mirror of
https://github.com/RfidResearchGroup/proxmark3.git
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530 lines
20 KiB
C
530 lines
20 KiB
C
//-----------------------------------------------------------------------------
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// Jonathan Westhues, April 2006
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// iZsh <izsh at fail0verflow.com>, 2014
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//
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// This code is licensed to you under the terms of the GNU GPL, version 2 or,
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// at your option, any later version. See the LICENSE.txt file for the text of
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// the license.
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//-----------------------------------------------------------------------------
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// Routines to load the FPGA image, and then to configure the FPGA's major
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// mode once it is configured.
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//-----------------------------------------------------------------------------
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#include "fpgaloader.h"
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#include "proxmark3_arm.h"
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#include "appmain.h"
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#include "BigBuf.h"
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#include "ticks.h"
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#include "dbprint.h"
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#include "util.h"
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#include "zlib.h"
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#include "fpga.h"
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#include "string.h"
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// remember which version of the bitstream we have already downloaded to the FPGA
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static int downloaded_bitstream = 0;
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// this is where the bitstreams are located in memory:
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extern uint8_t _binary_obj_fpga_all_bit_z_start, _binary_obj_fpga_all_bit_z_end;
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static uint8_t *fpga_image_ptr = NULL;
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static uint32_t uncompressed_bytes_cnt;
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#define OUTPUT_BUFFER_LEN 80
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//-----------------------------------------------------------------------------
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// Set up the Serial Peripheral Interface as master
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// Used to write the FPGA config word
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// May also be used to write to other SPI attached devices like an LCD
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//-----------------------------------------------------------------------------
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static void DisableSpi(void) {
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//* Reset all the Chip Select register
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AT91C_BASE_SPI->SPI_CSR[0] = 0;
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AT91C_BASE_SPI->SPI_CSR[1] = 0;
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AT91C_BASE_SPI->SPI_CSR[2] = 0;
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AT91C_BASE_SPI->SPI_CSR[3] = 0;
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// Reset the SPI mode
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AT91C_BASE_SPI->SPI_MR = 0;
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// Disable all interrupts
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AT91C_BASE_SPI->SPI_IDR = 0xFFFFFFFF;
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// SPI disable
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AT91C_BASE_SPI->SPI_CR = AT91C_SPI_SPIDIS;
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}
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void SetupSpi(int mode) {
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// PA1 -> SPI_NCS3 chip select (MEM)
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// PA10 -> SPI_NCS2 chip select (LCD)
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// PA11 -> SPI_NCS0 chip select (FPGA)
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// PA12 -> SPI_MISO Master-In Slave-Out
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// PA13 -> SPI_MOSI Master-Out Slave-In
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// PA14 -> SPI_SPCK Serial Clock
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// Disable PIO control of the following pins, allows use by the SPI peripheral
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AT91C_BASE_PIOA->PIO_PDR = GPIO_NCS0 | GPIO_MISO | GPIO_MOSI | GPIO_SPCK;
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// Peripheral A
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AT91C_BASE_PIOA->PIO_ASR = GPIO_NCS0 | GPIO_MISO | GPIO_MOSI | GPIO_SPCK;
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// Peripheral B
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//AT91C_BASE_PIOA->PIO_BSR |= GPIO_NCS2;
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//enable the SPI Peripheral clock
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AT91C_BASE_PMC->PMC_PCER = (1 << AT91C_ID_SPI);
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// Enable SPI
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AT91C_BASE_SPI->SPI_CR = AT91C_SPI_SPIEN;
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switch (mode) {
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case SPI_FPGA_MODE:
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AT91C_BASE_SPI->SPI_MR =
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(0 << 24) | // Delay between chip selects (take default: 6 MCK periods)
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(0xE << 16) | // Peripheral Chip Select (selects FPGA SPI_NCS0 or PA11)
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(0 << 7) | // Local Loopback Disabled
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AT91C_SPI_MODFDIS | // Mode Fault Detection disabled
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(0 << 2) | // Chip selects connected directly to peripheral
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AT91C_SPI_PS_FIXED | // Fixed Peripheral Select
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AT91C_SPI_MSTR; // Master Mode
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AT91C_BASE_SPI->SPI_CSR[0] =
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(1 << 24) | // Delay between Consecutive Transfers (32 MCK periods)
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(1 << 16) | // Delay Before SPCK (1 MCK period)
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(6 << 8) | // Serial Clock Baud Rate (baudrate = MCK/6 = 24MHz/6 = 4M baud
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AT91C_SPI_BITS_16 | // Bits per Transfer (16 bits)
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(0 << 3) | // Chip Select inactive after transfer
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AT91C_SPI_NCPHA | // Clock Phase data captured on leading edge, changes on following edge
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(0 << 0); // Clock Polarity inactive state is logic 0
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break;
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/*
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case SPI_LCD_MODE:
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AT91C_BASE_SPI->SPI_MR =
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( 0 << 24) | // Delay between chip selects (take default: 6 MCK periods)
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(0xB << 16) | // Peripheral Chip Select (selects LCD SPI_NCS2 or PA10)
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( 0 << 7) | // Local Loopback Disabled
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( 1 << 4) | // Mode Fault Detection disabled
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( 0 << 2) | // Chip selects connected directly to peripheral
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( 0 << 1) | // Fixed Peripheral Select
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( 1 << 0); // Master Mode
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AT91C_BASE_SPI->SPI_CSR[2] =
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( 1 << 24) | // Delay between Consecutive Transfers (32 MCK periods)
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( 1 << 16) | // Delay Before SPCK (1 MCK period)
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( 6 << 8) | // Serial Clock Baud Rate (baudrate = MCK/6 = 24MHz/6 = 4M baud
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AT91C_SPI_BITS_9 | // Bits per Transfer (9 bits)
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( 0 << 3) | // Chip Select inactive after transfer
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( 1 << 1) | // Clock Phase data captured on leading edge, changes on following edge
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( 0 << 0); // Clock Polarity inactive state is logic 0
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break;
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*/
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default:
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DisableSpi();
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break;
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}
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}
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//-----------------------------------------------------------------------------
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// Set up the synchronous serial port with the set of options that fits
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// the FPGA mode. Both RX and TX are always enabled.
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//-----------------------------------------------------------------------------
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void FpgaSetupSsc(void) {
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// First configure the GPIOs, and get ourselves a clock.
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AT91C_BASE_PIOA->PIO_ASR =
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GPIO_SSC_FRAME |
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GPIO_SSC_DIN |
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GPIO_SSC_DOUT |
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GPIO_SSC_CLK;
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AT91C_BASE_PIOA->PIO_PDR = GPIO_SSC_DOUT;
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AT91C_BASE_PMC->PMC_PCER = (1 << AT91C_ID_SSC);
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// Now set up the SSC proper, starting from a known state.
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AT91C_BASE_SSC->SSC_CR = AT91C_SSC_SWRST;
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// RX clock comes from TX clock, RX starts on Transmit Start,
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// data and frame signal is sampled on falling edge of RK
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AT91C_BASE_SSC->SSC_RCMR = SSC_CLOCK_MODE_SELECT(1) | SSC_CLOCK_MODE_START(1);
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// 8 bits per transfer, no loopback, MSB first, 1 transfer per sync
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// pulse, no output sync
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AT91C_BASE_SSC->SSC_RFMR = SSC_FRAME_MODE_BITS_IN_WORD(8) | AT91C_SSC_MSBF | SSC_FRAME_MODE_WORDS_PER_TRANSFER(0);
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// TX clock comes from TK pin, no clock output, outputs change on falling
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// edge of TK, frame sync is sampled on rising edge of TK, start TX on rising edge of TF
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AT91C_BASE_SSC->SSC_TCMR = SSC_CLOCK_MODE_SELECT(2) | SSC_CLOCK_MODE_START(5);
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// tx framing is the same as the rx framing
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AT91C_BASE_SSC->SSC_TFMR = AT91C_BASE_SSC->SSC_RFMR;
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AT91C_BASE_SSC->SSC_CR = AT91C_SSC_RXEN | AT91C_SSC_TXEN;
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}
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//-----------------------------------------------------------------------------
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// Set up DMA to receive samples from the FPGA. We will use the PDC, with
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// a single buffer as a circular buffer (so that we just chain back to
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// ourselves, not to another buffer).
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//-----------------------------------------------------------------------------
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bool FpgaSetupSscDma(uint8_t *buf, int len) {
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if (buf == NULL) return false;
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FpgaDisableSscDma();
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AT91C_BASE_PDC_SSC->PDC_RPR = (uint32_t) buf; // transfer to this memory address
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AT91C_BASE_PDC_SSC->PDC_RCR = len; // transfer this many bytes
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AT91C_BASE_PDC_SSC->PDC_RNPR = (uint32_t) buf; // next transfer to same memory address
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AT91C_BASE_PDC_SSC->PDC_RNCR = len; // ... with same number of bytes
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FpgaEnableSscDma();
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return true;
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}
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//----------------------------------------------------------------------------
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// Uncompress (inflate) the FPGA data. Returns one decompressed byte with
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// each call.
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//----------------------------------------------------------------------------
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static int get_from_fpga_combined_stream(z_streamp compressed_fpga_stream, uint8_t *output_buffer) {
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if (fpga_image_ptr == compressed_fpga_stream->next_out) { // need more data
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compressed_fpga_stream->next_out = output_buffer;
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compressed_fpga_stream->avail_out = OUTPUT_BUFFER_LEN;
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fpga_image_ptr = output_buffer;
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int res = inflate(compressed_fpga_stream, Z_SYNC_FLUSH);
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if (res != Z_OK)
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Dbprintf("inflate returned: %d, %s", res, compressed_fpga_stream->msg);
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if (res < 0)
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return res;
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}
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uncompressed_bytes_cnt++;
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return *fpga_image_ptr++;
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}
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//----------------------------------------------------------------------------
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// Undo the interleaving of several FPGA config files. FPGA config files
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// are combined into one big file:
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// 288 bytes from FPGA file 1, followed by 288 bytes from FGPA file 2, etc.
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//----------------------------------------------------------------------------
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static int get_from_fpga_stream(int bitstream_version, z_streamp compressed_fpga_stream, uint8_t *output_buffer) {
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while ((uncompressed_bytes_cnt / FPGA_INTERLEAVE_SIZE) % fpga_bitstream_num != (bitstream_version - 1)) {
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// skip undesired data belonging to other bitstream_versions
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get_from_fpga_combined_stream(compressed_fpga_stream, output_buffer);
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}
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return get_from_fpga_combined_stream(compressed_fpga_stream, output_buffer);
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}
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static voidpf fpga_inflate_malloc(voidpf opaque, uInt items, uInt size) {
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return BigBuf_malloc(items * size);
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}
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// free eventually allocated BigBuf memory
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static void fpga_inflate_free(voidpf opaque, voidpf address) {
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BigBuf_free();
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BigBuf_Clear_ext(false);
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}
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//----------------------------------------------------------------------------
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// Initialize decompression of the respective (HF or LF) FPGA stream
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//----------------------------------------------------------------------------
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static bool reset_fpga_stream(int bitstream_version, z_streamp compressed_fpga_stream, uint8_t *output_buffer) {
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uint8_t header[FPGA_BITSTREAM_FIXED_HEADER_SIZE];
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uncompressed_bytes_cnt = 0;
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// initialize z_stream structure for inflate:
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compressed_fpga_stream->next_in = &_binary_obj_fpga_all_bit_z_start;
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compressed_fpga_stream->avail_in = &_binary_obj_fpga_all_bit_z_end - &_binary_obj_fpga_all_bit_z_start;
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compressed_fpga_stream->next_out = output_buffer;
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compressed_fpga_stream->avail_out = OUTPUT_BUFFER_LEN;
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compressed_fpga_stream->zalloc = &fpga_inflate_malloc;
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compressed_fpga_stream->zfree = &fpga_inflate_free;
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int res = inflateInit2(compressed_fpga_stream, 0);
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if (res < 0)
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return false;
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fpga_image_ptr = output_buffer;
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for (uint16_t i = 0; i < FPGA_BITSTREAM_FIXED_HEADER_SIZE; i++)
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header[i] = get_from_fpga_stream(bitstream_version, compressed_fpga_stream, output_buffer);
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// Check for a valid .bit file (starts with bitparse_fixed_header)
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if (memcmp(bitparse_fixed_header, header, FPGA_BITSTREAM_FIXED_HEADER_SIZE) == 0)
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return true;
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return false;
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}
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static void DownloadFPGA_byte(uint8_t w) {
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#define SEND_BIT(x) { if(w & (1<<x) ) HIGH(GPIO_FPGA_DIN); else LOW(GPIO_FPGA_DIN); HIGH(GPIO_FPGA_CCLK); LOW(GPIO_FPGA_CCLK); }
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SEND_BIT(7);
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SEND_BIT(6);
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SEND_BIT(5);
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SEND_BIT(4);
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SEND_BIT(3);
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SEND_BIT(2);
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SEND_BIT(1);
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SEND_BIT(0);
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}
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// Download the fpga image starting at current stream position with length FpgaImageLen bytes
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static void DownloadFPGA(int bitstream_version, int FpgaImageLen, z_streamp compressed_fpga_stream, uint8_t *output_buffer) {
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int i = 0;
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AT91C_BASE_PIOA->PIO_OER = GPIO_FPGA_ON;
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AT91C_BASE_PIOA->PIO_PER = GPIO_FPGA_ON;
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HIGH(GPIO_FPGA_ON); // ensure everything is powered on
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SpinDelay(50);
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LED_D_ON();
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// These pins are inputs
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AT91C_BASE_PIOA->PIO_ODR =
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GPIO_FPGA_NINIT |
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GPIO_FPGA_DONE;
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// PIO controls the following pins
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AT91C_BASE_PIOA->PIO_PER =
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GPIO_FPGA_NINIT |
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GPIO_FPGA_DONE;
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// Enable pull-ups
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AT91C_BASE_PIOA->PIO_PPUER =
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GPIO_FPGA_NINIT |
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GPIO_FPGA_DONE;
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// setup initial logic state
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HIGH(GPIO_FPGA_NPROGRAM);
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LOW(GPIO_FPGA_CCLK);
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LOW(GPIO_FPGA_DIN);
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// These pins are outputs
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AT91C_BASE_PIOA->PIO_OER =
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GPIO_FPGA_NPROGRAM |
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GPIO_FPGA_CCLK |
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GPIO_FPGA_DIN;
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// enter FPGA configuration mode
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LOW(GPIO_FPGA_NPROGRAM);
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SpinDelay(50);
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HIGH(GPIO_FPGA_NPROGRAM);
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i = 100000;
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// wait for FPGA ready to accept data signal
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while ((i) && (!(AT91C_BASE_PIOA->PIO_PDSR & GPIO_FPGA_NINIT))) {
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i--;
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}
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// crude error indicator, leave both red LEDs on and return
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if (i == 0) {
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LED_C_ON();
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LED_D_ON();
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return;
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}
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for (i = 0; i < FpgaImageLen; i++) {
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int b = get_from_fpga_stream(bitstream_version, compressed_fpga_stream, output_buffer);
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if (b < 0) {
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Dbprintf("Error %d during FpgaDownload", b);
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break;
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}
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DownloadFPGA_byte(b);
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}
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// continue to clock FPGA until ready signal goes high
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i = 100000;
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while ((i--) && (!(AT91C_BASE_PIOA->PIO_PDSR & GPIO_FPGA_DONE))) {
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HIGH(GPIO_FPGA_CCLK);
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LOW(GPIO_FPGA_CCLK);
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}
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// crude error indicator, leave both red LEDs on and return
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if (i == 0) {
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LED_C_ON();
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LED_D_ON();
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return;
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}
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LED_D_OFF();
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}
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/* Simple Xilinx .bit parser. The file starts with the fixed opaque byte sequence
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* 00 09 0f f0 0f f0 0f f0 0f f0 00 00 01
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* After that the format is 1 byte section type (ASCII character), 2 byte length
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* (big endian), <length> bytes content. Except for section 'e' which has 4 bytes
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* length.
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*/
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static int bitparse_find_section(int bitstream_version, char section_name, uint32_t *section_length, z_streamp compressed_fpga_stream, uint8_t *output_buffer) {
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int result = 0;
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#define MAX_FPGA_BIT_STREAM_HEADER_SEARCH 100 // maximum number of bytes to search for the requested section
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uint16_t numbytes = 0;
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while (numbytes < MAX_FPGA_BIT_STREAM_HEADER_SEARCH) {
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char current_name = get_from_fpga_stream(bitstream_version, compressed_fpga_stream, output_buffer);
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numbytes++;
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uint32_t current_length = 0;
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if (current_name < 'a' || current_name > 'e') {
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/* Strange section name, abort */
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break;
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}
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current_length = 0;
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switch (current_name) {
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case 'e':
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/* Four byte length field */
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current_length += get_from_fpga_stream(bitstream_version, compressed_fpga_stream, output_buffer) << 24;
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current_length += get_from_fpga_stream(bitstream_version, compressed_fpga_stream, output_buffer) << 16;
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numbytes += 2;
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default: /* Fall through, two byte length field */
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current_length += get_from_fpga_stream(bitstream_version, compressed_fpga_stream, output_buffer) << 8;
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current_length += get_from_fpga_stream(bitstream_version, compressed_fpga_stream, output_buffer) << 0;
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numbytes += 2;
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}
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if (current_name != 'e' && current_length > 255) {
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/* Maybe a parse error */
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break;
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}
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if (current_name == section_name) {
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/* Found it */
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*section_length = current_length;
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result = 1;
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break;
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}
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for (uint16_t i = 0; i < current_length && numbytes < MAX_FPGA_BIT_STREAM_HEADER_SEARCH; i++) {
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get_from_fpga_stream(bitstream_version, compressed_fpga_stream, output_buffer);
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numbytes++;
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}
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}
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return result;
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}
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//----------------------------------------------------------------------------
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// Check which FPGA image is currently loaded (if any). If necessary
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// decompress and load the correct (HF or LF) image to the FPGA
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//----------------------------------------------------------------------------
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void FpgaDownloadAndGo(int bitstream_version) {
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// check whether or not the bitstream is already loaded
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if (downloaded_bitstream == bitstream_version) {
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FpgaEnableTracing();
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return;
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}
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// Send waiting time extension request as this will take a while
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send_wtx(1500);
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z_stream compressed_fpga_stream;
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uint8_t output_buffer[OUTPUT_BUFFER_LEN] = {0x00};
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bool verbose = (DBGLEVEL > 3);
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// make sure that we have enough memory to decompress
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BigBuf_free();
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BigBuf_Clear_ext(verbose);
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if (!reset_fpga_stream(bitstream_version, &compressed_fpga_stream, output_buffer))
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return;
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uint32_t bitstream_length;
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if (bitparse_find_section(bitstream_version, 'e', &bitstream_length, &compressed_fpga_stream, output_buffer)) {
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DownloadFPGA(bitstream_version, bitstream_length, &compressed_fpga_stream, output_buffer);
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downloaded_bitstream = bitstream_version;
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}
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inflateEnd(&compressed_fpga_stream);
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// turn off antenna
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FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
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// free eventually allocated BigBuf memory
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BigBuf_free();
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BigBuf_Clear_ext(false);
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}
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//-----------------------------------------------------------------------------
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// Send a 16 bit command/data pair to the FPGA.
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// The bit format is: C3 C2 C1 C0 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0
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// where C is the 4 bit command and D is the 12 bit data
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//
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// @params cmd and v gets or over eachother. Take careful note of overlapping bits.
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//-----------------------------------------------------------------------------
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void FpgaSendCommand(uint16_t cmd, uint16_t v) {
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SetupSpi(SPI_FPGA_MODE);
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while ((AT91C_BASE_SPI->SPI_SR & AT91C_SPI_TXEMPTY) == 0); // wait for the transfer to complete
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AT91C_BASE_SPI->SPI_TDR = AT91C_SPI_LASTXFER | cmd | v; // send the data
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while (!(AT91C_BASE_SPI->SPI_SR & AT91C_SPI_RDRF)) {}; // wait till transfer is complete
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}
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//-----------------------------------------------------------------------------
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// Write the FPGA setup word (that determines what mode the logic is in, read
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// vs. clone vs. etc.). This is now a special case of FpgaSendCommand() to
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// avoid changing this function's occurence everywhere in the source code.
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//-----------------------------------------------------------------------------
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void FpgaWriteConfWord(uint16_t v) {
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FpgaSendCommand(FPGA_CMD_SET_CONFREG, v);
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}
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//-----------------------------------------------------------------------------
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// enable/disable FPGA internal tracing
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//-----------------------------------------------------------------------------
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void FpgaEnableTracing(void) {
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FpgaSendCommand(FPGA_CMD_TRACE_ENABLE, 1);
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}
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void FpgaDisableTracing(void) {
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FpgaSendCommand(FPGA_CMD_TRACE_ENABLE, 0);
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}
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//-----------------------------------------------------------------------------
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// Set up the CMOS switches that mux the ADC: four switches, independently
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// closable, but should only close one at a time. Not an FPGA thing, but
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// the samples from the ADC always flow through the FPGA.
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//-----------------------------------------------------------------------------
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void SetAdcMuxFor(uint32_t whichGpio) {
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#ifndef WITH_FPC_USART
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// When compiled without FPC USART support
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AT91C_BASE_PIOA->PIO_OER =
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GPIO_MUXSEL_HIPKD |
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GPIO_MUXSEL_LOPKD |
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GPIO_MUXSEL_LORAW |
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GPIO_MUXSEL_HIRAW;
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AT91C_BASE_PIOA->PIO_PER =
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GPIO_MUXSEL_HIPKD |
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GPIO_MUXSEL_LOPKD |
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GPIO_MUXSEL_LORAW |
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GPIO_MUXSEL_HIRAW;
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LOW(GPIO_MUXSEL_HIPKD);
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LOW(GPIO_MUXSEL_LOPKD);
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LOW(GPIO_MUXSEL_HIRAW);
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LOW(GPIO_MUXSEL_LORAW);
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HIGH(whichGpio);
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#else
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if ((whichGpio == GPIO_MUXSEL_LORAW) || (whichGpio == GPIO_MUXSEL_HIRAW))
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return;
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// FPC USART uses HIRAW/LOWRAW pins, so they are excluded here.
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AT91C_BASE_PIOA->PIO_OER = GPIO_MUXSEL_HIPKD | GPIO_MUXSEL_LOPKD;
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AT91C_BASE_PIOA->PIO_PER = GPIO_MUXSEL_HIPKD | GPIO_MUXSEL_LOPKD;
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LOW(GPIO_MUXSEL_HIPKD);
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LOW(GPIO_MUXSEL_LOPKD);
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HIGH(whichGpio);
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#endif
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}
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void Fpga_print_status(void) {
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DbpString(_BLUE_("Currently loaded FPGA image"));
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Dbprintf(" mode....................%s", fpga_version_information[downloaded_bitstream - 1]);
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}
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int FpgaGetCurrent(void) {
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return downloaded_bitstream;
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}
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// Turns off the antenna,
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// log message
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// if HF, Disable SSC DMA
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// turn off trace and leds off.
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void switch_off(void) {
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if (DBGLEVEL > 3) Dbprintf("switch_off");
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FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
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if (downloaded_bitstream == FPGA_BITSTREAM_HF)
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FpgaDisableSscDma();
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set_tracing(false);
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LEDsoff();
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}
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