(rest + field_name_len) != '=')
field_name_len++;
/* Parse the field name. */
for (i = 0; field_table[i].name != NULL; i++) {
if ((strlen(field_table[i].name) == field_name_len) &&
!strncmp(field_table[i].name,
rest,
field_name_len)) {
*field = &(field_table[i]);
rest = rest + field_name_len;
return rest;
}
}
/* Field wasn't found or a parse error occurred. */
return NULL;
}
static char
*parse_field_value(build_image_context *context,
char *rest,
field_item *field,
u_int32_t *value)
{
assert(rest != NULL);
assert(field != NULL);
assert((field->type != field_type_enum)
|| (field->enum_table != NULL));
switch (field->type) {
case field_type_enum:
rest = parse_enum(context, rest, field->enum_table, value);
break;
case field_type_u32:
rest = parse_u32(rest, value);
break;
case field_type_u8:
rest = parse_u8(rest, value);
break;
default:
printf("Unexpected field type %d at line %d\n",
field->type, __LINE__);
rest = NULL;
break;
}
return rest;
}
static char *
parse_enum(build_image_context *context,
char *statement,
enum_item *table,
u_int32_t *val)
{
int i;
char *rest;
int e;
for (i = 0; table[i].name != NULL; i++) {
if (!strncmp(table[i].name, statement,
strlen(table[i].name))) {
/* Lookup the correct value for the token. */
e = context->bctlib.get_value(table[i].value,
val, context->bct);
if (e) {
printf("Error looking up token %d.\n", table[i].value);
printf("\"%s\" is not valid for this chip.\n",
table[i].name);
*val = -1;
}
rest = statement + strlen(table[i].name);
return rest;
}
}
return parse_u32(statement, val);
}
/*
* parse_bootloader(): Processes commands to set a bootloader.
*/
static int parse_bootloader(build_image_context *context,
parse_token token,
char *rest)
{
char filename[MAX_BUFFER];
char e_state[MAX_STR_LEN];
u_int32_t load_addr;
u_int32_t entry_point;
assert(context != NULL);
assert(rest != NULL);
if (context->generate_bct != 0)
return 0;
/* Parse the file name. */
rest = parse_filename(rest, filename, MAX_BUFFER);
if (rest == NULL)
return 1;
PARSE_COMMA(1);
/* Parse the load address. */
rest = parse_u32(rest, &load_addr);
if (rest == NULL)
return 1;
PARSE_COMMA(1);
/* Parse the entry point. */
rest = parse_u32(rest, &entry_point);
if (rest == NULL)
return 1;
PARSE_COMMA(1);
/* Parse the end state. */
rest = parse_end_state(rest, e_state, MAX_STR_LEN);
if (rest == NULL)
return 1;
if (strncmp(e_state, "Complete", strlen("Complete")))
return 1;
/* Parsing has finished - set the bootloader */
return set_bootloader(context, filename, load_addr, entry_point);
}
/*
* parse_array(): Processes commands to set an array value.
*/
static int
parse_array(build_image_context *context, parse_token token, char *rest)
{
u_int32_t index;
u_int32_t value;
assert(context != NULL);
assert(rest != NULL);
/* Parse the index. */
rest = parse_u32(rest, &index);
if (rest == NULL)
return 1;
/* Parse the closing bracket. */
if (*rest != ']')
return 1;
rest++;
/* Parse the equals sign.*/
if (*rest != '=')
return 1;
rest++;
/* Parse the value based on the field table. */
switch(token) {
case token_attribute:
rest = parse_u32(rest, &value);
break;
case token_dev_type:
rest = parse_enum(context, rest, s_devtype_table, &value);
break;
default:
/* Unknown token */
return 1;
}
if (rest == NULL)
return 1;
/* Store the result. */
return context_set_array(context, index, token, value);
}
/*
* parse_value_u32(): General handler for setting u_int32_t values in config files.
*/
static int parse_value_u32(build_image_context *context,
parse_token token,
char *rest)
{
u_int32_t value;
assert(context != NULL);
assert(rest != NULL);
rest = parse_u32(rest, &value);
if (rest == NULL)
return 1;
return context_set_value(context, token, value);
}
static int
parse_bct_file(build_image_context *context, parse_token token, char *rest)
{
char filename[MAX_BUFFER];
assert(context != NULL);
assert(rest != NULL);
/* Parse the file name. */
rest = parse_filename(rest, filename, MAX_BUFFER);
if (rest == NULL)
return 1;
/* Parsing has finished - set the bctfile */
context->bct_filename = filename;
/* Read the bct file to buffer */
read_bct_file(context);
return 0;
}
static char *
parse_string(char *statement, char *uname, int chars_remaining)
{
memset(uname, 0, chars_remaining);
while (((*statement >= '0') && (*statement <= '9')) ||
((*statement >= 'A') && (*statement <= 'Z')) ||
((*statement >= 'a') && (*statement <= 'z'))) {
*uname++ = *statement++;
if (--chars_remaining < 0) {
printf("String length beyond the boundary!!!");
return NULL;
}
}
*uname = '\0';
return statement;
}
static char *
parse_end_state(char *statement, char *uname, int chars_remaining)
{
while (((*statement >= 'a') && (*statement <= 'z')) ||
((*statement >= 'A') && (*statement <= 'Z'))) {
*uname++ = *statement++;
if (--chars_remaining < 0)
return NULL;
}
*uname = '\0';
return statement;
}
/* Parse the addon component */
static int
parse_addon(build_image_context *context, parse_token token, char *rest)
{
char filename[MAX_BUFFER];
char u_name[4];
char e_state[MAX_STR_LEN];
u_int32_t index;
u_int32_t item_attr;
u_int32_t others;
char other_str[MAX_STR_LEN];
assert(context != NULL);
assert(rest != NULL);
/* Parse the index. */
rest = parse_u32(rest, &index);
if (rest == NULL)
return 1;
/* Parse the closing bracket. */
if (*rest != ']')
return 1;
rest++;
/* Parse the equals sign.*/
if (*rest != '=')
return 1;
rest++;
rest = parse_filename(rest, filename, MAX_BUFFER);
if (rest == NULL)
return 1;
if (set_addon_filename(context, filename, index) != 0)
return 1;
PARSE_COMMA(1);
rest = parse_string(rest, u_name, 3);
if (rest == NULL) {
printf("Unique name should be 3 characters.\n");
return 1;
}
if (set_unique_name(context, u_name, index) != 0)
return 1;
PARSE_COMMA(1);
rest = parse_u32(rest, &item_attr);
if (rest == NULL)
return 1;
if (set_addon_attr(context, item_attr, index) != 0)
return 1;
PARSE_COMMA(1);
if (*rest == '0' && (*(rest + 1) == 'x' ||*(rest + 1) == 'X')) {
rest = parse_u32(rest, &others);
if (set_other_field(context, NULL, others, index) != 0)
return 1;
} else {
rest = parse_string(rest, other_str, 16);
if (set_other_field(context, other_str, 0, index) != 0)
return 1;
}
if (rest == NULL)
return 1;
PARSE_COMMA(1);
rest = parse_end_state(rest, e_state, MAX_STR_LEN);
if (rest == NULL)
return 1;
if (strncmp(e_state, "Complete", strlen("Complete")))
return 1;
return 0;
}
static int
parse_dev_param(build_image_context *context, parse_token token, char *rest)
{
u_int32_t i;
u_int32_t value;
field_item *field;
u_int32_t index;
parse_subfield_item *device_item = NULL;
assert(context != NULL);
assert(rest != NULL);
/* Parse the index. */
rest = parse_u32(rest, &index);
if (rest == NULL)
return 1;
/* Parse the closing bracket. */
if (*rest != ']')
return 1;
rest++;
/* Parse the following '.' */
if (*rest != '.')
return 1;
rest++;
/* Parse the device name. */
for (i = 0; s_device_type_table[i].prefix != NULL; i++) {
if (!strncmp(s_device_type_table[i].prefix,
rest, strlen(s_device_type_table[i].prefix))) {
device_item = &(s_device_type_table[i]);
rest = rest + strlen(s_device_type_table[i].prefix);
/* Parse the field name. */
rest = parse_field_name(rest,
s_device_type_table[i].field_table,
&field);
if (rest == NULL)
return 1;
/* Parse the equals sign.*/
if (*rest != '=')
return 1;
rest++;
/* Parse the value based on the field table. */
rest = parse_field_value(context, rest, field, &value);
if (rest == NULL)
return 1;
return device_item->process(context,
index, field->token, value);
}
}
return 1;
}
static int
parse_sdram_param(build_image_context *context, parse_token token, char *rest)
{
u_int32_t value;
field_item *field;
u_int32_t index;
assert(context != NULL);
assert(rest != NULL);
/* Parse the index. */
rest = parse_u32(rest, &index);
if (rest == NULL)
return 1;
/* Parse the closing bracket. */
if (*rest != ']')
return 1;
rest++;
/* Parse the following '.' */
if (*rest != '.')
return 1;
rest++;
/* Parse the field name. */
rest = parse_field_name(rest, s_sdram_field_table, &field);
if (rest == NULL)
return 1;
/* Parse the equals sign.*/
if (*rest != '=')
return 1;
rest++;
/* Parse the value based on the field table. */
rest = parse_field_value(context, rest, field, &value);
if (rest == NULL)
return 1;
/* Store the result. */
return set_sdram_param(context, index, field->token, value);
}
/* Return 0 on success, 1 on error */
static int
process_statement(build_image_context *context, char *statement)
{
int i;
char *rest;
for (i = 0; s_top_level_items[i].prefix != NULL; i++) {
if (!strncmp(s_top_level_items[i].prefix, statement,
strlen(s_top_level_items[i].prefix))) {
rest = statement + strlen(s_top_level_items[i].prefix);
return s_top_level_items[i].process(context,
s_top_level_items[i].token,
rest);
}
}
/* If this point was reached, there was a processing error. */
return 1;
}
/* Note: Basic parsing borrowed from nvcamera_config.c */
void process_config_file(build_image_context *context)
{
char buffer[MAX_BUFFER];
int space = 0;
char current;
u_int8_t c_eol_comment_start = 0; // True after first slash
u_int8_t comment = 0;
u_int8_t string = 0;
u_int8_t equal_encounter = 0;
assert(context != NULL);
assert(context->config_file != NULL);
while ((current = fgetc(context->config_file)) !=EOF) {
if (space >= (MAX_BUFFER-1)) {
/* if we exceeded the max buffer size, it is likely
due to a missing semi-colon at the end of a line */
printf("Config file parsing error!");
exit(1);
}
/* Handle failure to complete "//" comment token.
Insert the '/' into the busffer and proceed with
processing the current character. */
if (c_eol_comment_start && current != '/') {
c_eol_comment_start = 0;
buffer[space++] = '/';
}
switch (current) {
case '\"': /* " indicates start or end of a string */
if (!comment) {
string ^= 1;
buffer[space++] = current;
}
break;
case ';':
if (!string && !comment) {
buffer[space++] = '\0';
/* Process a statement. */
if (process_statement(context, buffer)) {
goto error;
}
space = 0;
equal_encounter = 0;
} else if (string) {
buffer[space++] = current;
}
break;
case '/':
if (!string && !comment) {
if (c_eol_comment_start) {
/* EOL comment started. */
comment = 1;
c_eol_comment_start = 0;
} else {
/* Potential start of eol comment. */
c_eol_comment_start = 1;
}
} else if (!comment) {
buffer[space++] = current;
}
break;
/* ignore whitespace. uses fallthrough */
case '\n':
case '\r': /* carriage returns end comments */
string = 0;
comment = 0;
c_eol_comment_start = 0;
case ' ':
case '\t':
if (string) {
buffer[space++] = current;
}
break;
case '#':
if (!string) {
comment = 1;
} else {
buffer[space++] = current;
}
break;
default:
if (!comment) {
buffer[space++] = current;
if (current == '=') {
if (!equal_encounter) {
equal_encounter = 1;
} else {
goto error;
}
}
}
break;
}
}
return;
error:
printf("Error parsing: %s\n", buffer);
exit(1);
}