apc-p15-tool/file_header.go

package main

import (
	"encoding/binary"
	"errors"

	"github.com/sigurn/crc16"
)

// makeFileHeader generates the 228 byte header to prepend to the .p15
// as required by APC UPS NMC. Only 2,048 bit RSA keys are supported
// so the header will always be written with that key size assumption
func makeFileHeader(p15File []byte) ([]byte, error) {
	// original reference code from: https://github.com/bbczeuz/apc_tools
	// // add APC header
	// *(uint32_t *)(buf + 0) = 1; // always 1
	// *(uint32_t *)(buf + 4) = 1; // always 1
	// strncpy((char *)(buf + 8), "SecurityWizard103", 0xC8); // apparently supposed to identify the creating tool, SecWiz v1.04 sill puts 103 here
	// *(uint32_t *)(buf + 208) = 1; // always 1
	// *(uint32_t *)(buf + 212) = 1; // always 1
	// *(uint32_t *)(buf + 216) = fileSize; // size of the following data
	// *(uint32_t *)(buf + 208) = keySize; // 1 for 1024 key, otherwise (2048 bit) 2
	// // 16 bit checksums are moved to 32 bit int with sign-extension
	// *(uint32_t *)(buf + 220) = (int32_t)calc_cksum(0, buf + 228, fileSize); // checksum of the original file
	// *(uint32_t *)(buf + 224) = (int32_t)calc_cksum(0, buf, 224); // checksum of the APC header

	// NOTE: This line is unused as it seems the APC tool code always writes this as a 1 for 2,048 bit
	// 		*(uint32_t *)(buf + 208) = keySize; // 1 for 1024 key, otherwise (2048 bit) 2
	// Unsure why this was in original code but seems irrelevant

	header := make([]byte, 228)

	// always 1
	header[0] = 1

	// always 1
	header[4] = 1

	// apparently supposed to identify the creating tool
	toolName := "NMCSecurityWizardCLI100"
	toolNameBytes := []byte(toolName)
	if len(toolNameBytes) > 200 {
		return nil, errors.New("tool name is too big to fit in header")
	}
	copy(header[8:], toolNameBytes)

	// always 1
	header[208] = 1

	// always 1
	header[212] = 1

	// size of the data after the header (the actual p15 file)
	size := make([]byte, 4)
	binary.LittleEndian.PutUint32(size, uint32(len(p15File)))
	copy(header[216:], size)

	// check sums (CRC Table)
	checksumTable := crc16.MakeTable(crc16.CRC16_XMODEM)

	// file checksum
	fileChecksum := make([]byte, 4)
	binary.LittleEndian.PutUint16(fileChecksum, crc16.Checksum(p15File, checksumTable))
	copy(header[220:], fileChecksum)

	// header checksum
	headerChecksum := make([]byte, 4)
	binary.LittleEndian.PutUint16(headerChecksum, crc16.Checksum(header[:224], checksumTable))
	copy(header[224:], headerChecksum)

	// this was in original code but

	return header, nil
}
initial commit: header * func to write the header APC NMC expects 2024-01-19 22:26:14 +00:00			`package main`

			`import (`
			`"encoding/binary"`
			`"errors"`

			`"github.com/sigurn/crc16"`
			`)`

			`// makeFileHeader generates the 228 byte header to prepend to the .p15`
			`// as required by APC UPS NMC. Only 2,048 bit RSA keys are supported`
			`// so the header will always be written with that key size assumption`
			`func makeFileHeader(p15File []byte) ([]byte, error) {`
			`// original reference code from: https://github.com/bbczeuz/apc_tools`
			`// // add APC header`
			`// (uint32_t )(buf + 0) = 1; // always 1`
			`// (uint32_t )(buf + 4) = 1; // always 1`
			`// strncpy((char *)(buf + 8), "SecurityWizard103", 0xC8); // apparently supposed to identify the creating tool, SecWiz v1.04 sill puts 103 here`
			`// (uint32_t )(buf + 208) = 1; // always 1`
			`// (uint32_t )(buf + 212) = 1; // always 1`
			`// (uint32_t )(buf + 216) = fileSize; // size of the following data`
			`// (uint32_t )(buf + 208) = keySize; // 1 for 1024 key, otherwise (2048 bit) 2`
			`// // 16 bit checksums are moved to 32 bit int with sign-extension`
			`// (uint32_t )(buf + 220) = (int32_t)calc_cksum(0, buf + 228, fileSize); // checksum of the original file`
			`// (uint32_t )(buf + 224) = (int32_t)calc_cksum(0, buf, 224); // checksum of the APC header`

			`// NOTE: This line is unused as it seems the APC tool code always writes this as a 1 for 2,048 bit`
			`// (uint32_t )(buf + 208) = keySize; // 1 for 1024 key, otherwise (2048 bit) 2`
			`// Unsure why this was in original code but seems irrelevant`

			`header := make([]byte, 228)`

			`// always 1`
			`header[0] = 1`

			`// always 1`
			`header[4] = 1`

			`// apparently supposed to identify the creating tool`
			`toolName := "NMCSecurityWizardCLI100"`
			`toolNameBytes := []byte(toolName)`
			`if len(toolNameBytes) > 200 {`
			`return nil, errors.New("tool name is too big to fit in header")`
			`}`
			`copy(header[8:], toolNameBytes)`

			`// always 1`
			`header[208] = 1`

			`// always 1`
			`header[212] = 1`

			`// size of the data after the header (the actual p15 file)`
			`size := make([]byte, 4)`
			`binary.LittleEndian.PutUint32(size, uint32(len(p15File)))`
			`copy(header[216:], size)`

			`// check sums (CRC Table)`
			`checksumTable := crc16.MakeTable(crc16.CRC16_XMODEM)`

			`// file checksum`
			`fileChecksum := make([]byte, 4)`
			`binary.LittleEndian.PutUint16(fileChecksum, crc16.Checksum(p15File, checksumTable))`
			`copy(header[220:], fileChecksum)`

			`// header checksum`
			`headerChecksum := make([]byte, 4)`
			`binary.LittleEndian.PutUint16(headerChecksum, crc16.Checksum(header[:224], checksumTable))`
			`copy(header[224:], headerChecksum)`

			`// this was in original code but`

			`return header, nil`
			`}`